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Ensure your network security is up to par with a comprehensive firewall audit checklist. Review and optimize security policy rules to prevent vulnerabilities. Firewall audit checklist for security policy rules review Ensuring continuous compliance More regulations and standards relating to information security, such as the Payment Card Industry Data Security Standard (PCI-DSS), the General Data Protection Regulation (GDPR), Sarbanes-Oxley (SOX), Health Insurance Portability and Accountability Act (HIPAA), California Consumer Privacy Act (CCPA) and ISO 27001, have forced enterprises to put more emphasis—in terms of time and money—on compliance and the regular and ad hoc auditing of security policies and controls. While regulatory and internal audits cover a broad range of security checks, the firewall is featured prominently since it is the first and main line of defense between the public and the corporate network. The number of enterprises that are not affected by regulations is shrinking. But even if you do not have to comply with specific government or industrial regulations and security standards, it is now commonplace to conduct regular, thorough audits of your firewalls. Not only do these audits ensure that your firewall configurations and rules meet the proper requirements of external regulations or internal security policy, but these audits can also play a critical role in reducing risk and actually improve firewall performance by optimizing the firewall rule base. In today’s complex, multi-vendor network environments, typically including tens or hundreds of firewalls running thousands of rules, completed a manual security audit now borders on the impossible. Conducting the audit process manually, firewall administrators must rely on their own experience and expertise—which can vary greatly across organizations—to determine if a given firewall rule should or should not be included in the configuration file. Furthermore, documentation of current rules and their evolution of changes is usually lacking. The time and resources required to find, organize and pour through all of the firewall rules to determine the level of compliance significantly impacts IT staff. As networks grow in complexity, auditing becomes more cumbersome. Manual processes cannot keep up. Automating the firewall audit process is crucial as compliance must be continuous, not simply at a point in time. The firewall audit process is arduous. Each new rule must pre-analyzed and simulated before it can be implemented. A full and accurate audit log of each change must be maintained. Today’s security staffs now find that being audit-ready without automation is impractical if not virtually impossible. It’s time to look to automation along with the establishment of auditing best practices to maintain continuous compliance. Below, we share a proven checklist of six best practices for a firewall audits based on AlgoSec’s extensive experience in consulting with some of the largest global organizations and auditors who deal with firewall audit, optimization and change management processes and procedures. While this is not an exhaustive list that every organization must follow, it provides guidance on some critical areas to cover when conducting a firewall audit. FIGURE 1: Overview of the Recommended Firewall Audit Process Get a Demo Schedule a Demo Gather key information prior to starting the audit An audit has little chance of success without visibility into the network, including software, hardware, policies and risks. The following are examples of the key information required to plan the audit work: Copies of relevant security policies Access to firewall logs that can be analyzed against the firewall rule base to understand which rules are actually being used An accurate diagram of the current network and firewall topologies Reports and documents from previous audits, including firewall rules, objects and policy revisions Identification of all Internet Service Providers (ISP) and Virtual Private Networks (VPN) All relevant firewall vendor information including OS version, latest patches and default configuration Understanding all the key servers and information repositories in the network and the value of each Once you have gathered this information, how are you going to aggregate it and storing it? Trying to track compliance on spreadsheets is a surefire way to make the audit process painful, tedious and time-consuming. Instead of spreadsheets, the auditor needs to document, store and consolidate this vital information in a way that enables collaboration with IT counterparts. With this convenience access, auditors you can start reviewing policies and procedures and tracking their effectiveness in terms of compliance, operational efficiency and risk mitigation. Schedule a Demo Review the change management process A good change management process is essential to ensure proper execution and traceability of firewall changes as well as for sustainability over time to ensure compliance continuously. Poor documentation of changes, including why each change is needed, who authorized the change, etc. and poor validation of the impact on the network of each change are two of the most common problems when it comes to change control. Review the procedures for rule-base change management. Just a few key questions to review include:Are requested changes going through proper approvals? Are changes being implemented by authorized personnel? Are changes being tested? Are changes being documented per regulatory and/ or internal policy requirements? Each rule should have a comment that includes the change ID of the request and the name/initials of the person who implemented the change. Is there an expiration date for the change? Determine if there is a formal and controlled process in place to request, review, approve and implement firewall changes. This process should include at least the following:Business purpose for a change request Duration (time period) for new/modified rule Assessment of the potential risks associated with the new/modified rule Formal approvals for new/modified rule Assignment to proper administrator for implementation Verification that change has been tested and implemented correctly Determine whether all of the changes have been authorized and flag unauthorized rule changes for further investigation. Determine if real-time monitoring of changes to a firewall are enabled and if access to rul Schedule a Demo Audit the firewall’s physical and OS security It is important to be certain as to each firewall’s physical and software security to protect against the most fundamental types of cyberattack. Ensure that firewall and management servers are physically secured with controlled access. Ensure that there is a current list of authorized personnel permitted to access the firewall server rooms. Verify that all appropriate vendor patches and updates have been applied. Ensure that the operating system passes common hardening checklists. Review the procedures used for device administration. Schedule a Demo Cleanup and optimize the rule base Removing firewall clutter and optimizing the rule base can greatly improve IT productivity and firewall performance. Additionally, optimizing firewall rules can significantly reduce a lot of unnecessary overhead in the audit process. Delete covered rules that are effectively useless. Delete or disable expired and unused rules and objects. Identify disabled, time-inactive and unused rules that are candidates for removal. Evaluate the order of firewall rules for effectiveness and performance. Remove unused connections, including source/ destination/service routes, that are not in use. Detect similar rules that can be consolidated into a single rule. Identify overly permissive rules by analyzing the actual policy usage against firewall logs. Tune these rules as appropriate for policy and actual use scenarios. Analyze VPN parameters to identify unused users, unattached users, expired users, users about to expire, unused groups, unattached groups and expired groups. Enforce object-naming conventions. Document rules, objects and policy revisions for future reference. Schedule a Demo Conduct a risk assessment and remediate issues Essential for any firewall audit, a comprehensive risk assessment will identify risky rules and ensure that rules are compliant with internal policies and relevant standards and regulations. Identify any and all potentially “risky” rules, based on industry standards and best practices, and prioritize them by severity. What is “risky” can be different for each organization depending on the network and the level of acceptable risk, but there are many frameworks and standards you can leverage that provide a good reference point. A few things to look for and validate include: Are there firewall rules that violate your corporate security policy? Are there any firewall rules with “ANY” in the source, destination, service/protocol, application or user fields, and with a permissive action? Are there rules that allow risky services from your DMZ to your internal network? Are there rules that allow risky services inbound from the Internet? Are there rules that allow risky services outbound to the Internet? Are there rules that allow direct traffic from the Internet to the internal network (not the DMZ)? Are there any rules that allow traffic from the Internet to sensitive servers, networks, devices or databases? Analyze firewall rules and configurations against relevant regulatory and/or industry standards such as PCI-DSS, SOX, ISO 27001, NERC CIP, Basel-II, FISMA and J-SOX, as well as corporate policies that define baseline hardware and software configurations to which devices must adhere (See Figure 4 on page 9). Document and assign an action plan for remediation of risks and compliance exceptions found in risk analysis. Verify that remediation efforts and any rule changes have been completed correctly. Track and document that remediation efforts are completed. Schedule a Demo Ongoing audits Upon successful firewall and security device auditing, verifying secure configuration, proper steps must be put in place to ensure continuous compliance. Ensure that a process is established for continuous auditing of firewalls. Consider replacing error-prone manual tasks with automated analysis and reporting. Ensure that all audit procedures are properly documented, providing a complete audit trail of all firewall management activities. Make sure that a robust firewall-change workflow is in place to sustain compliance over time.This repeats Audit Checklist item #2 because is necessary to ensure continuous compliance, i.e., compliance might be achieved now, but in a month, the organization might once again be out of compliance. Ensure that there is an alerting system in place for significant events or activities, such as changes in certain rules or the discovery of a new, high severity risk in the policy. Schedule a Demo Automating firewall compliance audits with AlgoSec When it comes to compliance, the firewall policy management solution must have the breadth and depth to automatically generate detailed reports for multiple regulations and standards. It also must support multiple firewalls and related security devices. By combining this firewall audit checklist with the AlgoSec Security Management Solution, organizations can significantly improve their security posture and reduce the pain of ensuring compliance with regulations, industry standards and corporate policies. Furthermore, they can ensure compliance continuously without spending significant resources wasting time and effort on complex security policies on a regular basis. Let’s go back through the checklist and look at a few examples of how AlgoSec can help. Gain visibility of network policies and their changes AlgoSec enables you to gather the key information needed to start the audit process. By generating a dynamic, interactive network map AlgoSec visualizes and helps you analyze complex networks. (See Figure 2.) You can view routing tables and effectively detect interfaces, subnets and zones. Additionally, AlgoSec provides you with visibility of all changes to your network security policies in real-time and creates detailed firewall audit reports to help approvers make informed decisions about changes that affect risk or compliance levels. Lastly, AlgoSec discovers all the business applications that run on your network and each of their associated connectivity flows. FIGURE 2: AlgoSec provides network topology awareness with a map that provides visibility of all firewalls and routers including all relevant interfaces, subnets and zones, and the ability to drill down to specific information about each device. Understand the firewall changes in your network and automate the process AlgoSec intelligently automates the security-policy change workflow, dramatically cutting the time required to process firewall changes, increasing accuracy and accountability, enforcing compliance and mitigating risk. In addition, AlgoSec provides flexible workflows and templates to help you manage change requests and tailor processes to your business needs. Clean up and optimize your rule base AlgoSec enables you to optimize and clean up cluttered policies with actionable recommendations to: Consolidate similar rules. Discover and remove unused rules and objects (See Figure 3). Identify and remove shadowed, duplicate, and expired rules. Reorder rules for optimal firewall performance while retaining policy logic. Tighten overly permissive rules based on actual usage patterns. Not only does this help you improve the performance and extend the life of your firewalls, it also saves time when it comes to troubleshooting issues and IT audits. Plus, it creates a time savings during rule recertification, as each application is associated with multiple connectivity needs requiring multiple firewall rules. FIGURE 3: Unused rules that AlgoSec has identified for removal. Conduct a risk assessment and remediate issues AlgoSec enables you to instantly discover and prioritize all risks and potentially risky rules in the firewall policy, leveraging the largest risk knowledgebase available. The knowledgebase includes industry regulations, best practices and customizable corporate security policies. AlgoSec assigns and tracks a security rating for each device and group of devices to help you to quickly pinpoint devices that require attention and to measure the effectiveness of a security policy over time. FIGURE 4: AlgoSec identifies and prioritizes risky rules based on industry standards and frameworks and provides detailed information of source, destination, service, as well as user and application when analyzing next-generation firewalls. Out-of-the-box compliance reports AlgoSec ensures continuous compliance and instantly provides you with a view of your firewall compliance status by automatically generating reports for industry regulations, including Payment Card Industry Data Security Standard (PCI DSS), GDPR, Sarbanes-Oxley (SOX), Financial Instruments and Exchange Act (J-SOX, also known as Japan-SOX), North American Electric Reliability Corporation Critical Infrastructure Protection (NERC CIP), and International Organization for Standardization (ISO 20071). If the network security policy doesn’t adhere to regulatory or corporate standards, the reports identify the exact rules and devices that cause gaps in compliance. A single report provides visibility into risk and compliance associated with a group of devices. FIGURE 5: PCI DSS firewall compliance report automatically generated by AlgoSec. Schedule a Demo Conclusion Ensuring and proving compliance typically require significant organizational resources and budget. With the growing litany of regulations, the cost and time involved in the audit process is increasing rapidly. Armed with the firewall audit checklist and with the AlgoSec security policy management solution you can: Reduce the time required for an audit — Manual reviews can take a significant amount of time to produce a report for each firewall in the network. AlgoSec aggregates data across a defined group of firewalls and devices for a unified compliance view, doing away with running reports for each device, thereby saving a tremendous amount of time and effort that is wasted on collating individual device reports. AlgoSec enables you to produce a report in minutes, reducing time and effort by as much as 80%. Improve compliance while reducing costs — As the auditor’s time to gather pertinent information and analyze the network security status is reduced, the total cost of the audit decreases substantially. AlgoSec facilitates the remediation of non-compliant items by providing actionable information that further reduces the time to re- establish a compliant state. Schedule a Demo Select a size Ensuring continuous compliance Gather key information prior to starting the audit Review the change management process Audit the firewall’s physical and OS security Cleanup and optimize the rule base Conduct a risk assessment and remediate issues Ongoing audits Automating firewall compliance audits with AlgoSec Conclusion Get the latest insights from the experts Choose a better way to manage your network

Empower your cloud security posture with AlgoSec s Prevasio CSPM Achieve compliance and peace of mind Dive deeper now Cloud security posture management (CSPM) Real-time monitoring for comprehensive cloud security Schedule a demo Watch a video Watch a video Remove blind spots and take control of your multi-cloud Uncover all services and resources within your multi-cloud environment. Supporting Amazon AWS , Microsoft Azure and Google GCP, Prevasio scans a comprehensive range of asset classes such as Lambda functions, S3 buckets, Azure VMs and 60 other cloud service assets. Prioritize risks and misconfigurations to focus on what's critical Thousands of alerts are generated by over 600 CSPM alert types at the asset, service and aggregated levels. Build a prioritized risk list according to CIS Benchmarks to make sense of the deluge of alerts and misconfigurations. Confidently meet compliance requirements With Prevasio , compliance posture is constantly being assessed through continuous monitoring of cloud assets. Organizations can prioritize data security and adhere to regulatory frameworks such as PCI-DSS and HIPAA . Close the loop on your risk mitigation through Jira integration Turn Prevasio CSPM alerts into Jira tasks to ensure a streamlined approach to risk mitigation. Empower collaborative efforts between teams to address and resolve security posture issues. Get the latest insights from the experts What is a Cloud Security Assessment? Read blog Shaping tomorrow: Leading the way in cloud security Read blog CSPM importance for CISOs. What security issues can be prevented\defended with CSPM? Read blog Schedule time and secure your cloud Schedule time and secure your cloud 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

Algosec AppViz provides clear visibility into application connectivity, ensuring optimal security and simplifying network management. AppViz: Discover, visualize and secure application connectivity Secure application connectivity across the hybrid network Schedule a demo Securing your application is securing your business Organizations face complex challenges in managing security across hybrid environments, leading to potential vulnerabilities and compliance risks. AlgoSec offers a comprehensive solution that provides deep visibility, automates security changes, and ensures continuous compliance. Our platform integrates seamlessly with your existing infrastructure, enabling you to: Streamline Security Policies Reduce manual interventions and accelerate application delivery Enhance Visibility Gain a unified view of your network's security posture Ensure Compliance Stay ahead of regulatory requirements with automated compliance checks Prioritize risks Prioritizes risks based on application criticality, risk severity, and threat exposure AppViz allows you to scale, secure, and simplify hybrid network security AppViz’s application first approach simplifies hybrid network security with: Visualize application connectivity AppViz automatically identifies application dependencies and traffic flows across hybrid networks. It enables a unified view of business application flows, spanning on-premises data centers and multi-cloud environments. Learn more Prioritize risk on context AppViz doesn’t just show vulnerabilities; it reveals them through a business lens, mapping them directly to the critical applications that underpin a company’s operations. Learn more Ensure Application-centric compliance Real-time visibility into compliance status across hybrid environments helps organizations stay ahead of regulatory demands. AppViz allow application recertification workflows that ensure tracking of compliance expiration dates without manual intervention, reducing audit preparation time by eliminating the need for rule-by-rule recertification. Learn more Automated change management Manual change-management processes can be error-prone and inefficient. To streamline security policy updates, it is essential to analyze the impact of planned network changes before implementation. Automating security policy changes reduces errors and accelerates processes. Integrating security, DevOps, and IT teams into a collaborative workflow enhances efficiency, while proactively addressing security risks helps lower change-request rejection rates. Learn more “The key is understanding your applications; if you don’t understand your applications fully, you can’t manage them, and you can’t reduce the risk around them” “Preparing for audits became 50% faster with AppViz” “We reduced change request rejections from 10% to 0%” Don’t just take our word for it 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

In the fast-paced world of technology, where innovation drives success, organizations find themselves in a perpetual race to enhance... Application Connectivity Management Navigating the complex landscape of dynamic app security with AlgoSec AppViz Malcom Sargla 2 min read Malcom Sargla 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 8/10/23 Published In the fast-paced world of technology, where innovation drives success, organizations find themselves in a perpetual race to enhance their applications, captivate customers, and stay ahead of the competition. But as your organization launches its latest flagship CRM solution after months of meticulous planning, have you considered what happens beyond Day 0 or Day 1 of the rollout? Picture this: your meticulously diagrammed application architecture is in place, firewalls are fortified, and cloud policies are strategically aligned. The application tiers are defined, the flows are crystal clear, and security guardrails are firmly established to safeguard your prized asset. The stage is set for success – until the application inevitably evolves, communicates, and grows. This dynamic nature of applications presents a new challenge: ensuring their security, compliance, and optimal performance while navigating a complex web of relationships. Do you know who your Apps are hanging out with? Enter AlgoSec AppViz – the game-changing solution that unveil the hidden intricacies of your application ecosystem, ensuring a secure and accelerated application delivery process. In a world where agility, insights, and outcomes reign supreme, AppViz offers a revolutionary approach to handling application security. The urgent need for application agility In a landscape driven by customer demands, competitive advantages, and revenue growth, organizations can’t afford to rest on their laurels. However, as applications become increasingly complex, managing them becomes a monumental task: – Infrastructure Complexity: Juggling on-premises, cloud, and multi-vendor solutions is a daunting endeavor. – Conflicting Demands: Balancing the needs of development, operations, and management often leads to a tug-of-war. – Rising Customer Expectations: Meeting stringent time-to-market and feature release demands becomes a challenge. – Resource Constraints : A scarcity of application, networking, and security resources hampers progress. – Instant Global Impact: A single misstep in application delivery or performance can be broadcasted worldwide in seconds. – Unseen Threats: Zero-day vulnerabilities and ever-evolving threat landscapes keep organizations on edge. The high stakes of ignoring dynamic application management Failure to adopt a holistic and dynamic approach to application delivery and security management can result in dire consequences for your business: – Delayed Time-to-Market: Lags in application deployment can translate to missed opportunities and revenue loss. – Revenue Erosion: Unsatisfied customers and delayed releases can dent your bottom line. – Operational Inefficiencies: Productivity takes a hit as resources are wasted on inefficient processes. – Wasted Investments: Ill-informed decisions lead to unnecessary spending. – Customer Dissatisfaction: Poor application experiences erode customer trust and loyalty. – Brand Erosion: Negative publicity from application failures tarnishes your brand image. – Regulatory Woes: Non-compliance and governance violations invite legal repercussions. The AlgoSec AppViz advantage So, how does AppViz address these challenges and fortify your application ecosystem? Let’s take a closer look at its groundbreaking features: – Dynamic Application Learning: Seamlessly integrates with leading security solutions to provide real-time insights into application paths and relationships. – Real-time Health Monitoring: Instantly detects and alerts you to unhealthy application relationships. – Intelligent Policy Management: Streamlines security policy control, ensuring compliance and minimizing risk. – Automated Provisioning: Safely provisions applications with verified business requirements, eliminating uncertainty. – Micro-Segmentation Mastery: Enables precise micro-segmentation, enhancing security without disrupting functionality. – Vulnerability Visibility: Identifies and helps remediate vulnerabilities within your business-critical applications. In a world where application agility is paramount, AlgoSec AppViz emerges as the bridge between innovation and security. With its robust features and intelligent insights, AppViz empowers organizations to confidently navigate the dynamic landscape of application security, achieving business outcomes that set them apart in a fiercely competitive environment. Request a demo and embrace the future of application agility – embrace AlgoSec AppViz. Secure, accelerate, and elevate your application delivery today. Schedule a demo Related Articles Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Convergence didn’t fail, compliance did. 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

As your organization adopts a hybrid IT infrastructure, there are more ways for hackers to steal your sensitive data. This is why cloud... Cloud Security Cloud Application Security: Threats, Benefits, & Solutions 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 6/29/23 Published As your organization adopts a hybrid IT infrastructure, there are more ways for hackers to steal your sensitive data. This is why cloud application security is a critical part of data protection. It allows you to secure your cloud-based applications from cyber threats while ensuring your data is safe. This post will walk you through cloud application security, including its importance. We will also discuss the main cloud application security threats and how to mitigate them. What is Cloud Application Security Cloud application security refers to the security measures taken to protect cloud-based assets throughout their development lifecycle. These security measures are a framework of policies, tools, and controls that protect your cloud against cyber threats. Here is a list of security measures that cloud application security may involve: Compliance with industry standards such as CIS benchmarks to prevent data breaches. Identity management and access controls to prevent unauthorized access to your cloud-based apps. Data encryption and tokenization to protect sensitive data. Vulnerability management through vulnerability scanning and penetration testing. Network perimeter security, such as firewalls, to prevent unwanted access. The following are some of the assets that cloud security affects: Third-party cloud providers like Amazon AWS, Microsoft Azure, and Google GCP. Collaborative applications like Slack and Microsoft Teams. Data Servers. Computer Networks. Why is Cloud Application Security Important Cloud application security is becoming more relevant as businesses migrated their data to the cloud in recent years. This is especially true for companies with a multi-cloud environment. These types of environments create a larger attack surface for hackers to exploit. According to IBM , the cost of a data breach in 2022 was $4.35 million. And this represents an increase of 2.6% from the previous year. The report also revealed that it took an average of 287 days to find and stop a data breach in a cloud environment. This time is enough for hackers to steal sensitive data and really damage your assets. Here are more things that can go wrong if organizations don’t pay attention to cloud security: Brand image damage: A security breach may cause a brand’s reputation to suffer and a decline in client confidence. During a breach, your company’s servers may be down for days or weeks. This means customers who paid for your services will not get access in that time. They may end up destroying your brand’s image through word of mouth. Lost consumer trust: Consumer confidence is tough to restore after being lost due to a security breach. Customers could migrate to rivals they believe to be more secure. Organizational disruption: A security breach may cause system failures preventing employees from working. This, in turn, could affect their productivity. You may also have to fire employees tasked with ensuring cloud security. Data loss: You may lose sensitive data, such as client information, resulting in legal penalties. Trade secrets theft may also affect the survival of your organization. Your competitors may steal your only leverage in the industry. Compliance violations: You may be fined for failing to comply with industry regulations such as GDPR. You may also face legal consequences for failing to protect consumer data. What are the Major Cloud Application Security Threats The following is a list of the major cloud application security threats: Misconfigurations: Misconfigurations are errors made when setting up cloud-based applications. They can occur due to human errors, lack of expertise, or mismanagement of cloud resources. Examples include weak passwords, unsecured storage baskets, and unsecured ports. Hackers may use these misconfigurations to access critical data in your public cloud. Insecure data sharing: This is the unauthorized or unintended sharing of sensitive data between users. Insecure data sharing can happen due to a misconfiguration or inappropriate access controls. It can lead to data loss, breaches, and non-compliance with regulatory standards. Limited visibility into network operations: This is the inability to monitor and control your cloud infrastructure and its apps. Limited network visibility prevents you from quickly identifying and responding to cyber threats. Many vulnerabilities may go undetected for a long time. Cybercriminals may exploit these weak points in your network security and gain access to sensitive data. Account hijacking: This is a situation where a hacker gains unauthorized access to a legitimate user’s cloud account. The attackers may use various social engineering tactics to steal login credentials. Examples include phishing attacks, password spraying, and brute-force attacks. Once they access the user’s cloud account, they can steal data or damage assets from within. Employee negligence and inadequately trained personnel: This threat occurs when employees are not adequately trained to recognize, report and prevent cyber risks. It can also happen when employees unintentionally or intentionally engage in risky behavior. For example, they could share login credentials with unauthorized users or set weak passwords. Weak passwords enable attackers to gain entry into your public cloud. Rogue employees can also intentionally give away your sensitive data. Compliance risks: Your organization faces cloud computing risks when non-compliant with industry regulations such as GDPR, PCI-DSS, and HIPAA. Some of these cloud computing risks include data breaches and exposure of sensitive information. This, in turn, may result in fines, legal repercussions, and reputational harm. Data loss: Data loss is a severe security risk for cloud applications. It may happen for several causes, including hardware malfunction, natural calamities, or cyber-attacks. Some of the consequences of data loss may be the loss of customer trust and legal penalties. Outdated security software: SaaS vendors always release updates to address new vulnerabilities and threats. Failing to update your security software on a regular basis may leave your system vulnerable to cyber-attacks. Hackers may exploit the flaws in your outdated SaaS apps to gain access to your cloud. Insecure APIs: APIs are a crucial part of cloud services but can pose a severe security risk if improperly secured. Insecure APIs and other endpoint infrastructure may cause many severe system breaches. They can lead to a complete system takeover by hackers and elevated privileged access. How to Mitigate Cloud Application Security Risks The following is a list of measures to mitigate cloud app security risks: Conduct a thorough risk analysis: This entails identifying possible security risks and assessing their potential effects. You then prioritize correcting the risks depending on their level of severity. By conducting risk analysis on a regular basis, you can keep your cloud environment secure. You’ll quickly understand your security posture and select the right security policies. Implement a firm access control policy: Access control policies ensure that only authorized users gain access to your data. They also outline the level of access to sensitive data based on your employees’ roles. A robust access control policy comprises features such as: Multi-factor authentication Role-based access control Least Privilege Access Strong password policies. Use encryption: Encryption is a crucial security measure that protects sensitive data in transit and at rest. This way, if an attacker intercepts data in transit, it will only be useful if they have a decryption key. Some of the cloud encryption solutions you can implement include: Advanced Encryption Standard (AES) Rivest -Shamir-Addleman (RSA) Transport Layer Security (TSL) Set up data backup and disaster recovery policies: A data backup policy ensures data is completely recovered in case of breaches. You can always recover the lost data from your data backup files. Data backup systems also help reduce the impact of cyberattacks as you will restore normal operations quickly. Disaster recovery policies focus on establishing protocols and procedures to restore critical systems during a major disaster. This way, your data security will stay intact even when disaster strikes. Keep a constant watch over cloud environments: Security issues in cloud settings can only be spotted through continuous monitoring. Cloud security posture management tools like Prevasio can help you monitor your cloud for such issues. With its layer analysis feature, you’ll know the exact area in your cloud and how to fix it. Test and audit cloud security controls regularly: Security controls help you detect and mitigate potential security threats in your cloud. Examples of security controls include firewalls, intrusion detection systems, and database encryption. Auditing these security controls helps to identify gaps they may have. And then you take corrective actions to restore their effectiveness. Regularly evaluating your security controls will reduce the risk of security incidents in your cloud. Implement a security awareness training program: Security awareness training helps educate employees on cloud best practices. When employees learn commonly overlooked security protocols, they reduce the risks of data breaches due to human error. Organize regular assessment tests with your employees to determine their weak points. This way, you’ll reduce chances of hackers gaining access to your cloud through tactics such as phishing and ransomware attacks. Use the security tools and services that cloud service providers offer: Cloud service providers like AWS, Azure, and Google Cloud Platform (GCP) offer security tools and services such as: Web application firewalls (WAF), Runtime application self-protection (RASP), Intrusion detection and prevention systems Identity and access management (IAM) controls You can strengthen the security of your cloud environments by utilizing these tools. However, you should not rely solely on these features to ensure a secure cloud. You also need to implement your own cloud security best practices. Implement an incident response strategy: A security incident response strategy describes the measures to take during a cyber attack. It provides the procedures and protocols to bring the system back to normal in case of a breach. Designing incident response plans helps to reduce downtime. It also minimizes the impact of the damages due to cyber attacks. Apply the Paved Road Security Approach in DevSecOps Processes: DevSecOps environments require security to be integrated into development workflows and tools. This way, cloud security becomes integral to an app development process. The paved road security approach provides a secure baseline that DevSecOps can use for continuous monitoring and automated remediation. Automate your cloud application security practices Using on-premise security practices such as manual compliance checks to mitigate cloud application security threats can be tiring. Your security team may also need help to keep up with the updates as your cloud needs grow. Cloud vendors that can automate all the necessary processes to maintain a secure cloud. They have cloud security tools to help you achieve and maintain compliance with industry standards. You can improve your visibility into your cloud infrastructures by utilizing these solutions. They also spot real-time security challenges and offer remediations. For example, Prevasio’s cloud security solutions monitor cloud environments continually from the cloud. They can spot possible security threats and vulnerabilities using AI and machine learning. What Are Cloud Application Security Solutions? Cloud application security solutions are designed to protect apps and other assets in the cloud. Unlike point devices, cloud application security solutions are deployed from the cloud. This ensures you get a comprehensive cybersecurity approach for your IT infrastructure. These solutions are designed to protect the entire system instead of a single point of vulnerability. This makes managing your cybersecurity strategy easier. Here are some examples of cloud security application solutions: 1. Cloud Security Posture Management (CSPM) : CSPM tools enable monitoring and analysis of cloud settings for security risks and vulnerabilities. They locate incorrect setups, resources that aren’t compliant, and other security concerns that might endanger cloud infrastructures. 2. The Cloud Workload Protection Platform (CWPP) : This cloud application security solution provides real-time protection for workloads in cloud environments . It does this by detecting and mitigating real-time threats regardless of where they are deployed. CWPP solutions offer various security features, such as: Network segmentation File integrity monitoring Vulnerability scanning. Using CWPP products will help you optimize your cloud application security strategy. 3. Cloud Access Security Broker (CASB) : CASB products give users visibility into and control over the data and apps they access in the cloud. These solutions help businesses enforce security guidelines and monitor user behavior in cloud settings. The danger of data loss, leakage, and unauthorized access is lowered in the process. CASB products also help with malware detection. 4. Runtime Application Self Protection (RASP): This solution addresses security issues that may arise while a program is working. It identifies potential threats and vulnerabilities during runtime and thwarts them immediately. Some of the RASP solutions include: Input validation Runtime hardening Dynamic Application Security testing 5. Web Application and API protection (WAAP) : These products are designed to protect your organization’s Web applications and APIs. They monitor outgoing and incoming web apps and API traffic to detect malicious activity. WAAP products can block any unauthorized access attempts. They can also protect against cyber threats like SQL injection and Cross-site scripting. 6. Data Loss Prevention (DLP): DLP products are intended to stop the loss or leaking of private information in cloud settings. These technologies keep track of sensitive data in use and at rest. They can also enforce rules to stop unauthorized people from losing or accessing it. 7. Security Information and Event Management (SIEM) systems : SIEM systems track and analyze real-time security incidents and events in cloud settings. The effect of security breaches is decreased thanks to these solutions. They help firms in detecting and responding to security issues rapidly. Cloud Native Application Protection Platform (CNAPP) The CNAPP, which Prevasio created, raises the bar for cloud security. It combines CSPM, CIEM, IAM, CWPP, and more in one tool. A CNAPP delivers a complete security solution with sophisticated threat detection and mitigation capabilities for packaged workloads, microservices, and cloud-native applications. The CNAPP can find and eliminate security issues in your cloud systems before hackers can exploit them. With its layer analysis feature, you can quickly fix any potential vulnerabilities in your cloud . It pinpoints the exact layer of code where there are errors, saving you time and effort. CNAPP also offers a visual dynamic analysis of your cloud environment . This lets you grasp the state of your cloud security at a glance. In the process, saving you time as you know exactly where to go. CNAPP is also a scalable cloud security solution. The cloud-native design of Prevasio’s CNAPP enables it to expand dynamically and offer real-time protection against new threats. Let Prevasio Solve Your Cloud Application Security Needs Cloud security is paramount to protecting sensitive data and upholding a company’s reputation in the modern digital age. To be agile to the constantly changing security issues in cloud settings, Prevasio’s Cloud Native Application Protection Platform (CNAPP) offers an all-inclusive solution. From layer analysis to visual dynamic analysis, CNAPP gives you the tools you need to keep your cloud secure. You can rely on Prevasio to properly manage your cloud application security needs. Try Prevasio today! Schedule a demo Related Articles Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Convergence didn’t fail, compliance did. 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

Update : Next two parts of the analysis are available here and here . As earlier reported by FireEye, the actors behind a global... Cloud Security Sunburst Backdoor: A Deeper Look Into The SolarWinds’ Supply Chain Malware 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 12/15/20 Published Update : Next two parts of the analysis are available here and here . As earlier reported by FireEye, the actors behind a global intrusion campaign have managed to trojanise SolarWinds Orion business software updates in order to distribute malware. The original FireEye write-up already provides a detailed description of this malware. Nevertheless, as the malicious update SolarWinds-Core-v2019.4.5220-Hotfix5.msp was still available for download for hours since the FireEye’s post, it makes sense to have another look into the details of its operation. The purpose of this write-up is to provide new information, not covered in the original write-up. Any overlaps with the original description provided by FireEye are not intentional. For start, the malicious component SolarWinds.Orion.Core.BusinessLayer.dll inside the MSP package is a non-obfuscated .NET assembly. It can easily be reconstructed with a .NET disassembler, such as ILSpy , and then fully reproduced in C# code, using Microsoft Visual Studio. Once reproduced, it can be debugged to better understand how it works. In a nutshell, the malicious DLL is a backdoor. It is loaded into the address space of the legitimate SolarWinds Orion process SolarWinds.BusinessLayerHost.exe or SolarWinds.BusinessLayerHostx64.exe . The critical strings inside the backdoor’s class SolarWinds.Orion.Core.BusinessLayer.OrionImprovementBusinessLayer are encoded with the DeflateStream Class of the .NET’s System.IO.Compression library, coupled with the standard base64 encoder. Initialisation Once loaded, the malware checks if its assembly file was created earlier than 12, 13, or 14 days ago. The exact number of hours it checks is a random number from 288 to 336. Next, it reads the application settings value ReportWatcherRetry . This value keeps the reporting status, and may be set to one of the states: New (4) Truncate (3) Append (5) When the malware runs the first time, its reporting status variable ReportWatcherRetry is set to New (4) . The reporting status is an internal state that drives the logic. For example, if the reporting status is set to Truncate , the malware will stop operating by first disabling its networking communications, and then disabling other security tools and antivirus products. In order to stay silent, the malware periodically falls asleep for a random period of time that varies between 30 minutes and 2 hours. At the start, the malware obtains the computer’s domain name . If the domain name is empty, the malware quits. It then generates a 8-byte User ID, which is derived from the system footprint. In particular, it is generated from MD5 hash of a string that consists from the 3 fields: the first or default operational (can transmit data packets) network interface’s physical address computer’s domain name UUID created by Windows during installation (machine’s unique ID) Even though it looks random, the User ID stays permanent as long as networking configuration and the Windows installation stay the same. Domain Generation Algorithm The malware relies on its own CryptoHelper class to generate a domain name. This class is instantiated from the 8-byte User ID and the computer’s domain name, encoded with a substitution table: “rq3gsalt6u1iyfzop572d49bnx8cvmkewhj” . For example, if the original domain name is “ domain “, its encoded form will look like: “ n2huov “. To generate a new domain, the malware first attempts to resolve domain name “ api.solarwinds.com “. If it fails to resolve it, it quits. The first part of the newly generated domain name is a random string, produced from the 8-byte User ID, a random seed value, and encoded with a custom base64 alphabet “ph2eifo3n5utg1j8d94qrvbmk0sal76c” . Because it is generated from a random seed value, the first part of the newly generated domain name is random. For example, it may look like “ fivu4vjamve5vfrt ” or “ k1sdhtslulgqoagy “. To produce the domain name, this string is then appended with the earlier encoded domain name (such as “ n2huov “) and a random string, selected from the following list: .appsync-api.eu-west-1[.]avsvmcloud[.]com .appsync-api.us-west-2[.]avsvmcloud[.]com .appsync-api.us-east-1[.]avsvmcloud[.]com .appsync-api.us-east-2[.]avsvmcloud[.]com For example, the final domain name may look like: fivu4vjamve5vfrtn2huov[.]appsync-api.us-west-2[.]avsvmcloud[.]com or k1sdhtslulgqoagyn2huov[.]appsync-api.us-east-1[.]avsvmcloud[.]com Next, the domain name is resolved to an IP address, or to a list of IP addresses. For example, it may resolve to 20.140.0.1 . The resolved domain name will be returned into IPAddress structure that will contain an AddressFamily field – a special field that specifies the addressing scheme. If the host name returned in the IPAddress structure is different to the queried domain name, the returned host name will be used as a C2 host name for the backdoor. Otherwise, the malware will check if the resolved IP address matches one of the patterns below, in order to return an ‘address family’: IP Address Subnet Mask ‘Address Family’ 10.0.0.0 255.0.0.0 Atm 172.16.0.0 255.240.0.0 Atm 192.168.0.0 255.255.0.0 Atm 224.0.0.0 240.0.0.0 Atm fc00:: fe00:: Atm fec0:: ffc0:: Atm ff00:: ff00:: Atm 41.84.159.0 255.255.255.0 Ipx 74.114.24.0 255.255.248.0 Ipx 154.118.140.0 255.255.255.0 Ipx 217.163.7.0 255.255.255.0 Ipx 20.140.0.0 255.254.0.0 ImpLink 96.31.172.0 255.255.255.0 ImpLink 131.228.12.0 255.255.252.0 ImpLink 144.86.226.0 255.255.255.0 ImpLink 8.18.144.0 255.255.254.0 NetBios 18.130.0.0 255.255.0.0 NetBios 71.152.53.0 255.255.255.0 NetBios 99.79.0.0 255.255.0.0 NetBios 87.238.80.0 255.255.248.0 NetBios 199.201.117.0 255.255.255.0 NetBios 184.72.0.0 255.254.0.0 NetBios For example, if the queried domain resolves to 20.140.0.1 , it will match the entry in the table 20.140.0.0 , for which the returned ‘address family’ will be ImpLink . The returned ‘address family’ invokes an additional logic in the malware. Disabling Security Tools and Antivirus Products If the returned ‘address family’ is ImpLink or Atm , the malware will enumerate all processes and for each process, it will check if its name matches one of the pre-defined hashes. Next, it repeats this processed for services and for the drivers installed in the system. If a process name or a full path of an installed driver matches one of the pre-defined hashes, the malware will disable it. For hashing, the malware relies on Fowler–Noll–Vo algorithm. For example, the core process of Windows Defender is MsMpEng.exe . The hash value of “ MsMpEng ” string is 5183687599225757871 . This value is specifically enlisted the malware’s source under a variable name timeStamps : timeStamps = new ulong[1] { 5183687599225757871uL } The service name of Windows Defender is windefend – the hash of this string ( 917638920165491138 ) is also present in the malware body. As a result, the malicioius DLL will attempt to stop the Windows Defender service. In order to disable various security tools and antivirus products, the malware first grants itself SeRestorePrivilege and SeTakeOwnershipPrivilege privileges, using the native AdjustTokenPrivileges() API. With these privileges enabled, the malware takes ownership of the service registry keys it intends to manipulate. The new owner of the keys is first attempted to be explicitly set to Administrator account. If such account is not present, the malware enumerates all user accounts, looking for a SID that represents the administrator account. The malware uses Windows Management Instrumentation query “ Select * From Win32_UserAccount ” to obtain the list of all users. For each enumerated user, it makes sure the account is local and then, when it obtains its SID, it makes sure the SID begins with S-1-5- and ends with -500 in order to locate the local administrator account. Once such account is found, it is used as a new owner for the registry keys, responsible for manipulation of the services of various security tools and antivirus products. With the new ownership set, the malware then disables these services by setting their Start value to 4 (Disabled): registryKey2.SetValue(“Start”), 4, RegistryValueKind.DWord); HTTP Backdoor If the returned ‘address family’ for the resolved domain name is NetBios , as specified in the lookup table above, the malware will initialise its HttpHelper class, which implements an HTTP backdoor. The backdoor commands are covered in the FireEye write-up, so let’s check only a couple of commands to see what output they produce. One of the backdoor commands is CollectSystemDescription . As its name suggests, it collects system information. By running the code reconstructed from the malware, here is an actual example of the data collected by the backdoor and delivered to the attacker’s C2 with a separate backdoor command UploadSystemDescription : 1. %DOMAIN_NAME% 2. S-1-5-21-298510922-2159258926-905146427 3. DESKTOP-VL39FPO 4. UserName 5. [E] Microsoft Windows NT 6.2.9200.0 6.2.9200.0 64 6. C:\WINDOWS\system32 7. 0 8. %PROXY_SERVER% Description: Killer Wireless-n/a/ac 1535 Wireless Network Adapter #2 MACAddress: 9C:B6:D0:F6:FF:5D DHCPEnabled: True DHCPServer: 192.168.20.1 DNSHostName: DESKTOP-VL39FPO DNSDomainSuffixSearchOrder: Home DNSServerSearchOrder: 8.8.8.8, 192.168.20.1 IPAddress: 192.168.20.30, fe80::8412:d7a8:57b9:5886 IPSubnet: 255.255.255.0, 64 DefaultIPGateway: 192.168.20.1, fe80::1af1:45ff:feec:a8eb NOTE: Field #7 specifies the number of days (0) since the last system reboot. GetProcessByDescription command will build a list of processes running on a system. This command accepts an optional argument, which is one of the custom process properties enlisted here . If the optional argument is not specified, the backdoor builds a process list that looks like: [ 1720] svchost [ 8184] chrome [ 4732] svchost If the optional argument is specified, the backdoor builds a process list that includes the specified process property in addition to parent process ID, username and domain for the process owner. For example, if the optional argument is specified as “ ExecutablePath “, the GetProcessByDescription command may return a list similar to: [ 3656] sihost.exe C:\WINDOWS\system32\sihost.exe 1720 DESKTOP-VL39FPO\UserName [ 3824] svchost.exe C:\WINDOWS\system32\svchost.exe 992 DESKTOP-VL39FPO\UserName [ 9428] chrome.exe C:\Program Files (x86)\Google\Chrome\Application\chrome.exe 4600 DESKTOP-VL39FPO\UserName Other backdoor commands enable deployment of the 2nd stage malware. For example, the WriteFile command will save the file: using (FileStream fileStream = new FileStream(path, FileMode.Append, FileAccess.Write)) { fileStream.Write(array, 0, array.Length); } The downloaded 2nd stage malware can then the executed with RunTask command: using (Process process = new Process()) { process.StartInfo = new ProcessStartInfo(fileName, arguments) { CreateNoWindow = false, UseShellExecute = false }; if (process.Start()) … Alternatively, it can be configured to be executed with the system restart, using registry manipulation commands, such as SetRegistryValue . Schedule a demo Related Articles Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Convergence didn’t fail, compliance did. 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... 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Minimize risks and maximize benefits with a successful data center migration Explore key considerations and strategies Data center migration checklist + project plan template Select a size Which network Can AlgoSec be used for continuous compliance monitoring? Yes, AlgoSec supports continuous compliance monitoring. As organizations adapt their security policies to meet emerging threats and address new vulnerabilities, they must constantly verify these changes against the compliance frameworks they subscribe to. AlgoSec can generate risk assessment reports and conduct internal audits on-demand, allowing compliance officers to monitor compliance performance in real-time. Security professionals can also use AlgoSec to preview and simulate proposed changes to the organization’s security policies. This gives compliance officers a valuable degree of lead-time before planned changes impact regulatory guidelines and allows for continuous real-time monitoring. Data center migration What is a data center migration? What are the four types of data center migration? What are data center migration best practices? How to plan for a successful data center migration? What are some common challenges of a data center migration? What are some common drawbacks of a data center migration? Checklist for a successful data center migration What are some data center migration tools? Get the latest insights from the experts Use these six best practices to simplify compliance and risk mitigation with the AlgoSec White paper Learn how AlgoSec can help you pass PCI-DSS Audits and ensure Solution overview See how this customer improved compliance readiness and risk Case study 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

Level Up Your Security Game: Time for a Mindset Reset! Hey everyone, and welcome! If you're involved in keeping your organization safe... 5 mindset shifts security teams must adopt to master multi-cloud security Iris Stein 2 min read Iris Stein 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 4/9/25 Published Level Up Your Security Game: Time for a Mindset Reset! Hey everyone, and welcome! If you're involved in keeping your organization safe online these days, you're in the right place. For years, security felt like building a super strong castle with thick walls and a deep moat, hoping the bad guys would just stay outside. But let's be real, in our multi-cloud world, that castle is starting to look a little... outdated. Think about it: your apps and data aren't neatly tucked away in one place anymore. They're bouncing around on AWS, Azure, GCP, all sorts of platforms – practically everywhere! Trying to handle that with old-school security is like trying to catch smoke with a fishing net. Not gonna work, right? That's why we're chatting today. Gal Yosef, Head of Product Management in the U.S., gets it. He's helped us dive into some crucial mindset shifts – basically, new ways of thinking – that are essential for navigating the craziness of modern security. We gotta ditch the old ways and get ready to be more agile, work together better, and ultimately, be way more effective. Mindset Shift #1: From "Our Stuff is Safe Inside This Box" to "Trust Nothing, Verify Everything" Remember the good old days? We built a perimeter – firewalls, VPNs – thinking that everything inside was safe and sound (danger!). Security was all about guarding that edge. The Problem: Well, guess what? That world is gone! Multi-cloud environments have totally shattered that perimeter. Trying to just secure the network edge leaves your real treasures – your applications, users, and data – vulnerable as they roam across different clouds. It's like locking the front door but leaving all the windows wide open! The New Way: Distributed Trust. Security needs to follow your assets, wherever they go. Instead of just focusing on the infrastructure (the pipes and wires), we need to embrace Zero-Trust principles . Think of it like this: never assume anyone or anything is trustworthy, even if they're "inside." We need identity-based, adaptive security policies that constantly validate trust, rather than just assuming it based on location. Security becomes built into applications and workloads, not just bolted onto the network. Think of it this way: Instead of one big, guarded gate, you have individual, smart locks on every valuable asset. You're constantly checking who's accessing what, no matter where they are. It's like having a personal bodyguard for each of your important things, always making sure they have the right ID. Mindset Shift #2: From "My Team Handles Network Security, Their Team Handles Cloud Security" to "Let's All Be Security Buddies!" Ever feel like your network security team speaks a different language than your cloud security team? You're not alone! Traditionally, these have been separate worlds, with network teams focused on firewalls and cloud teams on security groups. The Problem: These separate silos are a recipe for confusion and fragmented security policies. Attackers? They love this! It's like having cracks in your armor. They aren't always going to bash down the front door; they're often slipping through the gaps created by this lack of communication. The New Way: Cross-functional collaboration. We need to tear down those walls! Network and cloud security teams need to work together, speaking a shared security language. Unified visibility and consistent policies across all your environments are key. Think of it like a superhero team – everyone has their own skills, but they work together seamlessly to fight the bad guys. Regular communication, shared tools, and a common understanding of the risks are crucial. Mindset Shift #3: From "Reacting When Something Breaks" to "Always Watching and Fixing Things Before They Do" Remember the old days of waiting for an alert to pop up saying something was wrong? That's like waiting for your car to break down before you even think about checking the oil. Not the smartest move, right? The Problem: In the fast-paced world of the cloud, waiting for things to go wrong is a recipe for disaster. Attacks can happen super quickly, and by the time you react, the damage might already be done. Plus, manually checking everything all the time? Forget about it – it's just not scalable when you've got stuff spread across multiple clouds. The New Way: Continuous & Automated Enforcement. We need to shift to a mindset of constant monitoring and automated security actions. Think of it like having a security system that's always on, always learning, and can automatically respond to threats in real-time. This means using tools and processes that continuously check for vulnerabilities, enforce security policies automatically, and even predict potential problems before they happen. It's like having a proactive security guard who not only watches for trouble but can also automatically lock doors and sound alarms the moment something looks fishy. Mindset Shift #4: From "Locking Everything Down Tight" to "Finding the Right Balance with Flexible Rules" We used to think the best security was the strictest security – lock everything down, say "no" to everything. But let's be honest, that can make it super hard for people to actually do their jobs! It's like putting so many locks on a door that nobody can actually get through it. The Problem: Overly restrictive security can stifle innovation and slow things down. Developers can get frustrated, and the business can't move as quickly as it needs to. Plus, sometimes those super strict rules can even create workarounds that actually make things less secure in the long run. The New Way: Flexible Guardrails. We need to move towards security that provides clear boundaries (the "guardrails") but also allows for agility and flexibility. Think of it like setting clear traffic laws – you know what's allowed and what's not, but you can still drive where you need to go. This means defining security policies that are adaptable to different cloud environments and business needs. It's about enabling secure innovation, not blocking it. We need to find that sweet spot where security empowers the business instead of hindering it. Mindset Shift #5: From "Security is a Cost Center" to "Security is a Business Enabler" Sometimes, security gets seen as just an expense, something we have to do but doesn't really add value. It's like thinking of insurance as just another bill. The Problem: When security is viewed as just a cost, it often gets underfunded or seen as a roadblock. This can lead to cutting corners and ultimately increasing risk. It's like trying to save money by neglecting the brakes on your car – it might seem cheaper in the short term, but it can have disastrous consequences later. The New Way: Security as a Business Enabler. We need to flip this thinking! Strong security isn't just about preventing bad things from happening; it's about building trust with customers, enabling new business opportunities, and ensuring the long-term resilience of the organization. Think of it like a strong foundation for a building – without it, you can't build anything lasting. By building security into our processes and products from the start, we can actually accelerate innovation and gain a competitive advantage. It's about showing our customers that we take their data seriously and that they can trust us. Wrapping Up: Moving to a multi-cloud world is exciting, but it definitely throws some curveballs at how we think about security. By adopting these five new mindsets, we can ditch the outdated castle mentality and build a more agile, collaborative, and ultimately more secure future for our organizations. It's not about being perfect overnight, but about starting to shift our thinking and embracing these new approaches. So, let's level up our security game together! Schedule a demo Related Articles Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Convergence didn’t fail, compliance did. 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

Our Values Download PDF Schedule time with one of our experts 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