CLOUD SECURITY: HOW CAN GRC HELP?
Blog Article Published: 05/01/2015
By Vibhav Agarwal, Senior Manager of Product Marketing, MetricStream An integrated GRC approach to cloud acceptance, adoption and scale includes the risk perspective from the beginning. Harnessing the power of cloud security with a GRC framework can promote and improve information security practices and drive better business performance. One of my favorite Dilbert cartoons shows Mordac, the “Preventer of Information Service,” saying, “cloud computing is no good because strangers would have access to our data.” Dilbert tries to explain encryption technology is trustworthy—certainly more trustworthy than Mordac himself. The grain of truth here is that, within any organization, there are still mixed responses to cloud computing. Today, enterprises are adopting cloud computing in a big way. According to CIO.com, the National Association of State CIOs (NASCIO) recently surveyed its members and reported cloud adoption is the second biggest priority for CIOs, only after cybersecurity. But CIOs today are still choosy about what data they want to place in the cloud. The majority have asserted that they do NOT want to put confidential company financial data or credit card data in the cloud. Makes sense—personal information data leaks are terrible PR. Simply stated, the perception of cloud computing at most companies is mixed. Those advocating for the cloud speak to its improved agility, flexibility, high performance and lowered costs. Those who are still on the fence are concerned about data security, decentralization of their IT team, service reliability and the loss of control over their IT ecosystem. Both sides of the debate have valid points. 10 Key Imperatives To increase acceptance and adoption of cloud computing at your organization, there are 10 must-haves that can be sub-divided into two groups – infrastructure imperatives and information security imperatives. The first set is the infrastructure imperatives, which affect the cloud-hosting environment:
- Federated identity management & access control– The cloud-based system must permit several users at a time, with differing levels of access to ensure proper segregation of duties.
- Centralized control and visibility over the IT landscape– The IT manager should have the capability to monitor and manage the system from a centralized console.
- Dynamic failover protection & data replication– The system should guarantee 99.5 percent reliability as a minimum.
- Automated application performance management– For a uniform user experience, the system should ensure performance as per the service-level agreement (SLA).
- Network segmentation– The ability to segment and segregate the networks, across various customers, will ensure minimal propagation of any cybersecurity issue. Given the proliferation of cybersecurity threats and vulnerabilities, the remaining five are information security imperatives that apply to both hosted and otherwise.
- Continuous threat and vulnerability assessments– Data center security needs to be assessed regularly to ensure adherence to latest information and network security standards.
- Security upgrades and monitoring on demand– Monitor security posture and ensure that regular updates are being provided as per the latest set of cyber-threats.
- Meta-data driven information security– Analysis of meta-data being generated across the security and system logs will identify significant, potentially malicious, patterns.
- Continuous control monitoring of policies– It is vital to have continuous monitoring and adherence to security, access and other policies across the cloud.
- Virtualized security & perimeter controls– The security and perimeter controls need to percolate to the virtualized machine level.
- Continuous system monitoring– Feed regular system related logs and reports into the GRC framework for continuous risk assessments.
- Penetration Testing audits– Audit the third-party penetration test results, findings and remediations on a pre-determined schedule.
- Incident response management– Create and manage a defined workflow within the organization to ensure a coordinated response from various departments such as IT, Legal, Finance, etc. and respond appropriately to any cloud security events.
- Data portability testing– Perform a yearly or quarterly audit and document the process and audit findings to ensure that the data is portable across data centers.
- Disaster recovery & business continuity– Ensure that proper disaster recovery and business continuity measures are in place along with regular tests and documentation.
- Onsite & offsite backup audits– Audit backups to check for their ability to restore data.
- Data encryption audits– Audit and document the storage control and key management procedures for encrypted data. This is typically applicable for sensitive data only.
- Forensics log management and reporting– Analyze meta-data continuously generated by system and security logs, and identifying any adverse patterns.
- Elasticity & load tolerance testing– Ensure that resources can be augmented in the peak performance periods by performing regular load tolerance and elastic demand management testing.
- Advanced cyber-attack prevention measures– Monitor and implement cyber attack prevention measures pro-actively by integrating with new threat and vulnerability solutions.
- Advanced cloud security analytics– Establish an advanced cloud security analytics information center as part of the GRC dashboard and centralize its monitoring and management.