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- AlgoSec | Risk Management in Network Security: 7 Best Practices for 2024
Protecting an organization against every conceivable threat is rarely possible. There is a practically unlimited number of potential threats in the world, and security leaders don’t have unlimited resources available to address them. Prioritizing risks associated with more severe potential impact allows leaders to optimize cybersecurity decision-making and improve the organization’s security posture. Cybersecurity risk management is important because many security measures come with large... Uncategorized Risk Management in Network Security: 7 Best Practices for 2024 Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 1/26/24 Published Protecting an organization against every conceivable threat is rarely possible. There is a practically unlimited number of potential threats in the world, and security leaders don’t have unlimited resources available to address them. Prioritizing risks associated with more severe potential impact allows leaders to optimize cybersecurity decision-making and improve the organization’s security posture. Cybersecurity risk management is important because many security measures come with large costs. Before you can implement security controls designed to protect against cyberattacks and other potential risks, you must convince key stakeholders to support the project. Having a structured approach to cyber risk management lets you demonstrate exactly how your proposed changes impact the organization’s security risk profile. This makes it much easier to calculate the return on cybersecurity investment – making it a valuable tool when communicating with board members and executives. Here are seven tips every security leader should keep in mind when creating a risk management strategy: Cultivate a security-conscious risk management culture Use risk registers to describe potential risks in detail Prioritize proactive, low-cost risk remediation when possible Treat risk management as an ongoing process Invest in penetration testing to discover new vulnerabilities Demonstrate risk tolerance by implementing the NIST Cybersecurity Framework Don’t forget to consider false positives in your risk assessment What is a Risk Management Strategy? The first step to creating a comprehensive risk management plan is defining risk. According to the International Organization for Standardization (ISO) risk is “the effect of uncertainty on objectives”. This definition is accurate, but its scope is too wide. Uncertainty is everywhere, including things like market conditions, natural disasters, or even traffic jams. As a cybersecurity leader, your risk management process is more narrowly focused on managing risks to information systems, protecting sensitive data, and preventing unauthorized access. Your risk management program should focus on identifying these risks, assessing their potential impact, and creating detailed plans for addressing them. This might include deploying tools for detecting cyberattacks, implementing policies to prevent them, or investing in incident response and remediation tools to help you recover from them after they occur. In many cases, you’ll be doing all of these things at once. Crucially, the information you uncover in your cybersecurity risk assessment will help you prioritize these initiatives and decide how much to spend on them. Your risk management framework will provide you with the insight you need to address high-risk, high-impact cybersecurity threats first and manage low-risk, low-impact threats later on. 7 Tips for Creating a Comprehensive Risk Management Strategy 1. Cultivate a security-conscious risk management culture No CISO can mitigate security risks on their own. Every employee counts on their colleagues, partners, and supervisors to keep sensitive data secure and prevent data breaches. Creating a risk management strategy is just one part of the process of developing a security-conscious culture that informs risk-based decision-making. This is important because many employees have to make decisions that impact security on a daily basis. Not all of these decisions are critical-severity security scenarios, but even small choices can influence the way the entire organization handles risk. For example, most organizations list their employees on LinkedIn. This is not a security threat on its own, but it can contribute to security risks associated with phishing attacks and social engineering . Cybercriminals may create spoof emails inviting employees to fake webinars hosted by well-known employees, and use the malicious link to infect employee devices with malware. Cultivating a risk management culture won’t stop these threats from happening, but it might motivate employees to reach out when they suspect something is wrong. This gives security teams much greater visibility into potential risks as they occur, and increases the chance you’ll detect and mitigate threats before they launch active cyberattacks. 2. Use risk registers to describe potential risks in detail A risk register is a project management tool that describes risks that could disrupt a project during execution. Project managers typically create the register during the project planning phase and then refer to it throughout execution. A risk register typically uses the following characteristics to describe individual risks: Description : A brief overview of the risk itself. Category: The formal classification of the risk and what it affects. Likelihood: How likely this risk is to take place. Analysis: What would happen if this risk occurred. Mitigation: What would the team need to do to respond in this scenario. Priority: How critical is this risk compared to others. The same logic applies to business initiatives both large and small. Using a risk register can help you identify and control unexpected occurrences that may derail the organization’s ongoing projects. If these projects are actively supervised by a project manager, risk registers should already exist for them. However, there may be many initiatives, tasks, and projects that do not have risk registers. In these cases, you may need to create them yourself. Part of the overall risk assessment process should include finding and consolidating these risk registers to get an idea of the kinds of disruptions that can take place at every level of the organization. You may find patterns in the types of security risks that you find described in multiple risk registers. This information should help you evaluate the business impact of common risks and find ways to mitigate those risks effectively. 3. Prioritize proactive, low-cost risk remediation when possible Your organization can’t afford to prevent every single risk there is. That would require an unlimited budget and on-demand access to technical specialist expertise. However, you can prevent certain high-impact risks using proactive, low-cost policies that can make a significant difference in your overall security posture. You should take these opportunities when they present themselves. Password policies are a common example. Many organizations do not have sufficiently robust password policies in place. Cybercriminals know this –that’s why dictionary-based credential attacks still occur. If employees are reusing passwords across accounts or saving them onto their devices in plaintext, it’s only a matter of time before hackers notice. At the same time, upgrading a password policy is not an especially expensive task. Even deploying an enterprise-wide password manager and investing in additional training may be several orders of magnitude cheaper than implementing a new SIEM or similarly complex security platform. Your cybersecurity risk assessment will likely uncover many opportunities like this one. Take a close look at things like password policies, change management , and security patch update procedures and look for easy, low-cost projects that can provide immediate security benefits without breaking your budget. Once you address these issues, you will be in a much better position to pursue larger, more elaborate security implementations. 4. Treat risk management as an ongoing process Every year, cybercriminals leverage new tactics and techniques against their victims. Your organization’s security team must be ready to address the risks of emerging malware, AI-enhanced phishing messages, elaborate supply chain attacks, and more. As hackers improve their attack methodologies, your organization’s risk profile shifts. As the level of risk changes, your approach to information security must change as well. This means developing standards and controls that adjust according to your organization’s actual information security risk environment. Risk analysis should not be a one-time event, but a continuous one that delivers timely results about where your organization is today – and where it may be in the future. For example, many security teams treat firewall configuration and management as a one-time process. This leaves them vulnerable to emerging threats that they may not have known about during the initial deployment. Part of your risk management strategy should include verifying existing security solutions and protecting them from new and emerging risks. 5. Invest in penetration testing to discover new vulnerabilities There is more to discovering new risks than mapping your organization’s assets to known vulnerabilities and historical data breaches. You may be vulnerable to zero-day exploits and other weaknesses that won’t be immediately apparent. Penetration testing will help you discover and assess risks that you can’t find out about otherwise. Penetration testing mitigates risk by pinpointing vulnerabilities in your environment and showing how hackers could exploit them. Your penetration testing team will provide a comprehensive report showing you what assets were compromised and how. You can then use this information to close those security gaps and build a stronger security posture as a result. There are multiple kinds of penetration testing. Depending on your specific scenario and environment, you may invest in: External network penetration testing focuses on the defenses your organization deploys on internet-facing assets and equipment. The security of any business application exposed to the public may be assessed through this kind of test. Internal network penetration testing determines how cybercriminals may impact the organization after they gain access to your system and begin moving laterally through it. This also applies to malicious insiders and compromised credential attacks. Social engineering testing looks specifically at how employees respond to attackers impersonating customers, third-party vendors, and internal authority figures. This will help you identify risks associated with employee security training . Web application testing focuses on your organization’s web-hosted applications. This can provide deep insight into how secure your web applications are, and whether they can be leveraged to leak sensitive information. 6. Demonstrate risk tolerance by implementing the NIST Cybersecurity Framework The National Institute of Standards and Technology publishes one of the industry’s most important compliance frameworks for cybersecurity risk mitigation. Unlike similar frameworks like PCI DSS and GDPR, the NIST Cybersecurity Framework is voluntary – you are free to choose when and how you implement its controls in your organization. This set of security controls includes a comprehensive, flexible approach to risk management. It integrates risk management techniques across multiple disciplines and combines them into an effective set of standards any organization can follow. As of 2023, the NIST Risk Management Framework focuses on seven steps: Prepare the organization to change the way it secures its information technology solutions. Categorize each system and the type of information it processes according to a risk and impact analysis/ Select which NIST SP 800-53 controls offer the best data protection for the environment. Implement controls and document their deployment. Assess whether the correct controls are in place and operating as intended. Authorize the implementation in partnership with executives, stakeholders, and IT decision-makers. Monitor control implementations and IT systems to assess their effectiveness and discover emerging risks. 7. Don’t forget to consider false positives in your risk assessment False positives refer to vulnerabilities and activity alerts that have been incorrectly flagged. They can take many forms during the cybersecurity risk assessment process – from vulnerabilities that don’t apply to your organization’s actual tech stack to legitimate traffic getting blocked by firewalls. False positives can impact risk assessments in many ways. The most obvious problem they present is skewing your assessment results. This may lead to you prioritizing security controls against threats that aren’t there. If these controls are expensive or time-consuming to deploy, you may end up having an uncomfortable conversation with key stakeholders and decision-makers later on. However, false positives are also a source of security risks. This is especially true with automated systems like next-generation firewalls , extended detection and response (XDR) solutions, and Security Orchestration, Automation, and Response (SOAR) platforms. Imagine one of these systems detects an outgoing video call from your organization. It flags the connection as suspicious and begins investigating it. It discovers the call is being made from an unusual location and contains confidential data, so it blocks the call and terminates the connection. This could be a case of data exfiltration, or it could be the company CEO presenting a report to stockholders while traveling. Most risk assessments don’t explore the potential risk of blocking high-level executive communications or other legitimate communications due to false positives. Use AlgoSec to Identify and Assess Network Security Risks More Accurately Building a comprehensive risk management strategy is not an easy task. It involves carefully observing the way your organization does business and predicting how cybercriminals may exploit those processes. It demands familiarity with almost every task, process, and technology the organization uses, and the ability to simulate attack scenarios from multiple different angles. There is no need to accomplish these steps manually. Risk management platforms like AlgoSec’s Horizon Security Analyzer can help you map business applications throughout your network and explore attack simulations with detailed “what-if” scenarios. Use Horizon Security Analyzer to gain deep insight into how your organization would actually respond to security incidents and unpredictable events, then use those insights to generate a more complete risk management approach. Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... 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- AlgoSec | Sunburst Backdoor: A Deeper Look Into The SolarWinds’ Supply Chain Malware
Update : Next two parts of the analysis are available here and here . As earlier reported by FireEye, the actors behind a global... Cloud Security Sunburst Backdoor: A Deeper Look Into The SolarWinds’ Supply Chain Malware 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 12/15/20 Published Update : Next two parts of the analysis are available here and here . As earlier reported by FireEye, the actors behind a global intrusion campaign have managed to trojanise SolarWinds Orion business software updates in order to distribute malware. The original FireEye write-up already provides a detailed description of this malware. Nevertheless, as the malicious update SolarWinds-Core-v2019.4.5220-Hotfix5.msp was still available for download for hours since the FireEye’s post, it makes sense to have another look into the details of its operation. The purpose of this write-up is to provide new information, not covered in the original write-up. Any overlaps with the original description provided by FireEye are not intentional. For start, the malicious component SolarWinds.Orion.Core.BusinessLayer.dll inside the MSP package is a non-obfuscated .NET assembly. It can easily be reconstructed with a .NET disassembler, such as ILSpy , and then fully reproduced in C# code, using Microsoft Visual Studio. Once reproduced, it can be debugged to better understand how it works. In a nutshell, the malicious DLL is a backdoor. It is loaded into the address space of the legitimate SolarWinds Orion process SolarWinds.BusinessLayerHost.exe or SolarWinds.BusinessLayerHostx64.exe . The critical strings inside the backdoor’s class SolarWinds.Orion.Core.BusinessLayer.OrionImprovementBusinessLayer are encoded with the DeflateStream Class of the .NET’s System.IO.Compression library, coupled with the standard base64 encoder. Initialisation Once loaded, the malware checks if its assembly file was created earlier than 12, 13, or 14 days ago. The exact number of hours it checks is a random number from 288 to 336. Next, it reads the application settings value ReportWatcherRetry . This value keeps the reporting status, and may be set to one of the states: New (4) Truncate (3) Append (5) When the malware runs the first time, its reporting status variable ReportWatcherRetry is set to New (4) . The reporting status is an internal state that drives the logic. For example, if the reporting status is set to Truncate , the malware will stop operating by first disabling its networking communications, and then disabling other security tools and antivirus products. In order to stay silent, the malware periodically falls asleep for a random period of time that varies between 30 minutes and 2 hours. At the start, the malware obtains the computer’s domain name . If the domain name is empty, the malware quits. It then generates a 8-byte User ID, which is derived from the system footprint. In particular, it is generated from MD5 hash of a string that consists from the 3 fields: the first or default operational (can transmit data packets) network interface’s physical address computer’s domain name UUID created by Windows during installation (machine’s unique ID) Even though it looks random, the User ID stays permanent as long as networking configuration and the Windows installation stay the same. Domain Generation Algorithm The malware relies on its own CryptoHelper class to generate a domain name. This class is instantiated from the 8-byte User ID and the computer’s domain name, encoded with a substitution table: “rq3gsalt6u1iyfzop572d49bnx8cvmkewhj” . For example, if the original domain name is “ domain “, its encoded form will look like: “ n2huov “. To generate a new domain, the malware first attempts to resolve domain name “ api.solarwinds.com “. If it fails to resolve it, it quits. The first part of the newly generated domain name is a random string, produced from the 8-byte User ID, a random seed value, and encoded with a custom base64 alphabet “ph2eifo3n5utg1j8d94qrvbmk0sal76c” . Because it is generated from a random seed value, the first part of the newly generated domain name is random. For example, it may look like “ fivu4vjamve5vfrt ” or “ k1sdhtslulgqoagy “. To produce the domain name, this string is then appended with the earlier encoded domain name (such as “ n2huov “) and a random string, selected from the following list: .appsync-api.eu-west-1[.]avsvmcloud[.]com .appsync-api.us-west-2[.]avsvmcloud[.]com .appsync-api.us-east-1[.]avsvmcloud[.]com .appsync-api.us-east-2[.]avsvmcloud[.]com For example, the final domain name may look like: fivu4vjamve5vfrtn2huov[.]appsync-api.us-west-2[.]avsvmcloud[.]com or k1sdhtslulgqoagyn2huov[.]appsync-api.us-east-1[.]avsvmcloud[.]com Next, the domain name is resolved to an IP address, or to a list of IP addresses. For example, it may resolve to 20.140.0.1 . The resolved domain name will be returned into IPAddress structure that will contain an AddressFamily field – a special field that specifies the addressing scheme. If the host name returned in the IPAddress structure is different to the queried domain name, the returned host name will be used as a C2 host name for the backdoor. Otherwise, the malware will check if the resolved IP address matches one of the patterns below, in order to return an ‘address family’: IP Address Subnet Mask ‘Address Family’ 10.0.0.0 255.0.0.0 Atm 172.16.0.0 255.240.0.0 Atm 192.168.0.0 255.255.0.0 Atm 224.0.0.0 240.0.0.0 Atm fc00:: fe00:: Atm fec0:: ffc0:: Atm ff00:: ff00:: Atm 41.84.159.0 255.255.255.0 Ipx 74.114.24.0 255.255.248.0 Ipx 154.118.140.0 255.255.255.0 Ipx 217.163.7.0 255.255.255.0 Ipx 20.140.0.0 255.254.0.0 ImpLink 96.31.172.0 255.255.255.0 ImpLink 131.228.12.0 255.255.252.0 ImpLink 144.86.226.0 255.255.255.0 ImpLink 8.18.144.0 255.255.254.0 NetBios 18.130.0.0 255.255.0.0 NetBios 71.152.53.0 255.255.255.0 NetBios 99.79.0.0 255.255.0.0 NetBios 87.238.80.0 255.255.248.0 NetBios 199.201.117.0 255.255.255.0 NetBios 184.72.0.0 255.254.0.0 NetBios For example, if the queried domain resolves to 20.140.0.1 , it will match the entry in the table 20.140.0.0 , for which the returned ‘address family’ will be ImpLink . The returned ‘address family’ invokes an additional logic in the malware. Disabling Security Tools and Antivirus Products If the returned ‘address family’ is ImpLink or Atm , the malware will enumerate all processes and for each process, it will check if its name matches one of the pre-defined hashes. Next, it repeats this processed for services and for the drivers installed in the system. If a process name or a full path of an installed driver matches one of the pre-defined hashes, the malware will disable it. For hashing, the malware relies on Fowler–Noll–Vo algorithm. For example, the core process of Windows Defender is MsMpEng.exe . The hash value of “ MsMpEng ” string is 5183687599225757871 . This value is specifically enlisted the malware’s source under a variable name timeStamps : timeStamps = new ulong[1] { 5183687599225757871uL } The service name of Windows Defender is windefend – the hash of this string ( 917638920165491138 ) is also present in the malware body. As a result, the malicioius DLL will attempt to stop the Windows Defender service. In order to disable various security tools and antivirus products, the malware first grants itself SeRestorePrivilege and SeTakeOwnershipPrivilege privileges, using the native AdjustTokenPrivileges() API. With these privileges enabled, the malware takes ownership of the service registry keys it intends to manipulate. The new owner of the keys is first attempted to be explicitly set to Administrator account. If such account is not present, the malware enumerates all user accounts, looking for a SID that represents the administrator account. The malware uses Windows Management Instrumentation query “ Select * From Win32_UserAccount ” to obtain the list of all users. For each enumerated user, it makes sure the account is local and then, when it obtains its SID, it makes sure the SID begins with S-1-5- and ends with -500 in order to locate the local administrator account. Once such account is found, it is used as a new owner for the registry keys, responsible for manipulation of the services of various security tools and antivirus products. With the new ownership set, the malware then disables these services by setting their Start value to 4 (Disabled): registryKey2.SetValue(“Start”), 4, RegistryValueKind.DWord); HTTP Backdoor If the returned ‘address family’ for the resolved domain name is NetBios , as specified in the lookup table above, the malware will initialise its HttpHelper class, which implements an HTTP backdoor. The backdoor commands are covered in the FireEye write-up, so let’s check only a couple of commands to see what output they produce. One of the backdoor commands is CollectSystemDescription . As its name suggests, it collects system information. By running the code reconstructed from the malware, here is an actual example of the data collected by the backdoor and delivered to the attacker’s C2 with a separate backdoor command UploadSystemDescription : 1. %DOMAIN_NAME% 2. S-1-5-21-298510922-2159258926-905146427 3. DESKTOP-VL39FPO 4. UserName 5. [E] Microsoft Windows NT 6.2.9200.0 6.2.9200.0 64 6. C:\WINDOWS\system32 7. 0 8. %PROXY_SERVER% Description: Killer Wireless-n/a/ac 1535 Wireless Network Adapter #2 MACAddress: 9C:B6:D0:F6:FF:5D DHCPEnabled: True DHCPServer: 192.168.20.1 DNSHostName: DESKTOP-VL39FPO DNSDomainSuffixSearchOrder: Home DNSServerSearchOrder: 8.8.8.8, 192.168.20.1 IPAddress: 192.168.20.30, fe80::8412:d7a8:57b9:5886 IPSubnet: 255.255.255.0, 64 DefaultIPGateway: 192.168.20.1, fe80::1af1:45ff:feec:a8eb NOTE: Field #7 specifies the number of days (0) since the last system reboot. GetProcessByDescription command will build a list of processes running on a system. This command accepts an optional argument, which is one of the custom process properties enlisted here . If the optional argument is not specified, the backdoor builds a process list that looks like: [ 1720] svchost [ 8184] chrome [ 4732] svchost If the optional argument is specified, the backdoor builds a process list that includes the specified process property in addition to parent process ID, username and domain for the process owner. For example, if the optional argument is specified as “ ExecutablePath “, the GetProcessByDescription command may return a list similar to: [ 3656] sihost.exe C:\WINDOWS\system32\sihost.exe 1720 DESKTOP-VL39FPO\UserName [ 3824] svchost.exe C:\WINDOWS\system32\svchost.exe 992 DESKTOP-VL39FPO\UserName [ 9428] chrome.exe C:\Program Files (x86)\Google\Chrome\Application\chrome.exe 4600 DESKTOP-VL39FPO\UserName Other backdoor commands enable deployment of the 2nd stage malware. For example, the WriteFile command will save the file: using (FileStream fileStream = new FileStream(path, FileMode.Append, FileAccess.Write)) { fileStream.Write(array, 0, array.Length); } The downloaded 2nd stage malware can then the executed with RunTask command: using (Process process = new Process()) { process.StartInfo = new ProcessStartInfo(fileName, arguments) { CreateNoWindow = false, UseShellExecute = false }; if (process.Start()) … Alternatively, it can be configured to be executed with the system restart, using registry manipulation commands, such as SetRegistryValue . Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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
- Azure security best practices checklist - AlgoSec
Azure security best practices checklist Download PDF Download PDF Add a Title Add a Title Add a Title 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
- AlgoSec - Case for Convergence - AlgoSec
AlgoSec - Case for Convergence Download PDF Download PDF Add a Title Add a Title Add a Title 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
- Horizon ACE information center | AlgoSec
Horizon ACE gives you complete visibility into your cloud applications, simplifies network security policy management, and automates compliance across your multi-cloud infrastructure. Horizon ACE Information Center Getting started Why Horizon ACE Horizon ACE access Horizon ACE videos Let’s connect Getting started Great news! As a valued AlgoSec Cloud customer, you now have extended access to AlgoSec Cloud Enterprise (Horizon ACE). We're so excited for you to experience the next level of cloud security, designed to give you unparalleled visibility and control. You're already doing great things with AlgoSec for network security. Now, Horizon ACE is here to help you do even more, providing deeper insights and comprehensive management across your entire multi-cloud environment. Important: To ensure you can see and use all the amazing features the app analyzer has to offer, you'll need to open the required permissions in your cloud environment. This is a crucial step that ensures the program can access all the data required to give you a complete picture. You can find detailed instructions and a list of the permissions needed for your specific cloud provider here: AWS: Horizon ACE Access AWS Azure: Horizon ACE Access Azure GCP: Horizon ACE Access GCP Why Horizon ACE? Horizon ACE gives you complete visibility into your cloud applications, simplifies network security policy management, and automates compliance across your multi-cloud infrastructure. Think of it as your new co-pilot for cloud security, helping you: One unified view: Seamlessly combine cloud posture management with your existing AlgoSec network security. Get a truly holistic perspective of your entire environment. With Horizon ACE, you can bridge the gap between your cloud and on-premise infrastructure to achieve unified hybrid security. With Horizon ACE you can: Gain a single, holistic view across both environments. Enforce consistent policies. Simplify change management. To get a clearer picture of how Horizon ACE can transform your security, download our one-pager. Deeper, actionable insights: Dive into advanced features that give you immediate, practical intelligence about your cloud security health. You'll know exactly what to do next. Amplified protection: Proactively discover and tackle risks across your entire cloud environment, strengthening the already solid foundation you have with AlgoSec. Horizon ACE access We're all about empowering you with the best cloud security tools available. This extended access to Horizon ACE is our way of providing you with: See everything (beyond the network!): Get a full, real-time inventory of all your cloud applications and infrastructure. No more blind spots – you'll see everything, far beyond traditional network boundaries. Spot risks before they're problems: Proactively find vulnerabilities and misconfigurations across your entire cloud setup. Horizon ACE helps you identify potential issues before they can impact your operations, building on your current security efforts. Keep compliance simple: Maintain strong and continuous compliance with industry standards and your internal policies. Horizon ACE brings you deeper, cloud-native insights to make compliance easier than ever. Streamline your day: Automate security workflows and policy enforcement. This means more time for you and consistent security across all your expanding cloud resources. Ready to explore your new Horizon ACE access? You've already been granted access! Look for a welcome email with simple instructions to confirm and get started. We'll be there to guide you through the initial steps, helping you quickly get comfortable with the Horizon ACE dashboard and all its powerful features. We've designed this to be a smooth, insightful, and incredibly valuable experience for you! Join the growing community of leading organizations who are transforming their cloud security with the unified power of AlgoSec. We're here to help you master your cloud security journey! Horizon ACE videos Horizon ACE Access Horizon ACE Overview Application Discovery Horizon ACE Dashboard Horizon ACEConfiguration & Compliance Container Security Let’s connect Have a question, need more information, or just want to say hello? We'd love to hear from you Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue
- DORA compliance with AlgoSec - AlgoSec
DORA compliance with AlgoSec Datasheet Download PDF Download PDF Add a Title Add a Title Add a Title 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
- Solution de gestion de sécurité Algosec | Algosec
Securely accelerate application delivery by automating application connectivity and security policy across the hybrid network estate. Solution de gestion de sécurité AlgoSec Bienvenue! La gestion de votre politique de sécurité réseau sur les firewall à la demande et des paramètres de sécurité dans le cloud sont des exercices d'équilibriste délicats. D'un côté, vous devez réduire les risques en minimisant la surface d'attaque. De l'autre, vous devez encourager la productivité en assurant la connectivité des applications métiers essentielles. Toutefois, les processus de gestion de politique de sécurité réseau ont toujours été complexes, chronophages et criblés d'erreur. Ce n'est pas une fatalité. Que cela soit à la demande ou dans le cloud, AlgoSec facilite et automatise la gestion de politique de sécurité réseau afin de rendre votre entreprise plus agile, plus sécurisée et plus conforme et cela de façon constante. Une approche unique de la gestion du cycle de vie des politiques de sécurité AlgoSec est unique car il gère l'ensemble du cycle de vie des politiques de sécurité afin d'assurer une connectivité continue et sécurisée de vos applications métiers. Par le biais d’une interface unique, vous pouvez découvrir vous-même les exigences en matière de connectivité d'applications, analyser les risques de façon proactive, organiser et exécuter rapidement des modifications de sécurité réseau et déclasser des règles de firewall en toute sécurité, tout ceci sans intervention et orchestré de façon harmonieuse sur votre environnement hétérogène. Avec AlgoSec, vous pouvez Unifier votre gestion de politique de sécurité réseau sur des environnements Cloud et à la demande Assurer une conformité continue et réduire de façon drastique les efforts en matière de préparation d'audit de Firewall Assurer la connectivité d'applications de façon rapide et sécurisée et éviter des disfonctionnements liés au réseau Aligner les équipes de sécurité, de réseau et d'applications et encourager DevSecOps Automatiser la gestion de modification de Firewall et éliminer les mauvaises configurations Réduire le risque via une configuration de sécurité correcte et une segmentation réseau effective La solution de gestion de sécurité AlgoSec Analyse de réseau de politique de sécurité Plus d'informations Firewall Analyzer Automatisation des modifications de politique de sécurité Plus d'informations FireFlow Calculer votre ROI Livre Blanc AlgoSec Contact commercial Alexis Luc Bouchauveau Phone: +33 613 200 885 Email: [email protected] Schedule time with one of our experts
- Next Generation Firewalls | algosec
Security Policy Management with Professor Wool Next Generation Firewalls Next Generation Firewalls (NGFWs) with Professor Wool is a whiteboard-style series of lessons that examine the some of the challenges of and provide technical tips for managing security policies on NGFWs across in evolving enterprise networks and data centers. Lesson 1 In this lesson, Professor Wool examines next-generation firewalls and the granular capabilities they provide for improved control over applications and users. Next-Generation Firewalls: Overview of Application and User-Aware Policies Watch Lesson 2 In this lesson, Professor Wool examines the pros and cons of whitelisting and blacklisting policies and offers some recommendations on policy considerations. NGFWs – Whitelisting & Blacklisting Policy Considerations Watch Lesson 3 Next generation firewalls (NGFWs) allow you to manage security policies with much greater granularity, based on specific applications and users, which provides much greater control over the traffic you want to allow or deny. Today, NGFWs are usually deployed alongside traditional firewalls. Therefore change requests need to be written using each firewall type’s specific terminology; application names and default ports for NGFWs, and actual protocols and ports for traditional firewalls. This new lesson explains some of challenges of writing firewall rules for a mixed firewall environment, and how to address them. Managing Your Security Policy in a Mixed Next Gen and Traditional Firewall Environment Watch Lesson 4 As part of the blacklisting approach to application security, most NGFW vendors now offer their customers a subscription based service that provides periodic updates to firewall definitions and signatures for a great number of applications especially the malicious ones. In this lesson, Professor Wool discusses the pros and cons of this offering for cyber threat prevention. It also discusses the limitations of this service when home-grown applications are deployed in the enterprise, and provides a recommendation on how to solve this problem. Using Next Generation Firewalls for Cyber Threat Prevention Watch Have a Question for Professor Wool? Ask him now Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue
- AlgoSec security management solution for Juniper Networks - AlgoSec
AlgoSec security management solution for Juniper Networks Solution Brief Download PDF Download PDF Add a Title Add a Title Add a Title 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
- AlgoSec | Why Microsegmentation is Still a Go-To Network Security Strategy
Prof. Avishai Wool, AlgoSec co-founder and CTO, breaks down the truths and myths about micro-segmentation and how organizations can... Micro-segmentation Why Microsegmentation is Still a Go-To Network Security Strategy 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 5/3/22 Published Prof. Avishai Wool, AlgoSec co-founder and CTO, breaks down the truths and myths about micro-segmentation and how organizations can better secure their network before their next cyberattack Network segmentation isn’t a new concept. For years it’s been the go-to recommendation for CISOs and other security leaders as a means of securing expansive networks and breaking large attack surface areas down into more manageable chunks. Just as we separate areas of a ship with secure doors to prevent flooding in the event of a hull breach, network segmentation allows us to seal off areas of our network to prevent breaches such as ransomware attacks, which tend to self-propagate and spread laterally from machine to machine. Network segmentation tends to work best in controlling north-south traffic in an organization. Its main purpose is to segregate and protect key company data and limit lateral movement by attackers across the network. Micro-segmentation takes this one step further and offers more granular control to help contain lateral east-west movement. It is a technique designed to create secure zones in networks, allowing companies to isolate workloads from one another and introduce tight controls over internal access to sensitive data. Put simply, if network segmentation makes up the floors, ceilings and protective outer hull, micro-segmentation makes up the steel doors and corridors that allow or restrict access to individual areas of the ship. Both methods can be used in combination to fortify cybersecurity posture and reduce risk vulnerability across the security network. How does micro-segmentation help defend against ransomware? The number of ransomware attacks on corporate networks seems to reach record levels with each passing year. Ransomware has become so appealing to cybercriminals that it’s given way to a whole Ransomware-as-a-Service (RaaS) sub-industry, plying would-be attackers with the tools to orchestrate their own attacks. When deploying micro-segmentation across your security network, you can contain ransomware at the onset of an attack. When a breach occurs and malware takes over a machine on a given network, the policy embedded in the micro-segmented network should block the malware’s ability to propagate to an adjacent micro-segment, which in turn can protect businesses from a system-wide shutdown and save them a great financial loss. What does Zero Trust have to do with micro-segmentation? Zero trust is a manifestation of the principle of “least privilege” security credentialing. It is a mindset that guides security teams to not assume that people, or machines, are to be trusted by default. From a network perspective, zero-trust implies that “internal” networks should not be assumed to be more trustworthy than “external” networks – quotation marks are intentional. Therefore, micro-segmentation is the way to achieve zero trust at the network level: by deploying restrictive filtering policy inside the internal network to control east-west traffic. Just as individuals in an organization should only be granted access to data on a need-to-know basis, traffic should only be allowed to travel from one area of the business to another only if the supporting applications require access to those areas. Can a business using a public cloud solution still use micro-segmentation? Prior to the advent of micro-segmentation, it was very difficult to segment networks into zones and sub-zones because it required the physical deployment of equipment. Routing had to be changed, firewalls had to be locally installed, and the segmentation process would have to be carefully monitored and managed by a team of individuals. Fortunately for SecOps teams, this is no longer the case, thanks to the rapid adoption of cloud technology. There seems to be a misconception associated with micro-segmentation where it might be thought of as a strictly private cloud environment network security solution, whereas in reality, micro-segmentation can be deployed in a hybrid cloud environment – public cloud, private cloud and on-premise. In fact, all public cloud networks, including those offered by the likes of Azure and AWS, offer “baked in” filtering capabilities that make controlling traffic much easier. This lends itself well to the concept of micro-segmentation, so even those businesses that use a hybrid cloud setup can still benefit enormously. The Bottom Line Micro-segmentation presents a viable and scalable solution to tighten network security policies, despite its inherent implementation challenges. While many businesses may find it hard to manage this new method of security, it’s nevertheless a worthwhile endeavor. By utilizing a micro-segmentation method as part of its network security strategy, an organization can immediately bolster its network security against possible hackers and potential data breaches. To help you navigate through your micro-segmentation fact-finding journey, watch this webcast or read more in our resource hub . Schedule a demo Related Articles Q1 at AlgoSec: What innovations and milestones defined our start to 2026? AlgoSec Reviews Mar 19, 2023 · 2 min read 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 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
- State of Network Security 2026 - AlgoSec
State of Network Security 2026 Download PDF Download PDF Add a Title Add a Title Add a Title 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
- Application Segmentation with Cisco Secure Workload and AlgoSec - AlgoSec
Application Segmentation with Cisco Secure Workload and AlgoSec Download PDF Download PDF Add a Title Add a Title Add a Title 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





