Whitepaper on AWS Security Overview

AWS Security Whitepaper

AWS Security whitepaper is one of the most important whitepaper for the Certification perspective

Shared Security Responsibility Model

In the Shared Security Responsibility Model, AWS is responsible for securing the underlying infrastructure that supports the cloud, and you're responsible for anything you put on the cloud or connect to the cloud.
AWS Security Shared Responsibility Model

AWS Security Responsibilities

  • AWS is responsible for protecting the global infrastructure that runs all of the services offered in the AWS cloud. This infrastructure is comprised of the hardware, software, networking, and facilities that run AWS services.
  • AWS provide several reports from third-party auditors who have verified their compliance with a variety of computer security standards and regulations
  • AWS is responsible for the security configuration of its products that are considered managed services for e.g. RDS, DynamoDB
  • For Managed Services, AWS will handle basic security tasks like guest operating system (OS) and database patching, firewall configuration, and disaster recovery.

Customer Security Responsibilities

  • AWS Infrastructure as a Service (IaaS) products for e.g. EC2, VPC, S3 are completely under your control and require you to perform all of the necessary security configuration and management tasks.
  • Management of the guest OS (including updates and security patches), any application software or utilities installed on the instances, and the configuration of the AWS-provided firewall (called a security group) on each instance
  • For most of these managed services, all you have to do is configure logical access controls for the resources and protect the account credentials

AWS Global Infrastructure Security

AWS Compliance Program

IT infrastructure that AWS provides to its customers is designed and managed in alignment with security best practices and a variety of IT security standards, including:
  • SOC 1/SSAE 16/ISAE 3402 (formerly SAS 70)
  • SOC 2
  • SOC 3
  • FISMA, DIACAP, and FedRAMP
  • DOD CSM Levels 1-5
  • PCI DSS Level 1
  • ISO 9001 / ISO 27001
  • ITAR
  • FIPS 140-2
  • MTCS Level 3
And meet several industry-specific standards, including:
  • Criminal Justice Information Services (CJIS)
  • Cloud Security Alliance (CSA)
  • Family Educational Rights and Privacy Act (FERPA)
  • Health Insurance Portability and Accountability Act (HIPAA)
  • Motion Picture Association of America (MPAA)

Physical and Environmental Security

Storage Decommissioning

  • When a storage device has reached the end of its useful life, AWS procedures include a decommissioning process that is designed to prevent customer data from being exposed to unauthorized individuals.
  • AWS uses the techniques detailed in DoD 5220.22-M (National Industrial Security Program Operating Manual) or NIST 800-88 (Guidelines for Media Sanitization) to destroy data as part of the decommissioning process.
  • All decommissioned magnetic storage devices are degaussed and physically destroyed in accordance with industry-standard practices.

Network Security

Amazon Corporate Segregation

  • AWS Production network is segregated from the Amazon Corporate network and requires a separate set of credentials for logical access.
  • Amazon Corporate network relies on user IDs, passwords, and Kerberos, while the AWS Production network require SSH public-key authentication through a bastion host.

Networking Monitoring & Protection

AWS utilizes a wide variety of automated monitoring systems to provide a high level of service performance and availability. These tools monitor server and network usage, port scanning activities, application usage, and unauthorized intrusion attempts. The tools have the ability to set custom performance metrics thresholds for unusual activity.
AWS network provides protection against traditional network security issues
  1. DDOS - AWS uses proprietary DDoS mitigation techniques. Additionally, AWS's networks are multi-homed across a number of providers to achieve Internet access diversity.
  2. Man in the Middle attacks - AWS APIs are available via SSL-protected endpoints which provide server authentication
  3. IP spoofing - AWS-controlled, host-based firewall infrastructure will not permit an instance to send traffic with a source IP or MAC address other than its own.
  4. Port Scanning - Unauthorized port scans by Amazon EC2 customers are a violation of the AWS Acceptable Use Policy. When unauthorized port scanning is detected by AWS, it is stopped and blocked. Penetration/Vulnerability testing can be performed only on your own instances, with mandatory prior approval, and must not violate the AWS Acceptable Use Policy.
  5. Packet Sniffing by other tenants - It is not possible for a virtual instance running in promiscuous mode to receive or "sniff" traffic that is intended for a different virtual instance. While you can place your interfaces into promiscuous mode, the hypervisor will not deliver any traffic to them that is not addressed to them. Even two virtual instances that are owned by the same customer located on the same physical host cannot listen to each other's traffic.

Secure Design Principles

AWS's development process follows :-
  • Secure software development best practices, which include formal design reviews by the AWS Security Team, threat modeling, and completion of a risk assessment
  • Static code analysis tools are run as a part of the standard build process
  • Recurring penetration testing performed by carefully selected industry experts

AWS Account Security Features

AWS account security features includes credentials for access control, HTTPS endpoints for encrypted data transmission, the creation of separate IAM user accounts, user activity logging for security monitoring, and Trusted Advisor security checks

AWS Credentials

AWS IAM Credentials

Individual User Accounts

Do not use the Root account, instead create an IAM User for each user and provide them with a unique set of Credentials and grant least privilege as required to perform their job function

Secure HTTPS Access Points

Use HTTPS, provided by all AWS services, for data transmissions, which uses public-key cryptography to prevent eavesdropping, tampering, and forgery

Security Logs

Use Amazon CloudTrail which provides logs of all requests for AWS resources within the account and captures information about every API call to every AWS resource you use, including sign-in events

Trusted Advisor Security Checks

Use Trusted Advisor service which helps inspect AWS environment and provide recommendations when opportunities may exist to optimize cost, improve system performance, or close security gaps

References

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