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Explore upcoming Algosec events to learn about the latest in network security, policy management, and compliance from industry experts Events Exhibition Frankfurt May 22, 2024 - May 23, 2024 Cloud and Cyber Expo – Frankfurt Messe Frankfurt Booth L070 Hall 8 Read More AlgoSec Events London June 05, 2024 Algocity London Good Hotel Western Gateway, Royal Victoria Dock London, E16 1FA 5th of June, 6PM. Read More Exhibition National Harbor, MD June 03, 2024 - June 05, 2024 Gartner Security & Risk Management Summit – US Gaylord National Resort & Convention Center, National Harbor, MD Read More Exhibition London June 04, 2024 - June 06, 2024 Infosec London Booth B69 Read More Exhibition Las Vegas June 02, 2024 - June 06, 2024 Cisco Live US 2024 Mandalay Bay Convention Center, Las Vegas, NV Booth 5960 in World of Solutions Read More Exhibition Philadelphia June 10-12, 2024 AWS re:Inforce Pennsylvania Convention Center, Philadelphia, PA AlgoSec Booth: 501 Read More Exhibit, Speaking Session Las Vegas August 27-29, 2024 Cisco GSX FY25 Mandalay Bay Hotel, Las Vegas, NV Booth number: 23 Read More Exhibition Bengaluru August 30th, 2024 Dine With DevOps Sheraton Grand Whitefield Hotel, Bengaluru Read More AlgoSec Event Riyadh September 3rd, 2024 AlgoCity Riyadh Voco, Riyadh Read More AlgoSec Event Dubai September 5th, 2024 AlgoCity Dubai Ritz Carlton, JBR, Dubai Read More Exhibition Atlanta, GA, US September 5, 2024 Mission Security 2024 The Westin Atlanta Perimeter North, Atlanta, GA, US Read More Exhibition Riyadh September 10th, 2024 MENA ISC with Amiviz 2024 Hilton Riyadh Hotel & Residences, Riyadh Booth number – P01 Booth: Pod 4 Read More Exhibition Toronto September 11, 2024 AWS Summit Toronto 2024 Metro Toronto Convention Centre, Toronto, Canada Booth number: 325 Read More Exhibition Montreal, QC, Canada September 11-12, 2024 GoSec 24 Palais des Congrès de Montréal, Montreal, QC, Canada Read More Exhibition Kansas City, MO, US September 18, 2024 2024 OptivCon Kansas City Arrowhead Stadium, Kansas City, MO, US Read More Exhibition Monaco 9th – 12th October, 2024 Les Assises Monaco Booth number: B08 Read More Exhibition Singapore October 15th -17th GovWare Singapore Sands Expo and Convention Centre Booth number – F20 | Booth E Read More Exhibition Dubai October 14th -18th Gitex Dubai World Trade Center Booth number – Hall 24 | A45 | Booth 7 Read More Exhibition Nurenberg Messe 22nd – 24th October , 2024 IT-SA 2024 Nurenberg Messe Booth number 7A-614 Read More Exhibition Melbourne, MCEC November 11th -14th Nov CISCO Live Melbourne Booth number – Stand S1 Read More Exhibition Malham | Saudi Arabia November 26th -28th Nov Black HAT MEA Booth number – Hall 1 | G 10 | Booth 7 Read More AlgoSec Event Washington, DC June 10th, 2025 Gartner Happy Hour Event Washington, DC Read More Exhibition San Diego, CA 8-12 June, 2025 Cisco Live San Diego, CA San Diego, CA Booth #2041 Read More Exhibition Ontario, CA June 13th, 2025 CXO Cyber Training Day & Dinner Ontario, CA Read More Exhibition Indiana, US July 31st, 2025 (IN) Nug Indianapolis Indiana, US Read More Exhibit Atlanta August 20th, 2025 Mission: Security’ 25 Westin Atlanta Perimeter North, Atlanta, GA Read More Exhibit, Speaking Session Las Vegas 26-28 of August, 2025 Cisco GSX FY26 Mandalay Bay Hotel Read More Exhibit Minneapolis September 10th, 2025 OptivCon Minneapolis US Bank Stadium Read More Exhibit, Speaking Session Mexico City, Mexico September 30 – October 1, 2025 Infosecurity Mexico Centro Banamex, Mexico City, Mexico Read More AlgoSec Event Nurenburg October 7th, 2025 ITSA EXPO Nurenburg Read More Exhibition Monaco 8-11 October, 2025 Les Assises Monaco Read More Exhibition Dubai 13-17 October, 2025 GITEX Dubai Read More Exhibition Orlando, FL 27-29 October, 2025 InfoSec World Orlando, FL Read More Exhibit Philadelphia October 29th, 2025 GPSEC Philadelphia Convene, Philadelphia, PA Read More Exhibit Phoenix October 30, 2025 OptivCon Phoenix Phoenix, AR Read More Exhibit Wastlake October 29-31, 2025 ISS+ Cleveland Wastlake, Ohio Read More Exhibition Melbourne 10-13 November, 2025 Cisco Live Melbourne Read More Exhibition Riyadh 24-26 November, 2025 Black Hat Riyadh Read More Exhibit Philadelphia December 5th, 2025 B Sides Philly 2025 Live Casino Hotel, 900 Packer Ave., Philadelphia, PA 19148 Read More Exhibit Las Vegas, NV March 9-13th, 2026 Fortinet Acceleter Mandalay Bay Convention Center Read More Exhibit San Francisco, CA March 23-26th, 2026 RSA Conference 2026 Moscone Center Read More Exhibit Las Vegas, NV May 31-June 4th, 2026 Cisco Live 2026 Mandalay Bay Convention Center Read More Region Event type Date No upcoming events. Visit us soon for new events Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

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I spend my days talking with customers and prospects around their security solutions, primarily regarding securing application... Hybrid Cloud Security Management Navigating the currents of cybersecurity trends Eric Jeffery 2 min read Eric Jeffery 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. cloudsecurity, hybridcloud, hybridcloudsecurity Tags Share this article 7/13/23 Published I spend my days talking with customers and prospects around their security solutions, primarily regarding securing application connectivity. Every conversation takes its own direction. Nevertheless, I hear similar challenges and goals across industries. I heard from a manufacturing firm that cost constraints require they centralize on Microsoft. An oil and gas company mentioned their needs to align their Operating Technology (OT) environment with their corporate technology solutions (IT). A healthcare organization let me know they were asked to use more Cisco technology and decommission competitive solutions. A financial services firm stated that they were looking to consolidate with zScaler thus eliminating numerous other security solutions. A second financial services firm inquired about AlgoSec Cloud offerings , so they ensure proper monitoring and security for their Cloud deployments. These themes appear and reappear daily, highlighting key trends throughout information security. The older I get, the more I understand how “the more things change, the more they stay the same.” Trends fall perfectly into this colloquialism, as we see organizations routinely move towards newer, hotter, and hopefully more powerful technologies. Working directly with customers of cybersecurity technology, I see similarities with direction and desire for future technical goals. Some of these I’ve seen before, such as centralization and consolidation. Cloud technologies have been around for a decade or more, but I consider this a current trend due to Cloud’s nature and diversity within the technology space. While specific trends come and go, the idea of trends remains the same. Cybersecurity professionals should understand current trends around the industry and see how these movements can improve their security maturity. In the fast-paced realm of cybersecurity, trends constantly emerge and evolve, shaping the landscape in which organizations operate. As I engage with customers and prospects, I uncover recurring patterns and goals that drive the industry forward. Understanding these trends is essential for cybersecurity professionals to strengthen their defenses and adapt to emerging threats. In this blog post, we will dive into the prevailing trends in cybersecurity today, providing insights to help organizations navigate the ever-changing currents. Centralization and consolidation: Empowering organizational control One significant trend is the movement towards centralization and consolidation. Centralization involves bringing technology resources into a unified location or under a cohesive solution. Consolidation focuses on streamlining vendors or technical suites to improve efficiency and reduce costs. For instance, organizations are exploring enterprise licensing options, such as those offered by Microsoft, which provide bundled services like MS Teams, O365, and MS Defender. This consolidation empowers businesses to replace multiple tools with integrated Microsoft technologies, resulting in cost savings and streamlined operations. Enterprise licensing grows in popularity (and could very well be a trend in and of itself) providing organizations an easy way to save money while using a consolidated solution. The most common enterprise license that I run into comes from Microsoft. Businesses that have certain license levels receive additional services such as MS Teams, O365, MS Defender, or other Microsoft technologies at either no or reduced cost. This capability empowers businesses to replace Zoom and WebEx with MS Teams. On the security front companies replace Crowdstrike, McAfee, Norton, and other endpoint protection solutions with MS Defender. For endpoint vulnerability management, Nexpose and Nessus see displacement by MS Defender Vulnerability Management. QRadar, Splunk, Exabeam and other SIEM lose out to Microsoft Sentinel. With a Cisco relationship, companies can potentially save money substituting Illumio or Guardicore in lieu of Cisco Secure Workload (formerly Tetration). With cost management sitting atop the list of priorities for CFO’s , consolidation is a consummate method for technology executives to align with this consideration. Consolidation trends reoccur regularly, especially during financial turmoil. Organizations looking to align technology with financial and business concerns should look to this trend and determine if/where benefits align. After consolidation, I hear a lot about centralization. While customers don’t use this word, at the core, this is what they are looking for. The main technical consideration around this consolidation falls under secure access services edge, known as SASE . SASE inherently centralizes security inside a robust environment that passes customer traffic. COVID-19 introduced a severe need to create secure solutions for remote workers. While SASE began pre-2020, the virus really launched this business (as it did with teleconferencing, a trend back in 2020 and 2021). Entities using SASE pass end user traffic through a central location which provides numerous security services. These offerings include virtual private networks (VPN), proxy, web-filtering, virus protection, spam protection, and many others. Each of these technologies also lends themselves to the consolidation trend tying both movements together. Organizations looking to cut costs procure SASE, align this with numerous information technology teams (networks, Cloud, security, etc.) and double up on trends. Embracing the power of the Cloud The Cloud has revolutionized the information technology landscape, and cyber security is no exception. Organizations are increasingly leveraging Cloud technology as part of their digital transformation journeys. From compliance to network security, application security, and identity management, the Cloud offers a multitude of benefits. It enables organizations to offload hardware maintenance, software upgrades, and data center costs while providing scalability and flexibility. My customers look to not only expand in single clouds, primarily AWS, MS Azure, and Google Cloud, they are going across Clouds creating hybrid deployments. Hybrid solutions enhance the need for security as cross deployments require extensive monitoring and review ensuring zero gaps. Cloud attacks happen more often than ever and with this trend continuing, industry must understand and secure these environments. The importance of staying informed To thrive in the ever-changing world of cyber security, professionals must stay informed about the latest trends. Whether it’s for cost optimization, enhanced security, or delivering innovative services, organizations need to be aware of opportunities to improve their information technology landscapes. Complacency can be detrimental, and understanding the current trends allows businesses to align their goals, enhance operational capacity, and safeguard their digital assets effectively. Centralization, consolidation, and Cloud technologies are at the forefront of today’s trends, offering organizations the means to grow, add value, and protect their data. In the dynamic realm of cyber security, staying ahead of the curve is crucial for organizations seeking to fortify their defenses. Centralization, consolidation, and Cloud technologies are driving the industry forward. By understanding and embracing these trends, businesses can align their strategies, enhance security postures, and capitalize on growth opportunities. As the currents of cyber security trends continue to shift, it’s essential to navigate these waters with agility and adaptability. By doing so, organizations can confidently steer towards success in the ever-evolving world of cyber security. For more information on hybrid cloud security, please check out the latest Managing Cybersecurity podcast. #cloudsecurity #hybridcloud #HybridCloudSecurity 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

Linux containers aren’t new. In fact, this technology was invented 20 years ago. In 2013, Docker entered the scene and revolutionized... Cloud Security Operation “Red Kangaroo”: Industry’s First Dynamic Analysis of 4M Public Docker Container Images 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 12/1/20 Published Linux containers aren’t new. In fact, this technology was invented 20 years ago. In 2013, Docker entered the scene and revolutionized Linux containers by offering an easy-to-use command line interface (CLI), an engine, and a registry server. Combined, these technologies have concealed all the complexity of building and running containers, by offering one common industry standard . As a result, Docker’s popularity has sky-rocketed, rivalling Virtual Machines, and transforming the industry. In order to locate and share Docker container images, Docker is offering a service called Docker Hub . Its main feature, repositories , allows the development community to push (upload) and pull (download) container images. With Docker Hub, anyone in the world can download and execute any public image, as if it was a standalone application. Today, Docker Hub accounts over 4 million public Docker container images . With 8 billion pulls (downloads) in January 2020 and growing , its annualized image pulls should top 100 billion this year. For comparison , Google Play has 2.7M Android apps in its store, with a download rate of 84 billion downloads a year. How many container images currently hosted at Docker Hub are malicious or potentially harmful? What sort of damage can they inflict? What if a Docker container image downloaded and executed malware at runtime? Is there a reliable way to tell that? What if a compromised Docker container image was downloaded by an unsuspecting customer and used as a parent image to build and then deploy a new container image into production, practically publishing an application with a backdoor built into it? Is there any way to stop that from happening? At Prevasio, we asked ourselves these questions multiple times. What we decided to do has never been done before. The Challenge At Prevasio, we have built a dynamic analysis sandbox that uses the same principle as a conventional sandbox that ‘detonates’ malware in a safe environment. The only difference is that instead of ‘detonating’ an executable file, such as a Windows PE file or a Linux ELF binary, Prevasio Analyzer first pulls (downloads) an image from any container registry, and then ‘detonates’ it in its own virtual environment, outside the organization/customer infrastructure. Using our solution, we then dynamically analyzed all 4 million container images hosted at Docker Hub. In order to handle such a massive volume of images, Prevasio Analyzer was executed non-stop for a period of one month on 800 machines running in parallel. The result of our dynamic scan reveals that: 51 percent of all containers had “critical” vulnerabilities, while 13 percent were classified as “high” and four percent as “moderate” vulnerabilities. Six thousand containers were riddled with cryptominers, hacking tools/pen testing frameworks, and backdoor trojans. While many cryptominers and hacking tools may not be malicious per se, they present a potentially unwanted issue to an enterprise. More than 400 container images (with nearly 600,000 pulls) of weaponized Windows malware crossing over into the world of Linux. This crossover is directly due to the proliferation of cross-platform code (e.g. GoLang, .NET Core and PowerShell Core). Our analysis of malicious containers also shows that quite a few images contain a dynamic payload. That is, an image in its original form does not have a malicious binary. However, at runtime, it might be scripted to download a source of a coinminer, to then compile and execute it. A dynamic analysis sandbox, such as Prevasio Analyzer, is the only solution that provides a behavioral analysis of Docker containers. It is built to reveal malicious intentions of Docker containers by executing them in its own virtual environment, revealing a full scope of their behavior. The whitepaper with our findings is available here . 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

If your firewall shows a notification that it has detected a new network, it means it is doing one of its fundamental jobs properly. But... Firewall Change Management Firewall has detected a new network 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 8/9/23 Published If your firewall shows a notification that it has detected a new network, it means it is doing one of its fundamental jobs properly. But good network security does not stop with just detecting a new network. You will have to analyze the network location, ensure it is authorized to connect with your network, automate this process, and ensure full-on monitoring so that none of the intrusive attempts ever go unnoticed. A good amount of all these tasks can be made more efficient, accurate, and automated with the help of strong network security solutions. What should you do if your firewall has detected an unrecognized network? 1. Analyze the incoming network request If the process is not automated, you might have to check for the incoming network request’s trustworthiness manually. You can check the security certificates associated with the request, check its source, validate with the right information whether this source can be trusted, and then decide whether to allow access. The best way to deal with any new network detection is to automate the authorization by using a strong network security policy that outlines what sources can be trusted, what cannot be trusted, and which decisions require further approval. 2. Analyze your network for any impact In case of an untrusted new network detection and possible intrusion, you should be able to check the impact or effect it has had on your current assets. You should analyze the entire system for performance, feature validation, and asset availability. A quick way to do this would be to use any network visualization product, such as Firewall Analyzer . This tool can also assess how your overall home network will be impacted by any possible security policy 3. Reassess your security policies and improve them In the event of any security incident, you will have to isolate your network, mitigate any impact caused by the intrusion and reset the system to a healthy state. And most importantly, you will have to investigate the incident, figure out the root cause, and fix it. This would require updating your security policies, risk management, and local network security settings. Following up on any security incident is highly recommended so that no unauthorized intrusion attempts go unnoticed and are handled appropriately. And like any other seemingly enormous task, this can be automated too. Check out firewall change management tools to help you implement continuous improvement within your network security management, contributing to network protection. How to setup strong firewall protection Here are some security measures and troubleshooting tips you need to employ to strengthen your Microsoft firewall management and network security. 1. Establish a strong network security policy management To implement a strong network security management framework, you must design the security policies, systems, and solutions as per your operating system. A network security policy framework can help you guide and streamline the security design and guide you with the enforcement of the same. As with any process, policy management should also be a continuously evolving framework and must be managed well to facilitate all the relevant tasks. Use intelligent systems like Algosec’s Algobot to help your firewall admins to carry out their tasks efficiently. And if you are looking to automate the security policy management tasks, you can also check out Fireflow . It helps you automate the security policy change process across the many phases of policy management, from planning to implementation and validation. 2. Visualize the network data Network monitoring is critical to enabling t strong firewall While AI-based alerting and monitoring systems could greatly help automate intrusion detection and notification, certain tasks require human supervision and deep analysis of the network logs. This way, you can not only analyze the network for any intrusion attempts (whether it be through malware sent through a web browser, file sharing, router, ethernet network adapter, or wi-fi) but also get to have a good understanding of your traffic and business trends. Appviz Firewall Analyzer from Algosec is a helpful tool for achieving this functionality. 3. Optimize your firewall configuration Firewall configurations include a broad range of activities that range from designing your firewall solution and choosing the right software/hardware to setting up the firewall rules and management processes. Set these configurations early on with all necessary considerations regarding your environment and applications. This process should also include the overall policy configurations and security rules that define the change process, firewall administration, monitoring, and management operations. Read this resourceful guide to learn more about firewall configuration, its challenges, and guidance on implementation. 4. Ensure cloud compliance Compliance and security go hand in hand in protecting your assets and boosting the overall goodwill and trust associated with your brand. Cloud compliance frameworks provide guidelines and cover most of the pain points of managing cloud security. Staying compliant with these guidelines means that your security is up to date and can be considered on par with the high standards set by these frameworks. 5. Micro-segmentation Micro-segmentation is a domain network security technique that helps you implement flexible security measures for individually segmented data center parts. It is most helpful with protecting your virtual machine implementations as it allows you to deploy specific security measures crafted to fit each virtual machine’s requirements. With security deployed on segmented workloads, your network becomes more resilient to attacks. 6. Perform regular firewall audits To ensure continuous compliance, you must conduct regular audit checks on the status of your firewall settings, policies, and implementations. Gather all the related documents and key information, review your current processes, firewall mechanisms, perform penetration tests, assess the security measures, and optimize as required. Perform a complete risk assessment on your Windows server and fix any issues that might be discovered as part of the audit process. Tips and best practices for enhanced network security 1. Firewall for native cloud applications Make use of cloud-first prioritized firewall solutions to protect your native cloud applications. You need comprehensive visibility on all your cloud assets, ensuring advanced threat detection and protection. This requires a whole set of tools and security applications working together to provide a centralized security system. You will also have to ensure data compliance at all levels as well. You can try to employ native cloud solutions such as the extensive tools provided by Algosec. 2. Use centralized solutions Make use of centralized solutions to manage hybrid and multi-cloud applications so that you have all the important information accessible from a single platform. AlgoSec Cloud from Algosec is an amazing solution to achieve centralized visibility across hybrid and multi-cloud accounts and assets. 3. Follow the best security practices and guidelines Look into the best security practices and guidelines put forth by your cloud vendor and follow them to get the best out of the collective knowledge. You can also use vendor-specific firewall management solutions to help you deal with issues related to specific cloud accounts you might be using. Additionally, having an antivirus like Windows Defender and using a VPN also helps. A good practice to follow in case of uncertainty is to block by default. Any new network or source must be blocked unless specifically permitted by the user. Regarding access privileges, you can follow the principle of least privilege, where users are only granted as many privileges as would be required for their specific roles and responsibilities. Use audit tools for regular auditing and keep improving on any vulnerabilities your firewall may have. To increase the performance of your firewall applications, you can look into how you have set up your firewall rules and optimize them for better performance. Here are some more best practices you can follow when setting up your firewall rules: Document all your rules and firewall configurations across all the devices. Make sure to document every new rule created and keep your documentation up to date. This can help security admins review the rules and optimize them as and when necessary. As mentioned earlier, follow a zero trust policy where you block traffic by default and permit network access only on a need basis. Monitor your firewall logs even when there is no particular security incident to investigate. Regular monitoring and analysis will give you a better understanding of your network traffic and can help you identify suspicious activities early on. Group the firewall rules to boost performance and avoid complications and loopholes. You can hire expert security administrators and security solutions such as Algosec to help review your firewall rules and keep them updated. Firewall management FAQs What can a firewall do? A Windows firewall can be interpreted as similar to a literal wall. It blocks unwanted access to your system and lets you decide whether or not to allow any new network connection or access request. Similar to how a fort works, you only give access to access requests that you trust and block the rest. It is the first defensive setup you can set up for your network security. You can set a list of trusted sources, and the requests from these sources will be given automated access. The rest of the access requests from any other source, be it a third-party network, mobile devices, internet connection, or any other endpoint, can be blocked by your firewall. You can set up firewall rules that dictate which type of requests and sources can be trusted. A firewall can be implemented by using multiple methods. It can be a cloud app, hardware, software, virtualizations, an access-restricted private cloud, and more. A typical firewall ruleset consists of the following specifications: Source address Source port Destination address Destination port Information on whether to block or permit the traffic to the respective address and port criteria. A firewall can be implemented by using multiple methods. It can be a cloud app, hardware, software, virtualizations, an access-restricted private cloud, and more. How does a firewall protect businesses from cyberthreats? The obvious main use of the firewall is to restrict all kinds of unauthorized access, thus protecting your systems from cyberattacks. But it also has several other benefits, such as: Providing data privacy so your work network traffic is guarded from outside public networks. Restricting content access to your private network For instance, educational institutions can block inappropriate sites for their students while in class. Blocking unwanted traffic from ads, spam, and gaming sites. Ensuring data confidentiality and keeping you compliant with security standards. Monitoring all your incoming traffic, helping you analyze your network profile, and helping you gain insights into trending user behavior. Filtering out unwanted traffic and restricting access to certain websites. Providing secure remote access through VPNs and similar remote access mechanisms. What are the most common types of firewalls? Based on the way data is filtered through a firewall, it can be broadly classified into one of the following types: Packet filtering Stateful inspection firewalls Circuit-level gateway firewalls Proxy firewalls Next-generation firewalls (NGFWs) Threat focused NGFWs Virtual firewalls Cloud-native firewalls 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

Tsippi Dach, Director of Communications at AlgoSec, explores what happened during this past summer’s Fastly outage, and explores how your... Application Connectivity Management The great Fastly outage 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 9/29/21 Published Tsippi Dach, Director of Communications at AlgoSec, explores what happened during this past summer’s Fastly outage, and explores how your business can protect itself in the future. The odds are that before June 8th you probably hadn’t heard of Fastly unless you were a customer. It was only when swathes of the internet went down with the 503: Service Unavailable error message that the edge cloud provider started to make headlines . For almost an hour, sites like Amazon and eBay were inaccessible, costing millions of dollars’ worth of revenue. PayPal, which processed roughly $106 million worth of transactions per hour throughout 2020, was also impacted, and disruption at Shopify left thousands of online retail businesses unable to serve customers. While the true cost of losing a significant portion of the internet for almost one hour is yet to be tallied, we do know what caused it. What is Fastly and why did it break the internet? Fastly is a US-based content distribution network (CDN), sometimes referred to as an ‘edge cloud provider.’ CDNs relieve the load on a website’s servers and ostensibly improve performance for end-users by caching copies of web pages on a distributed network of servers that are geographically closer to them. The downside is that when a CDN goes down – due to a configuration error in Fastly’s case – it reveals just how vulnerable businesses are to forces outside of their control. Many websites, perhaps even yours, are heavily dependent on a handful of cloud-based providers. When these providers experience difficulties, the consequences for your business are amplified ten-fold. Not only do you run the risk of long-term and costly disruption, but these weak links can also provide a golden opportunity for bad actors to target your business with malicious software that can move laterally across your network and cause untold damage. How micro-segmentation can help The security and operational risks caused by these outages can be easily mitigated by implementing plans that should already be part of an organization’s cyber resilience strategy. One aspect of this is micro-segmentation , which is regarded as one of the most effective methods to limit the damage of an intrusion or attack and therefore limit large-scale downtime from configuration misfires and cyberattacks. Micro-segmentation is the act of creating secure “zones” in data centers and cloud deployments that allow your company to isolate workloads from one another. In effect, this makes your network security more compartmentalized, so that if a bad actor takes advantage of an outage in order to breach your organization’s network, or user error causes a system malfunction, you can isolate the incident and prevent lateral impact. Simplifying micro-segmentation with AlgoSec Security Management Suite The AlgoSec Security Management Suite employs the power of automation to make it easy for businesses to define and enforce their micro-segmentation strategy, ensuring that it does not block critical business services, and also meets compliance requirements. AlgoSec supports micro-segmentation by: Mapping the applications and traffic flows across your hybrid network Identifying unprotected network flows that do not cross any firewall and are not filtered for an application Automatically identifying changes that will violate the micro-segmentation strategy Ensuring easy management of network security policies across your hybrid network Automatically implementing network security policy changes Automatically validating changes Generating a custom report on compliance with the micro-segmentation policy Find out more about how micro-segmentation can help you boost your security posture, or request your personal demo . 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

Hospitals are increasingly becoming a favored target of cyber criminals. Yet if you think about medical equipment that is vulnerable to... Cyber Attacks & Incident Response Checking the cybersecurity pulse of medical devices Prof. Avishai Wool 2 min read Prof. Avishai Wool 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 6/14/16 Published Hospitals are increasingly becoming a favored target of cyber criminals. Yet if you think about medical equipment that is vulnerable to being hacked at a hospital, you might not immediately think of high-end, critical equipment such as MRI and X-ray scanners, and nuclear medicine devices. After all, these devices go through rigorous approval processes by the US Food & Drug Administration (FDA) before they are approved for safe use on patients. Yet today many, if not most, medical devices, have computers embedded in them, are connected to the hospital network, and often to the internet as well, so they provide a potential attack vector for cyber criminals. In late 2015 security researchers found that thousands of medical devices were vulnerable to attack and exposed to the public Internet. Interestingly, these researchers also found that many of the devices in question were running Windows XP – which is no longer supported or updated by Microsoft – and did not run antivirus software to protect them against malware. This combination raises an obvious security red flag. Ironically, these security vulnerabilities were further exacerbated because of the very FDA approvals process that certifies the devices. The approval process is, quite rightly, extremely rigorous. It is also lengthy and expensive. And if a manufacturer or vendor makes a change to a device, it needed to be re-certified. Until very recently, a ‘change’ to a medical device meant any sort of change – including patching devices’ operating systems and firmware to close off potential network security vulnerabilities. You can see where this is going: making simple updates to medical equipment to improve its defenses against cyberattacks was made that much more difficult and complex for the device manufacturers, because of the need for FDA re-certification every time a change was made. And of course, this potential delay in patching vulnerabilities made it easy for a hacker to try and ‘update’ the device in his own way, for criminal purposes. Hackers are usually not too concerned about getting FDA approval for their work. Fortunately, the FDA released new guidelines last year that allowed equipment manufacturers to patch software as required without undergoing re-certification—provided the change or modification does not ‘significantly affect the safety or effectiveness of the medical device’. That’s good news – but it’s not quite the end of the story. The FDA’s guidelines are only a partial panacea to the overall problem. They overlook the fact that many medical devices are running obsolete operating systems like Windows XP. What’s more, the actual process of applying patches to the computers in medical devices can vary enormously from manufacturer to manufacturer, with some patches needing to be downloaded and applied manually, while others may be pushed automatically. In either case, there could still be a window of weeks, months or even years before the device’s vendor issues a patch for a given vulnerability – a window that a hacker could exploit before the hospital’s IT team becomes aware that the vulnerability exists. This means that hospitals need to take great care when it comes to structuring and segmenting their network . It is vital that connected medical devices – particularly those where the internal OS may be out of date – are placed within defined, segregated segments of the network, and robustly protected with next-generation firewalls, web proxies and other filters. While network segmentation and filtering will not protect unpatched or obsolete operating system, they will ensure that the hospital’s network is secured to the best of its ability . 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

Is it getting harder and harder to keep track of all your cloud assets?  You're not alone. In today's dynamic world of hybrid and... Cloud Security Introducing AlgoSec Cloud Enterprise: Your Comprehensive App-First Cloud Security Solution 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 1/27/25 Published Is it getting harder and harder to keep track of all your cloud assets? You're not alone. In today's dynamic world of hybrid and multi-cloud environments, maintaining clear visibility of your IT infrastructure has never been more complex. 82% of organizations report that lack of visibility is a major factor in cloud security breaches. Traditional tools often fall short, leaving potential security vulnerabilities exposed and your business at risk. But there's good news! Introducing AlgoSec Cloud Enterprise (ACE) , a game-changer for managing and securing your on-premises and cloud networks. ACE provides the visibility, automation, and control you need to protect your business, no matter where your applications reside. What is AlgoSec Cloud Enterprise? AlgoSec Cloud Enterprise (ACE) is a comprehensive application-centric security solution built for the modern cloud enterprise. It empowers organizations to gain complete visibility, enforce consistent policies, and accelerate application delivery across cloud and on-premises environments. AlgoSec Cloud Enterprise (ACE) is the latest addition to AlgoSec's Horizon Platform, a comprehensive suite of security solutions designed to protect your applications and data. By integrating ACE into the Horizon Platform, AlgoSec offers a unified approach to securing your entire IT infrastructure, from on-premises to multi-cloud environments. For existing AlgoSec customers: ACE seamlessly integrates with your current AlgoSec deployments, extending your security posture to encompass the dynamic world of cloud and containers. For new AlgoSec customers: ACE provides a unified solution to manage security across your entire cloud estate, simplifying operations and reducing risk. Key Features and Capabilities ACE is packed with powerful features to help you take control of your application security: Deep application visibility: ACE discovers and maps all your applications and their components, providing a comprehensive view of your application landscape. You gain insights into application dependencies, vulnerabilities, and risks, enabling you to identify and address security gaps proactively. Unified security policy management: Define and enforce consistent security policies across all your environments, from the cloud to on-premises. This ensures uniform protection for all your applications and simplifies security management. Automated security and compliance: Automate critical security tasks, such as vulnerability assessment, compliance monitoring, and security change management. This reduces the risk of human error and frees up your security team to focus on more strategic initiatives. Organizations using automation in their security operations report a 25% reduction in security incidents . Streamlined change management: Accelerate application delivery with automated security workflows. ACE simplifies change management processes, ensuring that security keeps pace with the speed of your business. Maintain a full audit trail of all changes for complete compliance and accountability. Detect and prevent risks across the supply chain and CI/CD pipelines: Identify vulnerabilities in applications and block malicious containerized workloads from compromising business-critical production environments. Addressing Customer Pain Points ACE is designed to solve the real-world challenges faced by security teams today: Reduce application risk: Proactively identify and mitigate vulnerabilities and security threats to your applications. Accelerate application delivery: Streamline security processes and automate change management to speed up deployments. Ensure application compliance: Meet regulatory requirements and industry standards with automated compliance monitoring and reporting. Gain complete visibility: Understand your application landscape and identify potential security risks. Simplify application security management: Manage security policies and controls from a single, unified pane of glass. Prevent vulnerabilities from moving to production Ready to take your application security to the next level? Visit the AlgoSec Cloud Enterprise product page to learn more. Download our datasheet, request a personalized demo, or sign up for a free trial to experience the power of ACE for yourself. We're confident that ACE will revolutionize the way you secure your applications in the cloud. Contact us today to get started! 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

Firewalls are one of the most important cybersecurity solutions in the enterprise tech stack. They can also be the most demanding.... Firewall Change Management 20 Firewall Management Best Practices for Network Security Asher Benbenisty 2 min read Asher Benbenisty 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 10/29/23 Published Firewalls are one of the most important cybersecurity solutions in the enterprise tech stack. They can also be the most demanding. Firewall management is one of the most time-consuming tasks that security teams and network administrators regularly perform. The more complex and time-consuming a task is, the easier it is for mistakes to creep in. Few organizations have established secure network workflows that include comprehensive firewall change management plans and standardized firewall best practices. This makes implementing policy changes and optimizing firewall performance riskier than it needs to be. According to the 2023 Verizon Data Breach Investigation Report, security misconfigurations are responsible for one out of every ten data breaches. ( * ) This includes everything from undetected exceptions in the firewall rule base to outright policy violations by IT security teams. It includes bad firewall configuration changes, routing issues, and non-compliance with access control policies. Security management leaders need to pay close attention to the way their teams update firewall rules, manipulate firewall logs, and establish audit trails. Organizations that clean up their firewall management policies will be better equipped to automate policy enforcement, troubleshooting, and firewall migration. 20 Firewall Management Best Practices Right Now 1. Understand how you arrived at your current firewall policies: Most security leaders inherit someone else’s cybersecurity tech stack the moment they accept the job. One of the first challenges is discovering the network and cataloging connected assets. Instead of simply mapping network architecture and cataloging assets, go deeper. Try to understand the reasoning behind the current rule set. What cyber threats and vulnerabilities was the organization’s previous security leader preparing for? What has changed since then? 2. Implement multiple firewall layers: Layer your defenses by using multiple types of firewalls to create a robust security posture. Configure firewalls to address specific malware risks and cyberattacks according to the risk profile of individual private networks and subnetworks in your environment. This might require adding new firewall solutions, or adding new rules to existing ones. You may need to deploy and manage perimeter, internal, and application-level firewalls separately, and centralize control over them using a firewall management tool. 3. Regularly update firewall rules: Review and update firewall rules regularly to ensure they align with your organization’s needs. Remove outdated or unnecessary rules to reduce potential attack surfaces. Pay special attention to areas where firewall rules may overlap. Certain apps and interfaces may be protected by multiple firewalls with conflicting rules. At best, this reduces the efficiency of your firewall fleet. At worst, it can introduce security vulnerabilities that enable attackers to bypass firewall rules. 4. Apply the principle of least privilege: Apply the principle of least privilege when creating firewall rules . Only grant access to resources that are necessary for specific roles or functions. Remember to remove access from users who no longer need it. This is difficult to achieve with simple firewall tools. You may need policies that can follow users and network assets even as their IP addresses change. Next-generation firewalls are capable of enforcing identity-based policies like this. If your organization’s firewall configuration is managed by an outside firm, that doesn’t mean it automatically applies this principle correctly. Take time to review your policies and ensure no users have unjustified access to critical network resources. . 5. Use network segmentation to build a multi-layered defense: Use network segmentation to isolate different parts of your network. This will make it easier to build and enforce policies that apply the principle of least privilege. If attackers compromise one segment of the network, you can easily isolate that segment and keep the rest secure. Pay close attention to the inbound and outbound traffic flows. Some network segments need to accept flows going in both directions, but many do not. Properly segmented networks deny network traffic traveling along unnecessary routes. You may even decide to build two entirely separate networks – one for normal operations and one for management purposes. If the networks are served by different ISPs, an attack against one may not lead to an attack against the other. Administrators may be able to use the other network to thwart an active cyberattack. 6. Log and monitor firewall activity: Enable firewall logging and regularly review logs for suspicious activities. Implement automated alerts for critical events. Make sure you store firewall logs in an accessible low-cost storage space while still retaining easy access to them when needed. You should be able to pull records like source IP addresses on an as-needed basis. Consider implementing a more comprehensive security information and event management (SIEM) platform. This allows you to capture and analyze log data from throughout your organization in a single place. Analysts can detect and respond to threats more effectively in a SIEM-enabled environment. Consider enabling logging on all permit/deny rules. This will provide you with evidence of network intrusion and help with troubleshooting. It also allows you to use automated tools to optimize firewall configuration based on historical traffic. 7. Regularly test and audit firewall performance: Conduct regular security assessments and penetration tests to identify vulnerabilities. Perform security audits to ensure firewall configurations are in compliance with your organization’s policies. Make sure to preview the results of any changes you plan on making to your organization’s firewall rules. This can be a very complex and time-consuming task. Growing organizations will quickly run out of time and resources to effectively test firewall configuration changes over time. Consider using a firewall change management platform to automate the process. 8. Patch and update firewall software frequently: Keep firewall firmware and software up to date with security patches. Vulnerabilities in outdated software can be exploited, and many hackers actively read update changelogs looking for new exploits. Even a few days’ delay can be enough for enterprising cybercriminals to launch an attack. Like most software updates, firewall updates may cause compatibility issues. Consider implementing a firewall management tool that allows you to preview changes and proactively troubleshoot compatibility issues before downloading updates. 9. Make sure you have a reliable backup configuration: Regularly backup firewall configurations. This ensures you can quickly restore settings in case of a failure or compromise. If attackers exploit a vulnerability that allows them to disable your firewall system, restoring an earlier version may be the fastest way to remediate the attack. When scheduling backups, pay special attention to Recovery Point Objectives (RPO) and Recovery Time Objectives (RTO). RPO is the amount of time you can afford to let pass between backups. RTO is the amount of time it takes to fully restore the compromised system. 10. Deploy a structured change management process: Implement a rigorous change management process for firewall rule modifications. Instead of allowing network administrators and IT security teams to enact ad-hoc changes, establish a proper approval process that includes documenting all changes implemented. This can slow down the process of implementing firewall policy changes and enforcing new rules. However, it makes it much easier to analyze firewall performance over time and generate audit trails after attacks occur. Organizations that automate the process can enjoy both well-documented changes and rapid implementation. 11. Implement intrusion detection and prevention systems (IDPS): Use IDPS in conjunction with firewalls to detect and prevent suspicious or malicious traffic. IDPS works in conjunction with properly configured firewalls to improve enterprise-wide security and enable security teams to detect malicious behavior. Some NGFW solutions include built-in intrusion and detection features as part of their advanced firewall technology. This gives security leaders the ability to leverage both prevention and detection-based security from a single device. 12. Invest in user training and awareness: Train employees on safe browsing habits and educate them about the importance of firewall security. Make sure they understand the cyber threats that firewalls are designed to keep out, and how firewall rules contribute to their own security and safety. Most firewalls can’t prevent attacks that exploit employee negligence. Use firewall training to cultivate a security-oriented office culture that keeps employees vigilant against identity theft , phishing attacks, social engineering, and other cyberattack vectors. Encourage employees to report unusual behavior to IT security team members even if they don’t suspect an attack is underway. 13. Configure firewalls for redundancy and high availability: Design your network with redundancy and failover mechanisms to ensure continuous protection in case of hardware or software failures. Multiple firewalls can work together to seamlessly take over when one goes offline, making it much harder for attackers to capitalize on firewall downtime. Designate high availability firewalls – or firewall clusters – to handle high volume traffic subject to a wide range of security threats. Public-facing servers handling high amounts of inbound traffic typically need extra protection compared to internal assets. Rule-based traffic counters can provide valuable insight into which rules activate the most often. This can help prioritize the most important rules in high-volume usage scenarios. 14. Develop a comprehensive incident response plan: Develop and regularly update an incident response plan that includes firewall-specific procedures for handling security incidents. Plan for multiple different scenarios and run drills to make sure your team is prepared to respond to the real thing when it comes. Consider using security orchestration, automation, and response (SOAR) solutions to create and run automatic incident response playbooks. These playbooks can execute with a single click, instantly engaging additional protections in response to security threats when detected. Be ready for employees and leaders to scrutinize firewall deployments when incidents occur. It’s not always clear whether the source of the issue was the firewall or not. Get ahead of the problem by using a packet analyzer to find out if firewall misconfiguration led to the incident or not early on. 15. Stay ahead of compliance and security regulations: Stay compliant with relevant industry regulations and standards, such as GDPR , HIPAA, or PCI DSS , which may have specific firewall requirements. Be aware of changes and updates to regulatory compliance needs. In an acquisition-oriented enterprise environment, managing compliance can be very difficult. Consider implementing a firewall management platform that provides a centralized view of your entire network environment so you can quickly identify underprotected networks. 16. Don’t forget about documentation: Maintain detailed documentation of firewall configurations, network diagrams, and security policies for reference and auditing purposes. Keep these documents up-to-date so that new and existing team members can use them for reference whenever they need to interact with the organization’s firewall solutions. Network administrators and IT security team members aren’t always the most conscientious documentation creators. Consider automating the process and designating a special role for maintaining and updating firewall documentation throughout the organization. 17. Regularly review and improve firewall performance: Continuously evaluate and improve your firewall management practices based on evolving threats and changing business needs. Formalize an approach to reviewing, updating, and enforcing new rules using data gathered by your current deployment. This process requires the ability to preview policy changes and create complex “what-if” scenarios. Without a powerful firewall change management platform in place, manually conducting this research may be very difficult. Consider using automation to optimize firewall performance over time. 18. Deploy comprehensive backup connectivity: In case of a network failure, ensure there’s a backup connectivity plan in place to maintain essential services. Make sure the plan includes business continuity solutions for mission-critical services as well as security controls that maintain compliance. Consider multiple disaster scenarios that could impact business continuity. Security professionals typically focus on cyberattacks, but power outages, floods, earthquakes, and other natural phenomena can just as easily lead to data loss. Opportunistic hackers may take advantage of these events to strike when they think the organization’s guard is down. 19. Make sure secure remote access is guaranteed: If remote access to your network is required, use secure methods like VPNs and multi-factor authentication (MFA) for added protection. Make sure your firewall policies reflect the organization’s remote-enabled capabilities, and provide a secure environment for remote users to operate in. Consider implementing NGFW solutions that can reliably identify and manage inbound VPN connections without triggering false positives. Be especially wary of firewall rules that automatically deny connections without conducting deeper analysis to find out whether it was for legitimate user access. 20. Use group objects to simplify firewall rules: Your firewall analyzer allows you to create general rules and apply them to group objects, applying the rule to any asset in the group. This allows you to use the same rule set for similar policies impacting different network segments. You can even create a global policy that applies to the whole network and then refine that policy further as you go through each subnetwork. Be careful about nesting object groups inside one another. This might look like clean firewall management, but it can also create problems when the organization grows, and it can complicate change management. You may end up enforcing contradictory rules if your documentation practices can’t keep up. 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

In this guest blog, Jeff Yager from IT Central Station (soon to be PeerSpot), discusses how actual AlgoSec users have been able to... Security Policy Management Securely accelerating application delivery Jeff Yeger 2 min read Jeff Yeger 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 11/15/21 Published In this guest blog, Jeff Yager from IT Central Station (soon to be PeerSpot), discusses how actual AlgoSec users have been able to securely accelerate their app delivery. These days, it is more important than ever for business owners, application owners, and information security professionals to speak the same language. That way, their organizations can deliver business applications more rapidly while achieving a heightened security posture. AlgoSec’s patented platform enables the world’s most complex organizations to gain visibility and process changes at zero-touch across the hybrid network. IT Central Station members discussed these benefits of AlgoSec , along with related issues, in their reviews on the site. Application Visibility AlgoSec allows users to discover, identify, map, and analyze business applications and security policies across their entire networks. For instance, Jacob S., an IT security analyst at a retailer, reported that the overall visibility that AlgoSec gives into his network security policies is high. He said, “It’s very clever in the logic it uses to provide insights, especially into risks and cleanup tasks . It’s very valuable. It saved a lot of hours on the cleanup tasks for sure. It has saved us days to weeks.” “AlgoSec absolutely provides us with full visibility into the risk involved in firewall change requests,” said Aaron Z. a senior network and security administrator at an insurance company that deals with patient health information that must be kept secure. He added, “There is a risk analysis piece of it that allows us to go in and run that risk analysis against it, figuring out what rules we need to be able to change, then make our environment a little more secure. This is incredibly important for compliance and security of our clients .” Also impressed with AlgoSec’s overall visibility into network security policies was Christopher W., a vice president – head of information security at a financial services firm, who said, “ What AlgoSec does is give me the ability to see everything about the firewall : its rules, configurations and usage patterns.” AlgoSec gives his team all the visibility they need to make sure they can keep the firewall tight. As he put it, “There is no perimeter anymore. We have to be very careful what we are letting in and out, and Firewall Analyzer helps us to do that.” For a cyber security architect at a tech services company, the platform helps him gain visibility into application connectivity flows. He remarked, “We have Splunk, so we need a firewall/security expert view on top of it. AlgoSec gives us that information and it’s a valuable contributor to our security environment.” Application Changes and Requesting Connectivity AlgoSec accelerates application delivery and security policy changes with intelligent application connectivity and change automation. A case in point is Vitas S., a lead infrastructure engineer at a financial services firm who appreciates the full visibility into the risk involved in firewall change requests. He said, “[AlgoSec] definitely allows us to drill down to the level where we can see the actual policy rule that’s affecting the risk ratings. If there are any changes in ratings, it’ll show you exactly how to determine what’s changed in the network that will affect it. It’s been very clear and intuitive.” A senior technical analyst at a maritime company has been equally pleased with the full visibility. He explained, “That feature is important to us because we’re a heavily risk-averse organization when it comes to IT control and changes. It allows us to verify, for the most part, that the controls that IT security is putting in place are being maintained and tracked at the security boundaries .” A financial services firm with more than 10 cluster firewalls deployed AlgoSec to check the compliance status of their devices and reduce the number of rules in each of the policies. According to Mustafa K. their network security engineer, “Now, we can easily track the changes in policies. With every change, AlgoSec automatically sends an email to the IT audit team. It increases our visibility of changes in every policy .” Speed and Automation The AlgoSec platform automates application connectivity and security policy across a hybrid network so clients can move quickly and stay secure. For Ilya K., a deputy information security department director at a computer software company, utilizing AlgoSec translates into an increase in security and accuracy of firewall rules. He said, “ AlgoSec ASMS brings a holistic view of network firewall policy and automates firewall security management in very large-sized environments. Additionally, it speeds up the changes in firewall rules with a vendor-agnostic approach.” “The user receives the information if his request is within the policies and can continue the request,” said Paulo A., a senior information technology security analyst at an integrator. He then noted, “Or, if it is denied, the applicant must adjust their request to stay within the policies. The time spent for this without AlgoSec is up to one week, whereas with AlgoSec, in a maximum of 15 minutes we have the request analyzed .” The results of this capability include greater security, a faster request process and the ability to automate the implementation of rules. Srdjan, a senior technical and integration designer at a large retailer, concurred when he said, “ By automating some parts of the work, business pressure is reduced since we now deliver much faster . I received feedback from our security department that their FCR approval process is now much easier. The network team is also now able to process FCRs much faster and with more accuracy.” To learn more about what IT Central Station members think about AlgoSec, visit https://www.itcentralstation.com/products/algosec-reviews 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