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AlgoSec seamlessly integrates with network security controls in Amazon Web Services AWS as well as other security devices across your hybrid network AWS & AlgoSec Hybrid cloud security policy and configuration management AlgoSec seamlessly integrates with network security controls in Amazon Web Services (AWS), as well as other security devices such as firewalls, whether deployed on-premises or in the cloud, in order to deliver unified security policy management across the hybrid network. AlgoSec also 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. Schedule a demo Solution brochure Key benefits Continuous visibility Get a full network map of your entire hybrid network estate – both on-premises and in public and private clouds. Understand your security policy with traffic simulation queries. Central management of security policies Get an aggregated view of similar security groups across accounts, regions, and VPCs. Easy migration By automatically discovering, mapping, and migrating connectivity configurations with firewalls and security groups, AlgoSec simplifies the complex process of migrating business applications to the cloud. Hybrid network change management Leverage a uniform network model and change management framework that covers the hybrid and multi-cloud environment Learn more about network security in AWS See how AWS users benefit from AlgoSec We empower the world’s most complex organizations to gain visibility, reduce risk and process changes at zero-touch across the hybrid network. Protect Outbound Traffic in an AWS Hybrid Environment The Fundamentals of AWS Security Groups New! How to Manage Dynamic Objects in Cloud Environments How to Intelligently Select the Security Groups to Modify When Managing Changes in AWS The Right Way to Audit AWS Policies Combining Security Groups and Network ACLs to Bypass AWS Capacity Limitations Change Management, Auditing and Compliance in an AWS Hybrid Environment Contact sales Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue Explore the AWS & AlgoSec Partnership Security management in the hybrid cloud Solution brief Migrating to AWS in six simple steps Read the blog

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

Previous Part of the analysis is available here. Next Part of the analysis is available here. Update from 19 December 2020: ‍Prevasio... Cloud Security Sunburst Backdoor, Part II: DGA & The List of Victims 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 12/17/20 Published Previous Part of the analysis is available here . Next Part of the analysis is available here . Update from 19 December 2020: Prevasio would like to thank Zetalytics for providing us with an updated (larger) list of passive (historic) DNS queries for the domains generated by the malware. As described in the first part of our analysis, the DGA (Domain Generation Algorithm) of the Sunburst backdoor produces a domain name that may look like: fivu4vjamve5vfrtn2huov[.]appsync-api.us-west-2[.]avsvmcloud[.]com The first part of the domain name (before the first dot) consists of a 16-character random string, appended with an encoded computer’s domain name. This is the domain in which the local computer is registered. From the example string above, we can conclude that the encoded computer’s domain starts from the 17th character and up until the dot (highlighted in yellow): fivu4vjamve5vfrt n2huov In order to encode a local computer’s domain name, the malware uses one of 2 simple methods: Method 1 : a substitution table, if the domain name consists of small letters, digits, or special characters ‘-‘, ‘_’, ‘.’ Method 2 : base64 with a custom alphabet, in case of capital letters present in the domain name Method 1 In our example, the encoded domain name is “n2huov” . As it does not have any capital letters, the malware encodes it with a substitution table “rq3gsalt6u1iyfzop572d49bnx8cvmkewhj” . For each character in the domain name, the encoder replaces it with a character located in the substitution table four characters right from the original character. In order to decode the name back, all we have to do is to replace each encoded character with another character, located in the substitution table four characters left from the original character. To illustrate this method, imagine that the original substitution table is printed on a paper strip and then covered with a card with 6 perforated windows. Above each window, there is a sticker note with a number on it, to reflect the order of characters in the word “n2huov” , where ‘n’ is #1, ‘2’ is #2, ‘h’ is #3 and so on: Once the paper strip is pulled by 4 characters right, the perforated windows will reveal a different word underneath the card: “domain” , where ‘d’ is #1, ‘o’ is #2, ‘m’ is #3, etc.: A special case is reserved for such characters as ‘0’ , ‘-‘ , ‘_’ , ‘.’ . These characters are encoded with ‘0’ , followed with a character from the substitution table. An index of that character in the substitution table, divided by 4, provides an index within the string “0_-.” . The following snippet in C# illustrates how an encoded string can be decoded: static string decode_domain( string s) { string table = "rq3gsalt6u1iyfzop572d49bnx8cvmkewhj" ; string result = "" ; for ( int i = 0 ; i < s.Length; i++) { if (s[i] != '0' ) { result += table[(table.IndexOf(s[i]) + table.Length - 4 ) % table.Length]; } else { if (i < s.Length - 1 ) { if (table.Contains(s[i + 1 ])) { result += "0_-." [table.IndexOf(s[i + 1 ]) % 4 ]; } else { break ; } } i++; } } return result; } Method 2 This method is a standard base64 encoder with a custom alphabet “ph2eifo3n5utg1j8d94qrvbmk0sal76c” . Here is a snippet in C# that provides a decoder: public static string FromBase32String( string str) { string table = "ph2eifo3n5utg1j8d94qrvbmk0sal76c" ; int numBytes = str.Length * 5 / 8 ; byte [] bytes = new Byte[numBytes]; int bit_buffer; int currentCharIndex; int bits_in_buffer; if (str.Length < 3 ) { bytes[ 0 ] = ( byte )(table.IndexOf(str[ 0 ]) | table.IndexOf(str[ 1 ]) << 5 ); return System.Text.Encoding.UTF8.GetString(bytes); } bit_buffer = (table.IndexOf(str[ 0 ]) | table.IndexOf(str[ 1 ]) << 5 ); bits_in_buffer = 10 ; currentCharIndex = 2 ; for ( int i = 0 ; i < bytes.Length; i++) { bytes[i] = ( byte )bit_buffer; bit_buffer >>= 8 ; bits_in_buffer -= 8 ; while (bits_in_buffer < 8 && currentCharIndex < str.Length) { bit_buffer |= table.IndexOf(str[currentCharIndex++]) << bits_in_buffer; bits_in_buffer += 5 ; } } return System.Text.Encoding.UTF8.GetString(bytes); } When the malware encodes a domain using Method 2, it prepends the encrypted string with a double zero character: “00” . Following that, extracting a domain part of an encoded domain name (long form) is as simple as: static string get_domain_part( string s) { int i = s.IndexOf( ".appsync-api" ); if (i > 0 ) { s = s.Substring( 0 , i); if (s.Length > 16 ) { return s.Substring( 16 ); } } return "" ; } Once the domain part is extracted, the decoded domain name can be obtained by using Method 1 or Method 2, as explained above: if (domain.StartsWith( "00" )) { decoded = FromBase32String(domain.Substring( 2 )); } else { decoded = decode_domain(domain); } Decrypting the Victims’ Domain Names To see the decoder in action, let’s select 2 lists: List #1 Bambenek Consulting has provided a list of observed hostnames for the DGA domain. List #2 The second list has surfaced in a Paste bin paste , allegedly sourced from Zetalytics / Zonecruncher . NOTE: This list is fairly ‘noisy’, as it has non-decodable domain names. By feeding both lists to our decoder, we can now obtain a list of decoded domains, that could have been generated by the victims of the Sunburst backdoor. DISCLAIMER: It is not clear if the provided lists contain valid domain names that indeed belong to the victims. It is quite possible that the encoded domain names were produced by third-party tools, sandboxes, or by researchers that investigated and analysed the backdoor. The decoded domain names are provided purely as a reverse engineering exercise. The resulting list was manually processed to eliminate noise, and to exclude duplicate entries. Following that, we have made an attempt to map the obtained domain names to the company names, using Google search. Reader’s discretion is advised as such mappings could be inaccurate. Decoded Domain Mapping (Could Be Inaccurate) hgvc.com Hilton Grand Vacations Amerisaf AMERISAFE, Inc. kcpl.com Kansas City Power and Light Company SFBALLET San Francisco Ballet scif.com State Compensation Insurance Fund LOGOSTEC Logostec Ventilação Industrial ARYZTA.C ARYZTA Food Solutions bmrn.com BioMarin Pharmaceutical Inc. AHCCCS.S Arizona Health Care Cost Containment System nnge.org Next Generation Global Education cree.com Cree, Inc (semiconductor products) calsb.org The State Bar of California rbe.sk.ca Regina Public Schools cisco.com Cisco Systems pcsco.com Professional Computer Systems barrie.ca City of Barrie ripta.com Rhode Island Public Transit Authority uncity.dk UN City (Building in Denmark) bisco.int Boambee Industrial Supplies (Bisco) haifa.edu University of Haifa smsnet.pl SMSNET, Poland fcmat.org Fiscal Crisis and Management Assistance Team wiley.com Wiley (publishing) ciena.com Ciena (networking systems) belkin.com Belkin spsd.sk.ca Saskatoon Public Schools pqcorp.com PQ Corporation ftfcu.corp First Tech Federal Credit Union bop.com.pk The Bank of Punjab nvidia.com NVidia insead.org INSEAD (non-profit, private university) usd373.org Newton Public Schools agloan.ads American AgCredit pageaz.gov City of Page jarvis.lab Erich Jarvis Lab ch2news.tv Channel 2 (Israeli TV channel) bgeltd.com Bradford / Hammacher Remote Support Software dsh.ca.gov California Department of State Hospitals dotcomm.org Douglas Omaha Technology Commission sc.pima.gov Arizona Superior Court in Pima County itps.uk.net IT Professional Services, UK moncton.loc City of Moncton acmedctr.ad Alameda Health System csci-va.com Computer Systems Center Incorporated keyano.local Keyano College uis.kent.edu Kent State University alm.brand.dk Sydbank Group (Banking, Denmark) ironform.com Ironform (metal fabrication) corp.ncr.com NCR Corporation ap.serco.com Serco Asia Pacific int.sap.corp SAP mmhs-fla.org Cleveland Clinic Martin Health nswhealth.net NSW Health mixonhill.com Mixon Hill (intelligent transportation systems) bcofsa.com.ar Banco de Formosa ci.dublin.ca. Dublin, City in California siskiyous.edu College of the Siskiyous weioffice.com Walton Family Foundation ecobank.group Ecobank Group (Africa) corp.sana.com Sana Biotechnology med.ds.osd.mi US Gov Information System wz.hasbro.com Hasbro (Toy company) its.iastate.ed Iowa State University amr.corp.intel Intel cds.capilanou. Capilano University e-idsolutions. IDSolutions (video conferencing) helixwater.org Helix Water District detmir-group.r Detsky Mir (Russian children’s retailer) int.lukoil-int LUKOIL (Oil and gas company, Russia) ad.azarthritis Arizona Arthritis and Rheumatology Associates net.vestfor.dk Vestforbrænding allegronet.co. Allegronet (Cloud based services, Israel) us.deloitte.co Deloitte central.pima.g Pima County Government city.kingston. City of Kingston staff.technion Technion – Israel Institute of Technology airquality.org Sacramento Metropolitan Air Quality Management District phabahamas.org Public Hospitals Authority, Caribbean parametrix.com Parametrix (Engineering) ad.checkpoint. Check Point corp.riotinto. Rio Tinto (Mining company, Australia) intra.rakuten. Rakuten us.rwbaird.com Robert W. Baird & Co. (Financial services) ville.terrebonn Ville de Terrebonne woodruff-sawyer Woodruff-Sawyer & Co., Inc. fisherbartoninc Fisher Barton Group banccentral.com BancCentral Financial Services Corp. taylorfarms.com Taylor Fresh Foods neophotonics.co NeoPhotonics (optoelectronic devices) gloucesterva.ne Gloucester County magnoliaisd.loc Magnolia Independent School District zippertubing.co Zippertubing (Manufacturing) milledgeville.l Milledgeville (City in Georgia) digitalreachinc Digital Reach, Inc. deniz.denizbank DenizBank thoughtspot.int ThoughtSpot (Business intelligence) lufkintexas.net Lufkin (City in Texas) digitalsense.co Digital Sense (Cloud Services) wrbaustralia.ad W. R. Berkley Insurance Australia christieclinic. Christie Clinic Telehealth signaturebank.l Signature Bank dufferincounty. Dufferin County mountsinai.hosp Mount Sinai Hospital securview.local Securview Victory (Video Interface technology) weber-kunststof Weber Kunststoftechniek parentpay.local ParentPay (Cashless Payments) europapier.inte Europapier International AG molsoncoors.com Molson Coors Beverage Company fujitsugeneral. Fujitsu General cityofsacramento City of Sacramento ninewellshospita Ninewells Hospital fortsmithlibrary Fort Smith Public Library dokkenengineerin Dokken Engineering vantagedatacente Vantage Data Centers friendshipstateb Friendship State Bank clinicasierravis Clinica Sierra Vista ftsillapachecasi Apache Casino Hotel voceracommunicat Vocera (clinical communications) mutualofomahabanMutual of Omaha Bank 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

Organizations transitioning to the cloud require robust security concepts to protect their most critical assets, including business... Cloud Security Top Two Cloud Security Concepts You Won’t Want to Overlook Rony Moshkovich 2 min read Rony Moshkovich Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 11/24/22 Published Organizations transitioning to the cloud require robust security concepts to protect their most critical assets, including business applications and sensitive data. Rony Moshkovitch, Prevasio’s co-founder, explains these concepts and why reinforcing a DevSecOps culture would help organizations strike the right balance between security and agility. In the post-COVID era, enterprise cloud adoption has grown rapidly. Per a 2022 security survey , over 98% of organizations use some form of cloud-based infrastructure. But 27% have also experienced a cloud security incident in the previous 12 months. So, what can organizations do to protect their critical business applications and sensitive data in the cloud? Why Consider Paved Road, Guardrails, and Least Privilege Access for Cloud Security It is in the organization’s best interest to allow developers to expedite the lifecycle of an application. At the same time, it’s the security teams’ job to facilitate this process in tandem with the developers to help them deliver a more secure application on time. As organizations migrate their applications and workloads to a multi-cloud platform, it’s incumbent to use a Shift left approach to DevSecOps. This enables security teams to build tools, and develop best practices and guidelines that enable the DevOps teams to effectively own the security process during the application development stage without spending time responding to risk and compliance violations issued by the security teams. This is where Paved Road, Guardrails and Least Privilege could add value to your DevSecOps. Concept 1: The Paved Road + Guardrails Approach Suppose your security team builds numerous tools, establishes best practices, and provides expert guidance. These resources enable your developers to use the cloud safely and protect all enterprise assets and data without spending all their time or energy on these tasks. They can achieve these objectives because the security team has built a “paved road” with strong “guardrails” for the entire organization to follow and adopt. By following and implementing good practices, such as building an asset inventory, creating safe templates, and conducting risk analyses for each cloud and cloud service, the security team enables developers to execute their own tasks quickly and safely. Security staff will implement strong controls that no one can violate or bypass. They will also clearly define a controlled exception process, so every exception is clearly tracked and accountability is always maintained. Over time, your organization may work with more cloud vendors and use more cloud services. In this expanding cloud landscape, the paved road and guardrails will allow users to do their jobs effectively in a security-controlled manner because security is already “baked in” to everything they work with. Moreover, they will be prevented from doing anything that may increase the organization’s risk of breaches, thus keeping you safe from the bad guys. How Paved Road Security and Guardrails Can Be Applied Successfully Example 1: Set Baked-in Security Controls Remember to bake security into reusable Terraform templates or AWS CloudFormation modules of paved roads. You may apply this tactic to provision new infrastructure, create new storage buckets, or adopt new cloud services. When you create a paved road and implement appropriate guardrails, all your golden modules and templates are already secure from the outset – safeguarding your assets and preventing undesirable security events. Example 2: Introducing Security Standardizations When creating resource functions with built-in security standards, developers should adhere to these standards to confidently configure required resources without introducing security issues into the cloud ecosystem. Example 3: Automating Security with Infrastructure as Code (IaC) IaC is a way to manage and provision new infrastructure by coding specifications instead of following manual processes. To create a paved road for IaC, the security team can introduce tagging to provision and track cloud resources. They can also incorporate strong security guardrails into the development environment to secure the new infrastructure right from the outset. Concept 2: The Principle of Least Privileged Access (PoLP) The Principle of Least Privilege Access (PoLP) is often synonymous with Zero Trust. PoLP is about ensuring that a user can only access the resources they need to complete a required task. The idea is to prevent the misuse of critical systems and data and reduce the attack surface to decrease the probability of breaches. How Can PoLP Be Applied Successfully Example 1: Ring-fencing critical assets This is the process of isolating specific “crown jewel” applications so that even if an attacker could make it into your environment, they would be unable to reach that data or application. As few people as possible would be given credentials that allow access, therefore following least privilege access rules. Crown jewel applications could be anything from where sensitive customer data is stored, to business-critical systems and processes. Example 2: Establishing Role Based Access Control (RABC) Based on the role that they hold at the company, RBAC or role-based access control allows specific access to certain data or applications, or parts of the network. This goes hand in hand with the principle of least privilege, and means that if credentials are stolen, the attackers are limited to what access the employee in question holds. As this is based on users, you could isolate privileged user sessions specifically to keep them with an extra layer of protection. Only if an administrator account or one with wide access privilege is stolen, would the business be in real trouble. Example 3: Isolate applications, tiers, users, or data This task is usually done with micro-segmentation, where specific applications, users, data, or any other element of the business is protected from an attack with internal, next-gen firewalls. Risk is reduced in a similar way to the examples above, where the requisite access needed is provided using the principle of least privilege to allow access to only those who need it, and no one else. In some situations, you might need to allow elevated privileges for a short period of time, for example during an emergency. Watch out for privilege creep, where users gain more access over time without any corrective oversight. Conclusion and Next Steps Paved Road, Guardrails and PoLP concepts are all essential for a strong cloud security posture. By adopting these concepts, your organization can move to the next stage of cloud security maturity and create a culture of security-minded responsibility at every level of the enterprise. The Prevasio cloud security platform allows you to apply these concepts across your entire cloud estate while securing your most critical applications. 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

The persistence of sophisticated ransomware In 2023, organizations faced a surge in ransomware attacks, prompting a reevaluation of... Network Segmentation Navigating the Cybersecurity Horizon in 2024 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 12/17/23 Published The persistence of sophisticated ransomware In 2023, organizations faced a surge in ransomware attacks, prompting a reevaluation of cybersecurity readiness. The focus on high-value assets and critical infrastructure indicated an escalating threat landscape, demanding stronger preemptive measures. This trend is expected to continue in 2024 as cybercriminals exploit vulnerabilities. Beyond relying on technology alone, organizations must adopt strategies like Zero Trust and Micro-segmentation for comprehensive preparedness, fortifying data security. A resolute and practical response is crucial to safeguard critical assets in the evolving cybersecurity landscape. DevSecOps Integration DevSecOps is set to become a cornerstone in software development, integrating security practices proactively. As Infrastructure as a Service (IaaS) popularity rises, customizing security settings becomes challenging, necessitating a shift from network perimeter reliance. Anticipating an “Always-on Security” approach like Infrastructure as Code (IaC), companies can implement policy-based guardrails in the CI/CD pipeline. If risks violating the guardrails are identified, automation should halt for human review. Cloud-Native Application Protection Platforms (CNAPP): The CNAPP market has advanced from basic Cloud Security Posture Management (CSPM) to include varied vulnerability and malware scans, along with crucial behavioral analytics for cloud assets like containers. However, few vendors emphasize deep analysis of Infrastructure as a Service (IaaS) networking controls in risk and compliance reporting. A more complete CNAPP platform should also provide comprehensive analytics of cloud applications’ connectivity exposure. Application-centric approach to network security will supersede basic NSPM Prepare for the shift from NSPM to an application-centric security approach, driven by advanced technologies, to accelerate in 2024. Organizations, grappling with downsizing and staff shortages, will strategically adopt this holistic approach to improve efficiency in the security operations team. Emphasizing knowledge retention and automated change processes will become crucial to maintain security with agility. AI-based enhancements to security processes Generative AI, as heralded by Chat-GPT and its ilk, has made great strides in 2023, and has demonstrated that the technology has a lot of potential. I think that in 2024 we will see many more use cases in which this potential goes from simply being “cool” to a more mature technology that is brought to market to bring real value to owners of security processes. Any use case that involves analyzing, summarizing, or generalizing text, can potentially benefit from a generative AI assist. The trick will be to do so in ways that save human time, without introducing factual hallucinations. 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

Modern organizations face a wide and constantly changing range of network security threats, and security leaders must constantly update... Network Security Network Security Threats & Solutions for Cybersecurity Leaders Tsippi Dach 2 min read Tsippi Dach Short bio about author here Lorem ipsum dolor sit amet consectetur. Vitae donec tincidunt elementum quam laoreet duis sit enim. Duis mattis velit sit leo diam. Tags Share this article 2/11/24 Published Modern organizations face a wide and constantly changing range of network security threats, and security leaders must constantly update their security posture against them. As threat actors change their tactics, techniques, and procedures, exploit new vulnerabilities , and deploy new technologies to support their activities — it’s up to security teams to respond by equipping themselves with solutions that address the latest threats. The arms race between cybersecurity professionals and cybercriminals is ongoing. During the COVID-19 pandemic, high-profile ransomware attacks took the industry by storm. When enterprise security teams responded by implementing secure backup functionality and endpoint detection and response, cybercriminals shifted towards double extortion attacks. The cybercrime industry constantly invests in new capabilities to help hackers breach computer networks and gain access to sensitive data. Security professionals must familiarize themselves with the latest network security threats and deploy modern solutions that address them. What are the Biggest Network Security Threats? 1. Malware-based Cyberattacks Malware deserves a category of its own because so many high-profile attacks rely on malicious software to work. These include everything from the Colonial Pipeline Ransomware attack to historical events like Stuxnet . Broadly speaking, cyberattacks that rely on launching malicious software on computer systems are part of this category. There are many different types of malware-based cyberattacks, and they vary widely in scope and capability. Some examples include: Viruses. Malware that replicates itself by inserting its own code into other applications are called viruses. They can spread across devices and networks very quickly. Ransomware. This type of malware focuses on finding and encrypting critical data on the victim’s network and then demanding payment for the decryption key. Cybercriminals typically demand payment in the form of cryptocurrency, and have developed a sophisticated industrial ecosystem for conducting ransomware attacks. Spyware. This category includes malware variants designed to gather information on victims and send it to a third party without your consent. Sometimes cybercriminals do this as part of a more elaborate cyberattack. Other times it’s part of a corporate espionage plan. Some spyware variants collect sensitive information that cybercriminals value highly. Trojans. These are malicious applications disguised as legitimate applications. Hackers may hide malicious code inside legitimate software in order to trick users into becoming victims of the attack. Trojans are commonly hidden as an email attachment or free-to-download file that launches its malicious payload after being opened in the victim’s environment. Fileless Malware. This type of malware leverages legitimate tools native to the IT environment to launch an attack. This technique is also called “living off the land” because hackers can exploit applications and operating systems from inside, without having to download additional payloads and get them past firewalls. 2. Network-Based Attacks These are attacks that try to impact network assets or functionality, often through technical exploitations. Network-based attacks typically start at the edge of the network, where it sends and receives traffic to the public internet. Distributed Denial-of-Service (DDoS) Attacks. These attacks overwhelm network resources, leading to downtime and service unavailability, and in some cases, data loss . To launch DDoS attacks, cybercriminals must gain control over a large number of compromised devices and turn them into bots. Once thousands (or millions) of bots using unique IP addresses request server resources, the server breaks down and stops functioning. Man-in-the-Middle (MitM) Attacks: These attacks let cybercriminals eavesdrop on communications between two parties. In some cases, they can also alter the communications between both parties, allowing them to plan and execute more complex attacks. Many different types of man-in-the-middle attacks exist, including IP spoofing, DNS spoofing, SSL stripping, and others. 3. Social Engineering and Phishing These attacks are not necessarily technical exploits. They focus more on abusing the trust that human beings have in one another. Usually, they involve the attacker impersonating someone in order to convince the victim to give up sensitive data or grant access to a secure asset. Phishing Attacks. This is when hackers create fake messages telling victims to take some kind of action beneficial to the attacker. These deceptive messages can result in the theft of login credentials, credit card information, or more. Most major institutions are regularly impersonated by hackers running phishing scams, like the IRS . Social Engineering Attacks. These attacks use psychological manipulation to trick victims into divulging confidential information. A common example might be a hacker contacting a company posing as a third-party technology vendor, asking for access to a secure system, or impersonating the company CEO and demanding an employee pay a fictitious invoice. 4. Insider Threats and Unauthorized Access These network security threats are particularly dangerous because they are very difficult to catch. Most traditional security tools are not configured to detect malicious insiders, who generally have permission to access sensitive data and assets. Insider Threats. Employees, associates, and partners with access to sensitive data may represent severe security risks. If an authorized user decides to steal data and sell it to a hacker or competitor, you may not be able to detect their attack using traditional security tools. That’s what makes insider threats so dangerous, because they are often undetectable. Unauthorized Access. This includes a broad range of methods used to gain illegal access to networks or systems. The goal is usually to steal data or alter it in some way. Attackers may use credential-stuffing attacks to access sensitive networks, or they can try brute force methods that involve automatically testing millions of username and password combinations until they get the right one. This often works because people reuse passwords that are easy to remember. Solutions to Network Security Threats Each of the security threats listed above comes with a unique set of risks, and impacts organizations in a unique way. There is no one-size-fits-all solution to navigating these risks. Every organization has to develop a cybersecurity policy that meets its specific needs. However, the most secure organizations usually share the following characteristics. Fundamental Security Measures Well-configured Firewalls. Firewalls control incoming and outgoing network traffic based on security rules. These rules can deny unauthorized traffic attempting to connect with sensitive network assets and block sensitive information from traveling outside the network. In each case, robust configuration is key to making the most of your firewall deployment . Choosing a firewall security solution like AlgoSec can dramatically improve your defenses against complex network threats. Anti-malware and Antivirus Software. These solutions detect and remove malicious software throughout the network. They run continuously, adapting their automated scans to include the latest threat detection signatures so they can block malicious activity before it leads to business disruption. Since these tools typically rely on threat signatures, they cannot catch zero-day attacks that leverage unknown vulnerabilities. Advanced Protection Tools Intrusion Prevention Systems. These security tools monitor network traffic for behavior that suggests unauthorized activity. When they find evidence of cyberattacks and security breaches, they launch automated responses that block malicious activity and remove unauthorized users from the network. Network Segmentation. This is the process of dividing networks into smaller segments to control access and reduce the attack surface. Highly segmented networks are harder to compromise because hackers have to repeatedly pass authentication checks to move from one network zone to another. This increases the chance that they fail, or generate activity unusual enough to trigger an alert. Security and Information Event Management (SIEM) platforms. These solutions give security analysts complete visibility into network and application activity across the IT environment. They capture and analyze log data from firewalls, endpoint devices, and other assets and correlate them together so that security teams can quickly detect and respond to unauthorized activity, especially insider threats. Endpoint Detection and Response (EDR). These solutions provide real-time visibility into the activities of endpoint devices like laptops, desktops, and mobile phones. They monitor these devices for threat indicators and automatically respond to identified threats before they can reach the rest of the network. More advanced Extended Detection and Response (XDR) solutions draw additional context and data from third party security tools and provide in-depth automation . Authentication and Access Control Multi-Factor Authentication (MFA). This technology enhances security by requiring users to submit multiple forms of verification before accessing sensitive data. This makes it useful against phishing attacks, social engineering, and insider threats, because hackers need more than just a password to gain entry to secure networks. MFA also plays an important role in Zero Trust architecture. Strong Passwords and Access Policies. There is no replacement for strong password policies and securely controlling user access to sensitive data. Security teams should pay close attention to password policy compliance, making sure employees do not reuse passwords across accounts and avoid simple memory hacks like adding sequential numbers to existing passwords. Preventing Social Engineering and Phishing While SIEM platforms, MFA policies and strong passwords go a long way towards preventing social engineering and phishing attacks, there are a few additional security measures worth taking to reduce these risks: Security Awareness Training. Leverage a corporate training LMS to educate employees about phishing and social engineering tactics. Phishing simulation exercises can help teach employees how to distinguish phishing messages from legitimate ones, and pinpoint the users at highest risk of falling for a phishing scam. Email Filtering and Verification: Email security tools can identify and block phishing emails before they arrive in the inbox. They often rely on scanning the reputation of servers that send incoming emails, and can detect discrepancies in email metadata that suggest malicious intent. Even if these solutions generally can’t keep 100% of malicious emails out of the inbox, they significantly reduce email-related threat risks. Dealing with DDoS and MitM Attacks These technical exploits can lead to significant business disruption, especially when undertaken by large-scale threat actors with access to significant resources. Your firewall configuration and VPN policies will make the biggest difference here: DDoS Prevention Systems. Protect against distributed denial of service attacks by implementing third-party DDoS prevention solutions, deploying advanced firewall configurations, and using load balancers. Some next generation firewalls (NGFWs) can increase protection against DDoS attacks by acting as a handshake proxy and dropping connection requests that do not complete the TCP handshake process. VPNs and Encryption: VPNs provide secure communication channels that prevent MitM attacks and data eavesdropping. Encrypted traffic can only be intercepted by attackers who go through the extra step of obtaining the appropriate decryption key. This makes it much less likely they focus on your organization instead of less secure ones that are easier to target. Addressing Insider Threats Insider threats are a complex security issue that require deep, multi-layered solutions to address. This is especially true when malicious insiders are actually employees with legitimate user credentials and privileges. Behavioral Auditing and Monitoring: Regular assessments and monitoring of user activities and network traffic are vital for detecting insider threats . Security teams need to look beyond traditional security deployments and gain insight into user behaviors in order to catch authorized users doing suspicious things like escalating their privileges or accessing sensitive data they do not normally access. Zero Trust Security Model. Assume no user or device is trustworthy until verified. Multiple layers of verification between highly segmented networks — with multi-factor authentication steps at each layer — can make it much harder for insider threats to steal data and conduct cyberattacks. Implementing a Robust Security Strategy Directly addressing known threats should be just one part of your cybersecurity strategy. To fully protect your network and assets from unknown risks, you must also implement a strong security posture that can address risks associated with new and emerging cyber threats. Continual Assessment and Improvement The security threat landscape is constantly changing, and your security posture must adapt and change in response. It’s not always easy to determine exactly how your security posture should change, which is why forward-thinking security leaders periodically invest in vulnerability assessments designed to identify security vulnerabilities that may have been overlooked. Once you have a list of security weaknesses you need to address, you can begin the process of proactively addressing them by configuring your security tech stack and developing new incident response playbooks. These playbooks will help you establish a coordinated, standardized response to security incidents and data breaches before they occur. Integration of Security Tools Coordinating incident response plans isn’t easy when every tool in your tech stack has its own user interface and access control permissions. You may need to integrate your security tools into a single platform that allows security teams to address issues across your entire network from a single point of reference. This will help you isolate and address security issues on IoT devices and mobile devices without having to dedicate a particular team member exclusively to that responsibility. If a cyberattack that targets mobile apps occurs, your incident response plan won’t be limited by the bottleneck of having a single person with sufficient access to address it. Similarly, highly integrated security tools that leverage machine learning and automation can enhance the scalability of incident response and speed up incident response processes significantly. Certain incident response playbooks can be automated entirely, providing near-real-time protection against sophisticated threats and freeing your team to focus on higher-impact strategic initiatives. Developing and Enforcing Security Policies Developing and enforcing security policies is one of the high-impact strategic tasks your security team should dedicate a great deal of time and effort towards. Since the cybersecurity threat landscape is constantly changing, you must commit to adapting your policies in response to new and emerging threats quickly. That means developing a security policy framework that covers all aspects of network and data security. Similarly, you can pursue compliance with regulatory standards that ensure predictable outcomes from security incidents. Achieving compliance with standards like NIST, CMMC, PCI-DSS, and HIPPA can help you earn customers’ trust and open up new business opportunities. AlgoSec: Your Partner in Network Security Protecting against network threats requires continuous vigilance and the ability to adapt to fast-moving changes in the security landscape. Every level of your organization must be engaged in security awareness and empowered to report potential security incidents. Policy management and visibility platforms like AlgoSec can help you gain control over your security tool configurations. This enhances the value of continuous vigilance and improvement, and boosts the speed and accuracy of policy updates using automation. Consider making AlgoSec your preferred security policy automation and visibility platform. 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

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A recent news article from Bleeping Computer called out an incident involving Japanese game developer Ateam, in which a misconfiguration... Cyber Attacks & Incident Response Mitigating cloud security risks through comprehensive automated solutions Malynnda Littky-Porath 2 min read Malynnda Littky-Porath 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 1/8/24 Published A recent news article from Bleeping Computer called out an incident involving Japanese game developer Ateam, in which a misconfiguration in Google Drive led to the potential exposure of sensitive information for nearly one million individuals over a period of six years and eight months. Such incidents highlight the critical importance of securing cloud services to prevent data breaches. This blog post explores how organizations can avoid cloud security risks and ensuring the safety of sensitive information. What caused the Ateam Google Drive misconfiguration? Ateam, a renowned mobile game and content creator, discovered on November 21, 2023, that it had mistakenly set a Google Drive cloud storage instance to “Anyone on the internet with the link can view” since March 2017. This configuration error exposed 1,369 files containing personal information, including full names, email addresses, phone numbers, customer management numbers, and device identification numbers, for approximately 935,779 individuals. Avoiding cloud security risks by using automation To prevent such incidents and enhance cloud security, organizations can leverage tools such as AlgoSec, a comprehensive solution that addresses potential vulnerabilities and misconfigurations. It is important to look for cloud security partners who offer the following key features: Automated configuration checks: AlgoSec conducts automated checks on cloud configurations to identify and rectify any insecure settings. This ensures that sensitive data remains protected and inaccessible to unauthorized individuals. Policy compliance management: AlgoSec assists organizations in adhering to industry regulations and internal security policies by continuously monitoring cloud configurations. This proactive approach reduces the likelihood of accidental exposure of sensitive information. Risk assessment and mitigation: AlgoSec provides real-time risk assessments, allowing organizations to promptly identify and mitigate potential security risks. This proactive stance helps in preventing data breaches and maintaining the integrity of cloud services. Incident response capabilities: In the event of a misconfiguration or security incident, AlgoSec offers robust incident response capabilities. This includes rapid identification, containment, and resolution of security issues to minimize the impact on the organization. The Ateam incident serves as a stark reminder of the importance of securing cloud services to safeguard sensitive data. AlgoSec emerges as a valuable ally in this endeavor, offering automated configuration checks, policy compliance management, risk assessment, and incident response capabilities. By incorporating AlgoSec into their security strategy, organizations can significantly reduce the risk of cloud security incidents and ensure the confidentiality of their data. Request a brief demo to learn more about advanced cloud protection. 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

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