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Enhance container security with Prevasio's sandbox. Isolate and "detonate" containers in a safe environment to uncover hidden threats and prevent breaches. Prevasio sandbox 'Detonates' containers in a safe virtual environment Network traffic analysis Prevasio Sandbox intercepts and inspects all network traffic generated by containers, including HTTPS traffic. SSL/TLS inspection is enabled with Prevasio’s MITM proxy certificate being dynamically injected into the virtual file system of the analysed container images. Currently, Prevasio Sandbox provides HTTPS interception for the 10 most common Linux distributions. The following example demonstrates an interception of HTTP and HTTPS traffic in a container spawned from a public Docker Hub image. Schedule a Demo Vulnerability scan Prevasio Sandbox scans container images for the presence of any vulnerable packages and libraries. For example, this ️ Docker Hub image contains critical vulnerabilities in 28 packages. Schedule a Demo ML classifier for malware Any x32/x64 ELF executable files created both during container image build phase and the runtime are scanned with Prevasio’s Machine Learing (ML) model. The ML model used by Prevasio relies on ELF file’s static characteristics, its entropy, and the sequence of its disassembled code. Here is an example of a malicious container image hosted️ at Docker Hub, that was picked up by Prevasio’s ML Classifier. Let’s see what happens if we recompile Mirai bot’s source code️ , by using custom domains for C2 (command-and-control) traffic. The Dockerfile with instructions to fetch, modify, and compile Mirai source code is available here️ . As you see in this example, the use of ML provides resistant detection, even if the malware was modified. Schedule a Demo Automated Pen-Test Full static visibility of the container’s internals is not sufficient to tell if a container image in question is safe indeed. During the last stage of its analysis, Prevasio Sandbox simulates attackers’ actions, first trying to fingerprint services running within the analysed container, and then engaging exploits against them. In addition to that, the pen-test performs a brute-force attack against an identified service (such as SSH, FTP or SQL), in order to find weak credentials that would allow the attackers to log in. As the pen-test is performed in an isolated environment, it poses no risk to the production environment. The following example demonstrates how the automated pen-test has identified the type of MySQL server running inside a container spawned from this️ Docker Hub image, then successfully brute-forced it and found working credentials against it. Schedule a Demo System event graph Prevasio collects kernel-level system events within a running container: File system events Network events Process lifecycle events Kernel syscalls User call events These events are then correlated into a hierarchy, visually displayed in the form of a force-directed graph. The graph allows to visually identify problematic containers and also quickly establish remote access points. Here is an example of an event graph generated for ️this Docker Hub image. Please note the geographic distribution of the bitcoin peer-to-peer nodes. Schedule a Demo Select a size Network traffic analysis Vulnerability scan ML classifier for malware Automated Pen-Test System event graph Get the latest insights from the experts A Guide to Upskilling Your Cloud Architects & Security Teams in 2023 Learn more Securing Cloud-Native Environments: Containerized Applications, Serverless Architectures, and Microservices Learn more Understanding and Preventing Kubernetes Attacks and Threats Learn more Choose a better way to manage your network

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How To Reduce Attack Surface: 6 Proven Tactics Security-oriented organizations continuously identify, monitor, and manage... Cyber Attacks & Incident Response How To Reduce Attack Surface: 6 Proven Tactics 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 12/20/23 Published How To Reduce Attack Surface: 6 Proven Tactics Security-oriented organizations continuously identify, monitor, and manage internet-connected assets to protect them from emerging attack vectors and potential vulnerabilities. Security teams go through every element of the organization’s security posture – from firewalls and cloud-hosted assets to endpoint devices and entry points – looking for opportunities to reduce security risks. This process is called attack surface management. It provides a comprehensive view into the organization’s cybersecurity posture, with a neatly organized list of entry points, vulnerabilities, and weaknesses that hackers could exploit in a cyberattack scenario. Attack surface reduction is an important element of any organization’s overall cybersecurity strategy. Security leaders who understand the organization’s weaknesses can invest resources into filling the most critical gaps first and worrying about low-priority threats later. What assets make up your organization’s attack surface? Your organization’s attack surface is a detailed list of every entry point and vulnerability that an attacker could exploit to gain unauthorized access. The more entry points your network has, the larger its attack surface will be. Most security leaders divide their attention between two broad types of attack surfaces: The digital attack surface This includes all network equipment and business assets used to transfer, store, and communicate information. It is susceptible to phishing attempts , malware risks, ransomware attacks, and data breaches. Cybercriminals may infiltrate these kinds of assets by bypassing technical security controls, compromising unsecured apps or APIs, or guessing weak passwords. The physical attack surface This includes business assets that employees, partners, and customers interact with physically. These might include hardware equipment located inside data centers and USB access points. Even access control systems for office buildings and other non-cyber threats may be included. These assets can play a role in attacks that involve social engineering, insider threats, and other malicious actors who work in-person. Even though both of these attack surfaces are distinct, many of their security vulnerabilities and potential entry points overlap in real-life threat scenarios. For example, thieves might steal laptops from an unsecured retail location and leverage sensitive data on those devices to launch further attacks against the organization’s digital assets. Organizations that take steps to minimize their attack surface area can reduce the risks associated with this kind of threat. Known Assets, Unknown Assets, and Rogue Assets All physical and digital business assets fall into one of three categories: Known assets are apps, devices, and systems that the security team has authorized to connect to the organization’s network. These assets are included in risk assessments and they are protected by robust security measures, like network segmentation and strict permissions. Unknown assets include systems and web applications that the security team is not aware of. These are not authorized to access the network and may represent a serious security threat. Shadow IT applications may be part of this category, as well as employee-owned mobile devices storing sensitive data and unsecured IoT devices. Rogue assets connect to the network without authorization, but they are known to security teams. These may include unauthorized user accounts, misconfigured assets, and unpatched software. A major part of properly managing your organization’s attack surface involves the identification and remediation of these risks. Attack Vectors Explained: Minimize Risk by Following Potential Attack Paths When conducting attack surface analysis, security teams have to carefully assess the way threat actors might discover and compromise the organization’s assets while carrying out their attack. This requires the team to combine elements of vulnerability management with risk management , working through the cyberattack kill chain the way a hacker might. Some cybercriminals leverage technical vulnerabilities in operating systems and app integrations. Others prefer to exploit poor identity access management policies, or trick privileged employees into giving up their authentication credentials. Many cyberattacks involve multiple steps carried out by different teams of threat actors. For example, one hacker may specialize in gaining initial access to secured networks while another focuses on using different tools to escalate privileges. To successfully reduce your organization’s attack surface, you must follow potential attacks through these steps and discover what their business impact might be. This will provide you with the insight you need to manage newly discovered vulnerabilities and protect business assets from cyberattack. Some examples of common attack vectors include: API vulnerabilities. APIs allow organizations to automate the transfer of data, including scripts and code, between different systems. Many APIs run on third-party servers managed by vendors who host and manage the software for customers. These interfaces can introduce vulnerabilities that internal security teams aren’t aware of, reducing visibility into the organization’s attack surface. Unsecured software plugins. Plugins are optional add-ons that enhance existing apps by providing new features or functionalities. They are usually made by third-party developers who may require customers to send them data from internal systems. If this transfer is not secured, hackers may intercept it and use that information to attack the system. Unpatched software. Software developers continuously release security patches that address emerging threats and vulnerabilities. However, not all users implement these patches the moment they are released. This delay gives attackers a key opportunity to learn about the vulnerability (which is as easy as reading the patch changelog) and exploit it before the patch is installed. Misconfigured security tools. Authentication systems, firewalls, and other security tools must be properly configured in order to produce optimal security benefits. Attackers who discover misconfigurations can exploit those weaknesses to gain entry to the network. Insider threats. This is one of the most common attack vectors, yet it can be the hardest to detect. Any employee entrusted with sensitive data could accidentally send it to the wrong person, resulting in a data breach. Malicious insiders may take steps to cover their tracks, using their privileged permissions and knowledge of the organization to go unnoticed. 6 Tactics for Reducing Your Attack Surface 1. Implement Zero Trust The Zero Trust security model assumes that data breaches are inevitable and may even have already occurred. This adds new layers to the problems that attack surface management resolves, but it can dramatically improve overall resilience and preparedness. When you develop your security policies using the Zero Trust framework, you impose strong limits on what hackers can and cannot do after gaining initial access to your network. Zero Trust architecture blocks attackers from conducting lateral movement, escalating their privileges, and breaching critical data. For example, IoT devices are a common entry point into many networks because they don’t typically benefit from the same level of security that on-premises workstations receive. At the same time, many apps and systems are configured to automatically trust connections from internet-enabled sensors and peripheral devices. Under a Zero Trust framework, these connections would require additional authentication. The systems they connect to would also need to authenticate themselves before receiving data. Multi-factor authentication is another part of the Zero Trust framework that can dramatically improve operational security. Without this kind of authentication in place, most systems have to accept that anyone with the right username and password combination must be a legitimate user. In a compromised credential scenario, this is obviously not the case. Organizations that develop network infrastructure with Zero Trust principles in place are able to reduce the number of entry points their organization exposes to attackers and reduce the value of those entry points. If hackers do compromise parts of the network, they will be unable to quickly move between different segments of the network, and may be unable to stay unnoticed for long. 2. Remove Unnecessary Complexity Unknown assets are one of the main barriers to operational security excellence. Security teams can’t effectively protect systems, apps, and users they don’t have detailed information on. Any rogue or unknown assets the organization is responsible for are almost certainly attractive entry points for hackers. Arbitrarily complex systems can be very difficult to document and inventory properly . This is a particularly challenging problem for security leaders working for large enterprises that grow through acquisitions. Managing a large portfolio of acquired companies can be incredibly complex, especially when every individual company has its own security systems, tools, and policies to take into account. Security leaders generally don’t have the authority to consolidate complex systems on their own. However, you can reduce complexity and simplify security controls throughout the environment in several key ways: Reduce the organization’s dependence on legacy systems. End-of-life systems that no longer receive maintenance and support should be replaced with modern equivalents quickly. Group assets, users, and systems together. Security groups should be assigned on the basis of least privileged access, so that every user only has the minimum permissions necessary to achieve their tasks. Centralize access control management. Ad-hoc access control management quickly leads to unknown vulnerabilities and weaknesses popping up unannounced. Implement a robust identity access management system so you can create identity-based policies for managing user access. 3. Perform Continuous Vulnerability Monitoring Your organization’s attack surface is constantly changing. New threats are emerging, old ones are getting patched, and your IT environment is supporting new users and assets on a daily basis. Being able to continuously monitor these changes is one of the most important aspects of Zero Trust architecture . The tools you use to support attack surface management should also generate alerts when assets get exposed to known risks. They should allow you to confirm the remediation of detected risks, and provide ample information about the risks they uncover. Some of the things you can do to make this happen include: Investing in a continuous vulnerability monitoring solution. Vulnerability scans are useful for finding out where your organization stands at any given moment. Scheduling these scans to occur at regular intervals allows you to build a standardized process for vulnerability monitoring and remediation. Building a transparent network designed for visibility. Your network should not obscure important security details from you. Unfortunately, this is what many third-party security tools and services achieve. Make sure both you and your third-party security partners are invested in building observability into every aspect of your network. Prioritize security expenditure based on risk. Once you can observe the way users, data, and assets interact on the network, you can begin prioritizing security initiatives based on their business impact. This allows you to focus on high-risk tasks first. 4. Use Network Segmentation to Your Advantage Network segmentation is critical to the Zero Trust framework. When your organization’s different subnetworks are separated from one another with strictly protected boundaries, it’s much harder for attackers to travel laterally through the network. Limiting access between parts of the network helps streamline security processes while reducing risk. There are several ways you can segment your network. Most organizations already perform some degree of segmentation by encrypting highly classified data. Others enforce network segmentation principles when differentiating between production and live development environments. But in order for organizations to truly benefit from network segmentation, security leaders must carefully define boundaries between every segment and enforce authentication policies designed for each boundary. This requires in-depth knowledge of the business roles and functions of the users who access those segments, and the ability to configure security tools to inspect and enforce access control rules. For example, any firewall can block traffic between two network segments. A next-generation firewall can conduct identity-based inspection that allows traffic from authorized users through – even if they are using mobile devices the firewall has never seen before. 5. Implement a Strong Encryption Policy Encryption policies are an important element of many different compliance frameworks . HIPAA, PCI-DSS, and many other regulatory frameworks specify particular encryption policies that organizations must follow to be compliant. These standards are based on the latest research in cryptographic security and threat intelligence reports that outline hackers’ capabilities. Even if your organization is not actively seeking regulatory compliance, you should use these frameworks as a starting point for building your own encryption policy. Your organization’s risk profile is largely the same whether you seek regulatory certification or not – and accidentally deploying outdated encryption policies can introduce preventable vulnerabilities into an otherwise strong security posture. Your organization’s encryption policy should detail every type of data that should be encrypted and the cipher suite you’ll use to encrypt that data. This will necessarily include critical assets like customer financial data and employee payroll records, but it also includes relatively low-impact assets like public Wi-Fi connections at retail stores. In each case, you must implement a modern cipher suite that meets your organization’s security needs and replace legacy devices that do not support the latest encryption algorithms. This is particularly important in retail and office settings, where hardware routers, printers, and other devices may no longer support secure encryption. 6. Invest in Employee Training To truly build security resilience into any company culture, it’s critical to explain why these policies must be followed, and what kinds of threats they address. One of the best ways to administer standardized security compliance training is by leveraging a corporate learning platform across the organization, so that employees can actually internalize these security policies through scenario based training courses. It’s especially valuable in organizations suffering from consistent shadow IT usage. When employees understand the security vulnerabilities that shadow IT introduces into the environment, they’re far less likely to ignore security policies for the sake of convenience. Security simulations and awareness campaigns can have a significant impact on training initiatives. When employees know how to identify threat actors at work, they are much less likely to fall victim to them. However, actually achieving meaningful improvement may require devoting a great deal of time and energy into phishing simulation exercises over time – not everyone is going to get it right in the first month or two. These initiatives can also provide clear insight and data on how prepared your employees are overall. This data can make a valuable contribution to your attack surface reduction campaign. You may be able to pinpoint departments – or even individual users – who need additional resources and support to improve their resilience against phishing and social engineering attacks. Successfully managing this aspect of your risk assessment strategy will make it much harder for hackers to gain control of privileged administrative accounts. 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

The business case for unified hybrid cloud security and automation 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 Talk to a Skybox transition expert. Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

As earlier reported by US-CERT, three versions of a popular NPM package named ua-parser-js were found to contain malware. The NPM package... Cloud Security Hijacked NPM Account Leads to Critical Supply Chain Compromise 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 10/24/21 Published As earlier reported by US-CERT, three versions of a popular NPM package named ua-parser-js were found to contain malware. The NPM package ua-parser-js is used in apps and websites to discover the type of device or browser a person is using from User-Agent data. The author of the package, Faisal Salman – a software developer from Indonesia, has commented about the incident: Hi all, very sorry about this. I noticed something unusual when my email was suddenly flooded by spams from hundreds of websites (maybe so I don’t realize something was up, luckily the effect is quite the contrary). I believe someone was hijacking my npm account and published some compromised packages (0.7.29, 0.8.0, 1.0.0) which will probably install malware as can be seen from the diff here: https://app.renovatebot.com/package-diff?name=ua-parser-js&from=0.7.28&to=1.0.0 I have sent a message to NPM support since I can’t seem to unpublish the compromised versions (maybe due to npm policy https://docs.npmjs.com/policies/unpublish ) so I can only deprecate them with a warning message. There are more than 2.5 million other repositories that depend on ua-parser-js . Google search “file:ua-parser-js.js” reveals nearly 2 million websites, which indicates the package is popular. As seen in the source code diff , the newly added file package/preinstall.js will check the OS platform. If it’s Windows, the script will spawn a newly added preinstall.bat script. If the OS is Linux, the script will call terminalLinux() function, as seen in the source below: var opsys = process.platform; if ( opsys == "darwin" ) { opsys = "MacOS" ; } else if ( opsys == "win32" || opsys == "win64" ) { opsys = "Windows" ; const { spawn } = require ( 'child_process' ) ; const bat = spawn ( 'cmd.exe' , [ '/c' , 'preinstall.bat' ]) ; } else if ( opsys == "linux" ) { opsys = "Linux" ; terminalLinux () ; } The terminalLinux() function will run the newly added preinstall.sh script. function terminalLinux(){ exec( "/bin/bash preinstall.sh" , (error, stdout, stderr) => { ... }); } The malicious preinstall.sh script first queries an XML file that will report the current user’s geo-location by visiting this URL . For example, for a user located in Australia, the returned content will be: [IP_ADDRESS] AU Australia ... Next, the script searches for the presence of the following country codes in the returned XML file: RU UA BY KZ That is, the script identifies if the affected user is located in Russia, Ukraine, Belarus, or Kazakhstan. Suppose the user is NOT located in any of these countries. In that case, the script will then fetch and execute malicious ELF binary jsextension from a server with IP address 159.148.186.228, located in Latvia. jsextension binary is an XMRig cryptominer with reasonably good coverage by other AV products. Conclusion The compromised ua-parser-js is a showcase of a typical supply chain attack. Last year, Prevasio found and reported a malicious package flatmap-stream in 1,482 Docker container images hosted in Docker Hub with a combined download count of 95M. The most significant contributor was the trojanized official container image of Eclipse. What’s fascinating in this case, however, is the effectiveness of the malicious code proliferation. It only takes one software developer to ignore a simple trick that reliably prevents these things from happening. The name of this trick is two-factor authentication (2FA). About the Country Codes Some people wonder why cybercriminals from Russia often avoid attacking victims outside of their country or other Russian-speaking countries. Some go as far as suggesting it’s for their own legal protection. The reality is way simpler, of course: “Не гадь там, где живешь” “Не сри там, где ешь” “Не плюй в колодец, пригодится воды напиться” Polite translation of all these sayings is: “One should not cause trouble in a place, group, or situation where one regularly finds oneself.” 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

Partner solution brief AlgoSec & Zscaler 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 Talk to a Skybox transition expert. Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

AlgoSec & Check Point AlgoSec seamlessly integrates with Check Points NGFWs to automate application and user aware security policy management and ensure that Check Points’ devices are properly configured. AlgoSec supports the entire security policy management lifecycle — from application connectivity discovery, through ongoing management and compliance, to rule recertification and secure decommissioning. Solution brief Cloudguard datasheet How to Check Point Regulatory compliance Learn how to prepare your Check Point devices for a regulatory audit Check Point Risk Assessment Learn how assess risk on your Check Point devices with AlgoSec Mapping your Network Visualize your complex network, including your Check Point devices, with a dynamic network topology map See how Check Point Users Can Benefit from AlgoSec Schedule time with one of our experts

Find the best firewall audit tools to ensure PCI DSS compliance. Streamline your audits, identify vulnerabilities, and maintain a secure network environment. Best firewall audit tools for PCI security compliance What is firewall audit tools for PCI security compliance? Today, every organization operates in a challenging business landscape where success is not guaranteed by the quality of its products or services. It is equally important for the company to comply with all applicable laws, regulations, and standards, including the regulations related to IT security and data privacy. However, maintaining compliance is not easy because many regulations are extremely strict and are constantly changing. One example of such a regulation is the Payment Card Industry Data Security Standard (PCI-DSS). Even organizations with a robust IT security ecosystem struggle to achieve compliance, more so if they have implemented multiple firewalls, each with its own ruleset and policy base. They must regularly audit these rulesets to ensure that every firewall is working as expected to strengthen the organization’s security posture. A detailed and regular firewall audit enables businesses to monitor firewall configurations and rule changes, validate access controls, and ultimately, ensure that firewalls comply with internal and external security standards. That said, when organizations manage thousands of firewall rules, they often struggle to conduct audits using manual processes. Fortunately, implementing a firewall audit and compliance tool can simplify the audit effort. It can also ease compliance with internal security policies and external regulatory standards such as PCI-DSS. Let’s explore. Schedule a Demo What does a firewall audit tool do? All organizations face firewall management issues, especially when there are many firewalls and associated rules to manage. An automated firewall audit tool simplifies the effort to analyze firewall configurations and identify compliance gaps. The tool automatically analyzes firewalls and their rulesets, replacing the need for manual processes and human intervention. It audits every rule and configuration that controls network traffic, including access control lists (ACLs), interfaces, and address translations. In addition, it continuously monitors firewall rule changes, and automatically runs audits on a pre-defined schedule. Finally, it flags the status of each compliance requirement and generates real-time reports about policy misconfigurations and compliance violations. By acting on these insights, your organization can update its firewall rules, which can then help improve network performance, reduce downtime, and improve overall security. Schedule a Demo What are the benefits of firewall audit tools? A manual firewall audit is often time-consuming and error-prone. Moreover, manual processes may not help you maintain continuous compliance – which most regulatory regimes require – if you have thousands of rulesets across many firewalls and routers, or if these rules change often. A firewall compliance tool simplifies firewall audits and compliance-related tasks. It continuously monitors all firewalls, and their rules and rule changes. Using sophisticated algorithms, the tool evaluates all firewall rules against internal corporate policies and external regulations such as PCI-DSS. It then identifies compliance vulnerabilities and generates audit reports so you can see where these gaps exist and initiate appropriate remediation measures. An advanced, feature-rich audit tool like AlgoSec checks all firewall policy changes for compliance violations before they are implemented so you can avoid the costs and efforts of after-the-fact remediations. Moreover, the entire change approval process is automatically documented, thus facilitating continuous, uninterrupted compliance across all firewalls throughout the organization. All in all, a firewall auditing solution incorporates automation, continuous monitoring, event correlation rules, and real-time reporting that will save you countless man-hours and funds that you normally spend on configuration cleanup and firewall optimization. Additionally, it will enable your organization to: Keep track of all firewalls and firewall activity logs in a central location Discover outdated, unused, or misconfigured rules that weaken network security, lead to downtime, or affect business continuity Identify where changes are needed to optimize performance and security Track and analyze suspicious or potentially malicious network events Automatically document all configuration changes to avoid security blind spots Demonstrate compliance to internal and external auditors The best tools support multiple firewall platforms and are well-suited for consolidating firewalls and streamlining their configurations. Schedule a Demo Firewall audit checklist A detailed and regular firewall audit is critical for managing firewall rules and maintaining the right firewall configurations. A single misconfigured or outdated rule can leave the entire network – and the organization – vulnerable to a cyberattack. A typical manual audit includes all these steps: Collect information about the network and its various elements, including hardware network devices, software applications, VPNs, and ISPs Collect firewall logs Collect information related to operating systems, default configurations, and latest patches Assess the existing rule-base change-management process to confirm whether changes and validations are done reliably, transparently, and with proper documentation Audit every firewall’s physical and software security posture by evaluating:Device administration, security management, and configuration management procedures Whether operating systems are sufficiently hardened Whether firewall activities are recorded and logged Whether an Intrusion Detection System (IDS) is in place Whether patches and updates are implemented by firewall vendors Whether access controls are in place for firewall and management servers Who is allowed to access the firewall server rooms and make device configuration changes Remove unused and expired rules to optimize the rule-base Evaluate policy usage against firewall logs to identify (overly) permissive rules Analyze VPN parameters to identify and remove unused connections, irrelevant routes, and expired/unused users/user groups Perform a detailed risk assessment to discover risky and non-compliant rules based on internal policies and industry standards and best practices (e.g., PCI-DSS) Prioritize rules in terms of severity and the organization’s criteria for “acceptable” risk Implement appropriate remediations Review firewall backup, encryption, and restore-processes for recovery from disasters, and maintain business continuity All these steps – not to mention a robust risk management process – are essential to ensure reliable and insightful firewall audits. But the effort can quickly become overwhelming if there are a large number of firewalls and each firewall has a vast rule-base. Here’s where automated compliance audits with a tool like AlgoSec are very valuable. For a more detailed checklist that will help you simplify firewall auditing, and reduce cybersecurity risks in your IT environment, click here . Schedule a Demo How AlgoSec simplifies firewall audits AlgoSec’s security policy management solution simplifies and streamlines firewall security audits. All you need to do is follow four easy steps: Ensure that your network is fully integrated with the AlgoSec platform In AlgoSec Firewall Analyzer, click “Devices” and then “All Firewalls” Click “All Reports” and then the listed report Click “Regulatory Compliance” This simple process is all you need to conduct an effective and comprehensive firewall audit and to maintain compliance with PCI-DSS and other regulations. Make your firewalls audit-ready and compliant using AlgoSec AlgoSec’s solution does all the heavy lifting with regard to the auditing of firewall rulesets and configurations. It is designed to ensure that your configurations satisfy the criteria for both external regulatory standards such as PCI-DSS and internal security policies. AlgoSec’s solution also helps you reduce overall risk factors and improve firewall performance by: Instantly generating audit-ready reports for all major regulations, including PCI-DSS, HIPAA, SOX, and NERC Generating detailed and customizable reports for internal compliance requirements Proactively checking every rule change for compliance violations Flagging non-compliant rules and devices Providing a detailed audit trail of all firewall changes, approval processes, and violations All in all, AlgoSec gives you all the information you need to remediate problems in your firewall devices and rules and to ensure continuous compliance across the network. Maintaining continuous PCI-DSS compliance with AlgoSec PCI-DSS compliance is mandatory for any business that processes customers’ credit cards. Its guidelines are intended to enhance the security of card data, and protect cardholders from security events such as data breaches and identity theft. The standard specifies 12 requirements that organizations must meet. One of these requirements is to install and maintain a firewall to prevent unauthorized system access and protect cardholder data. Businesses must also implement controls to properly configure firewalls, and create configurations that restrict connections between the cardholder data environment and untrusted networks. In addition, they must document all security policies and operational procedures for managing firewalls. Firewall audits can help organizations maintain the correct firewall rules, strengthen network security, and meet PCI-DSS requirements. AlgoSec’s solution simplifies the effort with automation, continuous monitoring, and out-of-the-box templates. It also provides change audit trails and audit-ready compliance reports to satisfy both external regulatory requirements and internal regulations. Furthermore, it provides custom analyses, reports, and notifications that help you to periodically review all firewall configurations, identify security issues and compliance gaps, and take action to maintain compliance with PCI-DSS. Other industry standards supported by AlgoSec PCI-DSS is not the only set of standards supported by solution. In fact, it supports a wide range of many leading industry standards and regulations, including: HIPAA SOX ISO 27001 NERC Basel II FISMA GLVA NIST 800-41 GDPR The solution automatically generates pre-populated, audit-ready compliance reports for all these regulations and customized reports for your internal corporate policies to help you maintain compliance with all relevant laws and standards. Additionally, it helps you to reduce firewall audit preparation efforts and costs by as much as 80%— making life much easier for you as well as your auditors. Schedule a Demo Checklist and best practices for configuring and reviewing firewall rules Most modern-day organizations are grappling with an ever-expanding cyber threat landscape. Clever attackers armed with sophisticated tools make businesses vulnerable to many kinds of undesirable events, such as data breaches and malware attacks. External laws and regulations as well as internal security controls are meant to prevent such events and enable firms to protect their IT assets and sensitive data. One of the most important controls is the network firewall, which is often the first line of defense between the enterprise network and the public Internet. Since the firewall is so important for strengthening enterprise security and for maintaining a strong regulatory compliance posture, all its configurations and rules must be properly set up and optimized. Here is where regular firewall audits play an important role. In the previous section, we covered a step-by-step firewall audit checklist. This section covers some best practices for configuring your firewall rules, and a checklist for reviewing and optimizing them. Optimizing your rule-base will enable you to improve firewall performance, reduce security risk, and maintain compliance with PCI-DSS and other standards. Checklist for conducting firewall rule-base reviews It is useful to follow this checklist to review and optimize your firewall rule-base and improve firewall performance: Does the tool understand the network topology, VLAN architecture, and IP address scheme? Is there a cleanup rule to block malicious traffic that doesn’t follow any rule? Do you have rules for firewall management? Are logs enabled for each rule? Are limited ports defined for access to management? Are large subnets blocked from accessing the firewall? If a particular subnet is given access, is there an appropriate business rationale behind the decision? Are there duplicate objects, services, or host networks in the rule-base? Are the best or business-critical services correctly positioned within the rule-base? And are out-of-use services removed from the rule-base? Are there outdated, legacy, excess, shadow, or expired rules in the rule-base? Do any rules allow risky services, which are outbound to or inbound from the Internet? Are any rules overly permissive? Are the rules consistently named? Do they contain recognizable headers and comments to make them easier to understand? Is two-way access configured in the network infrastructure? Is it used for legitimate reasons? Are rules configured to ensure that vulnerable ports and services are not allowed? Are there similar rules that could be combined into a single rule? In addition to using this checklist, make sure that all firewall rules align with the organization’s policy matrix and corporate network security policy. The matrix specifies whether traffic should be allowed or blocked from every zone and VLAN in the network. An automated firewall rule audit tool or solution can find the answers to all these questions and ensure alignment with the policy matrix and security policy. With its built-in audit capabilities, it quickly completes rule-base reviews and generates detailed reports that will help you conduct (and pass) firewall audits. Best practices to configure firewall rules The right rules are crucial to maintaining firewall performance and network security. A below-par rule-base can create serious security loopholes that allow malicious traffic to sneak in and operational loopholes that block legitimate traffic. The best way to avoid these problems is to properly frame and configure robust firewall rules. To do so, it’s important to adhere to these best practices: Clearly document the purpose of each firewall rule and which services, users, and devices it affects Add an expiration date to temporary rules Group similar rules by categories or section titles to make rules easier to understand and to determine their best order Create a formal change process to govern and control all policy changes Monitor the change process to prevent poor firewall configurations and associated security risks As much as possible, implement least privileged security policies, which will help minimize the attack surface Use an automated management and monitoring tool to standardize firewall policies and rules in a scalable manner List and categorize all source IPs, destination IPs, and destination ports to simplify firewall rule creation Include as many parameters in the rules as possible Use address and service sets to simplify rule management and adjustments Use drop rules to capture unclassified traffic and ensure it doesn’t infiltrate a security policy Offer access only to known services and to specific traffic By following these best practices, you will get more control over your firewalls and protect the network from suspicious and malicious traffic. Make sure to also review all firewall rules regularly with the help of a regular maintenance schedule as well as firewall auditing and management tools. It is also good practice to regularly review firewall logs for any changes or indications that firewall settings, or rules, need to be adjusted. Schedule a Demo Ready for stress-free firewall audits with AlgoSec AlgoSec’s Firewall Analyzer (AFA) provides complete visibility into enterprise networks and firewall rulesets. Use AFA to see where traffic is blocked in your network and accordingly configure policies from a single, unified interface. If you have multiple firewalls, you probably have a hard time configuring the rules for each. And if you want to allow or deny something, you probably have to log into each firewall and make the requisite changes. All this hassle is eliminated with AFA’s automated security policy management capabilities. With this intuitive yet powerful security policy management solution , you can automatically create, update, clean up, and optimize all policies from a single administration panel and workflow. AFA will reduce your firewall and security audit preparation time and costs with audit-ready reports. It will also assist you with PCI-DSS compliance and firewall security optimization. Click here for a free demo of AlgoSec Firewall Analyzer. Schedule a Demo Select a size What is firewall audit tools for PCI security compliance? What does a firewall audit tool do? What are the benefits of firewall audit tools? Firewall audit checklist How AlgoSec simplifies firewall audits Checklist and best practices for configuring and reviewing firewall rules Ready for stress-free firewall audits with AlgoSec Get the latest insights from the experts Use these six best practices to simplify compliance and risk 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 Choose a better way to manage your network

Cloud-native organizations need an efficient and automated way to identify the security risks across their cloud infrastructure. Sergei... Cloud Security CSPM essentials – what you need to know? 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 11/24/22 Published Cloud-native organizations need an efficient and automated way to identify the security risks across their cloud infrastructure. Sergei Shevchenko, Prevasio’s Co-Founder & CTO breaks down the essence of a CSPM and explains how CSPM platforms enable organizations to improve their cloud security posture and prevent future attacks on their cloud workloads and applications. In 2019, Gartner recommended that enterprise security and risk management leaders should invest in CSPM tools to “proactively and reactively identify and remediate these risks”. By “these”, Gartner meant the risks of successful cyberattacks and data breaches due to “misconfiguration, mismanagement, and mistakes” in the cloud. So how can you detect these intruders now and prevent them from entering your cloud environment in future? Cloud Security Posture Management is one highly effective way but is often misunderstood. Cloud Security: A real-world analogy There are many solid reasons for organizations to move to the cloud. Migrating from a legacy, on-premises infrastructure to a cloud-native infrastructure can lower IT costs and help make teams more agile. Moreover, cloud environments are more flexible and scalable than on-prem environments, which helps to enhance business resilience and prepares the organization for long-term opportunities and challenges. That said, if your production environment is in the cloud, it is also prone to misconfiguration errors, which opens the firm to all kinds of security threats and risks. Think of this environment as a building whose physical security is your chief concern. If there are gaps in this security, for example, a window that doesn’t close all the way or a lock that doesn’t work properly, you will try to fix them on priority in order to prevent unauthorized or malicious actors from accessing the building. But since this building is in the cloud, many older security mechanisms will not work for you. Thus, simply covering a hypothetical window or installing an additional hypothetical lock cannot guarantee that an intruder won’t ever enter your cloud environment. This intruder, who may be a competitor, enemy spy agency, hacktivist, or anyone with nefarious intentions, may try to access your business-critical services or sensitive data. They may also try to persist inside your environment for weeks or months in order to maintain access to your cloud systems or applications. Old-fashioned security measures cannot keep these bad guys out. They also cannot prevent malicious outsiders or worse, insiders from cryptojacking your cloud resources and causing performance problems in your production environment. What a CSPM is The main purpose of a CSPM is to help organizations minimize risk by providing cloud security automation, ensuring multi-cloud environments remain secure as they grow in scale and complexity. But, as organizations reach scale and add more complexity to their multi- cloud cloud environment, how can CSPMs help companies minimize such risks and better protect their cloud environments? Think of a CSPM as a building inspector who visits the building regularly (say, every day, or several times a day) to inspect its doors, windows, and locks. He may also identify weaknesses in these elements and produce a report detailing the gaps. The best, most experienced inspectors will also provide recommendations on how you can resolve these security issues in the fastest possible time. Similar to the role of a building inspector, CSPM provides organizations with the tools they need to secure your multi-cloud environment efficiently in a way that scales more readily than manual processes as your cloud deployments grow. Here are some CSPM key benefits: Efficient early detection: A CSPM tool allows you to automatically and continuously monitor your cloud environment. It will scan your cloud production environment to detect misconfiguration errors, raise alerts, and even predict where these errors may appear next. Responsive risk remediation: With a CSPM in your cloud security stack, you can also automatically remediate security risks and hidden threats, thus shortening remediation timelines and protecting your cloud environment from threat actors. Consistent compliance monitoring: CSPMs also support automated compliance monitoring, meaning they continuously review your environment for adherence to compliance policies. If they detect drift (non-compliance), appropriate corrective actions will be initiated automatically. What a CSPM is not Using the inspector analogy, it’s important to keep in mind that a CSPM can only act as an observer, not a doer. Thus, it will only assess the building’s security environment and call out its weakness. It won’t actually make any changes himself, say, by doing intrusive testing. Even so, a CSPM can help you prevent 80% of misconfiguration-related intrusions into your cloud environment. What about the remaining 20%? For this, you need a CSPM that offers something container scanning. Why you need an agentless CSPM across your multi-cloud environment If your network is spread over a multi-cloud environment, an agentless CSPM solution should be your optimal solution. Here are three main reasons in support of this claim: 1. Closing misconfiguration gaps: It is especially applicable if you’re looking to eliminate misconfigurations across all your cloud accounts, services, and assets. 2. Ensuring continuous compliance: It also detects compliance problems related to three important standards: HIPAA, PCI DSS, and CIS. All three are strict standards with very specific requirements for security and data privacy. In addition, it can detect compliance drift from the perspectives of all three standards, thus giving you the peace of mind that your multi-cloud environment remains consistently compliant. 3. Comprehensive container scanning: An agentless CSPM can scan container environments to uncover hidden backdoors. Through dynamic behavior analyses, it can detect new threats and supply chain attack risks in cloud containers. It also performs container security static analyses to detect vulnerabilities and malware, thus providing a deep cloud scan – that too in just a few minutes. Why Prevasio is your ultimate agentless CSPM solution Multipurpose: Prevasio combines the power of a traditional CSPM with regular vulnerability assessments and anti-malware scans for your cloud environment and containers. It also provides a prioritized risk list according to CIS benchmarks, so you can focus on the most critical risks and act quickly to adequately protect your most valuable cloud assets. User friendly: Prevasio’s CSPM is easy to use and easier still to set up. You can connect your AWS account to Prevasio in just 7 mouse clicks and 30 seconds. Then start scanning your cloud environment immediately to uncover misconfigurations, vulnerabilities, or malware. Built for scale: Prevasio’s CSPM is the only solution that can scan cloud containers and provide more comprehensive cloud security configuration management with vulnerability and malware scans. 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

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Boost Cisco ACI adoption with AlgoSec. Simplify security management, enhance visibility, and streamline policy automation for your ACI environment. Increasing Cisco ACI adoption with AlgoSec Overview Cisco ACI, an industry-leading software-defined networking solution, facilitates application agility and data center automation. ACI enables scalable multi-cloud networks with a consistent policy model and provides the flexibility to move applications seamlessly to any location or any cloud while maintaining security and high availability. But, using Cisco ACI alone, has limits. Schedule a Demo Better together: Cisco ACI and AlgoSec AlgoSec Security Management for Cisco ACI delivers application-centric security policy change management, providing unified visibility across the entire network estate. It leverages policy-driven automation to manage security changes, assess risk, and maintain compliance. Integrating AlgoSec with Cisco ACI, extends the capabilities of Cisco ACI, accelerating adoption and retention of ACI, by providing complete network security management for the entire multi-vendor and multi-cloud network. Schedule a Demo Enterprise-wide ACI visibility With Cisco ACI alone, users only have visibility within the Cisco ACI fabric. However, by integrating with AlgoSec, gain full visibility across your multi-vendor hybrid network, including your on-premises and multi-cloud network estate like firewalls and other security control. With AlgoSec, users can search across multi-site Cisco ACI estates for tenants, endpoints, contracts, EPGs, and more. Visibility also extends beyond Cisco ACI, including items outside the ACI fabric so you can get visibility over your entire network estate. This provides a unified view of multiple environments including cloud, SDN, and on-premise deployments. Gain quick access to key findings via the AlgoSec App for the Cisco ACI App Center. As a result of full visibility over the traffic flows across your entire network, troubleshooting is simplified. With traffic simulation queries, you can easily see what breaks, so you know exactly what needs to be fixed. Once the ACI fabric is in production, AlgoSec can even help troubleshoot applications and connectivity issues for connections that enter, exit, and traverse the fabric itself. Schedule a Demo Why integrate AlgoSec with Cisco ACI? Automate for scale – Extend ACI’s policy-based automation to all security devices across the enterprise, including multi-cloud and on-premises environments. Reduce the attack surface – Enhance visibility into the security posture of the ACI fabric and across multiple on-premises, multi-cloud, and multi-vendor instances Security and compliance – Get risk and compliance analysis for Cisco ACI contracts alongside firewall security policies Application-centric security management – Map application connectivity to ACI contracts and EPGs, as well as in-fabric firewall policies Troubleshoot data center connectivity challenges using advanced network traffic simulation Schedule a Demo Application-centric connectivity mapping AlgoSec natively provides visibility into Cisco ACI network topology, while tying the ACI fabric into the rest of the data center. This provides a complete network topology map for your entire hybrid network. In addition, you can connect your network to the applications and their associated traffic flows. With Cisco ACI alone, applications are not connected to items outside of the ACI fabric or associated with all of the business applications on devices. By integrating Cisco ACI with the AlgoSec Security Management Solution, your organization is also able to connect network and business applications for items within and also outside of the ACI fabric. As a result, you can map application connectivity to ACI contracts and EPGs, as well as in-fabric firewall policies. Schedule a Demo Risk management Integrating the AlgoSec Security Management Solution with Cisco ACI enables to manage risk both within Cisco ACI and over your entire network, including identifying already existing risky security policies and flagging risk when creating new policies. AlgoSec helps identify risky rules for your entire network . In order to minimize outages, AlgoSec users can assess the impact of network changes on application availability. Risk and vulnerabilities can also be identified from the business application perspective. Potential changes can be recommended to the application policies in the ACI fabric. As a result, your application, security, and network teams are aligned. Schedule a Demo Proactive regulatory compliance By integrating Cisco ACI with AlgoSec, you can gain a complete picture of both items within the ACI fabric to meet compliance requirements, as well as items outside the fabric. AlgoSec generates automatic audit-ready compliance reports on each Cisco ACI tenant for major regulations, flags issues upon changes, uncovers gaps, and even remediates problems throughout your entire network, ensuring a state of continuous compliance and even provides insights into your entire network’s compliance state. Schedule a Demo Intelligent automation Cisco ACI provides automation for workflows and policies within the ACI fabric. But by integrating with AlgoSec, you can automate both inside and outside of the ACI fabric, including service graphs that control firewalls within the fabric. AlgoSec’s intelligent automation workflow enables automated deployment of contracts, EPGs, and filters on Cisco ACI. This allows clients to use a single process to deploy security policy across not only the Cisco ACI fabric, but rather across the entire hybrid, multi-vendor data center. Schedule a Demo Select a size Overview Better together: Cisco ACI and AlgoSec Enterprise-wide ACI visibility Why integrate AlgoSec with Cisco ACI? Application-centric connectivity mapping Risk management Proactive regulatory compliance Intelligent automation Get the latest insights from the experts Choose a better way to manage your network

AlgoSec Cloud Enterprise (ACE) is the comprehensive cloud network security suite for the modern cloud enterprise. Gain visibility, enforce consistent policies, and automate change management across cloud and on-premises environments. AlgoSec Cloud Enterprise: Transform your cloud network security with AlgoSec Empower your organization to secure application connectivity across multi-cloud environments with the industry's leading platform Schedule a demo Watch a video Watch a video Securing the cloud enterprise:
 Navigating the complexities of cloud network security In today's digital landscape, securing application connectivity is more critical than ever. 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. The comprehensive cloud network security suite Unifying security across your applications Application context to cloud network risk mapping Unmatched network security posture Compliance management Application visibility Unified security across hybrid environments Application visibility Application context Unified security policy management Automate security & compliance Streamlined change management ACE’s application first approach simplifies cloud network security with: Deep visibility Map and secure your cloud applications. Gain deep visibility into your cloud network and address over 150 cloud-specific risks including vulnerabilities in security groups, cloud firewalls, and container configurations. Consistent enforcement Apply unified security policies across your cloud and on-premises environments, ensuring consistent protection for all your applications. Automated change management Streamline updates and reduce errors with automated workflows for security policy changes and configuration updates. ACE is the comprehensive cloud network security platform you need to protect your organization. Elevate your cloud network security with ACE ACE provides a comprehensive suite of capabilities to help you secure your cloud network security, including: Unified security & compliance across hybrid environments Seamlessly extend security policy visibility, compliance and change automation across cloud and on-premises infrastructures. Application 
visibility Automatically discover application dependencies and traffic flows across multi-cloud environments. Compliance management across the hybrid environment Monitor your compliance posture across your entire hybrid environment, ensuring adherence to industry standards and regulations. Unmatched network security posture Over 150+ network security policy risks checks plus customize risks enabling unique segmentation or zero trust policy enforcement. Application context to cloud network risk mapping Map cloud network security risks to applications. By using ACE, you can significantly improve the network security of your applications and reduce the risk of a data breach. Ready to secure your applications? Trusted by over 2,200 organizations worldwide, including 20 of the Fortune 50, AlgoSec is the preferred choice for enterprises seeking robust network security solutions. How much will ACE cost and how much will it save your company? Check the ACE ROI calculator for more information. Take the next step: AlgoSec Cloud Enterprise Cloud connectivity without compromise Learn more 6 best practices to stay secure in the hybrid cloud   Read eBook AlgoSec cloud product demo Watch it now Schedule a demo today and experience the future of network security. Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue