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Discover key insights on cloud network security, its benefits, challenges, and best practices for protecting your cloud environment effectively. Cloud network security: Challenges and best practices What is cloud network security? Cloud network security refers to the measures used to protect public, private, and hybrid cloud networks. These measures include technology, services, processes, policies, and controls and can defend against data exposure or misuse. Why is cloud network security important? Cloud network security is important because of the wide range of threats to data and other cloud resources. Some of the most common include data breaches and exposure, malware, phishing, compromised APIs, distributed denial-of-service (DDoS), and DNS attacks, among others. In addition to defending against threat actors, cloud networks must also comply with an ever-growing number of regulations. A cloud-native security tool can provide the protection, incident response, and compliance that organizations need. Cloud security vs. network security Network security is a type of cloud security. If used in a hybrid system, it can rely on physical barriers and protections, whereas cloud security must exclusively use virtual solutions. In cloud computing, several organizations may share resources through infrastructure-as-a-service platforms like AWS EC2. Distributed data centers mean physical cybersecurity measures, like firewalls, must be replaced with virtual projections. There are three categories of cloud security: public, private, and hybrid cloud environments. Each offers its own set of challenges, which only increase in complexity for organizations with a multi-cloud environment. Schedule a Demo How does cloud network security work? Cloud network security routes traffic using software-defined networking. These protections are different from on-premise firewall systems and are virtualized and live in the cloud. The most secure platforms are built on a zero-trust security model, requiring authentication and verification for every connection. This helps protect cloud resources and defend them throughout the threat lifecycle. Schedule a Demo The benefits of cloud network security Cloud networks are inherently complex, and managing them using native tools can leave your organization vulnerable. Using a cloud network security solution offers several advantages. Improved protection The most important benefit of a secure cloud infrastructure is better protection. Managed permissions and orchestration can help prevent breaches and ensure better security across the system. Automated compliance A security solution can also help ensure compliance through automation that reviews policies for the most up-to-date regulatory and industry requirements and deploys the policy to multiple cloud platforms from a single place. Better visibility With a comprehensive solution, you can see all your properties—including on-premise and hybrid systems—in a single pane of glass. Improved visibility means recognizing new threats faster and resolving issues before they arise. Schedule a Demo Cloud network security challenges The cloud offers several benefits over traditional networks but also leads to unique vulnerabilities. Complexity across security control layers Cloud providers’ built-in security controls, such as security groups and network ACLs, impacts security posture. There is a need to protect cloud assets such as virtual machines, DBaaS, and serverless functions. Misconfigurations can introduce security risks across various assets, including IaaS and PaaS. Cloud and traditional firewall providers also offer advanced network security products (such as Azure Firewall, Palo Alto VM-Series, Check Point CloudGuard). Multiple public clouds Today’s environment uses multiple public clouds from AWS, Azure, and GCP. Security professionals are challenged by the need to understand their differences while managing them separately using multiple consoles and diverse tools. Multiple stakeholders Unlike on-premise networks, managing deployment is especially challenging in the cloud, where changes to configurations and security rules are often made by application developers, DevOps, and cloud teams. Schedule a Demo Key layers for cloud security Robust public cloud network security architecture must include four separate areas—layers that build upon each other for an effective network security solution. Cloud security architecture is fundamentally different from its on-premise counterpart. Cloud security challenges are met by a layered approach rather than a physical perimeter. Security for AWS, Azure, or any other public cloud employs four layers of increasing protection. Layer 1: Security groups Security groups form the first and most fundamental layer of cloud network security. Unlike traditional firewalls that use both allow and deny rules, security groups deny traffic by default and only use allow rules. These security groups are similar to the firewalls of the 90s in that they’re directly connected to servers (instances, in cloud architecture terms). If this first layer is penetrated, control of the associated security group is exposed. Layer 2: Network Access Control Lists (NACLs) Network Access Control Lists (NACLs) are used to provide AWS and Azure cloud security. Each NACL is connected to a Virtual Private Network (VPN) or Virtual Private Cloud (VPC) in AWS or VNet in Azure and controls all instances of that VPC or VNet. Centralized NACLs hold both allow and deny rules and make cloud security posture much stronger than Layer 1, making Layer 2 essential for cloud security compliance. Layer 3: Cloud vendor security solution Cloud security is a shared responsibility between the customer and the vendor, and today’s vendors include their own solutions, which must be integrated into the platform as a whole. For example, Microsoft’s Azure Firewall as a Service (FWaaS), a next-generation secure internet gateway, acts like a wall between the cloud itself and the internet. Layer 4: Third-party cloud security services Traditional firewall vendors, like solutions from Check Point (CloudGuard) and Palo Alto Networks (VM-Series), need to be integrated as well. These third parties create firewalls that stand between the public clouds and the outside world. They develop segmentation for the cloud’s inner perimeter like an on-premise network. This fourth layer is key for infrastructure built to defend against the most difficult hybrid cloud security challenges . Schedule a Demo Why AlgoSec AlgoSec Cloud offering provides application-based risk identification and security policy management across the multi-cloud estate. As organizations adopt cloud strategies and migrate applications to take advantage of cloud economies of scale, they face increased complexity and risk. Security controls and network architectures from leading cloud vendors are distinct and do not provide unified central cloud management. Cloud network security under one unified umbrella AlgoSec Cloud offering enables effective security management of the various security control layers across the multi-cloud estate. AlgoSec offers instant visibility, risk assessment, and central policy management , enabling a unified and secure security control posture, proactively detecting misconfigurations. Continuous visibility AlgoSec provides holistic visibility for all of your cloud accounts assets and security controls. Risk management Proactively detect misconfigurations to protect cloud assets, including cloud instances, databases, and serverless functions. Identify risky rules as well as their last usage date and confidently remove them. Tighten overall network security by mapping network risks to applications affected by these risks. Central management of security policies Manage network security controls, such as security groups and Azure Firewalls, in one system across multiple clouds, accounts, regions, and VPC/ VNETs. Manage similar security controls in a single security policy so you can save time and prevent misconfigurations. Policy cleanup As cloud security groups are constantly adjusted, they can rapidly bloat. This makes it difficult to maintain, increasing potential risk. With CloudFlow’s advanced rule cleanup capabilities, you can easily identify unused rules and remove them with confidence. Schedule a Demo Select a size What is cloud network security? How does cloud network security work? The benefits of cloud network security Cloud network security challenges Key layers for cloud security Why AlgoSec Get the latest insights from the experts 6 best practices to stay secure in the hybrid cloud Read more The enterprise guide to hybrid network management Read more Multi-Cloud Security Network Policy and Configuration Management Read more Choose a better way to manage your network

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Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. State of Utah Network Security Management Breaks the Service Bottleneck Organization State of Utah Industry Government Headquarters Salt Lake City, Utah, United States Download case study Share Customer
success stories "With AlgoSec, I am able to get requests completed within minutes." State government rapidly accelerates security policy changes while increasing security and compliance Background Utah is home to over three million people. It is one of America’s fastest-growing states and the fastest-growing economy by job growth in the nation. The Department of Technology Services (DTS) is the technology service provider for the executive branch of the State of Utah, providing services to Utah’s citizens. DTS supports the computing infrastructure for the state government, including 22,000 telephones, 20,000 desktop computers, 2,400 servers, 1,300 online services, monitors over 4 million visits to Utah.gov per month, and secures against more than 500 million daily IT intrusion attempts. Challenge Over forty firewall pairs and hundreds of other devices help the Department of Technology Services serve and secure the Utah government.“Before AlgoSec, it was very challenging for us to manage firewalls,” stated the department’s Director of Information Technology. Some of the challenges included: Firewall rule requests took up 70% of employees’ daily time. Agencies and staff frequently complained about slow response times, impacting their productivity while staff worked through a lengthy manual process to fulfill requests. Human errors slowed down the processes, requiring extra layers of quality assurance. Large rule request projects took several months to complete. Employee onboarding took several months. New employees could not independently support firewall request changes for the first few months after joining the team. Solutions The State of Utah was searching for a solution that provided: Automation of firewall management Actionable reports to ease compliance requirements Ease of deployment Following an in-depth evaluation, the State of Utah selected AlgoSec’s security policy management solution.“We evaluated several other products but none of them really automated at the level that we wanted,” said the director of IT. “AlgoSec’s automation really stood out.” The State of Utah chose to start with AlgoSec Firewall Analyzer (AFA) and AlgoSec FireFlow (AFF), two of the flagship products in the AlgoSec suite.AlgoSec Firewall Analyzer delivers visibility and analysis of complex network security policies across on-premise, cloud, and hybrid networks. It automates and simplifies security operations including troubleshooting, auditing, and risk analysis. Using Firewall Analyzer, the State of Utah can optimize the configuration of firewalls, and network infrastructure to ensure security and compliance. AlgoSec FireFlow enables security staff to automate the entire security policy change process from design and submission to proactive risk analysis, implementation, validation, and auditing. Its intelligent, automated workflows save time and improve security by eliminating manual errors and reducing risk. Results By using the AlgoSec Security Management solution, the State of Utah was able to accelerate their security policy management, provide better and faster service to state agencies, accelerate employee onboarding, and enhance network segmentation.Some of the benefits gained include: Fast and easy deployment – they were up and running within a few weeks. Faster turnaround to firewall requests from staff supporting agencies and priority initiatives. Reduced time to implement large rule request for projects, such as deployments, migrations, and decommissions — from months to minutes. Better knowledge sharing – hosting staff and extended staff outside of network operations get more accurate insights into firewalls and infrastructure topologies and traffic flows. This sped up troubleshooting and reduced superfluous requests covered by existing rules. Elimination of human error and rework thanks to policy automation. Accelerated employee onboarding – employees joining our network operations team are now able to fulfill firewall change requests within two weeks of starting work – down from 3 months – an 80% reduction. “I’ve been able to jump in and use AlgoSec. It’s been really intuitive” , concluded the IT director. “I am very pleased with this product! ” Schedule time with one of our experts

The best security posture is a multi-layered security posture. Enterprise security leaders understand that no single tool or solution can... Firewall Change Management 20 Best Network Security Solutions + FAQs Asher Benbenisty 2 min read Asher Benbenisty Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 10/31/23 Published The best security posture is a multi-layered security posture. Enterprise security leaders understand that no single tool or solution can provide best-in-class security to an entire organization on its own. As a result, security leaders continually invest in new security tools and platforms to address a growing list of emerging cyber threats like ransomware, credential-based attacks, and malicious insiders. However, not all network security solutions work together smoothly. The average enterprise uses more than 75 different security tools to protect against cyber attacks. This can create a complex environment that is difficult to manage. Security leaders need to simplify their tech stack and focus on the apps, managed services, and security controls that produce reliable results. We’ve gathered a list of the top 20 types of network security platform — from firewall technology to access management, SIEM platforms and more. Discover some of the most promising security technologies on the market right now. 1 . AlgoSec AlgoSec is a policy management platform that enables the world’s most complex organizations to gain visibility, reduce risk, and make changes across hybrid networks. AlgoSec supports both on-premises and cloud-based firewall deployments, enabling security teams to optimize network traffic and protect sensitive information from hackers. Organizations rely on AlgoSec to update security policies according to real-world needs with automation. AlgoSec is best known for its secure application connectivity and security policy across the hybrid network estate, including public cloud, private cloud, containers, and on-premises. AlgoSec offers a centralized platform for previewing changes to security rules, updating those rules, and gathering data on the results of those changes. AlgoSec’s zero touch management is a key selling point, allowing administrators to avoid misconfigurations by automating security policy changes. 2. Cisco Cisco is a global leader in network security solutions, offering a wide range of products and services, including firewalls, intrusion prevention systems, and VPN solutions. Cisco is best known as a cybersecurity hardware vendor, controlling nearly half the world’s ethernet switch market and one-third of the global enterprise router market. Finally, we’d be remiss if we didn’t acknowledge they’re one of the most reputable providers on the market — boasting a comprehensive security portfolio, tons of integrations and the ability to scale. Cisco’s security products are designed to work together and integrate seamlessly into existing network infrastructure, making it a solid choice for enterprises. 3. Palo Alto Networks Palo Alto Networks is known for its next-generation firewall (NGFW) solutions and advanced threat protection services. Some key points about Palo Alto Networks: AlgoSec integrates seamlessly with Palo Alto to automate application and user aware security policy management and ensure that Palo Alto Networks’ devices are properly configured. It is one of the industry’s most consistent innovators in firewall technology, providing security teams with unique capabilities that many other vendors do not. The company originally focused on hardware enterprise firewalls, but has spent years expanding to cloud-native software firewalls and other detection technologies. Its Cortex XDR solution consistently wins top placement in MITRE ATT&CK evaluations, with 100% detection and prevention scores. 4. Tufin Tufin specializes in Network Security Policy Management (NSPM) solutions. The company’s primary focus is to help organizations streamline and enhance their network security operations by providing tools and platforms that improve security policy management, compliance, and automation. Tufin’s solutions are designed to address the complexities of managing security policies in modern IT environments. This allows organizations to deploy Zero Trust architecture and manage risk more effectively. 5. Fortinet Fortinet specializes in integrated security solutions, including NGFWs, secure SD-WAN, and endpoint security. The company is best-known for its hardware firewalls, which include advanced automation features. It also provides threat intelligence services and Secure Access Service Edge (SASE) solutions. The company’s products are designed for easy integration in a variety of scenarios. It calls its approach to consolidating security across multiple tools and platforms the Fortinet Security Fabric. 6. CheckPoint CheckPoint provides a variety of security solutions, including firewalls, intrusion detection and prevention systems, and security management platforms. It sells both hardware and software firewalls alongside prevention-based technologies designed for data center use. 7. FireMon FireMon helps organizations assess, manage, and enhance the security of their network infrastructures, including firewalls, routers, switches, and cloud security configurations. It specializes in helping organizations reduce risk, manage change, and enforce compliance. Security leaders rely on vendors like FireMon to help them identify and remediate configuration errors that introduce inefficiencies to their security posture. This also helps reduce exposure to unknown threats that may exploit vulnerabilities linked to firewall misconfiguration . 8. Symantec Symantec, known for its Norton brand, offers network security solutions, including endpoint protection and email security. As of September 2022, both companies are brands of Gen Digital , a publicly traded parent organization. The parent company’s products are primarily designed to address consumer cybersecurity risks. It provides a wide range of endpoint security solutions, including antivirus, email phishing protection, and more. 9. McAfee McAfee provides a wide range of cybersecurity products and services, including network security solutions, antivirus, and threat intelligence. Many of its products focus on end-user protection and mobile security, and the company markets these products directly to users. As part of Intel’s security division, McAfee provides organizations with managed security services through its ESM Cloud product. This product streamlines operational security and allows security teams to automate incident investigations. 10. Juniper Networks Juniper Networks offers network security solutions, including firewalls, VPNs, and threat detection and prevention. Originally a hardware firewall vendor and competitor to Cisco, the company has expanded to provide AI-powered cloud-native security products like Mist AI. The company’s suite of security products and technologies supports IT teams, managed security service providers, and cloud operators alike. Hardware firewalls, routers, and switches are a major component of Juniper’s overall market share, and remain the products for which the company is best known. 11. Trend Micro Trend Micro focuses on endpoint security, cloud security, and network defense solutions. The company’s products help security teams understand, prioritize, and mitigate risk while protecting cloud-native infrastructure from cyber attacks. Security leaders who face challenges turning Zero Trust principles into operational guidelines can rely on Trend Micro to support those changes and streamline deployment. 12. Sophos Sophos offers a variety of security products, including firewalls, antivirus, and encryption solutions. Most of its solutions come in the form of services like the company’s managed detection and response service. This provides on-demand security resources to organizations that need to improve security operations without investing in on-premises technology or hiring new staff. Sophos offers productized security services in four main areas: endpoint, network, email, and cloud. Its network security services include the installation and integration of SASE-ready firewalls, switches, and routers. 13. WatchGuard WatchGuard specializes in network security appliances, secure Wi-Fi, and multi-factor authentication. It specializes in security technologies designed to block external threats like ransomware . The company provides separate security solutions for businesses, managed service providers, and security operations centers. These include XDR platforms, SD-WAN solutions, and threat hunting. It also offers identity security and multi-factor authentication solutions to enterprise customers that wish to improve their identity management policies. 14. Barracuda Networks Barracuda offers security solutions for email protection, web application security, and network firewalling. It also offers enterprise-grade SASE solutions to businesses looking for accessible options for simplifying secure network access. The Barracuda Security Service Edge allows organizations to implement the security controls of a next-generation firewall without having to spend the same amount of money that a cloud-enabled firewall implementation would otherwise cost. 15. F5 Networks F5 Networks provides application security solutions, including web application firewalls and load balancers with security features. It offers specialized security solutions for organizations using multiple cloud providers to host apps and other tools that do not easily integrate into a unified security environment. This enables enterprises with complex IT infrastructure to enhance web application and API security, prevent fraud and abuse, and implement Zero Trust principles. F5’s approach eliminates the need to dramatically change the organization’s internal structure to meet security and compliance needs. 16. Bitdefender Bitdefender offers network security solutions with a focus on endpoint protection, including advanced threat detection and response. The company is best-known for its free antivirus software, which is among the most popular worldwide. Despite being well-known for consumer cybersecurity solutions, BitDefender also offers a wide range of enterprise security tools. Its GravityZone XDR solution provides visibility to enterprise security teams while enabling analysts to respond to threats in real-time. 17. CyberArk CyberArk specializes in privileged access security solutions, critical for securing access to network resources. It is a leader in the identity management space, providing tools and solutions that help organizations verify and authenticate user identities in complex networks. The company uses intelligent privilege controls to map user behaviors to established identities and roles. This allows other security tools – like firewalls and XDR solutions – to enforce policies at the user identity level, instead of focusing purely on IP addresses and port information. 18. Zscaler Zscaler is known for its cloud-native security platform, providing secure access to cloud applications and services. It is a leader in Zero Trust technology, helping security leaders operationalize Zero Trust compliance while hosting increasingly complex environments on the cloud. Scaling zero trust architecture to meet the needs of growing enterprises is an important part of Zscaler’s overall mission – it’s in the name of the company itself. It provides AI-powered protection for users, web apps, SaaS platforms, devices, and more. 19. SentinelOne SentinelOne is a more recent entrant to the XDR market, providing organizations with automated detection and response solutions that block unauthorized processes in real-time. The company’s Singularity platform allows security teams to create piecemeal implementations integrating individual security tools on an as-needed basis while breaking down security silos and improving visibility across the environment. Along with Palo Alto Networks, SentinelOne leads the pack when it comes to MITRE ATT&CK evaluation scores. It is the only other company to consistently achieve 100% prevention results on these tests. 20. CrowdStrike Crowdstrike offers comprehensive cybersecurity product bundles that include SIEM platforms, XDR solutions, and more. It provides organizations and managed service providers with a complete set of cybersecurity solutions designed to catch sophisticated threats and mitigate advanced risks. Enterprise security teams use Crowdstrike to engage with multiple, modular security functionalities to a single, centralized platform. It provides cloud security, identity protection, and next-generation SIEM performance through its Falcon platform, and enables those different tools to integrate seamlessly with one another. What is endpoint security and its functionality? Endpoint security tools protect individual devices like desktop workstations, laptop computers, and mobile phones from cyber attacks. This usually means installing an endpoint security client on the device which regularly scans for malware and inspects user behaviors to detect signs of unauthorized access. Mobile devices are particularly important to endpoint security because they can change location or get lost or stolen. Many advanced endpoint security tools offer additional features to detect malicious insiders who may have gained access to a legitimate user’s mobile device. What are firewalls in network security? Firewalls are devices that inspect network traffic. They typically sit at the edge of the network, protecting internal network assets from receiving malicious content from outside the network. Traditional firewalls look for packet and port data that indicates unauthorized activity and filter out connections that don’t appear legitimate. Next-generation firewalls offer a much wider range of capabilities to security teams. They can conduct deep packet inspection and identify traffic that belongs to particular apps or users. Some NGFW devices can even detect when sensitive data is being sent out of the network and block the attempt. What is Network Access Control (NAC)? Network access control solutions provide visibility into the actions users take on a network. They enable security teams to enforce access management policies on devices throughout the network. Without an NAC solution in place, security tools would have a much harder time recognizing users and devices based on their usage profiles, or managing permissions and authentication policies without using a separate access control solution. What is Zero Trust Network Access (ZTNA)? Zero Trust Network Access provides secure remote access to the data, applications, and service hosted on a network. It does this through a set of strictly defined access control policies that do not extend trust to users based on their previous behaviors. With a ZTNA policy in place, a malicious user who impersonates an employee and gains access to one segment of the network would not necessarily be able to move onto another segment of the network. How does Zero Trust secure cloud environments within enterprise networks? Cloud-enabled network infrastructure provides a more complex security profile than simple on-premises infrastructure. This is because the organization may not control the entire network, and it may not be able to establish boundaries for that network on its own. Security leaders need to deploy a more complex set of firewalls, proxies, and threat detection solutions to securely access cloud-hosted assets while still complying with Zero Trust. What is the Role of Network Segmentation in Reducing Attack Surface? Network segmentation puts obstacles up between different parts of the network. If attackers compromise one segment of the network, they will be unable to gain instant access to the rest of the network. Instead, they will have to spend additional time and resources breaking into other network segments. This increases the chance that security teams can detect the intruder and remediate the attack before catastrophic damage is done. What is Secure Access Service Edge (SASE)? SASE is an emerging concept that provides a level of security appropriate to complex cloud-enabled enterprises with distributed remote users. It combines wide area network (WAN) with network security services like CASB, firewall-as-a-service, and Zero Trust into a unified service delivered through the cloud. This gives security leaders real-time data on their cloud security posture and allows them to accurately assess network risks continuously. What is threat detection and threat intelligence? Threat detection tools include Intrusion Prevention Systems (IPS), sandboxes, and Security Information and Event Management platforms: Intrusion Prevention Systems (IPS) identify and block unauthorized network activity, often in conjunction with firewalls and other security tools. Sandboxing allows users to download and open suspicious files in a simulated IT environment. If the file launches malware, the sandbox application will close and delete the file without allowing it to harm the system. Security Information and Event Management (SIEM) platforms allow security operations personnel to conduct real-time monitoring and respond to threats as soon as they occur. How do network security solutions help with data loss prevention? (DLP) Network security tools prevent hackers from interacting with sensitive data and block attempts to exfiltrate that data and use it to extort users. DLP solutions help security teams identify and classify sensitive information so that they can put the appropriate security controls in place to protect it. Without this step, it would be very difficult to tell when data breaches result in the loss of protected data because security teams would not have a clear idea of where that data is. In addition to network security, many organizations are also relying on enterprise data backup and recovery solutions in the event of a disaster, their cloud data is preserved and easily retrievable. Can network security solutions help with email security? Some network security tools include valuable email security and anti-phishing features. For example, some next-generation firewalls can detect when authorized users attempt to input their login credentials on spoofed websites. They prevent the data from leaving the network and warn the user that they have been targeted by a phishing attack. Multi-layered security solutions are crucial to establishing secure workflows. What is the role of Virtual Private Networks (VPN) in Network Security? VPNs allow users to encrypt their traffic and interact with protected information even when they don’t trust their own internet connection. This is important for employees interacting with remote records while traveling, where hackers can easily create fake Wi-Fi hotspots designed to look like well-known public networks. Some VPNs also anonymize user identities, allowing them to access content they would not otherwise be able to. What is IoT’s impact on Network Security? The Internet of Things presents many challenges to operational security, especially for large enterprises and industrial organizations. IoT devices rarely benefit from the kind of built-in security protections that desktop workstations and mobile phones have, making them an easy target for hackers. Security leaders need to group IoT devices together and protect them with strict security policies enforced by high quality firewalls and other tools. Mitigating Distributed Denial of Service (DDoS Attacks) Hackers may attack organizations by preventing other users from accessing their services. They may even use these attacks to disrupt firewalls and create an opening through which they can launch additional attacks. Protecting network assets from DDoS attacks requires implementing firewalls that can detect these attacks and drop the malicious connections hackers are trying to make. Next-generation firewalls have additional resources available for doing this, and can even defend against complex multi-session attacks. What are network security best practices? Network security policies and firewall rules must balance the need for security with the need for easy and accessible workflows. If security tools prevent legitimate users from accessing the assets they need, it may impact production. Similarly, security leaders need to deploy limited resources efficiently. Automation helps ensure security team members can dedicate their time to important strategic initiatives instead of high-volume, low-impact tasks. What is the role of Managed Security Service Providers (MSSPs)? MSSPs help growing organizations enhance operational security without requiring them to build, deploy, and staff their own security operations center. This allows them to save a great deal of money compared to the cost of building in-house security capabilities. It also grants organizations access to specialist security talent they might not otherwise be able to afford. Instead of paying for unpredictable security expenditures, organizations can pay a consistent monthly fee according to the services they actually use. Schedule a demo Related Articles Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Convergence didn’t fail, compliance did. Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

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

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 Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Convergence didn’t fail, compliance did. Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Best practices for network security governance in AWS and hybrid network environments Webinars Overcoming the Hybrid Cloud Policy Management Challenge: A Panel Discussion Visibility May 27, 2020 Omer Ganot Product Manager Yonatan Klein irector of Product Management Relevant resources State of cloud security: Concerns, challenges, and incidents Read Document Demystifying Network Security in Hybrid Cloud Environments Keep Reading A Pragmatic Approach to Network Security Across Your Hybrid Cloud Environment Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Explore Algosec's customer success stories to see how organizations worldwide improve security, compliance, and efficiency with our solutions. Natura Cosméticos Improves Security Change Management with AlgoSec Organization Natura Cosméticos Industry Healthcare & Pharmaceuticals Headquarters Brazil Download case study Share Customer
success stories "With AlgoSec we are proactive. Now we can see all the changes and reduce the risks we have regarding requirements for SOX as well as maintain all the policies for information security" International Cosmetics Company Gains Visibility, Reduces Risk and Ensures Compliance with SOX AlgoSec Business Impact Deliver proactive security policy management Gain immediate visibility into all security policy changes Reduce risks and ensure compliance with SOX Background Natura Cosméticos is the largest cosmetics manufacturer and distributor in Latin America, with more than 1.5 million independent consultants and 100 million customers. Founded in 1969, the company is based in Brazil, where almost two-thirds of households buy its products. At $7.5 billion in revenues, Natura is a Forbes Global 2000 company and ranked #75 on the magazine’s most innovative companies list in 2014. Challenge Natura has offices throughout Brazil and operations throughout Latin America and France supported by two data centers, 33 firewalls, 18 clusters and 250 switches and routers. For years, a third party managed the company’s firewall rule changes, making visibility and management challenging.“If a change was made over the weekend, it would be difficult for us to find out what rules were changed, for what reason, who created them or why,” says Newton Rossetto, Chief Security Officer, Natura Cosméticos.“We’d find some firewall rules in the wrong places and unused rules,” adds Rossetto, but changing them was no simple matter. “Users had to create a worksheet with their requirements for our environment and then they would be implemented by a third party. After the rule was created, we then needed to check that it was right.” Natura needed a streamlined system for making and tracking security changes that gave IT better visibility across the company’s complex security environment. Solution Natura recognized that it had a “really confusing change management process,” Rossetto states. The company chose the AlgoSec Security Management Solution to manage and streamline the process. Results After a “simple and quick deployment,” according to Rossetto, AlgoSec enabled Natura to quickly “consolidate security policy management for our environment.” AlgoSec provides detailed online reports for each step of the change workflow and enables Rossetto’s team to manage security policy changes for multiple security devices on one common platform.“Now I can see all of the reports I need at any time. I can also see which rules were created and what objects are no longer needed,” says Rossetto. This visibility has allowed Natura to take a proactive role in security policy management which had been impossible when changes were previously outsourced to a third party. For a company growing at 14 percent each year, particularly one that does the majority of its sales and workforce management online, having complete visibility into the security rule-change process brings real peace of mind.For the Natura team, AlgoSec’s preset workflows for implementing and removing rules, changing objects and verifying rules, combined with its flexibility to accommodate the company’s specific needs, held great appeal. In addition, users liked the pre-populated request templates that saved them time compared to the old worksheets, as well as simplified communication with the security team. “With AlgoSec, the change management process is all automatic. We can approve the changes and know we will have the right rules with the right objects,” says Rossetto.AlgoSec also helped Natura’s security team reduce risks associated with Sarbanes-Oxley (SOX) requirements. AlgoSec evaluates every proposed change against regulatory standards, such as SOX, as well as industry best practices and corporate-specific policies. Any change found to be out of compliance is flagged before it can be implemented.In terms of customer service, as well as implementation, Rossetto states that working with AlgoSec has “been a very good experience. We have been very well supported from negotiation through successful deployment. We are very satisfied.” Schedule time with one of our experts

Attacks on water treatment plants show just how vulnerable critical infrastructure is to hacking – here’s how these vital services should... Cyber Attacks & Incident Response Stop hackers from poisoning the well: Protecting critical infrastructure against cyber-attacks 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 3/31/21 Published Attacks on water treatment plants show just how vulnerable critical infrastructure is to hacking – here’s how these vital services should be protected. Criminals plotting to poison a city’s water supply is a recurring theme in TV and movie thrillers, such as 2005’s Batman Begins. But as we’ve seen recently, it’s more than just a plot device: it’s a cyber-threat which is all too real. During the past 12 months, there have been two high-profile attacks on water treatment systems that serve local populations, both with the aim of causing harm to citizens. The first was in April 2020, targeting a plant in Israel . Intelligence sources said that hackers gained access to the plant and tried altering the chlorine levels in drinking water – but luckily the attack was detected and stopped. And in early February, a hacker gained access to the water system of Oldsmar, Florida and tried to pump in a dangerous amount of sodium hydroxide. The hacker succeeded in starting to add the chemical, but luckily a worker spotted what was happening and reversed the action. But what could have happened if those timely interventions had not been made? These incidents are a clear reminder that critical national infrastructure is vulnerable to attacks – and that those attacks will keep on happening, with the potential to impact the lives of millions of people.  And of course, the Covid-19 pandemic has further highlighted how essential critical infrastructure is to our daily lives. So how can better security be built into critical infrastructure systems, to stop attackers being able to breach them and disrupt day-to-day operations?  It’s a huge challenge, because of the variety and complexity of the networks and systems in use across different industry sectors worldwide. Different systems but common security problems For example, in water and power utilities, there are large numbers of cyber-physical systems consisting of industrial equipment such as turbines, pumps and switches, which in turn are managed by a range of different industrial control systems (ICS). These were not designed with security in mind:  they are simply machines with computerized controllers that enact the instructions they receive from operators.  The communications between the operator and the controllers are done via IP-based networks – which, without proper network defenses, means they can be accessed over the Internet – which is the vector that hackers exploit. As such, irrespective of the differences between ICS controls, the security challenges for all critical infrastructure organizations are similar:  hackers must be stopped from being able to infiltrate networks; if they do succeed in breaching the organization’s defenses, they must be prevented from being able to move laterally across networks and gain access to critical systems. This means  network segmentation  is one of the core strategies for securing critical infrastructure, to keep operational systems separate from other networks in the organization and from the public Internet and surround them with security gateways so that they cannot be accessed by unauthorized people. In the attack examples we mentioned earlier, properly implemented segmentation would prevent a hacker from being able to access the PC which controls the water plant’s pumps and valves. With damaging ransomware attacks increasing over the past year, which also exploit internal network connections and pathways to spread rapidly and cause maximum disruption,  organizations should also employ security best-practices to block or limit the impact of ransomware attacks  on their critical systems. These best practices have not changed significantly since 2017’s massive WannaCry and NotPetya attacks, so organizations would be wise to check and ensure they are employing them on their own networks. Protecting critical infrastructure against cyber-attacks is a complex challenge because of the sheer diversity of systems in each sector.  However, the established security measures we’ve outlined here are extremely effective in protecting these vital systems – and in turn, protecting all of us. Schedule a demo Related Articles Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Convergence didn’t fail, compliance did. Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Learn how Microsoft Azure and AlgoSec solutions help companies improve visibility and identify risk in large complex hybrid networking environments Webinars Joint webinar with Microsoft Azure - Understanding Hybrid Network Security Learn how Microsoft Azure and AlgoSec solutions help companies improve visibility and identify risk in large complex hybrid networking environments In this joint webinar with Microsoft, we discuss the challenges in these hybrid networks and how Microsoft Azure and AlgoSec are helping companies leverage cloud technologies to add more capacity and business applications without increasing their exposure to security risk. During the webinar you will hear Yuval Pery, the Product Manager for Azure Network Security at Microsoft, review and discuss the security features and options available with Microsoft Azure. We also have Yoav Yam-Karnibad, the Product Manager for Cloud Network Security at AlgoSec, show the integrations that exist today between AlgoSec and Microsoft Azure that help improve visibility and identify and prioritize risk in today’s hybrid environments. September 14, 2023 Yoav Yam-Karnibad Product Manager, Cloud Network Security at AlgoSec Yuval Pery Product Manager, Azure Network Security at Microsoft Relevant resources Firewall Rule Recertification with Application Connectivity Keep Reading AlgoSec Cloud for Microsoft Azure Keep Reading Firewall management services
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Ransomware attacks have become more sophisticated, as attackers change tactics from spray and pray to more targeted server based attacks So how do you protect your network from such attacks Webinars Reducing Risk of Ransomware Attacks - Back to Basics Did you know that 50% of organizations were hit by ransomware attacks in 2020? These attacks have become more sophisticated, as attackers change tactics from “spray and pray” to more targeted server-based attacks. So how do you protect your network from such attacks? We invite you to join our series of webinars about ransomware with AlgoSec and Cisco, to learn practical methods to reduce your network attack surface and protect your organization from ransomware and other cyber-attacks. In our first webinar in the series, Yitzy Tannenbaum, Product Marketing Manager from AlgoSec and Jan Heijdra, Cisco Security Specialist , will take you back to the basics. They will discuss: Popular methods used to infect your network with ransomware The importance of a layered defense-in-depth strategy Best practices for managing your security devices How to build a security wall with Cisco Secure and AlgoSec Network Security Policy Management to block ransomware January 13, 2021 Jan Heijdra Cisco Security Specialist Yitzy Tannenbaum Product Marketing Manager Relevant resources Reducing your risk of ransomware attacks Keep Reading Ransomware Attack: Best practices to help organizations proactively prevent, contain and Keep Reading Choose a better way to manage your network Choose a better way to manage your network Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue