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Cybersecurity - Attack and Defense Strategies

You're reading from   Cybersecurity - Attack and Defense Strategies Infrastructure security with Red Team and Blue Team tactics

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Product type Paperback
Published in Jan 2018
Publisher Packt
ISBN-13 9781788475297
Length 384 pages
Edition 1st Edition
Languages
Tools
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Authors (2):
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Yuri Diogenes Yuri Diogenes
Author Profile Icon Yuri Diogenes
Yuri Diogenes
Dr. Erdal Ozkaya Dr. Erdal Ozkaya
Author Profile Icon Dr. Erdal Ozkaya
Dr. Erdal Ozkaya
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Toc

Table of Contents (18) Chapters Close

Preface 1. Security Posture 2. Incident Response Process FREE CHAPTER 3. Understanding the Cybersecurity Kill Chain 4. Reconnaissance 5. Compromising the System 6. Chasing a User's Identity 7. Lateral Movement 8. Privilege Escalation 9. Security Policy 10. Network Segmentation 11. Active Sensors 12. Threat Intelligence 13. Investigating an Incident 14. Recovery Process 15. Vulnerability Management 16. Log Analysis 17. Other Books You May Enjoy

The current threat landscape

With the prevalence of always-on connectivity and advancements in technology that are available today, the threats are evolving rapidly to exploit different aspects of these technologies. Any device is vulnerable to attack, and with Internet of Things (IoT) this became a reality. In October 2016, a series of Distributed Denial of Service (DDoS) attacks were launched against DNS servers, which caused some major web services to stop working, such as GitHub, Paypal, Spotify, Twitter, and others (1).

This was possible due to the amount of insecure IoT devices around the world. While the use of IoT to launch a massive cyber attack is something new, the vulnerabilities in those devices are not. As a matter of fact, they've been there for quite a while. In 2014, ESET reported 73,000 unprotected security cameras with default passwords (2). In April 2017, IOActive found 7,000 vulnerable Linksys routers in use, although they said that it could be up to 100,000 additional routers exposed to this vulnerability (3).

The Chief Executive Officer (CEO) may even ask: what do the vulnerabilities in a home device have to do with our company? That's when the Chief Information Security Officer (CISO) should be ready to give an answer. Because the CISO should have a better understanding of the threat landscape and how home user devices may impact the overall security that this company needs to mitigate. The answer comes in two simple scenarios, remote access and Bring your Own Device (BYOD).

While remote access is not something new, the number of remote workers are growing exponentially. Forty-three percent of employed Americans are already working remotely according to Gallup (4), which means they are using their own infrastructure to access company's resources. Compounding this issue, we have a growth in the number of companies allowing BYOD in the workplace. Keep in mind that there are ways to implement BYOD securely, but most of the failures in the BYOD scenario usually happen because of poor planning and network architecture, which lead to an insecure implementation (5).

What is the commonality among all technologies that were previously mentioned? To operate them, you need a user and the user is still the greatest target for attack. Humans are the weakest link in the security chain. For this reason, old threats such as phishing emails are still on the rise, because it deals with the psychological aspects of the user by enticing the user to click on something, such as a file attachment or malicious link. Usually, once the user performs one of these actions, their device becomes compromised by either malicious software (malware) or is remotely accessed by a hacker.

A spear phish campaign could start with a phishing email, which will basically be the entry point for the attacker, and from there other threats will be leveraged to exploit vulnerabilities in the system.

One example of a growing threat that uses phishing emails as the entry point for the attack is ransomware. Only during the first three months of 2016, the FBI reported that $209 million in ransomware payments were made (6). According to Trend Micro, ransomware growth will plateau in 2017; however, the attack methods and targets will diversify (7).

The following diagram highlights the correlation between these attacks and the end user:

This diagram shows four entry points for the end user. All of these entry points must have their risks identified and treated with proper controls. The scenarios are listed as follows:

  • Connectivity between on-premises and cloud (1)
  • Connectivity between BYOD devices and cloud (2)
  • Connectivity between corporate-owned devices and on-premises (3)
  • Connectivity between personal devices and cloud (4)

Notice that these are different scenarios, but all correlated by one single entity-the end user. The common element in all scenarios is usually the preferred target for cybercriminals, which appears in the preceding diagram accessing cloud resources.

In all scenarios, there is also another important element that appears constantly, which is cloud computing resources. The reality is that nowadays you can't ignore the fact that many companies are adopting cloud computing. The vast majority will start in a hybrid scenario, where Infrastructure as a Service (IaaS) is their main cloud service. Some other companies might opt to use Software as a Service (SaaS) for some solutions. For example, Mobile Device Management (MDM), as shown in scenario (2). You may argue that highly secure organizations, such as the military may have zero cloud connectivity. That's certainly possible, but commercially speaking, cloud adoption is growing and will slowly dominate most of the deployment scenarios.

On-premise security is critical, because it is the core of the company, and that's where the majority of the users will be accessing resources. When an organization decides to extend their on-premise infrastructure with a cloud provider to use IaaS (1), the company needs to evaluate the threats for this connection and the countermeasure for these threats through a risk assessment.

The last scenario (4) might be intriguing for some skeptical analysts, mainly because they might not immediately see how this scenario has any correlation with the company's resources. Yes, this is a personal device with no direct connectivity with on-premise resources. However, if this device is compromised, the user could potentially compromise the company's data in the following situations:

  • Opening a corporate email from this device
  • Accessing corporate SaaS applications from this device
  • If the user uses the same password (8) for his/her personal email and his corporate account, this could lead to account compromise through brute force or password guessing

Having technical security controls in place could help mitigate some of these threats against the end user. However, the main protection is continuous use of education via security awareness training.

The user is going to use their credentials to interact with applications in order to either consume data or write data to servers located in the cloud or on-premise. Everything in bold has a unique threat landscape that must be identified and treated. We will cover these areas in the sections that follow.

The credentials – authentication and authorization

According to Verizon's 2017 Data Breach Investigations Report (9), the association between threat actor (or just actor), their motives and their modus operandi vary according to the industry. However, the report states that stolen credentials is the preferred attack vector for financial motivation or organized crime. This data is very important, because it shows that threat actors are going after user's credentials, which leads to the conclusion that companies must focus specifically on authentication and authorization of users and their access rights.

The industry agreed that a user's identity is the new perimeter. This requires security controls specifically designed to authenticate and authorize individuals based on their job and need for specific data within the network. Credential theft could be just the first step to enable cybercriminals to have access to your system. Having a valid user account in the network will enable them to move laterally (pivot), and at some point find the right opportunity to escalate privilege to a domain administrator account. For this reason, applying the old concept of defense in depth is still a good strategy to protect a user's identity, as shown in the following diagram:

Here, there are multiple layers of protection, starting with the regular security policy enforcement for accounts, which follow industry best practices such as strong password requirements, a policy requiring frequent password changes, and password strength. Another growing trend to protect user identities is to enforce MFA. One method that is having increased adoption is the callback feature, where the user initially authenticates using his/her credentials (username and password), and receives a call to enter their pin. If both authentication factors succeed, they are authorized to access the system or network. We are going to explore this topic in greater detail in Chapter 6, Chasing User's Identity.

Apps

Applications (we will call them apps from now on), are the entry point for the user to consume data and to transmit, process, or store information onto the system. Apps are evolving rapidly and the adoption of SaaS-based apps is on the rise. However, there are inherited problems with this amalgamation of apps. Here are two key examples:

  • Security: How secure are these apps that are being developed in-house and the ones that you are paying for as a service?
  • Company-owned versus personal apps: Users will have their own set of apps on their own devices (BYOD scenario). How do these apps jeopardize the company's security posture and can they lead to a potential data breach?

If you have a team of developers that are building apps in-house, measures should be taken to ensure that they are using a secure framework throughout the software development lifecycle, such as the Microsoft Security Development Lifecycle (SDL) (10). If you are going to use a SaaS app, such as Office 365, you need to make sure you read the vendor's security and compliance policy (11). The intent here is to see if the vendor and the SaaS app are able to meet your company's security and compliance requirements.

Another security challenge facing apps is how the company's data is handled among different apps, the ones used and approved by the company and the ones used by the end user (personal apps). This problem becomes even more critical with SaaS, where users are consuming many apps that may not be secure. The traditional network security approach to support apps is not designed to protect data in SaaS apps, and worse. They don't give IT the visibility they need to know how employees are using them. This scenario is also called Shadow IT, and according to a survey conducted by Cloud Security Alliance (CSA) (12), only 8 percent of companies know the scope of shadow IT within their organizations. You can't protect something you don't know you have, and this is a dangerous place to be.

According to Kaspersky Global IT Risk Report 2016 (13), 54 percent of businesses perceive that the main IT security threats are related to inappropriate sharing of data via mobile devices. It is necessary for IT to gain control of the apps and enforce security policies across devices (company-owned and BYOD). One of the key scenarios that you want to mitigate is the one described in the following diagram:

In this scenario, we have the user's personal tablet that has approved applications as well as personal apps. Without a platform that can integrate device management with application management, this company is exposed to a potential data leakage scenario. In this case, if the user downloads the excel spreadsheet onto his/her device and uploads it to a personal Dropbox cloud storage and the spreadsheet contains the company's confidential information, the user has now created a data leak without the company's knowledge or the ability to secure it.

Data

As we finished the previous section talking about data, we should ensure that data is always protected regardless of its current state (in transit or at rest). There will be different threats according to the data's state. The following are some examples of potential threats and countermeasures:

State

Description

Threats

Countermeasures

Security triad affected

Data at rest on the user's device.

The data is currently located on the user's device.

The unauthorized or malicious process could read or modify the data.

Data encryption at rest. It could be file-level encryption or disk encryption.

Confidentiality and integrity.

Data in transit.

The data is currently being transferred from one host to another.

A man-in-the-middle attack could read, modify, or hijack the data.

SSL/TLS could be used to encrypt the data in transit.

Confidentiality and integrity.

Data at rest on-premise (server) or cloud.

The data is located at rest either on the server's hard drive located on-premise or in the cloud (storage pool).

Unauthorized or malicious processes could read or modify the data.

Data encryption at rest. It could be file-level encryption or disk encryption.

Confidentiality and integrity.

 

These are only some examples of potential threats and suggested countermeasures. A deeper analysis must be performed to fully understand the data path according to the customer's needs. Each customer will have their own particularities regarding data path, compliance, rules, and regulations. It is critical to understand these requirements even before the project is started.

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