Search results

Oren Amiram, Director of Product at AlgoSec, explains why misconfigurations continue to plague public cloud network services and how... Firewall Change Management Why misconfigurations continue to plague public cloud network services and how to avoid them? Oren Amiram 2 min read Oren Amiram 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 3/18/24 Published Oren Amiram, Director of Product at AlgoSec, explains why misconfigurations continue to plague public cloud network services and how organizations can address these shortfalls with AlgoSec Cloud. Cloud security as a strategy is constantly evolving to meet the needs of organizations for scale, agility, and security. If your organization is weighing the merits of the use of public cloud versus private cloud, here are a few facts to keep in mind. Data shows that the public cloud is the preferred choice. Here’s what’s driving it. Public cloud security has become more ubiquitous thanks to IaaS platforms such as Amazon Web Services (AWS), Google Cloud Platform (GCP) and Microsoft Azure. According to Gartner, worldwide end-user spending on public cloud services is expected to grow by 20.4% in 2022 to a total of $494.7 billion, up from $410.9 billion in 2021 It is easy to see why public clouds are so appealing. Unlike private clouds, public cloud platform solutions allow organizations to provide business applications fast and reduce the costs associated with purchasing, managing, and maintaining on-premise hardware and application infrastructure. Furthermore, public clouds enable businesses to set up the required infrastructure much faster than on-premise and provide unmatched scalability, as well as extra security capabilities. Public cloud benefits are abundantly clear, but there’s more to this than meets the eye. As robust as a public cloud platform, there are also challenges that organizations need to overcome. According to a recent global survey on public cloud security risks, just under a third of organizations (31%) were not confident or only slightly confident about their ability to protect sensitive data in a cloud environment and another 44 percent reported they were only moderately confident. Another survey focused on top threats to cloud computing showed that misconfiguration of the cloud platform was one of the top three concerns among respondents. This challenge is even more amplified as evidenced in a separate survey, with nearly 76% of respondents stating their organization uses two or more different public cloud providers. The findings suggest that security teams often have to manage multiple native security and management consoles to enforce security and compliance across different environments. How profound is the impact of misconfigurations on your network? All it takes is a single hole It is no surprise that enterprise IT teams find it difficult to keep their applications secure. Migration of applications to public cloud platforms involves many potential pitfalls. Misconfiguration errors can occur at many different points on the network as part of the migration process, especially when moving from traditional firewalls to cloud security controls. Ongoing management of applications and workflows within the public cloud presents a unique challenge. Many organizations have multiple teams using different methods to manage the applications and the security controls that should protect them, such as Ansible, Chef and Terraform, in addition to manual changes. Even if you are using a single public cloud platform, you still need to manage multiple security controls protecting a multitude of applications. Organizations may have hundreds of separate public cloud accounts, each with multiple VPCs, spread across different regions. These VPCs are protected by multi-layered security controls, from Cloud Infrastructure, such as security groups and network ACLs, cloud-native advanced network firewalls, to Security Products offered by ISVs, such as NG Firewalls. It is easy to see why misconfiguration occurs if IT teams attempt to take on this complex, tedious and labor-intensive process themselves. A single mistake can cause outages, compliance violations and create holes in your security perimeter. Digital Shadows detected over 2.3 billion files that had been Misconfigured storage services have exposed more than 30 billion records and contributed to more than 200 breaches over the past two years. It is safe to assume that as organizations seek to optimize their public cloud deployment, cloud breaches will increase in velocity and scale. According to a recent Accurics report, misconfigured cloud storage services were commonplace in 93% of hundreds of public cloud deployments analyzed. Avoiding misconfiguration risks is easier said than done, but there’s a solution Given that organizations are so concerned about misconfiguration risks, what steps can they take to avoid making them? There are two basic principles that should be followed: Ensuring that only authorized, qualified personnel can make network or security control changes Following a clearly defined change process, with mandatory review and approval for each stage. It’s also important to keep in mind that errors are still likely to occur even while you’re still carrying out your processes manually. Luckily, there is an easy solution – hybrid network-aware automation. This solution enables you to employ network change automation, eliminates guesswork and error-prone manual input, while also simplifying large-scale, complex application migration projects and security change management. Is there a much more holistic solution? Yes, meet AlgoSec AlgoSec’s cloud offering seamlessly integrates with all leading brands of cloud security controls, firewalls (including NGFWs deployed in the cloud), routers, and load balancers, to deliver unified security policy management. With the AlgoSec Security Management Solution, users benefit from holistic management and automation spanning on-premise, SDN and public cloud. AlgoSec cloud offering, including CloudFlow, allows organizations to seamlessly manage security control layers across the hybrid network in three key areas: Visibility across your hybrid network With our cloud offering, you can obtain a full network map of your entire hybrid network security estate, as well as identify risks and correlate them to the assets they impact. You can also achieve instant visibility of cloud assets and security controls, pinpointing and troubleshooting application and network connectivity issues resulting from security policies. Change management Organizations can leverage a uniformed network model and change-management framework that covers the hybrid and multi-cloud environment, with an automated policy push for “zero-touch” automation. You can securely migrate workloads from on-prem to the public cloud and discover the power of CloudFlow’s central policy management, allowing you to orchestrate multiple similar security controls in a single policy. Cloud-centric risk analysis and remediation You can proactively detect misconfigurations to protect cloud assets, including cloud instances, databases and serverless functions. Also, you can easily identify risky security policy rules, the assets they expose and whether they are in use. You can also remediate risk, including cleaning up bloated and risky policies and enjoy audit-ready compliance reporting, including vast support for diverse regulations. Find out more about AlgoSec cloud offering or start your journey through AlgoSec’s hybrid cloud hub . Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

As the most widely adapted open-source container software, Kubernetes provides businesses with efficient processes to schedule, deploy,... Cloud Security Understanding and Preventing Kubernetes Attacks and Threats Ava Chawla 2 min read Ava Chawla 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 10/20/21 Published As the most widely adapted open-source container software, Kubernetes provides businesses with efficient processes to schedule, deploy, and scale containers across different machines. The bad news is that cybercriminals have figured out how to exploit the platform’s vulnerabilities , resulting in catastrophic network intrusions across many company infrastructures. A recent report revealed that 94% of respondents reported security incidents in Kubernetes environments. The question is, what is behind this surge of Kubernetes attacks, and how can they be prevented? How Kubernetes is Vulnerable As a container-based platform, a new set of vulnerabilities, permission issues, and specific images set the stage for the increase in attacks. The threats have included fileless malware in containers, leveraging misconfigured Docker API ports, and using container images for attacks. Misconfigured Docker API Ports Exploitation Scanning for misconfigured Docker API ports and using them for deploying images containing malware is a relatively new type of attack. The malware, designed to evade static scanning, has become a popular method to hijack compute cycles for fraudulent cryptomining. This cryptojacking activity steals CPU power to mine currencies such as Ethereum and Monero. By first identifying vulnerable front-end websites and other systems, attackers send a command through the application layer simply by manipulating a domain’s text field or through an exposed API in the website’s URL. The code then enters the container, where it is executed with commands sent to a Docker container’s shell. A wget command is executed to download the malware. To protect against this attack, enterprises must ensure their container files are not writable, establish CPU consumption limits, and enable alerts to detect interactive shell launches. DDoS Attacks With Open Docker Daemons Cybercriminals use misconfigured open Docker daemons to launch DDoS attacks using a botnet of containers. UDP flood and Slowloris were recently identified as two such types of container-based botnet attacks. A recent blog describes an anatomy of these Kubernetes attacks. The attackers first identified open Docker daemons using a scanning tool such as Shodan to scan the internet for IP addresses and find a list of hosts, open ports, and services. By uploading their own dedicated images to the Docker hub, they succeeded in deploying and remotely running the images on the host. Analyzing how the UDP flood attack was orchestrated required an inspection of the binary with IDA. This revealed the start_flood and start_tick threads. The source code for the attack was found on Github. This code revealed a try_gb parameter, with the range of 0 to 1,024, used to configure how much data to input to flood the target. However, it was discovered that attackers are able to modify this open-source code to create a self-compiled binary that floods the host with even greater amounts of UDP packets. In the case of the Slowloris attack, cybercriminals launched DDoS with the slowhttptest utility. The attackers were able to create a self-compiling binary that is unidentifiable in malware scans. Protection from these Kubernetes attacks requires vigilant assurance policies and prevention of images other than compliant ones to run in the system. Non-compliant images will then be blocked when intrusion attempts are made. Man in the Middle Attacks With LoadBalancer or ExternalIPs An attack affecting all versions of Kubernetes involves multi-tenant clusters. The most vulnerable clusters have tenants that are able to create and update services and pods. In this breach, the attacker can intercept traffic from other pods or nodes in the cluster by creating a ClusterIP service and setting the spec.externalIP’s field. Additionally, a user who is able to patch the status of a LoadBalancer service can grab traffic. The only way to mitigate this threat is to restrict access to vulnerable features. This can be done with the admission webhook container, externalip-webhook , which prevents services from using random external IPs. An alternative method is to lock external IPs with OPA Gatekeeper with this sample Constraint Templatecan. Siloscape Malware Security researcher, Daniel Prizmant, describes a newer malware attack that he calls Siloscape. Its primary goal is to escape the container that is mainly implemented in Windows server silo. The malware targets Kubernetes through Windows containers to open a backdoor into poorly configured clusters to run the malicious containers. While other malware attacks focus on cryptojacking, the Siloscape user’s motive is to go undetected and open a backdoor to the cluster for a variety of malicious activities. This is possible since Siloscape is virtually undetectable due to a lack of readable strings in the binary. This type of attack can prove catastrophic. It compromises an entire cluster running multiple cloud applications. Cybercriminals can access critical information including sign-ins, confidential files, and complete databases hosted inside the cluster. Additionally, organizations using Kubernetes clusters for testing and development can face catastrophic damage should these environments be breached. To prevent a Siloscape attack, it is crucial that administrators ensure their Kubernetes clusters are securely configured. This will prevent the malware from creating new deployments and force Siloscape to exit. Microsoft also recommends using only Hyper-V containers as a security boundary for anything relying on containerization. The Threat Matrix The MITRE ATT&CK database details additional tactics and techniques attackers are using to infiltrate Kubernetes environments to access sensitive information, mine cryptocurrency, perform DDoS attacks, and other unscrupulous activities. The more commonly used methods are as follows: 1. Kubernetes file compromise Because this file holds sensitive data such as cluster credentials, an attacker could easily gain initial access to the entire cluster. Only accept kubeconfig files from trusted sources. Others should be thoroughly inspected before they are deployed. 2. Using similar pod names Attackers create similar pod names and use random suffixes to hide them in the cluster. The pods then run malicious code and obtain access to many other resources. 3. Kubernetes Secrets intrusion Attackers exploit any misconfigurations in the cluster with the goal of accessing the API server and retrieving information from the Secrets objects. 4. Internal network access Attackers able to access a single pod that communicates with other pods or applications can move freely within the cluster to achieve their goals. 5. Using the writeable hostPath mount Attackers with permissions to create new containers can create one with a writeable hostPath volume. Kubernetes Attacks: Key Takeaways Kubernetes brings many advantages to organizations but also presents a variety of security risks, as documented above. However, by ensuring their environments are adequately protected through proper configuration and appropriately assigned permissions, the threat of Kubernetes attacks is greatly minimized. Should a container be compromised, properly assigned privileges can severely limit a cluster-wide compromise. Prevasio assists companies in the management of their cloud security through built-in vulnerability and anti-malware scans for containers. Contact us for more information on our powerful CSPM solutions. Learn about how we can protect your company from Kubernetes attacks and other cyberattacks. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

What is Network Security Monitoring? Network security monitoring is the process of inspecting network traffic and IT infrastructure for... Network Security Top 9 Network Security Monitoring Tools for Identifying Potential Threats 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 2/4/24 Published What is Network Security Monitoring? Network security monitoring is the process of inspecting network traffic and IT infrastructure for signs of security issues. These signs can provide IT teams with valuable information about the organization’s cybersecurity posture. For example, security teams may notice unusual changes being made to access control policies. This may lead to unexpected traffic flows between on-premises systems and unrecognized web applications. This might provide early warning of an active cyberattack, giving security teams enough time to conduct remediation efforts and prevent data loss . Detecting this kind of suspicious activity without the visibility that network security monitoring provides would be very difficult. These tools and policies enhance operational security by enabling network intrusion detection, anomaly detection, and signature-based detection. Full-featured network security monitoring solutions help organizations meet regulatory compliance requirements by maintaining records of network activity and security incidents. This gives analysts valuable data for conducting investigations into security events and connect seemingly unrelated incidents into a coherent timeline. What To Evaluate in a Network Monitoring Software Provider Your network monitoring software provider should offer a comprehensive set of features for collecting, analyzing, and responding to suspicious activity anywhere on your network. It should unify management and control of your organization’s IT assets while providing unlimited visibility into how they interact with one another. Comprehensive alerting and reporting Your network monitoring solution must notify you of security incidents and provide detailed reports describing those incidents in real-time. It should include multiple toolsets for collecting performance metrics, conducting in-depth analysis, and generating compliance reports. Future-proof scalability Consider what kind of network monitoring needs your organization might have several years from now. If your monitoring tool cannot scale to accommodate that growth, you may end up locked into a vendor agreement that doesn’t align with your interests. This is especially true with vendors that prioritize on-premises implementations since you run the risk of paying for equipment and services that you don’t actually use. Cloud-delivered software solutions often perform better in use cases where flexibility is important. Integration with your existing IT infrastructure Your existing security tech stack may include a selection of SIEM platforms, IDS/IPS systems, firewalls , and endpoint security solutions. Your network security monitoring software will need to connect all of these tools and platforms together in order to grant visibility into network traffic flows between them. Misconfigurations and improper integrations can result in dangerous security vulnerabilities. A high-performance vulnerability scanning solution may be able to detect these misconfigurations so you can fix them proactively. Intuitive user experience for security teams and IT admins Complex tools often come with complex management requirements. This can create a production bottleneck when there aren’t enough fully-trained analysts on the IT security team. Monitoring tools designed for ease of use can improve security performance by reducing training costs and allowing team members to access monitoring insights more easily. Highly automated tools can drive even greater performance benefits by reducing the need for manual control altogether. Excellent support and documentation Deploying network security monitoring tools is not always a straightforward task. Most organizations will need to rely on expert support to assist with implementation, troubleshooting, and ongoing maintenance. Some vendors provide better technical support to customers than others, and this difference is often reflected in the price. Some organizations work with managed service providers who can offset some of their support and documentation needs by providing on-demand expertise when needed. Pricing structures that work for you Different vendors have different pricing structures. When comparing network monitoring tools, consider the total cost of ownership including licensing fees, hardware requirements, and any additional costs for support or updates. Certain usage models will fit your organization’s needs better than others, and you’ll have to document them carefully to avoid overpaying. Compliance and reporting capabilities If you plan on meeting compliance requirements for your organization, you will need a network security monitoring tool that can generate the necessary reports and logs to meet these standards. Every set of standards is different, but many reputable vendors offer solutions for meeting specific compliance criteria. Find out if your network security monitoring vendor supports compliance standards like PCI DSS, HIPAA, and NIST. A good reputation for customer success Research the reputation and track record of every vendor you could potentially work with. Every vendor will tell you that they are the best – ask for evidence to back up their claims. Vendors with high renewal rates are much more likely to provide you with valuable security technology than lower-priced competitors with a significant amount of customer churn. Pay close attention to reviews and testimonials from independent, trustworthy sources. Compatibility with network infrastructure Your network security monitoring tool must be compatible with the entirety of your network infrastructure. At the most basic level, it must integrate with your hardware fleet of routers, switches, and endpoint devices. If you use devices with non-compatible operating systems, you risk introducing blind spots into your security posture. For the best results, you must enjoy in-depth observability for every hardware and software asset in your network, from the physical layer to the application layer. Regular updates and maintenance Updates are essential to keep security tools effective against evolving threats. Check the update frequency of any monitoring tool you consider implementing and look for the specific security vulnerabilities addressed in those updates. If there is a significant delay between the public announcement of new vulnerabilities and the corresponding security patch, your monitoring tools may be vulnerable during that period of time. 9 Best Network Security Monitoring Providers for Identifying Cybersecurity Threats 1. AlgoSec AlgoSec is a network security policy management solution that helps organizations automate and orchestrate network security policies. It keeps firewall rules , routers, and other security devices configured correctly, ensuring network assets are secured properly. AlgoSec protects organizations from misconfigurations that can lead to malware, ransomware, and phishing attacks, and gives security teams the ability to proactively simulate changes to their IT infrastructure. 2. SolarWinds SolarWinds offers a range of network management and monitoring solutions, including network security monitoring tools that detect changes to security policies and traffic flows. It provides tools for network visibility and helps identify and respond to security incidents. However, SolarWinds can be difficult for some organizations to deploy because customers must purchase additional on-premises hardware. 3. Security Onion Security Onion is an open-source Linux distribution designed for network security monitoring. It integrates multiple monitoring tools like Snort, Suricata, Bro, and others into a single platform, making it easier to set up and manage a comprehensive network security monitoring solution. As an open-source option, it is one of the most cost-effective solutions available on the market, but may require additional development resources to customize effectively for your organization’s needs. 4. ELK Stack Elastic ELK Stack is a combination of three open-source tools: Elasticsearch, Logstash, and Kibana. It’s commonly used for log data and event analysis. You can use it to centralize logs, perform real-time analysis, and create dashboards for network security monitoring. The toolset provides high-quality correlation through large data sets and provides security teams with significant opportunities to improve security and network performance using automation. 5. Cisco Stealthwatch Cisco Stealthwatch is a commercial network traffic analysis and monitoring solution. It uses NetFlow and other data sources to detect and respond to security threats, monitor network behavior, and provide visibility into your network traffic. It’s a highly effective solution for conducting network traffic analysis, allowing security analysts to identify threats that have infiltrated network assets before they get a chance to do serious damage. 6. Wireshark Wireshark is a widely-used open-source packet analyzer that allows you to capture and analyze network traffic in real-time. It can help you identify and troubleshoot network issues and is a valuable tool for security analysts. Unlike other entries on this list, it is not a fully-featured monitoring platform that collects and analyzes data at scale – it focuses on providing deep visibility into specific data flows one at a time. 7. Snort Snort is an open-source intrusion detection system (IDS) and intrusion prevention system (IPS) that can monitor network traffic for signs of suspicious or malicious activity. It’s highly customizable and has a large community of users and contributors. It supports customized rulesets and is easy to use. Snort is widely compatible with other security technologies, allowing users to feed signature updates and add logging capabilities to its basic functionality very easily. However, it’s an older technology that doesn’t natively support some modern features users will expect it to. 8. Suricata Suricata is another open-source IDS/IPS tool that can analyze network traffic for threats. It offers high-performance features and supports rules compatible with Snort, making it a good alternative. Suricata was developed more recently than Snort, which means it supports modern workflow features like multithreading and file extraction. Unlike Snort, Suricata supports application-layer detection rules and can identify traffic on non-standard ports based on the traffic protocol. 9. Zeek (formerly Bro) Zeek is an open-source network analysis framework that focuses on providing detailed insights into network activity. It can help you detect and analyze potential security incidents and is often used alongside other NSM tools. This tool helps security analysts categorize and model network traffic by protocol, making it easier to inspect large volumes of data. Like Suricata, it runs on the application layer and can differentiate between protocols. Essential Network Monitoring Features Traffic Analysis The ability to capture, analyze, and decode network traffic in real-time is a basic functionality all network security monitoring tools should share. Ideally, it should also include support for various network protocols and allow users to categorize traffic based on those categories. Alerts and Notifications Reliable alerts and notifications for suspicious network activity, enabling timely response to security threats. To avoid overwhelming analysts with data and contributing to alert fatigue, these notifications should consolidate data with other tools in your security tech stack. Log Management Your network monitoring tool should contribute to centralized log management through network devices, apps, and security sensors for easy correlation and analysis. This is best achieved by integrating a SIEM platform into your tech stack, but you may not wish to store all of your network’s logs on the SIEM, because of the added expense. Threat Detection Unlike regular network traffic monitoring, network security monitoring focuses on indicators of compromise in network activity. Your tool should utilize a combination of signature-based detection, anomaly detection, and behavioral analysis to identify potential security threats. Incident Response Support Your network monitoring solution should facilitate the investigation of security incidents by providing contextual information, historical data, and forensic capabilities. It may correlate detected security events so that analysts can conduct investigations more rapidly, and improve security outcomes by reducing false positives. Network Visibility Best-in-class network security monitoring tools offer insights into network traffic patterns, device interactions, and potential blind spots to enhance network monitoring and troubleshooting. To do this, they must connect with every asset on the network and successfully observe data transfers between assets. Integration No single security tool can be trusted to do everything on its own. Your network security monitoring platform must integrate with other security solutions, such as firewalls, intrusion detection/prevention systems (IDS/IPS), and SIEM platforms to create a comprehensive security ecosystem. If one tool fails to detect malicious activity, another may succeed. Customization No two organizations are the same. The best network monitoring solutions allow users to customize rules, alerts, and policies to align with specific security requirements and network environments. These customizations help security teams reduce alert fatigue and focus their efforts on the most important data traffic flows on the network. Advanced Features for Identifying Vulnerabilities & Weaknesses Threat Intelligence Integration Threat intelligence feeds enhance threat detection and response capabilities by providing in-depth information about the tactics, techniques, and procedures used by threat actors. These feeds update constantly to reflect the latest information on cybercriminal activities so analysts always have the latest data. Forensic Capabilities Detailed data and forensic tools provide in-depth analysis of security breaches and related incidents, allowing analysts to attribute attacks to hackers and discover the extent of cyberattacks. With retroactive forensics, investigators can include historical network data and look for evidence of compromise in the past. Automated Response Automated responses to security threats can isolate affected devices or modify firewall rules the moment malicious behavior is detected. Automated detection and response workflows must be carefully configured to avoid business disruptions stemming from misconfigured algorithms repeatedly denying legitimate traffic. Application-level Visibility Some network security monitoring tools can identify and classify network traffic by applications and services , enabling granular control and monitoring. This makes it easier for analysts to categorize traffic based on its protocol, which can streamline investigations into attacks that take place on the application layer. Cloud and Virtual Network Support Cloud-enabled organizations need monitoring capabilities that support cloud environments and virtualized networks. Without visibility into these parts of the hybrid network, security vulnerabilities may go unnoticed. Cloud-native network monitoring tools must include data on public and private cloud instances as well as containerized assets. Machine Learning and AI Advanced machine learning and artificial intelligence algorithms can improve threat detection accuracy and reduce false positives. These features often work by examining large-scale network traffic data and identifying patterns within the dataset. Different vendors have different AI models and varying levels of competence with emerging AI technology. User and Entity Behavior Analytics (UEBA) UEBA platforms monitor asset behaviors to detect insider threats and compromised accounts. This advanced feature allows analysts to assign dynamic risk scores to authenticated users and assets, triggering alerts when their activities deviate too far from their established routine. Threat Hunting Tools Network monitoring tools can provide extra features and workflows for proactive threat hunting and security analysis. These tools may match observed behaviors with known indicators of compromise, or match observed traffic patterns with the tactics, techniques, and procedures of known threat actors. AlgoSec: The Preferred Network Security Monitoring Solution AlgoSec has earned an impressive reputation for its network security policy management capabilities. The platform empowers security analysts and IT administrators to manage and optimize network security policies effectively. It includes comprehensive firewall policy and change management capabilities along with comprehensive solutions for automating application connectivity across the hybrid network. Here are some reasons why IT leaders choose AlgoSec as their preferred network security policy management solution: Policy Optimsization: AlgoSec can analyze firewall rules and network security policies to identify redundant or conflicting rules, helping organizations optimize their security posture and improve rule efficiency. Change Management: It offers tools for tracking and managing changes to firewall and network data policies, ensuring that changes are made in a controlled and compliant manner. Risk Assessment: AlgoSec can assess the potential security risks associated with firewall rule changes before they are implemented, helping organizations make informed decisions. Compliance Reporting: It provides reports and dashboards to assist with compliance audits, making it easier to demonstrate regulatory compliance to regulators. Automation: AlgoSec offers automation capabilities to streamline policy management tasks, reducing the risk of human error and improving operational efficiency. Visibility: It provides visibility into network traffic and policy changes, helping security teams monitor and respond to potential security incidents. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

A practical AWS security checklist will help you identify and address vulnerabilities quickly. In the process, ensure your cloud security... Cloud Security The Comprehensive 9-Point AWS Security Checklist 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 2/20/23 Published A practical AWS security checklist will help you identify and address vulnerabilities quickly. In the process, ensure your cloud security posture is up-to-date with industry standards. This post will walk you through an 8-point AWS security checklist. We’ll also share the AWS security best practices and how to implement them. The AWS shared responsibility model AWS shared responsibility model is a paradigm that describes how security duties are split between AWS and its clients. This approach considers AWS a provider of cloud security architecture. And customers still protect their individual programs, data, and other assets. AWS’s Responsibility According to this model, AWS maintains the safety of the cloud structures. This encompasses the network, the hypervisor, the virtualization layer, and the physical protection of data centers. AWS also offers clients a range of safety precautions and services. They include surveillance tools, a load balancer, access restrictions, and encryption. Customer Responsibility As a customer, you are responsible for setting up AWS security measures to suit your needs. You also do this to safeguard your information, systems, programs, and operating systems. Customer responsibility entails installing reasonable access restrictions and maintaining user profiles and credentials. You can also watch for security issues in your work setting. Let’s compare the security responsibilities of AWS and its customers in a table: Comprehensive 8-point AWS security checklist 1. Identity and access management (IAM) 2. Logical access control 3. Storage and S3 4. Asset management 5. Configuration management. 6. Release and deployment management 7. Disaster recovery and backup 8. Monitoring and incidence management Identity and access management (IAM) IAM is a web service that helps you manage your company’s AWS access and security. It allows you to control who has access to your resources or what they can do with your AWS assets. Here are several IAM best practices: Replace access keys with IAM roles. Use IAM roles to provide AWS services and apps with the necessary permissions. Ensure that users only have permission to use the resources they need. Do this by implementing the concept of least privilege . Whenever communicating between a client and an ELB, use secure SSL versions. Use IAM policies to specify rights for user groups and centralized access management. Use IAM password policies to impose strict password restrictions on all users. Logical access control Logical access control involves controlling who accesses your AWS resources. This step also entails deciding the types of actions that users can perform on the resources. You can do this by allowing or denying access to specific people based on their position, job function, or other criteria. Logical access control best practices include the following: Separate sensitive information from less-sensitive information in systems and data using network partitioning Confirm user identity and restrict the usage of shared user accounts. You can use robust authentication techniques, such as MFA and biometrics. Protect remote connectivity and keep offsite access to vital systems and data to a minimum by using VPNs. Track network traffic and spot shady behavior using the intrusion detection and prevention systems (IDS/IPS). Access remote systems over unsecured networks using the secure socket shell (SSH). Storage and S3 Amazon S3 is a scalable object storage service where data may be stored and retrieved. The following are some storage and S3 best practices: Classify the data to determine access limits depending on the data’s sensitivity. Establish object lifecycle controls and versioning to control data retention and destruction. Use the Amazon Elastic Block Store (Amazon EBS) for this process. Monitor the storage and audit accessibility to your S3 buckets using Amazon S3 access logging. Handle encryption keys and encrypt confidential information in S3 using the AWS Key Management Service (KMS). Create insights on the current state and metadata of the items stored in your S3 buckets using Amazon S3 Inventory. Use Amazon RDS to create a relational database for storing critical asset information. Asset management Asset management involves tracking physical and virtual assets to protect and maintain them. The following are some asset management best practices: Determine all assets and their locations by conducting routine inventory evaluations. Delegate ownership and accountability to ensure each item is cared for and kept safe. Deploy conventional and digital safety safeguards to stop illegal access or property theft. Don’t use expired SSL/TLS certificates. Define standard settings to guarantee that all assets are safe and functional. Monitor asset consumption and performance to see possible problems and possibilities for improvement. Configuration management. Configuration management involves monitoring and maintaining server configurations, software versions, and system settings. Some configuration management best practices are: Use version control systems to handle and monitor modifications. These systems can also help you avoid misconfiguration of documents and code . Automate configuration updates and deployments to decrease user error and boost consistency. Implement security measures, such as firewalls and intrusion sensing infrastructure. These security measures will help you monitor and safeguard setups. Use configuration baselines to design and implement standard configurations throughout all platforms. Conduct frequent vulnerability inspections and penetration testing. This will enable you to discover and patch configuration-related security vulnerabilities. Release and deployment management Release and deployment management involves ensuring the secure release of software and systems. Here are some best practices for managing releases and deployments: Use version control solutions to oversee and track modifications to software code and other IT resources. Conduct extensive screening and quality assurance (QA) processes. Do this before publishing and releasing new software or updates. Use automation technologies to organize and distribute software upgrades and releases. Implement security measures like firewalls and intrusion detection systems. Disaster recovery and backup Backup and disaster recovery are essential elements of every organization’s AWS environment. AWS provides a range of services to assist clients in protecting their data. The best practices for backup and disaster recovery on AWS include: Establish recovery point objectives (RPO) and recovery time objectives (RTO). This guarantees backup and recovery operations can fulfill the company’s needs. Archive and back up data using AWS products like Amazon S3, flow logs, Amazon CloudFront and Amazon Glacier. Use AWS solutions like AWS Backup and AWS Disaster Recovery to streamline backup and recovery. Use a backup retention policy to ensure that backups are stored for the proper amount of time. Frequently test backup and recovery procedures to ensure they work as intended. Redundancy across many regions ensures crucial data is accessible during a regional outage. Watch for problems that can affect backup and disaster recovery procedures. Document disaster recovery and backup procedures. This ensures you can perform them successfully in the case of an absolute disaster. Use encryption for backups to safeguard sensitive data. Automate backup and recovery procedures so human mistakes are less likely to occur. Monitoring and incidence management Monitoring and incident management enable you to track your AWS environment and respond to any issues. Amazon web services monitoring and incident management best practices include: Monitoring API traffic and looking for any security risks with AWS CloudTrail. Use AWS CloudWatch to track logs, performance, and resource usage. Set up modifications to AWS resources and monitor for compliance problems using AWS Config. Combine and rank security warnings from various AWS user accounts and services using AWS Security groups. Using AWS Lambda and other AWS services to implement automated incident response procedures. Establish a plan for responding to incidents that specify roles and obligations and define a clear escalation path. Exercising incident response procedures frequently to make sure the strategy works. Checking for flaws in third-party applications and applying quick fixes. The use of proactive monitoring to find possible security problems before they become incidents. Train your staff on incident response best practices. This way, you ensure that they’ll respond effectively in case of an incident. Top challenges of AWS security DoS attacks A Distributed denial of service (DDoS) attack poses a huge security risk to AWS systems. It involves an attacker bombarding a network with traffic from several sources. In the process, straining its resources and rendering it inaccessible to authorized users. To minimize this sort of danger, your DevOps should have a thorough plan to mitigate this sort of danger. AWS offers tools and services, such as AWS Shield, to assist fight against DDoS assaults. Outsider AWS compromise. Hackers can use several strategies to get illegal access to your AWS account. For example, they may use psychological manipulation or exploit software flaws. Once outsiders gain access, they may use data outbound techniques to steal your data. They can also initiate attacks on other crucial systems. Insider threats Insiders with permission to access your AWS resources often pose a huge risk. They can damage the system by modifying or stealing data and intellectual property. Only grant access to authorized users and limit the access level for each user. Monitor the system and detect any suspicious activities in real-time. Root account access The root account has complete control over an AWS account and has the highest degree of access.Your security team should access the root account only when necessary. Follow AWS best practices when assigning root access to IAM users and parties. This way, you can ensure that only those who should have root access can access the server. Security best practices when using AWS Set strong authentication policies. A key element of AWS security is a strict authentication policy. Implement password rules, demanding solid passwords and frequent password changes to increase security. Multi-factor authentication (MFA) is a recommended security measure for access control. It involves a user providing two or more factors, such as an ID, password, and token code, to gain access. Using MFA can improve the security of your account. It can also limit access to resources like Amazon Machine Images (AMIs). Differentiate security of cloud vs. in cloud Do you recall the AWS cloud shared responsibility model? The customer handles configuring and managing access to cloud services. On the other hand, AWS provides a secure cloud infrastructure. It provides physical security controls like firewalls, intrusion detection systems, and encryption. To secure your data and applications, follow the AWS shared responsibility model. For example, you can use IAM roles and policies to set up virtual private cloud VPCs. Keep compliance up to date AWS provides several compliance certifications for HIPAA, PCI DSS, and SOC 2. The certifications are essential for ensuring your organization’s compliance with industry standards. While NIST doesn’t offer certifications, it provides a framework to ensure your security posture is current. AWS data centers comply with NIST security guidelines. This allows customers to adhere to their standards. You must ensure that your AWS setup complies with all legal obligations as an AWS client. You do this by keeping up with changes to your industry’s compliance regulations. You should consider monitoring, auditing, and remedying your environment for compliance. You can use services offered by AWS, such as AWS Config and AWS CloudTrail log, to perform these tasks. You can also use Prevasio to identify and remediate non-compliance events quickly. It enables customers to ensure their compliance with industry and government standards. The final word on AWS security You need a credible AWS security checklist to ensure your environment is secure. Cloud Security Posture Management solutions produce AWS security checklists. They provide a comprehensive report to identify gaps in your security posture and processes for closing them. With a CSPM tool like Prevasio , you can audit your AWS environment. And identify misconfigurations that may lead to vulnerabilities. It comes with a vulnerability assessment and anti-malware scan that can help you detect malicious activities immediately. In the process, your AWS environment becomes secure and compliant with industry standards. Prevasio comes as cloud native application protection platform (CNAPP). It combines CSPM, CIEM and all the other important cloud security features into one tool. This way, you’ll get better visibility of your cloud security on one platform. Try Prevasio today ! Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Virtual Local Area Network (VLAN) Security Issues You’re in no doubt familiar with Virtual Local Area Network (VLAN) technology and its... Information Security Are VLANs secure? VLAN security best practices Kevin Beaver 2 min read Kevin Beaver Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 9/23/14 Published Virtual Local Area Network (VLAN) Security Issues You’re in no doubt familiar with Virtual Local Area Network (VLAN) technology and its ability to segment traffic within your network. It’s one of those decades-old technologies that businesses have come to rely on to reduce costs, minimize network broadcast domains, and protect certain systems from others. It sounds good on paper but it’s rare to see a VLAN environment that’s truly configured in the right way in order to realize its intended benefits. For example, I’ve seen some networks segmented by physical switches rather than using logical VLANs configured within each managed switch. This means that anyone on the same physical switch/broadcast domain can see every host on that segment. And if they want to see all traffic, it’s often just a matter of using Cain & Abel’s ARP Poison Routing feature . This is not an effective way to manage network devices and there’s no way to prevent inadvertent connections to the wrong segment during network upgrades, troubleshooting, and the like. It becomes a jumbled mess that negates any perceived switching or VLAN benefits. Furthermore, many “virtual” networks allow anyone to hop between segments if they know the IP addressing scheme. For example, say a user is on the 10.10.10.x network and he wants to get onto the production network of 10.0.0.x. No problem… he just points his Web browser, his vulnerability scanner, or whatever to 10.0.0.x and he’s good to go. Worst case, he might have to configure his system with a static IP address on that network, but that’s simple enough to do. This configuration may be considered a “VLAN” that’s managing broadcast traffic but there are no real ACLs, firewall rules, or packet tagging to prevent unauthorized access by internal attackers, malware, and the like. The network is basically flat with no policies and little to no security between any of the network segments and systems. Another thing to remember is that many VLANs are used to partition networks into distinctive segments to separate business units and their unique data sets. Even if the technical aspects of the VLAN configuration are spot on, these environments are often defined at a very high level without involving the actual business unit managers or information owners, therefore there are often security gaps in the segmentation. This means that information specific to a business unit and believed to be isolated is often anything but – it may well be scattered across numerous other VLANs and network hosts within those segments. How does this happen? Convenience and mobility and general carelessness. Users copy information to places where they can work on it and end up copying it to systems outside of the intended VLAN domain or to different hosts on other VLANs. IT may even copy information for backup or test purposes. Either way, confidential information often ends up on unprotected “islands” that no one knows about until it’s too late. Network security based on VLAN technology can work if it’s done properly. And while it’s not perfect, it can add another layer of security to your environment, one that can make the difference between breach and no breach. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Safeguarding the network architecture is the need of the hour. According to a study, the average cost of a data breach is at an all-time... Network Security Policy Management Network segmentation vs. VLAN explained Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 8/9/23 Published Safeguarding the network architecture is the need of the hour. According to a study, the average cost of a data breach is at an all-time high of $4.35 million. And this figure will only increase with governments and regulators becoming ever stricter on data breaches. The go-to method IT administrators adopt to safeguard their networks is network segmentation. By segmenting a larger network into smaller chunks, it becomes much more manageable to secure the entire network. But network segmentation is a broad concept and doesn’t refer to a single procedure. In fact, there are several segmentation processes — one of them being VLAN. Instead of simplifying, this adds to the complexity. In this article, we will explain the core difference between network segmentation and VLAN and when you should opt for a particular one over the other. What is network segmentation? Let’s start with the definitions of network segmentation and VLAN. By definition, network segmentation is the practice of compartmentalizing a network according to firewall rules . In other words, it’s about dividing a computer network into subnetworks. The subnetworks, at the IP level, are known as subnets. Each of the subnets then works independently and in isolation. Think of how a nation is split into various states and provinces for better management at the local level. Running an entire nation at the federal level is too much work. In addition to subnetting, there are other segmentation options like firewall segmentation and SDN (Software Defined Network) segmentation. But for this article’s sake, we will focus on subnets since those are the most common. What is VLAN? VLAN or Virtual LAN (Virtual Local Area Network) is also a type of network segmentation approach where the main physical network is divided into multiple smaller virtual networks. The division is done logically or virtually, not requiring buying additional physical resources. The same resource is divided using computer logic. There are several benefits to dividing the parts of the network, either using VLAN segmentation or subnet techniques. Some of them are: Broadcast domain isolation Both subnets and VLAN isolate broadcast domains. This way, broadcasting network traffic is contained in a single segment instead of being exposed to the entire network. This reduces the chance of network congestion during peak hours and unnecessary server overload, thereby maximizing efficiency. Enhanced security The isolation by subnets or VLAN enhances the IT network’s security policies. This is achieved through various factors that are at play. But primarily, the creation of subnetworks makes the flat network more secure. With multiple subnetworks, you can regulate the security parameters. Thus, those subnets containing critical data (like that of healthcare) can have enhanced cybersecurity measures more than others, making them harder to crack. So, from a security perspective, both subnets and VLAN are a must. Better network management With digitization and IT modernization, the IT infrastructure is growing. Concurrently, it’s getting harder to manage them. Microsegmentation is one way of managing the ever-growing infrastructure. By segmenting, you can deploy teams to each segment, thereby strengthening their management and accountability. With the implementation of SDN, you can even configure and automate the management of some of the subnetworks. Flexibility in scalability Many network administrators face network performance and scalability issues expanding resources. The issues are a mix of technical and economical. Network segmentation offers a solution to such issues. By segmenting the entire data center network, you can choose which segments to expand and control the resources granted to each segment. This also makes scalability more economical. While both offer scalability opportunities, VLAN offers superior functionality than subnets. Reduced scope of compliance Compliance is another area that IT execs need to work on. And network segmentation, either via subnets or VLAN, can help in this regard. By having subnets, you don’t have to audit your entire segmented network as required by regulators. Just audit the necessary subnets and submit the reports to the regulators for approval. This takes far less time and costs significantly less than auditing the entire network. Differences between network segmentation and VLAN By definition, network segmentation (subnetting) and VLAN sound pretty similar. After all, there’s a division of the main network into subnetworks or smaller networks. But besides the core similarities mentioned above, there are a few critical differences. Let’s dive into the differences between the two. The primary difference between the two subnets are layer 3 divisions, while VLANs are layer 2 divisions. As you may recall, networks are layer 1 (device), layer 2 (data link), layer 3 (IP, routers), and so on, up to layer 7 (application). TCP/IP is the newer framework with four layers only. So, when you divide a network at a data link, you need to adopt VLAN. With VLAN, several networks exist on the same physical network but may not be connected to the same fiber switch. In subnets, the division occurs at IP level. Thus, the independent subnets are assigned their IP addresses and communicate with others over layer 3. Besides this significant difference, there are other dissimilarities you should know. Here’s a table to help you understand: VLAN Subnet 1 Divides the network within the same physical network using logic. Divides the IP network into multiple IP networks 2 VLANs communicate with other devices within the same LAN The communication between the subnets is carried out over layer 3 3 It is configured at the switch side It is configured at IP level 4 VLAN divisions are software-based terminology since they’re divided logically. Subnets can be both hardware- of software-based 5 VLAN provides better network access and tend to be more stable Subnets offer limited control When to adopt a subnet? There are use cases when subnets are more suited, while there are cases when you’re better off with Virtual LANs. As per the definition, you need to adopt a subnet when dividing different networks at IP level. So, if you want to create multiple IP addresses for each partition, implement subnets. The subnets are essentially networks within a network with their own IP addresses. Thus, they divide the broadcast domain and improve speed and efficiency. Subnets are also the go-to segmentation method when you need to make the sub-networks available over layer 3 to the outside world. With appropriate access control lists, anyone with an internet connection would be able to access the subnets But subnetting is also used to prevent access to a particular subnet. For example, you may want to limit access to the company’s software codebase to anyone outside the development department. So, only network devices with approved IP addresses used by the developer network are approved to access the codebase. But there are two downsides to subnets you should know. The first one is increased time complexity. When dealing with a single network, three steps are in place to reach the Process (Source Host, Destination Network, and Process). In subnets, there’s an additional step involved (Source Host, Destination Network, Subnet, Process). This extra step increases time complexity, requiring more time for data transfer and connectivity. It also affects stability. Subnetting also increases the number of IP addresses required since each subnet requires its own IP address. This can become hard to manage over time. When to adopt VLAN? Virtual LANs are internal networks within the same physical network. They interact with one another, not with other devices on the same network or outside the world. Think of VLAN as a private wireless network at home. Your neighbors don’t have access to it, but everyone in your home has. If that sounds like your desired result, you should adopt VLAN. There are three types of VLANs (basic, extended, and tagged). In basic VLAN, you assign IDs to each switch port or PCI . Once assigned, you can’t change them. Extended VLAN has more functionalities like priority-based routing. Lastly, tagged VLAN enables you to create multiple VLANs with IEEE 802.1Q. The main advantages of different VLANs over subnet are speed and stability. Since endpoints do not have to resolve IP addresses every time, they tend to be faster. But there’s a significant disadvantage to VLANs: It’s easier to breach multiple partitions if there’s a malicious injection. Without proper network security controls, it is easier to exploit vulnerabilities using malware and ransomware , putting your entire network at risk. Having ACLs (access control lists) can help in such situations. Furthermore, there are issues arising out of physical store requirements. Connecting two segments in VLAN requires you to use routers and IoT. Routers are physical devices that take up space. The more segments you create, the more routers you need to use. Over time, management can become an issue. The bottom line Both subnets and VLANs are network segmentation approaches that improve security and workload management. It’s not a given that you can’t have both. Some companies benefit from the implementation of VLAN and subnets simultaneously. But there are specific times when IT service providers prefer one over the other. Consider your requirements to select the approach that’s right for you. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Yitzy Tannenbaum, Product Marketing Manager at AlgoSec, discusses how AWS customers can leverage AlgoSec for AWS to easily migrate... Uncategorized Migrating to AWS in six simple steps Yitzy Tannenbaum 2 min read Yitzy Tannenbaum Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 12/1/20 Published Yitzy Tannenbaum, Product Marketing Manager at AlgoSec, discusses how AWS customers can leverage AlgoSec for AWS to easily migrate applications Public cloud platforms bring a host of benefits to organizations but managing security and compliance can prove complex. These challenges are exacerbated when organizations are required to manage and maintain security across all controls that make up the security network including on-premise, SDN and in the public cloud. According to a Gartner study , 81% of organizations are concerned about security, and 57% about maintaining regulatory compliance in the public cloud. AlgoSec’s partnership with AWS helps organizations overcome these challenges by making the most of AWS’ capabilities and providing solutions that complement the AWS offering, particularly in terms of security and operational excellence. And to make things even easier, AlgoSec is now available in AWS Marketplace. Accelerating complex application migration with AlgoSec Many organizations choose to migrate workloads to AWS because it provides unparalleled opportunities for scalability, flexibility, and the ability to spin-up new servers within a few minutes. However, moving to AWS while still maintaining high-level security and avoiding application outages can be challenging, especially if you are trying to do the migration manually, which can create opportunities for human error. We help simplify the migration to AWS with a six-step automated process, which takes away manual processes and reduces the risk of error: Step 1 – AlgoSec automatically discovers and maps network flows to the relevant business applications. Step 2- AlgoSec assesses the changes in the application connectivity required to migrate it to AWS. Step 3- AlgoSec analyzes, simulates and computes the necessary changes, across the entire hybrid network (over firewalls, routers, security groups etc.), including providing a what-if risk analysis and compliance report. Step 4- AlgoSec automatically migrates the connectivity flows to the new AWS environment. Step 5 – AlgoSec securely decommissions old connectivity. Step 6- The AlgoSec platform provides ongoing monitoring and visibility of the cloud estate to maintain security and operation of policy configurations or successful continuous operation of the application. Gain control of hybrid estates with AlgoSec Security automation is essential if organizations are to maintain security and compliance across their hybrid environments, as well as get the full benefit of AWS agility and scalability. AlgoSec allows organizations to seamlessly manage security control layers across the entire network from on-premise to cloud services by providing Zero-Touch automation in three key areas. First, visibility is important, since understanding the network we have in the cloud helps us to understand how to deploy and manage the policies across the security controls that make up the hybrid cloud estate. We provide instant visibility, risk assessment and compliance, as well as rule clean-up, under one unified umbrella. Organizations can gain instant network visibility and maintain a risk-free optimized rule set across the entire hybrid network – across all AWS accounts, regions and VPC combinations, as well as 3rd party firewalls deployed in the cloud and across the connection to the on-prem network. Secondly, changes to network security policies in all these diverse security controls can be managed from a single system, security policies can be applied consistently, efficiently, and with a full audit trail of every change. Finally, security automation dramatically accelerates change processes and enables better enforcement and auditing for regulatory compliance. It also helps organizations overcome skill gaps and staffing limitations. Why Purchase Through AWS Marketplace? AWS Marketplace is a digital catalog with thousands of software listings from independent software vendors (ISVs). It makes it easy for organizations to find, test, buy, and deploy software that runs on Amazon Web Services (AWS), giving them a further option to benefit from AlgoSec. The new listing also gives organizations the ability to apply their use of AlgoSec to their AWS Enterprise Discount Program (EDP) spend commitment. With the addition of AlgoSec in AWS Marketplace, customers can benefit from simplified sourcing and contracting as well as consolidated billing, ultimately resulting in cost savings. It offers organizations instant visibility and in-depth risk analysis and remediation, providing multiple unique capabilities such as cloud security group clean-ups, as well as central policy management. This strengthens enterprises’ cloud security postures and ensures continuous audit-readiness. Ready to Get Started? The addition of AlgoSec in AWS Marketplace is the latest development in the relationship between AlgoSec and AWS and is available for businesses with 500 or more users. Visit the AlgoSec AWS Marketplace listing for more information or contact us to discuss it further. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

A firewall that runs 24/7 requires a good amount of computing resources. Especially if you are running a complex firewall system, your... Firewall Change Management Firewall performance tuning: Common issues & resolutions 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 8/9/23 Published A firewall that runs 24/7 requires a good amount of computing resources. Especially if you are running a complex firewall system, your performance overhead can actually slow down the overall throughput of your systems and even affect the actual functionalities of your firewall. Here is a brief overview of common firewall performance issues and the best practices to help you tune your firewall performance . 7 Common performance issues with firewalls Since firewall implementations often include some networking hardware usage, they can slow down network performance and traffic bottlenecks within your network. 1. High CPU usage The more network traffic you deal with, the more CPU time your server will need. When a firewall is running, it adds to CPU utilization since the processes need more power to execute the network packet analysis and subsequent firewall This may lead to firewall failures in extreme cases where the firewall process is completely shut down or the system experiences a noticeable lag affecting overall functionality. A simple way to resolve this issue would be to increase the hardware capabilities. But as that might not be a viable solution in all cases, you must consider minimizing the network traffic with router-level filtering or decreasing the server load with optimized 2. Route flapping Router misconfiguration or hardware failure can cause frequent advertising of alternate routes. This will increase the load on your resources and thus lead to performance issues. 3. Network errors and discards A high number of error packets or discarded packets can burden your resources as these packets are still processed by the firewall even when they ultimately turn out to be dud in terms of traffic. Such errors usually happen when routers try to reclaim some buffer space. 4. Congested network access link Network access link congestion can be caused due to a bottleneck happening between a high bandwidth IP Network and LAN. When there is high traffic, the router queue gets filled and causes jitters and time delays. When there are more occurrences of jitter, more packets are dropped on the receiving end, causing a degradation of the quality of audio or video being transmitted. This issue is often observed in VoIP systems . 5. Network link failure When packet loss continues for over a few seconds, it can be deemed a network link failure. While re-establishing the link could take just a few seconds, the routers may already be looking for alternate routes. Frequent network link failures can be a symptom of power supply or hardware issues. 6. Misconfigurations Software or hardware misconfigurations can easily lead to overloading of LAN, and such a burden can easily affect the system’s performance. Situations like these can be caused by misconfigured multicast traffic and can affect the overall data transfer rate of all users. 7. Loss of packets Loss of packets can cause timeout errors, retransmissions, and network slowness. Loss of packets can happen due to delayed operations, server slowdown, misconfiguration, and several other reasons. How to fine-Tune your firewall performance Firewall performance issues can be alleviated with hardware upgrades. But as you scale up, upgrading hardware at an increasing scale would mean high expenses and an overall inefficient system. A much better cost-effective way to resolve firewall performance issues would be to figure out the root cause and make the necessary updates and fixes to resolve the issues. Before troubleshooting, you should know the different types of firewall optimization techniques: Hardware updates Firewall optimization can be easily achieved through real-time hardware updates and upgrades. This is a straightforward method where you add more capacity to your computing resources to handle the processing load of running a firewall. General best practices This involves the commonly used universal best practices that ensure optimized firewall configurations and working. Security policies, data standard compliances , and keeping your systems up to date and patched will all come under this category of optimizations. Any optimization effort generally applied to all firewalls can be classified under this type. Vendor specific Optimization techniques designed specifically to fit the requirements of a particular vendor are called vendor-specific optimizations. This calls for a good understanding of your protected systems, how traffic flows, and how to minimize the network load. Model specific Similar to vendor-specific optimizations, model-specific optimization techniques consider the particular network model you use. For instance, the Cisco network models usually have debugging features that can slow down performance. Similarly, the PIX 6.3 model uses TCP intercept that can slow down performance. Based on your usage and requirements, you can turn the specific features on or off to boost your firewall performance. Best practices to resolve the usual firewall performance bottlenecks Here are some proven best practices to improve your firewall’s performance. Additionally, you might also want to read Max Power by Timothy Hall for a wholesome understanding. Standardize your network traffic Any good practice starts with rectifying your internal errors and vulnerabilities. Ensure all your outgoing traffic aligns with your cybersecurity standards and regulations. Weed out any application or server sending out requests that don’t comply with the security regulations and make the necessary updates to streamline your network. Router level filtering To reduce the load on your firewall applications and hardware, you can use router-level network traffic filtering. This can be achieved by making a Standard Access List filter from the previously dropped requests and then routing them using this list for any other subsequent request attempts. This process can be time-consuming but is simple and effective in avoiding bottlenecks. Avoid using complicated firewall rules Complex firewall rules can be resource heavy and place a lot of burden on your firewall performance. Simplifying this ruleset can boost your performance to a great extent. You should also regularly audit these rules and remove unused rules. To help you clean up firewall rules, you can start with Algosec’s firewall rule cleanup and performance optimization tool . Test your firewall Regular testing and auditing of your firewall can help you identify any probable causes for performance slowdown. You can collect information on your network traffic and use it to optimize how your firewall operates. You can use Algosec’s firewall auditor services to take care of all your auditing requirements and ensure compliance at all levels. Make use of common network troubleshooting tools To analyze the network traffic and troubleshoot your performance issues, you can use common network tools like netstat and iproute2. These tools provide you with network stats and in-depth information about your traffic that can be well utilized to improve your firewall configurations. You can also use check point servers and tools like SecureXL, and CoreXL. Follow a well-defined security policy As with any security implementation, you should always have a well-defined security policy before configuring your firewalls. This gives you a good idea of how your firewall configurations are made and lets you simplify them easily. Change management is also essential to your firewall policy management process . You should also document all the changes, reviews, and updates you make to your security policies to trace any problematic configurations and keep your systems updated against evolving cyber threats. A good way to mitigate security policy risks is to utilize AlgoSec. Network segmentation Segmentation can help boost performance as it helps isolate network issues and optimize bandwidth allocation. It can also help to reduce the traffic and thus further improve the performance. Here is a guide on network segmentation you can check out. Automation Make use of automation to update your firewall settings. Automating the firewall setup process can greatly reduce setup errors and help you make the process more efficient and less time-consuming. You can also extend the automation to configure routers and switches. Algobot is an intelligent chatbot that can effortlessly handle network security policy management tasks for you. Handle broadcast traffic efficiently You can create optimized rules to handle broadcast traffic without logging to improve performance. Make use of optimized algorithms Some firewalls, such as the Cisco Pix, ASA 7.0 , Juniper network models, and FWSM 4.0 are designed to match packets without dependency on rule order. You can use these firewalls; if not, you will have to consider the rule order to boost the performance. To improve performance, you should place the most commonly used policy rules on the top of the rule base. The SANS Institute recommends the following order of rules: Anti-spoofing filters User permit rules Management permit rules Noise drops Deny and alert Deny and log DNS objects Try to avoid using DNS objects that need DNS lookup services. This slows down the firewall. Router interface design Matching the router interface with your firewall interface is a good way to ensure good performance. If your router interface is half duplex and the firewall is full duplex, the mismatch can cause some performance issues. Similarly, you should try to match the switch interface with your firewall interface, making them report on the same speed and mode. For gigabit switches, you should set up your firewall to automatically adjust speed and duplex mode. You can replace the cables and patch panel ports if you cannot match the interfaces. VPN If you are using VPN and firewalls, you can separate them to remove some VPN traffic and processing load from the firewall and thus increase the performance. UTM features You can remove the additional UTM features like Antivirus, and URL scanning features from the firewall to make it more efficient. This does not mean you completely eliminate any additional security features. Instead, just offload them from the firewall to make the firewall work faster and take up fewer computing resources. Keep your systems patched and updated Always keep your systems, firmware, software, and third-party applications updated and patched to deal with all known vulnerabilities. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Cloud environments are complex and dynamic. Due to the complexity and multifacetedness of cloud technologies, cloud-native applications... Cloud Security What is a Cloud-Native Application Protection Platform (CNAPP) Ava Chawla 2 min read Ava Chawla Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Cloud environments are complex and dynamic. Due to the complexity and multifacetedness of cloud technologies, cloud-native applications are challenging to safeguard. As a result, security teams use multiple security solutions, like CWPP and CSPM, to protect applications. The problem with this approach is that handling multiple security tools is laborious, time-consuming, and inefficient. Cloud-native application protection platform (CNAPP) is a new cloud security solution that promises to solve this problem. What is CNAPP? A cloud-native application protection platform (CNAPP) is an all-in-one tool with the capabilities of different cloud-native security tools. It combines the security features of multiple tools and provides comprehensive protection – from the development and configuration stages to deployment and runtime. Container security is here to stay A CNAPP combines CSPM, CIEM, IAM, CWPP, and more in one tool. It streamlines cloud security monitoring, threat detection, and remediation processes. The all-in-one platform gives organizations better visibility into threats and vulnerabilities. Instead of using multiple tools to receive alerts and formulate a remediation plan, a CNAPP minimizes complexity and enables security teams to monitor and draw insights from a single platform. How Does CNAPP Work and Why is it So Important to Have? This new cloud security approach offers the capabilities of multiple security tools in one software. Some of these security functions include Cloud Security Posture Management (CSPM), Infrastructure-as-Code (IaC) Scanning, Cloud Workload Protection Platform (CWPP), Cloud Network Security Connectivity (CNSC), and Kubernetes Security Posture Management (CIEM). The all-in-one platform centralizes insights, enabling security professionals to monitor and analyze data from the same space. A CNAPP identifies risks with strong context, provides detailed alerts, and offers automation features to fix vulnerabilities and misconfigurations. A CNAPP is essential because it reduces complexity and minimizes overhead. Given how complex and dynamic the cloud environments are, organizations are faced with enormous security threats. Enterprises deploy applications on multiple private and public clouds leveraging various dynamic, mixed technologies. This makes securing cloud assets significantly challenging. To cope with the complexity, security operations teams rely on multiple cloud security solutions. SecOps use various solutions to protect modern development practices, such as containers, Kubernetes, serverless functions, CI/CD pipelines, and infrastructure as code (IaC). This approach has been helpful. That said, it’s laborious and inefficient. In addition to not providing a broad view of security risks, dealing with multiple tools negatively impacts accuracy and decreases productivity. Having to correlate data from several platforms leads to errors and delayed responses. A CNAPP takes care of these problems by combining the functionalities of multiple tools in one software. It protects every stage of the cloud application lifecycle, from development to runtime. Leveraging advanced analytics and remediation automation, CNAPPs help organizations address cloud-native risks, harden applications, and institute security best practices. What Problems Does a CNAPP Solve? This new category of cloud application security tool is revolutionizing the cybersecurity landscape. It solves major challenges DevSecOps have been dealing with. That said, a CNAPP helps security teams to solve the following problems. 1. Enhancing Visibility and Quantifying Risks A CNAPP offers a broader visibility of security risks. It leverages multiple security capabilities to enable DevOps and DevSecOps to spot and fix potential security issues throughout the entire application lifecycle. The all-in-one security platform enables teams to keep tabs on all cloud infrastructures ( like apps, APIs, and classified data) and cloud services (like AWS, Azure, and Google Cloud). In addition, it provides insights that help security teams to quantify risks and formulate data-driven remediation strategies. 2. Combined Cloud Security Solution A CNAPP eliminates the need to use multiple cloud-native application protection solutions. It provides all the features needed to detect and solve security issues. Scanning, detection, notification, and reporting are consolidated in one software. This reduces human error, shortens response time, and minimizes the cost of operation. 3. Secure Software Development It reinforces security at every stage of the application lifecycle. The tool helps DevOps teams to shift left, thus minimizing the incidence of vulnerabilities or security issues at runtime. 4. Team Collaboration Collaboration is difficult and error-prone when teams are using multiple tools. Data correlation and analysis take more time since team members have more than one tool to deal with. A CNAPP is a game-changer! It has advanced workflows, data correlation, analytics, and remediation features. These functionalities enhance team collaboration and increase productivity. What are CNAPP Features and Capabilities/Key Components of CNAPP? Even though the features and capabilities of CNAPPs differ (based on vendors), there are key components an effective CNAPP should have. That being said, here are the seven key components: Cloud Security Posture Management (CSPM) A CSPM solution focuses on maintaining proper cloud configuration. It monitors, detects, and fixes misconfigurations & compliance violations. CSPM monitors cloud resources and alerts security teams when a non-compliant resource is identified. Infrastructure-as-Code (IaC) Scanning IaC Scanning enables the early detection of errors (misconfigurations) in code. Spotting misconfigurations before deployment helps to avoid vulnerabilities at runtime. This tool is used to carry out some kind of code review. The purpose is to ensure code quality by scanning for vulnerable points, compliance issues, and violations of policies. Cloud Workload Protection Platform (CWPP) Cloud workload protection platform (CSPM) secures cloud workloads, shielding your resources from security threats. CSPM protects various workloads, from virtual machines (VMs) and databases to Kubernetes and containers. A CWPP monitors and provides insights to help security teams prevent security breaches. Cloud Network Security Connectivity (CNSC) Cloud Network Security Connectivity (CNSC) provides complete real-time visibility and access to risks across all your cloud resources and accounts. This cloud security solution allows you to explore the risks, activate security rules, and suppress whole risks or risk triggers, export risk trigger details, access all network rules in the context of their policy sets and create risk reports. Kubernetes Security Posture Management (KSPM) Kubernetes security posture management (KSPM) capability enables organizations to maintain standard security posture by preventing Kubernetes misconfigurations and compliance violations. KSPM solution, similar to Cloud Security Posture Management (CSPM), automates Kubernetes security, reinforces compliance, identifies misconfigurations, and monitors Kubernetes clusters to ensure maximum security. Cloud Infrastructure Entitlement Management (CIEM) A Cloud Infrastructure Entitlement Management (CIEM) tool is used to administer permissions and access policies. To maintain the integrity of cloud and multi-cloud environments, identities and access privileges must be regulated. This is where CIEM comes in! CIEM solutions, also known as Cloud permissions Management Solutions, help organizations prevent data breaches by enforcing the principle of least privileges. Integration to Software Development Activities This component of CNAPP focuses on integrating cloud-native application protection solutions into the development phase to improve reliability and robustness in the CI/CD pipeline stage. What are the Benefits of CNAPP? Transitioning from using multiple cloud security tools to implementing a CNAPP solution can benefit your company in many ways. Some benefits include: 1. Streamlines Security Operations Managing multiple security tools decreases efficiency and leads to employee burnout. Correlating data from different software is laborious and error-prone. It prolongs response time. A CNAPP streamlines activities by giving security teams broad visibility from a single tool. This makes monitoring and remediation easier than ever – making security teams more efficient and productive. 2. Better Visibility into Risks A CNAPP provides better visibility into security risks associated with your cloud infrastructure. It covers all aspects of cloud-native application protection, providing security teams with the necessary insights to close security gaps, harden applications, and ward off threats. 3. Improves Security With Automation Risk detection and vulnerability management are automated. Automation of security tasks increases reliability, reduces human error, and enables rapid response to threats. It combines automation and advanced analytics to offer organizations accurate insights into risks. 4. Reduces the Number of Bug Fixes A CNAPP prevents vulnerabilities at runtime by detecting threats and errors in the CI/CD pipeline phases. This approach improves DevOps team productivity and decreases the number of bug fixes after deployment. In other words, shifting left ensures the deployment of high-quality code. 5. Reduces Overhead Costs If you want to cut down the cost of operation, consider choosing a CNAPP over CSPM and other standalone cloud security tools. It reduces overhead by eliminating the need to operate and maintain multiple cloud security solutions. AlgoSec CNAPP with Prevasio and CloudFlow Cloud environments are increasingly complex and dynamic. Maintaining secure cloud infrastructures has become more challenging than ever. Security teams rely on multiple tools to gain visibility into risks. CNAPPs promise to fix the challenges of using multiple solutions to protect cloud-native applications. Gartner, the first to describe the CNAPP category, encourages organizations to consider emerging CNAPP providers and adopt an all-in-one security approach that takes care of the entire life cycle of applications – covering development and runtime protection. Prevasio makes transitioning to a CNAPP a fantastic experience. Prevasio takes pride in helping organizations protect their cloud-native applications and other cloud assets. Prevasio’s agentless cloud-native application protection platform (CNAPP) offers increased risk visibility and enables security teams to reinforce best practices. Contact us to learn how we can help you manage your cloud security. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

The cloud's come a long way, baby.  Remember when it was just a buzzword tossed around in boardrooms? Now, it's the engine powering our... Cloud Network Security The shocking truth about Network Cloud Security in 2025 Iris Stein 2 min read Iris Stein Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/10/25 Published The cloud's come a long way, baby. Remember when it was just a buzzword tossed around in boardrooms? Now, it's the engine powering our digital world. But this rapid evolution has left many cloud network security managers grappling with a new reality – and a bit of an identity crisis. Feeling the heat? You're not alone. The demands on cloud security professionals are skyrocketing. We're expected to be masters of hybrid environments, navigate a widening skills gap, and stay ahead of threats evolving at warp speed. Let's break down the challenges: Hybrid is the new normal: Gartner predicts that by 2025, a whopping 90% of organizations will be running hybrid cloud environments. This means juggling the complexities of both on-premises and cloud security, demanding a broader skillset and a more holistic approach. Forget silos – we need to be fluent in both worlds. The skills gap is a chasm: (ISC)²'s 2022 Cybersecurity Workforce Study revealed a global cybersecurity workforce gap of 3.4 million. This talent shortage puts immense pressure on existing security professionals to do more with less. We're stretched thin, and something's gotta give. Threats are evolving faster than ever: The cloud introduces new attack vectors and vulnerabilities we haven't even imagined yet. McAfee reported a staggering 630% increase in cloud-native attacks in 2022. Staying ahead of these threats requires constant vigilance, continuous learning, and a proactive mindset. Level up your cloud security game So, how can you thrive in this chaotic environment and ensure your career (and your company's security posture) doesn't go down in flames? Here's your survival guide: Automate or die: Manual processes are a relic of the past. Embrace automation tools to manage complex security policies, respond to threats faster, and free up your time for strategic initiatives. Think of it as your force multiplier in the fight against complexity. Become a cloud-native ninja: Deepen your understanding of cloud platforms like AWS, Azure, and GCP. Master their security features, best practices, and quirks. The more you know, the more you can protect. Sharpen your soft skills: Technical chops alone won't cut it. Communication, collaboration, and problem-solving are critical. You need to clearly articulate security risks to stakeholders, build bridges with different teams, and drive solutions. Never stop learning: The cloud is a moving target. Continuous learning is no longer optional – it's essential. Attend conferences, devour online courses, and stay informed about the latest security trends and technologies. Complacency is the enemy. Introducing AlgoSec Cloud Enterprise (ACE): Your cloud security wingman Let's face it, managing security across a hybrid cloud environment can feel like herding cats. That's where AlgoSec Cloud Enterprise (ACE) steps in. ACE is a comprehensive cloud network security suite that gives you the visibility, automation, and control you need to secure your applications and keep the business humming. Gain X-Ray Vision into Your Hybrid Cloud: See everything, know everything. ACE gives you complete visibility across your entire environment, from on-premises servers to cloud platforms. No more blind spots, no more surprises. Enforce Security Policies Like a Boss: Consistent security policies are the bedrock of a strong security posture. ACE makes it easy to define and enforce policies across all your applications, no matter where they reside. Conquer Compliance with Confidence: Staying compliant can feel like a never-ending struggle. ACE simplifies compliance management across your hybrid environment, helping you meet regulatory requirements without breaking a sweat. Accelerate App Delivery Without Sacrificing Security: In today's fast-paced world, speed is key. ACE empowers you to accelerate application delivery without compromising security. Move fast, break things – but not your security posture. Proactive Risk Prevention: ACE goes beyond basic security checks with over 150+ network security policy risk checks, proactively identifying and mitigating potential vulnerabilities before they can be exploited. Ready to unlock the true power of the cloud while fortifying your defenses? Learn more about AlgoSec Cloud Enterprise today and take control of your cloud security destiny. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

In the rapidly evolving landscape of technology, containers have become a cornerstone for deploying and managing applications... Cloud Network Security Enhancing container security: A comprehensive overview and solution Nitin Rajput 2 min read Nitin Rajput Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. cloudsecurity, cnapp, networksecurity Tags Share this article 1/23/24 Published In the rapidly evolving landscape of technology, containers have become a cornerstone for deploying and managing applications efficiently. However, with the increasing reliance on containers, understanding their intricacies and addressing security concerns has become paramount. In this blog, we will delve into the fundamental concept of containers and explore the crucial security challenges they pose. Additionally, we will introduce a cutting-edge solution from our technology partner, Prevasio, that empowers organizations to fortify their containerized environments. Understanding containers At its core, a container is a standardized software package that seamlessly bundles and isolates applications for deployment. By encapsulating an application’s code and dependencies, containers ensure consistent performance across diverse computing environments. Notably, containers share access to an operating system (OS) kernel without the need for traditional virtual machines (VMs), making them an ideal choice for running microservices or large-scale applications. Security concerns in containers Container security encompasses a spectrum of risks, ranging from misconfigured privileges to malware infiltration in container images. Key concerns include using vulnerable container images, lack of visibility into container overlay networks, and the potential spread of malware between containers and operating systems. Recognizing these challenges is the first step towards building a robust security strategy for containerized environments. Introducing Prevasio’s innovative solution In collaboration with our technology partner Prevasio, we’ve identified an advanced approach to mitigating container security risks. Prevasio’s Cloud-Native Application Protection Platform (CNAPP) is an unparalleled, agentless solution designed to enhance visibility into security and compliance gaps. This empowers cloud operations and security teams to prioritize risks and adhere to internet security benchmarks effectively. Dynamic threat protection for containers Prevasio’s focus on threat protection for containers involves a comprehensive static and dynamic analysis. In the static analysis phase, Prevasio meticulously scans packages for malware and known vulnerabilities, ensuring that container images are free from Common Vulnerabilities and Exposures (CVEs) or viruses during the deployment process. On the dynamic analysis front, Prevasio employs a multifaceted approach, including: Behavioral analysis : Identifying malware that evades static scanners by analyzing dynamic payloads. Network traffic inspection : Intercepting and inspecting all container-generated network traffic, including HTTPS, to detect any anomalous patterns. Activity correlation : Establishing a visual hierarchy, presented as a force-directed graph, to identify problematic containers swiftly. This includes monitoring new file executions and executed scripts within shells, enabling the identification of potential remote access points. In conclusion, container security is a critical aspect of modern application deployment. By understanding the nuances of containers and partnering with innovative solutions like Prevasio’s CNAPP, organizations can fortify their cloud-native applications, mitigate risks, and ensure compliance in an ever-evolving digital landscape. #cloudsecurity #CNAPP #networksecurity Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Nick Ellsmore is an Australian cybersecurity professional whose thoughts on the future of cybersecurity are always insightful. Having a... Cloud Security Errare humanum est 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 11/25/21 Published Nick Ellsmore is an Australian cybersecurity professional whose thoughts on the future of cybersecurity are always insightful. Having a deep respect for Nick, I really enjoyed listening to his latest podcast “Episode 79 Making the cyber sector redundant with Nick Ellsmore” . As Nick opened the door to debate on “all the mildly controversial views” he has put forward in the podcast, I decided to take a stab at a couple of points made by Nick. For some mysterious reason, these points have touched my nerve. So, here we go. Nick: The cybersecurity industry, we spent so long trying to get people to listen to us and take the issue seriously, you know, we’re now getting that, you know. Are the businesses really responding because we were trying to get people to listen to us? Let me rephrase this question. Are the businesses really spending more on cybersecurity because we were trying to get people to listen to us? The “cynical me” tells me No. Businesses are spending more on cybersecurity because they are losing more due to cyber incidents. It’s not the number of incidents; it’s their impact that is increasingly becoming devastating. Over the last ten years, there were plenty of front-page headliners that shattered even seemingly unshakable businesses and government bodies. Think of Target attack in 2013, the Bank of Bangladesh heist in 2016, Equifax breach in 2017, SolarWinds hack in 2020 .. the list goes on. We all know how Uber tried to bribe attackers to sweep the stolen customer data under the rug. But how many companies have succeeded in doing so without being caught? How many cyber incidents have never been disclosed? These headliners don’t stop. Each of them is another reputational blow, impacted stock options, rolled heads, stressed-out PR teams trying to play down the issue, knee-jerk reaction to acquire snake-oil-selling startups, etc. We’re not even talking about skewed election results (a topic for another discussion). Each one of them comes at a considerable cost. So no wonder many geniuses now realise that spending on cybersecurity can actually mitigate those risks. It’s not our perseverance that finally started paying off. It’s their pockets that started hurting. Nick: I think it’s important that we don’t lose sight of the fact that this is actually a bad thing to have to spend money on. Like, the reason that we’re doing this is not healthy. .. no one gets up in the morning and says, wow, I can’t wait to, you know, put better locks on my doors. It’s not the locks we sell. We sell gym membership. We want people to do something now to stop bad things from happening in the future. It’s a concept of hygiene, insurance, prevention, health checks. People are free not to pursue these steps, and run their business the way they used to .. until they get hacked, get into the front page, wondering first “Why me?” and then appointing a scapegoat. Nick: And so I think we need to remember that, in a sense, our job is to create the entire redundancy of this sector. Like, if we actually do our job, well, then we all have to go and do something else, because security is no longer an issue. It won’t happen due to 2 main reasons. Émile Durkheim believed in a “society of saints”. Unfortunately, it is a utopia. Greed, hunger, jealousy, poverty are the never-ending satellites of the human race that will constantly fuel crime. Some of them are induced by wars, some — by corrupt regimes, some — by sanctions, some — by imperfect laws. But in the end — there will always be Haves and Have Nots, and therefore, fundamental inequality. And that will feed crime. “Errare humanum est” , Seneca. To err is human. Because of human errors, there will always be vulnerabilities in code. Because of human nature (and as its derivative, geopolitical or religious tension, domination, competition, nationalism, fight for resources), there will always be people willing to and capable of exploiting those vulnerabilities. Mix those two ingredients — and you get a perfect recipe for cybercrime. Multiply that with never-ending computerisation, automation, digital transformation, and you get a constantly growing attack surface. No matter how well we do our job, we can only control cybercrime and keep the lid on it, but we can’t eradicate it. Thinking we could would be utopic. Another important consideration here is budget constraints. Building proper security is never fun — it’s a tedious process that burns cash but produces no tangible outcome. Imagine a project with an allocated budget B to build a product P with a feature set F, in a timeframe T. Quite often, such a project will be underfinanced, potentially leading to a poor choice of coders, overcommitted promises, unrealistic expectations. Eventually leading to this (oldie, but goldie): Add cybersecurity to this picture, and you’ll get an extra step that seemingly complicates everything even further: The project investors will undoubtedly question why that extra step was needed. Is there a new feature that no one else has? Is there a unique solution to an old problem? None of that? Then what’s the justification for such over-complication? Planning for proper cybersecurity built-in is often perceived as FUD. If it’s not tangible, why do we need it? Customers won’t see it. No one will see it. Scary stories in the press? Nah, that’ll never happen to us. In some way, extra budgeting for cybersecurity is anti-capitalistic in nature. It increases the product cost and, therefore, its price, making it less competitive. It defeats the purpose of outsourcing product development, often making outsourcing impossible. From the business point of view, putting “Sec” into “DevOps” does not make sense. That’s Ok. No need. .. until it all gloriously hits the fan, and then we go back to STEP 1. Then, maybe, just maybe, the customer will say, “If we have budgeted for that extra step, then maybe we would have been better off”. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call