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Insecure Service Protocols and Ports Okay, we all have them… they’re everyone’s dirty little network security secrets that we try not to... Risk Management and Vulnerabilities Removing insecure protocols In networks Matthew Pascucci 2 min read Matthew Pascucci 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 7/15/14 Published Insecure Service Protocols and Ports Okay, we all have them… they’re everyone’s dirty little network security secrets that we try not to talk about. They’re the protocols that we don’t mention in a security audit or to other people in the industry for fear that we’ll be publicly embarrassed. Yes, I’m talking about cleartext protocols which are running rampant across many networks. They’re in place because they work, and they work well, so no one has had a reason to upgrade them. Why upgrade something if it’s working right? Wrong. These protocols need to go the way of records, 8-tracks and cassettes (many of these protocols were fittingly developed during the same era). You’re putting your business and data at serious risk by running these insecure protocols. There are many insecure protocols that are exposing your data in cleartext, but let’s focus on the three most widely used ones: FTP, Telnet and SNMP. FTP (File Transfer Protocol) This is by far the most popular of the insecure protocols in use today. It’s the king of all cleartext protocols and one that needs to be smitten from your network before it’s too late. The problem with FTP is that all authentication is done in cleartext which leaves little room for the security of your data. To put things into perspective, FTP was first released in 1971, almost 45 years ago. In 1971 the price of gas was 40 cents a gallon, Disneyland had just opened and a company called FedEx was established. People, this was a long time ago. You need to migrate from FTP and start using an updated and more secure method for file transfers, such as HTTPS, SFTP or FTPS. These three protocols use encryption on the wire and during authentication to secure the transfer of files and login. Telnet If FTP is the king of all insecure file transfer protocols then telnet is supreme ruler of all cleartext network terminal protocols. Just like FTP, telnet was one of the first protocols that allowed you to remotely administer equipment. It became the defacto standard until it was discovered that it passes authentication using cleartext. At this point you need to hunt down all equipment that is still running telnet and replace it with SSH, which uses encryption to protect authentication and data transfer. This shouldn’t be a huge change unless your gear cannot support SSH. Many appliances or networking gear running telnet will either need the service enabled or the OS upgraded. If both of these options are not appropriate, you need to get new equipment, case closed. I know money is an issue at times, but if you’re running a 45 year old protocol on your network with the inability to update it, you need to rethink your priorities. The last thing you want is an attacker gaining control of your network via telnet. Its game over at this point. SNMP (Simple Network Management Protocol) This is one of those sneaky protocols that you don’t think is going to rear its ugly head and bite you, but it can! escortdate escorts . There are multiple versions of SNMP, and you need to be particularly careful with versions 1 and 2. For those not familiar with SNMP, it’s a protocol that enables the management and monitoring of remote systems. Once again, the strings can be sent via cleartext, and if you have access to these credentials you can connect to the system and start gaining a foothold on the network, including managing, applying new configurations or gaining in-depth monitoring details of the network. In short, it a great help for attackers if they can get hold of these credentials. Luckily version 3.0 of SNMP has enhanced security that protects you from these types of attacks. So you must review your network and make sure that SNMP v1 and v2 are not being used. These are just three of the more popular but insecure protocols that are still in heavy use across many networks today. By performing an audit of your firewalls and systems to identify these protocols, preferably using an automated tool such as AlgoSec Firewall Analyzer , you should be able to pretty quickly create a list of these protocols in use across your network. It’s also important to proactively analyze every change to your firewall policy (again preferably with an automated tool for security change management ) to make sure no one introduces insecure protocol access without proper visibility and approval. Finally, don’t feel bad telling a vendor or client that you won’t send data using these protocols. If they’re making you use them, there’s a good chance that there are other security issues going on in their network that you should be concerned about. It’s time to get rid of these protocols. They’ve had their usefulness, but the time has come for them to be sunset for good. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Jeremiah Cornelius, Technical Leader for Alliances and Partners at AlgoSec, explores the security capability native to VMware’s approach... Digital Transformation Intrinsic Transformation: VMware NSX-T and AlgoSec Go Beyond Virtualization Jeremiah Cornelius 2 min read Jeremiah Cornelius 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 7/8/21 Published Jeremiah Cornelius, Technical Leader for Alliances and Partners at AlgoSec, explores the security capability native to VMware’s approach for virtual networking with NSX-T. Intrinsic transformation NSX-T culminates VMware’s decade of development of these technologies, that better align than ever before with AlgoSec’s approach for software automation of micro-segmentation and compliant security operations management. It is the latest iteration of VMware’s approach to networking and security, derived from many years as a platform for operating virtual machines, and managing these as hosted “vApp” workloads. If you’re familiar with the main players in Software Defined Networking, then you may remember that NSX-T shares its origin in the same student research at Stanford University, which also gave rise to several other competing SDN offerings. One thing that differentiated VMware from other players was their strong focus on virtualization over traditional network equipment stacks. This meant in some cases, network connections, data-packets, forwarding, and endpoints all existing in software and no “copper wire” existing anywhere! Knowing about this difference is more than a bit of trivia — it explains how the NSX family was designed with security features built into the architecture, having native capability for software security controls such as firewall segmentation and packet inspection. Described by VMware as “Intrinsic Security,” these are NSX capabilities that first drove the widespread acceptance of practical micro-segmentation in the data center. Since that first introduction of NSX micro-segmentation, a transformation occurred in customer demands, which required an expansion of VMware’s universe to horizons beyond their hypervisor and virtual machines. As a key enabler for this expansion, NSX-T has emerged as a networking and security technology that extends from serverless micro-services and container frameworks to VMs hosted on many cloud architectures located in physical data centers or as tenants in public clouds. The current iteration is called the NSX-T Service-Defined Firewall, which controls access to applications and services along with business-focused policies. Leaders in our segments If you’ve followed this far along, then maybe you’ve recognized several common themes between AlgoSec’s Security Management Suite and VMware’s NSX-T. Among these are security operations management as software configuration, modeling connectivity on business uses versus technology conventions, and transforming security into an enabling function. It’s not a surprise then, to know that our companies are technology partners. In fact, we began our alliance with VMware back in 2015 as the uptake in NSX micro-segmentation began to reveal an increased need for visibility, planning, automation, and reporting — along with requirements for extending policy from NSX objects to attached physical security devices from a variety of vendors. The sophistication and flexibility of NSX enforcement capability were excellently matched by the AlgoSec strengths in identifying risk and maintaining compliance while sustaining a change management record of configurations from our combined workflow automation. Strength to strength Up until now, this is a rosy picture painted, with an emphasis on the upsides of the AlgoSec partnership with VMware NSX-T. In the real world, we find that many of our applications are not-so-well understood as to be ready for micro-segmentation. More often, the teams responsible for the availability and security of these applications are detached from the business intent and value, further making it difficult to assess and therefore address risks. The line between traditional-style infrastructure and modern services isn’t always as clearly defined, either — making the advantages possible by migration and transformation difficult to determine and potentially introducing their own risks. It is in these environments, with multiple technologies, different stakeholders, and operation teams with different scopes, that AlgoSec solves hard problems with better automation tools. Taking advantage of NSX-T means first being faced with multiple deployment types, including public and private clouds as well as on-prem infrastructure, multiple security vendors, unclear existing network flows, and missing associations between business applications and their existing controls. These are visibility issues that AlgoSec resolves by automating the discovery and mapping of business applications , including associated policies across different technologies, and producing visual, graphic analysis that includes risk assessment and impact of changes. This capability for full visibility leads directly to addressing the open issues for risk and compliance. After all, if these present challenges in discovering and identifying risk using existing technology solutions, then there’s a big gap to close on the way to transforming these. Since AlgoSec has addressed the visibility across these, identifying risk becomes uniform and manageable. AlgoSec can lower transformation risk with NSX-T while ensuring that risk and compliance management are maintained on an ongoing basis. Workflow for risk mitigation by NSX-T intrinsic security can be driven by AlgoSec policy automation, without recourse to multiple tools when these mitigations need to cross boundaries to third-party firewalls or cloud security controls. With this integrated policy automation, what were once point-in-time configurations can be enabled for discovery-based updates for internal standards and changes to regulatory mandates. The result of AlgoSec pairing with VMWare NSX-T is a simplified overall security architecture — one that more rapidly responds to emerging risk and requests for changes, accelerates the speed of operations while more closely aligning with business, and ensures both compliant configurations and compliant lifecycle operations. VMware NSX? Ask AlgoSec The AlgoSec integration with VMware NSX-T builds on our years of collaboration with earlier versions of the NSX platform, with a track record of solving the more difficult configuration management problems for leaders of principal industries around the globe. If you want to discover more about what AlgoSec does to enable and enrich our alliance solution with VMware , contact us! AlgoSec works directly with VMware and your trusted technology delivery partners, and we’re glad to share more with you. Schedule a personal demo to see how AlgoSec makes your transformation to VMware Intrinsic Security possible now. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

Enterprise hybrid network management solutions Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Modernize your network Cisco Nexus and Cisco ACI with AlgoSec Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

A Decoy Network The strategy behind Sun Tzu’s ‘Art of War’ has been used by the military, sports teams, and pretty much anyone looking... Cyber Attacks & Incident Response How to Use Decoy Deception for Network Protection Matthew Pascucci 2 min read Matthew Pascucci 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 6/30/15 Published A Decoy Network The strategy behind Sun Tzu’s ‘Art of War’ has been used by the military, sports teams, and pretty much anyone looking for a strategic edge against their foes. As Sun Tzu says “All warfare is based on deception. Hence, when we are able to attack, we must seem unable; when using our forces, we must appear inactive; when we are near, we must make the enemy believe we are far away; when far away, we must make him believe we are near.” Sun Tzu understood that to gain an advantage on your opponent you need to catch him off guard, make him believe you’re something you’re not, so that you can leverage this opportunity to your advantage. As security practitioners we should all supplement our security practices with this timed and tested decoy technique against cyber attackers. There are a few technologies that can be used as decoys, and two of the most common are honeypots and false decoy accounts: A honeypot is a specially designed piece of software that mimics another system, normally with vulnerable services that aren’t really vulnerable, in order to attract the attention of an attacker as they’re sneaking through your network. Decoy accounts are created in order to check if someone is attempting to log into them. When an attempt is made security experts can then investigate the attackers’ techniques and strategies, without being detected or any data being compromised. Design the right decoy But before actually setting up either of these two techniques you first need to think about how to design the decoy in a way that will be believable. These decoy systems shouldn’t be overtly obvious, yet they need to entice the hacker so that he can’t pass up the opportunity. So think like an attacker: What would an attacker do first when gaining access to a network? How would he exploit a system? Will they install malware? Will they perform a recon scan looking for pivot points? Figuring out what your opponent will do once they’ve gained access to your network is the key to building attractive decoy systems and effective preventive measures. Place it in plain sight You also need to figure out the right place for your decoys. You want to install decoys into your network around areas of high value, as well as systems that are not properly monitored with other security technologies. They should be hiding in plain sight and mimicking the systems or accounts that they’re living next to. This means running similar services, have hostnames that fall in line with your syntax, running on the same operating systems (one exception is decoys running a few exploitable services to entice the attacker). The goes the same for accounts that you’ve seeded in applications or authentication services. We decided that in addition to family photos, it was time to focus on couples photoshoot ! Last fall we aired our popular City Photoshoot Tips & Ideas and as a result, gave you TONS of ideas and inspiration. And last but not least, you need to find a way to discretely publicize your applications or accounts in order to attract the attacker. Then, when an attacker tries to log in to the decoy applications or accounts (which should be disabled) you should immediately and automatically start tracking and investigating the attack path. Watch and learn Another important point to make is that once a breach attempt has been made you shouldn’t immediately cut off the account. You might want to watch the hacker for a period of time to see what else that he might access on the network. Many times tracking their actions over a period of time will give you a lot more actionable information that will ultimately help you create a far more secure perimeter. Think of it as a plainclothes police officer following a known criminal. Many times the police will follow a criminal to see if he will lead them toward more information about their activities before making an arrest. Use the same techniques. If an attacker trips over a few of carefully laid traps, it’s possible that he’s just starting to poke around your network. It’s up to you, while you have the upper hand, to determine if you start remediation or continue to guide them under your watchful eye. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call

AlgoSec AppViz Application visibility for AlgoSec Firewall Analyzer Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

Defining & Enforcing a Micro-segmentation Strategy Download PDF Schedule time with one of our experts Schedule time with one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Continue

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A Comprehensive Cloud Security Checklist for Your Cloud Environment There’s a lot to consider when securing your cloud environment.... Cloud Security Cloud Security Checklist: Key Steps and Best Practices 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 7/21/23 Published A Comprehensive Cloud Security Checklist for Your Cloud Environment There’s a lot to consider when securing your cloud environment. Threats range from malware to malicious attacks, and everything in between. With so many threats, a checklist of cloud security best practices will save you time. First we’ll get a grounding in the top cloud security risks and some key considerations. The Top 5 Security Risks in Cloud Computing Understanding the risks involved in cloud computing is a key first step. The top 5 security risks in cloud computing are: 1. Limited visibility Less visibility means less control. Less control could lead to unauthorized practices going unnoticed. 2. Malware Malware is malicious software, including viruses, ransomware, spyware, and others. 3. Data breaches Breaches can lead to financial losses due to regulatory fines and compensation. They may also cause reputational damage. 4. Data loss The consequences of data loss can be severe, especially it includes customer information. 5. Inadequate cloud security controls If cloud security measures aren’t comprehensive, they can leave you vulnerable to cyberattacks. Key Cloud Security Checklist Considerations 1. Managing User Access and Privileges Properly managing user access and privileges is a critical aspect of cloud infrastructure. Strong access controls mean only the right people can access sensitive data. 2. Preventing Unauthorized Access Implementing stringent security measures, such as firewalls, helps fortify your environment. 3. Encrypting Cloud-Based Data Assets Encryption ensures that data is unreadable to unauthorized parties. 4. Ensuring Compliance Compliance with industry regulations and data protection standards is crucial. 5. Preventing Data Loss Regularly backing up your data helps reduce the impact of unforeseen incidents. 6. Monitoring for Attacks Security monitoring tools can proactively identify suspicious activities, and respond quickly. Cloud Security Checklist Understand cloud security risks Establish a shared responsibility agreement with your cloud services provider (CSP) Establish cloud data protection policies Set identity and access management rules Set data-sharing restrictions Encrypt sensitive data Employ a comprehensive data backup and recovery plan Use malware protection Create an update and patching schedule Regularly assess cloud security Set up security monitoring and logging Adjust cloud security policies as new issues emerge Let’s take a look at these in more detail. Full Cloud Security Checklist 1. Understand Cloud Security Risks 1a. Identify Sensitive Information First, identify all your sensitive information. This data could range from customer information to patents, designs, and trade secrets. 1b. Understand Data Access and Sharing Use access control measures, like role-based access control (RBAC), to manage data access. You should also understand and control how data is shared. One idea is to use data loss prevention (DLP) tools to prevent unauthorized data transfers. 1c. Explore Shadow IT Shadow IT refers to using IT tools and services without your company’s approval. While these tools can be more productive or convenient, they can pose security risks. 2. Establish a Shared Responsibility Agreement with Your Cloud Service Provider (CSP) Understanding the shared responsibility model in cloud security is essential. There are various models – IaaS, PaaS, or SaaS. Common CSPs include Microsoft Azure and AWS. 2a. Establish Visibility and Control It’s important to establish strong visibility into your operations and endpoints. This includes understanding user activities, resource usage, and security events. Using security tools gives you a centralized view of your secure cloud environment. You can even enable real-time monitoring and prompt responses to suspicious activities. Cloud Access Security Brokers (CASBs) or cloud-native security tools can be useful here. 2b. Ensure Compliance Compliance with relevant laws and regulations is fundamental. This could range from data protection laws to industry-specific regulations. 2c. Incident Management Despite your best efforts, security incidents can still occur. Having an incident response plan is a key element in managing the impact of any security events. This plan should tell team members how to respond to an incident. 3. Establish Cloud Data Protection Policies Create clear policies around data protection in the cloud . These should cover areas such as data classification, encryption, and access control. These policies should align with your organizational objectives and comply with relevant regulations. 3a. Data Classification You should categorize data based on its sensitivity and potential impact if breached. Typical classifications include public, internal, confidential, and restricted data. 3b. Data Encryption Encryption protects your data in the cloud and on-premises. It involves converting your data so it can only be read by those who possess the decryption key. Your policy should mandate the use of strong encryption for sensitive data. 3c. Access Control Each user should only have the access necessary to perform their job function and no more. Policies should include password policies and changes of workloads. 4. Set Identity and Access Management Rules 4a. User Identity Management Identity and Access Management tools ensure only the right people access your data. Using IAM rules is critical to controlling who has access to your cloud resources. These rules should be regularly updated. 4b. 2-Factor and Multi-Factor Authentication Two-factor authentication (2FA) and multi-factor authentication (MFA) are useful tools. You reduce the risk by implementing 2FA or MFA, even if a password is compromised. 5. Set Data Sharing Restrictions 5a. Define Data Sharing Policies Define clear data-sharing permissions. These policies should align with the principles of least privilege and need-to-know basis. 5b. Implement Data Loss Prevention (DLP) Measures Data Loss Prevention (DLP) tools can help enforce data-sharing policies. These tools monitor and control data movements in your cloud environment. 5c. Audit and Review Data Sharing Activities Regularly review and audit your data-sharing activities to ensure compliance. Audits help identify any inappropriate data sharing and provide insights for improvement. 6. Encrypt Sensitive Data Data encryption plays a pivotal role in safeguarding your sensitive information. It involves converting your data into a coded form that can only be read after it’s been decrypted. 6a. Protect Data at Rest This involves transforming data into a scrambled form while it’s in storage. It ensures that even if your storage is compromised, the data remains unintelligible. 6b. Data Encryption in Transit This ensures that your sensitive data remains secure while it’s being moved. This could be across the internet, over a network, or between components in a system. 6c. Key Management Managing your encryption keys is just as important as encrypting the data itself. Keys should be stored securely and rotated regularly. Additionally, consider using hardware security modules (HSMs) for key storage. 6d. Choose Strong Encryption Algorithms The strength of your encryption depends significantly on the algorithms you use. Choose well-established encryption algorithms. Advanced Encryption Standard (AES) or RSA are solid algorithms. 7. Employ a Comprehensive Data Backup and Recovery Plan 7a. Establish a Regular Backup Schedule Install a regular backup schedule that fits your organization’s needs . The frequency of backups may depend on how often your data changes. 7b. Choose Suitable Backup Methods You can choose from backup methods such as snapshots, replication, or traditional backups. Each method has its own benefits and limitations. 7c. Implement a Data Recovery Strategy In addition to backing up your data, you need a solid strategy for restoring that data if a loss occurs. This includes determining recovery objectives. 7d. Test Your Backup and Recovery Plan Regular testing is crucial to ensuring your backup and recovery plan works. Test different scenarios, such as recovering a single file or a whole system. 7e. Secure Your Backups Backups can become cybercriminals’ targets, so they also need to be secured. This includes using encryption to protect backup data and implementing access controls. 8. Use Malware Protection Implementing robust malware protection measures is pivotal in data security. It’s important to maintain up-to-date malware protection and routinely scan your systems. 8a. Deploy Antimalware Software Deploy antimalware software across your cloud environment. This software can detect, quarantine, and eliminate malware threats. Ensure the software you select can protect against a wide range of malware. 8b. Regularly Update Malware Definitions Anti-malware relies on malware definitions. However, cybercriminals continuously create new malware variants, so these definitions become outdated quickly. Ensure your software is set to automatically update. 8c. Conduct Regular Malware Scans Schedule regular malware scans to identify and mitigate threats promptly. This includes full system scans and real-time scanning. 8d. Implement a Malware Response Plan Develop a comprehensive malware response plan to ensure you can address any threats. Train your staff on this plan to respond efficiently during a malware attack. 8e. Monitor for Anomalous Activity Continuously monitor your systems for any anomalous activity. Early detection can significantly reduce the potential damage caused by malware. 9. Create an Update and Patching Schedule 9a. Develop a Regular Patching Schedule Develop a consistent schedule for applying patches and updates to your cloud applications. For high-risk vulnerabilities, consider implementing patches as soon as they become available. 9b. Maintain an Inventory of Software and Systems You need an accurate inventory of all software and systems to manage updates and patches. This inventory should include the system version, last update, and any known vulnerabilities. 9c. Automation Where Possible Automating the patching process can help ensure that updates are applied consistently. Many cloud service providers offer tools or services that can automate patch management. 9d. Test Patches Before Deployment Test updates in a controlled environment to ensure work as intended. This is especially important for patches to critical systems. 9e. Stay Informed About New Vulnerabilities and Patches Keep abreast of new vulnerabilities and patches related to your software and systems. Being aware of the latest threats and solutions can help you respond faster. 9f. Update Security Tools and Configurations Don’t forget to update your cloud security tools and configurations regularly. As your cloud environment evolves, your security needs may change. 10. Regularly Assess Cloud Security 10a. Set up cloud security assessments and audits Establish a consistent schedule for conducting cybersecurity assessments and security audits. Audits are necessary to confirm that your security responsibilities align with your policies. These should examine configurations, security controls, data protection and incident response plans. 10b. Conduct Penetration Testing Penetration testing is a proactive approach to identifying vulnerabilities in your cloud environment. These are designed to uncover potential weaknesses before malicious actors do. 10c. Perform Risk Assessments These assessments should cover a variety of technical, procedural, and human risks. Use risk assessment results to prioritize your security efforts. 10d. Address Assessment Findings After conducting an assessment or audit, review the findings and take appropriate action. It’s essential to communicate any changes effectively to all relevant personnel. 10f. Maintain Documentation Keep thorough documentation of each assessment or audit. Include the scope, process, findings, and actions taken in response. 11. Set Up Security Monitoring and Logging 11a. Intrusion Detection Establish intrusion detection systems (IDS) to monitor your cloud environment. IDSs operate by recognizing patterns or anomalies that could indicate unauthorized intrusions. 11b. Network Firewall Firewalls are key components of network security. They serve as a barrier between secure internal network traffic and external networks. 11c. Security Logging Implement extensive security logging across your cloud environment. Logs record the events that occur within your systems. 11d. Automate Security Alerts Consider automating security alerts based on triggering events or anomalies in your logs. Automated alerts can ensure that your security team responds promptly. 11e. Implement Information Security and Event Management (SIEM) System A Security Information and Event Management (SIEM) system can your cloud data. It can help identify patterns, security breaches, and generate alerts. It will give a holistic view of your security posture. 11f. Regular Review and Maintenance Regularly review your monitoring and logging practices to ensure they remain effective. as your cloud environment and the threat landscape evolve. 12. Adjust Cloud Security Policies as New Issues Emerge 12a. Regular Policy Reviews Establish a schedule for regular review of your cloud security policies. Regular inspections allow for timely updates to keep your policies effective and relevant. 12b. Reactive Policy Adjustments In response to emerging threats or incidents, it may be necessary to adjust on an as-needed basis. Reactive adjustments can help you respond to changes in the risk environment. 12c. Proactive Policy Adjustments Proactive policy adjustments involve anticipating future changes and modifying your policies accordingly. 12d. Stakeholder Engagement Engage relevant stakeholders in the policy review and adjustment process. This can include IT staff, security personnel, management, and even end-users. Different perspectives can provide valuable insights. 12e. Training and Communication It’s essential to communicate changes whenever you adjust your cloud security policies. Provide training if necessary to ensure everyone understands the updated policies. 12f. Documentation and Compliance Document any policy adjustments and ensure they are in line with regulatory requirements. Updated documentation can serve as a reference for future reviews and adjustments. Use a Cloud Security Checklist to Protect Your Data Today Cloud security is a process, and using a checklist can help manage risks. Companies like Prevasio specialize in managing cloud security risks and misconfigurations, providing protection and ensuring compliance. Secure your cloud environment today and keep your data protected against threats. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... 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Challenges with managing Cisco Meraki in a complex enterprise environment We have worked closely with Cisco for many years in large... Application Connectivity Management Managing the switch – Making the move to Cisco Meraki Jeremiah Cornelius 2 min read Jeremiah Cornelius 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 1/4/24 Published Challenges with managing Cisco Meraki in a complex enterprise environment We have worked closely with Cisco for many years in large complex environments and have developed integrations to support a variety of Cisco solutions for our joint customers. In recent years we have seen an increased interest in the use of Cisco Meraki devices by enterprises that are also AlgoSec customers. In this post, we will highlight some of the AlgoSec capabilities that can quickly add value for Meraki customers. Meeting the Enterprise The Cisco Meraki MX is a multifunctional security and SD-WAN enterprise appliance with a wide set of capabilities to address multiple use cases—from an all-in-one device. Organizations across all industries rely on the MX to deliver secure connectivity to hub locations or multi cloud environments. The MX is 100% cloud-managed, so installation and remote management are truly zero-touch, making it ideal for distributed branches, campuses, and data center locations. In our talks with AlgoSec customers and partner architects, it is evident that the benefits that originally made Meraki MX popular in commercial deployments were just as appealing to enterprises. Many enterprises are now faced with waves of expansion in employees working from home, and burgeoning demands for scalable remote access – along with increasing network demands by regional centers. The leader of one security team I spoke with put it very well, “We are deploying to 1,200 locations in four global regions, planned to be 1,500 by year’s end. The choice of Meraki is for us a ‘no-brainer.’ If you haven’t already, I know that you’re going to see this become a more popular option with many big operations.” Natural Companions – AlgoSec ASMS and Cisco Meraki-MX This is a natural situation to meet enhanced requirements with AlgoSec ASMS — reinforcing Meraki’s impressive capabilities and scale as a combined, enterprise-class solution. ASMS brings to the table traffic planning and visualization, rules optimization and management, and a solution to address enterprise-level requirements for policy reporting and compliance auditing. In AlgoSec, we’re proud of AlgoSec FireFlow’s ability to model the security-connected state of any given endpoints across an entire enterprise. Now our customers with Meraki MX can extend this technology that they know and trust, analyze real traffic in complex deployments, and acquire an understanding of the requirements and impact of changes delivered to their users and applications that are connected by Meraki deployments. As it’s unlikely that your needs, or those of any data center and enterprise, are met by a single vendor and model, AlgoSec unifies operations of the Meraki-MX with those of the other technologies, such as enterprise NGFW and software-defined network fabrics. Our application-centric approach means that Meraki MX can be a component in delivering solutions for zero-trust and microsegmentation with other Cisco technology like Cisco ACI, and other third parties. Cisco Meraki– Product Demo If all of this sounds interesting, take a look for yourself to see how AlgoSec helps with common challenges in these enterprise environments. More Where This Came From The AlgoSec integration with Cisco Meraki-MX is delivering solutions our customers want. If you want to discover more about the Meraki and AlgoSec joint solution, contact us at AlgoSec! We work together with Cisco teams and resellers and will be glad to schedule a meeting to share more details or walk through a more in depth demo. Schedule a demo Related Articles 2025 in review: What innovations and milestones defined AlgoSec’s transformative year in 2025? AlgoSec Reviews Mar 19, 2023 · 2 min read Navigating Compliance in the Cloud AlgoSec Cloud Mar 19, 2023 · 2 min read 5 Multi-Cloud Environments Cloud Security Mar 19, 2023 · 2 min read Speak to one of our experts Speak to one of our experts Work email* First name* Last name* Company* country* Select country... Short answer* By submitting this form, I accept AlgoSec's privacy policy Schedule a call