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Tsippi Dach, Director of Communications at AlgoSec, explores the relationship between NetOps and SecOps and explains why they are the... DevOps The importance of bridging NetOps and SecOps in network management 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 4/16/21 Published Tsippi Dach, Director of Communications at AlgoSec, explores the relationship between NetOps and SecOps and explains why they are the perfect partnership The IT landscape has changed beyond recognition in the past decade or so. The vast majority of businesses now operate largely in the cloud, which has had a notable impact on their agility and productivity. A recent survey of 1,900 IT and security professionals found that 41 percent or organizations are running more of their workloads in public clouds compared to just one-quarter in 2019. Even businesses that were not digitally mature enough to take full advantage of the cloud will have dramatically altered their strategies in order to support remote working at scale during the COVID-19 pandemic. However, with cloud innovation so high up the boardroom agenda, security is often left lagging behind, creating a vulnerability gap that businesses can little afford in the current heightened risk landscape. The same survey found the leading concern about cloud adoption was network security (58%). Managing organizations’ networks and their security should go hand-in-hand, but, as reflected in the survey, there’s no clear ownership of public cloud security. Responsibility is scattered across SecOps, NOCs and DevOps, and they don’t collaborate in a way that aligns with business interests. We know through experience that this siloed approach hurts security, so what should businesses do about it? How can they bridge the gap between NetOps and SecOps to keep their network assets secure and prevent missteps? Building a case for NetSecOps Today’s digital infrastructure demands the collaboration, perhaps even the convergence, of NetOps and SecOps in order to achieve maximum security and productivity. While the majority of businesses do have open communication channels between the two departments, there is still a large proportion of network and security teams working in isolation. This creates unnecessary friction, which can be problematic for service-based businesses that are trying to deliver the best possible end-user experience. The reality is that NetOps and SecOps share several commonalities. They are both responsible for critical aspects of a business and have to navigate constantly evolving environments, often under extremely restrictive conditions. Agility is particularly important for security teams in order for them to keep pace with emerging technologies, yet deployments are often stalled or abandoned at the implementation phase due to misconfigurations or poor execution. As enterprises continue to deploy software-defined networks and public cloud architecture, security has become even more important to the network team, which is why this convergence needs to happen sooner rather than later. We somehow need to insert the network security element into the NetOps pipeline and seamlessly make it just another step in the process. If we had a way to automatically check whether network connectivity is already enabled as part of the pre-delivery testing phase, that could, at least, save us the heartache of deploying something that will not work. Thankfully, there are tools available that can bring SecOps and NetOps closer together, such as Cisco ACI , Cisco Secure Workload and AlgoSec Security Management Solution . Cisco ACI, for instance, is a tightly coupled policy-driven solution that integrates software and hardware, allowing for greater application agility and data center automation. Cisco Secure Workload (previously known as Tetration), is a micro-segmentation and cloud workload protection platform that offers multi-cloud security based on a zero-trust model. When combined with AlgoSec, Cisco Secure Workload is able to map existing application connectivity and automatically generate and deploy security policies on different network security devices, such as ACI contract, firewalls, routers and cloud security groups. So, while Cisco Secure Workload takes care of enforcing security at each and every endpoint, AlgoSec handles network management. This is NetOps and SecOps convergence in action, allowing for 360-degree oversight of network and security controls for threat detection across entire hybrid and multi-vendor frameworks. While the utopian harmony of NetOps and SecOps may be some way off, using existing tools, processes and platforms to bridge the divide between the two departments can mitigate the ‘silo effect’ resulting in stronger, safer and more resilient operations. We recently hosted a webinar with Doug Hurd from Cisco and Henrik Skovfoged from Conscia discussing how you can bring NetOps and SecOps teams together with Cisco and AlgoSec. You can watch the recorded session here . Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... 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In today’s dynamic digital landscape, the security of hybrid networks has taken center stage. As organizations increasingly adopt cloud... Hybrid Cloud Security Management Hybrid network security: Azure Firewall and AlgoSec solutions Joseph Hallman 2 min read Joseph Hallman 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 10/30/23 Published In today’s dynamic digital landscape, the security of hybrid networks has taken center stage. As organizations increasingly adopt cloud solutions, like Azure, the complexities of securing hybrid networks have grown significantly. In this blog post, we’ll provide an overview of the key products and solutions presented in the recent webinar with Microsoft, highlighting how they address these challenges. Azure Firewall: Key features Azure Firewall, a cloud-native firewall offers robust features and benefits. It boasts high availability, auto-scalability, and requires minimal maintenance. Key capabilities include: Filtering and securing both network and application traffic. Support for source NAT and destination NAT configurations. Built-in threat intelligence to identify and block suspicious traffic. Three SKUs catering to different customer needs, with the Premium SKU offering advanced security features. Premium features encompass deep packet inspection, intrusion detection and prevention, web content filtering, and filtering based on web categories. Azure Firewall seamlessly integrates with other Azure services like DDoS protection, API gateway, private endpoints, and Sentinel for security correlation and alerting. AlgoSec: Simplifying hybrid network security AlgoSec specializes in simplifying hybrid network security. Their solutions address challenges such as managing multiple applications across multiple cloud platforms. AlgoSec’s offerings include: Visibility into application connectivity. Risk assessment across hybrid environments. Intelligent automation for efficient and secure network changes. CloudFlow: Managing cloud security policies AlgoSec Cloud, a SaaS solution, centralizes the management of security policies across various cloud platforms. Key features include: A security rating system to identify high-risk Risk assessment for assets Identification of unused rules Detailed policy visibility A powerful traffic simulation query tool to analyze traffic routes and rule effectiveness. Risk-aware change automation to identify potential risks associated with network changes. Integration with Azure Cloudflow seamlessly integrates with Azure, extending support to Azure Firewall and network security groups. It enables in-depth analysis of security risks and policies within Azure subscriptions. AlgoSec’s recent acquisition of Prevasio promises synergistic capabilities, enhancing security and compliance features. Conclusion In the ever-evolving landscape of hybrid networks, Azure Firewall and AlgoSec Cloudflow are powerful allies. Azure Firewall provides robust security for Azure customers, while Cloudflow offers a comprehensive approach to managing security policies across diverse cloud platforms. These solutions empower organizations to master hybrid network security, ensuring the security and efficiency of their applications and services. Resources- View the on-demand webinar here – Understanding your hybrid network security- with AlgoSec and Microsoft Azure.mp4 – AlgoSec Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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

Firewall monitoring is an important part of maintaining strict network security. Every firewall device has an important role to play... Firewall Policy Management 10 Best Firewall Monitoring Software 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 10/24/23 Published Firewall monitoring is an important part of maintaining strict network security. Every firewall device has an important role to play protecting the network, and unexpected flaws or downtime can put the entire network at risk. Firewall monitoring solutions provide much-needed visibility into the status and behavior of your network firewall setup. They make the security of your IT infrastructure observable, enabling you to efficiently deploy resources towards managing and securing traffic flows. This is especially important in environments with multiple firewall hardware providers, where you may need to verify firewalls, routers, load balancers, and more from a central interface. What is the role of Firewall Monitoring Software? Every firewall in your network is a checkpoint that verifies traffic according to your security policy. Firewall monitoring software assesses the performance and reports the status of each firewall in the network. This is important because a flawed or defective firewall can’t do its job properly. In a complex enterprise IT environment, dedicating valuable resources to manually verifying firewalls isn’t feasible. The organization may have hardware firewalls from Juniper or Cisco, software firewalls from Check Point, and additional built-in operating system firewalls included with Microsoft Windows. Manually verifying each one would be a costly and time-consuming workflow that prevents limited security talent from taking on more critical tasks. Additionally, admins would have to wait for individual results from each firewall in the network. In the meantime, the network would be exposed to vulnerabilities that exploit faulty firewall configurations. Firewall monitoring software solves this problem using automation . By compressing all the relevant data from every firewall in the network into a single interface, analysts and admins can immediately detect security threats that compromise firewall security. The Top 10 Firewall Monitoring Tools Right Now 1. AlgoSec AlgoSec enables security teams to visualize and manage complex hybrid networks . It uses a holistic approach to provide instant visibility to the entire network’s security configuration, including cloud and on-premises infrastructure. This provides a single pane of glass that lets security administrators preview policies before enacting them and troubleshoot issues in real-time. 2. Wireshark Wireshark is a widely used network protocol analyzer. It can capture and display the data traveling back and forth on a network in real-time. While it’s not a firewall-specific tool, it’s invaluable for diagnosing network issues and understanding traffic patterns. As an open-source tool, anyone can download WireShark for free and immediately start using it to analyze data packets. 3. PRTG Network Monitor PRTG is known for its user-friendly interface and comprehensive monitoring capabilities. It supports SNMP and other monitoring methods, making it suitable for firewall monitoring. Although it is an extensible and customizable solution, it requires purchasing a dedicated on-premises server. 4. SolarWinds Firewall Security Manager SolarWinds offers a suite of network management tools, and their Firewall Security Manager is specifically designed for firewall monitoring and management. It helps with firewall rule analysis, change management, and security policy optimization. It is a highly configurable enterprise technology that provides centralized incident management features. However, deploying SolarWinds can be complex, and the solution requires specific on-premises hardware to function. 5. FireMon FireMon is a firewall management and analysis platform. It provides real-time visibility into firewall rules and configurations, helping organizations ensure that their firewall policies are compliant and effective. FireMon minimizes security risks related to policy misconfigurations, extending policy management to include multiple security tools, including firewalls. 6. ManageEngine ManageEngine’s OpManager offers IT infrastructure management solutions, including firewall log analysis and reporting. It can help you track and analyze traffic patterns, detect anomalies, and generate compliance reports. It is intuitive and easy to use, but only supports monitoring devices across multiple networks with its higher-tier Enterprise Edition. It also requires the installation of on-premises hardware. 7. Tufin Tufin SecureTrack is a comprehensive firewall monitoring and management solution. It provides real-time monitoring, change tracking, and compliance reporting for firewalls and other network devices. It can automatically discover network assets and provide comprehensive information on network assets, but may require additional configuration to effectively monitor complex enterprise networks. 8. Cisco Firepower Management Center If you’re using Cisco firewalls, the Firepower Management Center offers centralized management and monitoring capabilities. It provides insights into network traffic, threats, and policy enforcement. Cisco simplifies network management and firewall monitoring by offering an intuitive centralized interface that lets admins control Cisco firewall devices directly. 9. Symantec Symantec (now part of Broadcom) offers firewall appliances with built-in monitoring and reporting features. These appliances are known for providing comprehensive coverage to endpoints like desktop workstations, laptops, and mobile devices. Symantec also provides some visibility into firewall configurations, but it is not a dedicated service built for this purpose. 10. Fortinet Fortinet’s FortiAnalyzer is designed to work with Fortinet’s FortiGate firewalls. It provides centralized logging, reporting, and analysis of network traffic and security events. This provides customers with end-to-end visibility into emerging threats on their networks and even includes useful security automation tools. It’s relatively easy to deploy, but integrating it with a complex set of firewalls may take some time. Benefits of Firewall Monitoring Software Enhanced Security Your firewalls are your first line of defense against cyberattacks, preventing malicious entities from infiltrating your network. Threat actors know this, and many sophisticated attacks start with attempts to disable firewalls or overload them with distributed denial of service (DDoS) attacks. Without a firewall monitoring solution in place, you may not be aware such an attack is happening until it’s too late. Even if your firewalls are successfully defending against the attack, your detection and response team should be ready to start mitigating risk the moment the attack is launched. Traffic Control Firewalls can add strain and latency to network traffic. This is especially true of software firewalls, which have to draw computing resources from the servers they protect. Over time, network congestion can become an expensive obstacle to growth, creating bottlenecks that reduce the efficiency of every device on the network. Improperly implemented firewalls can play a major role in these bottlenecks because they have to verify every data packet transferred through them. With firewall monitoring, system administrators can assess the impact of firewall performance on network traffic and use that data to more effectively balance network loads. Organizations can reduce overhead by rerouting data flows and finding low-cost storage options for data they don’t constantly need access to. Real-time Alerts If attackers manage to break through your defenses and disable your firewall, you will want to know immediately. Part of having a strong security posture is building a multi-layered security strategy. Your detection and response team will need real-time updates on the progress of active cyberattacks. They will use this information to free the resources necessary to protect the organization and mitigate risk. Organizations that don’t have real-time firewall monitoring in place won’t know if their firewalls fail against an ongoing attack. This can lead to a situation where the CSIRT team is forced to act without clear knowledge about what they’re facing. Performance Monitoring Poor network performance can have a profound impact on the profitability of an enterprise-sized organization. Drops in network quality cost organizations more than half a million dollars per year , on average. Misconfigured firewalls can contribute to poor network performance if left unaddressed while the organization grows and expands its network. Properly monitoring the performance of the network requires also monitoring the performance of the firewalls that protect it. System administrators should know if overly restrictive firewall policies prevent legitimate users from accessing the data they need. Policy Enforcement Firewall monitoring helps ensure security policies are implemented and enforced in a standardized way throughout the organization. They can help discover the threat of shadow IT networks made by users communicating outside company-approved devices and applications. This helps prevent costly security breaches caused by negligence. Advanced firewall monitoring solutions can also help security leaders create, save, and update policies using templates. The best of these solutions enable security teams to preview policy changes and research elaborate “what-if” scenarios, and update their core templates accordingly. Selecting the Right Network Monitoring Software When considering a firewall monitoring service, enterprise security leaders should evaluate their choice based on the following features: Scalability Ensure the software can grow with your network to accommodate future needs. Ideally, both your firewall setup and the monitoring service responsible for it can grow at the same pace as your organization. Pay close attention to the way the organization itself is likely to grow over time. A large government agency may require a different approach to scalability than an acquisition-oriented enterprise with many separate businesses under its umbrella. Customizability Look for software that allows you to tailor security rules to your specific requirements. Every organization is unique. The appropriate firewall configuration for your organization may be completely different than the one your closest competitor needs. Copying configurations and templates between organizations won’t always work. Your network monitoring solution should be able to deliver performance insights fine-tuned to your organization’s real needs. If there are gaps in your monitoring capabilities, there are probably going to be gaps in your security posture as well. Integration Compatibility with your existing network infrastructure is essential for seamless operation. This is another area where every organization is unique. It’s very rare for two organizations to use the same hardware and software tools, and even then there may be process-related differences that can become obstacles to easy integration. Your organization’s ideal firewall monitoring solution should provide built-in support for the majority of the security tools the organization uses. If there are additional tools or services that aren’t supported, you should feel comfortable with the process of creating a custom integration without too much difficulty. Reporting Comprehensive reporting features provide insights into network activity and threats. It should generate reports that fit the formats your analysts are used to working with. If the learning curve for adopting a new technology is too high, achieving buy-in will be difficult. The best network monitoring solutions provide a wide range of reports into every aspect of network and firewall performance. Observability is one of the main drivers of value in this kind of implementation, and security leaders have no reason to accept compromises here. AlgoSec for Real-time Network Traffic Analysis Real-time network traffic monitoring reduces security risks and enables faster, more significant performance improvements at enterprise scale. Security professionals and network engineers need access to clear, high-quality insight on data flows and network performance, and AlgoSec delivers. One way AlgoSec deepens the value of network monitoring is through the ability to connect applications directly to security policy rules . When combined with real-time alerts, this provides deep visibility into the entire network while reducing the need to conduct time-consuming manual queries when suspicious behaviors or sub-optimal traffic flows are detected. Firewall Monitoring Software: FAQs How Does Firewall Monitoring Software Work? These software solutions manage firewalls so they can identify malicious traffic flows more effectively. They connect multiple hardware and software firewalls to one another through a centralized interface. Administrators can gather information on firewall performance, preview or change policies, and generate comprehensive reports directly. This enables firewalls to detect more sophisticated malware threats without requiring the deployment of additional hardware. How often should I update my firewall monitoring software? Regular updates are vital to stay protected against evolving threats. When your firewall vendor releases an update, it often includes critical security data on the latest emerging threats as well as patches for known vulnerabilities. Without these updates, your firewalls may become vulnerable to exploits that are otherwise entirely preventable. The same is true for all software, but it’s especially important for firewalls. Can firewall monitoring software prevent all cyberattacks? While highly effective, no single security solution is infallible. Organizations should focus on combining firewall monitoring software with other security measures to create a multi-layered security posture. If threat actors successfully disable or bypass your firewalls, your detection and response team should receive a real-time notification and immediately begin mitigating cyberattack risk. Is open-source firewall monitoring software a good choice? Open-source options can be cost-effective, but they may require more technical expertise to configure and maintain. This is especially true for firewall deployments that rely on highly customized configurations. Open-source architecture can make sense in some cases, but may present challenges to scalability and the affordability of hiring specialist talent later on. How do I ensure my firewall doesn’t block legitimate traffic? Regularly review and adjust your firewall rules to avoid false positives. Sophisticated firewall solutions include features for reducing false positives, while simpler firewalls are often unable to distinguish genuine traffic from malicious traffic. Advanced firewall monitoring services can help you optimize your firewall deployment to reduce false positives without compromising security. How does firewall monitoring enhance overall network security? Firewalls can address many security threats, from distributed denial of service (DDoS) attacks to highly technical cross-site scripting attacks. The most sophisticated firewalls can even block credential-based attacks by examining outgoing content for signs of data exfiltration. Firewall monitoring allows security leaders to see these processes in action and collect data on them, paving the way towards continuous security improvement and compliance. What is the role of VPN audits in network security? Advanced firewalls are capable of identifying VPN connections and enforcing rules specific to VPN traffic. However, firewalls are not generally capable of decrypting VPN traffic, which means they must look for evidence of malicious behavior outside the data packet itself. Firewall monitoring tools can audit VPN connections to determine if they are harmless or malicious in nature, and enforce rules for protecting enterprise assets against cybercriminals equipped with secure VPNs . What are network device management best practices? Centralizing the management of network devices is the best way to ensure optimal network performance in a rapid, precise way. Organizations that neglect to centralize firewall and network device management have to manually interact with increasingly complex fleets of network hardware, software applications, and endpoint devices. This makes it incredibly difficult to make changes when needed, and increases the risks associated with poor change management when they happen. What are the metrics and notifications that matter most for firewall monitoring? Some of the important parameters to pay attention to include the volume of connections from new or unknown IP addresses, the amount of bandwidth used by the organization’s firewalls, and the number of active sessions on at any given time. Port information is especially relevant because so many firewall rules specify actions based on the destination port of incoming traffic. Additionally, network administrators will want to know how quickly they receive notifications about firewall issues and how long it takes to resolve those issues. What is the role of bandwidth and vulnerability monitoring? Bandwidth monitoring allows system administrators to find out which users and hosts consume the most bandwidth, and how network bandwidth is shared among various protocols. This helps track network performance and provides visibility into security threats that exploit bandwidth issues. Denial of service (DoS) attacks are a common cyberattack that weaponizes network bandwidth. What’s the difference between on-premises vs. cloud-based firewall monitoring? Cloud-based firewall monitoring uses software applications deployed as cloud-enabled services while on-premises solutions are physical hardware solutions. Physical solutions must be manually connected to every device on the network, while cloud-based firewall monitoring solutions can automatically discover assets and IT infrastructure immediately after being deployed. What is the role of configuration management? Updating firewall configurations is an important part of maintaining a resilient security posture. Organizations that fail to systematically execute configuration changes on all assets on the network run the risk of forgetting updates or losing track of complex policies and rules. Automated firewall monitoring solutions allow admins to manage configurations more effectively while optimizing change management. What are some best practices for troubleshooting network issues? Monitoring tools offer much-needed visibility to IT professionals who need to address network problems. These tools help IT teams narrow down the potential issues and focus their time and effort on the most likely issues first. Simple Network Management Protocol (SNMP) monitoring uses a client-server application model to collect information running on network devices. This provides comprehensive data about network devices and allows for automatic discovery of assets on the network. What’s the role of firewall monitoring in Windows environments? Microsoft Windows includes simple firewall functionality in its operating system platform, but it is best-suited to personal use cases on individual endpoints. Organizations need a more robust solution for configuring and enforcing strict security rules, and a more comprehensive way to monitor Windows-based networks as a whole. Platforms like AlgoSec help provide in-depth visibility into the security posture of Windows environments. How do firewall monitoring tools integrate with cloud services? Firewall monitoring tools provide observability to cloud-based storage and computing services like AWS and Azure. Cloud-native monitoring solutions can ingest network traffic coming to and from public cloud providers and make that data available for security analysts. Enterprise security teams achieve this by leveraging APIs to automate the transfer of network performance data from the cloud provider’s infrastructure to their own monitoring platform. What are some common security threats and cyberattacks that firewalls can help mitigate? Since firewalls inspect every packet of data traveling through the network perimeter, they play a critical role detecting and mitigating many different threats and attacks. Simple firewalls can block unsophisticated denial-of-service (DoS) attacks and detect known malware variants. Next-generation firewalls can prevent data breaches by conducting deep packet analysis, identifying compromised applications and user accounts, and even blocking sensitive data from leaving the network altogether. What is the importance of network segmentation and IP address management? Network segmentation protects organizations from catastrophic data breaches by ensuring that even successful cyberattacks are limited in scope. If attackers compromise one part of the network, they will not necessarily have access to every other part. Security teams achieve segmentation in part by effectively managing network IP addresses according to a robust security policy and verifying the effects of policy changes using monitoring software. Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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

Containers aren’t VMs. They’re a great lightweight deployment solution, but they’re only as secure as you make them. You need to keep... Cloud Security Best Practices for Docker Containers’ Security 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 7/27/20 Published Containers aren’t VMs. They’re a great lightweight deployment solution, but they’re only as secure as you make them. You need to keep them in processes with limited capabilities, granting them only what they need. A process that has unlimited power, or one that can escalate its way there, can do unlimited damage if it’s compromised. Sound security practices will reduce the consequences of security incidents. Don’t grant absolute power It may seem too obvious to say, but never run a container as root. If your application must have quasi-root privileges, you can place the account within a user namespace , making it the root for the container but not the host machine. Also, don’t use the –privileged flag unless there’s a compelling reason. It’s one thing if the container does direct I/O on an embedded system, but normal application software should never need it. Containers should run under an owner that has access to its own resources but not to other accounts. If a third-party image requires the –privileged flag without an obvious reason, there’s a good chance it’s badly designed if not malicious. Avoid running a Docker socket in a container. It gives the process access to the Docker daemon, which is a useful but dangerous power. It includes the ability to control other containers, images, and volumes. If this kind of capability is necessary, it’s better to go through a proper API. Grant privileges as needed Applying the principle of least privilege minimizes container risks. A good approach is to drop all capabilities using –cap-drop=all and then enabling the ones that are needed with –cap-add . Each capability expands the attack surface between the container and its environment. Many workloads don’t need any added capabilities at all. The no-new-privileges flag under security-opt is another way to protect against privilege escalation. Dropping all capabilities does the same thing, so you don’t need both. Limiting the system resources which a container guards not only against runaway processes but against container-based DoS attacks. Beware of dubious images When possible, use official Docker images. They’re well documented and tested for security issues, and images are available for many common situations. Be wary of backdoored images . Someone put 17 malicious container images on Docker Hub, and they were downloaded over 5 million times before being removed. Some of them engaged in cryptomining on their hosts, wasting many processor cycles while generating $90,000 in Monero for the images’ creator. Other images may leak confidential data to an outside server. Many containerized environments are undoubtedly still running them. You should treat Docker images with the same caution you’d treat code libraries, CMS plugins, and other supporting software, Use only code that comes from a trustworthy source and is delivered through a reputable channel. Other considerations It should go without saying, but you need to rebuild your images regularly. The libraries and dependencies that they use get security patches from time to time, and you need to make sure your containers have them applied. On Linux, you can gain additional protection from security profiles such as secomp and AppArmor . These modules, used with the security-opt settings, let you set policies that will be automatically enforced. Container security presents its distinctive challenges. Experience with traditional application security helps in many ways, but Docker requires an additional set of practices. Still, the basics apply as much as ever. Start with trusted code. Don’t give it the power to do more than it needs to do. Use the available OS and Docker features for enhancing security. Monitor your systems for anomalous behavior. If you take all these steps, you’ll ward off the large majority of threats to your Docker environment. Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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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What is Firewall Traffic Analysis? Firewall traffic analysis (FTA) is a network security operation that grants visibility into the data... Firewall Policy Management Firewall Traffic Analysis: The Complete Guide 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 10/24/23 Published What is Firewall Traffic Analysis? Firewall traffic analysis (FTA) is a network security operation that grants visibility into the data packets that travel through your network’s firewalls. Cybersecurity professionals conduct firewall traffic analysis as part of wider network traffic analysis (NTA) workflows. The traffic monitoring data they gain provides deep visibility into how attacks can penetrate your network and what kind of damage threat actors can do once they succeed. NTA vs. FTA Explained NTA tools provide visibility into things like internal traffic inside the data center, inbound VPN traffic from external users, and bandwidth metrics from Internet of Things (iOT) endpoints. They inspect on-premises devices like routers and switches, usually through a unified, vendor-agnostic interface. Network traffic analyzers do inspect firewalls, but might stop short of firewall-specific network monitoring and management. FTA tools focus more exclusively on traffic patterns through the organization’s firewalls. They provide detailed information on how firewall rules interact with traffic from different sources. This kind of tool might tell you how a specific Cisco firewall conducts deep packet inspection on a certain IP address, and provide broader metrics on how your firewalls operate overall. It may also provide change management tools designed to help you optimize firewall rules and security policies . Firewall Rules Overview Your firewalls can only protect against security threats effectively when they are equipped with an optimized set of rules. These rules determine which users are allowed to access network assets and what kind of network activity is allowed. They play a major role in enforcing network segmentation and enabling efficient network management. Analyzing device policies for an enterprise network is a complex and time-consuming task. Minor mistakes can lead to critical risks remaining undetected and expose network devices to cyberattacks. For this reason, many security leaders use automated risk management solutions that include firewall traffic analysis. These tools perform a comprehensive analysis of firewall rules and communicate the risks of specific rules across every device on the network. This information is important because it will inform the choices you make during real-time traffic analysis. Having a comprehensive view of your security risk profile allows you to make meaningful changes to your security posture as you analyze firewall traffic. Performing Real-Time Traffic Analysis AlgoSec Firewall Analyzer captures information on the following traffic types: External IP addresses Internal IP addresses (public and private, including NAT addresses) Protocols (like TCP/IP, SMTP, HTTP, and others) Port numbers and applications for sources and destinations Incoming and outgoing traffic Potential intrusions The platform also supports real-time network traffic analysis and monitoring. When activated, it will periodically inspect network devices for changes to their policy rules, object definitions, audit logs, and more. You can view the changes detected for individual devices and groups, and filter the results to find specific network activities according to different parameters. For any detected change, Firewall Analyzer immediately aggregates the following data points: Device – The device where the changes happened. Date/Time – The exact time when the change was made. Changed by – Tells you which administrator performed the change. Summary – Lists the network assets impacted by the change. Many devices supported by Firewall Analyzer are actually systems of devices that work together. You can visualize the relationships between these assets using the device tree format. This presents every device as a node in the tree, giving you an easy way to manage and view data for individual nodes, parents nodes, and global categories. For example, Firewall Analyzer might discover a redundant rule copied across every firewall in your network. If its analysis shows that the rule triggers frequently, it might recommend moving to a higher node on the device tree. If it turns out the rule never triggers, it may recommend adjusting the rule or deleting it completely. If the rule doesn’t trigger because it conflicts with another firewall rule, it’s clear that some action is needed. Importance of Visualization and Reporting Open source network analysis tools typically work through a command-line interface or a very simple graphic user interface. Most of the data you can collect through these tools must be processed separately before being communicated to non-technical stakeholders. High-performance firewall analysis tools like AlgoSec Firewall Analyzer provide additional support for custom visualizations and reports directly through the platform. Visualization allows non-technical stakeholders to immediately grasp the importance of optimizing firewall policies, conducting netflow analysis, and improving the organization’s security posture against emerging threats. For security leaders reporting to board members and external stakeholders, this can dramatically transform the success of security initiatives. AlgoSec Firewall Analyzer includes a Visualize tab that allows users to create custom data visualizations. You can save these visualizations individually or combine them into a dashboard. Some of the data sources you can use to create visualizations include: Interactive searches Saved searches Other saved visualizations Traffic Analysis Metrics and Reports Custom visualizations enhance reports by enabling non-technical audiences to understand complex network traffic metrics without the need for additional interpretation. Metrics like speed, bandwidth usage, packet loss, and latency provide in-depth information about the reliability and security of the network. Analyzing these metrics allows network administrators to proactively address performance bottlenecks, network issues, and security misconfigurations. This helps the organization’s leaders understand the network’s capabilities and identify the areas that need improvement. For example, an organization that is planning to migrate to the cloud must know whether its current network infrastructure can support that migration. The only way to guarantee this is by carefully measuring network performance and proactively mitigating security risks. Network traffic analysis tools should do more than measure simple metrics like latency. They need to combine latency into complex performance indicators that show how much latency is occuring, and how network conditions impact those metrics. That might include measuring the variation in delay between individual data packets (jitter), Packet Delay Variation (PDV), and others. With the right automated firewall analysis tool, these metrics can help you identify and address security vulnerabilities as well. For example, you could automate the platform to trigger alerts when certain metrics fall outside safe operating parameters. Exploring AlgoSec’s Network Traffic Analysis Tool AlgoSec Firewall Analyzer provides a wide range of operations and optimizations to security teams operating in complex environments. It enables firewall performance improvements and produces custom reports with rich visualizations demonstrating the value of its optimizations. Some of the operations that Firewall Analyzer supports include: Device analysis and change tracking reports. Gain in-depth data on device policies, traffic, rules, and objects. It analyzes the routing table that produces a connectivity diagram illustrating changes from previous reports on every device covered. Traffic and routing queries. Run traffic simulations on specific devices and groups to find out how firewall rules interact in specific scenarios. Troubleshoot issues that emerge and use the data collected to prevent disruptions to real-world traffic. This allows for seamless server IP migration and security validation. Compliance verification and reporting. Explore the policy and change history of individual devices, groups, and global categories. Generate custom reports that meet the requirements of corporate regulatory standards like Sarbanes-Oxley, HIPAA, PCI DSS, and others. Rule cleanup and auditing. Identify firewall rules that are either unused, timed out, disabled, or redundant. Safely remove rules that fail to improve your security posture, improving the efficiency of your firewall devices. List unused rules, rules that don’t conform to company policy, and more. Firewall Analyzer can even re-order rules automatically, increasing device performance while retaining policy logic. User notifications and alerts. Discover when unexpected changes are made and find out how those changes were made. Monitor devices for rule changes and send emails to pre-assigned users with device analyses and reports. Network Traffic Analysis for Threat Detection and Response By monitoring and inspecting network traffic patterns, firewall analysis tools can help security teams quickly detect and respond to threats. Layer on additional technologies like Intrusion Detection Systems (IDS), Network Detection and Response (NDR), and Threat Intelligence feeds to transform network analysis into a proactive detection and response solution. IDS solutions can examine packet headers, usage statistics, and protocol data flows to find out when suspicious activity is taking place. Network sensors may monitor traffic that passes through specific routers or switches, or host-based intrusion detection systems may monitor traffic from within a host on the network. NDR solutions use a combination of analytical techniques to identify security threats without relying on known attack signatures. They continuously monitor and analyze network traffic data to establish a baseline of normal network activity. NDR tools alert security teams when new activity deviates too far from the baseline. Threat intelligence feeds provide live insight on the indicators associated with emerging threats. This allows security teams to associate observed network activities with known threats as they develop in real-time. The best threat intelligence feeds filter out the huge volume of superfluous threat data that doesn’t pertain to the organization in question. Firewall Traffic Analysis in Specific Environments On-Premises vs. Cloud-hosted Environments Firewall traffic analyzers exist in both on-premises and cloud-based forms. As more organizations migrate business-critical processes to the cloud, having a truly cloud-native network analysis tool is increasingly important. The best of these tools allow security teams to measure the performance of both on-premises and cloud-hosted network devices, gathering information from physical devices, software platforms, and the infrastructure that connects them. Securing the Internet of Things It’s also important that firewall traffic analysis tools take Internet of Things (IoT) devices in consideration. These should be grouped separately from other network assets and furnished with firewall rules that strictly segment them. Ideally, if threat actors compromise one or more IoT devices, network segmentation won’t allow the attack to spread to other parts of the network. Conducting firewall analysis and continuously auditing firewall rules ensures that the barriers between network segments remain viable even if peripheral assets (like IoT devices) are compromised. Microsoft Windows Environments Organizations that rely on extensive Microsoft Windows deployments need to augment the built-in security capabilities that Windows provides. On its own, Windows does not offer the kind of in-depth security or visibility that organizations need. Firewall traffic analysis can play a major role helping IT decision-makers deploy technologies that improve the security of their Windows-based systems. Troubleshooting and Forensic Analysis Firewall analysis can provide detailed information into the causes of network problems, enabling IT professionals to respond to network issues more quickly. There are a few ways network administrators can do this: Analyzing firewall logs. Log data provides a wealth of information on who connects to network assets. These logs can help network administrators identify performance bottlenecks and security vulnerabilities that would otherwise go unnoticed. Investigating cyberattacks. When threat actors successfully breach network assets, they can leave behind valuable data. Firewall analysis can help pinpoint the vulnerabilities they exploited, providing security teams with the data they need to prevent future attacks. Conducting forensic analysis on known threats. Network traffic analysis can help security teams track down ransomware and malware attacks. An organization can only commit resources to closing its security gaps after a security professional maps out the killchain used by threat actors to compromise network assets. Key Integrations Firewall analysis tools provide maximum value when integrated with other security tools into a coherent, unified platform. Security information and event management (SIEM) tools allow you to orchestrate network traffic analysis automations with machine learning-enabled workflows to enable near-instant detection and response. Deploying SIEM capabilities in this context allows you to correlate data from different sources and draw logs from devices across every corner of the organization – including its firewalls. By integrating this data into a unified, centrally managed system, security professionals can gain real-time information on security threats as they emerge. AlgoSec’s Firewall Analyzer integrates seamlessly with leading SIEM solutions, allowing security teams to monitor, share, and update firewall configurations while enriching security event data with insights gleaned from firewall logs. Firewall Analyzer uses a REST API to transmit and receive data from SIEM platforms, allowing organizations to program automation into their firewall workflows and manage their deployments from their SIEM. Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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

Product Marketing Manager AlgoSec Cloud Navigating Compliance in the Cloud 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 6/29/25 Published Cloud adoption isn't just soaring; it's practically stratospheric. Businesses of all sizes are leveraging the agility, scalability, and innovation that cloud environments offer. Yet, hand-in-hand with this incredible growth comes an often-overlooked challenge: the increasing complexities of maintaining compliance. Whether your organization grapples with industry-specific regulations like HIPAA for healthcare, PCI DSS for payment processing, SOC 2 for service organizations, or simply adheres to stringent internal governance policies, navigating the ever-shifting landscape of cloud compliance can feel incredibly daunting. It's akin to staring at a giant, knotted ball of spaghetti, unsure where to even begin untangling. But here’s the good news: while it demands attention and a strategic approach, staying compliant in the cloud is far from an impossible feat. This article aims to be your friendly guide through the compliance labyrinth, offering practical insights and key considerations to help you maintain order and assurance in your cloud environments. The foundation: Understanding the Shared Responsibility Model Before you even think about specific regulations, you must grasp the Shared Responsibility Model . This is the bedrock of cloud compliance, and misunderstanding it is a common pitfall that can lead to critical security and compliance gaps. In essence, your cloud provider (AWS, Azure, Google Cloud, etc.) is responsible for the security of the cloud – that means the underlying infrastructure, the physical security of data centers, the global network, and the hypervisors. However, you are responsible for the security in the cloud . This includes your data, your configurations, network traffic protection, identity and access management, and the applications you deploy. Think of it like a house: the cloud provider builds and secures the house (foundation, walls, roof), but you’re responsible for what you put inside it, how you lock the doors and windows, and who you let in. A clear understanding of this division is paramount for effective cloud security and compliance. Simplify to conquer: Centralize your compliance efforts Imagine trying to enforce different rules for different teams using separate playbooks – it's inefficient and riddled with potential for error. The same applies to cloud compliance, especially in multi-cloud environments. Juggling disparate compliance requirements across multiple cloud providers manually is not just time-consuming; it's a recipe for errors, missed deadlines, and a constant state of anxiety. The solution? Aim for a unified, centralized approach to policy enforcement and auditing across your entire multi-cloud footprint. This means establishing consistent security policies and compliance controls that can be applied and monitored seamlessly, regardless of which cloud platform your assets reside on. A unified strategy streamlines management, reduces complexity, and significantly lowers the risk of non-compliance. The power of automation: Your compliance superpower Manual compliance checks are, to put it mildly, an Achilles' heel in today's dynamic cloud environments. They are incredibly time-consuming, prone to human error, and simply cannot keep pace with the continuous changes in cloud configurations and evolving threats. This is where automation becomes your most potent compliance superpower. Leveraging automation for continuous monitoring of configurations, access controls, and network flows ensures ongoing adherence to compliance standards. Automated tools can flag deviations from policies in real-time, identify misconfigurations before they become vulnerabilities, and provide instant insights into your compliance posture. Think of it as having an always-on, hyper-vigilant auditor embedded directly within your cloud infrastructure. It frees up your security teams to focus on more strategic initiatives, rather than endless manual checks. Prove it: Maintain comprehensive audit trails Compliance isn't just about being compliant; it's about proving you're compliant. When an auditor comes knocking – and they will – you need to provide clear, irrefutable, and easily accessible evidence of your compliance posture. This means maintaining comprehensive, immutable audit trails . Ensure that all security events, configuration changes, network access attempts, and policy modifications are meticulously logged and retained. These logs serve as your digital paper trail, demonstrating due diligence and adherence to regulatory requirements. The ability to quickly retrieve specific audit data is critical during assessments, turning what could be a stressful scramble into a smooth, evidence-based conversation. The dynamic duo: Regular review and adaptation Cloud environments are not static. Regulations evolve, new services emerge, and your own business needs change. Therefore, compliance in the cloud is never a "set it and forget it" task. It requires a dynamic approach: regular review and adaptation . Implement a robust process for periodically reviewing your compliance controls. Are they still relevant? Are there new regulations or updates you need to account for? Are your existing controls still effective against emerging threats? Adapt your policies and controls as needed to ensure continuous alignment with both external regulatory demands and your internal security posture. This proactive stance keeps you ahead of potential issues rather than constantly playing catch-up. Simplify Your Journey with the Right Tools Ultimately, staying compliant in the cloud boils down to three core pillars: clear visibility into your cloud environment, consistent and automated policy enforcement, and the demonstrable ability to prove adherence. This is where specialized tools can be invaluable. Solutions like AlgoSec Cloud Enterprise can truly be your trusted co-pilot in this intricate journey. It's designed to help you discover all your cloud assets across multiple providers, proactively identify compliance risks and misconfigurations, and automate policy enforcement. By providing a unified view and control plane, it gives you the confidence that your multi-cloud environment not only meets but also continuously maintains the strictest regulatory requirements. Don't let the complexities of cloud compliance slow your innovation or introduce unnecessary risk. Embrace strategic approaches, leverage automation, and choose the right partners to keep those clouds compliant and your business secure. Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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

Insecure Service Protocols and Ports Okay, we all have them… they’re everyone’s dirty little network security secrets that we try not to... Risk Management and Vulnerabilities Removing insecure protocols In networks Matthew Pascucci 2 min read Matthew Pascucci 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 7/15/14 Published Insecure Service Protocols and Ports Okay, we all have them… they’re everyone’s dirty little network security secrets that we try not to talk about. They’re the protocols that we don’t mention in a security audit or to other people in the industry for fear that we’ll be publicly embarrassed. Yes, I’m talking about cleartext protocols which are running rampant across many networks. They’re in place because they work, and they work well, so no one has had a reason to upgrade them. Why upgrade something if it’s working right? Wrong. These protocols need to go the way of records, 8-tracks and cassettes (many of these protocols were fittingly developed during the same era). You’re putting your business and data at serious risk by running these insecure protocols. There are many insecure protocols that are exposing your data in cleartext, but let’s focus on the three most widely used ones: FTP, Telnet and SNMP. FTP (File Transfer Protocol) This is by far the most popular of the insecure protocols in use today. It’s the king of all cleartext protocols and one that needs to be smitten from your network before it’s too late. The problem with FTP is that all authentication is done in cleartext which leaves little room for the security of your data. To put things into perspective, FTP was first released in 1971, almost 45 years ago. In 1971 the price of gas was 40 cents a gallon, Disneyland had just opened and a company called FedEx was established. People, this was a long time ago. You need to migrate from FTP and start using an updated and more secure method for file transfers, such as HTTPS, SFTP or FTPS. These three protocols use encryption on the wire and during authentication to secure the transfer of files and login. Telnet If FTP is the king of all insecure file transfer protocols then telnet is supreme ruler of all cleartext network terminal protocols. Just like FTP, telnet was one of the first protocols that allowed you to remotely administer equipment. It became the defacto standard until it was discovered that it passes authentication using cleartext. At this point you need to hunt down all equipment that is still running telnet and replace it with SSH, which uses encryption to protect authentication and data transfer. This shouldn’t be a huge change unless your gear cannot support SSH. Many appliances or networking gear running telnet will either need the service enabled or the OS upgraded. If both of these options are not appropriate, you need to get new equipment, case closed. I know money is an issue at times, but if you’re running a 45 year old protocol on your network with the inability to update it, you need to rethink your priorities. The last thing you want is an attacker gaining control of your network via telnet. Its game over at this point. SNMP (Simple Network Management Protocol) This is one of those sneaky protocols that you don’t think is going to rear its ugly head and bite you, but it can! escortdate escorts . There are multiple versions of SNMP, and you need to be particularly careful with versions 1 and 2. For those not familiar with SNMP, it’s a protocol that enables the management and monitoring of remote systems. Once again, the strings can be sent via cleartext, and if you have access to these credentials you can connect to the system and start gaining a foothold on the network, including managing, applying new configurations or gaining in-depth monitoring details of the network. In short, it a great help for attackers if they can get hold of these credentials. Luckily version 3.0 of SNMP has enhanced security that protects you from these types of attacks. So you must review your network and make sure that SNMP v1 and v2 are not being used. These are just three of the more popular but insecure protocols that are still in heavy use across many networks today. By performing an audit of your firewalls and systems to identify these protocols, preferably using an automated tool such as AlgoSec Firewall Analyzer , you should be able to pretty quickly create a list of these protocols in use across your network. It’s also important to proactively analyze every change to your firewall policy (again preferably with an automated tool for security change management ) to make sure no one introduces insecure protocol access without proper visibility and approval. Finally, don’t feel bad telling a vendor or client that you won’t send data using these protocols. If they’re making you use them, there’s a good chance that there are other security issues going on in their network that you should be concerned about. It’s time to get rid of these protocols. They’ve had their usefulness, but the time has come for them to be sunset for good. Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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

Information security is vital to business continuity. Organizations trust their IT teams to enable innovation and business transformation... Risk Management and Vulnerabilities How to optimize the security policy management lifecycle 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 Information security is vital to business continuity. Organizations trust their IT teams to enable innovation and business transformation but need them to safeguard digital assets in the process. This leads some leaders to feel that their information security policies are standing in the way of innovation and business agility. Instead of rolling new a new enterprise application and provisioning it for full connectivity from the start, security teams demand weeks or months of time to secure those systems before they’re ready. But this doesn’t mean that cybersecurity is a bottleneck to business agility. The need for speedier deployment doesn’t automatically translate to increased risk. Organizations that manage application connectivity and network security policies using a structured lifecycle approach can improve security without compromising deployment speed. Many challenges stand between organizations and their application and network connectivity goals. Understanding each stage of the lifecycle approach to security policy change management is key to overcoming these obstacles. Challenges to optimizing security policy management ` Complex enterprise infrastructure and compliance requirements A medium-sizded enterprise may have hundreds of servers, systems, and security solutions like firewalls in place. These may be spread across several different cloud providers, with additional inputs from SaaS vendors and other third-party partners. Add in strict regulatory compliance requirements like HIPAA , and the risk management picture gets much more complicated. Even voluntary frameworks like NIST heavily impact an organization’s information security posture, acceptable use policies, and more – without the added risk of non-compliance. Before organizations can optimize their approach to security policy management, they must have visibility and control over an increasingly complex landscape. Without this, making meaningful progress of data classification and retention policies is difficult, if not impossible. Modern workflows involve non-stop change When information technology teams deploy or modify an application, it’s in response to an identified business need. When those deployments get delayed, there is a real business impact. IT departments now need to implement security measures earlier, faster, and more comprehensively than they used to. They must conduct risk assessments and security training processes within ever-smaller timeframes, or risk exposing the organization to vulnerabilities and security breaches . Strong security policies need thousands of custom rules There is no one-size-fits-all solution for managing access control and data protection at the application level. Different organizations have different security postures and security risk profiles. Compliance requirements can change, leading to new security requirements that demand implementation. Enterprise organizations that handle sensitive data and adhere to strict compliance rules must severely restrict access to information systems. It’s not easy to achieve PCI DSS compliance or adhere to GDPR security standards solely through automation – at least, not without a dedicated change management platform like AlgoSec . Effectively managing an enormous volume of custom security rules and authentication policies requires access to scalable security resources under a centralized, well-managed security program. Organizations must ensure their security teams are equipped to enforce data security policies successfully. Inter-department communication needs improvement Application deliver managers, network architects, security professionals, and compliance managers must all contribute to the delivery of new application projects. Achieving clear channels of communication between these different groups is no easy task. In most enterprise environments, these teams speak different technical languages. They draw their data from internally siloed sources, and rarely share comprehensive documentation with one another. In many cases, one or more of these groups are only brought in after everyone else has had their say, which significantly limits the amount of influence they can have. The lifecycle approach to managing IT security policies can help establish a standardized set of security controls that everyone follows. However, it also requires better communication and security awareness from stakeholders throughout the organization. The policy management lifecycle addresses these challenges in five stages ` Without a clear security policy management lifecycle in place, most enterprises end up managing security changes on an ad hoc basis. This puts them at a disadvantage, especially when security resources are stretched thin on incident response and disaster recovery initiatives. Instead of adopting a reactive approach that delays application releases and reduces productivity, organizations can leverage the lifecycle approach to security policy management to address vulnerabilities early in the application development lifecycle. This leaves additional resources available for responding to security incidents, managing security threats, and proactively preventing data breaches. Discover and visualize application connectivity The first stage of the security policy management lifecycle revolves around mapping how your apps connect to each other and to your network setup. The more details can include in this map, the better prepared your IT team will be for handling the challenges of policy management. Performing this discovery process manually can cost enterprise-level security teams a great deal of time and accuracy. There may be thousands of devices on the network, with a complex web of connections between them. Any errors that enter the framework at this stage will be amplified through the later stages – it’s important to get things right at this stage. Automated tools help IT staff improve the speed and accuracy of the discovery and visualization stage. This helps everyone – technical and nontechnical staff included – to understand what apps need to connect and work together properly. Automated tools help translate these needs into language that the rest of the organization can understand, reducing the risk of misconfiguration down the line. Plan and assess security policy changes Once you have a good understanding of how your apps connect with each other and your network setup, you can plan changes more effectively. You want to make sure these changes will allow the organization’s apps to connect with one another and work together without increasing security risks. It’s important to adopt a vulnerability-oriented perspective at this stage. You don’t want to accidentally introduce weak spots that hackers can exploit, or establish policies that are too complex for your organization’s employees to follow. This process usually involves translating application connectivity requests into network operations terms. Your IT team will have to check if the proposed changes are necessary, and predict what the results of implementing those changes might be. This is especially important for cloud-based apps that may change quickly and unpredictably. At the same time, security teams must evaluate the risks and determine whether the changes are compliant with security policy. Automating these tasks as part of a regular cycle ensures the data is always relevant and saves valuable time. Migrate and deploy changes efficiently The process of deploying new security rules is complex, time-consuming, and prone to error . It often stretches the capabilities of security teams that already have a wide range of operational security issues to address at any given time. In between managing incident response and regulatory compliance, they must now also manually update thousands of security rules over a fleet of complex network assets. This process gets a little bit easier when guided by a comprehensive security policy change management framework. But most organizations don’t unlock the true value of the security policy management lifecycle until they adopt automation. Automated security policy management platforms enable organizations to design rule changes intelligently, migrate rules automatically, and push new policies to firewalls through a zero-touch interface. They can even validate whether the intended changes updated correctly. This final step is especially important. Without it, security teams must manually verify whether their new policies successfully address the vulnerabilities the way they’re supposed to. This doesn’t always happen, leaving security teams with a false sense of security. Maintain configurations using templates Most firewalls accumulate thousands of rules as security teams update them against new threats. Many of these rules become outdated and obsolete over time, but remain in place nonetheless. This adds a great deal of complexity to small-scale tasks like change management, troubleshooting issues, and compliance auditing. It can also impact the performance of firewall hardware , which decreases the overall lifespan of expensive physical equipment. Configuration changes and maintenance should include processes for identifying and eliminating rules that are redundant, misconfigured, or obsolete. The cleaner and better-documented the organization’s rulesets are, the easier subsequent configuration changes will be. Rule templates provide a simple solution to this problem. Organizations that create and maintain comprehensive templates for their current firewall rulesets can easily modify, update, and change those rules without having to painstakingly review and update individual devices manually. Decommission obsolete applications completely Every business application will eventually reach the end of its lifecycle. However, many organizations keep decommissioned security policies in place for one of two reasons: Oversight that stems from unstandardized or poorly documented processes, or; Fear that removing policies will negatively impact other, active applications. As these obsolete security policies pile up, they force the organization to spend more time and resources updating their firewall rulesets. This adds bloat to firewall security processes, and increases the risk of misconfigurations that can lead to cyber attacks. A standardized, lifecycle-centric approach to security policy management makes space for the structured decommissioning of obsolete applications and the rules that apply to them. This improves change management and ensures the organization’s security posture is optimally suited for later changes. At the same time, it provides comprehensive visibility that reduces oversight risks and gives security teams fewer unknowns to fear when decommissioning obsolete applications. Many organizations believe that Security stands in the way of the business – particularly when it comes to changing or provisioning connectivity for applications. It can take weeks, or even months to ensure that all the servers, devices, and network segments that support the application can communicate with each other while blocking access to hackers and unauthorized users. It’s a complex and intricate process. This is because, for every single application update or change, Networking and Security teams need to understand how it will affect the information flows between the various firewalls and servers the application relies on, and then change connectivity rules and security policies to ensure that only legitimate traffic is allowed, without creating security gaps or compliance violations. As a result, many enterprises manage security changes on an ad-hoc basis: they move quickly to address the immediate needs of high-profile applications or to resolve critical threats, but have little time left over to maintain network maps, document security policies, or analyze the impact of rule changes on applications. This reactive approach delays application releases, can cause outages and lost productivity, increases the risk of security breaches and puts the brakes on business agility. But it doesn’t have to be this way. Nor is it necessary for businesses to accept greater security risk to satisfy the demand for speed. Accelerating agility without sacrificing security The solution is to manage application connectivity and network security policies through a structured lifecycle methodology, which ensures that the right security policy management activities are performed in the right order, through an automated, repeatable process. This dramatically speeds up application connectivity provisioning and improves business agility, without sacrificing security and compliance. So, what is the network security policy management lifecycle, and how should network and security teams implement a lifecycle approach in their organizations? Discover and visualize The first stage involves creating an accurate, real-time map of application connectivity and the network topology across the entire organization, including on-premise, cloud, and software-defined environments. Without this information, IT staff are essentially working blind, and will inevitably make mistakes and encounter problems down the line. Security policy management solutions can automate the application connectivity discovery, mapping, and documentation processes across the thousands of devices on networks – a task that is enormously time-consuming and labor-intensive if done manually. In addition, the mapping process can help business and technical groups develop a shared understanding of application connectivity requirements. Plan and assess Once there is a clear picture of application connectivity and the network infrastructure, you can start to plan changes more effectively – ensure that proposed changes will provide the required connectivity, while minimizing the risks of introducing vulnerabilities, causing application outages, or compliance violations. Typically, it involves translating application connectivity requests into networking terminology, analyzing the network topology to determine if the changes are really needed, conducting an impact analysis of proposed rule changes (particularly valuable with unpredictable cloud-based applications), performing a risk and compliance assessment, and assessing inputs from vulnerabilities scanners and SIEM solutions. Automating these activities as part of a structured lifecycle keeps data up-to-date, saves time, and ensures that these critical steps are not omitted – helping avoid configuration errors and outages. Functions Of An Automatic Pool Cleaner An automatic pool cleaner is very useful for people who have a bad back and find it hard to manually operate the pool cleaner throughout the pool area. This type of pool cleaner can move along the various areas of a pool automatically. Its main function is to suck up dirt and other debris in the pool. It functions as a vacuum. Automatic pool cleaners may also come in different types and styles. These include automatic pressure-driven cleaners, automatic suction side-drive cleaners, and robotic pool cleaners. Migrate and deploy Deploying connectivity and security rules can be a labor-intensive and error-prone process. Security policy management solutions automate the critical tasks involved, including designing rule changes intelligently, automatically migrating rules, and pushing policies to firewalls and other security devices – all with zero-touch if no problems or exceptions are detected. Crucially, the solution can also validate that the intended changes have been implemented correctly. This last step is often neglected, creating the false impression that application connectivity has been provided, or that vulnerabilities have been removed, when in fact there are time bombs ticking in the network. Maintain Most firewalls accumulate thousands of rules which become outdated or obsolete over the years. Bloated rulesets not only add complexity to daily tasks such as change management, troubleshooting and auditing, but they can also impact the performance of firewall appliances, resulting in decreased hardware lifespan and increased TCO. Cleaning up and optimizing security policies on an ongoing basis can prevent these problems. This includes identifying and eliminating or consolidating redundant and conflicting rules; tightening overly permissive rules; reordering rules; and recertifying expired ones. A clean, well-documented set of security rules helps to prevent business application outages, compliance violations, and security gaps and reduces management time and effort. Decommission Every business application eventually reaches the end of its life: but when they are decommissioned, its security policies are often left in place, either by oversight or from fear that removing policies could negatively affect active business applications. These obsolete or redundant security policies increase the enterprise’s attack surface and add bloat to the firewall ruleset. The lifecycle approach reduces these risks. It provides a structured and automated process for identifying and safely removing redundant rules as soon as applications are decommissioned while verifying that their removal will not impact active applications or create compliance violations. We recently published a white paper that explains the five stages of the security policy management lifecycle in detail. It’s a great primer for any organization looking to move away from a reactive, fire-fighting response to security challenges, to an approach that addresses the challenges of balancing security and risk with business agility. Download your copy here . Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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

Prof. Avishai Wool, AlgoSec co-founder and CTO, stresses the importance of getting the often-overlooked function of managing network... Professor Wool Bridging Network Security Gaps with Better Network Object Management 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 4/13/22 Published Prof. Avishai Wool, AlgoSec co-founder and CTO, stresses the importance of getting the often-overlooked function of managing network objects right, particularly in hybrid or multi-vendor environments Using network traffic filtering solutions from multiple vendors makes network object management much more challenging. Each vendor has its own management platform, which often forces network security admins to define objects multiple times, resulting in a counter effect. First and foremost, this can be an inefficient use of valuable resources from a workload bottlenecking perspective. Secondly, it creates a lack of naming consistency and introduces a myriad of unexpected errors, leading to security flaws and connectivity problems. This can be particularly applicable when a new change request is made. With these unique challenges at play, it begs the question: Are businesses doing enough to ensure their network objects are synchronized in both legacy and greenfield environments? What is network object management? At its most basic, the management of network objects refers to how we name and define “objects” within a network. These objects can be servers, IP addresses, or groups of simpler objects. Since these objects are subsequently used in network security policies, it is imperative to simultaneously apply a given rule to an object or object group. On its own, that’s a relatively straightforward method of organizing the security policy. But over time, as organizations reach scale, they often end up with large quantities of network objects in the tens of thousands, which typically lead to critical mistakes. Hybrid or multi-vendor networks Let’s take name duplication as an example. Duplication on its own is bad enough due to the wasted resource, but what’s worse is when two copies of the same name have two distinctly different definitions. Let’s say we have a group of database servers in Environment X containing three IP addresses. This group is allocated a name, say “DBs”. That name is then used to define a group of database servers in Environment Y containing only two IP addresses because someone forgot to add in the third. In this example, the security policy rule using the name DBs would look absolutely fine to even a well-trained eye, because the names and definitions it contained would seem identical. But the problem lies in what appears below the surface: one of these groups would only apply to two IP addresses rather than three. As in this case, minor discrepancies are commonplace and can quickly spiral into more significant security issues if not dealt with in the utmost time-sensitive manner. It’s important to remember that accuracy is the name in this game. If a business is 100% accurate in the way it handles network object management, then it has the potential to be 100% efficient. The Bottom Line The security and efficiency of hybrid multi-vendor environments depend on an organization’s digital hygiene and network housekeeping. The naming and management of network objects aren’t particularly glamorous tasks. Having said that, everything from compliance and automation to security and scalability will be far more seamless and risk averse if taken care of correctly. To learn more about network object management and why it’s arguably more important now than ever before, watch our webcast on the subject or read more in our resource hub . Schedule a demo Related Articles 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 5 Multi-Cloud Environments Cloud Security 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