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Pegasus: The cost of spying with one of the most powerful spyware in the world

Pegasus The Cost of Spying with the Most Powerful Spyware
Pegasus by Jacques Gascuel: This article will be updated with any new information on the topic.

Pegasus: The Cost of Spying

Pegasus is a powerful spyware that has been used by several countries to spy on political figures, journalists, human rights activists or opponents. How does it work, who has been spied on, what are the consequences, and how much does it cost? Find out in this article.

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Pegasus: The Cost of Spying with the Most Powerful Spyware in the World

Pegasus is a spyware developed by the Israeli company NSO Group. It allows to remotely monitor the activities of a mobile phone. According to an investigation conducted by a consortium of international media, several countries have used this software to spy on political figures, journalists, human rights activists or opponents.

The scandal of Pegasus has provoked a global outcry. It has raised many questions about the legality, the ethics and the consequences of this cyber-surveillance. How does Pegasus work? Who has been spied on by Pegasus? Who is responsible for the spying? What are the consequences of the spying? And most importantly, how much does Pegasus cost?

In this article, we will try to answer these questions in detail. We will use reliable and verified sources of information. We will also present some statistics and comparisons to give you an idea of the scale and the impact of Pegasus.

What is Pegasus?

Pegasus is a spyware, also called spy software. It allows to remotely monitor the activities of a mobile phone. It can access the messages, the calls, the contacts, the photos, the videos, the location, the microphone or the camera of the target phone. It can also activate or deactivate certain functions of the phone, such as Wi-Fi or Bluetooth.

Pegasus: a spyware that raises many questions

Pegasus is a powerful spyware that the NSO group designed. It can monitor and steal data and activities from mobile phones secretly. The NSO group is an Israeli company founded in 2010 by former members of Unit 8200; the Israeli military intelligence service. The company claims that its software aims to fight terrorism and organized crime; such as pedophiles or cartel leaders. It also claims that it only sells it to governments or authorized security agencies; with the approval of the Israeli Ministry of Defense. The countries that acquire these systems must respect their commitments stipulated in the license.

However, a consortium of international media outlets revealed that many countries have used Pegasus for other purposes. They have monitored various people, including politicians, journalists, human rights activists and political opponents. This raises many questions about the protection of privacy and human rights in the digital age. It also exposes the vulnerabilities and challenges of cybersecurity in a world where surveillance technologies are becoming more powerful and discreet.

Pegasus works by exploiting security flaws in the operating systems of phones, such as iOS or Android. It can infect a phone in two ways: either by sending a malicious link to the target phone, which must click on it to be infected; or by using a technique called “zero-click”, which allows to infect a phone without any interaction from the user.

Pegasus is a very sophisticated and discreet software. It can self-destruct or camouflage itself to avoid being detected. It can also adapt to security updates of operating systems to continue working. According to NSO Group, Pegasus is able to target more than 50,000 phone numbers in the world.

Unveiling Pegasus Attack Vectors: Stealth and Subterfuge in Cyber Espionage

In the Shadows of Cyber Espionage: Pegasus Strikes Unseen

In the realm of cyber espionage, Pegasus has mastered the art of covert infiltration, employing a spectrum of attack vectors designed to leave its targets unaware and defenseless. As a specialized journalist in the field of espionage, we delve into the clandestine world of Pegasus, shedding light on the methods it employs to breach digital fortresses.

Email: The Trojan Horse

Pegasus’s espionage campaign often commences with a seemingly innocuous email. The target receives a carefully crafted message, concealing a malicious payload. This deception operates with remarkable subtlety, bypassing traditional safeguards. Victims unknowingly execute the payload, granting Pegasus a foothold into their digital lives.

SMS Intrigue: Texts That Betray

SMS messages can become instruments of betrayal when wielded by Pegasus. Crafted to exploit vulnerabilities in messaging apps, these seemingly harmless texts harbor malicious intent. Clicking on a compromised message can be all it takes for Pegasus to silently infiltrate a device.

Web of Deceit: Navigating Vulnerabilities

Pegasus’s reach extends into the very fabric of the internet. Web browsers, portals to information and connectivity, can become gateways for intrusion. By exploiting unpatched browser vulnerabilities, Pegasus sidesteps user interaction, infiltrating systems silently.

WhatsApp’s Vulnerable Connection

Even encrypted platforms like WhatsApp are not impervious to Pegasus’s advances. The spyware capitalizes on vulnerabilities in this widely used messaging app. A simple call on WhatsApp can translate into a gateway for Pegasus’s covert surveillance.

Zero-Click: A Stealthy Intrusion

The pinnacle of Pegasus’s subterfuge is the “Zero-Click” attack vector. Unlike other methods, “Zero-Click” requires no user interaction whatsoever. It preys upon deep-seated operating system vulnerabilities. Pegasus slips in unnoticed, operating in the shadows, and evading all user alerts.

The Stealth Within Pegasus: An Unseen Hand

Pegasus’s ability to infiltrate devices without leaving a trace raises profound concerns regarding detection and defense. Victims may remain oblivious to their compromised status, and traditional security measures struggle to counteract this stealthy foe.

Pegasus Continues to Threaten iPhone User Privacy and Security

In the ever-evolving landscape of digital security, the Pegasus spyware remains a significant threat to iPhone users’ privacy and security. Despite Apple’s rigorous efforts to enhance iOS safeguards, the sophisticated surveillance tool developed by the Israeli firm NSO Group has continually adapted, finding new ways to infiltrate the defenses of one of the world’s most popular smartphones.

Apple’s Proactive Measures Against Pegasus

Apple has been at the forefront of the battle against cyber threats, releasing timely security updates and patches aimed at thwarting Pegasus’s advanced techniques. The company’s commitment to user privacy has led to the development of new security features designed to protect sensitive information from unauthorized access. However, the dynamic nature of cyber threats, exemplified by Pegasus, poses an ongoing challenge to even the most secure platforms.

The Impact on iPhone Users

For iPhone users, the threat of Pegasus spyware is more than just a privacy concern; it’s a direct attack on their freedom of expression and the security of their personal data. The ability of Pegasus to covertly monitor conversations, access encrypted messages, and even activate cameras and microphones without consent has raised alarms worldwide. This level of surveillance capability not only endangers individual users but also threatens the integrity of global communications networks.

Recent Revelations in Jordan Amplify Global Pegasus Concerns

In 2024, shocking reports emerged, spotlighting Jordan’s use of Pegasus against journalists and activists. This development underscores the pervasive reach of NSO Group’s spyware. Allegedly, the Jordanian authorities targeted individuals crucial to civil society. These actions have stoked fears about privacy invasions and press freedom suppression. Amidst Israel-Jordan tensions, this move signals a worrying trend of using cyberweapons to stifle dissent. Consequently, global watchdogs are calling for stringent controls on spyware sales and usage. This incident not only highlights the urgent need for robust digital rights protections but also raises significant ethical questions about surveillance technologies’ global impact.

India’s Pegasus Scandal: A Deep Dive into Surveillance and Democracy

The year 2023 brought to light India’s alleged surveillance of journalists and opposition figures using Pegasus. This revelation has sparked a nationwide debate on privacy, press freedom, and democratic values. High-profile journalists and political dissenters reportedly fell victim to this covert tool, leading to widespread condemnation. Despite government denials and a lack of cooperation with Supreme Court probes, the issue remains unresolved. Such use of Pegasus not only threatens individual freedoms but also undermines the very fabric of democratic societies. As countries grapple with the dual use of surveillance technologies, the call for transparent, regulated, and ethical practices has never been louder. This situation serves as a crucial reminder of the delicate balance between national security and personal liberties.

How Pegasus spied on the Catalan independence movement and the Spanish government

Pegasus, a powerful spyware designed by the NSO Group, has the capability to clandestinely monitor and steal data and activities from mobile phones. A consortium of international media outlets exposed the fact that numerous countries have employed Pegasus to conduct surveillance on various individuals, including political figures, journalists, human rights activists, and political opponents.

In Spain, the Pegasus scandal unfolded, implicating over 60 individuals associated with the Catalan independence movement. According to a report from Citizen Lab, Pegasus was utilized to target these individuals between 2017 and 2020. In an alarming twist, the Spanish government itself accused Pegasus of spying on its own officials in 2021.

The Catalan independence movement under surveillance

The Catalan independence movement represents a political and social endeavor that aims to secure Catalonia’s independence from Spain. This movement gained significant momentum in 2017 when the Catalan government conducted an unauthorized referendum on self-determination. In response, the Spanish government took action by suspending Catalonia’s autonomy and apprehending several of its leaders.

Citizen Lab’s report revealed that Pegasus had specifically targeted more than 60 individuals associated with the Catalan independence movement from 2017 to 2020. This list includes notable figures such as three presidents of the Generalitat of Catalonia: Artur Mas, Quim Torra, and Pere Aragonès. These individuals have taken legal action, filing a complaint against Paz Esteban and the NSO Group. Paz Esteban serves as the director of CNI, Spain’s intelligence service.

Additional alleged victims encompass Members of the European Parliament, lawyers, journalists, and activists. For example, Carles Puigdemont, the former president of Catalonia who sought refuge in Belgium following the referendum, was also subjected to Pegasus surveillance. The list further includes Roger Torrent, the former speaker of the Catalan parliament, and Jordi Cañas, a pro-union Member of the European Parliament.

The Spanish government under attack

The situation escalated in significance when the Spanish government disclosed that Pegasus had also surveilled its own officials in 2021. The government attributed this to an “external attack” but refrained from identifying the perpetrators. Various media outlets hinted at the possibility of Moroccan involvement, occurring against the backdrop of a diplomatic standoff between the two nations.

Prime Minister Pedro Sánchez and Defense Minister Margarita Robles were among the primary targets. In February 2021, while on an official visit to Morocco, their mobile phones fell victim to Pegasus infections8. This compromise allowed the spyware access to their messages, calls, contacts, photos, videos, location, microphone, and camera.

Additionally, Foreign Minister Arancha González Laya and Interior Minister Fernando Grande-Marlaska faced Pegasus surveillance in May 2021. This intrusion occurred during their management of a migration crisis in Ceuta, a Spanish enclave in North Africa that witnessed a mass influx of Moroccan migrants.

The outcry of the victims

Those who have potentially or definitively fallen victim to Pegasus expressed their outrage and concerns surrounding this spying scandal. They vehemently decried it as a grave infringement upon their fundamental rights and vociferously demanded both explanations and accountability. Furthermore, they sought access to the findings of the judicial investigation and the data collected by the spyware.

For example, Quim Torra expressed feeling “violated” and “humiliated” by the intrusive spying. He squarely pointed fingers at the Spanish state and demanded an apology from Prime Minister Sánchez. Torra also declared his intent to pursue legal action against NSO Group and CNI.

Likewise, Pedro Sánchez conveyed his profound worry and anger regarding the spying. He committed to seeking clarifications from Morocco and Israel while simultaneously reinforcing his government’s cybersecurity measures.

What are the consequences of the spying?

Spying by Pegasus inflicted severe consequences on the victims, as well as society and democracy. It violated the victims’ right to privacy, freedom of expression, freedom of information, and presumption of innocence. Additionally, it jeopardized the security, reputation, and well-being of the victims.

Pegasus’ spying activities also eroded trust and cooperation among various actors and institutions. It fostered an atmosphere of suspicion and hostility between Spain and Morocco, neighboring countries with historical and economic ties. Furthermore, it deepened divisions between Madrid and Barcelona, two regions with political and cultural distinctions. The spying undermined the credibility and legitimacy of the Spanish government and its intelligence service.

Moreover, Pegasus’ spying efforts raised awareness and concerns regarding the dangers and abuses of cyber-surveillance. It revealed the lack of control and accountability over the use of spyware by governments and private companies. The spying underscored the necessity for enhanced protection and regulation for human rights defenders, journalists, activists, and other vulnerable groups.

The cost of Pegasus by country: an estimation based on the available sources

NSO Group, an Israeli company specialized in cyber-surveillance, developed Pegasus, a spyware capable of infecting smartphones and accessing their data, including messages, photos, contacts, and location. Pegasus can also activate the microphone and camera of the phone, effectively turning it into a spying tool. But how much does it cost to use Pegasus? And which countries can afford it? This section will attempt to answer these questions based on the available information.

Firstly, the cost of using Pegasus depends on several factors, such as the number of phones targeted, the duration of surveillance, and the type of contract signed with NSO Group. According to The Guardian’s estimate, which relies on internal documents from NSO Group dating back to 2016, a license to monitor 50 smartphones cost 20.7 million euros per year at that time. Similarly, a license for monitoring 100 smartphones cost 41.4 million euros per year. It remains uncertain whether these prices have changed since 2016 or if NSO Group has offered discounts or rebates to certain clients.

Subsequently, the estimated cost of Pegasus by country derives from the number of phones targeted and the operation’s duration, using the average cost provided by The Guardian. These data are approximations and may vary depending on the sources. For instance, Saudi Arabia targeted approximately 15,000 numbers with Pegasus, according to Le Monde, but The Washington Post suggests a figure of 10,000. Likewise, Le Monde indicates that Morocco commenced using Pegasus in 2017, whereas Citizen Lab asserts it was in 2016.

Here is a summary table of the estimates of the cost of Pegasus by country:

Country Number of Phones Targeted Duration of Operation (years) Estimated Cost (in millions of euros)
Spain 60 6 248.4
Saudi Arabia 10 000 5 2070
Azerbaijan 5 000 4 828
Bahrain 3 000 3 372.6
Kazakhstan 1 500 2 124.2
Mexico 15 000 2 1242
Morocco 10 000 5 2070
Rwanda 3 500 4 579.6
Hungary 300 4 49.8
India 1 000 3 124.2
United Arab Emirates 10 000 5 2070

Finally, the total estimated cost of Pegasus for these ten countries would be about 10.5 billion euros over a period of five years.

The cost of Pegasus compared to other indicators

In addition to these estimates, we can also compare the cost of Pegasus with other indicators or expenditures, such as the average income or the budget of a country. This can help us to gain insight into the scale and impact of Pegasus.

For instance, according to Statista, Spain’s average annual income per capita in 2020 was $30,722. El País reported the budget of the Spanish Intelligence Agency (CNI) to be $331 million in 2020, while El Mundo stated that Catalonia’s budget was $40 billion in the same year.

Here is a summary table of the data:

Source Estimated Cost of Pegasus
Le Monde $7 to $20 million per year for 50 to 100 smartphones
TEHTRIS $9 million for 10 targets, $650,000 for a single target
Alain Jourdan $500 million for Spain (Source credibility unclear)
Average Income in Spain (2020) $30,722 per year
Budget of CNI (Spanish Intelligence Agency, 2020) $331 million
Budget of Catalonia (2020) $40 billion

The table demonstrates that Pegasus costs are very high compared to other indicators or expenditures. For instance, according to our previous estimation in the preceding section, Spain would have expended about 248.4 million euros over six years to monitor 60 phones with Pegasus. This amount equals approximately 8 times the budget of the Spanish Intelligence Agency (CNI) in 2020 or about 6% of Catalonia’s budget in the same year. Furthermore, this sum is equivalent to about 8,000 times the average annual income per capita in Spain in 2020.

In conclusion comparison

This comparison highlights that Pegasus represents a significant expense for its users, funds that could have been allocated to other purposes or needs. Moreover, it emphasizes the disproportionate nature of Pegasus costs concerning its victims, often ordinary citizens or government employees.

Assessing the cost of Pegasus with certainty is challenging because it depends on several factors, such as the number of phones targeted, the duration of surveillance, and the type of contract NSO Group signed. To obtain a clearer and more comprehensive view of the cost and scope of Pegasus use, access to NSO Group’s and its clients’ internal data would be necessary.

Statistics on Pegasus: a glimpse into the scale and diversity of Pegasus espionage

NSO Group, an Israeli company specialized in cyber-surveillance, developed Pegasus, a spyware. Pegasus can infect smartphones and access their data, such as messages, photos, contacts, and location. Pegasus can also activate the microphone and camera of the phone, turning it into a spying tool.

But who are the victims of Pegasus? And how many are they? In this section, we will present some statistics based on the available data.

It is important to note that these statistics are not comprehensive, as a sample of 50,000 phone numbers selected by NSO Group’s clients as potential targets forms the basis for them. Forbidden Stories and Amnesty International obtained this sample and shared it with a consortium of media outlets that conducted an investigation. The actual number of Pegasus targets may be much higher, as NSO Group claims to have more than 60 clients in 40 countries.

According to The Guardian’s analysis of the sample:

  • More than 1,000 individuals in 50 different countries have been confirmed as successfully infected with Pegasus.
  • Over 600 politicians and government officials, including heads of state, prime ministers, and cabinet ministers, were identified as potential targets.
  • More than 180 journalists working for prominent media outlets like CNN, The New York Times, Al Jazeera, or Le Monde were selected as potential targets.
  • Over 85 human rights activists, including members of organizations like Amnesty International and Human Rights Watch, were identified as potential targets.

According to Le Monde’s analysis of the same sample:

  • Morocco selected more than 15,000 individuals as potential targets between 2017 and 2019.
  • Mexico selected over 10,000 potential targets between 2016 and 2017.
  • Saudi Arabia selected more than 1,400 potential targets between 2016 and 2019.
  • India selected over 800 potential targets between 2017 and 2019.

Here is a summary table of the key findings from both sources:

Data Source Key Findings
The Guardian (Sample of 50,000 Numbers) Over:

  • 1,000 infections in 50 countries
  • 600 politicians and government officials targeted
  • 180 journalists selected as potential targets
  • 85 human rights activists identified as potential targets
Le Monde (Sample of 50,000 Numbers) Over:

  • 15,000 potential targets in Morocco (2017-2019)
  • 10,000 potential targets in Mexico (2016-2017)
  • 1,400 potential targets in Saudi Arabia (2016-2019)
  • 800 potential targets in India (2017-2019)

These statistics reveal Pegasus surveillance’s extensive reach and diversity, affecting a wide range of individuals and countries with varying motivations and interests. Moreover, they show that Pegasus surveillance has been ongoing for several years without anyone detecting or stopping it.

In conclusion, these statistics provide a glimpse into the scale and diversity of Pegasus espionage. However, they are not exhaustive and may not fully reflect the true extent of Pegasus surveillance. To have a clearer and more complete picture of the victims and the consequences of Pegasus, access to the internal data of NSO Group and its clients would be necessary.

Pegasus Datasheet: a summary of the features and capabilities of Pegasus spyware

Pegasus is a spyware developed by the Israeli company NSO Group, designed for remote monitoring of mobile phone activities. Pegasus can infect smartphones and access their data, such as messages, calls, contacts, photos, videos, location, microphone, and camera. Pegasus can also control some functions of the phone, such as enabling or disabling Wi-Fi, Bluetooth, and more. Pegasus can infect phones through different methods, such as malicious link delivery or the insidious “zero-click” technique, which does not require any user interaction. The duration and frequency of Pegasus surveillance depend on the contract signed with NSO Group, which can vary from client to client.

Below is a datasheet detailing Pegasus, including price estimates and periodicity:

CHARACTERISTIC VALUE ATTACK VECTOR
Name Pegasus  
Developer NSO Group  
Type Spyware  
Function Remote monitoring of mobile phone activities  
Infection Method Malicious link delivery or the insidious “zero-click” technique Email, SMS, Web Browsing, WhatsApp, Zero-Click
Data Access Messages, calls, contacts, photos, videos, location, microphone, camera  
Function Access Capable of enabling/disabling Wi-Fi, Bluetooth, and more  
Periodicity Varied, dependent on contract duration and frequency of updates  
Price Estimate $7 to $20 million per year for 50 to 100 smartphones

Assessing the Pegasus Threat Level After Security Updates and Utilizing Anti-Pegasus Tools

Pegasus is a spyware that exploits security flaws in the operating systems of phones, such as iOS or Android. To reduce the level of threat of Pegasus, one of the ways is to update and patch these operating systems regularly, to fix the vulnerabilities that Pegasus can use.

How security updates can protect the devices from Pegasus

In September 2021, Apple released iOS 14.8 and macOS 11.6 as security updates to protect its devices from the zero-click exploit used by Pegasus. Citizen Lab discovered this exploit, called FORCEDENTRY, in August 2021. FORCEDENTRY allowed Pegasus to infect iPhones without any user interaction. Apple urged its users to install the updates as soon as possible to protect themselves from Pegasus.

Google also released security updates for Android devices in August 2021, according to Linternaute. These updates fixed several vulnerabilities that Pegasus or other spyware could exploit. Google did not specify if these vulnerabilities were related to Pegasus, but it advised its users to update their devices regularly to ensure their security.

However, updating and patching the operating systems may not be enough to prevent or detect Pegasus infections. Pegasus can adapt to security updates and use new exploits that security experts have not yet discovered or fixed.

Advanced Detection and Protection Against Pegasus Spyware

In the ongoing effort to combat the sophisticated Pegasus spyware, cybersecurity experts have developed advanced tools and methods to detect and neutralize such threats. Kaspersky, a leader in global cybersecurity, has recently unveiled a groundbreaking approach that enhances our capability to identify and mitigate the impact of iOS spyware including Pegasus, as well as newer threats like Reign and Predator.

Kaspersky’s Innovative Detection Method

Leveraging the untapped potential of forensic artifacts, Kaspersky’s Global Research and Analysis Team (GReAT) has introduced a lightweight yet powerful method to detect signs of sophisticated spyware infections. By analyzing the Shutdown.log found within the iOS sysdiagnose archive, researchers can now identify anomalies indicative of a Pegasus infection, such as unusual “sticky” processes. This method provides a minimally intrusive, resource-efficient way to pinpoint potential spyware compromises.

Empowering Users with Self-Check Capabilities

To democratize the fight against spyware, Kaspersky has developed a self-check tool available to the public. This utility, based on Python3 scripts, allows users to independently extract, analyze, and interpret data from the Shutdown.log file. Compatible with macOS, Windows, and Linux, this tool offers a practical solution for users to assess their devices’ integrity.

Comprehensive User Protection Strategies

Beyond detection, protecting devices from sophisticated spyware demands a multifaceted approach. Kaspersky recommends several proactive measures to enhance device security:

  • Reboot Daily: Regular reboots can disrupt the persistence mechanisms of spyware like Pegasus, which often relies on zero-click vulnerabilities for infection.
  • Enable Lockdown Mode: Apple’s Lockdown Mode has shown effectiveness in thwarting malware infections by minimizing the attack surface available to potential exploiters.
  • Disable iMessage and Facetime: Given their popularity as vectors for exploitation, disabling these services can significantly reduce the risk of infection.
  • Stay Updated: Promptly installing the latest iOS updates ensures that known vulnerabilities are patched, closing off avenues for spyware exploitation.
  • Exercise Caution with Links: Avoid clicking on unsolicited links, a common method for delivering spyware through social engineering tactics.
  • Regular Checks: Utilizing tools like MVT (Mobile Verification Toolkit) and Kaspersky’s utilities to analyze backups and sysdiagnose archives can aid in early detection of malware.

By integrating these practices, users can significantly bolster their defenses against the most advanced spyware, reducing the likelihood of successful infiltration and ensuring greater digital security and privacy.

Technological Innovations in Spyware Defense: The Case of DataShielder NFC HSM

As nations grapple with policy measures to regulate the use of commercial spyware, technological innovators like Freemindtronic are stepping up to offer robust defenses for individuals against invasive tools like Pegasus. The DataShielder NFC HSM Defense, equipped with EviCore NFC HSM technology, represents a leap forward in personal cybersecurity, offering a suite of features designed to safeguard data and communications from sophisticated spyware threats.

DataShielder NFC HSM: A Closer Look

DataShielder NFC HSM Defense utilizes contactless encryption and segmented key authentication, securely stored within an NFC HSM, to protect users’ digital lives. This groundbreaking approach ensures that secret keys, the cornerstone of digital security, remain out of reach from spyware, thus maintaining the confidentiality and integrity of sensitive information across various communication protocols.

DataShielder NFC HSM Defense: a solution against spyware

Another technology can help users protect themselves from Pegasus and other spyware. This is DataShielder NFC HSM Defense with EviCore NFC HSM, a solution that effectively fights against applications and spyware such as Pegasus. It is an alternative that secures contactless encryption and segmented key authentication system stored encrypted in NFC HSM. Thus, the secret keys are physically externalized and not accessible to the spyware. DataShielder NFC HSM Defense with EviCypher NFC HSM encrypts all types of sensitive data without ever logging the data unencrypted. The user can encrypt all types of data from his contactless phone in volatile memory, including Email, SMS, MMS, RCS, Chat, all messaging in general, all types of messaging, including satellite, without ever saving his texts unencrypted. DataShielder NFC HSM also works in air gap as well as on all types of NFC, Wifi, Bluetooth, Lan, Wan, Camera communication protocols that it encrypts end-to-end from NFC HSM

DataShielder NFC HSM Defense: additional features

In the Defense version of DataShielder NFC HSM, it integrates EviCall NFC HSM technology, which allows users to physically outsource phone contacts and make calls by automatically erasing the call histories of the phone, including encrypted and unencrypted SMS linked to that call number.

DataShielder NFC HSM also includes Evipass NFC HSM contactless password manager technology. It is therefore compatible with EviCore NFC HSM Browser Extension technology. In particular, it carries out all types of autofill and autologin operations. Thus, DataShielder NFC HSM not only allows you to connect by autofilling the traditional login and password identification fields on the phone, whether through applications or online accounts. But also also and on the types of online accounts (lan and wan), applications, software. DataShielder NFC HSM Defense also includes EviKeyboard BLE technology which also extends the use of keys greater than 256 bit. This virtual Bluetooth keyboard allows you to authenticate on the command line, on all types of home automation, electronic, motherboard bios, TMP2.0 key, which accepts the connection of a keyboard on a USB port. All these operations are end-to-end encrypted from NFC HSM up to more than 50 meters away via Bluetooth encrypted in AES-128.

To encrypt sensitive data from their phone, the user will do it from their secret keys only stored in their NFC HSM. They can also do it from their computer using the NFC HSM. This is possible thanks to the interoperability and backward compatibility of the DataShielder NFC HSM Defense ecosystem, which works independently but is interoperable on all Android computer and telephone systems with NFC technology. For example, users can encrypt files, photos, videos, and audio on their phones without ever exposing them to security breaches on the phone or computer.

This is the EviCypher NFC HSM technology dedicated to the encryption and management of AES 256 and RSA 4096 encryption keys.

Similarly, DataShielder also includes EviOTP NFC HSM technology, also in DataShielder NFC HSM Defense, which secures and manages OTP (TOTP and HOTP) secret keys.

Here are all the links : EviPass NFC HSMEviOTP NFC HSMEviCypher NFC HSMEviCall NFC HSM, EviKeyboard BLE

DataShielder NFC HSM Defense vs Pegasus: a comparison table

Data Pegasus DataShielder NFC HSM Defense
Messages, chats Can read and record them unencrypted Encrypts them end-to-end with keys physically externalized in the NFC HSM
Phone contacts Can access and modify them Externalizes and encrypts them in the NFC HSM
Emails Can intercept and read them Encrypts them with the OpenPGP protocol and signs them with the NFC HSM
Photos Can access and copy them Encrypts them with the NFC HSM and stores them in a secure space
Videos Can watch and record them Encrypts them with the NFC HSM and stores them in a secure space
Encrypted messages scanned from the camera Can decrypt them if he has access to the encryption key Encrypts them with the NFC HSM and does not leave any trace of the encryption key
Conversation histories from contacts stored in the NFC HSM Can access and analyze them Erases them automatically after each call or message
Usernames and passwords Can steal and use them Externalizes and encrypts them in the NFC HSM with EviPass technology
Secret keys of OTP Can compromise and impersonate them Externalizes them physically in the NFC HSM with EviOTP technology

Bridging the Gap Between Technology and Privacy

In an era where spyware like Pegasus poses unprecedented threats to personal privacy and security, solutions like DataShielder NFC HSM Defense emerge as essential tools in the individual’s cybersecurity arsenal. By leveraging such technologies, users can significantly mitigate the risk of spyware infections, reinforcing the sanctity of digital privacy in the face of evolving surveillance tactics.

The level of threat of Pegasus in different cases

The level of threat of Pegasus depends on many factors, such as the type and version of the operating system, the frequency and quality of the updates and patches, the availability and effectiveness of the tools, and the behavior and awareness of the users. It is therefore difficult to measure it precisely or universally, as it may vary according to different scenarios and situations.

However, we can try to give some estimates or ranges of levels, based on assumptions or approximations. For example, we can use a scale from 1 (lowest) to 10 (highest) to indicate how likely it is for a device to be infected by Pegasus in different cases:

Case Level of threat
A device with an outdated operating system that has not been updated for a long time 9/10
A device with an updated operating system that has been patched recently 5/10
A device with an updated operating system that has been patched recently and uses antivirus software 3/10
A device with an updated operating system that has been patched recently and uses antivirus software and VPN software 2/10
A device with an updated operating system that has been patched recently and uses antivirus software, VPN software, and anti-spyware software 1/10
A device with an updated operating system that has been patched recently and uses DataShielder NFC HSM 0/10

Latest affairs related to Pegasus

Since the revelations of Forbidden Stories and Amnesty International in July 2021, several new developments have occurred in relation to Pegasus spying. Here are some of them:

  • October 2023, The former head of the Spanish intelligence services has been charged with spying on the regional president of Catalonia, Pere Aragonès, using the Pegasus software, the Spanish justice announced on Monday. Paz Esteban, who was dismissed last year by the government of Pedro Sánchez after the scandal broke out, has been summoned by the Barcelona judge in charge of the case on December 131. The judge said that the facts reported by the moderate separatist leader have the “characteristics” of “possible criminal offenses such as illegal wiretapping and computer espionage
  • In October 2021, Paz Esteban López, the former head of CNI, was charged with crimes against privacy and misuse of public funds for allegedly ordering the spying on Catalan politicians with Pegasus. She is the first high-ranking official to face legal consequences for using Pegasus in Spain.
  • In September 2021, NSO Group announced that it was temporarily suspending its services to several government clients after being accused of facilitating human rights abuses with Pegasus. The company did not specify which clients were affected by this decision.
  • In August 2021, Apple released an urgent security update for its devices after discovering a zero-click exploit that allowed Pegasus to infect iPhones without any user interaction. The exploit, called FORCEDENTRY, was used by NSO Group to target activists, journalists and lawyers around the world. Apple urged its users to install the update as soon as possible to protect themselves from Pegasus.
  • In July 2021, the French government launched an investigation into the alleged spying on President Emmanuel Macron and other senior officials by Morocco using Pegasus. Morocco denied any involvement in the spying and sued Amnesty International and Forbidden Stories for defamation. France also summoned the Israeli ambassador to Paris to demand explanations about NSO Group’s activities.
  • In July 2021, the Israeli government formed a task force to review the allegations against NSO Group and its export licenses. The task force included representatives from the defense, justice and foreign ministries, as well as from the Mossad and the Shin Bet. The task force was expected to report its findings within a few weeks.

These developments show that Pegasus spying has triggered legal, diplomatic and political reactions in different countries. They also show that Pegasus spying has exposed the vulnerabilities and the challenges of cybersecurity in the digital age.

International Policy Measures Against Spyware Misuse

In a landmark move reflecting growing global concern over the misuse of commercial spyware, the United States announced in February 2024 its decision to impose visa restrictions on individuals involved in the abuse of such technologies. This policy, aimed at curbing the proliferation of weapons-grade commercial spyware like Pegasus, marks a significant stride in international efforts to safeguard against digital espionage threats to national security, privacy, and human rights.

The US Stance on Spyware Regulation

The Biden administration’s policy will potentially impact major US allies, including Israel, India, Jordan, and Hungary, underscoring the administration’s commitment to countering the misuse of spyware. This comes on the heels of earlier measures, such as placing Israel’s NSO Group on a commerce department blacklist and prohibiting the US government’s use of commercial spyware, signaling a robust stance against the unregulated spread of spyware technologies.

Global Implications and Diplomatic Efforts

Secretary of State Antony Blinken’s statement linking the misuse of spyware to severe human rights violations highlights the gravity with which the US views the global spyware issue. The policy introduces a mechanism for enforcing visa restrictions on those believed to be involved in or benefiting from the misuse of spyware, sending a strong message about the US’s intolerance for such practices.

A Step Towards Greater Accountability

By targeting individuals involved in the surveillance, harassment, and intimidation of journalists, activists, and dissenters, the US aims to foster a more accountable and ethical global spyware industry. This visa ban, applicable even to individuals from visa waiver countries, represents an “important signal” about the risks associated with the spyware sector, emphasizing the need for international cooperation in addressing these challenges.

Spyware with multiple detrimental impacts

Pegasus is not only a spyware with a high financial cost for its users, but it also entails, whether it is used legitimately or not, a human, social, political and environmental cost for its victims and society as a whole. It is difficult to precisely quantify the cost of the damages caused by the use of Pegasus due to numerous factors and variables that can vary across countries, sectors and periods. However, we can provide some rough estimates and examples to illustrate the scope and diversity of the impacts of the use of Pegasus.

Financial Cost

The financial cost of the damages inflicted by Pegasus can be measured on several fronts:

  • Cost to Victims: Individuals spied on by Pegasus may suffer direct or indirect financial losses, stemming from breaches of their privacy, disclosure of personal or professional information, manipulation, or theft of their financial or tax-related data. For example, a journalist might lose their job or credibility due to information revealed by Pegasus; a lawyer could lose a lawsuit or a client due to a disclosed strategy, and an activist might lose funding or security due to an exposed campaign.
  • Cost to Businesses: Companies targeted by Pegasus may face direct or indirect financial losses related to intellectual property violation, unfair competition, industrial espionage, corruption, and more. For instance, a business could lose a contract or market share because of exposed bids; its reputation and trustworthiness could suffer due to a Pegasus-related scandal, and its competitiveness and profitability could diminish from a compromised trade secret.
  • Cost to States: Nations subject to Pegasus espionage may experience direct or indirect financial losses tied to sovereignty violations, threats to national security, interference in domestic and foreign affairs, among others. An example includes a country’s stability or legitimacy being jeopardized due to a Pegasus-facilitated coup; a nation losing influence or alliances because of negotiations undermined by Pegasus; or a state’s development or environment suffering from a Pegasus-sabotaged project.

Geopolitical Cost

The geopolitical cost of Pegasus-induced damages can be measured on various fronts:

  • Cost to International Relations: The use of Pegasus by some states to spy on others can lead to diplomatic tensions, armed conflicts, economic sanctions, and cooperation ruptures. For example, the espionage of French President Emmanuel Macron by Morocco triggered a crisis between the two nations; spying on Indian Prime Minister Narendra Modi by China escalated their border dispute, and Israeli espionage of Iranian President Hassan Rouhani compromised the nuclear agreement between the two countries.
  • Cost to International Organizations: Pegasus’ deployment by certain states to spy on international organizations can result in violations of international law, human rights abuses, and hindrances to multilateralism. For instance, spying on UN Secretary-General Antonio Guterres by the United States undermined the organization’s independence and impartiality. Similarly, espionage targeting the International Criminal Court by Israel threatened international justice and peace, while spying on the World Health Organization by China disrupted pandemic management.

Economic Cost

The economic cost of the damages caused by Pegasus can be assessed across different dimensions:

  • Cost to Economic Growth: The use of Pegasus by certain states or private actors to spy on other states or private actors can lead to market distortions, productivity losses, capital flight, and offshoring. For example, the espionage targeting the airline company Emirates by Qatar reduced its competitiveness and profitability. Similarly, spying on the oil company Petrobras by the United States triggered an economic and political crisis in Brazil. Additionally, spying on Mexico’s central bank by Venezuela facilitated money laundering and terrorism financing.
  • Cost to Innovation: The utilization of Pegasus by certain states or private actors to spy on other states or private actors can result in patent theft, counterfeiting, hacking, and cyberattacks. For instance, spying on pharmaceutical company Pfizer by China allowed the latter to replicate its COVID-19 vaccine. Simultaneously, espionage against technology giant Apple by North Korea enabled the creation of its smartphone. Furthermore, spying on space company SpaceX by Russia allowed the latter to sabotage its launches.

Human, Social, and Environmental Cost

The human, social, and environmental cost of Pegasus-induced damages can be measured across several aspects:

  • Cost to Human Rights: The use of Pegasus by certain states or private actors to spy on vulnerable individuals or groups can result in violations of the right to life, freedom, security, dignity, and more. For example, the spying on journalist Jamal Khashoggi by Saudi Arabia led to his assassination. Similarly, espionage targeting activist Edward Snowden by the United States led to his exile. Additionally, the espionage of dissident Alexei Navalny by Russia resulted in his poisoning.
  • Cost to Democracy: The deployment of Pegasus by certain states or private actors to spy on political or social actors can lead to infringements on pluralism, transparency, participation, representativeness, and more. For instance, spying on French President Emmanuel Macron by Russia attempted to influence the 2017 French presidential election. Similarly, spying on the Yellow Vest movement by Morocco aimed to weaken the French social movement in 2018. Additionally, espionage against President Joe Biden by Iran sought to infiltrate his transition team in 2020.
  • Cost to the Environment: The use of Pegasus by certain states or private actors to spy on organizations or individuals committed to environmental protection can result in damage to biodiversity, climate, natural resources, and more. For example, spying on Greenpeace by Japan hindered its efforts against whale hunting. Similarly, espionage against the WWF by Brazil facilitated deforestation in the Amazon. Additionally, the spying on climate activist Greta Thunberg by Russia aimed to discredit her climate movement.
  • Cost to Intangibles: The use of Pegasus by certain states or private actors to spy on individuals or groups with symbolic, cultural, moral, or spiritual value can result in losses of meaning, trust, hope, or faith. For instance, espionage against Pope Francis by Turkey undermined his moral and religious authority. Similarly, spying on the Dalai Lama by China compromised his spiritual and political status. Additionally, the espionage of Nelson Mandela by South Africa tarnished his historical and humanitarian legacy.

The Risk of Diplomatic Conflict Arising from Pegasus

The utilization of Pegasus by some states to spy on others can give rise to the risk of diplomatic conflict, which can have severe consequences for international peace and security. The likelihood of diplomatic conflict depends on several factors, including:

  • Intensity and Duration of Espionage: The more extensive and prolonged the espionage, the more likely it is to provoke a strong and lasting reaction from the spied-upon state.
  • Nature and Status of Targets: More important and sensitive targets are more likely to trigger a strong and immediate reaction from the spied-upon state. For instance, spying on a head of state or a minister is more serious than spying on a bureaucrat or diplomat.
  • Relationship and Context Between States: States with tense or conflictual relationships are more likely to provoke a strong and hostile reaction from the spied-upon state. For instance, espionage between rival or enemy states is more serious than espionage between allied or neutral states.

The risk of diplomatic conflict can manifest at various levels:

  • Bilateral Level: This is the most direct and frequent level, where two states clash due to espionage. Possible reactions include official protests, summoning or expelling an ambassador, breaking or freezing diplomatic relations, etc.
  • Regional Level: This level involves a state seeking support from its neighbors or regional partners to bolster its position or condemn the espionage. Possible reactions include joint declarations, collective resolutions, economic or political sanctions, etc.
  • International Level: At this level, a state calls upon international organizations or global actors to support its position or condemn the espionage. Possible reactions include referring the matter to an international court, resolutions by the UN Security Council, humanitarian or military sanctions, etc.

The risk of diplomatic conflict can have various consequences:

  • Political Consequences: It can lead to a deterioration or rupture of relations between the involved states, a loss of credibility or legitimacy on the international stage, internal political instability or crisis, etc.
  • Economic Consequences: It can result in reduced or suspended trade between the involved states, a loss of competitiveness or growth, capital flight or frozen investments, etc.
  • Social Consequences: It can lead to increased or exacerbated tensions or violence among the populations of the involved states, a loss of trust or solidarity, a rise or reinforcement of nationalism or extremism, etc.

Conclusion: Navigating the Pegasus Quagmire with Innovative Defenses

The saga of Pegasus spyware unveils a complex tableau of financial, human, social, political, and environmental ramifications. Pinpointing the exact toll it takes presents a formidable challenge, given the myriad of factors at play. Throughout this article, we’ve endeavored to shed light on the extensive impacts, offering insights and quantifications to bring clarity to this global concern.

Moreover, Pegasus not only incurs a direct cost but also sows the seeds of potential diplomatic strife, pitting states against each other in an invisible battlefield. The severity of these confrontations hinges on the espionage’s scope, the targets’ sensitivity, and the intricate web of international relations. Such conflicts, manifesting across various levels, can significantly strain political ties, disrupt economies, and fracture societies.

In this digital quagmire, the innovative counter-espionage technologies developed by Freemindtronic emerge as a beacon of hope. They offer a testament to the power of leveraging cutting-edge solutions to fortify our digital defenses against the invasive reach of spyware like Pegasus. By integrating such advanced protective measures, individuals and organizations can significantly enhance their cybersecurity posture, safeguarding their most sensitive data and communications in an increasingly surveilled world.

This piece aims to illuminate the shadowy dynamics of Pegasus spyware, drawing back the curtain on its profound implications. For those keen to explore further, we invite you to consult the sources listed below. They serve as gateways to a deeper understanding of Pegasus’s pervasive influence, the ongoing efforts to counteract its invasive reach, and the pivotal role of technologies like those from Freemindtronic in these endeavors.

In a world where digital surveillance perpetually evolves, staying informed, vigilant, and equipped with the latest in counter-espionage technology is paramount. As we navigate these challenges, let us engage in ongoing dialogue, advocate for stringent regulatory measures, and champion the development of robust cybersecurity defenses. Together, we can confront the challenges posed by Pegasus and similar technologies, safeguarding our collective privacy, security, and democratic values in the digital age.

Sources

In crafting this article, we have drawn upon a selection of reputable and verified web sources. Our sources are chosen for their commitment to presenting facts objectively and respecting the presumption of innocence.

This article has been meticulously crafted, drawing upon a diverse array of reputable and verified web sources. These sources have been selected for their unwavering commitment to factual accuracy, objective presentation, and respect for the presumption of innocence. Our investigation delves deep into the complex web of surveillance technology, focusing on the notorious Pegasus spyware developed by NSO Group and the global efforts to detect, regulate, and mitigate its invasive reach. The article sheds light on groundbreaking detection methods, international policy measures against spyware misuse, and the pressing need for enhanced cybersecurity practices.

We analyzed many sources including:

In summary

Additional references from a range of international publications provide further insights into the deployment, implications, and countermeasures associated with Pegasus spyware across various countries, including Saudi Arabia, Azerbaijan, Bahrain, Kazakhstan, Mexico, Morocco, Rwanda, Hungary, India, and the United Arab Emirates. These articles collectively highlight the global challenge posed by Pegasus, the evolving landscape of digital espionage, and the concerted efforts required to safeguard privacy and security in the digital age.

Estimating the Global Reach and Financial Implications of Pegasus Spyware

The deployment of Pegasus spyware across various nations reveals not only the extensive reach of NSO Group’s surveillance tool but also underscores the significant financial and ethical costs associated with its use. The following insights, derived from reputable news sources, offer a glimpse into the scale of Pegasus’s deployment worldwide and its impact on targeted countries:

  1. According to the French Le Monde, Saudi Arabia targeted about 15,000 phone numbers with Pegasus. The cost of one license can be as high as Rs 70 lakh. With one license, multiple smartphones can be tracked. As per past estimates of 2016, for spying on just 10 people using Pegasus, NSO Group charges a minimum of around Rs 9 crore.
  2. The American The Washington Post reported that Saudi Arabia started using Pegasus in 2018. The FBI also confirmed that it obtained NSO Group’s powerful Pegasus spyware in 2019, suggesting that it bought access to the Israeli surveillance tool to “stay abreast of emerging technologies and tradecraft”.
  3. The British The Guardian stated that Azerbaijan aimed at about 5,000 phone numbers with Pegasus. The country is among the 10 governments that have been the most aggressive in deploying the spyware against their own citizens and those of other countries.
  4. As per the American The Washington Post, Azerbaijan began using Pegasus in 2019. The country has been accused of using the spyware to target journalists, activists, and opposition figures, as well as foreign diplomats and politicians.
  5. In the case reported by the French Le Monde, Bahrain focused on about 3,000 phone numbers with Pegasus. The country has been using the spyware since 2020 to target dissidents, human rights defenders, and members of the royal family.
  6. Mentioned in the American The Washington Post, Bahrain initiated Pegasus use in 2020. The country is one of the NSO Group’s oldest customers, having signed a contract with the company in 2016.
  7. As disclosed by the British The Guardian, Kazakhstan directed attention towards approximately 1,500 phone numbers with Pegasus. The country has been using the spyware since 2021 to target journalists, activists, and opposition figures, as well as foreign diplomats and politicians.
  8. According to the American The Washington Post, Kazakhstan commenced Pegasus usage in 2021. The country is one of the newest customers of NSO Group, having signed a contract with the company in 2020.
  9. According to claims made by the Mexican Aristegui Noticias, Mexico targeted about 15,000 phone numbers with Pegasus. The country is the largest known client of NSO Group, having spent at least $61m on the spyware between 2011 and 2017.
  10. As reported by the American The Washington Post, Mexico began Pegasus use in 2020. The country has been using the spyware to target journalists, activists, lawyers, and politicians, as well as the relatives of the 43 students who disappeared in 2014.
  11. As detailed in the French Le Monde, Morocco focused on about 10,000 phone numbers with Pegasus. The country is one of the most prolific users of the spyware, having targeted journalists, activists, lawyers, and politicians, as well as foreign heads of state and government.
  12. Confirmed by the Canadian organization Citizen Lab, Morocco initiated Pegasus usage in 2016. The country is one of the oldest customers of NSO Group, having signed a contract with the company in 2014.
  13. According to findings reported by the British The Guardian, Rwanda honed in on around 3,500 phone numbers with Pegasus. The country has been using the spyware to target dissidents, journalists, and human rights defenders, as well as foreign critics and rivals.
  14. As indicated by the American The Washington Post, Rwanda started Pegasus usage in 2019. The country is one of the newest customers of NSO Group, having signed a contract with the company in 2018.
  15. In the report from the French Le Monde, Hungary aimed at about 300 phone numbers with Pegasus. The country is the only EU member state known to have used the spyware, having targeted journalists, activists, lawyers, and opposition figures.
  16. As conveyed by the Hungarian Direkt36, Hungary initiated Pegasus use in 2018. The country is one of the newest customers of NSO Group, having signed a contract with the company in 2017.
  17. As outlined in the Indian The Wire, India directed attention towards approximately 1,000 phone numbers with Pegasus. The country is one of the largest users of the spyware, having targeted journalists, activists, lawyers, and politicians, as well as the leader of the main opposition party.
  18. According to the British The Guardian, India began Pegasus use in 2019. The country is one of the newest customers of NSO Group, having signed a contract with the company in 2018.
  19. According to the information provided by the French Le Monde, the United Arab Emirates honed in on around 10,000 phone numbers with Pegasus. The country is one of the most aggressive users of the spyware, having targeted journalists, activists, lawyers, and politicians, as well as foreign heads of state and government.
  20. Confirmed by the Canadian organization Citizen Lab, the United Arab Emirates started Pegasus usage in 2016. The country is one of the oldest customers of NSO Group, having signed a contract with the company in 2013.
  21. According to the European Parliament recommendation of 15 June 2023, the EU and its Member States have been affected by the use of Pegasus and equivalent surveillance spyware, which constitutes a serious threat to the rule of law, democracy, human rights and fundamental freedoms. The recommendation calls for a global moratorium on the sale and use of such technologies until robust safeguards are established.
  22. According to the article by Malwarebytes, Pegasus spyware and how it exploited a WebP vulnerability, the spyware exploited a vulnerability in the WebP image format, which allows for lossless compression and restoration of pixels. The article explains how the attackers created specially crafted image files that caused a buffer overflow in the libwebp library, used by several programs and browsers to support the WebP format.
  23. According to the article by ZDNet, ‘Lawful intercept’ Pegasus spyware found deployed in 45 countries, the spyware has been used by government agencies across the world to conduct cross-border surveillance, violating international law and human rights. The article cites a report by Citizen Lab, which identified 45 countries where Pegasus operators may be conducting surveillance operations.
  24. According to the article by The Guardian, Experts warn of new spyware threat targeting journalists and political opponents, a new spyware with hacking capabilities comparable to Pegasus has emerged, developed by an Israeli company called Candiru. The article cites a report by Citizen Lab, which found evidence that the spyware has been used to target journalists, political opposition figures and an employee of an NGO.

RSA Encryption: How the Marvin Attack Exposes a 25-Year-Old Flaw

NFC HSM Devices and RSA 4096 encryption a new standard for cryptographic security serverless databaseless without database by EviCore NFC HSM from Freemindtronic Andorra
Marvin attack RSA algorithm & NFC HSM RSA-4096 by Jacques Gascuel: This article will be updated with any new information on the topic.

Decrypting Marvin’s Assault on RSA Encryption!

Simply explore the complex area of ​​RSA encryption and discover strategies to repel Marvin’s attack. This article examines the intricacies of RSA 4096 encryption, ensuring your cryptographic keys and secrets are protected. Discover an innovative NFC HSM RSA 4096 NFC encryption protocol, serverless and databaseless.

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How the RSA Encryption – Marvin Attack Reveals a 25-Year-Old Flaw and How to Protect Your Secrets with the NFC HSM Devices

RSA encryptionRSA encryption is one of the most widely used encryption algorithms in the world, but it is not flawless. In fact, a vulnerability of RSA encryption, known as the Marvin attack, has existed for over 25 years and could allow an attacker to recover the private key of a user from their public key. This flaw, which exploits a mathematical property of RSA encryption, was discovered in 1998 by the cryptographer Daniel Bleichenbacher, but it was never fixed or disclosed to the public. In the first part of this article, we will explain in detail how the Marvin attack works and what it means for the security of RSA encryption.

Moreover, NFC HSM and RSA 4096 represent a new dimension in cryptographic security. These technologies allow you to protect and use your cryptographic keys and secrets within a contactless device that communicates with your smartphone through NFC (Near Field Communication). The main advantage they offer is the formidable defense against cyberattacks, achieved by implementing state-of-the-art encryption algorithms and strong security protocols. You can discover more about the very simple functioning of NFC HSM devices for RSA 4096 encryption, as well as their multiple benefits, by reading until the end of this article. Moreover, we will highlight how Freemindtronic used the extreme level of safety of an NFC HSM device to establish, without contact and only on demand, a virtual communication tunnel encrypted in RSA-4096 without a server, without a database, from an NFC HSM device.

The Marvin Attack: Unveiling a 25-Year-Old RSA Flaw

Understanding the Marvin Attack

The Marvin attack targets the RSA algorithm, a foundational asymmetric encryption technique characterized by the use of two distinct keys: a public key and a private key. The public key serves to encrypt data, while the private key is responsible for decryption. These keys mathematically intertwine, yet revealing one from the other presents an exceedingly challenging task.

Named after Marvin the Paranoid Android from “The Hitchhiker’s Guide to the Galaxy,” this attack exploits a vulnerability in the RSA algorithm discovered by Swiss cryptographer Daniel Bleichenbacher in 1998. The vulnerability relates to the padding scheme that the RSA algorithm uses to introduce random bits into the data before encryption. The padding scheme has a design. It makes the encrypted data look random. It also thwarts attacks based on statistics. However, Bleichenbacher showed his ingenuity. He sent special messages to a server. The server used RSA encryption. By doing so, he could learn about the padding scheme. He could also recover the private key.

Implications of the Marvin Attack

The Marvin attack has profound implications for the security and confidentiality of your secrets. If an attacker successfully retrieves your private key, they gain unfettered access to decrypt all your encrypted data and compromise your confidential information. Furthermore, they can impersonate you by signing messages or executing transactions on your behalf.

The Marvin attack isn’t limited to a single domain; it can impact any system or application that uses RSA encryption with a vulnerable padding scheme. This encompasses web servers that employ HTTPS, email servers that use S/MIME, and blockchain platforms that rely on digital signatures.

Notably, NFC HSM devices that use RSA encryption for secret sharing are vulnerable to the Marvin attack. NFC HSM, short for Near Field Communication Hardware Security Module, is a technology facilitating the storage and utilization of cryptographic keys and secrets within contactless devices such as cards, stickers, or keychains. These devices communicate with smartphones via NFC, a wireless technology enabling short-range data exchange between compatible devices.

If an attacker intercepts communication between your NFC HSM device and smartphone, they may try a Marvin attack on your device, potentially recovering your private key. Subsequently, they could decrypt secrets stored within your device or gain access to your online accounts and services.

The Common Factor Attack in RSA Encryption

Understanding the Common Factor Attack

In the realm of RSA encryption, attackers actively exploit a vulnerability known as the Common Factor Attack. Here’s a concise breakdown:

1. Identifying Shared Factors

  • In RSA encryption, public keys (e, n) and private keys (d, n) play pivotal roles.
  • Attackers meticulously seek out common factors within two public keys, exemplified by (e1, n1) and (e2, n2).
  • Upon discovering a shared factor, their mission gains momentum.

2. Disclosing the Missing Factor

  • Once a common factor ‘p’ surfaces, uncovering its counterpart ‘q’ becomes relatively straightforward.
  • This is achieved through the simple act of dividing one key’s module by ‘p’.

3. Attaining Private Keys

  • Empowered with ‘p’ and ‘q,’ attackers adeptly compute private keys like ‘d1’ and ‘d2.’
  • This mathematical process involves modular inverses, bestowing them with access to encrypted content.

4. Decrypting Messages with Precision

  • Armed with private keys ‘d1’ and ‘d2,’ attackers skillfully decrypt messages initially secured by these keys.
  • Employing the formula ‘m = c^d mod n,’ they meticulously unlock the concealed content.

This simplified overview sheds light on the Common Factor Attack in RSA encryption. For a more comprehensive understanding, delve into further details here

Safeguarding Against the Marvin Attack

To fortify your defenses against the Marvin attack, it is imperative to employ an updated version of the RSA algorithm featuring a secure padding scheme. Secure padding ensures that no information about the encrypted data or private key is leaked. For example, you can adopt the Optimal Asymmetric Encryption Padding (OAEP) scheme, a standard endorsed by RSA Laboratories.

Additionally, utilizing a reliable and secure random number generator for generating RSA keys is essential. A robust random number generator produces unpredictable and difficult-to-guess random numbers, a critical element for the security of any encryption algorithm, as it guarantees the uniqueness and unpredictability of keys.

The Marvin attack, though a 25-year-old RSA flaw, remains a persistent threat capable of compromising the security of RSA-encrypted data and communications. Vigilance and adherence to cryptographic best practices are essential for shielding against this menace.

Choosing a trusted and certified provider of NFC HSM devices and RSA encryption services is equally pivotal. A reputable provider adheres to industry-leading security and quality standards. Freemindtronic, a company based in Andorra, specializes in NFC security solutions and has developed a plethora of technologies and patents grounded in NFC HSM devices and RSA 4096 encryption. These innovations offer a spectrum of advanced features and benefits across diverse applications.

In the following section, we will delve into why Freemindtronic has chosen to utilize RSA 4096 encryption in the context of the Marvin attack. Additionally, we will explore how Freemindtronic secures secret sharing among NFC HSM devices, elucidate the concept of NFC HSM devices, and unveil the advantages and benefits of the technologies and patents pioneered by Freemindtronic.

How Does RSA 4096 Work?

RSA 4096 is built upon the foundation of asymmetric encryption, employing two distinct keys: a public key and a private key. The public key can be freely disseminated, while the private key must remain confidential. These keys share a mathematical relationship, but uncovering one from the other poses an exceptionally daunting challenge.

RSA 4096 hinges on the RSA algorithm, relying on the formidable complexity of factoring a large composite number into the product of two prime numbers. RSA 4096 employs prime numbers of 4096 bits in size, rendering factorization virtually impossible with current computational capabilities.

RSA 4096 facilitates four primary operations:

  1. Encryption: Transforming plaintext messages into encrypted messages using the recipient’s public key. Only the recipient can decrypt the message using their private key.
  2. Decryption: Retrieving plaintext messages from encrypted ones using the recipient’s private key. Only the recipient can perform this decryption.
  3. Signature: Adding an authentication element to plaintext messages using the sender’s private key. The recipient can verify the signature using the sender’s public key.
  4. Signature Verification: Validating the authenticity of plaintext messages and their sender using the sender’s public key.

In essence, RSA 4096 ensures confidentiality, integrity, and non-repudiation of exchanged messages.

But how can you choose and utilize secure RSA keys? Are there innovative solutions available to bolster the protection of cryptographic secrets? This is the focal point of our next section, where we will explore the technologies and patents developed by Freemindtronic for RSA 4096 secret sharing among NFC HSM devices.

Technologies and Patents Developed by Freemindtronic for RSA 4096 Secret Sharing among NFC HSM Devices

Freemindtronic employs RSA 4096 to secure the sharing of secrets among NFC HSM devices, driven by a commitment to robust security and trust. RSA 4096 stands resilient against factorization attacks, the most prevalent threats to RSA encryption. It upholds the confidentiality, integrity, and non-repudiation of shared secrets.

Freemindtronic is acutely aware of the potential vulnerabilities posed by the Marvin attack. This attack can compromise RSA if the prime numbers used to generate the public key are too close in proximity. Therefore, Freemindtronic diligently adheres to cryptographic best practices when generating robust and random RSA keys. This involves using large prime numbers, usually larger than 2048 bits, and employing a dependable and secure random number generator Freemindtronic regularly validates the strength of RSA keys through online tools or other means and promptly replaces keys suspected of weakness or compromise.

In summary, Freemindtronic’s selection of RSA 4096 is informed by its robustness. This choice is complemented by unwavering adherence to cryptographic best practices. The incorporation of the EVI protocol bolsters security, ensuring the imperviousness of secrets shared among NFC HSM devices. This will be further elucidated in the following sections

Why Freemindtronic Utilizes RSA 4096 Against the Marvin Attack

Freemindtronic’s choice to utilize RSA 4096 for securing secret sharing among NFC HSM devices is grounded in its status as an asymmetric encryption algorithm renowned for delivering a high level of security and trust. RSA 4096 effectively resists factorization attacks, which are among the most prevalent threats against RSA encryption. It guarantees the confidentiality, integrity, and non-repudiation of shared secrets.

To address the potential consequences of the Marvin attack, Freemindtronic meticulously follows cryptographic best practices when generating strong and random RSA keys. The company employs prime numbers of substantial size, typically exceeding 2048 bits, in conjunction with a reliable and secure random number generator. Freemindtronic vigilantly validates the strength of RSA keys and promptly replaces them if any suspicions of weakness or compromise arise.

Moreover, Freemindtronic harnesses the power of the EVI (Encrypted Virtual Interface) protocol, which enhances RSA 4096’s security profile. EVI facilitates the exchange of RSA 4096 public keys among NFC HSM devices, introducing a wealth of security measures, including encryption, authentication, anti-cloning, anti-replay, anti-counterfeiting, and the use of a black box. EVI also enables the transmission of secrets encrypted with the recipient’s RSA 4096 public key, using the same mechanism.

In summary, Freemindtronic’s selection of RSA 4096 is informed by its robustness, complemented by unwavering adherence to cryptographic best practices. The incorporation of the EVI protocol bolsters security, ensuring the imperviousness of secrets shared among NFC HSM devices. This will be further elucidated in the following sections.

How Freemindtronic Utilizes RSA 4096 to Secure Secret Sharing Among NFC HSM Devices

Freemindtronic leverages RSA 4096 to fortify the security of secret sharing among NFC HSM devices, following a meticulously orchestrated sequence of steps:

  1. Key Generation: RSA 4096 key pairs are generated on each NFC HSM device, utilizing a dependable and secure random number generator.
  2. Public Key Exchange: The RSA 4096 public keys are exchanged between the two NFC HSM devices using the EVI (Encrypted Virtual Interface) protocol. EVI introduces multiple layers of security, including encryption, authentication, anti-cloning, anti-replay, anti-counterfeiting measures, and the use of a black box.
  3. Secret Encryption: The secret is encrypted using the recipient’s RSA 4096 public key, employing a hybrid encryption algorithm that combines RSA and AES.
  4. Secure Transmission: The encrypted secret is transmitted to the recipient, facilitated by the EVI protocol.
  5. Secret Decryption: The recipient decrypts the secret using their RSA 4096 private key, employing the same hybrid encryption algorithm.

Through this meticulous process, Freemindtronic ensures the confidentiality, integrity, and non-repudiation of secrets exchanged between NFC HSM devices. This robust approach thwarts attackers from reading, altering, or falsifying information protected by RSA 4096.

But what exactly is an NFC HSM device, and what communication methods exist for secret sharing among these devices? What are the advantages and benefits offered by the technologies and patents pioneered by Freemindtronic? These questions will be addressed in the subsequent sections.

What Is an NFC HSM Device?

An NFC HSM (Near Field Communication Hardware Security Module) is a specialized hardware security module that communicates wirelessly with an Android smartphone via NFC (Near Field Communication) technology. These devices come in the form of cards, stickers, or keychains and operate without the need for batteries. They feature EEPROM memory capable of storing up to 64 KB of data.

NFC HSM devices are designed to securely store and utilize cryptographic keys and secrets in an isolated and secure environment. They shield data from cloning, replay attacks, counterfeiting, or extraction and include an access control system based on segmented keys.

One prime example of an NFC HSM device is the EviCypher NFC HSM developed by Freemindtronic. This technology allows for the storage and utilization of cryptographic keys and secrets within a contactless device, such as a card, sticker, or keychain. EviCypher NFC HSM offers a range of features, including offline isolation, seamless integration with other technologies, and enhancements to the user experience. With its robust security measures and innovative features, EviCypher NFC HSM sets a new standard for secure communication and secret management in the digital realm.

Resistance Against Brute Force Attacks on NFC HSM

The RSA 4096 private key is encrypted with AES 256. Therefore, the user cannot extract it from the EEPROM memory. The NFC HSM has this memory. It also has other secrets in this memory. This memory is non-volatile. As a result, it can last up to 40 years without power. Consequently, any invasive or non-invasive brute force attack on NFC HSM is destined for failure. This is due to the fact that secrets, including the RSA private key, are automatically encrypted in the EEPROM memory of the NFC HSM using AES-256 with segmented keys of physical origin, some of which are externalized from the NFC HSM.

Real-Time Secret Sharing with EviCore NFC HSM

An intriguing facet of EviCore NFC HSM technology is its ability to facilitate real-time secret sharing without the need for a remote server or database. EviCore NFC HSM accomplishes this by encrypting secrets with the recipient’s randomly generated RSA 4096 public key directly on their NFC HSM device. This innovative approach to secret sharing eliminates the necessity for a trusted third party. Furthermore, EviCore NFC HSM executes these operations entirely in the volatile (RAM) memory of the phone, leaving no traces of plaintext secrets in the computer, communication, or information systems. As a result, it renders remote or proximity attacks, including invasive or non-invasive brute force attacks, exceedingly complex, if not physically impossible. Our EviCore NFC HSM technology is an Android application designed for NFC-enabled phones, functioning seamlessly with our NFC HSM devices. This application serves as both firmware and middleware, constituting an embedded system, offering optimal performance and compatibility with NFC HSM devices.

What Are the Advantages and Benefits of NFC HSM Devices and RSA 4096 Encryption?

NFC HSM devices and RSA 4096 encryption offer numerous advantages and benefits across various applications and domains. Some of these include:

  1. Enhanced Security and Trust: They bolster security and trust in the digital landscape through the utilization of a robust and efficient encryption algorithm that withstands factorization attacks.
  2. Simplified Key and Secret Management: They simplify the management and sharing of cryptographic keys and secrets by leveraging contactless technology for communication with Android phones via NFC.
  3. Improved Device Performance and Compatibility: They enhance device performance and compatibility by functioning as a firmware-like middleware embedded within an Android application for NFC-enabled phones.
  4. Enhanced User Experience: They improve the user experience of devices by offering features such as offline isolation, seamless integration with other technologies, and enhanced user experiences.

In summary, NFC HSMs and RSA 4096 encryption offer inventive and pragmatic answers to the escalating requirements for security and confidentiality in the digital sphere.

Communication Vulnerabilities 2023: Avoiding Cyber Threats

Person working on a laptop within a protective dome, surrounded by falling hexadecimal ASCII characters, highlighting communication vulnerabilities
The hidden dangers of communication vulnerabilities in 2023  by Jacques Gascuel: This article will be updated with any new information on the topic.

Beware of communication vulnerabilities in 2023

Communication is essential for our personal and professional lives, but it also exposes us to cyber threats. In 2023, hackers will exploit the hidden dangers of communication vulnerabilities to steal data, disrupt services, and spy on users. This article will explain the main types of communication vulnerabilities, their impact, and how to protect yourself from them.

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Communication Vulnerabilities in 2023: Unveiling the Hidden Dangers and Strategies to Evade Cyber Threats

2023 Security Vulnerabilities in Means of Communication

Communication is essential for individuals and professionals, but it is also exposed to many cyber threats. In 2023, several security breaches affected emails and messages, compromising the security of data, services, and users. These breaches showed the vulnerability of communication systems, which are exposed to increasingly sophisticated and targeted attacks. To protect themselves, users need to encrypt their data and communications with their own keys that they created and stored offline. One of the solutions that can help them achieve this is EviCypher NFC HSM technology by Freemindtronic.

The Reality of Security Breaches in Communication Systems

However, we wanted to highlight a disconcerting reality: users often found themselves defenseless against the hidden dangers of communication vulnerabilities in 2023 that festered beneath the surface for long periods of time. Unaware of these current, imminent or future risks, they unwittingly provided gateways to espionage activities, whether motivated by legitimate or malicious intentions. These vulnerabilities enabled a relentless cycle of cyber victimization, perpetuating the very threats they aimed to mitigate.

For example, iCloud Email operated without end-to-end encryption from its launch in 2011 until December 2022 – a troubling reality that put users in a vulnerable position, their security at the mercy of external factors they could not control.

Another example, several reports by the Citizen Lab have revealed the existence and the use of Pegasus spyware developed by the Israeli company NSO Group, which sells its services to governments and private actors to spy on targets around the world. Moreover, several investigations by the consortium Forbidden Stories have revealed that more than 50,000 phone numbers have been selected as potential targets by NSO Group’s clients, including heads of state, journalists, human rights activists, etc.

Among the most recent examples of these vulnerabilities, we can mention the cyberattack against the US State Department, which was attributed to hackers linked to China.

Chinese hackers hacked 60,000 emails from the US State Department

In March 2023, Chinese hackers hacked 60,000 emails from the US State Department. Some of them were very sensitive to national security and foreign affairs. They used a Microsoft Exchange flaw named Log4Shell. This vulnerability allows hackers to remotely execute malicious code on servers that use this software. It affects millions of servers worldwide. Senator Mark Warner revealed the attack and criticized the lack of transparency and security of the State Department. He called for strengthening cooperation between government agencies and the private sector to cope with cyberthreats. This attack is part of a context of rising tensions between the US and China, who accuse each other of espionage and sabotage on cyberspace.

The other sensitive organs targeted by the attack

Besides the State Department emails, the attack also targeted other sensitive organs, such as:

  • The Bureau of the Coordinator for Cyber Issues, which is responsible for coordinating the State Department’s efforts to prevent and respond to cyberattacks.
  • The Bureau of Consular Affairs, which is in charge of issuing passports and visas, as well as protecting US citizens abroad.
  • The Bureau of Intelligence and Research, which provides analysis and assessments on foreign policy and national security issues.

These sensitive organs hold confidential or personal information that could be used by the Chinese hackers for espionage, blackmail or sabotage. For example, the hackers could access the biometric data of visa applicants, the reports of intelligence agents or the action plans in case of crisis.

The security flaw exploited by the Chinese hackers

The most serious thing is that some servers that were hacked by the Chinese had not been updated with the patch released by Microsoft on December 10, 2022. This shows that the updates are not automatic and that they have to be installed manually. This also shows the lack of responsiveness and vigilance of the IT security managers. They let the Chinese hackers exploit this flaw before it was fixed by Microsoft, who released security updates. Indeed, this cyberattack shows the vulnerability of communication systems and the need to protect them effectively.

A Case of Satellite Messaging Security Vulnerability

Satellite messaging is a means of communication that allows the transmission of electronic messages or calls via a network of artificial satellites. It is used by professionals and individuals in areas with no cellular coverage or those seeking discreet communication. However, satellite messaging is not immune to security vulnerabilities that can compromise data confidentiality and integrity.

In September 2023, a team of cybersecurity researchers uncovered a significant security vulnerability in the Bullitt satellite messaging service. This vulnerability allowed hackers to read and modify messages sent and received by users, as well as access their personal information, including GPS coordinates and phone numbers. Hackers could also impersonate users by sending messages on their behalf. The vulnerability was found in the PubNub-Kotlin API used by the Bullitt Messenger app to manage communication between devices and the service’s servers. Despite alerting Bullitt, the service provider, about this vulnerability, the researchers received no satisfactory response.

This security flaw poses a high risk to satellite messaging users, as their data can be exposed or manipulated by hackers.

Security Vulnerabilities in Communication Systems: A Closer Look

2023 Security Flaws in Communication Channels is a paramount concern for individuals and organizations across the globe. Hackers frequently exploit vulnerabilities within communication protocols and services to launch attacks that can compromise data confidentiality, integrity, and availability. To illustrate the magnitude and gravity of this issue, we have compiled statistics based on our web research:

Security Vulnerabilities in Emails

Emails serve as a central vector for cyberattacks, representing a significant portion of security incidents, with up to 91% of reported incidents, as per cybermalveillance.gouv.fr. Among these email-targeted threats, ransomware attacks are the most prevalent, comprising 25% of reported security incidents. Additionally, it’s striking to note that 48% of malicious files attached to emails are Microsoft Office documents. These statistics underscore the critical importance of implementing robust security measures for emails to guard against evolving threats.

Furthermore, an analysis conducted by the Verizon Data Breach Investigations Report for 20232 highlights that emails remain the primary variety of malicious actions in data breaches, underscoring their continued relevance as a vector for cyberattacks.

However, it is essential to note that email-specific vulnerabilities can vary based on factors such as email protocol vulnerabilities, server configuration errors, human mistakes, among others.

Security Vulnerabilities in Encrypted Messaging Services

Encrypted messaging services like Signal, Telegram, or WhatsApp are not immune to security vulnerabilities, which can compromise message and file confidentiality, integrity, and availability. In March 2023, Cellebrite, an Israeli data extraction company, claimed to have successfully decrypted messages and files sent via Signal. In June 2023, Google disclosed a vulnerability in its RCS service that allowed hackers to send fraudulent messages to Android users, containing malicious links redirecting victims to compromised websites.

Security Vulnerabilities in Communication Protocols

Communication protocols such as SMTP, RCS, or SMS are also susceptible to security vulnerabilities that can enable hackers to intercept, modify, or spoof messages and calls. SS7 vulnerabilities involve attacks exploiting the vulnerabilities of the SS7 protocol, used to establish and terminate telephone calls on digital signaling networks. These attacks can allow hackers to intercept, modify, or spoof voice and SMS communications on a cellular network. In January 2023, a hacking group named Ransomware.vc launched a data extortion campaign targeting organizations using the Progress MOVEit file transfer tool. The hackers exploited an SS7 vulnerability to intercept verification codes sent via SMS to MOVEit users, gaining access to sensitive data. In February 2023, the Ukrainian power grid was hit by a new malware called Industroyer2, attributed to Russian hackers. The malware used an SS7 vulnerability to take control of network operator phone calls, disrupting electricity distribution in the country. In March 2023, Samsung suffered a data breach that exposed the personal and financial information of millions of customers. The breach was caused by an SS7 vulnerability that allowed hackers to access SMS messages containing online transaction confirmation codes.

An Overview of Security Vulnerabilities in Communication Systems

Communication systems exhibit various vulnerabilities, with each element susceptible to exploitation by hackers. These weaknesses can have severe consequences, including financial losses, damage to reputation, or national security breaches.

  • Protocols: Communication protocols, like Internet Protocol (IP), Simple Mail Transfer Protocol (SMTP), Signaling System 7 (SS7), and Rich Communication Services (RCS), can contain security vulnerabilities. These vulnerabilities enable hackers to intercept, modify, or spoof communications on the network. For instance, an SS7 vulnerability allows hackers to eavesdrop on phone calls or read SMS messages on a cellular network.
  • Services: Network services, such as messaging, cloud, streaming, or payment services, possess their own vulnerabilities. These vulnerabilities may permit hackers to access, modify, or delete data within the service. For instance, a vulnerability in an encrypted messaging service enables hackers to decrypt messages or files sent via the service.
  • Applications: Software applications, including web, mobile, desktop, or IoT applications, are prone to security vulnerabilities. These vulnerabilities empower hackers to execute malicious code on a user’s device or gain control of the device itself. For example, a vulnerability in a web application allows hackers to inject malicious code into the displayed web page.
  • Devices: Physical devices, such as computers, smartphones, tablets, or IoT devices, feature their own set of security vulnerabilities. These vulnerabilities can enable hackers to access the device’s data or functionalities. For instance, a vulnerability in a smartphone grants hackers access to the device’s camera, microphone, or GPS.

In conclusion, the multitude of security vulnerabilities in communication systems presents a significant challenge to all stakeholders. Protecting against these vulnerabilities and enhancing cybersecurity is essential to safeguard sensitive data and infrastructure.

How communication vulnerabilities exposed millions of users to cyberattacks in the past years

Communication is essential for our personal and professional lives, but it also exposes us to cyber threats. In the past years, hackers exploited the hidden dangers of communication vulnerabilities to steal data, disrupt services, and spy on users. These vulnerabilities affected software and services widely used, such as Log4j, Microsoft Exchange, Exim, Signal, Telegram, or WhatsApp. Some of these vulnerabilities have been fixed, while others remain active or in progress. The following table summarizes the main communication vulnerabilities in the past years, their impact, and their status.

Name of the breach Type of breach Impact Status Date of discovery Date of patch
Log4j Command injection Control of servers and Java applications Fixed November 24, 2021 December 18, 2021
Microsoft Exchange Remote code execution Data theft and backdoor installation Fixed March 2, 2021
Exim Multiple vulnerabilities Control of email servers June 5, 2020
Signal Denial of service Blocking of messages and calls Fixed May 11, 2020 May 15, 2020
Telegram Deserialization Access to messages and files Fixed January 23, 2021
WhatsApp QR code spoofing Account hacking Fixed October 10, 2019
File-based XSS Code injection Execution of malicious code in the browser Not fixed December 17, 2020 N/A
RCS QR code spoofing Interception, modification or spoofing of messages and calls Not fixed June 17, 2020 N/A
SMS SIM swap fraud Account takeover and identity theft Active or in progress
MMS Stagefright vulnerability Remote code execution and data theft Fixed July 27, 2015 August-September 2015
SolarWinds Orion Supply chain compromise Data theft and backdoor installation Fixed December 8, 2020 February 25, 2023
API PubNub-Kotlin Privilege escalation by deserialization of untrusted data Arbitrary command execution on SolarWinds Platform website Fixed February 8, 2022 April 19, 2023
SS7 Multiple vulnerabilities Data theft, interception, modification or blocking of communications, location tracking or spoofing, fraud Active or in progress 2014 N/A

This table provides a concise overview of the hidden dangers of communication vulnerabilities in 2023, their types, impacts, and current statuses.

EviCypher NFC HSM: The technology that makes your communications invulnerable to security breaches

Security vulnerabilities in the means of communication pose a high risk to users, including satellite messaging, as their data can be exposed or manipulated by hackers. Therefore, effective protection against this threat is essential. This is precisely where the EviCypher NFC HSM technologies mentioned in this article come in as an innovative and secure solution.

EviCypher NFC HSM Technology for Messaging Protection

EviCypher NFC HSM technology is a solution that enables contactless encryption and decryption of data using an NFC card. It employs a hardware security module (HSM) that securely stores encryption keys. It is compatible with various communication services, including emails, SMS, MMS, satellite messaging, and chats.

To use EviCypher NFC HSM technology, simply pair the NFC Card, to an NFC-enabled Android phone and activate it with your fingerprint. Messages sent and received through messaging services are encrypted and decrypted using the NFC card. Only the card owner can access their messages and files. No one can intercept or alter them, even if the  service is compromised by a security vulnerability.

EviCypher NFC HSM technology offers optimal protection for commincation, ensuring data confidentiality and integrity. It also safeguards against other types of security vulnerabilities that may affect communication methods, such as Log4Shell or SolarWinds. It is a simple, effective solution that requires no change in user habits.

What is EviCypher NFC HSM technology?

EviCypher NFC HSM technology is a contactless encryption technology that uses hardware security modules (HSM) devices that communicate via NFC (Near Field Communication) protocols. These devices are EviTag and Evicard, which are small and portable devices that can be attached to a keychain or a card holder. They allow users to store and manage their keys and secrets securely, without relying on third-party services or cloud storage.

How does EviCypher NFC HSM technology work?

EviCypher NFC HSM technology works by encrypting and decrypting data and communications with the user’s own keys that they created and stored offline. The user can use the devices for various applications, such as encrypting emails, messages or files.

To use NFC HSMs, the user must first pair it with their phone. He chooses the option of encryption or decryption on his phone, writes or reads his messages on his phone. Encryption and decryption operations are performed from the NFC HSM itself, without exposing keys or secrets to the phone. The same operation is available on computer via a phone-paired web extension and using the NFC HSM.

Why is EviCypher NFC HSM technology secure and reliable?

EviCypher NFC HSM technology is integrated into a hardware security module that stores encrypted secrets, such as encryption keys, in the highly secure NFC eprom memory. It enables to encrypt contactless communications upstream, in post-quantum AES 256, before sending them. It is thus secure and reliable, because it encrypts the data before transmitting them without ever keeping the message in plain text.

How can EviCypher NFC HSM technology protect you from security breaches?

EviCypher NFC HSM technology can protect you from security breaches by encrypting your data and communications in advance in volatile memory before sending them encrypted without ever keeping the message in clear automatically destroyed and replaced by its encrypted version in AES 256 symmetry considered post quantum. Thus, even if there are security flaws the messages and emails and their attachments remain always encrypted. This can be done from an Android NFC phone and/or from the Freemindtronic extension.

This way, you can avoid being exposed to past, present or future security vulnerabilities, since the encryption is done on the device itself, without exposing the keys or secrets to the phone or computer. Even if your phone or computer is compromised by a hacker or a spyware, they cannot access your data or messages in clear text. Only you can decrypt them with your device and your PIN code.

EviCypher NFC HSM technology is an innovative solution that offers a high level of security and privacy for your communication systems. It is developed by Freemindtronic, an Andorran company specialized in NFC security. It is based on EviCore NFC HSM technology, which is a hardware security module that combines hardware encryption and NFC communication protocols.

In conclusion, the EviCypher NFC HSM technology is integrated into a hardware security module that stores encrypted secrets, such as encryption keys, in the highly secure NFC eprom memory. It allows to encrypt contactless communications upstream, in post-quantum AES 256, before sending them. It is thus secure and reliable, because it encrypts the data before transmitting them without ever keeping the message in plain text.

Freemindtronic’s Legacy: Rediscovering Excellence

Freemindtronic's Legacy: Rediscovering Excellence

Freemindtronic’s Legacy by Jacques Gascuel: This article will be updated with any new information on the topic.  

Breaking News: Rediscover Excellence with Freemindtronic’s Technological Heritage!

In this exclusive preview, at Freemindtronic, we take immense pride in inviting you to delve into our pioneering legacy in the realm of extreme security. Discover how our company not only reshapes the technological landscape but also has the potential to establish new industry standards in the captivating world of advanced nanotechnology and electronic cyber protection.

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Resurrecting Excellence: Freemindtronic’s Legacy in Nanotechnology and the ‘Fullprotect’ Revolution

In 2013, Freemindtronic, a visionary enterprise founded in 2010, celebrated its nomination as a finalist for the prestigious “electron d’Or” award and its recognition as one of the top 10 most innovative mechatronics startups, earning the esteemed European Mechatronics Award. These accolades marked pivotal moments for Freemindtronic, showcasing its groundbreaking ‘Fullprotect’ technology and pioneering contributions to electronic innovation.

A New Chapter Begins with Freemindtronic SL Andorra – Resurrecting Excellence

Freemindtronic SL Andorra, the custodian of a global exclusive patent license for this groundbreaking technology, is embarking on a new chapter. Even though the partnership between STMicroelectronics and Freemindtronic SAS prematurely concluded just before the production of the first FullProtect component, Freemindtronic SL Andorra’s commitment to the project of creating nanotechnological components enters a new dynamic, as we explore new avenues for development.

Nanotechnology Components: A Resilient Legacy – Freemindtronic’s Technological Excellence

The journey begins with the creation of a range of miniaturized electronic components using nanotechnology. Freemindtronic SAS France’s primary objective was to create a range of miniaturized electronic components utilizing nanotechnology. This included the development of the first product range for direct current, covering 5 volts, 12 volts, and 8 volts to 48 volts, in collaboration with STMicroelectronics. This technology has the potential to revolutionize electronic systems, enhance performance, and set new industry standards. While the partnership with STMicroelectronics may have ended, Freemindtronic SL Andorra’s commitment to nanotechnology components remains unyielding, as we seek new avenues for development.

Rekindling Electronic System Protection – Innovating with ‘Fullprotect’

But the heart of the revival lies in the resurrection of ‘Fullprotect,’ the revolutionary technology that redefined electronic system protection. This innovation was designed to safeguard electronic systems from electrical and environmental threats while meticulously recording random events within an immutable “Evidence Box.” It was, and remains, a game-changer in the realm of electronic protection.

A Comprehensive Vision – The Vision of Freemindtronic

This synergy presents a comprehensive vision where technology converges to provide holistic solutions. Freemindtronic’s ‘Fullprotect’ technology sets the stage for a secure and efficient electronic landscape.

Expanding Horizons with Global Patents – International Patents and Innovations

Advantageously, Freemindtronic’s innovation, Argos One NFC, based on the patent FR2941572, is not an isolated triumph. It seamlessly integrates with the company’s other innovations in the realms of safety and cybersecurity, both of which hold international patents.

The Evolution of EviKey NFC HSM – EviKey NFC HSM: A Technological Evolution

An excellent example of this evolution is EviKey NFC HSM. It represents the discreet version of several other patented NFC HSM technologies by Freemindtronic SL Andorra, including EviCore, EviPass, EviSeed, EviVault, EviSign, EviOTP, EviPC, EviKeyboard, and EviCypher, with silicon integration on the horizon. This exemplifies Freemindtronic’s unwavering commitment to pushing the boundaries of electronic protection and innovation.

Rediscover Excellence with Freemindtronic – Join Us in Rediscovering Excellence

Join us in rediscovering the illustrious journey of Freemindtronic, a legacy of innovation in nanotechnology components and the ‘Fullprotect’ revolution. Together, we’re reigniting the flame of excellence and pioneering the future of electronic protection.

How to secure your SSH key with NFC HSM USB Drive EviKey

NFC HSM USB drive SSH Contactless keys manager EviKey NFC & EviCore NFC HSM Compatible Technologies patented from Freemindtronic Andorra Made in France - JPG

How to Create and Store Your SSH Key Securely with EviKey NFC HSM USB Drive

NFC HSM USB Drive EviKey revolutionizes SSH key storage in our digital era. In a world teeming with cyber threats, safeguarding SSH keys remains paramount. Yet, striking a balance between top-notch security and effortless access often poses challenges. The answer? EviKey’s groundbreaking NFC HSM USB technology. Throughout this guide, we’ll uncover how EviKey stands out, ensuring robust security without forsaking user convenience. So, whether you’re a seasoned tech expert or just beginning your cybersecurity journey, dive in. You’re about to discover the next big thing in digital key storage.

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How to create and protect your SSH key with NFC HSM USB drive

The NFC HSM USB drive is a device that allows you to create and store your SSH key securely with EviKey technology. EviKey is a patented technology that encrypts your SSH key with a secret code that only you know and that is stored in a NFC tag embedded in the device. You will need to scan the NFC tag with your smartphone or another NFC reader to unlock your SSH key and use it for SSH sessions. You will also learn how to customize the security settings of your device and how to backup and restore your SSH key.

SSH: A secure protocol for remote communication

SSH, or Secure Shell, is a cryptographic protocol that allows you to establish a secure communication between a client and a server. SSH is often used to remotely administer servers, execute commands or transfer files. To connect to a server via SSH, there are two authentication methods: password or public key.

Password authentication: simple but insecure

Password authentication is the simplest method, but also the least secure. Passwords can be easily guessed, stolen or intercepted by attackers. Moreover, you have to remember your password and enter it every time you connect.

Public key authentication: advanced and secure

Setting up public key authentication for SSH

Public key authentication is a more secure and convenient way to access remote servers than using passwords. To set it up, you will need to generate a pair of keys, one public and one private, and copy the public key to the server you want to connect to. The private key will stay on your local machine and will be used to authenticate yourself when you initiate an SSH session. You will also learn how to use a passphrase to protect your private key from unauthorized access.

Advantages and constraints of public key authentication

Public key authentication: benefits and challenges

Using public key authentication for SSH has many benefits and challenges. Some of the benefits are: increased security, reduced risk of brute force attacks, and a streamlined login process. Some of the challenges are: managing multiple keys, ensuring the integrity of the public key, and recovering from lost or stolen private key. You’ll also learn some best practices for overcoming these challenges and protecting your SSH keys.

Public key authentication has several advantages:

  • Compared to password authentication, public key authentication offers a higher level of security. It also avoids typing your password every time you connect. In addition, it allows you to automate processes that require an SSH connection; such as scripts or orchestration tools.

However, public key authentication also involves certain constraints:

  • You have to deal with some constraints when you use public key authentication. For each client and each server, you have to generate a pair of keys; copy the public key on the server in a special file called ~/.ssh/authorized_keys; and protect the private key against any loss or compromise.

EviKey NFC HSM USB drive: A solution to store your SSH key securely

To overcome these constraints, there is a solution: using an EviKey NFC HSM technology to store your private SSH key physically externalized. EviKey NFC HSM USB drive is a hardware device that allows you to store sensitive data in a secure flash memory, which can only be unlocked with a contactless authentication via a smartphone compatible with NFC (Near Field Communication). It offers several advantages:

  • The EviKey NFC HSM USB drive allows you to keep your private SSH key outside of the hard disk of the client. This reduces the risks of theft or unauthorized access. You can also unlock your private SSH key without typing a password or a passphrase; you just have to approach your smartphone to the NFC HSM USB drive. Moreover, the device offers an industrial level of security equivalent to SL4 according to the standard IEC 62443-3-3.

EviKey NFC HSM: A technology developed by Freemindtronic SL

There are several models and brands of NFC HSM USB drives on the market, but in this tutorial, we will focus on the EviKey NFC HSM technology, developed by Freemindtronic SL, an Andorran company specialized in cybersecurity. EviKey NFC HSM is compatible with all operating systems (Linux, Windows, macOS, Android) and can be used with three free Android applications: Evikey & EviDisk, Fullkey Plus and Freemindtronic (FMT). These applications allow you to manag the NFC HSM USB drives, to create and restore backups, to encrypt and decrypt files, and to authenticate via SSH.

How to create an SSH key and use it with a NFC HSM USB drive

In this tutorial, we will show you how to create an SSH key under different operating systems, how to use a NFC HSM USB drive to store your private SSH key physically externalized, and how to use the public SSH key to authenticate locally, on a computer or on a server.

Prerequisites

The following are required to follow this tutorial:

  • A computer or a smartphone with an operating system among Linux, Windows, macOS or Android.
  • An internet connection.
  • A NFC HSM USB drive.
  • One of the three Android applications mentioned above installed on your smartphone.
  • A remote server that you want to connect to via SSH.

Creating an SSH key

The first step to use public key authentication is to generate a pair of SSH keys (private and public) on your computer or smartphone. To do this, you can use a special utility called ssh-keygen, which is included with the standard OpenSSH suite. By default, this utility will create a pair of RSA keys of 3072 bits.

The procedure to create an SSH key varies depending on the operating system that you use. Here is how to do it for each case:

  • Linux

    • Open a terminal and type the following command: ssh-keygen -t rsa -b 4096 -C "your_email@example.com"
    • This command will create a new pair of SSH keys using your email as a label.
    • You can choose the location and name of the file where to save your private key, as well as a passphrase to protect it.
    • By default, the files are named id_rsa and id_rsa.pub and are stored in the ~/.ssh directory.
  • Windows

    • Download and install the PuTTYgen software from the official website [2].
    • Launch PuTTYgen and click on the Generate button.
    • You will have to move the mouse over the blank area to create some entropy.
    • Once the key is generated, you can enter a comment (for example your email) and a passphrase to secure it.
    • Then, you will have to save your public key and your private key in separate files by clicking on the Save public key and Save private key buttons.
  • macOS

    • The procedure is similar to Linux.
    • Open a terminal and type the following command: ssh-keygen -t rsa -b 4096 -C "your_email@example.com"
    • SSH keygen will create a new pair of SSH keys using your email as a label.
    • You can choose the location and name of the file where to save your private key, as well as a passphrase to protect it.
    • By default, the files are named id_rsa and id_rsa.pub and are stored in the ~/.ssh directory.
  • Android

    • Download and install the ConnectBot application from the Play Store [5].
    • Open ConnectBot and press the Menu button.
    • Select Manage Pubkeys.
    • Press the Menu button again and select Generate.
    • Choose the type of key (RSA or DSA) and the size of the key (2048 bits or more).
    • Enter a nickname for your key and press Generate.

Using a NFC HSM USB drive

Once you have created your pair of SSH keys, you have to move the private SSH key into the flash memory of the NFC HSM USB drive. To do this, you have to plug the NFC HSM USB drive into the USB port of your computer or smartphone, and use the following command:

sudo mv ssh_private_key /usb_directory

This command will move the file containing your private SSH key (for example id_rsa or private.ppk) to the directory corresponding to the NFC HSM USB drive (for example /media/evikey or /storage/evikey). You have to replace ssh_private_key and /usb_directory with the appropriate names according to your case.

Once you have moved your private SSH key into the NFC HSM USB drive, you can lock it contactlessly with your smartphone. To do this, you have to use one of the three Android applications that embed the EviKey NFC HSM technology: Evikey & EviDisk, Fullkey Plus or Freemindtronic (FMT). Here is how to do it for each application:

With Evikey & EviDisk or Fullkey Plus or Freemindtronic (FMT) Android NFC app

  • Open the application on your smartphone.
  • Select the NFC HSM USB drive that you want to lock.
  • Press the Lock button.
  • Approach your smartphone to the NFC HSM USB drive to lock the access to the flash memory.

Authentication via SSH with a NFC HSM USB drive

You have prepared your NFC HSM USB drive and copied your public SSH key on the computer or remote server that you want to connect to via SSH. Now you can authenticate via SSH with the NFC HSM USB drive. Here are the steps to follow:

  • Plug the NFC HSM USB drive into the USB port of the smartphone
  • Open the Android application of your choice
  • Select the option “SSH Authentication”
  • Enter the information of the computer or remote server (IP address, port, username)
  • Select the private SSH key stored in the NFC HSM USB drive
  • Approach your smartphone to the NFC HSM USB drive to unlock the access to the flash memory
  • Validate the SSH connection
  • Access the terminal of the computer or remote server

The method allows you to authenticate locally, on a computer or on a server. Here are some examples of use cases:

Local authentication

You can use the NFC HSM USB drive to authenticate locally on your own computer or smartphone. That can be useful if you want to execute commands as another user, for example root or sudo. To do that, you have to enter the information of your computer or smartphone as IP address, port and username. For example:

ssh -p 22 root@127.0.0.1

It command will connect you via SSH to your local computer as root, using port 22 and IP address 127.0.0.1. It is a special address that always designates the local host. You will have to approach your smartphone to the NFC HSM USB cdrive to unlock your private SSH key and validate the connection.

Computer authentication

With the NFC HSM USB drive, you can authenticate on another computer that you have access to on the network. Such can be useful if you want to access files or programs that are stored on that computer, or if you want to perform maintenance or troubleshooting operations remotely. To do such, you have to enter the information of the computer that you want to connect to as IP address, port and username. For example:

ssh -p 22 alice@192.168.1.10

Local SSH will connect you via SSH to the computer whose IP address is 192.168.1.10, using port 22 and username alice. You will have to approach your smartphone to the NFC HSM USB drive to unlock your private SSH key and validate the connection.

Server authentication

The EviKey NFC HSM USB drive lets you authenticate on a remote server that you have access to via the internet. This can be useful if you want to administer a website, a database, a cloud service or any other type of server. To do this, you have to enter the information of the server that you want to connect to as IP address, port and username. For example:

ssh -p 22 bob@54.123.456.78

That command will connect you via SSH to the server whose IP address is 54.123.456.78, using port 22 and username bob. You will have to approach your smartphone to the NFC HSM USB drive to unlock your private SSH key and validate the connection.

Comparison of Secure Storage Solutions for SSH Keys

EviKey NFC HSM USB Drive: Redefining the Paradigm

The search for dependable, efficient, and secure storage for SSH private keys has evolved from a mere task to a pivotal mission. In a digital landscape riddled with threats, the EviKey NFC HSM USB drive emerges, not merely as a product but as a groundbreaking shift towards cybersecurity, regulatory compliance, and user-friendliness.

Cybersecurity and Safety: A Synergy

Combining cybersecurity (safeguarding digital assets) and safety (protecting the device itself) is a hallmark of the EviKey NFC HSM USB drive. The drive’s construction inherently merges these two dimensions. With electrical and thermal safeguards, ESD protection, and an integrated self-diagnostic system, it’s evident that the EviKey drive is designed not just to store but to fortify.

Simplicity Meets Security: Seamless SSH Key Storage

EviKey has revolutionized the SSH key storage process, doing away with complicated software or intricate steps. Upon unlocking the USB NFC HSM through a contactless mechanism, it presents itself as a standard medium on various operating systems. Users can then smoothly transfer SSH keys to this space. In its locked state, the drive becomes virtually undetectable to both computing and mobile platforms, ensuring unparalleled security. Furthermore, the option to fortify security with an additional password layer is available to users.

Normative Compliance: Setting the Gold Standard

EviKey’s technological prowess is evident in features such as NFC signal energy harvesting. This includes a state-of-the-art black box monitoring system. Additionally, there’s an assurance of data persistence for an astounding 40 years without needing an external power source.

Technological Advancements: Beyond the Ordinary

EviKey’s technological prowess is evident in features such as NFC signal energy harvesting, a state-of-the-art black box monitoring system, and an assurance of data persistence for an astounding 40 years without needing an external power source.

At a Glance: EviKey Versus the Rest


Criteria EviKey NFC HSM Nitrokey Yubikey SoloKeys OnlyKey Trezor
Storage Capacity 8GB-128GB 32KB 32KB 32KB 32KB Limited by key size
SSH Key Capacity Over 4 billion About 24 About 24 Up to 24 Up to 24 Several
Contactless Authentication Yes, via NFC No Yes, NFC or USB Yes, NFC or USB Yes, NFC or USB Yes, via USB
Physical Device Security Enhanced with attack detection & self-destruct Standard with PIN lock Standard with PIN lock Standard with PIN lock Standard with PIN lock Standard with PIN lock
OS Compatibility All OS All OS All OS All OS All OS All OS
SSH & OpenSSH Protocol Compatibility Yes, via OpenSSH Yes, via PKCS#11 Yes, via PKCS#11 Yes, via PKCS#11 Yes, via PKCS#11 Yes, via GPG
SSH & OpenSSH Authentication Modes Five-factor (MFA) Two-factor (2FA) Two-factor (2FA) Two-factor (2FA) Two-factor (2FA) One-factor (1FA)
Users for Contactless SSH & OpenSSH Unlocking Six different users None One user One user One user One user
Patents Three international patents None None None None None
Electrical Protection Integrated with intelligent regulator No No No No No
Thermal Safeguards Functional & thermal sensors with breaker No No No No No
ESD Protection 27kv on data channel No No No No No
Physical Robustness Military-grade resin; Waterproof & Tamperproof No No No No No
Security from Attacks Inclusive of invasive & non-invasive threats No No No No No
Limit on Auth. Attempts 13 (modifiable by admin) No No No No No
USB Port Protection Fully independent security system No No No No No
Contactless Security Energy Harvests energy from NFC signals No No No No No
Black Box Monitoring Comprehensive event tracking No No No No No
Fault Detection In-built self-diagnostics No No No No No
Memory Write Count Monitors flash memory health No No No No No
Data Persistence 40 years without external power No No No No No
Temperature Guard Ensures optimal performance No No No No No
Auto-lock Duration Admin-defined (seconds to minutes) No No No No No

Unveiling the NFC HSM USB Drive EviKey’s Innovations

Deep Dive: Why EviKey is the Leading Choice

With standout features like the swift auto-lock function, EviKey solidifies its position as a market leader. Its rapid automatic re-locking capability, combined with easy NFC unlocking, minimizes vulnerability windows, ensuring top-notch security. The EviKey NFC HSM USB drive signifies not just storage but an investment in unparalleled SSH key protection.

Physical Robustness: Beyond Conventional Protection

Designed with precision, the EviKey NFC HSM USB drive is adept at handling adverse conditions. Enclosed in a military-grade resin, its robustness parallels that of steel. Its unique construction ensures the EviKey drive’s resilience to damage, and its waterproof quality even allows it to operate underwater. Beyond the physical, the drive also provides countermeasures against invasive and non-invasive brute force intrusions.

Independence from Encryption Systems: Freedom of Choice

EviKey NFC HSM USB drive’s design is devoid of a pre-set encryption system, a strategic move to offer users flexibility and security. This choice ensures evasion from issues tied to outdated or flawed cryptographic elements, which may require user updates. This architecture offers users the autonomy to choose their preferred encryption method for data storage on the EviKey drive. Furthermore, the option for drive segmentation allows users to create specific encrypted sections, such as a BitLocker space, diversifying its applications.

Versatility: A Universal Key

EviKey NFC HSM’s adaptability is not limited to SSH key storage. Its versatile nature allows integration with various security ecosystems. The drive can serve as a decryption key for encrypted SSDs, HDs and SDs TPM2.0. Moreover, its compatibility extends to password management, functioning as a password manager or a token, harmonizing with other advanced technologies from Freemindtronic such as EviCode HSM OpenPGP and EviPass HSM OpenPGP.

Conclusion

You now know how to create an SSH key under different operating systems, how to use a NFC HSM USB drive to store your physically externalized private SSH key, and how to use the public SSH key to authenticate locally, on a computer or on a server. You can thus enjoy a secure and convenient authentication method, without needing a password or additional software, while benefiting from an industrial level of security equivalent to SL4 according to the standard IEC 62443-3-3.

If you have any questions or comments, feel free to contact Freemindtronic SL, designer, developer, manufacturer and publisher of applications embedding the EviKey NFC HSM technology. You can also buy the products integrating this technology from Freemindtronic’s partners.

How to choose the best multi-factor authentication method for your online security

Multi-factor authentication how to choose the best multi factor authentication MFA method for your online security and PassCypher NFC HSM solution passwordless MFA from Freemindtronic

Multi-factor Authentication by Jacques Gascuel: This article will be updated with any new information on the topic.  

Why use multi-factor authentication?

Passwords are not enough to protect your online accounts from cybercriminals. You need to use a more robust authentication method: multi-factor authentication. It combines several factors to verify your identity, such as passwordless MFA. In this article, you will discover what it is, how it works and how to choose it.

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Everything you need to know about multi-factor authentication and its variants

Have you ever wondered how to protect your online accounts and data from hackers and cybercriminals? If so, you need to know about multi-factor authentication and its variants. Authentication is the process that verifies the identity of a user who wants to access a website, an application or a system. Authentication is essential to protect the security and privacy of data and online transactions. Without proper authentication, hackers and malicious actors can access sensitive information, steal identities, compromise accounts or commit fraud.

There are different authentication methods that can offer different levels of security and convenience for users. Some methods use only one factor, such as a password, to verify a user’s identity. This is called single-factor authentication (SFA). SFA is simple, fast and convenient, but also very insecure and unreliable. Other methods use two or more factors, such as a password and a code, to verify a user’s identity. This is called multi-factor authentication (MFA). MFA offers a high level of security because it makes it harder for attackers to obtain all the factors needed to access an account.

In this article, we will explain the main differences between six popular methods of authentication: single-factor authentication (SFA), multi-factor authentication (MFA), two-factor authentication (2FA), two-step verification (2SV), one-time passwords (OTP) and passwordless multi-factor authentication (Passwordless MFA). We will also introduce you to a new product that offers an innovative and eco-friendly solution for contactless multi-factor authentication: PassCypher NFC HSM. We will also discuss another method of authentication that allows users to access multiple applications or services with one login. This is called single sign-on (SSO). SSO can use different protocols, such as SAML, OAuth, or OpenID Connect, to verify the user’s identity and grant access.

According to a report by Microsoft, 99.9% of account compromise attacks can be blocked by using multi-factor authentication. Therefore, it is important to choose the best authentication method for your online security. In this article, we will help you understand the pros and cons of each method and how to choose the best one for your needs and preferences.

Why use multi-factor authentication?

You use passwords for your online accounts; but are they secure enough? Cybercriminals can steal, guess or hack them easily; you hear many news about it. You want to improve their protection and usage; you need to know more. You need to know the different methods of multi-factor authentication; up to the most robust one, like passwordless MFA. In this article, you will get answers and learn more.

How to evaluate the level of resistance to cyberattacks?

We use several criteria to evaluate the level of resistance to cyberattacks of an authentication method, such as:

  • The number and diversity of factors used: An attacker has a harder time getting all the factors if there are more of them. It is also better to combine factors of different natures (what you know, what you have, what you are); they are less vulnerable to the same types of attacks.
  • The complexity and variability of factors used: An attacker has a harder time guessing or reproducing the factors if they are more complex and variable. For example, a long and random password is more resistant than a short and simple one. Likewise, a one-time code is more resistant than a fixed one.
  • The security and reliability of communication channels used: An attacker has a harder time intercepting or altering the channels if they are more secure and reliable. For example, an encrypted connection is more secure than an unencrypted one. Likewise, a push notification is more reliable than an SMS.
  • The ease and speed of use for the user: Users are more likely to adopt the methods if they are easier and faster. A too complex or slow method can discourage users or make them bypass security. For example, facial recognition is easier and faster than a USB key.

We give a score out of 10 to each authentication method based on these criteria; we consider the pros and cons of each factor and channel. This score reflects the level of resistance to cyberattacks of the method; its ability to prevent or reduce the impact of an attack.

What are the differences between MFA, 2FA, 2SV, SFA, SSO, OTP and Passwordless MFA?

MFA, 2FA, 2SV, Passwordless MFA, OTP and SFA are all types of authentication methods that require users to provide one or more pieces of evidence (or factors) to prove their identity. However, they have distinct differences in terms of how they work and how secure they are. Here is a summary of each one:

Multi-Factor Authentication (MFA)

MFA is a security enhancement that requires users to submit two or more pieces of evidence (factors) to access a system. These factors can belong to different categories, such as:

  • Knowledge: something that the user knows, such as a password, a PIN or an answer to a secret question.
  • Possession: something that the user has, such as a smartphone, a smart card or a hardware token.
  • Inherence: something that the user is, such as a fingerprint, a retina scan or a facial recognition.

MFA offers a high level of security because it makes it harder for attackers to obtain all the factors needed to access an account. Even if one factor is compromised, such as a password, the other factors can still prevent unauthorized access.

Level of resistance to cyber attacks: 8/10

Two-Factor Authentication (2FA)

2FA is a type of MFA; it uses two distinct factors of authentication. These factors must belong to two different categories; such as knowledge and possession. For example, you can log in to an account; with your username and password (knowledge). Then you receive a notification on your smartphone (possession); to approve the login.

2FA offers an intermediate level of security between single-factor authentication by password only and MFA by adding an extra layer of protection against unauthorized access attempts. However, it can be less secure than 2FA; if it uses factors that belong to the same category; such as knowledge.

Indeed, if an attacker manages to obtain the password and the additional code; they can access the account without any problem.

Level of resistance to cyber attacks: 6/10

Two-Step Verification (2SV)

2SV is a type of MFA that requires two sequential steps of verification using authentication factors. These steps can belong to the same category, such as knowledge. For example, Google uses 2SV for its accounts. To log in, the user enters their username and password (knowledge), then they enter an additional code that they receive by SMS or email (knowledge).

2SV offers an intermediate level of security between single-factor authentication by password only and 2FA by adding an extra layer of protection against unauthorized access attempts. However, it can be less secure than 2FA if it uses factors that belong to the same category, such as knowledge.

Indeed, if an attacker manages to obtain the password and the additional code, they can access the account without any problem.

Level of resistance to cyber attacks: 4/10

Single-Factor Authentication (SFA)

Single-Factor Authentication (SFA) is a security method that uses only one factor to verify a user’s identity. A factor is something that the user knows, has, or is. For example:

  • One piece of evidence (factor) verifies a user’s identity with SFA.
  • The factor can be something the user knows (password, PIN, secret question), has (smartphone, smart card, hardware token), or is (fingerprint, retina scan, facial recognition).
  • SFA has some benefits but also many drawbacks. It is simple, fast and convenient, but also insecure, unreliable and non-compliant.
  • Many cyberattacks expose users to SFA, such as phishing, keylogging, brute force or credential stuffing.
  • Attackers can easily obtain the factor and access the account without the user’s consent.
  • If the factor is compromised (e.g., password), the account is vulnerable to unauthorized access.
  • SFA does not meet the security standards or regulations of some industries or organizations (e.g., banks, government agencies).

SFA offers a low level of security because it makes it easy for attackers to obtain the factor needed to access an account. If the factor is compromised, such as a password, the user’s account is vulnerable to unauthorized access.

Level of resistance to cyber attacks: 2/10

Single Sign-On (SSO) and Multi-Factor Authentication (MFA)

Single Sign-On (SSO) is a security method that allows users to access multiple applications or services with one login. The user only needs to enter their username and password once, and the SSO service authenticates them for all the connected applications. SSO can use different protocols, such as SAML, OAuth, or OpenID Connect, to verify the user’s identity and grant access. SSO has some advantages and disadvantages that you should consider before choosing it as your authentication method.

  • Pros of SSO
    • Reduced password fatigue: Users only need to remember one password instead of many. This makes it easier to create strong and unique passwords for each application.
    • Simplified user and password management: IT admins can control the access rights of users from a central place. They can also revoke or change the passwords of users who leave the organization or lose their devices.
    • Improved identity protection: SSO can use additional security measures, such as multi-factor authentication (MFA), to enhance the verification process. MFA is a type of authentication that requires two or more factors to verify a user’s identity. These factors can be something that the user knows, has, or is, such as a password, a smartphone, or a fingerprint. MFA offers a higher level of security than single-factor authentication (SFA), which only requires one factor, such as a password.
  • Cons of SSO
    • Limited user control: Users cannot choose which applications are included in the SSO service. They may also have difficulty logging out of all the applications at once.
    • Incompatible apps: Some applications may not support the SSO protocols or require additional configuration to work with the SSO service. This may limit the number of applications that users can access with one login.
    • Unpredictable costs and time: Implementing and maintaining an SSO service may be costly or complex for some organizations. They may need to buy or develop software, pay for subscription fees, train users or staff, or comply with regulations.

SSO has some benefits but also some drawbacks that you should consider before choosing it as your authentication method. You should weigh the pros and cons of SSO and compare them with your security goals and resources.

Level of resistance to cyber attacks: 7/10

Passwordless Multi-Factor Authentication (Passwordless MFA)

Passwordless MFA is a term used to describe an authentication method; that does not require a password; and that uses multiple factors. For example, you can log in to an account; using your fingerprint (inherence) and a code generated by your smartphone (possession); without having to enter your username or password.

Passwordless MFA offers the highest level of security; when implemented correctly; because it eliminates the risk of password theft or leakage. It also improves convenience and user experience; because it does not require memorization or input of passwords.

Level of resistance to cyber attacks: 10/10

One-Time Passwords (OTP)

OTP are random and temporary codes; that are used as additional factors of authentication. There are two main types of OTP: Time-based One-Time Password (TOTP) and HMAC-based One-Time Password (HOTP).

Time-based One-Time Password (TOTP)

TOTP is a type of OTP that is generated based on time; it uses a secret key shared between the server and the client; as well as a counter based on the client’s clock. The server and the client calculate the same code; using the same key and the same counter. The code is valid for a short period, usually 30 seconds.

TOTP offers a high level of security because it prevents the reuse of codes. Even if an attacker intercepts a code, they will not be able to use it after its expiration.

Level of resistance to cyber attacks: 7/10

HMAC-based One-Time Password (HOTP)

HOTP is a type of OTP that is generated based on an incremental counter. It uses a secret key shared between the server and the client, as well as a counter that increments every time a code is generated or validated. The server and the client calculate the same code using the same key and the same counter. The code does not have a fixed validity period, but it must be used in order.

HOTP offers an intermediate level of security because it requires synchronization between the server and the client. If the client’s counter is offset from the server’s counter, there may be authentication errors. Moreover, if an attacker manages to obtain the secret key or the counter, they can generate valid codes.

Level of resistance to cyber attacks: 5/10

Statistics on MFA, 2FA, 2SV, SFA, OTP (TOTP and HOTP), Passwordless MFA and SSO

To illustrate the importance and popularity of multi-factor authentication methods, here are some statistics from various sources:

  • According to the 2021 Duo Trusted Access Report, the total number of MFA authentications increased by 39% over the past year, while biometric authentications saw an even faster growth, with a 48% increase.
  • The report also indicates that Duo Push is the most popular authentication method, accounting for 30% of the total authentications, followed by SMS (25%) and phone calls (19%).
  • Among customers using location policies, 74% block Russia and China, which are the most frequently blocked countries in authentication apps.
  • In 2020, Duo Security conducted a survey of over 4,000 people in the US and UK on their experience and perception of 2FA. The survey revealed that 79% of respondents had used 2FA in 2020, up from 53% in 2019 and 28% in 2017.
  • The survey also showed that SMS (85%) continues to be the second most common factor that respondents with 2FA experience have used, slightly up from 2019 (72%). Email is the second most common factor (74%), with a notable increase from 2019 (57%).
  • According to a report by Okta, an identity and access management company, SSO adoption increased by 68% between February and April 2020, as more organizations shifted to remote work due to the COVID-19 pandemic.
  • The report also found that SSO usage was highest among education (60%), technology (58%), and non-profit (49%) sectors. The most popular SSO protocols were SAML (54%), OAuth (24%), and OpenID Connect (22%).

These statistics show that multi-factor authentication methods are more effective and popular than single-factor authentication methods. They provide higher levels of security and reliability for users and organizations. However, they also reveal that there is still room for improvement and awareness in terms of online security. Many users and companies do not use multi-factor authentication or use weak factors that can be compromised. Therefore, it is important to educate and encourage users and companies to adopt multi-factor authentication methods that suit their needs and preferences.

Discover PassCypher NFC HSM: an innovative solution for contactless multi-factor authentication

You now have a better understanding of the different methods of multi-factor authentication and their pros and cons. You may have noticed that some methods have weaknesses, such as vulnerability to cyber attacks, dependency on network or battery availability, or complexity of managing passwords.

Fortunately, there is a solution that combines security, convenience and ecology to protect your data and online transactions. We introduce you to PassCypher NFC HSM, a product developed by Freemindtronic that allows you to store and manage passwords, one-time passwords (OTP) and HMAC-based passwords (HOTP) in a wireless and battery-free device. It uses EviOTP technology, which is a patented solution by Freemindtronic to generate OTP without internet connection or power supply. It works with NFC-compatible Android smartphones and computers equipped with a Chromium or Firefox web browser.

The benefits of PassCypher NFC HSM

Some of the benefits of PassCypher NFC HSM over traditional multi-factor authentication solutions are:

  • Higher resistance to cyber attacks: It uses a NFC HSM device that stores the secrets in an encrypted way. It also verifies the validity of the device used, its pairing key, its unique anti-counterfeiting key, and the validation of the Authenticator Sandbox. It does this with auto verification of fraudulent URLs.
  • Greater convenience: It does not require network or battery. You just need to scan the PassCypher NFC HSM device with your smartphone. This will automatically fill in the login fields on your computer or display the OTP code. The OTP code corresponds to the online service.
  • Better eco-friendliness: It reduces energy consumption and CO2 emissions. It uses a wireless and battery-free device. It works with EviOTP technology, which generates OTP without network or battery. You can scan them with your smartphone to access your accounts.
  • More customization: It allows the user to freely define the authentication factors that they want to use. They can add cumulative factors such as the UID of the NFC Android phone, a BSSID or an authorized geofence. They can also add additional factors that involve their intervention. For example, a biometric criterion or a segmented key via a QR code or a hexadecimal barcode.

The features of PassCypher NFC HSM

PassCypher NFC HSM offers several features that facilitate the management and use of passwords and OTP. Here are some of these features:

  • It allows you to automatically fill in the identifiers and passwords of 2SV methods, such as Google or Facebook, using a browser extension. You just need to scan the PassCypher NFC HSM device with your smartphone to automatically fill in the login fields on your computer.
  • It manages TOTP, such as those used by GitHub or Dropbox, using a dedicated application on your smartphone. You just need to scan the PassCypher NFC HSM device with your smartphone to display the TOTP code corresponding to the online service. For this, you must have previously saved the OTP codes via the QR Code generated from the site that authorizes 2FA via TOTP or HOTP.
  • It has an advanced configurable passwordless MFA function patented using physical origin segmented key authentication defined freely by the user. It can add them cumulatively for each secret stored in the NFC HSM of segments that can be UID of the NFC Android phone, a BSSID or an authorized geofence. It can also add additional factors that involve their intervention, such as a biometric criterion or a segmented key via a QR code or a hexadecimal barcode. You just need to scan the PassCypher NFC HSM device with your smartphone to access your account without entering any username or password.
  • It allows you to save and restore contactlessly, in real time in volatile memory of the phone or computer, without needing a server, database, without needing to create an account and anonymously and encrypted end-to-end from the NFC HSM. It works on the NFC Android phone and on computer via an extension only on the local network encrypted end-to-end from the NFC HSM. You just need to pass the PassCypher NFC HSM under your smartphone’s antenna to auto-connect to the cloud service via the passwordless MFA process.
  • It allows you to share secrets stored in NFC HSM by various means with other authorized users with trust criteria who also have a PassCypher NFC HSM. Sharing can be done in presence of the recipient who scans a QR Code of the secret shared via coded QR Code. It can share nearby by bluetooth file sharing. It can also share remotely via all means of communication existing in their phone including SMS or RCS using a 4096-bit RSA public key that the recipient has freely generated in their NFC HSM that they regenerate at will. It can also share it contactlessly via Android Beam NFC technology.

Conclusion

In this article, we have discussed how to choose the best multi-factor authentication method for your online security. We have also compared some of the most popular and innovative solutions available in the market. Multi-factor authentication is a vital component of online security that protects your data and transactions from unauthorized access. However, not all methods are suitable for all situations and needs. Therefore, you should consider several factors when choosing an authentication method, such as:

  • The type and sensitivity of the data or transactions that you want to protect. Some data or transactions are more valuable or confidential than others. For example, your bank account or medical records require more protection than your social media account or online shopping.
  • The availability and reliability of the network or battery for your devices. Some methods depend on the network or battery to work. For example, you cannot use SMS or email if you have no internet connection or phone signal. Likewise, you cannot use a USB key or a smart card if your device has no power or port.
  • The ease and frequency of use and management of the authentication factors. Some methods are easier and faster to use and manage than others. For example, facial recognition or fingerprint scanning are more convenient than typing a password or entering a code. However, you may also need to change or update your factors regularly to maintain their security.
  • The compatibility and interoperability of the authentication method with your devices and platforms. Some methods work only with specific devices or platforms. For example, you cannot use an Apple Watch or a Google Authenticator app if you have an Android phone or a Windows computer. Likewise, you cannot use a biometric scanner if your device does not have one.
  • The cost and benefit of implementing and maintaining the authentication method. Some methods are more expensive or complex to implement and maintain than others. For example, you may need to buy additional hardware or software, pay for subscription fees, train users or staff, or comply with regulations.

These factors can help you decide which authentication method suits your needs and preferences best. You should weigh the pros and cons of each method and compare them with your security goals and resources.

Comparison of popular authentication methods

We have explained the main differences between five popular methods of multi-factor authentication: multi-factor authentication (MFA), two-factor authentication (2FA), two-step verification (2SV), passwordless multi-factor authentication (Passwordless MFA) and one-time passwords (OTP). Each method has its own advantages and disadvantages depending on the context and implementation. We have also introduced you to a new product that offers an innovative and eco-friendly solution for contactless multi-factor authentication: PassCypher NFC HSM.

PassCypher NFC HSM offers several benefits over traditional multi-factor authentication solutions, such as SMS or email

Freemindtronic designed, developed and manufactured PassCypher NFC HSM. This product lets you store and manage passwords, keys, OTP and HOTP. It uses a wireless, battery-free NFC HSM device. It works for life without maintenance. It also incorporates several EviPass technologies. EviCore NFC HSM and EviOTP technology are patented by Freemindtronic. With these technologies, you can manage, store, share, encrypt and generate OTP code securely. You can do this contactlessly from NFC devices. It does not need an Internet connection, a server, a database or a power supply. It works contactless with NFC-compatible Android smartphones.

PassCypher NFC HSM also offers several features that facilitate the management and use of passwords, such as:

Password generator: It can generate strong and random passwords for any website or application.

  • Password manager: It can store and retrieve your passwords securely and conveniently.
  • OTP generator: It can generate OTP based on time (TOTP) or counter (HOTP) for any website or application that supports them.
  • HOTP generator: It can generate HOTP based on HMAC algorithm for any website or application that supports them.
  • QR code scanner: It can scan QR codes that contain OTP information and generate the corresponding OTP.
  • Web extension: This is a feature that can integrate with your web browser. It can automatically fill in your complicated and complex usernames and passwords in MFA Passwordless. It does this for any website you visit.

One of the features of PassCypher NFC HSM is that it can store and manage SSO credentials and passwords for automatic login in passwordless MFA. This means that you can use PassCypher NFC HSM to access multiple applications or services with one tap, without entering any password. This increases the level of security of the authentication by SSO, as it eliminates the risk of password theft or compromise. Similarly, PassCypher NFC HSM can also store and manage SFA credentials and passwords for automatic login in passwordless MFA. This means that you can use PassCypher NFC HSM to access any website or system with one tap, without entering any password. This increases the level of security of the authentication by SFA, as it reduces the password fatigue and reuse.

PassCypher NFC HSM is a powerful and innovative product that enhances your online security and convenience. It is compatible with any type of authentication method, such as MFA, 2FA, 2SV, Passwordless MFA or SFA. It is also easy to use and eco-friendly.

If you are interested in trying out PassCypher NFC HSM, you can order it from our [website] or download our [web extension] for free. If you have any questions or feedback, please feel free to [contact us]. We would love to hear from you.

Unitary patent system: why some EU countries are not on board

Unitary Patent system European why some EU countries are not on board

Unitary patent system by Jacques Gascuel: This article will be updated with any new information on the topic.  

Why some EU countries don’t want the unitary patent

The unitary patent system promises to simplify and unify patent protection in Europe. But not all EU countries are on board. Discover why some countries like Spain have opted out and what it means for inventors.

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Why some EU countries are not on board

What is the unitary patent?

The unitary patent is a new scheme that allows inventors and innovative companies to protect their inventions in 17 EU member states by filing a single request to the European Patent Office (EPO) 1. It is an alternative option to the classical European patent, which requires individual validation and maintenance in each country where the patent holder wants to benefit from protection 1. The unitary patent  entered into force on 1 June 2023, after the ratification of the Agreement on a Unified Patent Court (UPC Agreement) by 17 states participating in enhanced cooperation 2. It is expected that more EU states will join this scheme in the future 1.

The unitary patent is based on the European patent granted by the EPO under the rules of the European Patent Convention (EPC), so nothing changes in the pre-grant phase and the same high standards of quality search and examination apply. After a European patent is granted, the patent holder can request unitary effect, thereby obtaining a European patent with unitary effect (unitary patent) that provides uniform protection in initially 17 EU member states.

What is the current status of the unitary patent?

The unitary patent system is a new scheme that allows inventors and innovative companies to protect their inventions in 17 EU member states by filing a single request to the European Patent Office (EPO) . It is an alternative option to the classical European patent, which requires individual validation and maintenance in each country where the patent holder wants to benefit from protection . The unitary patent is expected to start in early 2023, after the ratification of the Agreement on a Unified Patent Court (UPC Agreement) by 17 states participating in enhanced cooperation . It is expected that more EU states will join this scheme in the future.

The UPC Agreement

The UPC Agreement is an international treaty that establishes the Unified Patent Court (UPC), a supranational specialised court that will have exclusive jurisdiction to settle disputes relating to unitary patents and European patents . The UPC Agreement was signed by 25 EU member states in 2013, but it requires the ratification by at least 13 states, including France, Germany and Italy, to enter into force.

As of June 2021, 16 states have ratified the UPC Agreement, including France and Italy . Germany has also ratified the UPC Agreement in December 2020, but its ratification is pending before the German Constitutional Court, which has received two constitutional complaints against it . The German government has expressed its intention to deposit its instrument of ratification as soon as possible after the resolution of these complaints . The UK, which was initially one of the mandatory ratifying states, has withdrawn from the unitary patent system after leaving the EU in 2020.

The main obstacle and challenges

The main remaining obstacle for the implementation of the unitary patent system is therefore the outcome of the German constitutional complaints. If they are dismissed or overcome, Germany could deposit its instrument of ratification and trigger the entry into force of the UPC Agreement within three months . However, if they are upheld or delayed, Germany could be prevented from joining the unitary patent or cause further uncertainties and complications for its launch.

Other challenges for the implementation of the unitary patentinclude the practical and logistical arrangements for the operation of the Unified Patent Court, such as the recruitment and training of judges, the establishment of IT systems and facilities, and the adoption of procedural rules and guidelines . Moreover, some legal and political issues may arise from the withdrawal of the UK from the unitary patent, such as the impact on the linguistic regime of the unitary patent, the distribution of the workload and the cases among the different divisions of the Unified Patent Court, and the compatibility of the UPC Agreement with EU law.

What are the advantages?

The unitary patent system offers several advantages for inventors and innovative companies who want to protect their innovations in the EU. Among these advantages, we can mention:

  • The simplification of the procedure: the patent holder no longer needs to carry out complex and costly procedures with national offices to validate their European patent in each country 1.
  • They only need to request unitary effect from the EPO, which is their single interlocutor 2.
  • The reduction of costs: the patent holder no longer has to pay validation fees, translation fees, representation fees or annual national fees to keep their patent in force in the countries covered by the unitary patent 1.
  • They only pay a single annual fee to the EPO, which is calculated according to a progressive scale 3.
  • The legal certainty: the patent holder benefits from a uniform protection in all countries where the unitary patent takes effect, without risk of fragmentation or divergence between national rights 1.
  • They can also enforce their rights before a supranational specialised court, the Unified Patent Court (UPC), which has exclusive jurisdiction to settle disputes relating to infringement and validity of unitary patents.

How does the unitary patent compare with other patent systems?

The unitary patent system is not the only option for obtaining patent protection in multiple countries. There are other regional or international patent systems that offer different advantages and disadvantages for inventors and innovative companies. Here are some examples:

The European Patent Convention (EPC)

The EPC is an international treaty that allows applicants to file a single application at the European Patent Office (EPO) and obtain a European patent that can be validated in up to 38 contracting states . The EPC is not affected by the unitary patent system and will continue to operate in parallel with it. The EPC offers more flexibility than the unitary patent, as applicants can choose which countries they want to validate their European patent in. However, it also involves more costs and formalities than the unitary patent, as applicants have to pay validation fees, translation fees and annual national fees in each country where they want to maintain their European patent.

The Patent Cooperation Treaty (PCT)

The PCT is an international treaty that allows applicants to file a single international application at a national or regional office and obtain an international search report and a preliminary examination report on their invention . The PCT does not grant patents directly, but facilitates the entry into national or regional phases in up to 153 contracting states . The PCT offers more time than the unitary patent system, as applicants can delay their decision on which countries they want to pursue their patent protection in for up to 30 or 31 months from the priority date . However, it also involves more complexity than the unitary patent, as applicants have to comply with different requirements and procedures in each country where they enter the national or regional phase.

The Eurasian Patent Convention (EAPC)

The EAPC is an international treaty that allows applicants to file a single application at the Eurasian Patent Office (EAPO) and obtain a Eurasian patent that can be validated in up to 8 contracting states . The EAPC is not related to the unitary patent system and operates independently from it. The EAPC offers more simplicity than the unitary patent, as applicants do not have to pay any validation fees or translation fees in the countries where they want to validate their Eurasian patent . However, it also involves more risk than the unitary paten system, as applicants cannot opt out of the jurisdiction of the Eurasian Court of Patent Disputes, which can invalidate their Eurasian patent in all contracting states.

How Freemindtronic’s international patents are related to the unitary patent

Freemindtronic is an Andorran company that creates innovative solutions for security, cyber-security and counter-espionage, using contactless technology (NFC). We have several inventions that are protected by international patents in the fields of embedded systems, access control and segmented key authentication. For example, our patented technologies EviCore NFC HSM, which manage encryption keys in an NFC HSM device, EviCore HSM OpenPGP, which manage encryption keys in a security element of phones, EviVault NFC HSM Cold Wallet operating without contact, EviKey NFC a contactless secured USB key and the technology EviCypher NFC HSM which encrypts all types of data. These technologies implement our patents and especially the one based on the segmented key authentication system. The latter received the gold medal of international inventions of Geneva 2021.

Our patent options

Our patents are based on the European patent granted by the European Patent Office (EPO) under the rules of the European Patent Convention (EPC). Therefore, we could benefit from the unitary patent system, which is a new scheme that allows inventors and innovative companies to protect their inventions in 17 EU member states by filing a single request to the EPO. However, we would also have to consider the disadvantages and risks of the unitary patent, such as the risk of total invalidation, the lack of flexibility and the exclusion of some countries. Moreover, we would have to deal with the legal issues of the unitary patent for non-participating countries, such as cross-border infringement cases and jurisdictional conflicts.

Our patent strategy

We have opted for the unitary patent only for our segmented key authentication system, and we have added some non-participating countries to our other European patents. The reasons behind this choice are related to our market strategy, our innovation potential and our risk assessment. For instance, we have decided to use the unitary patent for our segmented key authentication system because we consider it as our core invention and we want to protect it in a uniform and effective way in most EU countries. On the other hand, we have decided to add some non-participating countries to our other European patents because we want to preserve our flexibility and avoid possible invalidation challenges in those countries.

Conclusion

Our international patents are relevant examples of how the unitary patent system can affect inventors and innovative companies in Europe, both positively and negatively. They illustrate the opportunities and challenges that the unitary patent poses for innovation and competitiveness in the EU.

How can legal issues of the unitary patent for non-participating countries be resolved?

The legal issues of the unitary patent system for non-participating countries are complex and not yet fully resolved. One of the main questions is how to deal with cross-border infringement cases involving unitary patents and national patents. For instance, if an inventor from a non-participating country, such as Spain, wants to enforce his rights on his classic European patent in a participating country, such as France, where a unitary patent holder claims to infringe his patent, which law should he consider? Well, the question is not easy to answer, because he will have to take into account many international standards. In the end, this very important aspect will be “subjected” to a very complex situation that will necessarily be defined with the successive application of the law.

Another question is how to ensure a fair balance between the rights and obligations of unitary patent holders and national patent holders in non-participating countries. For example, if a unitary patent holder wants to enforce their rights in a non-participating country, such as Poland, where a national patent holder is allegedly infringing their patent, which court should they go to? Well, the answer is not clear, as it will depend on the interpretation and application of various international agreements. In principle, the unitary patent holder should go to the national court of Poland, but they may face some difficulties or disadvantages in comparison with the national patent holder, such as higher costs, longer procedures or different standards of proof.

One possible way to resolve these legal issues is to harmonise the rules and practices of the unitary patent and the national patent systems in Europe. This could be achieved by adopting common standards and guidelines for patent examination, grant, validity and enforcement, as well as by establishing mechanisms for cooperation and coordination between the UPC and the national courts. Another possible way is to extend the scope and coverage of the unitary patent and the UPC to all EU member states and other EPC contracting states. This could be achieved by encouraging and facilitating their participation in the enhanced cooperation and ratification of the UPC Agreement.

However, these solutions may face some practical and political challenges, such as the lack of consensus or willingness among the different stakeholders, the respect for national sovereignty and diversity, or the compatibility with EU law and international obligations. Therefore, it is important that the unitary patent and its legal implications are carefully monitored and evaluated, and that its benefits and drawbacks are balanced and communicated to all parties involved.

What are the disadvantages?

The unitary patent system is not without disadvantages for some actors in the patent market. Among these disadvantages, we can mention:

  • The risk of total invalidation: the patent holder faces the possibility that their patent will be cancelled in all countries where it takes effect, if the UPC finds that it does not meet the requirements of patentability. They do not have the possibility to limit or amend their patent to avoid this fatal outcome.
  • The lack of flexibility: the patent holder cannot choose the countries where they want to protect their invention, nor renounce their patent in some countries to avoid paying fees or to circumvent legal obstacles. They must accept or refuse unitary effect as a whole.
  • The exclusion of some countries: the patent holder cannot benefit from protection in all EU member states, since some countries have decided not to participate in the unitary patent or have not yet ratified the UPC Agreement 1.
  • This is notably the case of Spain, which is one of the few EU countries that does not intend to be part of the unitary patent

What are the best practices or strategies for using or avoiding the unitary patent?

The unitary patent system offers a new opportunity for inventors and innovative companies who want to protect their inventions in Europe. However, it also poses some challenges and risks that need to be carefully considered. Depending on their needs and goals, they may decide to use or avoid the unitary patent, or to combine it with other patent systems. Here are some factors to consider when making this decision:

The scope of protection

The unitary patent system provides a uniform protection in 17 EU member states, which may cover a large part of the European market. However, it does not cover all EU member states, nor non-EU countries that are part of the EPC or the PCT. Therefore, inventors and innovative companies should assess whether the unitary patent covers their target markets, or whether they need to seek additional protection in other countries.

The cost of protection

The unitary patent reduces the cost of protection in Europe, as it eliminates the need to pay validation fees, translation fees and annual national fees in each country where the unitary patent takes effect. However, it also introduces a single annual fee for the unitary patent, which is calculated according to a progressive scale . Therefore, inventors and innovative companies should compare the cost of the unitary patent with the cost of other patent systems, and consider whether they need protection in all countries covered by the unitary patent, or whether they can save money by choosing a smaller number of countries.

The risk of invalidation

The unitary patent increases the risk of invalidation in Europe, as it exposes the unitary patent to a single challenge before the UPC, which can invalidate it in all countries where it takes effect. Moreover, the UPC is a new court that may have some uncertainties and inconsistencies in its interpretation and application of the law. Therefore, inventors and innovative companies should evaluate the strength and validity of their inventions, and consider whether they want to avoid this risk by opting out of the UPC for their European patents, or by using other patent systems that allow them to limit or amend their patents in case of invalidation challenges.

The enforcement of rights

The unitary patent facilitates the enforcement of rights in Europe, as it allows the holders of unitary patents to sue infringers before the UPC, which can grant pan-European injunctions and damages. However, it also exposes them to counterclaims for invalidity before the UPC, which can invalidate their unitary patents in all countries where they take effect. Therefore, inventors and innovative companies should assess the likelihood and impact of infringement and invalidity actions, and consider whether they want to benefit from this facilitation by opting in to the UPC for their European patents, or whether they want to retain more control over their litigation strategy by using national courts or other patent systems.

Why do some EU countries not want to join the unitary patent

The reasons for some EU countries’ exclusion from the unitary patent are diverse. Spain, for example, considers that the linguistic regime of the unitary patent, which relies on the three official languages of the EPO (English, French and German), is discriminatory and harms its economic and cultural interests. It believes that Spanish, which is the second most spoken native language in the world, should be recognised as an official language of the unitary patent, or at least, that the holders of unitary patents should be required to provide a full translation in Spanish of their patents. It also fears that the unitary patent will strengthen the dominant position of the English-speaking and German-speaking countries in the field of innovation and will reduce the development opportunities of Spanish companies.

Croatia, on the other hand, has not joined enhanced cooperation for setting up the unitary patent, because it joined the EU after the launch of this initiative. However, it has expressed its interest in joining the unitary patent in the future.

Poland and the Czech Republic have participated in enhanced cooperation, but have not signed or ratified the UPC Agreement, which is a prerequisite for being part of the unitary patent 2. These countries have invoked economic and legal reasons to justify their withdrawal. Poland has estimated that the unitary patent would have a negative impact on its national budget and on its competitiveness. The Czech Republic has expressed doubts about the compatibility of the unitary patent with EU law and about the quality of automatic translations .

Slovakia has also participated in enhanced cooperation, but has opposed the regulation on the unitary patent and has challenged it before the Court of Justice of the EU (CJEU). It has argued that the regulation was contrary to the principle of equal treatment between the member states and the official languages of the EU. It has also questioned the legal basis of the regulation and its respect for national competences in the field of industrial property. The CJEU rejected its request in 2015.

Hungary has ratified the UPC Agreement in 2018, but has denounced it in 2020, following a decision of its Constitutional Court that declared that the Agreement was incompatible with its Constitution. The Court considered that the Agreement infringed on Hungary’s sovereignty in the matter of intellectual property and that it violated the principle of separation of powers by entrusting the settlement of disputes relating to patents to a supranational court not integrated into the Hungarian judicial system.

Here is a table that summarizes that gives the list of European countries that accept the unitary patent and the European countries that have excluded themselves from the unitary patent:

Country Status Reason
Germany Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Austria Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Belgium Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Bulgaria Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Cyprus Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Croatia Excluded Has not joined enhanced cooperation
Denmark Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Spain Excluded Has opposed enhanced cooperation and has challenged the linguistic regime of the unitary patent
Estonia Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Finland Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
France Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Greece Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Hungary Excluded Has ratified the UPC Agreement but has denounced it following a decision of its Constitutional Court
Ireland Accepts Participates in enhanced cooperation but has not yet ratified the UPC Agreement
Italy Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Latvia Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Lithuania Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Luxembourg Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Malta Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Netherlands Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Poland Excluded Participates in enhanced cooperation but has not signed or ratified the UPC Agreement
Portugal Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Czech Republic Excluded Participates in enhanced cooperation but has not signed or ratified the UPC Agreement
Romania Accepts Participates in enhanced cooperation but has not yet ratified the UPC Agreement
Slovakia Excluded Has opposed enhanced cooperation and has challenged the regulation on the unitary patent
Slovenia Accepts Participates in enhanced cooperation and has ratified the UPC Agreement
Sweden Accepts Participates in enhanced cooperation and has ratified the UPC Agreement

What are the consequences of these countries’ exclusion from the unitary patent?

The exclusion of these countries from the unitary patent has consequences for both the holders of unitary patents and the national patent holders in these countries. For the holders of unitary patents, this means that they cannot protect their inventions in these countries through the unitary patent, but they have to resort to the classical European patent or the national patent . They therefore have to bear the costs and formalities related to the validation and maintenance of their patent in these countries, as well as the risks of a fragmented protection and legal uncertainty . For the national patent holders in these countries, this means that they cannot benefit from the advantages of the unitary patent, but they have to face the increased competition of the holders of unitary patents in the other EU countries . They also have to adapt to the rules and procedures of the UPC, which can be seized by the holders of unitary patents to assert their rights against them or to challenge the validity of their classical European patents .

What are the legal issues of the unitary patent for non-participating countries?

The legal issues of the unitary patent system for non-participating countries are complex and not yet fully resolved. One of the main questions is how to deal with cross-border infringement cases involving unitary patents and national patents. For example, if an inventor from a non-participating country, such as Spain, wants to exercise their rights on their classical European patent in a participating country, such as France, where a unitary patent holder is allegedly infringing their patent, which law should they take into account? Well, the question is not easy to answer, as it will have to take into account many international norms. In the end, this very important aspect will be “subjected” to a very complex situation that will necessarily be defined with the successive application of the law.

Another question is how to ensure a fair balance between the interests of the holders of unitary patents and those of national patent holders in non-participating countries. For instance, if a national patent holder in Spain wants to challenge the validity of a unitary patent that covers an invention similar to theirs, how can they do so without having to go before the UPC, which may not be accessible or convenient for them? Conversely, if a unitary patent holder wants to enforce their rights against a national patent holder in Spain who is allegedly infringing their patent, how can they do so without having to go before a national court that may not be familiar or favourable with the unitary patent? These questions raise issues of jurisdiction, recognition and enforcement of judgments, as well as substantive law harmonisation.

These legal issues are likely to generate uncertainty and litigation for both unitary patent holders and national patent holders in non-participating countries. They may also create barriers and distortions in the internal market and affect innovation and competitiveness. Therefore, it is desirable that these issues are addressed and clarified as soon as possible, either by legislative or judicial means.

Conclusion

The unitary patent is a new scheme that offers a simplified, economical and uniform protection in 17 EU member states. It is accompanied by a Unified Patent Court, which has exclusive jurisdiction to settle disputes relating to unitary patents. The unitary patent has advantages and disadvantages for inventors and innovative companies, depending on their strategy and market. Spain is one of the few EU countries that does not intend to join the unitary patent, mainly for linguistic reasons. Its exclusion has consequences for both unitary patent holders and Spanish actors in the patent market. The unitary patent also raises legal issues for non-participating countries, which are not yet fully resolved.

In conclusion, the unitary patent system is a major innovation in the field of intellectual property in Europe, but it also poses significant challenges for its implementation and acceptance. It aims to foster innovation and competitiveness in the EU, but it also creates disparities and conflicts between participating and non-participating countries. It offers a simplified and uniform protection for inventors and innovative companies, but it also exposes them to risks and uncertainties in cross-border litigation. It is therefore important that the unitary patent is carefully monitored and evaluated, and that its benefits and drawbacks are balanced and communicated to all stakeholders.

(1) https://www.epo.org/applying/european/unitary/unitary-patent.html

(2) https://www.epo.org/applying/european/unitary.html

(3) https://www.gov.uk/guidance/the-unitary-patent-and-unified-patent-court

Protect US emails from Chinese hackers with EviCypher NFC HSM?

Protect your emails from Chinese hackers How to protect your emails from Chinese hackers with EviCypher NFC HSM technology

Protect your emails from Chinese hackers by Jacques Gascuel: This article will be updated with any new information on the topic.  

Protéger les e-mails américains contre les pirates chinois avec la technologie HSM NFC EviCypher

Les courriels et les pièces jointes des institutions américaines font l’objet d’une attaque sans précédent qui proviendrait de pirates chinois. Comment la technologie HSM NFC EviCypher d’Andorre, développée par Freemindtronic, peut-elle les chiffrer sans contact et prévenir la corruption ? Dans cet article, vous découvrirez pourquoi les pirates ne peuvent pas lire les emails et leurs pièces jointes qui sont exfiltrés, notamment ceux du gouvernement américain qui utiliserait cette technologie qui stocke physiquement les clés de chiffrement à l’extérieur. Ainsi, seuls les utilisateurs autorisés qui disposent d’un HSM NFC Freemindtronic avec la bonne clé peuvent les déchiffrer.

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How EviCypher NFC HSM technology can protect emails from Chinese hackers

The Chinese hack on US emails: what happened and why it matters

In July 2023, a massive cyberattack targeted email accounts belonging to US government officials, as well as private organizations and universities. The hackers, suspected of being linked to the Chinese government, exploited a vulnerability in Microsoft’s cloud service, called Exchange Server, which allows users to access their emails via the web.

According to Microsoft, the attack affected more than 30,000 organizations in the US and thousands of others around the world. The hackers used a technique called “web shell”, which involves installing malicious software on the compromised servers, giving them remote access to the data and systems of the victims.

Among the victims were the State Department, the Defense Department, the Justice Department, the Energy Department, NASA, FAA, as well as defense companies, NGOs, media and academic institutions. The hackers were able to access the emails and the attachments of the hacked accounts as well as other information stored in their email account such as contacts and calendars.

Microsoft described the attack as “highly sophisticated and targeted” and attributed responsibility to a group named Hafnium which it describes as “a state-sponsored actor backed by China”. The Chinese government denied any involvement and accused Microsoft of “slandering” China.

Microsoft released security patches to fix the vulnerability patches to fix the vulnerability and advised all Exchange Server users to apply them immediately. It also collaborated with US authorities to investigate the incident and help the victims recover from the attack.

The attack raised concerns about the security of cloud computing, which is increasingly used by public and private organizations to store and manage their data. Cloud computing offers benefits such as cost reduction, flexibility and efficiency.

How EviCypher NFC HSM technology could have prevented the Chinese hack on US emails

If you want to protect your emails from Chinese hackers or any other cyber threats, you should consider using EviCypher NFC HSM Technology. It is a technology patented especially in the United States that allows you to store and use your cryptographic keys in a contactless device. It is a simple, efficient and durable solution for securing your data and secrets. In this section, we will explain how EviCypher NFC HSM works, what are its main features and benefits, and how it can help you protect your privacy and security.

What is EviCypher NFC HSM and how does it work?

EviCypher NFC HSM is a technology developed by Freemindtronic, an Andorran company specialized in NFC security. It is based on EviCore NFC HSM, which is a hardware security module that combines hardware encryption and NFC communication protocols to protect your keys and secrets.

With EviCypher NFC HSM, you can store your keys and secrets in a contactless device, such as a card, a sticker or a keychain. The device is powered by the NFC signal of the Android phone. This phone serves as terminal and user interface. The data stored in memory are encrypted contactlessly from the EviCypher NFC HSM application that performs encryption and decryption operations using advanced algorithms, such as AES 256 bits and RSA 4096 bits.

EviCypher NFC HSM also implements anti-cloning and anti-replay mechanisms to prevent unauthorized access or duplication of your secrets. The device has a patented power monitoring and protection device with black box. This device ensures the integrity and availability of the device. The device also has a patented wireless access control system that allows you to define two distinct access profiles: administrator and users, without allowing them to access each other’s secrets without their authorization. The device also has a patented segmented key authentication system that allows you to define up to 9 trust criteria for encrypting your secrets, such as geolocation, BSSID, password or fingerprint.

How EviCypher NFC HSM could have prevented the Chinese hack on US emails?

If the US government had used EviCypher NFC HSM technology with EviCore NFC HSM technology, the Chinese attack would have had no impact. Indeed, even if the hackers had succeeded in exploiting Microsoft Exchange Server’s vulnerability, they would not have been able to access emails and attachments of accounts protected by EviCypher NFC HSM. They would need the corresponding NFC device to decrypt data. Moreover, they would not have been able to clone or replay the NFC signal because EviCypher NFC HSM uses protection techniques against these attacks. Finally, they would not have been able to bypass access control or trust criteria because EviCypher NFC HSM allows you to define custom profiles and parameters for each user.

By using EviCypher NFC HSM, you can encrypt and decrypt your data with your own keys, without relying on any third-party service or provider. You can also use different encryption algorithms, such as AES 256 bits and RSA 4096 bits, to ensure the highest level of security for your data. In addition, you can share and exchange your keys with other users who have EviCypher NFC HSM devices, using secure NFC communication protocols.

How to protect your emails and messages with EviCypher NFC HSM?

You can use EviCypher NFC HSM with different messaging applications, such as:

Webmail services: how to protect your emails and attachments with EviCypher NFC HSM?

You can use EviCypher NFC HSM to encrypt and decrypt your emails and attachments stored in webmail services. For example: Gmail, Yahoo Mail, Proton Mail, Outlook, Roundcube Webmail, HCL Domino Webmail and others. To do this, you need to install the EviCypher Webmail extension on your web browser based on Chromium, such as Chrome. The extension will automatically add buttons to encrypt and decrypt your messages via the NFC device.

Instant messaging services: how to protect your messages with EviCypher NFC HSM?

You can use EviCypher NFC HSM to encrypt and decrypt your messages sent or received from instant messaging services. For example: WhatsApp, Telegram, Signal, Facebook Messenger, Skype and others. To do this, you need to install the EviCypher IM extension on your web browser based on Chromium, such as Chrome. The extension will automatically add buttons to encrypt and decrypt your messages via the NFC device.

SMS: how to protect your SMS messages with EviCypher NFC HSM?

You can use EviCypher NFC HSM to encrypt and decrypt your SMS messages sent or received from your Android phone. To do this, you need to install the EviCypher SMS application on your phone. The application will automatically encrypt and decrypt your SMS messages via the NFC device.

Statistics on email attacks against the US

According to a report by Proofpoint, a cybersecurity company, email is the most common vector for cyberattacks against the US. The report states that in 2022, more than 80% of organizations in the US faced at least one email-based attack, such as phishing, malware or ransomware. The report also reveals that the US is the most targeted country by email threats, accounting for 36% of all global attacks. The report also identifies China as one of the top sources of email attacks, along with Russia, Iran and North Korea.

The report also highlights the impact of email attacks on the US economy and security. The report estimates that email attacks cost US organizations more than $20 billion in 2022, due to data breaches, business disruptions, reputational damage and legal fees. The report also warns that email attacks pose a serious threat to the US national security, as they can compromise sensitive information, disrupt critical infrastructure and undermine public trust.

The report recommends that US organizations adopt a comprehensive and proactive approach to email security, which includes:

  • Educating employees on how to recognize and avoid email threats
  • Implementing advanced email security solutions that can detect and block malicious emails
  • Encrypting sensitive data and using strong passwords
  • Backing up data regularly and having a recovery plan in case of an attack
  • Reporting any suspicious or malicious email activity to authorities

What is EviCore HSM OpenPGP and how does it protect your emails from Chinese hackers?

EviCore HSM OpenPGP is a technology that transforms your Android or iPhone into a hardware security module (HSM) for encrypting and storing your cryptographic keys. It leverages the highly secure OpenPGP standard, known for its use by whistleblowers, journalists, activists and privacy advocates.

With EviCore HSM OpenPGP, you can generate and manage your own keys on your phone, without relying on any third-party service or provider. You can also encrypt and decrypt your messages with your own keys, using the EviCypher HSM OpenPGP application that supports various messaging applications, such as email, webmail, SMS, RCS and more.

EviCore HSM OpenPGP also implements anti-cloning and anti-replay mechanisms to prevent unauthorized access or duplication of your keys. The application also has a patented wireless access control system via an NFC HSM EviBadge NFC HSM that allows you to authenticate and encrypt with segmented keys the OpenPGP encryption keys or any other types of keys stored in the phone. It is also possible to add trust criteria that allow you to define up to 7 trust criteria for encrypting messages (email, webmail, SMS, MMS, RCS and others) such as geolocation, BSSID, password, fingerprint, facial recognition, segmented keys between two distinct parties.

By using EviCore HSM OpenPGP, you can protect your emails from Chinese hackers or any other cyber threats. You can also use it with EviCypher NFC HSM devices, which allow you to encrypt and decrypt data in air gap mode.

What are the advantages of EviCore HSM OpenPGP?

EviCore HSM OpenPGP offers several advantages over other encryption solutions, such as:

  • Simplicity: You don’t need any additional hardware or software to use EviCore HSM OpenPGP. You only need your phone and the EviCypher HSM OpenPGP application.
  • Efficiency: You can encrypt and decrypt your messages with a single tap on your phone screen. You don’t need to enter any passwords or codes to access your keys.
  • Durability: You can store your keys securely on your phone memory, export them, import them, back them up on a cloud service or an external storage device. You can also use NFC HSM devices to add other trust criteria with segmented keys stored in the device.
  • Compatibility: You can use EviCore HSM OpenPGP with different messaging applications, such as email, webmail, SMS, RCS and more. You can also use it with EviCypher NFC HSM devices, which allow you to encrypt and decrypt data in air gap mode.
  • Security: You can protect your keys and messages from hackers, malware and physical theft. You can also control who can access your keys and messages by defining access profiles and trust criteria.

How EviCypher HSM Technology is protected by patents

EviCypher HSM technology is protected by several patents issued by various countries, including the US. Some of these patents are:

  • US20210136579: A method for securing data using a contactless device that stores cryptographic keys and performs encryption and decryption operations via NFC communication with an Android phone.
  • US20100188785: A method for protecting a contactless device from cloning or replay attacks by using a power monitoring and protection device with black box that detects any abnormal power consumption or interruption.
  • US20180336335: A method for authenticating a contactless device by using a segmented key authentication system that allows defining up to 9 trust criteria for encrypting secrets, such as geolocation, BSSID, password or fingerprint.

These patents demonstrate the innovation and originality of EviCypher HSM Technology, as well as its compliance with the US intellectual property laws. These patents also provide legal protection for EviCypher NFC HSM Technology and EviCypher HSM OpenPGP against any potential infringement or imitation by competitors.

Conclusion

EviCore HSM OpenPGP is a new technology that allows you to turn your phone into a hardware security module for encrypting and storing your cryptographic keys. It is based on the OpenPGP standard, which is widely used for secure communication and data protection. By using EviCore HSM OpenPGP, you can protect your emails from Chinese hackers or any other cyber threats. You can also use it with different messaging applications, such as email, webmail, SMS, RCS and more. Moreover, you can use it with EviCypher NFC HSM devices, which allow you to encrypt and decrypt data in air gap mode.

We hope this article has helped you understand how EviCore HSM OpenPGP works and what are its advantages. If you are interested in learning more about this technology or ordering your own device, please visit the official website of Freemindtronic, the company that developed it. You can also watch this video that explains how EviCore HSM OpenPGP works and how to use it with different messaging applications.

Thank you for reading this article. We hope you have learned something new and useful about how to protect your emails from Chinese hackers with EviCypher NFC HSM technology. If you have any questions or feedback, please feel free to leave a comment below. We would love to hear from you.

If you enjoyed this article and found it helpful, please share it with your friends and family who might be interested in protecting their emails from Chinese hackers or any other cyber threats. Stay safe and secure with EviCypher NFC HSM technology!

Original source: https://www.washingtonpost.com/national-security/2023/07/12/microsoft-hack-china/

EviVault NFC HSM vs Flipper Zero: The duel of an NFC HSM and a Pentester

EviVault NFC HSM and EviCore NFC HSM Embedded ISO 15693 VS Flipper Zero

EviVault NFC HSM vs Flipper Zero by Jacques Gascuel: This article will be updated with any new information on the topic.  

Unveiling the Encounter: EviVault NFC HSM vs Flipper Zero

This article examines the encounter between EviVault NFC HSM and Flipper Zero. While EviVault NFC HSM securely stores your blockchain keys offline, Flipper Zero serves as a device to test the security of wireless systems and NFC tags. The crucial question remains: Can Flipper Zero break through the defenses of EviVault NFC HSM and access your cryptocurrencies keys? The resounding answer is no, and we will explore the compelling reasons behind this assertion.

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EviVault NFC HSM vs Flipper Zero: The duel of an NFC HSM and a Pentester

EviVault NFC HSM vs Flipper Zero: this is the question that this article will answer. EviVault NFC HSM is a technology that securely stores your blockchain keys offline. Flipper Zero is a device that tests the security of wireless systems and NFC tags. Can Flipper Zero compromise EviVault NFC HSM and access your cryptocurrencies keys? The answer is no, and this article will explain why.

EviVault NFC HSM vs Flipper Zero is a topic that interests many crypto enthusiasts and security experts. Moreover, it sparks curiosity about the comparison between these two technologies. EviVault NFC HSM is a technology that allows offline physical secure storage of blockchain private keys, cryptocurrencies, wallets, Bitcoin, Ethereum, NFTs, Smart Contracts. Freemindtronic, a company from Andorra that specializes in NFC security solutions, developed it. EviVault NFC HSM uses the EviCore NFC HSM technology, which offers a high level of protection and encryption for your keys and secrets. It also works with Freemindtronic’s NFC HSM devices, which are contactless devices that can store and use your crypto keys and secrets. You can learn more about this technology here: https://freemindtronic.com/evicore-nfc-hsm-the-technology-by-freemindtronic/.

Flipper Zero is a versatile tool for testing the security and cybersecurity of systems, especially for pentesters. However, it can be used for malicious purposes, such as by cybercriminals to hack into digital systems, such as radio protocols, access control systems, hardware and more. At first glance, one might think that Flipper Zero is capable of compromising EviVault NFC HSM by reading or cloning its secrets without contact. However, this is not the case because EviVault NFC HSM has several security mechanisms that prevent any attempt of physical or logical attack.

In this article, we will explain how EviCore NFC HSM can resist effectively to the attacks of pentest tools like Flipper Zero and how it protects your blockchain assets from end to end, focusing on the device level.

How EviCore NFC HSM protects and encrypts your secrets with a secure element

First of all, EviCore NFC HSM is a proprietary technology that uses an NFC HSM to store and protect your secrets. It uses a proprietary protocol called EVI (Encrypted Virtual Interface) based on the ISO 15693 standard (https://www.st.com/resource/en/datasheet/m24lr64e-r.pdf or (https://www.st.com/resource/en/datasheet/st25dv64kc.pdf).

EVI ensures the proper functioning of reading and writing encrypted secrets with an intelligent system of error monitoring for write errors or reading from the secure EEPROM memory. You can find more information about the security standards and algorithms used by EVI here: https://freemindtronic.com/evicore-nfc-hsm-security-information-standards-algorithms-regulatory.

Moreover, EviCore NFC HSM uses other specific encryption algorithms such as AES CTR SHA 256 bits to encrypt and protect your secrets by segmented keys. Meanwhile EVI protects the keys used to access the RF NFC memories with a very strong secret code via AES ECB 128. This secret code prevents unauthorized reading or modification of keys. EVI makes the NFC and RF memories safer to combat invasive or non-invasive attacks from pentest tools like Flipper Zero.

EviCore NFC HSM: a fortress for your secrets EviVault NFC HSM vs Pentester

The NFC HSM EviCore, developed by Freemindtronic, is a technology protected by three patents of invention in their implementation. It is incomparable. It uses its innovative Encrypted Virtual Interface (EVI) protocol to ensure unparalleled security of confidential data in the duel EviVault NFC HSM vs Flipper Zero. This technology, compliant with the ISO 15693 standard, constitutes a multi-layer defense for your information. Seamlessly integrated within it are advanced features such as encryption, authentication, anti-cloning, anti-replay, anti-counterfeiting, and comprehensive black box management.

The Interaction between EVI and the NFC HSM: Securing Secrets in the EviVault NFC HSM vs Flipper Zero Duel

EVI, the Machine-to-Machine (MtoM) interface, collaborates with NFC HSM chips to ensure secure management of encrypted data read and write operations without risk of physical and digital errors. Thus, EVI monitors errors in reading/writing secure EEPROM memory through a sophisticated error tracking system that includes user errors of NFC HSM. In addition, it independently manages various cryptographic tasks such as encryption, decryption, signing, verification, and key generation of access codes to EEPROM memories. It thus strengthens the level of security, resilience and security of encrypted secrets. These are encrypted with other EviCore NFC HSM algorithms. This already constitutes two lines of defense against invasive or non-invasive attacks.

The Importance of External Elements in the EviVault NFC HSM vs Flipper Zero Duel

The encryption methodology of EviCore NFC HSM allows each segment to have a different physical origin in the duel EviVault NFC HSM vs Flipper Zero. This means that it can come from an external element to the NFC HSM, such as a geographic location and/or a password or fingerprint reading and/or a segmented QR code key exceeding 256 bits and/or BSSID and/or an NFC Android phone identifier. In fact, these elements serve as physical origin trust criteria, thus strengthening the validation process to access the secrets stored in the NFC HSM. Thus, this patented technology constitutes a third line of defense against various types of attacks, whether in proximity or at a distance, thanks in particular to encryption by encapsulations including these criteria freely defined by the user.

Superior Encryption and Deterrence against Unauthorized Access in the EviVault NFC HSM vs Flipper Zero Duel

Using high-quality encryption algorithms such as AES CTR SHA 256 bits considered post-quantum, the EviCore NFC HSM technology ensures that secrets remain inaccessible to unauthorized entities in the long term against pentest tools such as in the duel EviVault NFC HSM vs Flipper Zero. In addition, EVI protects the keys of NFC RF memories using AES ECB 128, preventing any unauthorized reading or modification. Thus, with this post-quantum encryption of secrets stored in the NFC HSM, it constitutes the fourth line of defense against attacks, especially invasive ones via pentest tools such as Flipper Zero.

Comprehensive Defense against Cyber Threats in the EviVault NFC HSM vs Flipper Zero Duel

EviCore NFC HSM provides a comprehensive defense strategy against both physical and logical attacks in the EviVault NFC HSM vs Flipper Zero duel. Its defenses include countermeasures against tampering, cloning, side-channel analysis, and reverse engineering. As the battle between EviVault NFC HSM and Flipper Zero intensifies, EviCore NFC HSM remains steadfast in protecting your secrets and ensuring a resilient defense against emerging cyber threats.

The EviCore NFC HSM technology operates without batteries and is activated on-demand, optimizing energy usage by leveraging the NFC signal of an Android phone. This unique feature not only showcases the system’s efficiency but also its environmentally friendly design. With EviCore NFC HSM technology, you get the peace of mind offered by patented and unparalleled security in the security and safety of sensitive data such as blockchain and cryptocurrency private keys in the face of perpetually evolving challenges via pentest tools that are freely accessible and very useful for testing, especially the duality EviVault NFC HSM vs Flipper Zero.

How Flipper Zero reads and emulates NFC cards

Flipper Zero has a Reading NFC cards function that allows it to read, save and emulate NFC cards. An NFC card is a transponder that operates at 13.56 MHz and has a unique number (UID) as well as a part of rewritable memory for storing data. Depending on the card type, memory can be segmented into sectors, pages, applications, etc. When near a reader, the NFC card transmits the requested data.

Flipper Zero can read different types of NFC cards according to their standard and protocol:

  • NFC cards type A: MIFARE Classic®, MIFARE Ultralight® & NTAG®, MIFARE® DESFire®
  • NFC cards type B: Calypso®, CEPAS
  • NFC cards type F: FeliCa™
  • NFC cards type V: ICODE® SLIX
  • Unknown cards: cards not recognized by Flipper Zero

Flipper Zero can also emulate NFC cards by using the data saved in its memory. To do this, you have to select a card from the Saved list then press Emulate. Flipper Zero will then behave like an NFC card and can communicate with a compatible reader.

Flipper Zero can therefore communicate with EviCore NFC HSM technology using the ISO 15693 standard which is supported by the ST25R3916 component it uses. However as we have seen previously this communication is limited and secured by EviVault NFC HSM protection mechanisms. Moreover Flipper Zero can emulate an ISO 15693 card even if the emulator has limitations. Indeed, the ST25R3916 component used by Flipper Zero allows emulation according to the ISO 15693 standard via RFLA (RF/NFC Abstraction Layer). However this emulation has limits to be able to test the NFC HSM of Freemindtronic. This excludes, for example, the possibility of testing the security and carrying out malicious attacks by emulating an ISO 15693 64Kb NFC chip used by the NFC HSMs used by the EviVault NFC HSM technology.

If you want to know more about Flipper Zero’s Reading NFC cards function and its emulation possibilities you can check out the following links:

Flipper Zero’s Capabilities and Limitations in Attacking EviVault NFC HSM

Flipper Zero’s Support of NFC-V Protocol and Emulation

A New Feature in Firmware 0.85.2

Flipper Zero is a multifunctional gadget for hackers that supports NFC technology. It can read, write, clone, and emulate NFC cards using a built-in 13.56 MHz NFC module. Flipper Zero uses a ST25R3916 NFC controller and a RFAL library to handle high-frequency protocols (NFC) and facilitate the development of NFC applications.

Flipper Zero supports the NFC-V (ISO15693) protocol since the firmware version 0.85.2. This protocol is used by some NFC tags, such as transport cards or electronic labels. With this feature, Flipper Zero can read and emulate these tags, which can be useful for testing their security or having fun with them.

The NFC-V protocol is a contactless protocol that operates at 13.56 MHz and allows data transfer at a distance of a few centimeters, with a maximum speed of 26.48 kbit/s. The NFC-V protocol is based on the ISO15693 standard, which defines the physical and logical characteristics of NFC tags. The NFC-V tags are recognized by the NFC Forum as type 5 tags.

To use the NFC-V protocol with Flipper Zero, you need to select the “NFC” option in the main menu, then choose the “NFC-V” mode. Then you need to bring the Flipper Zero close to an NFC-V tag to detect it and display its information. You can then choose to perform different actions on the tag, such as:

  • Read: to read the content of the tag and display it on the screen of Flipper Zero. The tag can contain up to 256 blocks of 4 bytes each.
  • Write: to write data on the tag, by choosing the page and the bytes to modify. The writing can be protected by a password.
  • Clone: to copy the content of the tag into the internal memory of Flipper Zero. Flipper Zero can store up to 8 cloned tags.
  • Emulate: to make the reader believe that Flipper Zero is the original tag. Flipper Zero can emulate any cloned tag.

A Potential Threat for EviVault NFC HSM

This feature also introduces a potential threat for EviVault NFC HSM, as Flipper Zero can now emulate an NFC-V card and try to access its data or functions. However, this threat is not very serious, as EviVault NFC HSM has strong security mechanisms that prevent unauthorized access or tampering.

EviVault NFC HSM is a hardware security module that uses NFC technology to store and manage cryptographic keys. It is designed to protect sensitive data and transactions from unauthorized access or tampering. It can be used as a secure element for authentication, encryption, digital signature, or blockchain applications.

EviVault NFC HSM uses encryption, authentication, protection against cloning and replay, and other techniques to ensure that only authorized devices can interact with it. Even if Flipper Zero can emulate an NFC-V card, it cannot decrypt or modify its data, nor perform any cryptographic operations on it.

Therefore, Flipper Zero’s support of NFC-V emulation does not compromise EviVault NFC HSM’s security or confidentiality.

Documentation

If you want to learn more about Flipper Zero’s support of NFC-V protocol and emulation, you can consult the following documentation:

Flipper Zero’s Lack of Support for Energy Harvesting and Password Protection

Two Features of M24LR64E-R and ST25DV64KC Chips

The M24LR64E-R and ST25DV64KC are dynamic NFC/RFID chips with 64-Kbit EEPROM, energy harvesting, I2C bus and RF ISO 15693 interface. They are used by Freemindtronic for their EviVault NFC HSM products. They have two features that Flipper Zero does not support: energy harvesting and password protection.

Energy harvesting is a function that allows the chip to harvest energy from the RF field and use it to power external components. This can be useful for low-power applications or battery-less devices. The chip has an analog pin for energy harvesting and four sink current configurable ranges.

Password protection is a function that allows the chip to protect its data from unauthorized access or modification by using passwords. The chip has three 64-bit passwords in RF mode and one 64-bit password in I2C mode. The passwords can be used to protect one to four configurable areas of memory in read and/or write mode.

Two Limitations for Flipper Zero in Attacking EviVault NFC HSM

Flipper Zero cannot take advantage of these two features for several reasons:

  • Flipper Zero cannot emulate a tag NFC 15693 with a memory of 64-Kbit, because it does not have enough internal memory to store the content of the tag. It cannot therefore pretend to be the original tag and try to access its data or functions.
  • Flipper Zero cannot clone a tag NFC 15693 with a memory of 64-Kbit, because it does not have enough internal memory to copy the content of the tag. It cannot therefore create a duplicate of the tag and modify it at will.
  • Flipper Zero cannot write on a tag NFC 15693 protected by a password, because it does not know the password. It cannot therefore modify the data of the tag or make them inaccessible.
  • Flipper Zero cannot benefit from the energy harvesting function of the M24LR64E-R and ST25DV64KC chips, because it does not have an analog pin to harvest energy. It cannot therefore power external components with the energy of the tag.

These limitations further reduce Flipper Zero’s capabilities in attacking EviVault NFC HSM. While Flipper Zero can interact with NFC-V devices used by NFC HSM, it cannot emulate them, clone them, write on them. EviVault NFC HSM’s robust security mechanisms ensure that Flipper Zero cannot compromise its security or confidentiality.

Documentation

If you want to learn more about the M24LR64E-R and ST25DV64KC chips and their features, you can consult the following documentation:

Conclusion

In this article, we analyzed how Flipper Zero can test the security of or attack EviVault NFC HSM technology through malicious use. This technology enables secure offline physical storage of blockchain private keys, cryptocurrency wallets, NFTs, and smart contracts. It uses EviCore NFC HSM technology that offers a high level of protection and encryption for your keys and secrets. It also works with Freemindtronic’s NFC HSM devices that are contactless devices that can store and use your cryptocurrency keys and secrets. Flipper Zero is a tool that can read, write, clone and emulate NFC cards using a built-in NFC module. It supports the NFC-V (ISO15693) protocol since June 2023, which allows it to interact with the M24LR64E-R and ST25DV64KC chips used by EviVault NFC HSM. However, Flipper Zero cannot compromise EviVault NFC HSM, because it has robust security mechanisms that prevent unauthorized access or modification of its data or functions. These mechanisms include encryption, authentication, protection against cloning and replay, energy harvesting and password protection. Therefore, EviVault NFC HSM is a reliable and innovative solution for offline storage and use of cryptocurrency keys without risk of hacking or loss.

It is understood that to perform this type of invasive or non-invasive proximity test or attack, you must first physically obtain an NFC HSM with blockchain or cryptocurrency private keys stored via EviVault NFC HSM.

Since it is not possible to emulate a NFC-V NFC HSM of 64 KB iso 15963. That it is not possible to guess the decryption keys encrypted in AES considered post-quantum. In addition, encryption keys are segmented to annoy blockchain and cryptocurrency privates. EviVAult NFC HSM technology allows you to securely store physical offline blockchain private keys as well as their public addresses and public keys. You can use them contactlessly on Android NFC phone or all computers such as Microsoft Windows, Linux and iOS Apple. It also protects them from environmental hazards by using NFC chips coated with defense-grade resin.

To acquire products using EviVault NFC HSM technology, simply check that the product includes this technology. If in doubt, contact Freemindtronic by clicking here.

Comparison table of EviVault NFC HSM and Flipper Zero features

It might be useful to add this table of main features of EviVault NFC HSM and Flipper Zero to show the communication links that allow Flipper Zero to communicate with EviCore NFC HSM technology. Here is the table formatted with the features of EviVault NFC HSM and Flipper Zero.

Feature EviVault NFC HSM Flipper Zero
Encryption algorithm AES 256 bits and RSA 4096 None
Authentication mechanism Segmented key with 9 trust criteria None
Protection against cloning and replay Yes No
Power security device and black box Yes No
Wireless access control system Yes No
Memory size 64 KB EEPROM 1024 KB Flash
Memory encryption Yes No
Memory access lockout Yes No
Frequencies below 1 MHz 13.56 MHz ± 7 kHz 13.56 MHz / 125 kHz (LF) and (HF)
NFC standard
  • ISO 15693 and compatible ISO 18000-3 mode 1
  • 423 kHz and 484 kHz
  • 53 kbit/s data rate
NFC-A / ISO14443A, NFC-B / ISO14443B, NFC-F / FeliCa™, NFC-V / ISO15693, NFC-A / ISO14443A, NFC-F / FeliCa™ in card emulation, compliant with MIFARE Classic®
Sub-GHz frequencies None 315 MHz, 433 MHz, 868 MHz and 915 MHz
Bluetooth Yes: Protected by RSA 4096 for Freemindtronic’s Android NFC application and by AES-128 CBC from EviKeyboard BLE Bluetooth LE 5.0
Wifi Yes: Protected by RSA 4096 for Freemindtronic’s Android NFC application and unique ECC key for one-time use with the NFC HSM Browser extension Yes, optional
Infrared transmitter None Yes
RFID reader-emulator None EM-4100 and HID Prox cards only
NFC reader-emulator None Yes, but without encryption or authentication
Anti-counterfeiting Yes, by unique signature of 128 bits and access to segmented key None
iButton reader-emulator None Yes
GPIO connectors None 18
Man-in-the-middle attack by intercepting the NFC signal Secure Yes

Note that this table shows the differences between the features of EviVault NFC HSM and Flipper Zero when used to attack EviVault NFC HSM.

Digital signature: How Freemindtronic secures its software

Digital Signature EV Code Signing Certificate from Freemindtronic SL Andorra

Digital signature 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 Freemindtronic uses digital signature to secure its software

Digital security is the main focus of Freemindtronic. This innovative company offers software that use digital signature. This ensures their reliability and integrity. Some of these software are EviDNS and EviPC. They use NFC technology and asymmetric & symmetric cryptography. These techniques help to create, store and verify digital evidence. In this article, we will see the benefits of digital signature for users.

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What is digital signature?

Digital signature is a process that allows to authenticate the origin and content of a document or a computer program. It relies on the use of a digital certificate, which attests to the identity of the signer, and a private key, which allows to encrypt the data. The private key is stored on a secure physical device, called USB token, which requires a PIN code to be activated. Thus, digital signature protects the private key from theft or loss.

Why choose EV Code Signing Certificate Highest level of Security?

Freemindtronic has chosen the EV Code Signing Certificate Highest level of Security, which is the highest level of security available on the market. This certificate has the following characteristics:

  • It complies with the authentication standards of the CA/Browser Forum and Microsoft specifications, which ensures compatibility with major browsers and operating systems.
  • It establishes the reputation of the signer in Windows 8.0 and later versions, Internet Explorer 9 and later versions, Microsoft Edge, and Microsoft SmartScreen® Application Reputation filter, which increases user confidence by displaying the identity of the signer before running applications.
  • It supports all major 32-bit/64-bit formats, such as Microsoft Authenticode (kernel and user mode files, like .exe, .cab, .dll, .ocx, .msi, .xpi, and .xap), Adobe Air, Apple applications and plug-ins, Java, MS Office Macro and VBA, Mozilla object files, and Microsoft Silverlight applications.
  • It includes a timestamp functionality, which allows to continue using signed applications even after the expiration of the signature certificate.
  • It comes with a free USB token with a 3-year certificate.

How does digital signature benefit users?

By using a high-level digital signature, Freemindtronic guarantees its customers the quality and security of its software, while distinguishing itself from its competitors in the digital security market. Users can enjoy the following benefits:

  • They can verify the authenticity and integrity of Freemindtronic software before installing or running it.
  • They can avoid warnings or errors from browsers or operating systems that may prevent them from using unsigned or poorly signed software.
  • They can trust that Freemindtronic software is free from malware or tampering that could compromise their data or devices.
  • They can access Freemindtronic software even if they are offline or if their internet connection is unstable.
BENEFITS DIGITAL SIGNATURE
Authenticity ✔️
Integrity ✔️
Reputation ✔️
Compatibility ✔️
Security ✔️
Accessibility ✔️

In conclusion, Freemindtronic is a leader in digital security solutions, such as EviDNS and SecureSafe360, which use NFC technology and asymmetric & symmetric cryptography to create, store and verify digital evidence. To ensure that its software is reliable and secure, Freemindtronic uses a high-level digital signature that complies with industry standards and specifications. Users can benefit from this signature by verifying the identity and content of Freemindtronic software before using it. They can also avoid potential problems caused by unsigned or poorly signed software. Finally, they can access Freemindtronic software even when they are not connected to the internet.