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  • AlgoSec | Continuous compliance monitoring best practices

    As organizations respond to an ever-evolving set of security threats, network teams are scrambling to find new ways to keep up with... Auditing and Compliance Continuous compliance monitoring best practices Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 3/19/23 Published As organizations respond to an ever-evolving set of security threats, network teams are scrambling to find new ways to keep up with numerous standards and regulations to dodge their next compliance audit violation. Can this nightmare be avoided? Yes, and it’s not as complex as one might think if you take a “compliance first” approach . It may not come as a surprise to many, but the number of cyber attacks is increasing every year and with it the risk to companies’ financial, organizational, and reputational standing. What’s at stake? The stakes are high when it comes to cyber security compliance. A single data breach can result in massive financial losses, damage to a company’s reputation, and even jail time for executives. Data breaches: Data breaches are expensive and becoming even more so by the day. According to the Ponemon Institute’s 2022 Cost of a Data Breach Report , the average cost of a data breach is $4.35 million. Fraud: Identity fraud is one of the most pressing cybersecurity threats today. In large organizations, the scale of fraud is also usually large, resulting in huge losses causing depletion of profitability. In a recent survey done by PwC, nearly one in five organizations said that their most disruptive incident cost over $50 million*. Theft: Identity theft is on the rise and can be the first step towards compromising a business. According a study from Javelin Strategy & Research found that identity fraud costs US businesses an estimated total of $56 billion* in 2021. What’s the potential impact? The potential impact of non-compliance can be devastating to an organization. Financial penalties, loss of customers, and damage to reputation are just a few of the possible consequences. To avoid these risks, organizations must make compliance a priority and take steps to ensure that they are meeting all relevant requirements. Legal impact:  Regulatory or legal action brought against the organization or its employees that could result in fines, penalties, imprisonment, product seizures, or debarment.  Financial impact:  Negative impacts with regard to the organization’s bottom line, share price, potential future earnings, or loss of investor confidence.  Business impact:  Adverse events, such as embargos or plant shutdowns, could significantly disrupt the organization’s ability to operate.  Reputational impact:  Damage to the organization’s reputation or brand—for example, bad press or social-media discussion, loss of customer trust, or decreased employee morale.  How can this be avoided? In order to stay ahead of the ever-expanding regulatory requirements, organizations must adopt a “compliance first” approach to cyber security. This means enforcing strict compliance criteria and taking immediate action to address any violations to ensure data is protected. Some of these measures include the following: Risk assessment: Conduct ongoing monitoring of compliance posture (risk assessment) and conduct regular internal audits (ensuring adherence with regulatory and legislative requirements (HIPAA, GDPR, PCI DSS, SOX, etc.) Documentation: Enforce continuous tracking of changes and intent Annual audits: Commission 3rd party annual audits to ensure adherence with regulatory and legislative requirements (HIPAA, GDPR, PCI DSS, SOX, etc.) Conclusion and next steps Compliance violations are no laughing matter. They can result in fines, business loss, and even jail time in extreme cases. They can be difficult to avoid unless you take the right steps to avoid them. You have a complex set of rules and regulations to follow as well as numerous procedures, processes, and policies. And if you don’t stay on top of things, you can end up with a compliance violation mess that is difficult to untangle. Fortunately, there are ways to reduce the risk of being blindsided by a compliance violation mess with your organization. Now that you know the risks and what needs to be done, here are six best practices for achieving it. External links: $50 million $56 billion Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

  • Overcoming the Hybrid Cloud Policy Management Challenge

    Best practices for network security governance in AWS and hybrid network environments Webinars Overcoming the Hybrid Cloud Policy Management Challenge: A Panel Discussion Visibility May 27, 2020 Omer Ganot Product Manager Yonatan Klein irector of Product Management Relevant resources State of cloud security: Concerns, challenges, and incidents Read Document Demystifying Network Security in Hybrid Cloud Environments Keep Reading A Pragmatic Approach to Network Security Across Your Hybrid Cloud Environment Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

  • AlgSec support programs - AlgoSec

    AlgSec support programs Datasheet Download PDF Download PDF Add a Title Add a Title Add a Title Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

  • Firewall rule automation & change management explained | AlgoSec

    Learn about firewall rule automation and change management to streamline processes, reduce human error, and enhance network security with effective change controls. Firewall rule automation & change management explained ---- ------- Schedule a Demo Select a size ----- Get the latest insights from the experts Choose a better way to manage your network

  • 5 power tips to keep your network secure in 2021 | AlgoSec

    Discover five essential tips for securing your network in 2021 with Algosec's network security experts. Webinars 5 power tips to keep your network secure in 2021 No one could have predicted how unpredictable 2020 would be, so we’re here to help you get prepared for whatever is in store in 2021. No matter what happens in the upcoming year – there are five things you can do now to keep your network secure in 2021. Join network security experts Jade Kahn and Asher Benbenisty, and learn how to: Never fly blind: Ensure visibility across your entire hybrid network Do more with less: Accelerate digital transformation & avoid misconfigurations with automation Stay continuously compliant Fight ransomware with micro-segmentation Accelerate in the cloud January 13, 2021 Jade Kahn CMO Asher Benbenisty Director of product marketing Relevant resources 5 Network Security Management Predictions for 2020 Watch Video Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

  • AlgoSec Horizon Security Analyzer - See the whole picture | AlgoSec

    Gain comprehensive visibility and control over your network security with AlgoSec Horizon Security Analyzer. Simplify audits, optimize configurations, and enhance protection. AlgoSec Horizon Security Analyzer - See the whole picture ---- ------- Schedule a Demo Select a size ----- Get the latest insights from the experts Choose a better way to manage your network

  • AlgoSec SaaS AI Security - AlgoSec

    AlgoSec SaaS AI Security Download PDF Download PDF Add a Title Add a Title Add a Title Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

  • AlgoSec application discovery Enhance the discovery of your network applications | AlgoSec

    Streamline network management with AlgoSec Application Discovery. Gain visibility into application connectivity to optimize performance and enhance security policies. AlgoSec application discovery Enhance the discovery of your network applications ---- ------- Schedule a Demo Select a size ----- Get the latest insights from the experts Choose a better way to manage your network

  • AlgoSec | Cloud Security Architecture: Methods, Frameworks, & Best Practices

    Cloud threats increased by 95 percent in 2022 alone! At a time when many organizations are moving their resources to the cloud and... Cloud Security Cloud Security Architecture: Methods, Frameworks, & Best Practices Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 8/8/23 Published Cloud threats increased by 95 percent in 2022 alone! At a time when many organizations are moving their resources to the cloud and security threats are at an all-time high, focusing on your cloud security architecture has never been more critical. While cloud adoption has revolutionized businesses, it has also brought complex challenges. For example, cloud environments can be susceptible to numerous security threats. Besides, there are compliance regulations that you must address. This is why it’s essential to implement the right methods, frameworks, and best practices in cloud environments. Doing so can protect your organization’s sensitive cloud resources, help you meet compliance regulations, and maintain customer trust. Understanding Cloud Security Architecture Cloud security architecture is the umbrella term that covers all the hardware, software, and technologies used to protect your cloud environment. It encompasses the configurations and secure activities that protect your data, workloads, applications, and infrastructure within the cloud. This includes identity and access management (IAM), application and data protection, compliance monitoring, secure DevOps, governance, and physical infrastructure security. A well-defined security architecture also enables manageable decompositions of cloud deployments, including mixed SaaS, PaaS, and IaaS deployments. This helps you highlight specific security needs in each cloud area. Additionally, it facilitates integration between clouds, zones, and interfaces, ensuring comprehensive coverage of all deployment aspects. Cloud security architects generally use a layered approach when designing cloud security. Not only does this improve security, but it also allows companies to align business needs with technical security practices. As such, a different set of cloud stakeholders, including business teams and technical staff, can derive more value. The Fundamentals of Cloud Security Architecture Every cloud computing architecture has three core fundamental capabilities; confidentiality, integrity, and availability. This is known as the CIA triad. Understanding each capability will guide your efforts to build, design, and implement safer cloud environments. 1. Confidentiality This is the ability to keep information hidden and inaccessible to unauthorized entities, such as attackers, malware, and people in your organization, without the appropriate access level. Privacy and trust are also part of confidentiality. When your organization promises customers to handle their data with utmost secrecy, you’re assuring them of confidentiality. 2. Integrity Integrity means that the services, systems, and applications work and behave exactly how you expect. That is, their output is consistent, accurate, and trustworthy. If these systems and applications are compromised and produce unexpected or misleading results, your organization may suffer irreparable damage. 3. Availability As the name implies, availability assures your cloud resources are consistently accessible and operational when needed. So, suppose an authorized user (whether customers or employees) needs data and applications in the cloud, such as your products or services. In that case, they can access it without interruption or significant downtime. Cybercriminals sometimes use denial-of-service (DoS) attacks to prevent the availability of cloud resources. When this happens, your systems become unavailable to you or your customers, which isn’t ideal. So, how do you stop that from happening and ensure your cloud security architecture provides these core capabilities? Approaches to Cloud Security Architecture There are multiple security architecture approaches, including frameworks and methodologies, to support design and implementation steps. Cloud Security Frameworks and Methodologies A cloud security framework outlines a set of guidelines and controls your organizations can use when securing data, applications, and infrastructures within the cloud computing environment. Frameworks provide a structured approach to detecting risks and implementing appropriate security protocols to prevent them. Without a consistent cloud security framework, your organization exposes itself to more vulnerabilities. You may lack the comprehensive visibility to ensure your data and applications are adequately secure from unauthorized access, data exposure, malware, and other security threats. Plus, you may have limited incident response capabilities, inconsistent security practices, and increased operational risks. A cloud security framework also helps you stay compliant with regulatory requirements. Lastly, failing to have appropriate security frameworks can erode customer trust and confidence in your ability to protect their privacy. This is why you must implement a recognized framework to significantly reduce potential risks associated with cloud security and ensure the CIA of data and systems. There are numerous security frameworks. Some are for governance (e.g., COBIT and COSO), architecture (e.g., SABSA), and the NIST cybersecurity framework. While these generally apply broadly to technology, they may also apply to cloud environments. Other cloud-specific frameworks include the ISO/IEC 27017:2015, Cloud Control Matrix (CCM), Cloud Security Alliance, and the FedRAMP. 1. NIST Cybersecurity Framework (NIST CSF) The National Institute of Standards and Technology’s Cybersecurity Framework (NIST CSF) outlines a set of guidelines for securing security systems. It has five core capabilities: Identify, Protect, Detect, Respond, and Recover. Identify – What processes, assets, and systems need protection? Protect – Develop and implement the right safeguards to ensure critical infrastructure services delivery. Detect – Implement the appropriate mechanisms to enable the timely discovery of cybersecurity incidents. Respond – Develop techniques to contain the impact of potential cybersecurity incidents. Recover – Implement appropriate measures to restore business capabilities and services affected by cybersecurity events. While the NIST CSF is a general framework for the security of your organization’s systems, these five pillars can help you assess and manage cloud-related security risks. 2. ISO/IEC 27017:2015 ISO 27017 is a cloud security framework that defines guidelines on information security issues specific to the cloud. The framework’s security controls add to the ISO/IEC 27002 and ISO/IEC 27001 standards’ recommendations. The framework also offers specific security measures and implementation advice for cloud service providers and applications. 3. Sherwood Applied Business Security Architecture (SABSA) First developed by John Sherwood, SABSA is an Enterprise Security Architecture Framework that provides guidelines for developing business-driven, risk, and opportunity-focused security architectures to support business objectives. The SABSA framework aims to prioritize your business needs, meaning security services are designed and developed to be an integral part of your business and IT infrastructure. Here are some core principles of the Gartner-recommended SABSA framework for enterprises: It is business-driven. SABSA ensures security is integrated into your entire business strategy. This means there’s a strong emphasis on understanding your organization’s business objectives. So, any security measure is aligned with those objectives. SABSA is a risk-based approach. It considers security vulnerabilities, threats, and their potential impacts to prioritize security operations and investments. This helps your organization allocate resources effectively to address the most critical risks first. It promotes a layered security architecture. Earlier, we mentioned how a layered approach can help you align business and technical needs. So, it’s expected that this is a core principle of SABSA. This allows you to deploy multiple security controls across different layers, such as physical security, network security, application security, and data security. Each layer focuses on a specific security aspect and provides special controls and measures. Transparency: SABSA provides two-way traceability; that is, a clear two-way relationship exists between aligning security requirements and business goals. This provides a clear overview of where expenditure is made ad the value that is returned. Modular approach: SABSA offers agility for ease of implementation and management. This can make your business flexible when meeting changing market or economic conditions. 4. MITRE ATT&CK The MITRE ATT&CK framework is a repository of techniques and tactics that threat hunters, defenders, red teams, and security architects can use to classify, identify, and assess attacks. Instead of focusing on security controls and mechanisms to mitigate threats, this framework targets the techniques that hackers and other threat actors use in the cloud. So, using this framework can be excellent if you want to understand how potential attack vectors operate. It can help you become proactive and strengthen your cloud security posture through improved detection and incident response. 5. Cloud Security Alliance Cloud Controls Matrix (CSA CCM) The CSA CCM is a cybersecurity control framework specifically for cloud computing. It contains 197 control objectives structured in 17 domains that cover every critical aspect of cloud technology. Cloud customers and cloud service providers (CSPs) can use this tool to assess cloud implementation systematically. It also guides customers on the appropriate security controls for implementation by which actor in the cloud supply chain. 6. Cloud Security Alliance Security Trust Assurance and Risk (CSA STAR) The CSA STAR framework is for CSPs. It combines the principles of transparency, thorough auditing, and harmonization of standards. What CSA STAR does is to help you, as a cloud customer, assess a cloud service provider’s reliability and security posture. There are two ways this can happen: CSA STAR Certification: This is a rigorous third-party assessment of the CSP’s security controls, posture, and practices. The CSP undergoes a thorough audit based on the CSA’s Cloud Control Matrix (CCM), which is a set of cloud security controls aligned with industry standards. CSA STAR Self-Assessment: The CSA also has a Consensus Assessment Initiative Questionnaire (CAIQ). CSPs can use this to test and report on their security controls and practices. Since it’s a self-assessment procedure, it allows CSPs to be transparent, enabling customers like you to understand a CSP’s security capabilities before adopting their services. Challenges and Considerations in Cloud Security Architecture Before any cloud deployment, it’s important to understand the threats you may face, such as privilege-based attacks and malware, and be prepared for them. Since there are many common threats, we’ll quickly run through the most high-profile ones with the most devastating impacts. It’s important to remember some threats may also be specific to the type of cloud service model. 1. Insider risks This includes the employees in your organization who have access to data, applications, and systems, as well as CSP administrators. Whenever you subscribe to a CSP’s services, you entrust your workloads to the staff who maintain the CSP architecture. 2. DoS attacks Direct denial-of-service (DDoS) attacks are critical issues in cloud environments. Although security perimeters can deflect temporary DDoS attacks to filter out repeated requests, permanent DoS attacks are more damaging to your firmware and render the server unbootable. If this happens, you may need to physically reload the firmware and rebuild the system from the ground up, resulting in business downtime for weeks or longer. 3. Data availability You also want to consider how much of your data is accessible to the government. Security professionals are focusing on laws and examples that demonstrate when and how government authorities can access data in the cloud, whether through legal processes or court rulings. 4. Cloud-connected Edge Systems The concept of “cloud edge” encompasses both edge systems directly connected to the cloud and server architecture that is not directly controlled by the cloud service provider (CSP). To extend their services to smaller or remote locations, global CSPs often rely on partners as they cannot have facilities worldwide. Consequently, CSPs may face limitations in fully regulating hardware monitoring, ensuring physical box integrity, and implementing attack defenses like blocking USB port access. 5. Hardware Limitations Having the most comprehensive cloud security architecture still won’t help you create stronger passwords. While your cloud security architects focus on the firmware, hardware, and software, it’s down to the everyday users to follow best practices for staying safe. Best Practices in Cloud Security Architecture The best practices in Cloud Security Architecture are highlighted below: 1. Understand the shared responsibility model Cloud security is implemented with a shared responsibility model. Although, as the cloud customer, you may have most of the obligation, the cloud provider also shares some of the responsibility. Most vendors, such as Amazon Web Services (AWS) and Microsoft Azure, have documentation that clearly outlines your specific responsibilities depending on the deployment type. It’s important to clearly understand your shared responsibility model and review cloud vendor policies. This will prevent miscommunications and security incidents due to oversight. 2. Secure network design and segmentation This is one of the principles of cloud security architecture – and by extension, a best practice. Secure network design and segmentation involve dividing the network into isolated segments to avoid lateral movements during a breach. Implementing network segmentation allows your organization to contain potential risks and attacks within a specific segment. This can minimize the effects of an incident on your entire network and protect critical assets within the cloud infrastructure. 3. Deploy an Identity and access management (IAM) solution Unauthorized access is one of the biggest problems facing cloud security. Although hackers now use sophisticated tools to gain access to sensitive data, implementing a robust identity and access management (IAM) system can help prevent many threats. Consider access policies like role-based access control (RBAC) permissions, multi-factor authentication (MFA), and continuous threat monitoring. 4. Consider a CASB or Cloud Security Solution (e.g., Cloud-Native Application Protection (CNAPP) and Cloud Workload Protection Platforms (CWPP) Cloud Access Security Brokers (CASBs) provide specialized tools to enforce cloud security policies. Implementing a CASB solution is particularly recommended if you have a multi-cloud environment involving different vendors. Since a CASB acts as an intermediary between your organization’s on-premise infrastructure and CSPs, it allows your business to extend security policies and controls to the cloud. CASBs can enhance your data protection through features like data loss prevention, tokenization, and encryption. Plus, they help you discover and manage shadow IT through visibility into unauthorized cloud services and applications. Besides CASB solutions, you should also consider other solutions for securing your cloud environments. This includes cloud-native application protection (CNAPP) and cloud workload protection platforms (CWPP). For example, a CNAPP like Prevasio can improve your cloud security architecture with tailored solutions and automated security management. 5. Conduct Audits, Penetration Testing, and Vulnerability Testing Whether or not you outsource security, performing regular penetration tests and vulnerability is necessary. This helps you assess the effectiveness of your cloud security measures and identify potential weaknesses before hackers exploit them. You should also perform security audits that evaluate cloud security vendors’ capabilities and ensure appropriate access controls are in place. This can be achieved by using the guidelines of some frameworks we mentioned earlier, such as the CSA STAR. 6. Train Your Staff Rather than hiring new hires, training your current staff may be beneficial. Your employees have been at your company for a while and are already familiar with the organization’s culture, values, and processes. This could give them an advantage over new hires. As most existing IT skills can be reused, upskilling employees is more efficient and may help you meet the immediate need for a cloud IT workforce. Train your staff on recognizing simple and complex cybersecurity threats, such as creating strong passwords, identifying social engineering attacks, and advanced topics like risk management. 7. Mitigate Cloud Misconfigurations A misconfigured bucket could give access to anyone on the internet. To minimize cloud misconfigurations and reduce security risks, managing permissions in cloud services carefully is crucial. Misconfigurations, such as granting excessive access permissions to external users, can enable unauthorized access and potential data breaches. Attackers who compromise credentials can escalate their privileges, leading to further data theft and broader attacks within the cloud infrastructure. Therefore, it is recommended that IT, storage, or security teams, with assistance from development teams, personally configure each cloud bucket, ensuring proper access controls and avoiding default permissions. 8. Ensure compliance with regulatory requirements Most organizations today need to comply with strict regulatory requirements. This is especially important if you collect personally identifiable information (PII) or if your business is located in certain regions. Before you adopt a new cloud computing service, assess their compliance requirements and ensure they can fulfill data security needs. Failure to meet compliance requirements can lead to huge penalties. Other best practices for your cloud security include continuous monitoring and threat intelligence, data encryption at rest and in transit, and implementing intrusion detection and intrusion prevention systems. Conclusion When establishing a robust cloud security architecture, aligning business objectives and technical needs is important. Your organization must understand the shared responsibility model, risks, the appropriate implementation framework, and best practices. However, designing and developing cloud computing architectures can be complicated. Prevasio can secure your multi-cloud environment in minutes. Want to improve your cloud security configuration management? Prevasio’s agentless CNAPP can provide complete visibility over cloud resources, ensure compliance, and provide advanced risk monitoring and threat intelligence. Speak to us now. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

  • Stop hunting after the breach - AlgoSec

    Stop hunting after the breach WhitePaper Download PDF Download PDF Add a Title Add a Title Add a Title Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

  • Natilik and Rothschild | AlgoSec

    Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. AlgoSec Case Study: Natilik and Rothschild Organization Natilik and Rothschild Industry Financial services Headquarters Download case study Share Customer
success stories AlgoSec Case Study: Natilik and Rothschild Interview details Interviewee: Robert Elgidge, Security Solutions Director at Natilik Company: Natilik, UK-based global managed service provider Client: Rothschild, a multinational financial services institution Background Natilik, a global managed service provider, collaborated with AlgoSec to address the complex security challenges faced by Rothschild, a financial services leader with over 60 offices in 40 countries and $2.5 billion in annual revenue. Rothschild’s operations include investment banking, asset management, and private banking, as well as advisory roles for governments. Given their critical global role, securing and streamlining their IT infrastructure was a top priority. As part of their modernization strategy, Natilik also leveraged AWS to support Rothschild’s expanding cloud footprint and used the AlgoSec Horizon platform to provide unified visibility and security management across both AWS and on-prem environments. This hybrid approach allowed Natilik to centralize security policy analysis, application connectivity mapping, and risk prioritization across firewalls, cloud controls, and distributed sites. Watch the interview: Natilik’s expertise spans five key solution areas: Collaboration and modern work : enabling seamless communication and productivity across teams. Customer engagement : enhancing customer experiences through tailored digital solutions. Modern networks : building secure, scalable, and high-performing network infrastructures. Multi-cloud and data centers : supporting hybrid and multi-cloud environments for agility and scalability. Cybersecurity : providing end-to-end protection, which underpins all other solution areas. Cybersecurity forms the backbone of their offerings, ensuring clients like Rothschild can navigate an evolving threat landscape while maintaining compliance and operational excellence. Primary use case Rothschild’s primary challenges stemmed from fragmented security policies and inefficient manual processes. According to Robert Elgidge: “Rothschild’s large global firewall estate led to poor visibility and cumbersome management. AlgoSec was introduced to simplify these complexities, but initially, the company struggled with change management, approvals, and deploying firewall rules. Although AlgoSec offered the technology and intelligence needed, a significant amount of manual work was required to align stakeholders and integrate workflows.” With the introduction of AWS into their hybrid architecture, Natilik used AlgoSec Horizon to bridge visibility gaps between cloud and on-prem environments. Horizon’s application-centric discovery and cross-environment policy analysis helped Natilik consolidate cloud security groups, optimize hybrid access rules, and ensure consistent enforcement across AWS and traditional firewalls. AlgoSec’s deployment ultimately allowed Rothschild to consolidate security policies and automate manual processes, reducing errors and freeing resources for higher-value projects. Most valuable features Robert highlighted several standout features of AlgoSec: “AlgoSec’s rule intelligence feature was crucial. It identified which firewall rules were essential and which could be removed, dramatically simplifying the structure. This optimization not only improved performance but also saved significant costs. Initially, Rothschild considered investing in new firewall infrastructure, but AlgoSec’s ability to streamline and prioritize existing rules negated that need. The resulting performance boost was substantial, avoiding unnecessary expenses and improving operational efficiency.” By focusing on rule prioritization and optimization, AlgoSec enhanced Rothschild’s security posture and operational outcomes. With the addition of AlgoSec’s cloud-native capabilities (via its Horizon/ACE architecture), this rule intelligence and optimization extends not only to physical and on-prem firewalls, but also to cloud-native firewalls and security-group configurations ensuring effective policy hygiene across hybrid and multi-cloud estates. Areas for improvement Despite AlgoSec’s benefits, Robert noted areas for potential improvement: “Internal challenges with workflows and approvals persisted. While AlgoSec provided the technical capabilities, a more tailored approach to building or improving management processes would have been helpful. The main difficulties lay in the bureaucratic side of things, such as aligning request and approval roles.” These challenges highlighted the importance of aligning organizational processes with advanced security technologies. Usage duration “My experience with AlgoSec began in 2022, during its deployment at Rothschild. Shortly after, I transitioned to another organization that also used AlgoSec, which gave me further insight into its capabilities across different environments.” Solution stability Robert praised AlgoSec’s reliability: “There were no stability issues. Once AlgoSec was fully integrated, it became the central authority for rule management. We removed manual admin rights from the technical team, ensuring all changes went through AlgoSec. This approach eliminated human error and reinforced the solution’s effectiveness.” This stability now also covers hybrid and cloud-native policy environments, so Rothschild benefits from the same governance and control whether rules apply to physical appliances or cloud firewalls. Customer service and support “The technical support team was highly skilled and responsive. However, in regions like Brazil, where collaboration often involves discussions and in-person meetings, a purely technical approach didn’t always fully address our needs. A more consultative support model could enhance the customer experience in these scenarios.” Initial setup “Deploying AlgoSec was challenging due to the complexity of Rothschild’s network. However, the technical support team acted quickly to address any issues, ensuring the implementation proceeded smoothly. Once the environment was stabilized, maintenance and ongoing use were straightforward.” Return on investment AlgoSec delivered a strong return on investment for Rothschild: “The money saved on after-hours work alone justified the tool within the first year. By optimizing firewall rules and automating workflows, we achieved significant operational savings. This freed up resources for other critical business initiatives, directly contributing to profitability.” With the addition of cloud-native policy management, Rothschild now sees potential additional savings by avoiding redundant firewall investments and streamlining cloud infrastructure as part of their hybrid estate. Pricing, setup costs, and licensing “Compared to other solutions like Tufin and FireMon, AlgoSec was competitively priced and stayed within budget. There were no significant additional costs apart from standard licensing fees. While we did hire new personnel to support change management, that was more related to internal processes than the technology itself.” Final insights Robert shared his advice for organizations considering AlgoSec: “AlgoSec is best suited for larger enterprises with complex environments, especially those with multiple firewall vendors and over 500 rules. For smaller setups, the added complexity of a dedicated solution might not be necessary. However, for businesses dealing with significant network complexity, AlgoSec simplifies management and delivers substantial value. With its cloud-native capabilities, hybrid-ready architecture, and unified policy management across on-prem and cloud, it’s more relevant than ever for organisations operating across diverse infrastructures.I’d rate it 10 out of 10 for companies with the right use case.” Schedule time with one of our experts

  • AlgoSec | Understanding and Preventing Kubernetes Attacks and Threats

    As the most widely adapted open-source container software, Kubernetes provides businesses with efficient processes to schedule, deploy,... Cloud Security Understanding and Preventing Kubernetes Attacks and Threats Ava Chawla 2 min read Ava Chawla Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/20/21 Published As the most widely adapted open-source container software, Kubernetes provides businesses with efficient processes to schedule, deploy, and scale containers across different machines. The bad news is that cybercriminals have figured out how to exploit the platform’s vulnerabilities , resulting in catastrophic network intrusions across many company infrastructures. A recent report revealed that 94% of respondents reported security incidents in Kubernetes environments. The question is, what is behind this surge of Kubernetes attacks, and how can they be prevented? How Kubernetes is Vulnerable As a container-based platform, a new set of vulnerabilities, permission issues, and specific images set the stage for the increase in attacks. The threats have included fileless malware in containers, leveraging misconfigured Docker API ports, and using container images for attacks. Misconfigured Docker API Ports Exploitation Scanning for misconfigured Docker API ports and using them for deploying images containing malware is a relatively new type of attack. The malware, designed to evade static scanning, has become a popular method to hijack compute cycles for fraudulent cryptomining. This cryptojacking activity steals CPU power to mine currencies such as Ethereum and Monero. By first identifying vulnerable front-end websites and other systems, attackers send a command through the application layer simply by manipulating a domain’s text field or through an exposed API in the website’s URL. The code then enters the container, where it is executed with commands sent to a Docker container’s shell. A wget command is executed to download the malware. To protect against this attack, enterprises must ensure their container files are not writable, establish CPU consumption limits, and enable alerts to detect interactive shell launches. DDoS Attacks With Open Docker Daemons Cybercriminals use misconfigured open Docker daemons to launch DDoS attacks using a botnet of containers. UDP flood and Slowloris were recently identified as two such types of container-based botnet attacks. A recent blog describes an anatomy of these Kubernetes attacks. The attackers first identified open Docker daemons using a scanning tool such as Shodan to scan the internet for IP addresses and find a list of hosts, open ports, and services. By uploading their own dedicated images to the Docker hub, they succeeded in deploying and remotely running the images on the host. Analyzing how the UDP flood attack was orchestrated required an inspection of the binary with IDA. This revealed the start_flood and start_tick threads. The source code for the attack was found on Github. This code revealed a try_gb parameter, with the range of 0 to 1,024, used to configure how much data to input to flood the target. However, it was discovered that attackers are able to modify this open-source code to create a self-compiled binary that floods the host with even greater amounts of UDP packets. In the case of the Slowloris attack, cybercriminals launched DDoS with the slowhttptest utility. The attackers were able to create a self-compiling binary that is unidentifiable in malware scans. Protection from these Kubernetes attacks requires vigilant assurance policies and prevention of images other than compliant ones to run in the system. Non-compliant images will then be blocked when intrusion attempts are made. Man in the Middle Attacks With LoadBalancer or ExternalIPs An attack affecting all versions of Kubernetes involves multi-tenant clusters. The most vulnerable clusters have tenants that are able to create and update services and pods. In this breach, the attacker can intercept traffic from other pods or nodes in the cluster by creating a ClusterIP service and setting the spec.externalIP’s field. Additionally, a user who is able to patch the status of a LoadBalancer service can grab traffic. The only way to mitigate this threat is to restrict access to vulnerable features. This can be done with the admission webhook container, externalip-webhook , which prevents services from using random external IPs. An alternative method is to lock external IPs with OPA Gatekeeper with this sample Constraint Templatecan. Siloscape Malware Security researcher, Daniel Prizmant, describes a newer malware attack that he calls Siloscape. Its primary goal is to escape the container that is mainly implemented in Windows server silo. The malware targets Kubernetes through Windows containers to open a backdoor into poorly configured clusters to run the malicious containers. While other malware attacks focus on cryptojacking, the Siloscape user’s motive is to go undetected and open a backdoor to the cluster for a variety of malicious activities. This is possible since Siloscape is virtually undetectable due to a lack of readable strings in the binary. This type of attack can prove catastrophic. It compromises an entire cluster running multiple cloud applications. Cybercriminals can access critical information including sign-ins, confidential files, and complete databases hosted inside the cluster. Additionally, organizations using Kubernetes clusters for testing and development can face catastrophic damage should these environments be breached. To prevent a Siloscape attack, it is crucial that administrators ensure their Kubernetes clusters are securely configured. This will prevent the malware from creating new deployments and force Siloscape to exit. Microsoft also recommends using only Hyper-V containers as a security boundary for anything relying on containerization. The Threat Matrix The MITRE ATT&CK database details additional tactics and techniques attackers are using to infiltrate Kubernetes environments to access sensitive information, mine cryptocurrency, perform DDoS attacks, and other unscrupulous activities. The more commonly used methods are as follows: 1. Kubernetes file compromise Because this file holds sensitive data such as cluster credentials, an attacker could easily gain initial access to the entire cluster. Only accept kubeconfig files from trusted sources. Others should be thoroughly inspected before they are deployed. 2. Using similar pod names Attackers create similar pod names and use random suffixes to hide them in the cluster. The pods then run malicious code and obtain access to many other resources. 3. Kubernetes Secrets intrusion Attackers exploit any misconfigurations in the cluster with the goal of accessing the API server and retrieving information from the Secrets objects. 4. Internal network access Attackers able to access a single pod that communicates with other pods or applications can move freely within the cluster to achieve their goals. 5. Using the writeable hostPath mount Attackers with permissions to create new containers can create one with a writeable hostPath volume. Kubernetes Attacks: Key Takeaways Kubernetes brings many advantages to organizations but also presents a variety of security risks, as documented above. However, by ensuring their environments are adequately protected through proper configuration and appropriately assigned permissions, the threat of Kubernetes attacks is greatly minimized. Should a container be compromised, properly assigned privileges can severely limit a cluster-wide compromise. Prevasio assists companies in the management of their cloud security through built-in vulnerability and anti-malware scans for containers. Contact us for more information on our powerful CSPM solutions. Learn about how we can protect your company from Kubernetes attacks and other cyberattacks. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? 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