G-20 India’s Presidency and Cybersecurity Enterprises

Overview:

The rapid digitization of educational institutions in India has created both opportunities and challenges. While technology has improved access to education and administrative efficiency, it has also exposed institutions to significant cyber threats. This report, published by CyberPeace, examines the types, causes, impacts, and preventive measures related to cyber risks in Indian educational institutions. It highlights global best practices, national strategies, and actionable recommendations to mitigate these threats.

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Significance of the Study:

The pandemic-induced shift to online learning, combined with limited cybersecurity budgets, has made educational institutions prime targets for cyberattacks. These threats compromise sensitive student, faculty, and institutional data, leading to operational disruptions, financial losses, and reputational damage. Globally, educational institutions face similar challenges, emphasizing the need for universal and localized responses.

Threat Faced by Education Institutions:

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Based on the insights from the CyberPeace’s report titled 'Exploring Cyber Threats and Digital Risks in Indian Educational Institutions', this concise blog provides a comprehensive overview of cybersecurity threats and risks faced by educational institutions, along with essential details to address these challenges.

🎣 Phishing: Phishing is a social engineering tactic where cyber criminals impersonate trusted sources to steal sensitive information, such as login credentials and financial details. It often involves deceptive emails or messages that lead to counterfeit websites, pressuring victims to provide information quickly. Variants include spear phishing, smishing, and vishing.

💰 Ransomware: Ransomware is malware that locks users out of their systems or data until a ransom is paid. It spreads through phishing emails, malvertising, and exploiting vulnerabilities, causing downtime, data leaks, and theft. Ransom demands can range from hundreds to hundreds of thousands of dollars.

🌐 Distributed Denial of Service (DDoS): DDoS attacks overwhelm servers, denying users access to websites and disrupting daily operations, which can hinder students and teachers from accessing learning resources or submitting assignments. These attacks are relatively easy to execute, especially against poorly protected networks, and can be carried out by amateur cybercriminals, including students or staff, seeking to cause disruptions for various reasons

🕵️ Cyber Espionage: Higher education institutions, particularly research-focused universities, are vulnerable to spyware, insider threats, and cyber espionage. Spyware is unauthorized software that collects sensitive information or damages devices. Insider threats arise from negligent or malicious individuals, such as staff or vendors, who misuse their access to steal intellectual property or cause data leaks..

🔒 Data Theft: Data theft is a major threat to educational institutions, which store valuable personal and research information. Cybercriminals may sell this data or use it for extortion, while stealing university research can provide unfair competitive advantages. These attacks can go undetected for long periods, as seen in the University of California, Berkeley breach, where hackers allegedly stole 160,000 medical records over several months.

🛠️ SQL Injection: SQL injection (SQLI) is an attack that uses malicious code to manipulate backend databases, granting unauthorized access to sensitive information like customer details. Successful SQLI attacks can result in data deletion, unauthorized viewing of user lists, or administrative access to the database.

🔍Eavesdropping attack: An eavesdropping breach, or sniffing, is a network attack where cybercriminals steal information from unsecured transmissions between devices. These attacks are hard to detect since they don't cause abnormal data activity. Attackers often use network monitors, like sniffers, to intercept data during transmission.

🤖 AI-Powered Attacks: AI enhances cyber attacks like identity theft, password cracking, and denial-of-service attacks, making them more powerful, efficient, and automated. It can be used to inflict harm, steal information, cause emotional distress, disrupt organizations, and even threaten national security by shutting down services or cutting power to entire regions

Insights from Project eKawach

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The CyberPeace Research Wing, in collaboration with SAKEC CyberPeace Center of Excellence (CCoE) and Autobot Infosec Private Limited, conducted a study simulating educational institutions' networks to gather intelligence on cyber threats. As part of the e-Kawach project, a nationwide initiative to strengthen cybersecurity, threat intelligence sensors were deployed to monitor internet traffic and analyze real-time cyber attacks from July 2023 to April 2024, revealing critical insights into the evolving cyber threat landscape.

Cyber Attack  Trends

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Between July 2023 and April 2024, the e-Kawach network recorded 217,886 cyberattacks from IP addresses worldwide, with a significant portion originating from countries including the United States, China, Germany, South Korea, Brazil, Netherlands, Russia, France, Vietnam, India, Singapore, and Hong Kong. However, attributing these attacks to specific nations or actors is complex, as threat actors often use techniques like exploiting resources from other countries, or employing VPNs and proxies to obscure their true locations, making it difficult to pinpoint the real origin of the attacks.

Brute Force Attack:

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The analysis uncovered an extensive use of automated tools in brute force attacks, with 8,337 unique usernames and 54,784 unique passwords identified. Among these, the most frequently targeted username was “root,” which accounted for over 200,000 attempts. Other commonly targeted usernames included: "admin", "test", "user", "oracle", "ubuntu", "guest", "ftpuser", "pi", "support"

Similarly, the study identified several weak passwords commonly targeted by attackers. “123456” was attempted over 3,500 times, followed by “password” with over 2,500 attempts. Other frequently targeted passwords included: "1234", "12345", "12345678", "admin", "123", "root", "test", "raspberry", "admin123", "123456789"

Insights from Threat Landscape Analysis

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Research done by the USI - CyberPeace Centre of Excellence (CCoE) and Resecurity has uncovered several breached databases belonging to public, private, and government universities in India, highlighting significant cybersecurity threats in the education sector. The research aims to identify and mitigate cybersecurity risks without harming individuals or assigning blame, based on data available at the time, which may evolve with new information. Institutions were assigned risk ratings that descend from A to F, with most falling under a D rating, indicating numerous security vulnerabilities. Institutions rated D or F are 5.4 times more likely to experience data breaches compared to those rated A or B. Immediate action is recommended to address the identified risks.

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Risk Findings :

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The risk findings for the institutions are summarized through a pie chart, highlighting factors such as data breaches, dark web activity, botnet activity, and phishing/domain squatting. Data breaches and botnet activity are significantly higher compared to dark web leakages and phishing/domain squatting. The findings show 393,518 instances of data breaches, 339,442 instances of botnet activity, 7,926 instances related to the dark web and phishing & domain activity - 6711.

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Key Indicators:  Multiple instances of data breaches containing credentials (email/passwords) in plain text.

• Botnet activity indicating network hosts compromised by malware.

• Credentials from third-party government and non-governmental websites linked to official institutional emails

• Details of software applications, drivers installed on compromised hosts.

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• Sensitive cookie data exfiltrated from various browsers.

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• IP addresses of compromised systems.
• Login credentials for different Android applications.

Below is the sample detail of one of the top educational institutions that provides the insights about the higher rate of data breaches, botnet activity, dark web activities and phishing & domain squatting. 

Risk Detection: 

It indicates the number of data breaches, network hygiene, dark web activities, botnet activities, cloud security, phishing & domain squatting, media monitoring and miscellaneous risks. In the below example, we are able to see the highest number of data breaches and botnet activities in the sample particular domain.

Risk Changes:

Risk by Categories:

Risk is categorized with factors such as high, medium and low, the risk is at high level for data breaches and botnet activities.

Challenges Faced by Educational Institutions

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Educational institutions face cyberattack risks, the challenges leading to cyberattack incidents in educational institutions are as follows:

🔒 Lack of a Security Framework: A key challenge in cybersecurity for educational institutions is the lack of a dedicated framework for higher education. Existing frameworks like ISO 27001, NIST, COBIT, and ITIL are designed for commercial organizations and are often difficult and costly to implement. Consequently, many educational institutions in India do not have a clearly defined cybersecurity framework.

🔑 Diverse User Accounts: Educational institutions manage numerous accounts for staff, students, alumni, and third-party contractors, with high user turnover. The continuous influx of new users makes maintaining account security a challenge, requiring effective systems and comprehensive security training for all users.

📚 Limited Awareness: Cybersecurity awareness among students, parents, teachers, and staff in educational institutions is limited due to the recent and rapid integration of technology. The surge in tech use, accelerated by the pandemic, has outpaced stakeholders' ability to address cybersecurity issues, leaving them unprepared to manage or train others on these challenges.

📱 Increased Use of Personal/Shared Devices: The growing reliance on unvetted personal/Shared devices for academic and administrative activities amplifies security risks.

💬 Lack of Incident Reporting: Educational institutions often neglect reporting cyber incidents, increasing vulnerability to future attacks. It is essential to report all cases, from minor to severe, to strengthen cybersecurity and institutional resilience.

Impact of Cybersecurity Attacks on Educational Institutions

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Cybersecurity attacks on educational institutions lead to learning disruptions, financial losses, and data breaches. They also harm the institution's reputation and pose security risks to students. The following are the impacts of cybersecurity attacks on educational institutions:

📚Impact on the Learning Process: A report by the US Government Accountability Office (GAO) found that cyberattacks on school districts resulted in learning losses ranging from three days to three weeks, with recovery times taking between two to nine months.

💸Financial Loss: US schools reported financial losses ranging from $50,000 to $1 million due to expenses like hardware replacement and cybersecurity upgrades, with recovery taking an average of 2 to 9 months.

🔒Data Security Breaches: Cyberattacks exposed sensitive data, including grades, social security numbers, and bullying reports. Accidental breaches were often caused by staff, accounting for 21 out of 25 cases, while intentional breaches by students, comprising 27 out of 52 cases, frequently involved tampering with grades.

⚠️Data Security Breach: Cyberattacks on schools result in breaches of personal information, including grades and social security numbers, causing emotional, physical, and financial harm. These breaches can be intentional or accidental, with a US study showing staff responsible for most accidental breaches (21 out of 25) and students primarily behind intentional breaches (27 out of 52) to change grades.

🏫Impact on Institutional Reputation: Cyberattacks damaged the reputation of educational institutions, eroding trust among students, staff, and families. Negative media coverage and scrutiny impacted staff retention, student admissions, and overall credibility.

🛡️ Impact on Student Safety: ‍‍Cyberattacks compromised student safety and privacy. For example, breaches like live-streaming school CCTV footage caused severe distress, negatively impacting students' sense of security and mental well-being.

CyberPeace Advisory:

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CyberPeace emphasizes the importance of vigilance and proactive measures to address cybersecurity risks:

1. Develop effective incident response plans: Establish a clear and structured plan to quickly identify, respond to, and recover from cyber threats. Ensure that staff are well-trained and know their roles during an attack to minimize disruption and prevent further damage.
   
   
2. Implement access controls with role-based permissions: Restrict access to sensitive information based on individual roles within the institution. This ensures that only authorized personnel can access certain data, reducing the risk of unauthorized access or data breaches.
   
   
3. Regularly update software and conduct cybersecurity training: Keep all software and systems up-to-date with the latest security patches to close vulnerabilities. Provide ongoing cybersecurity awareness training for students and staff to equip them with the knowledge to prevent attacks, such as phishing.
   
   
4. Ensure regular and secure backups of critical data: Perform regular backups of essential data and store them securely in case of cyber incidents like ransomware. This ensures that, if data is compromised, it can be restored quickly, minimizing downtime.
   
   
5. Adopt multi-factor authentication (MFA): Enforce Multi-Factor Authentication(MFA) for accessing sensitive systems or information to strengthen security. MFA adds an extra layer of protection by requiring users to verify their identity through more than one method, such as a password and a one-time code.
   
   
6. Deploy anti-malware tools: Use advanced anti-malware software to detect, block, and remove malicious programs. This helps protect institutional systems from viruses, ransomware, and other forms of malware that can compromise data security.
   
   
7. Monitor networks using intrusion detection systems (IDS): Implement IDS to monitor network traffic and detect suspicious activity. By identifying threats in real time, institutions can respond quickly to prevent breaches and minimize potential damage.
   
   
8. Conduct penetration testing: Regularly conduct penetration testing to simulate cyberattacks and assess the security of institutional networks. This proactive approach helps identify vulnerabilities before they can be exploited by actual attackers.
   
   
9. Collaborate with cybersecurity firms: Partner with cybersecurity experts to benefit from specialized knowledge and advanced security solutions. Collaboration provides access to the latest technologies, threat intelligence, and best practices to enhance the institution's overall cybersecurity posture.
   
   
10. Share best practices across institutions: Create forums for collaboration among educational institutions to exchange knowledge and strategies for cybersecurity. Sharing successful practices helps build a collective defense against common threats and improves security across the education sector.

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Conclusion: 

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The increasing cyber threats to Indian educational institutions demand immediate attention and action. With vulnerabilities like data breaches, botnet activities, and outdated infrastructure, institutions must prioritize effective cybersecurity measures. By adopting proactive strategies such as regular software updates, multi-factor authentication, and incident response plans, educational institutions can mitigate risks and safeguard sensitive data. Collaborative efforts, awareness, and investment in cybersecurity will be essential to creating a secure digital environment for academia.

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Introduction

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As the calendar pages turn inexorably towards 2024, a question looms large on the horizon of our collective consciousness: Are we cyber-resilient? This is not a rhetorical flourish but a pragmatic inquiry, as the digital landscape we navigate is fraught with cyberattacks and disruptions that threaten to capsize our virtual vessels.

What, then, is Cyber Resilience? It is the capacity to prepare for, respond to, and recover from these cyber squalls. Picture, if you will, a venerable oak amid a howling gale. The roots, those unseen sinews, delve deep into the earth, anchoring the tree – this is preparation. The robust trunk and flexible branches, swaying yet unbroken, embody response. And the new growth that follows the storm's rage is recovery. Cyber resilience is the digital echo of this natural strength and flexibility.

The Need for Resilience

Why, you might ask, is Cyber Resilience of such paramount importance as we approach 2024? The answer lies in the stark reality of our times:

• A staggering half of businesses have been breached by cyberattacks in the past three years.
• The financial haemorrhage from these incursions is projected to exceed a mind-numbing $10 trillion by the end of 2024.
• The relentless march of technology has not only brought innovation but also escalated the arms race against cyber threats.
• Cyber resilience transcends mere cybersecurity; it is a holistic approach that weaves recovery and continuity into the fabric of digital defenses.
• The adaptability of organisations, often through measures such as remote working protocols, is a testament to the evolving strategies of cyber resilience.

• The advent of AI and Machine Learning heralds a new era of automated cyber defense, necessitating an integrated framework that marries security with continuity protocols.
• Societal awareness, particularly of social engineering tactics, and maintaining public relations during crises are now recognised as critical elements of resilience strategies.
• Cyber threats have evolved in sophistication, paralleling the intense competition to develop new AI-driven solutions.
• As we gaze towards the future, cyber resilience is expected to be a prominent trend in both business and consumer technology sectors throughout 2024.

The Virtues 

The benefits of cyber resilience for organisations are manifold, offering a bulwark against the digital onslaught:

• A reduction in the risk of data breaches, safeguarding sensitive information and customer data.
• Business continuity, ensuring operations persist with minimal disruption.
• Protection of reputation, as companies that demonstrate effective cyber resilience engender trust.
• Compliance with data protection and privacy regulations, thus avoiding fines and legal entanglements.
• Financial stability, as the costs associated with breaches can be mitigated or even prevented.
• Enhanced customer trust, as clients feel more secure with companies that take cybersecurity seriously.
• A competitive advantage in a market rife with cyber threats.
• Innovation and agility, as cyber-resilient companies can pivot and adapt without fear of digital disruptions.
• Employee confidence, leading to improved morale and productivity.
• Long-term savings by sidestepping the expenses of frequent or major cyber incidents.

As the year wanes, it is a propitious moment to evaluate your organisation's cyber resilience. In this edition, we will guide you through the labyrinth of cyber investment buy-in, tailored discussions with stakeholders, and the quintessential security tools for your 2024 cybersecurity strategy.

How to be more Resilient 

Cyber resilience is more than a shield; it is the preparedness to withstand and recover from a cyber onslaught. Let us explore the key steps to fortify your digital defenses:

• Know your risks: Map the terrain where you are most vulnerable, identify the treasures that could be plundered, and fortify accordingly.
• Get the technology right: Invest in solutions that not only detect threats with alacrity but also facilitate rapid recovery, all the while staying one step ahead of the cyber brigands.
• Involve your people: Embed cybersecurity awareness into the fabric of every role. Train your crew in the art of recognising and repelling digital dangers.
• Test your strategies: Regularly simulate incidents to stress-test your policies and procedures, honing your ability to contain and neutralise threats.
• Plan for the worst: Develop a playbook so that everyone knows their part in the grand scheme of damage control and communication in the event of a breach.
• Continually review: The digital seas are ever-changing; adjust your sails accordingly. Cyber resilience is not a one-time endeavour but a perpetual commitment.

Conclusion 

As we stand on the precipice of 2024, let us not be daunted by the digital storms that rage on the horizon. Instead, let us embrace the imperative of cyber resilience, for it is our steadfast companion in navigating the treacherous waters of the cyber world. Civil Society Organizations such as ‘CyberPeace Foundation’ playing a crucial role in promoting cyber resilience by bridging the gap between the public and cybersecurity complexities, conducting awareness campaigns, and advocating for robust policies to safeguard collective digital interests. Their active role is imperative in fostering a culture of cyber hygiene and vigilance.

References 

• https://www.loginradius.com/blog/identity/cybersecurity-trends-2024/
• https://ciso.economictimes.indiatimes.com/news/ciso-strategies/cisos-guide-to-2024-top-10-cybersecurity-trends/106293196

Introduction

With the increasing reliance on digital technologies in the banking industry, cyber threats have become a significant concern. Cyberlaw plays a crucial role in safeguarding the banking sector from cybercrimes and ensuring the security and integrity of financial systems.

The banking industry has witnessed a rapid digital transformation, enabling convenient services and greater access to financial resources. However, this digitalisation also exposes the industry to cyber threats, necessitating the formulation and implementation of effective cyber law frameworks.

Recent Trends in the Banking Industry

Digital Transformation: The banking industry has embraced digital technologies, such as mobile banking, internet banking, and financial apps, to enhance customer experience and operational efficiency.

Open Banking: The concept of open banking has gained prominence, enabling data sharing between banks and third-party service providers, which introduces new cyber risks.

How Cyber Law Helps the Banking Sector

The banking sector and cyber crime share an unspoken synergy due to the mass digitisation of banking services. Thanks to QR codes, UPI and online banking payments, India is now home to 40% of global online banking transactions. Some critical aspects of the cyber law and banking sector are as follows:

Data Protection: Cyberlaw mandates banks to implement robust data protection measures, including encryption, access controls, and regular security audits, to safeguard customer data.

Incident Response and Reporting: Cyberlaw requires banks to establish incident response plans, promptly report cyber incidents to regulatory authorities, and cooperate in investigations.

Customer Protection: Cyberlaw enforces regulations related to online banking fraud, identity theft, and unauthorised transactions, ensuring that customers are protected from cybercrimes.

Legal Framework: Cyberlaw provides a legal foundation for digitalisation in the banking sector, assuring customers that regulations protect their digital transactions and data.

Cybersecurity Training and Awareness: Cyberlaw encourages banks to conduct regular training programs and create awareness among employees and customers about cyber threats, safe digital practices, and reporting procedures.

RBI Guidelines

The RBI, as India’s central banking institution, has issued comprehensive guidelines to enhance cyber resilience in the banking industry. These guidelines address various aspects, including:

Technology Risk Management

Cyber Security Framework

IT Governance

Cyber Crisis Management Plan

Incident Reporting and Response

Recent Trends in Banking Sector Frauds and the Role of Cyber Law

Phishing Attacks: Cyberlaw helps banks combat phishing attacks by imposing penalties on perpetrators and mandating preventive measures like two-factor authentication.

Insider Threats: Cyberlaw regulations emphasise the need for stringent access controls, employee background checks, and legal consequences for insiders involved in fraudulent activities.

Ransomware Attacks: Cyberlaw frameworks assist banks in dealing with ransomware attacks by enabling legal actions against hackers and promoting preventive measures, such as regular software updates and data backups.

Master Directions on Cyber Resilience and Digital Payment Security Controls for Payment System Operators (PSOs)

Draft of Master Directions on Cyber Resilience and Digital Payment Security Controls for Payment System Operators (PSOs) issued by the Reserve Bank of India (RBI). The directions provide guidelines and requirements for PSOs to improve the safety and security of their payment systems, with a focus on cyber resilience. These guidelines for PSOs include mobile payment service providers like Paytm or digital wallet payment platforms.

Here are the highlights-

The Directions aim to improve the safety and security of payment systems operated by PSOs by providing a framework for overall information security preparedness, with an emphasis on cyber resilience.

The Directions apply to all authorised non-bank PSOs.

PSOs must ensure adherence to these Directions by unregulated entities in their digital payments ecosystem, such as payment gateways, third-party service providers, vendors, and merchants.

The PSO’s Board of Directors is responsible for ensuring adequate oversight over information security risks, including cyber risk and cyber resilience. A sub-committee of the Board may be delegated with primary oversight responsibilities.

PSOs must formulate a Board-approved Information Security (IS) policy that covers roles and responsibilities, measures to identify and manage cyber security risks, training and awareness programs, and more.

PSOs should have a distinct Board-approved Cyber Crisis Management Plan (CCMP) to detect, contain, respond, and recover from cyber threats and attacks.

A senior-level executive, such as a Chief Information Security Officer (CISO), should be responsible for implementing the IS policy and the cyber resilience framework and assessing the overall information security posture of the PSO.

PSOs need to define Key Risk Indicators (KRIs) and Key Performance Indicators (KPIs) to identify potential risk events and assess the effectiveness of security controls. The sub-committee of the Board is responsible for monitoring these indicators.

PSOs should conduct a cyber risk assessment when launching new products, services, technologies, or significant changes to existing infrastructure or processes.

PSOs, including inventory management, identity and access management, network security, application security life cycle, security testing, vendor risk management, data security, patch and change management life cycle, incident response, business continuity planning, API security, employee awareness and training, and other security measures should implement various baseline information security measures and controls.

PSOs should ensure that payment transactions involving debit to accounts conducted electronically are permitted only through multi-factor authentication, except where explicitly permitted/relaxed.

Conclusion

The relationship between cyber law and the banking industry is crucial in ensuring a secure and trusted digital environment. Recent trends indicate that cyber threats are evolving and becoming more sophisticated. Compliance with cyber law provisions and adherence to guidelines such as those provided by the RBI is essential for banks to protect themselves and their customers from cybercrimes. By embracing robust cyber law frameworks, the banking industry can foster a resilient ecosystem that enables innovation while safeguarding the interests of all stakeholders or users.