Book Image

Enterprise Cloud Security and Governance

By : Zeal Vora

Book Image

Enterprise Cloud Security and Governance

By: Zeal Vora

Overview of this book

Modern day businesses and enterprises are moving to the Cloud, to improve efficiency and speed, achieve flexibility and cost effectiveness, and for on-demand Cloud services. However, enterprise Cloud security remains a major concern because migrating to the public Cloud requires transferring some control over organizational assets to the Cloud provider. There are chances these assets can be mismanaged and therefore, as a Cloud security professional, you need to be armed with techniques to help businesses minimize the risks and misuse of business data. The book starts with the basics of Cloud security and offers an understanding of various policies, governance, and compliance challenges in Cloud. This helps you build a strong foundation before you dive deep into understanding what it takes to design a secured network infrastructure and a well-architected application using various security services in the Cloud environment. Automating security tasks, such as Server Hardening with Ansible, and other automation services, such as Monit, will monitor other security daemons and take the necessary action in case these security daemons are stopped maliciously. In short, this book has everything you need to secure your Cloud environment with. It is your ticket to obtain industry-adopted best practices for developing a secure, highly available, and fault-tolerant architecture for organizations.

Preface

What this book covers

What you need for this book

Who this book is for

Reader feedback

Customer support

Free Chapter

The Fundamentals of Cloud Security

The Fundamentals of Cloud Security

Getting started

Deployment models

Why is cloud security considered hard?

Virtualization – cloud's best friend

Enterprise virtualization with oVirt

Service Level Agreement

Business Continuity Planning – Disaster Recovery (BCP/DR)

Policies and governance in cloud

Audit challenges in the cloud

Implementation challenges for controls on CSP side

Vulnerability assessment and penetration testing in the cloud

Defense in Depth Approach

Defense in Depth Approach

Introducing Defense in Depth

Designing Defensive Network Infrastructure

Designing Defensive Network Infrastructure

Why do we need cryptography?

The TCP/IP model

Application layer security

The IPS functionality

A web application firewall

Network segmentation

Accessing management

Virtual Private Network

Installation of OpenVPN

Approaching private hosted zones for DNS

Server Hardening

Server Hardening

The basic principle of host-based security

Keeping systems up-to-date

Partitioning and LUKS

Access control list

Hardening system services and applications

Pluggable authentication modules

System auditing with auditd

Hosted Based Intrusion Detection System

The hardened image approach

Cryptography Network Security

Cryptography Network Security

Introduction to cryptography

Types of cryptography

Message authentication codes

Hardware security modules

Key management service

Envelope encryption

Credential management system with KMS

Asymmetric key encryption

Digital signatures

Perfect forward secrecy

Online certificate status protocol

AWS certificate manager

Automation in Security

Automation in Security

Configuration management

Attaining the desired state with Ansible pull

Vulnerability, Pentest, and Patch Management

Vulnerability, Pentest, and Patch Management

Introduction to vulnerability assessment

Understanding risks

Risk mitigation

Patch management

Organizing servers in groups

Introduction to Docker

Security Logging and Monitoring

Security Logging and Monitoring

Continuous security and monitoring

Choosing the right log monitoring tool

Security Incident and Event Management

Log monitoring is reactive in nature

First Responder

First Responder

Real world use case

Understanding the incident

Holding unexpected simulation

Best Practices

Cloud readiness

Network readiness

Server readiness

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The hardened image approach

If we need to design highly available and scalable architecture, we have to make sure that servers should be able to handle the increase in load whenever the necessity might arise.

So, in short, if at 10 am on any given day, if there is a huge spike in traffic, your environment should be able to take the load and serve traffic efficiently.

Let's look at a sample architecture for the same:

The preceding architecture is based on an autoscaling-based approach. We have a load balancer at the top that distributes traffic to servers beneath it. In this type of architecture, the servers will grow horizontally whenever there is an increase in load. This functionality of scaling on demand is denoted by the Scaled systems in the diagram.

Implementing hardening...