For most organizations that rely on cloud environments, the occurrence of a security event is no longer a matter of if, but when. Shifting more workloads to the cloud can create security gaps. Without a well-structured cloud security strategy, your organization risks increased exposure to breaches, downtime, and potentially irreversible reputational damage. Just this year, 50% of cyberattacks targeted vulnerabilities in cloud environments.
A meticulously laid out cloud security checklist is a proactive defense mechanism; a step-by-step guide for your team with actionable steps to safeguard your cloud infrastructure. From ensuring proper encryption, and monitoring access, to maintaining compliance, this checklist keeps your cloud environment resilient and compliant with emerging threats. Without it, your business risks falling victim to easily avoidable security lapses.
10 Things That Must Be In Your Cloud Security Checklist
A comprehensive cloud security requirements checklist covers essential practices and controls, protecting your environment against multiple breaches. Here are the ten must-have things in your cloud security checklist.
#1. Establish Governance and Risk management
A comprehensive risk management framework must be part of your checklist with the below-listed components:
- Risk identification and assessment: The attack space in the cloud is vast. The number of workloads, containers, and servers present in the cloud makes it difficult to identify risks in the cloud. Moreover, the point of using cloud services is the elasticity concerning scaling requirements. This means that many cloud workloads and servers may be used and abandoned at different points in time. Thus, identify risks using threat modeling techniques and penetration testing so that you can simulate real-world scenarios. Assess these risks for potential impact and likelihood using probability matrices or using historical incident data. For example, a DoS attack on the application layer of an eCom platform on the cloud, especially during peak season, would be considered a high-risk threat, because this could implicate the financials significantly. In such a scenario, threat modeling can be used to understand the situation and take the necessary mitigation steps.
- Risk mitigation strategies: Risk mitigation plans generally involve the following steps: identification, containment, eradication, and recovery. Using the priority list from your risk assessment, focus your remediation efforts on the most critical areas first. Start by tightening or adjusting access controls. Run additional tests where needed. Revisiting your current security strategy to better address any vulnerabilities. This proactive approach will help strengthen your overall cloud security and keep potential risks in check.
- Risk monitoring: Cloud environment changes on demand; workloads are spun up and decommissioned, causing security gaps and increased attack surface. The purpose of risk monitoring is to identify these budding security risks in real time and prevent them from turning into full-blown data breaches. Automated monitoring tools look for minor anomalies and flag them for instant remediation, which also helps ensure ongoing adherence to security regulations. As threat actors get more and more creative, risk monitoring and threat intelligence give you room to fortify your defenses against the evolving tactics of attackers.
#2. Manage User Access and Privileges
Control access to sensitive data and resources through role-based access control (RBAC), ensuring only authorized users have access. Mimecast’s State of Email & Collaboration Security 2024 report reveals that 70% of respondents say that collaboration tools pose urgent and new threats.
Regularly review and update access permissions to maintain security. Additionally, deploy multi-factor authentication (MFA) to add an extra layer of protection, making unauthorized access to cloud applications significantly more challenging.
Implement least privilege access in cloud environments using techniques such as just-in-time access and privileged access management (PAM) solutions tailored for cloud platforms. For instance, use cloud-native identity and access management (IAM) services to create fine-grained permissions and temporary credentials for specific tasks.
#3. Data Protection and Encryption
Classify data according to its sensitivity, and apply the appropriate security measures, including encryption for sensitive information at rest and in transit. All sensitive data stored in the cloud must be encrypted using robust encryption standards to prevent unauthorized access.
Implement advanced encryption key management strategies, such as using hardware security modules (HSMs) or cloud provider key management services. Consider implementing data loss prevention (DLP) tools specifically designed for cloud environments to prevent accidental data leakage.
#4. Compliance and Legal Requirements
Stay updated on relevant regulations, such as the General Data Protection Regulation (GDPR) and Health Insurance Portability and Accountability Act (HIPAA), and ensure your cloud practices fully comply with these standards. This includes conducting regular audits and maintaining thorough documentation of compliance efforts.
Implement continuous compliance monitoring tools and automated remediation processes to maintain ongoing compliance in dynamic cloud environments. To automatically enforce regulatory requirements in your infrastructure-as-code (IaC) pipeline, embed compliance-as-code frameworks directly into it. You can also integrate automated compliance checks into CI/CD workflows to identify and avoid violations before deployment. With version control, maintain audit trails for regulatory audits.
Also embed encryption policies, access control, and data residency in your IaC template. To further ensure continuous and scalable compliance, use remediation tools that can correct non-compliance in real time.
#5. Incident Management and Response
IBM’s 2023 Data Breach Report found that organizations with an incident response team saved an average of $473,000 compared to those without one, and they shortened the breach lifecycle by 54 days. Creating a cloud-specific incident response playbook must be part of your cloud security checklist and include the following key elements:
- Incident identification and detection: Implement tools and procedures to quickly detect and identify security incidents such as data breaches, unauthorized access, or malware infections. Use cloud-native security information and event management (SIEM) solutions for comprehensive visibility. Cloud-native SIEM solutions gather and analyze logs to capture detailed data, like API calls, user authentication attempts, and system configuration changes. SIEMs centralize this data, via correlation rules and machine learning algorithms to spot suspicious patterns, such as unusual login attempts or potential data breaches. For incident response teams, can contain attacks and investigate incidents fast —ultimately reducing response time and minimizing potential damage.
- Incident classification: Categorize incidents based on severity, impact, and type (e.g., data breach, system outage). This helps prioritize responses and allocate resources effectively. Form a dedicated team responsible for managing and responding to incidents. Ensure team members are trained and equipped to handle various types of cloud-specific incidents, such as container escapes or serverless function compromises.
- Incident response procedures: Establish clear, step-by-step procedures for handling different security incidents, breaking them into phases such as containment, eradication, recovery, and communication. In case of unauthorized access, your team should quickly isolate the compromised systems, such as affected servers, virtual machines, or cloud instances, to prevent further damage, neutralize the threat by revoking access or removing malicious software, and ensure a smooth recovery by restoring secure configurations. It’s essential that each phase of the response is well-documented so that every team member knows their specific role.
- Communication plan: During a security incident, communication can make or break your response. Thus, it is important to set up a communication plan that provides timely updates to everyone involved, from internal teams and leadership to customers and regulators. If customer data is compromised, they need to be notified promptly, and regulators can expect regular updates for compliance purposes. Hence, clear, transparent communication keeps everyone informed and helps maintain trust.
- Forensic analysis: Cyber forensic analysis is critical for digging into your cloud environment to trace the source and extent of an incident. Pay particular attention to the challenges of cloud environments, like data volatility and multi-tenancy, which can complicate gathering evidence. Use cloud-native forensics tools to collect and secure the necessary data for analysis. A proper forensic investigation not only helps with immediate mitigation but can also serve as crucial evidence for any legal actions.
- Post-incident review: After the dust settles, take time to thoroughly review the entire incident response process. Look for what went well and identify areas that need improvement. If your team struggles with slow detection, it may be time to enhance monitoring tools. These reviews provide valuable insights that allow you to adjust your incident management plan and better prepare for future threats.
- Continuous improvement: Your incident response framework should be dynamic, evolving with emerging threats and new technologies. Continuously update your strategies based on lessons learned from previous incidents. For example, if you adopt a new cloud security tool that enhances threat detection, make sure it’s fully integrated into your response plan. Staying flexible and proactive is key to keeping your security measures effective.
- Testing and drills: Regularly test your incident response plan with real-world simulations. Whether it’s a simulated data breach in a multi-cloud environment or a compromise of container orchestration, these drills ensure your team can respond quickly and effectively under pressure. Testing reveals any gaps in your plan and helps keep your team sharp and ready for actual incidents.
#6. Monitor and Log Activities
Implement real-time monitoring tools to track user activities and detect suspicious behavior within your cloud environment. Comprehensive logging of all cloud activities supports the incident investigation and compliance audits, with centralized logging solutions enhancing visibility and analysis.
Use cloud-native monitoring solutions that offer features such as anomaly detection and behavior analytics. Implement a cloud-based security information and event management (SIEM) system to correlate logs across multiple cloud services and on-premise systems for a holistic view of your security posture.
#7. Secure Application Development
Adhere to secure coding practices and regularly test applications for vulnerabilities. Implement security measures such as web application firewalls (WAF) and conduct regular penetration testing to protect your cloud applications.
Integrate security into your DevOps pipeline (DevSecOps) by implementing automated security scanning tools in your CI/CD processes. Use cloud-native application security testing tools that can identify vulnerabilities specific to cloud environments, such as misconfigurations in serverless functions or container vulnerabilities.
#8. Backup and Disaster Recovery
Regularly backing critical data and securely backing them up must be part of the cloud security checklist. Test your backup and recovery processes to confirm that data can be quickly restored in case of loss. Develop and implement disaster recovery plans to recover from disruptions and ensure business continuity.
Implement cloud-native backup solutions that offer features such as immutable backups to protect against ransomware attacks. Use multi-region replication for critical data to enhance resilience against regional outages.
#9. Educate and train employees
Cloud Security Alliance reports that 68% of surveyed organizations are increasing investments in hiring and training staff on SaaS security. Creating a security-conscious culture within your organization reduces the likelihood of human error resulting in security breaches. According to the 2024 Thales Cloud Security Report, 31% of cloud breaches are caused by human errors such as failure to apply multi-factor authentication, workload misconfigurations, using shadow IT, etc.
Train employees on best cloud security practices and data protection in an ongoing security awareness program. Conduct regular phishing simulations and social engineering tests specific to cloud environments.
Develop role-based training programs tailored to different job functions, such as specialized courses for cloud architects, DevOps engineers, and security analysts.
#10. Implement a Zero-Trust Architecture
Beyond the standard practices, organizations can adopt a zero-trust approach to cloud security, which fundamentally shifts the security paradigm. In a zero-trust model, no user or device, whether inside or outside the organization’s network, is trusted by default. Instead, every access request is thoroughly verified before granting access to resources.
Key elements of a zero-trust architecture include:
- Identity verification: Continuously verify the identity of users and devices before granting access to cloud resources, even within the internal network. Implement adaptive authentication methods that consider factors such as device health, location, and user behavior
- Micro-segmentation: Divide your cloud environment into smaller segments, limiting access to each segment based on the principle of least privilege. This minimizes the impact of potential breaches. Use cloud-native network segmentation tools and software-defined perimeters to enforce granular access controls
- Real-time monitoring: Implement real-time monitoring and analytics to detect unusual behavior and automatically enforce security policies. Use machine learning–based anomaly detection systems to identify potential threats quickly
- Adaptive security policies: Use context-aware security policies that adapt based on user behavior, location, and device security status, ensuring that access is granted only when conditions are met. Implement just-in-time access provisioning to minimize the attack surface.
What Is the Importance of Cloud Security Assessment?
Cloud security assessments play a vital role for organizations that rely on cloud computing, systematically evaluating their cloud environment’s security.
Here is why these assessments are essential:
Ensuring Compliance
Adhering to regulatory requirements such as the GDPR, HIPAA, and the Payment Card Industry Data Security Standard (PCI DSS) is often mandatory for organizations. Cloud security assessments help confirm that cloud deployments comply with these standards, protecting the organization from fines and legal issues.
Achieving Cost Efficiency
Regular cloud security assessments can lead to substantial long-term financial savings by preventing costly security failures. According to various studies:
- Training employees on cybersecurity best practices can reduce human error—responsible for approximately 70% of service outages
- Proactive incident management can cost security breaches by half a million dollars.
- 84% of organizations that failed a compliance audit reported having some breach in their history, with 31% saying they experienced a breach in the last 12 months
Organizations can avoid the significant costs associated with data breaches, legal actions, and reputational damage by identifying and addressing security vulnerabilities before they result in major incidents.
Enhancing Vendor Relationships
Working with third-party cloud service providers poses greater risks as these vendors are not secure by default. These assessments help you deep clean the vulnerabilities, misconfiguration, or outdated security practices they may have and ensure that they meet the necessary high-security standards.
Moreover, with these assessments, you help your vendor improve their offerings. They can follow and update their encryption standards, access control policies, and compliance with various frameworks (SOC 2 or ISO 27001). This ongoing collaboration is mutually beneficial. Also, switching vendors would mean extra costs or long-term lock-ins. It is simpler to have shared security goals, thereby building trust and a better overall security posture.
Uncovering Hidden Costs and Inefficiencies
As cloud security assessments include technical audits, process evaluations, and continuous monitoring, they often reveal hidden costs and inefficiencies. You could be paying for unused cloud resources (storage, bandwidth, etc.), licensing fees, maintenance costs, data egress fees, or higher labor costs for manual security operations. These added expenses result from unused/underutilized resources, redundancy or overlap in security tools, and unnecessary data transfers.
Cloud security assessments can also help you avoid potential, unnecessary expenses. It helps find gaps in compliance that can lead to hefty fines. Relying on a single cloud provider can lead to lock-in, making migration to another vendor expensive, time-consuming, and technically challenging. Then there is the matter of security and data breaches; the cost of troubleshooting and fixing them, along with the legal fees and compensations can be sky-high. However, the impact on your reputation can be very severe. Managing these inefficiencies can help minimize operational as well as storage costs.
Benchmarking Security Practices
Organizations have a set of security practices that need to align with industry standards. Also, new services, users, and changes make cloud environments dynamic and also create vulnerabilities. Cloud security assessments create a baseline, ie.. the current state of your organization’s security practice and compare it against the widely-accepted and trusted industry and regulatory standards such as ISO 270001, SOC 2, CIS, GDPR, PCI-DSS, and more. These assessments also do a peer comparison through security reports, industry surveys, and threat intelligence services to check your security maturity against your competitors.
You can opt for automated security tools from reliable vendors such as Sentinel One, that have real-time, built-in benchmarking capabilities. You can also expand the scope of security assessments by including pen tests and red team exercises to gauge security control performance. Benchmarking the results against industry standards helps in perfecting your incident response and detection protocols.
Protect Your Cloud with SentinelOne’s Cloud Security Solution
As long as you are working in a cloud environment, securing it is a necessity, not an option. A cloud security checklist is the armor you need to tackle threats; it shrinks the attack surface and equips the organizations for real-world threats. It allows you to address vulnerabilities, protect sensitive data, and stay compliant with industry standards. However, to ensure complete security you need a comprehensive and automated solution; you need SentinelOne.
As an industry leader, SentinelOne’s offerings are unmatched:
- There is the Singularity Platform that combines EDR (Endpoint Detection and Response) and XDR (Extended Detection and Response) for 360-degree visibility and automated responses across multiple endpoints and cloud workloads. It has AI-driven capabilities that detect and mitigate complex threats as and when they happen.
- Another option is Cloud-Native Security or CNS, which is specifically designed for public, private, and hybrid clouds. It comes with advanced threat detection, forensics, and automated response for cloud workloads, allowing you to scale with confidence.
- To protect sensitive data stored in the cloud, you can opt for Cloud Data Security (CDS). It focuses on encryption, real-time monitoring, and data integrity checks, while also ensuring compliance with stringent regulations, preventing unauthorized access to critical information.
- SentinelOne’s Purple AI also helps in threat detection and incident response. It predicts and stops potential threats before they can cause damage, ensuring your cloud environment stays secure.
- Remote Ops enables security teams to remotely monitor, manage, and respond to threats across cloud environments. This tool ensures that your operations remain secure, even in distributed and remote work scenarios.
With SentinelOne, you get the full spectrum of cloud security. Its AI-driven solutions provide real-time protection, automatically detecting and mitigating threats before they become a problem. With AI-powered insights and automated responses, SentinelOne your infrastructure is protected from every angle. Are you ready to elevate your cloud security to new heights? Book your demo and experience the difference.
FAQs
1. What are cloud security requirements?
Cloud security requirements include data encryption, access control such as identity and access management (IAM), multi-factor authentication (MFA), compliance with regulations, incident response planning, continuous monitoring, vulnerability management, and secure configurations. Additionally, cloud-specific requirements may include proper configuration of cloud storage services, implementation of cloud-native security tools, and adoption of a shared responsibility model with the cloud service provider. A cloud security requirements checklist will help you cover all these requirements properly configured.
2. What should be on your cloud audit checklist?
Your cloud audit checklist is going to be the point of reference for all the audits and therefore must include:
1. Data security, privacy, and compliance
- Encryption methods (AES, RSA, TLS/SSL, etc.)
- Access policies and IAM (RBAC, MFA)
- Compliance with GDPR, HIPAA, etc.
- SOC 2, ISO 270001, PCI-DSS certifications and compliance documents
2. Backup, disaster recovery, and incident response
- Data backup frequency, RPO and RTO
- Testing disaster recovery plans
- Incident response protocols and threat monitoring
3. Vendor Management and third-party risks
- Security practices of cloud service providers
- Contractual SLAs for data protection
4. System, network, and configuration management
- Firewall settings, network segmentation
- Regular vulnerability scans
- Change management processes and approval workflows
5. Logging and monitoring alerts
- Centralized log management
- Real-time monitoring, suspicious activity alerts
6. Cost and resource management
- Usage tracking and reporting
- Resource optimization, cost control
3. What are the 4 Cs of cloud-native security?
The 4 Cs of cloud-native security are Code, Container, Cluster, and Cloud, each layer requiring specific security practices to protect applications in a cloud-native environment.
- Code: Ensuring secure development practices and regular vulnerability scanning of application code
- Container: Implementing container security measures such as image scanning and runtime protection
- Cluster: Securing container orchestration platforms such as Kubernetes through proper configuration and access controls
- Cloud: Applying cloud security best practices and leveraging cloud-native security services
4. What are the three key areas for cloud security?
The three key areas for cloud security are data protection, access control, and compliance management, ensuring that sensitive information is secure, that only authorized users have access and that regulatory requirements are met.
Specifically:
- Data protection involves encryption, data loss prevention, and secure data transmission methods.
- Access control encompasses identity and access management, privileged access management, and multi-factor authentication.
- Compliance management includes maintaining regulatory compliance, conducting regular audits, and implementing governance frameworks tailored to cloud environments.