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With the rapid proliferation of cloud computing, lean deployment methods, such as containers, have become common practice. According to... Cloud Security Intro to Kubernetes Security Best Practices Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/27/20 Published With the rapid proliferation of cloud computing, lean deployment methods, such as containers, have become common practice. According to CIO.com, 70% of global companies are expected to be running multiple apps simultaneously using a containerized framework, like Kubernetes in the next few years. But as Kubernetes’ use becomes more widespread, so do the vulnerabilities inherent to containerization. According to a 2019 Forbes article , Kubernetes had at least 7,000 identified vulnerabilities at the beginning of 2019 alone. Couple that with the fact that cyber-attacks involving containerization have increased a whopping 240% since 2018, and you’ll understand the value of security should your company use a solution like Kubernetes to handle its container orchestration. What Causes Kubernetes Security Blindspots? To understand how to best optimize your Kubernetes experience, it’s worthwhile to understand the basic ways security issues arise in a containerized framework. Images are the core building blocks of containerization; they are the executable process at the centre of your container. As a result, anything that exposes an image to a broader audience puts the container at risk of being hijacked. One of the primary ways this occurs is by using out-of-date software. Using old software gives malicious actors a small incongruence that they can exploit within the code. Another problem is poorly defined user access roles. If sensible changes aren’t made to an orchestration tool’s default settings, inappropriate parties may have access to alter the container’s core executable. Containerization gives you a way to manage a large number of processes easily and with increased adaptability. As a result, automation makes it impossible to keep your eyes on everything at once. Here are some best practices that can help you counter the wide range of vulnerabilities inherent to containerization and Kubernetes in general. Kubernetes Security Best Practices Given the architecture of the Kubernetes framework, security risks are a constant and evolving threat. Luckily, Google made Kubernetes an open-source application under the auspices of the Cloud Native Computing Foundation where solutions to new security issues are actively crowdsourced by the community. Regardless, there are a number of things that you can do during the build, deployment, and runtime phases to make your Kubernetes implementation more secure. Take care of your images Images are the heart of every container. Executable functions are essential, so images must be well-maintained and in good working order. Only use up-to-date images, scanning them regularly for security issues. As a rule of thumb, you should also avoid including unnecessary tools and functions in your image coding as they can inadvertently give hackers an access route. Ensure that your secrets remain secret The term “secrets” refers to any private information such as login credentials, tokens, or other sensitive data. While it’s not customary to keep sensitive data stored adjacent to the container’s image, the scenario has come up before. Keep secret data as far from the image as possible in order to increase security. Keep up-to-date with scans and security patches The community does a good job of patching Kubernetes when issues arise. If you don’t take the time to update both your OS and Kubernetes’ security, you give malware additional avenues of attack. Updates should be performed at least every nine months, if not more often. Due to the nature of how Kubernetes works, if you are using an outdated version, you could actively be spreading issues when the container is deployed elsewhere. Take advantage of customization to define user roles and access A container orchestration tool like Kubernetes is a complex web running thousands of processes across numerous machines. That means hundreds of end-users involved with the application. Take advantage of Kubernetes administrative functions to clearly define user roles, limiting full access for those who don’t need it. As they say, too many cooks spoil the broth. Keeping Kubernetes Simple and Safe Containers are an agile, lightweight framework for cloud computing, but manually deploying the correct containers to their destinations can quickly become overwhelming. An orchestration tool like Kubernetes is the perfect solution to managing your containerization, but the security risks inherent to this model can be restrictive. By keeping a few key practices in mind when implementing Kubernetes into your workflow, you can help to promote safety while streamlining your processes. To Sum It All Up Kubernetes has become the centrepiece of the cloud Native landscape and a notable advantage for organizations to rapidly manage and deploy their containerized business logic. But certain security best practices must be followed such as working with reliable docker images, properly defined resource quotas, network policies, work with namespaces for access control and authentication\authorization, and more. To learn more about Prevasio integration and security for K8s containers, contact us 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

Security Policy Management with Professor Wool Managing Business Application Connectivity Managing Business Application Connectivity is a whiteboard-style series of lessons that examine the challenges of and provide technical tips for provisioning and decommissioning application connectivity across enterprise networks and data centers. Lesson 1 In this lesson, Professor Wool examines the challenges of managing data center applications and their connectivity requirements. Professor Wool also offers tips for bridging the gap between application owners and network and security teams - to ensure faster, more secure deployment, maintenance and decommissioning of critical applications. Examining the Need for Application-Centric Security Policy Management Watch Lesson 2 In this lesson, Professor Wool discusses how to look at and prioritize network security vulnerabilities in a new way - from the perspective of the business applications in your data center. How to Prioritize Risk from the Business Perspective Watch Lesson 3 In this lesson, Professor Wool examines how to leverage firewall rules for discovering the connectivity requirements of data center applications. Tips to Discover Business Application Connectivity Requirements Watch Lesson 4 In this lesson, Professor Wool examines the challenges of decommissioning business applications and offers recommendations for improving security without impacting network operations by removing firewall rules that are no longer in use. Tips for Secure Decommissioning of Business Applications Watch Lesson 5 How to Automatically Identify Business Application Connectivity Needs from Network Traffic Watch Lesson 6 The Different Data Sources for Application Connectivity Discovery Watch Lesson 7 How to Aggregate Network Flows Into Application Flows Watch Lesson 8 The Benefits of Mapping Firewall Rules to Business Applications Watch Have a Question for Professor Wool? Ask him now 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

The transition to cloud-based environments has ushered in unparalleled efficiency, scalability, and innovation. However, it has also... Hybrid Cloud Security Management Unveiling best practices for a resilient cloud security strategy Malcom Sargla 2 min read Malcom Sargla Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 8/30/23 Published The transition to cloud-based environments has ushered in unparalleled efficiency, scalability, and innovation. However, it has also magnified the importance of fortifying our digital fortresses against an array of potential risks. Considering the increasing reliance on cloud computing, it’s important to find the best practices and strategies that organizations can adopt to enhance their cloud security posture and mitigate the risks associated with cloud-based environments. Navigating the Cloud Security Landscape As organizations race to seize the transformative potential of the cloud, they are faced with a series of profound decisions. Each step forward, though laden with promise, demands a profound understanding of the evolving cloud security landscape. Choosing your guardian: Cloud providers’ security Selecting a cloud provider marks a pivotal choice. The giants of the cloud – AWS, GCP, Azure, Oracle, and IBM – have honed their commitment to delivering secure platforms. These titans weave intricate layers of cutting-edge security technologies and artificial intelligence into their infrastructures, assuring an ironclad foundation for their clients. Here, diversity shines as a beacon of strength. Many organizations, mindful of fault domains and corporate governance, choose a multi-cloud approach. This approach is further empowered by solutions like AlgoSec, streamlining security management across diverse cloud estates. The hybrid conundrum: Security beyond the divide The debate over a cloud-only versus hybrid deployment churns with vigor. It’s not merely a technical decision; it’s an embodiment of an organization’s security philosophy. Retaining an on-premises presence offers a sense of comfort, an insurance policy for vital intellectual property. To navigate the hybrid landscape successfully, a unified security approach is imperative. A single-pane view that seamlessly spans visibility, risk assessment, compliance, and intelligent policy automation is the rudder that guides this ship. Blueprint for secure migration In the digital world, where data and applications surge like currents, migrating to the cloud demands meticulous planning and a steadfast commitment to security. Application Dependency: The heartbeat of cloud migration As applications metamorphose, they weave intricate relationships with their ecosystem. Moving them recklessly can disrupt the very heartbeat of your organization. Consider AlgoSec’s partnerships with Cisco Secure Workload, Illumio, and Guardicore. Through this synergy, applications are mapped, relationships dissected, and policies laid bare. These insights power intelligent remediation, ensuring that policies serve the application, not risk its integrity. The goldilocks move: Finding the right application components When migrating applications, precision is paramount. Moving the right components in tandem is akin to choreographing a symphony. Avoiding ‘hair-pinning’ between cloud and on-premises domains is key to preserving user experience and mitigating egress traffic costs. The mantra: migrate high-dependent application tiers in harmonious unison. Purifying the legacy: Pruning unneeded policies Before the embacing the cloud, make sure to clean your digital canvas. Rid it of unneeded policies, unburden the legacy baggage, and craft a secure foundation. AlgoSec advocates a risk-mitigation approach. Tune, optimize, and refine policies. This digital spring-cleaning ensures that your cloud journey is unmarred by relics of the past. The promise of a secure sky As the digital horizon stretches ever farther, cloud security ascends as both a challenge and an opportunity. With each step we take towards a cloud-powered future, we must arm ourselves with knowledge, tools, and practices that will safeguard our data, applications, and innovations. So, the question of how to mitigate risk becomes not just a query, but a clarion call. A call to weave security into the very fabric of our cloud endeavors. A call to adopt the best practices, to forge ahead with a robust strategy, and to ensure that the cloud’s promise of a brighter future is matched only by its commitment to security. 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

AlgoSec FireFlow Automate and secure policy changes Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

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Webinars [Panel] How Financial Institutions Can Achieve Network Security and Compliance Financial institutions have strict network security requirements, which sometimes hinder innovation and digital transformation. Security and regulatory requirements act as a barrier to innovation. However, financial institutions can enable business innovation, while still achieving network security and compliance. Watch AlgoSec’s panel discussion, as Asher Benbenisty, Director of Product Marketing, and Yitzy Tannenbaum, Product Marketing Manager, discuss how financial institutions can simplify the network security management, reduce risk and ensure continuous compliance. They discuss: How intelligent automation helps overcome security management intricacy How to make sure network changes meet compliance requirements and pass regulatory audits the first time Industry metrics so you can benchmark your own organization as well as see how the finance sector compares to other industries Case studies from other financial institutions September 8, 2020 Yitzy Tannenbaum Product Marketing Manager Asher Benbenisty Director of product marketing Relevant resources Automated Security Policy Allows Financial Institutions to make the Triple Play Keep Reading Security policy management for financial institutions Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Hybrid cloud security uses a combination of on-premises equipment, private cloud deployments, and public cloud platforms to secure an... Uncategorized Top 6 Hybrid Cloud Security Solutions: Key Features for 2024 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 1/15/24 Published Hybrid cloud security uses a combination of on-premises equipment, private cloud deployments, and public cloud platforms to secure an organization’s data, apps, and assets. It’s vital to the success of any organization that uses hybrid cloud network infrastructure. The key factors that make hybrid cloud security different from other types of security solutions are flexibility and agility. Your hybrid cloud security solution must be able to prevent, detect, and respond to threats regardless of the assets they compromise. That means being able to detect anomalous behaviors and enforce policies across physical endpoints, cloud-hosted software-as-a-service (SaaS) deployments, and in public cloud data centers. You need visibility and control wherever your organization stores or processes sensitive data. What is Hybrid Cloud Security? To understand hybrid cloud security, we must first cover exactly what the hybrid cloud is and how it works. Hybrid cloud infrastructure generally refers to any combination of public cloud providers (like AWS, Azure, Google Cloud) and private cloud environments. It’s easy to predict the security challenges hosting some of your organization’s apps on public cloud infrastructure and other apps on its own private cloud. How do you gain visibility across these different environments? How do you address vulnerabilities and misconfiguration risks? Hybrid cloud architecture can create complex problems for security leaders. However, it provides organizations with much-needed flexibility and offers a wide range of data deployment options. Most enterprises use a hybrid cloud strategy because it’s very rare for a large organization to entrust its entire IT infrastructure to a single vendor. As a result, security leaders need to come up with solutions that address the risks unique to hybrid cloud environments. Key Features of Hybrid Cloud Security An optimized hybrid cloud security solution gives the organization a centralized point of reference for managing security policies and toolsets across the entire environment. This makes it easier for security leaders to solve complex problems and detect advanced threats before they evolve into business disruptions. Hybrid cloud infrastructure can actually improve your security posture if managed appropriately. Some of the things you can do in this kind of environment include: Manage security risk more effectively. Lock down your most sensitive and highly regulated data in infrastructure under your direct control, while saving on cloud computing costs by entrusting less sensitive data to a third party. Distribute points of failure. Diversifying your organization’s cloud infrastructure reduces your dependence on any single cloud platform. This amplifies many of the practical benefits of network segmentation. Implement Zero Trust. Hybrid cloud networks can be configured with strict access control and authentication policies. These policies should work without regard to the network’s location, providing a strong foundation for demonstrating Zero Trust . Navigate complex compliance requirements. Organizations with hybrid cloud infrastructure are well-prepared to meet strict compliance requirements that apply to certain regions, like CCPA or GDPR data classification . With the right tools, demonstrating compliance through custom reports is easy. Real-time monitoring and remediation . With the right hybrid cloud security solutions in place, you can gain in-depth oversight into cloud workloads and respond immediately to security incidents when they occur. How Do Hybrid Cloud Security Solutions Work? Integration with Cloud Platforms The first step towards building a hybrid cloud strategy is determining how your cloud infrastructure deployments will interact with one another. This requires carefully reviewing the capabilities of the major public cloud platforms you use and determining your own private cloud integration capabilities. You will need to ensure seamless operation between these platforms while retaining visibility over your entire network. using APIs to programmatically connect different aspects of your cloud environment can help automate some of the most time-intensive manual tasks. For example, you may need to manage security configurations and patch updates across many different cloud resources. This will be very difficult and time-consuming if done manually, but a well-integrated automation-ready policy management solution can make it easy. Security Controls and Measures Your hybrid cloud solution will also need to provide comprehensive tools for managing firewalls and endpoints throughout your environment. These security tools can’t work in isolation — they need consistent policies informed by observation of your organization’s real-world risk profile. That means you’ll need to deploy a centralized solution for managing the policies and rulesets these devices use, and continuously configure them to address the latest threats. You will also need to configure your hybrid cloud network to prevent lateral movement and make it harder for internal threat actors to execute attacks. This is achieved with network segmentation, which partitions different parts of your network into segments that do not automatically accept traffic from one another. Microsegmentation further isolates different assets in your network according to their unique security needs, allowing access only to an exclusive set of users and assets. Dividing cloud workloads and resources into micro-segmented network zones improves network security and makes it harder for threat actors to successfully launch malware and ransomware attacks. It reduces the attack surface and enhances your endpoint security capabilities by enabling you to quarantine compromised endpoints the moment you detect unauthorized activity. How to Choose a Hybrid Cloud Security Provider Your hybrid cloud security provider should offer an extensive range of features that help you optimize your cloud service provider’s security capabilities. It should seamlessly connect your security team to the cloud platforms it’s responsible for protecting, while providing relevant context and visibility into cloud security threats. Here are some of the key features to look out for when choosing a hybrid cloud security provider: Scalability and Flexibility. The solution must scale according to your hybrid environment’s needs. Changing security providers is never easy, and you should project its capabilities well into the future before deciding to go through with the implementation. Pay close attention to usage and pricing models that may not be economically feasible as your organization grows. SLAs and Compliance. Your provider must offer service-level agreements that guarantee a certain level of performance. These SLAs will also play an important role ensuring compliance requirements are always observed, especially in highly regulated sectors like healthcare. Security Posture Assessment. You must be able to easily leverage the platform to assess and improve your overall security posture in a hybrid cloud model. This requires visibility and control over your data, regardless of where it is stored or processed. Not all hybrid cloud security solutions have the integrations necessary to make this feasible. DevSecOps Integration. Prioritize cloud security providers that offer support for integrating security best practices into DevOps, and providing security support early in the software development lifecycle. If your organization plans on building continuous deployment capabilities now or in the future, you will need to ensure your cloud security platform is capable of supporting those workflows. Top 6 Hybrid Cloud Security Solutions 1. AlgoSec AlgoSec is an application connectivity platform that manages security policies across hybrid and multi-cloud environments . It allows security leaders to take control of their apps and security tools, managing and enforcing policies that safeguard cloud services from threats. AlgoSec supports the automation of data security policy changes and allows users to simulate configuration changes across their tech stack. This makes it a powerful tool for in-depth risk analysis and compliance reporting, while giving security leaders the features they need to address complex hybrid cloud security challenges . Key Features: Complete network visualization. AlgoSec intelligently analyzes application dependencies across the network, giving security teams clear visibility into their network topology. Zero-touch change management. Customers can automate application and policy connectivity changes without requiring manual interaction between administrators and security tools. Comprehensive security policy management. AlgoSec lets administrators manage security policies across cloud and on-premises infrastructure, ensuring consistent security throughout the organization. What Do People Say About AlgoSec? AlgoSec is highly rated for its in-depth policy management capabilities and its intuitive, user-friendly interface. Customers praise its enhanced visibility, intelligent automation, and valuable configuration simulation tools. AlgoSec provides security professionals with an easy way to discover and map their network, and scale policy management even as IT infrastructure grows. 2. Microsoft Azure Security Center Microsoft Azure Security Center provides threat protection and unified security management across hybrid cloud workloads. As a leader in cloud computing, Microsoft has equipped Azure Security Center with a wide range of cloud-specific capabilities like advanced analytics, DevOps integrations, and comprehensive access management features into a single cloud-native solution. Adaptive Application Controls leverages machine learning to give users personalized recommendations for whitelisting applications. Just-in-Time VM Access protects cloud infrastructure from brute force attacks by reducing access when virtual machines are not needed. Key Features: Unified security management. Microsoft’s security platform offers visibility both into cloud workflows and non-cloud assets. It can map your hybrid network and enable proactive threat detection across the enterprise tech stack. Continuous security assessments. The platform supports automated security assessments for network assets, services, and applications. It triggers alerts notifying administrators when vulnerabilities are detected. Infrastructure-as-a-service (IaaS) compatibility. Microsoft enables customers to extend visibility and protection to the IaaS layer, providing uniform security and control across hybrid networks. What Do People Say About Microsoft Azure Security Center? Customers praise Microsoft’s hybrid cloud security solution for its user-friendly interface and integration capabilities. However, many users complain about false positives. These may be the result of security tool misconfigurations that lead to unnecessary disruptions and expensive investigations. 3. Amazon AWS Security Hub Amazon AWS Security Hub is a full-featured cloud security posture management solution that centralized security alerts and enables continuous monitoring of cloud infrastructure. It provides a detailed view of security alerts and compliance status across the hybrid environment. Security leaders can use Amazon AWS Security Hub to automate compliance checks, and manage their security posture through a centralized solution. It provides extensive API support and can integrate with a wide variety of additional tools. Key Features: Automated best practice security checks. AWS can continuously check your security practices against a well-maintained set of standards developed by Amazon security experts. Excellent data visualization capabilities. Administrators can customize the Security Hub dashboard according to specific compliance requirements and generate custom reports to demonstrate security performance. Uniform formatting for security findings. AWS uses its own format — the AWS Security Findings Format (ASFF) — to eliminate the need to normalize data across multiple tools and platforms. What Do People Say About Amazon AWS Security Hub? Amazon’s Security Hub is an excellent choice for native cloud security posture management, providing granular control and easy compliance. However, the platform’s complexity and lack of visibility does not resonate well with all customers. Some organizations will need to spend considerable time and effort building comprehensive security reports. 4. Google Cloud Security Command Center Google’s centralized platform helps administrators identify and remediate security risks in Google Cloud and hybrid environments. It is designed to identify misconfigurations and vulnerabilities while making it easier for security leaders to manage regulatory compliance. Some of the key features it offers include real-time threat detection, security health analytics, and risk assessment tools. Google can also simulate the attack path that threat actors might use to compromise cloud networks. Key Features: Multiple service tiers. The standard service tier provides security health analytics and alerts, while the premium tier offers attack path simulations and event threat detection capabilities. AI-generated summaries. Premium subscribers can read dynamically generated summaries of security findings and attack paths in natural language, reducing this technology’s barrier to entry. Cloud infrastructure entitlement management. Google’s platform supports cloud infrastructure entitlement management, which exposes misconfigurations at the principal account level from an identity-based framework What Do People Say About Google Cloud Security Command Center? Customers applaud the feature included in Google’s premium tier for this service, but complain that it can be hard to get. Not all organizations meet the requirements necessary to use this platform’s most advanced features. Once properly implemented and configured, however, it provides state-of-the-art cloud security that integrates well with Google-centric workflows. 5. IBM Cloud Pak for Security IBM’s cloud security service connects disparate data sources across hybrid and multi-cloud environments to uncover hidden threats. It allows hybrid organizations to advance Zero Trust strategies without compromising on operational security. IBM provides its customers with AI-driven insights, seamless integrations with existing IT environments, and data protection capabilities. It’s especially well-suited for enterprise organizations that want to connect public cloud services with legacy technology deployments that are difficult or expensive to modify. Key Features : Open security. This platform is designed to integrate easily with existing security applications, making it easy for customers to scale their security tech stack and improve policy standards across the enterprise. Improved data stewardship. IBM doesn’t require customers to move their data from one place to another. This makes compliance much easier to manage, especially in complex enterprise environments. Threat intelligence integrations. Customers can integrate IBM Cloud Pak with IBM Threat Intelligence Insights to get detailed and actionable insights delivered to cloud security teams. What Do People Say About IBM Cloud Pak? IBM Cloud Pak helps connect security teams and administrators to the content they need in real time. However, it’s a complicated environment with a significant amount of legacy code, well-established workarounds, and secondary components. This impacts usability and makes it less accessible than other entries on this list. 6. Palo Alto Networks Prisma Cloud Palo Alto Networks offers comprehensive cloud-native security across multi-cloud and hybrid environments to customers. Prisma Cloud reduces risk and prevents security breaches at multiple points in the application lifecycle. Some of the key features this solution includes are continuous monitoring, API security, and vulnerability management. It provides comprehensive visibility and control to security leaders managing extensive hybrid cloud deployments. Key Features: Hardens CI/CD pipelines. This solution includes robust features for reducing the attack surface of application development environments and protecting CI/CD pipelines. Secures infrastructure-as-code (IaC) deployments. Extensive coverage for detecting and resolving misconfigurations in IaC templates like Terraform, Kubernetes, ARM, and CloudFormation. Provides context-aware prioritization. Palo Alto Networks addresses open source vulnerabilities and license compliance problems contextually, bringing attention to the most important issues first. What Do People Say About Palo Alto Networks Prisma Cloud? Palo Alto Networks is highly regarded as an enterprise security leader. Many customers praise its products, and Prisma Cloud is no different. However, it comes with a very high price tag that many organizations simply can’t afford. This is especially true when additional integration and implementation costs are factored in. Additionally, some customers have complained about the lack of embedded Identity and Access Management (IAM) controls in the solution. Optimize Hybrid Cloud Security with AlgoSec Security leaders must continually adapt their security deployments to meet evolving cybersecurity threats in hybrid cloud environments. As the threat landscape changes, the organization’s policies and capabilities must adjust to meet new demands. Achieving this level of flexibility is not easy with purely manual configuration and policy workflows. Human error is a major element in many data breaches, and organizations must develop security best practices that address that risk. Implementing the right cloud security platform can make a significant difference when it comes to securing complex hybrid cloud deployments. The ability to simulate in-depth configuration changes and automate the deployment of those changes across the entire environment offers significant advantages to operational security. Consider making AlgoSec your cybersecurity co-pilot for identifying vulnerabilities and addressing security gaps. Avoid costly misconfigurations and leverage intelligent automation to make your hybrid cloud environment more secure than ever before. 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

Network vulnerability scanning provides in-depth insight into your organization’s security posture and highlights the specific types of... Network Security 5 Best Network Vulnerability Scanning Tools in 2024 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 2/11/24 Published Network vulnerability scanning provides in-depth insight into your organization’s security posture and highlights the specific types of vulnerabilities attackers may exploit when targeting it. These tools work by systematically scanning your network environment — including all desktops, laptops, mobile endpoints, servers, and other assets for known weaknesses and misconfigurations. Your analyzer then produces a detailed report that tells you exactly how hackers might breach your systems. Find out how these important tools contribute to successfully managing your security policies and protecting sensitive assets from cybercriminals and malware. What is Network Vulnerability Management? Network vulnerability scanners are cybersecurity solutions typically delivered under a software-as-a-service (SaaS) model. These solutions match your network asset configurations with a comprehensive list of known misconfigurations and security threats, including unpatched software, open ports, and other security issues. By comparing system details against a comprehensive database of known vulnerabilities, network scanning helps pinpoint areas of weakness that could potentially be exploited by threat actors. This proactive approach is essential for maintaining robust network security and protecting sensitive data from unauthorized access and cyberattacks. This provides your organization with several valuable benefits: Early detection of known security vulnerabilities. If your organization is exposed to security threats that leverage known vulnerabilities, you’ll want to address these security gaps as soon as possible. Comprehensive data for efficient risk management. Knowing exactly how many security vulnerabilities your organization is exposed to gives you clear data for conducting in-depth risk management . Regulatory compliance. Many regulatory compliance frameworks like SOC 2, ISO 27001, and PCI DSS require organizations to undergo regular vulnerability scanning. Reduced costs. Automating the process of scanning for vulnerabilities reduces the costs associated with discovering and remediating security weaknesses manually. Key Features and Functions The best network security vulnerability scanners have several important features in common: Prioritized vulnerability assessment tools. You need to be able to assess and prioritize vulnerabilities based on their severity. This allows you to commit security resources to addressing high-priority vulnerabilities first, and taking care of low-impact weaknesses afterwards. Automation and real-time analysis. Manual scanning is a difficult and time-consuming process. Your vulnerability scanner must support automated, ongoing scanning for real-time vulnerability detection, providing on-demand insights into your security risk profile. Integration with remediation tools: The best network vulnerability scanners integrate with other security tools for quick mitigation and remediation. This lets security teams quickly close security gaps and move on to the next, without having to spend time accessing and managing a separate set of security tools. How Network Vulnerability Scanning Tools Work Step 1. Scanning Process Initial network mapping is the first step in the vulnerability scanning process. At this point, your scanner maps your entire network and identifies every device and asset connected to it. This includes all web servers, workstations, firewalls , and network devices. The automatic discovery process should produce a comprehensive map showing how your network is connected, and show detailed information about each network device. It should include comprehensive port scanning to identify open ports that attackers could use to gain entry to the network. Step 2. Detection Techniques The next step in the process involves leveraging advanced detection techniques to identify known vulnerabilities in the network. Most network vulnerability scanners rely on two specific techniques to achieve this: Signature-Based Detection: The scanner checks for known vulnerabilities by comparing system details against a database of known issues. This database is drawn from extensive threat intelligence feeds and public records like the MITRE CVE Program . Heuristic Analysis: This technique relies on heuristic and behavioral techniques to identify unknown or zero-day vulnerabilities based on unusual system behavior or configurations. It may detect suspicious activities that don’t correspond to known threats, prompting further investigation. Step 3. Vulnerability Identification This step involves checking network assets for known vulnerabilities according to their unique risk profile. This includes scanning for outdated software and operating system versions, and looking for misconfigurations in network devices and settings. Most network scanners achieve this by pinging network-accessible systems, sending them TCP/UDP packets, and remotely logging into compatible systems to gather detailed information about them. Highly advanced network vulnerability scanning tools have more comprehensive sets of features for identifying these vulnerabilities, because they recognize a wider, more up-to-date range of network devices. Step 4. Assessment and Reporting This step describes the process of matching network data to known vulnerabilities and prioritizing them based on their severity. Advanced network scanning devices may use automation and sophisticated scripting to produce a list of vulnerabilities and exposed network components. First, each vulnerability is assessed for its potential impact and risk level, often based on industry-wide compliance standards like NIST. Then the tool prioritizes each vulnerability based on its severity, ease of exploitation, and potential impact on the network. Afterwards, the tool generates a detailed report outlining every vulnerability assessed and ranking it according to its severity. These reports guide the security teams in addressing the identified issues. Step 5. Continuous Monitoring and Updates Scanning for vulnerabilities once is helpful, but it won’t help you achieve the long-term goal of keeping your network protected against new and emerging threats. To do that, you need to continuously monitor your network for new weaknesses and establish workflows for resolving security issues proactively. Many advanced scanners provide real-time monitoring, constantly scanning the network for new vulnerabilities as they emerge. Regular updates to the scanner’s vulnerability database ensure it can recognize the latest known vulnerabilities and threats. If your vulnerability scanner doesn’t support these two important features, you may need to invest additional time and effort into time-consuming manual operations that achieve the same results. Step 6. Integration with Other Security Measures Security leaders must pay close attention to what happens after a vulnerability scan detects an outdated software patch or misconfiguration. Alerting security teams to the danger represented by these weaknesses is only the first step towards actually resolving them, and many scanning tools offer comprehensive integrations for launching remediation actions. Remediation integrations are valuable because they allow security teams to quickly address vulnerabilities immediately upon discovering them. The alternative is creating a list of weaknesses and having the team manually go through them, which takes time and distracts from higher-impact security tasks. Another useful integration involves large-scale security posture analytics. If your vulnerability assessment includes analysis and management tools for addressing observable patterns in your network vulnerability scans, it will be much easier to dedicate resources to the appropriate security-enhancing initiatives. Choosing a Network Vulnerability Scanning Solution There are two major categories of features that network vulnerability scanning tools must offer in order to provide best-in-class coverage against sophisticated threats. Keep these aspects in mind when reviewing your options for deploying vulnerability scans in your security workflow. Important Considerations Comprehensive Vulnerability Database. Access to an extensive CVE database is vital. Many of these are open-source and available to the general public, but the sheer number of CVE records can drag down performance. The best vulnerability management tools have highly optimized APIs capable of processing these records quickly. Customizability and Templates. Tailoring scans to specific needs and environments is important for every organization, but it takes on special significance for organizations seeking to demonstrate regulatory compliance. That’s because the outcome of compliance assessments and audits will depend on the quality of data included in your reports. False Positive Management. All vulnerability scanners are susceptible to displaying false positives, but some manage these events better than others. This is especially important in misconfiguration cases, because it can cause security teams to mistakenly misconfigure security tools that were configured correctly in the first place. Business Essentials Support for Various Platforms. Your vulnerability scan must ingest data from multiple operating systems like Windows, Linux, and a variety of cloud platforms. If any of these systems are not compatible with the scanning process, you may end up with unstable performance or unreliable data. Reporting and Analytics. Detailed reports and analytics help you establish a clear security posture assessment. Your vulnerability management tool must provide clear reports that are easy for non-technical stakeholders to understand. This will help you make the case for necessary security investments in the future. Scalability and Flexibility. These solutions must scale with the growth of your organization’s IT infrastructure . Pay attention to the usage and payment model each vulnerability scanning vendor uses. Some of them may be better suited to small, growing organizations while others are more appropriate for large enterprises and government agencies. Top 5 Network Vulnerability Scanning Providers 1. AlgoSec AlgoSec is a network security platform that helps organizations identify vulnerabilities and orchestrate network security policies in response. It includes comprehensive features for managing firewalls routers , and other security device configurations, and enables teams to proactively scan for new vulnerabilities on their network. AlgoSec reports on misconfigurations and vulnerabilities, and can show how simulated changes to IT infrastructure impact the organization’s security posture. It provides in-depth visibility and control over multi-cloud and on-premises environments. Key features: Comprehensive network mapping. AlgoSec supports automatic network asset discovery, giving security teams complete coverage of the hybrid network. In-depth automation. The platform supports automatic security policy updates in response to detected security vulnerabilities, allowing security teams to manage risk proactively. Detailed risk analysis. When AlgoSec detects a vulnerability, it provides complete details and background on the vulnerability itself and the risk it represents. 2. Tenable Nessus Tenable Nessus is one of the industry’s most reputable names in vulnerability assessment and management. It is widely used to identify and fix vulnerabilities including software flaws, missing security patches, and misconfigurations. It supports a wide range of operating systems and applications, making it a flexible tool for many different use cases. Key features: High-speed discovery. Tenable supports high speed network asset discovery scans through advanced features. Break up scans into easily managed subnetworks and configure ping settings to make the scan faster. Configuration auditing. Security teams can ensure IT assets are compliant with specific compliance-oriented audit policies designed to meet a wide range of assets and standards. Sensitive data discovery. Tenable Nessus can discover sensitive data located on the network and provide clear, actionable steps for protecting that data in compliance with regulatory standards. 3. Rapid7 Nexpose Nexpose offers real-time monitoring and risk assessment designed for enterprise organizations. As an on-premises vulnerability scanner, the solution is well-suited to the needs of large organizations with significant IT infrastructure deployments. It collects vulnerability information, prioritizes it effectively, and provides guidance on remediating risks. Key Features: Enterprise-ready on-premises form factor. Rapid7 designed Nexpose to meet the needs of large organizations with constant vulnerability scanning needs. Live monitoring of the attack surface. Organizations can continuously scan their IT environment and prioritize discovered vulnerabilities using more than 50 filters to create asset groups that correspond to known threats. Integration with penetration testing. Rapid7 comes with a wide range of fully supported integrations and provides vulnerability and exploitability context useful for pentest scenarios. 4. Qualys Qualys is an enterprise cloud security provider that includes vulnerability management in its IT security and compliance platform. It includes features that help security teams understand and manage security risks while automating remediation with intuitive no-code workflows. It integrates well with other enterprise security solutions, but may not be accessible for smaller organizations. Key features: All-in-one vulnerability management workflow . Qualys covers all of your vulnerability scanning and remediation needs in a single, centralized platform. It conducts asset discovery, detects vulnerabilities, prioritizes findings, and launches responses with deep customization and automation capabilities. Web application scanning . The platform is well-suited to organizations with extensive public-facing web applications outside the network perimeter. It supports container runtime security, including container-as-a-service environments. Complete compliance reporting . Security teams can renew expiring certificates directly through Qualys, making it a comprehensive solution to obtaining and maintaining compliance. 5. OpenVAS (Greenbone Networks) OpenVAS is an open-source tool that offers a comprehensive scanning to organizations of all sizes. It is available under a General Public License (GPL) agreement, making it a cost-effective option compared to competing proprietary software options. It supports a range of customizable plugins through its open source developer community. Key Features: Open-source vulnerability scanner. Organizations can use and customize OpenVAS at no charge, giving it a significant advantage for organizations that prioritize cost savings. Customizable plugins. As with many open-source tools, there is a thriving community of developers involved in creating customizable plugins for unique use cases. Supports a wide range of vulnerability tests . The high level of customization offered by OpenVAS allows security teams to run many different kinds of vulnerability tests from a single, centralized interface. Honorable Mentions Nmap (Network Mapper): A versatile and free open-source tool, NMAP is popular for network discovery and security auditing. It’s particularly noted for its flexibility in scanning both large networks and single hosts. Nmap is a powerful and popular Linux command-line tool commonly featured in cybersecurity education courses. Microsoft’s Azure Security Center: Ideal for organizations heavily invested in the Azure cloud platform, this tool provides integrated security monitoring and policy management across hybrid cloud workloads. It unifies many different security features, including vulnerability assessment, proactive threat hunting, and more. IBM Security QRadar Vulnerability Manager: This is a comprehensive solution that integrates with other IBM QRadar products, providing a full-spectrum view of network vulnerabilities. It’s especially valuable for enterprises that already rely on IBM infrastructure for security workflows. McAfee Vulnerability Manager: A well-known solution offering robust vulnerability scanning capabilities, with additional features for risk and compliance management. It provides a combination of active and passive monitoring, along with penetration testing and authentication scanning designed to provide maximum protection to sensitive network assets. Choosing the Right Vulnerability Management Tool Choosing the right vulnerability management tool requires in-depth knowledge of your organization’s security and IT infrastructure context. You need to select the tool that matches your unique use cases and security requirements while providing the support you need to achieve long-term business goals. Those goals may change over time, which makes ongoing evaluation of your security tools an even more important strategic asset to keep in your arsenal. Gathering clear and detailed information about your organization’s security posture allows you to flexibility adapt to changes in your IT environment without exposing sensitive assets to additional risk. AlgoSec provides a wide range of flexible options for vulnerability scanning, policy change management, and proactive configuration simulation. Enhance your organization’s security capabilities by deploying a vulnerability management solution that provides the visibility and flexibility you need to stay on top of a challenging industry. 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