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Survey finds that 58% of respondents are concerned about security in the cloud, while misconfigurations are one of the leading causes of breaches and outages as public cloud adoption doubles over past two years Cloud Security Alliance Releases Latest Survey Report on State of Cloud Security Concerns, Challenges, and Incidents Survey finds that 58% of respondents are concerned about security in the cloud, while misconfigurations are one of the leading causes of breaches and outages as public cloud adoption doubles over past two years March 30, 2021 Speak to one of our experts SEATTLE – March 30, 2021 – The Cloud Security Alliance (CSA), the world’s leading organization dedicated to defining and raising awareness of best practices to help ensure a secure cloud computing environment, and AlgoSec , a leading provider of business-driven network and cloud security management solutions, today announced the results of a new study titled, “ State of Cloud Security Concerns, Challenges, and Incidents .” The survey, which queried nearly 1,900 IT and security professionals from a variety of organization sizes and locations, sought to gain deeper insight into the complex cloud environment that continues to emerge and that has only grown more complex since the onset of the pandemic. The survey found that over half of organizations are running 41 percent or more of their workloads in public clouds, compared to just one-quarter in 2019. In 2021, 63 percent of respondents expect to be running 41 percent or more of their workloads in public cloud, indicating that adoption of public cloud will only continue. Sixty-two percent of respondents use more than one cloud provider, and the diversity of production workloads (e.g. container platforms, virtual machines) is also expected to increase. Key findings include: Security tops concerns with cloud projects : Respondents’ leading concerns over cloud adoption were network security (58%), a lack of cloud expertise (47%), migrating workloads to the cloud (44%), and insufficient staff to manage cloud environments (32%). It’s notable that a total of 79 percent of respondents reported staff-related issues, highlighting that organizations are struggling with handling cloud deployments and a largely remote workforce. Cloud issues and misconfigurations are leading causes of breaches and outages : Eleven percent of respondents reported a cloud security incident in the past year with the three most common causes being cloud provider issues (26%), security misconfigurations (22%), and attacks such as denial of service exploits (20%). When asked about the impact of their most disruptive cloud outages, 24 percent said it took up to 3 hours to restore operations, and for 26 percent it took more than half a day. Nearly one-third still manage cloud security manually : Fifty-two percent of respondents stated they use cloud-native tools to manage security as part of their application orchestration process, and 50 percent reported using orchestration and configuration management tools such as Ansible, Chef and Puppet. Twenty-nine percent said they use manual processes to manage cloud security. Who controls cloud security is not clear-cut : Thirty-five percent of respondents said their security operations team managed cloud security, followed by the cloud team (18%), and IT operations (16%). Other teams such as network operations, DevOps and application owners all fell below 10 percent, showing confusion over exactly who owns public cloud security. “The use of cloud services has continued to increase over the past decade. Particularly now, in the wake of the COVID-19 public health crisis. With organizations struggling to address a largely remote workforce, many enterprises’ digital transformations have been accelerated to enable employees to work from home,” said Hillary Baron, lead author and research analyst, Cloud Security Alliance. “As an ever-more complex cloud environment continues to evolve, the need for supplementary security tools to improve public cloud security will, as well.” “In the face of complex environments, a dearth of security staff, and an overall lack of cloud knowledge, organizations are turning to security tools that can help supplement their workforce. Three of the top four benefits organizations look for in security management tools involve proactive detection of risks and automation. These types of tools can supplement the challenges many organizations are experiencing with lack of expertise (47%) and staff (32%), as well as improve visibility as they move toward an ever-changing cloud environment,” said Jade Kahn, AlgoSec Chief Marketing Officer.AlgoSec commissioned the survey to add to the industry’s knowledge about hybrid-cloud and multi-cloud security. Sponsors of CSA research are CSA Corporate Members, who support the findings of the research project but have no added influence on content development nor editing rights. The report and its findings are vendor-agnostic and allow for global participation. Download the free eBook now. About Cloud Security Alliance The Cloud Security Alliance (CSA) is the world’s leading organization dedicated to defining and raising awareness of best practices to help ensure a secure cloud computing environment. CSA harnesses the subject matter expertise of industry practitioners, associations, governments, and its corporate and individual members to offer cloud security-specific research, education, training, certification, events, and products. CSA’s activities, knowledge, and extensive network benefit the entire community impacted by cloud — from providers and customers to governments, entrepreneurs, and the assurance industry — and provide a forum through which different parties can work together to create and maintain a trusted cloud ecosystem. For further information, visit us at www.cloudsecurityalliance.org , and follow us on Twitter @cloudsa. About AlgoSec The leading provider of business-driven network security management solutions, AlgoSec helps the world’s largest organizations align security with their mission-critical business processes. With AlgoSec, users can discover, map and migrate business application connectivity, proactively analyze risk from the business perspective, tie cyber-attacks to business processes and intelligently automate network security changes with zero touch – across their cloud, SDN and on-premise networks. Over 1,800 enterprises, including 20 of the Fortune 50, have utilized AlgoSec’s solutions to make their organizations more agile, more secure and more compliant – all the time. Since 2005, AlgoSec has shown its commitment to customer satisfaction with the industry’s only money-back guarantee. www.algosec.com

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90% of organizations use a multi-cloud operating model to help achieve their business goals in a 2022 survey. AWS (Amazon Web Services)... Cloud Security The Complete Guide to Perform an AWS Security Audit 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 7/27/23 Published 90% of organizations use a multi-cloud operating model to help achieve their business goals in a 2022 survey. AWS (Amazon Web Services) is among the biggest cloud computing platforms businesses use today. It offers cloud storage via data warehouses or data lakes, data analytics, machine learning, security, and more. Given the prevalence of multi-cloud environments, cloud security is a major concern. 89% of respondents in the above survey said security was a key aspect of cloud success. Security audits are essential for network security and compliance. AWS not only allows audits but recommends them and provides several tools to help, like AWS Audit Manager. In this guide, we share the best practices for an AWS security audit and a detailed step-by-step list of how to perform an AWS audit. We have also explained the six key areas to review. Best practices for an AWS security audit There are three key considerations for an effective AWS security audit: Time it correctly You should perform a security audit: On a regular basis. Perform the steps described below at regular intervals. When there are changes in your organization, such as new hires or layoffs. When you change or remove the individual AWS services you use. This ensures you have removed unnecessary permissions. When you add or remove software to your AWS infrastructure. When there is suspicious activity, like an unauthorized login. Be thorough When conducting a security audit: Take a detailed look at every aspect of your security configuration, including those that are rarely used. Do not make any assumptions. Use logic instead. If an aspect of your security configuration is unclear, investigate why it was instated and the business purpose it serves. Simplify your auditing and management process by using unified cloud security platforms . Leverage the shared responsibility model AWS uses a shared responsibility model. It splits the responsibility for the security of cloud services between the customer and the vendor. A cloud user or client is responsible for the security of: Digital identities Employee access to the cloud Data and objects stored in AWS Any third-party applications and integrations AWS handles the security of: The global AWS online infrastructure The physical security of their facilities Hypervisor configurations Managed services like maintenance and upgrades Personnel screening Many responsibilities are shared by both the customer and the vendor, including: Compliance with external regulations Security patches Updating operating systems and software Ensuring network security Risk management Implementing business continuity and disaster recovery strategies The AWS shared responsibility model assumes that AWS must manage the security of the cloud. The customer is responsible for security within the cloud. Step-by-step process for an AWS security audit An AWS security audit is a structured process to analyze the security of your AWS account. It lets you verify security policies and best practices and secure your users, roles, and groups. It also ensures you comply with any regulations. You can use these steps to perform an AWS security audit: Step 1: Choose a goal and audit standard Setting high-level goals for your AWS security audit process will give the audit team clear objectives to work towards. This can help them decide their approach for the audit and create an audit program. They can outline the steps they will take to meet goals. Goals are also essential to measure the organization’s current security posture. You can speed up this process using a Cloud Security Posture Management (CSPM) tool . Next, define an audit standard. This defines assessment criteria for different systems and security processes. The audit team can use the audit standard to analyze current systems and processes for efficiency and identify any risks. The assessment criteria drive consistent analysis and reporting. Step 2: Collect and review all assets Managing your AWS system starts with knowing what resources your organization uses. AWS assets can be data stores, applications, instances, and the data itself. Auditing your AWS assets includes: Create an asset inventory listing: Gather all assets and resources used by the organization. You can collect your assets using AWS Config, third-party tools, or CLI (Command Line Interface) scripts. Review asset configuration: Organizations must use secure configuration management practices for all AWS components. Auditors can validate if these standards are competent to address known security vulnerabilities. Evaluate risk: Asses how each asset impacts the organization’s risk profile. Integrate assets into the overall risk assessment program. Ensure patching: Verify that AWS services are included in the internal patch management process. Step 3: Review access and identity Reviewing account and asset access in AWS is critical to avoid cybersecurity attacks and data breaches. AWS Identity and Access Management (IAM ) is used to manage role-based access control. This dictates which users can access and perform operations on resources. Auditing access controls include: Documenting AWS account owners: List and review the main AWS accounts, known as the root accounts. Most modern teams do not use root accounts at all, but if needed, use multiple root accounts. Implement multi-factor authentication (MFA): Implement MFA for all AWS accounts based on your security policies. Review IAM user accounts: Use the AWS Management Console to identify all IAM users. Evaluate and modify the permissions and policies for all accounts. Remove old users. Review AWS groups: AWS groups are a collection of IAM users. Evaluate each group and the permissions and policies assigned to them. Remove old groups. Check IAM roles: Create job-specific IAM roles. Evaluate each role and the resources it has access to. Remove roles that have not been used in 90 days or more. Define monitoring methods: Install monitoring methods for all IAM accounts and roles. Regularly review these methods. Use least privilege access: The Principle of Least Privilege Access (PoLP) ensures users can only access what they need to complete a task. It prevents overly-permissive access controls and the misuse of systems and data. Implement access logs: Use access logs to track requests to access resources and changes made to resources. Step 4: Analyze data flows Protecting all data within the AWS ecosystem is vital for organizations to avoid data leaks. Auditors must understand the data flow within an organization. This includes how data moves from one system to another in AWS, where data is stored, and how it is protected. Ensuring data protection includes: Assess data flow: Check how data enters and exits every AWS resource. Identify any vulnerabilities in the data flows and address them. Ensure data encryption: Check if all data is encrypted at rest and in transit. Review connection methods: Check connection methods to different AWS systems. Depending on your workloads, this could include AWS Console, S3, RDS (relational database service), and more. Use key management services: Ensure data is encrypted at rest using AWS key management services. Use multi-cloud management services: Since most organizations use more than one cloud system, using multi-cloud CSPM software is essential. Step 5: Review public resources Elements within the AWS ecosystem are intentionally public-facing, like applications or APIs. Others are accidentally made public due to misconfiguration. This can lead to data loss, data leaks, and unintended access to accounts and services. Common examples include EBS snapshots, S3 objects, and databases. Identifying these resources helps remediate risks by updating access controls. Evaluating public resources includes: Identifying all public resources: List all public-facing resources. This includes applications, databases, and other services that can access your AWS data, assets, and resources. Conduct vulnerability assessments: Use automated tools or manual techniques to identify vulnerabilities in your public resources. Prioritize the risks and develop a plan to address them. Evaluate access controls: Review the access controls for each public resource and update them as needed. Remove unauthorized access using security controls and tools like S3 Public Access Block and Guard Duty. Review application code: Check the code for all public-facing applications for vulnerabilities that attackers could exploit. Conduct tests for common risks such as SQL injection, cross-site scripting (XSS), and buffer overflows. Key AWS areas to review in a security audit There are six essential parts of an AWS system that auditors must assess to identify risks and vulnerabilities: Identity access management (IAM) AWS IAM manages the users and access controls within the AWS infrastructure. You can audit your IAM users by: List all IAM users, groups, and roles. Remove old or redundant users. Also, remove these users from groups. Delete redundant or old groups. Remove IAM roles that are no longer in use. Evaluate each role’s trust and access policies. Review the policies assigned to each group that a user is in. Remove old or unnecessary security credentials. Remove security credentials that might have been exposed. Rotate long-term access keys regularly. Assess security credentials to identify any password, email, or data leaks. These measures prevent unauthorized access to your AWS system and its data. Virtual private cloud (VPC) Amazon Virtual Private Cloud (VPC) enables organizations to deploy AWS services on their own virtual network. Secure your VPC by: Checking all IP addresses, gateways, and endpoints for vulnerabilities. Creating security groups to control the inbound and outbound traffic to the resources within your VPC. Using route tables to check where network traffic from each subnet is directed. Leveraging traffic mirroring to copy all traffic from network interfaces. This data is sent to your security and monitoring applications. Using VPC flow logs to capture information about all IP traffic going to and from the network interfaces. Regularly monitor, update, and assess all of the above elements. Elastic Compute Cloud (EC2) Amazon Elastic Compute Cloud (EC2) enables organizations to develop and deploy applications in the AWS Cloud. Users can create virtual computing environments, known as instances, to launch as servers. You can secure your Amazon EC2 instances by: Review key pairs to ensure that login information is secure and only authorized users can access the private key. Eliminate all redundant EC2 instances. Create a security group for each EC2 instance. Define rules for inbound and outbound traffic for every instance. Review security groups regularly. Eliminate unused security groups. Use Elastic IP addresses to mask instance failures and enable instant remapping. For increased security, use VPCs to deploy your instances. Storage (S3) Amazon S3, or Simple Storage Service, is a cloud-native object storage platform. It allows users to store and manage large amounts of data within resources called buckets. Auditing S3 involves: Analyze IAM access controls Evaluate access controls given using Access Control Lists (ACLs) and Query String Authentication Re-evaluate bucket policies to ensure adequate object permissions Check S3 audit logs to identify any anomalies Evaluate S3 security configurations like Block Public Access, Object Ownership, and PrivateLink. Use Amazon Macie to get alerts when S3 buckets are publically accessible, unencrypted, or replicated. Mobile apps Mobile applications within your AWS environment must be audited. Organizations can do this by: Review mobile apps to ensure none of them contain access keys. Use MFA for all mobile apps. Check for and remove all permanent credentials for applications. Use temporary credentials so you can frequently change security keys. Enable multiple login methods using providers like Google, Amazon, and Facebook. Threat detection and incident response The AWS cloud infrastructure must include mechanisms to detect and react to security incidents. To do this, organizations and auditors can: Create audit logs by enabling AWS CloudTrail, storing and access logs in S3, CloudWatch logs, WAF logs, and VPC Flow Logs. Use audit logs to track assessment trails and detect any deviations or notable events Review logging and monitoring policies and procedures Ensure all AWS services, including EC2 instances, are monitored and logged Install logging mechanisms to centralize logs on one server and in proper formats Implement a dynamic Incident Response Plan for AWS services. Include policies to mitigate cybersecurity incidents and help with data recovery. Include AWS in your Business Continuity Plan (BCP) to improve disaster recovery. Dictate policies related to preparedness, crisis management elements, and more. Top tools for an AWS audit You can use any number of AWS security options and tools as you perform your audit. However, a Cloud-Native Application Protection Platform (CNAPP) like Prevasio is the ideal tool for an AWS audit. It combines the features of multiple cloud security solutions and automates security management. Prevasio increases efficiency by enabling fast and secure agentless cloud security configuration management. It supports Amazon AWS, Microsoft Azure, and Google Cloud. All security issues across these vendors are shown on a single dashboard. You can also perform a manual comprehensive AWS audit using multiple AWS tools: Identity and access management: AWS IAM and AWS IAM Access Analyzer Data protection: AWS Macie and AWS Secrets Manager Detection and monitoring: AWS Security Hub, Amazon GuardDuty, AWS Config, AWS CloudTrail, AWS CloudWatch Infrastructure protection: AWS Web Application Firewall, AWS Shield A manual audit of different AWS elements can be time-consuming. Auditors must juggle multiple tools and gather information from various reports. A dynamic platform like Prevasio speeds up this process. It scans all elements within your AWS systems in minutes and instantly displays any threats on the dashboard. The bottom line on AWS security audits Security audits are essential for businesses using AWS infrastructures. Maintaining network security and compliance via an audit prevents data breaches, prevents cyberattacks, and protects valuable assets. A manual audit using AWS tools can be done to ensure safety. However, an audit of all AWS systems and processes using Prevasio is more comprehensive and reliable. It helps you identify threats faster and streamlines the security management of your cloud system. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? 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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? 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Learn best practices for mastering network object management Webinars From chaos to control - overcoming 5 challenges of network object management Learn how to master network object management Join our free webinar on conquering 5 common network object management obstacles! Learn practical tips and strategies to simplify your network management process and boost efficiency. Don’t miss out on this opportunity to improve your network performance and minimize headaches. May 24, 2023 Kfir Tabak Product Manager Relevant resources Synchronized Object Management in a Multi-Vendor Environment Watch Video How to Structure Network Objects to Plan for Future Policy Growth Watch Video How to Manage Dynamic Objects in Cloud Environments Watch Video 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

Learn best practices to secure your cloud environment and deliver applications securely Webinars 5 Tips for Securing your Multi-Cloud Environment As more organizations embrace hybrid workplaces, multi-cloud environments have become a popular way to deliver resource availability. Still, this development has not been without security concerns. As most breaches are the fault of human error, the most effective way to protect your multi-cloud environment is by training your team to implement best practices designed to minimize risk and deliver applications securely. In this webinar, we’ll cover 5 easy tips that will help you secure your multi-cloud environment. October 12, 2022 Ava Chawla Global Head of Cloud Security Jacqueline Basil Product Marketing Manager Relevant resources 6 must-dos to secure the hybrid cloud Read Document 5 things you didn’t know you could do with a security policy management solution Keep Reading A Pragmatic Approach to Network Security Across Your Hybrid Cloud Environment 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

Network management & policy change automation 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