Saturday, May 19, 2018

Cyber Security

  • WHAT IS CYBERSECURITY?
Cybersecurity refers to a set of techniques used to protect the integrity of networks, programs and data from attack, damage or unauthorized access.
Cyberterrorismis the disruptive use of information technology by terrorist groups to further their ideological or political agenda. This takes the form of attacks on networks, computer systems and telecommunication infrastructures.
Cyberwarfareinvolves nation-states using information technology to penetrate another nation’s networks to cause damage or disruption
Cyberespionage is the practice of using information technology to obtain secret information without permission from its owners or holders.
https://www.paloaltonetworks.com/cyberpedia/what-is-cyber-security

  • Data privacy vs Cybersecurity vs  Information Securit
Data privacy relates to business policies that define appropriate data management such as collection, retention, and deletion. Cybersecurity comprises methods for protecting networks, devices, and data from unauthorized access, and ensuring the confidentiality, integrity, and availability of all that information. Information Security includes cybersecurity and physical security
https://training.fortinet.com/pluginfile.php/1057447/mod_resource/content/9/NSE1_Lesson_Scripts-EN.pdf
  • Threat
A threat is any type of danger, which can damage or steal data, create a disruption or cause a harm in general. Common examples of threats include malware, phishing, data breaches and even rogue employees.

Vulnerability
A vulnerability is a weakness in hardware, software, personnel or procedures, which may be exploited by threat actors in order to achieve their goals.

Risk
Risk is a combination of the threat probability and the impact of a vulnerability. In other words, risk is the probability of a threat agent successfully exploiting a vulnerability

Risk = Threat Probability * Vulnerability Impact.
https://lifars.com/2020/07/threat-vulnerability-risk-what-is-the-difference/










  • **safety: The state of being safe; exemption from hurt or injury; freedom from danger. safety chain, a chain providing additional security

***security: The condition of being protected from or not exposed to danger; safety.
https://www.quora.com/What-is-the-difference-between-safety-and-security

  • What is a Zero-Day Vulnerability?
A zero-day vulnerability refers to a hole in the software that is unknown to the vendor. This security hole is then exploited by hackers before the vendor becomes aware and hurries to fix it—this exploit is called a zero-day attack. Uses of zero-day attacks can include infiltrating malware, spyware or allowing unwanted access to user information. The term “zero-day” refers to the unknown nature of the hole to those outside of the hackers, specifically, the developers. Once the vulnerability becomes known, a race begins for the developer, who must protect users.
http://www.pctools.com/security-news/zero-day-vulnerability/

  • A zero-day vulnerability, at its core, is a flaw. It is an unknown exploit in the wild that exposes a vulnerability in software or hardware and can create complicated problems well before anyone realizes something is wrong. In fact, a zero-day exploit leaves NO opportunity for detection.

Vulnerability Timeline

A zero-day attack happens once that flaw, or software/hardware vulnerability, is exploited and attackers release malware before a developer has an opportunity to create a patch to fix the vulnerability—hence “zero-day.” Let’s break down the steps of the window of vulnerability:

    A company’s developers create software, but unbeknownst to them, it contains a vulnerability.
    The threat actor spots that vulnerability either before the developer does or acts on it before the developer has a chance to fix it.
    The attacker writes and implements exploit code while the vulnerability is still open and available
    After releasing the exploit, either the public recognizes it in the form of identity or information theft or the developer catches it and creates a patch to staunch the cyber-bleeding.

Once a patch is written and used, the exploit is no longer called a zero-day exploit. These attacks are rarely discovered right away. In fact, it often takes not just days but months and sometimes years before a developer learns of the vulnerability that led to an attack.

https://www.fireeye.com/current-threats/what-is-a-zero-day-exploit.html

  • Cyber-insurance is an insurance product used to protect businesses and individual users from Internet-based risks, and more generally from risks relating to information technology infrastructure and activities. Risks of this nature are typically excluded from traditional commercial general liability policies or at least are not specifically defined in traditional insurance products. Coverage provided by cyber-insurance policies may include first-party coverage against losses such as data destruction, extortion, theft, hacking, and denial of service attacks; liability coverage indemnifying companies for losses to others caused, for example, by errors and omissions, failure to safeguard data, or defamation; and other benefits including regular security-audit, post-incident public relations and investigative expenses, and criminal reward funds.
https://en.wikipedia.org/wiki/Cyber-Insurance
  • Zero-day actually refers to two things—a zero-day vulnerability or a zero-day exploit.

Zero-day vulnerability refers to a security hole in software—such as browser software or operating system software—that is yet unknown to the software maker or to antivirus vendors. This means the vulnerability is also not yet publicly known, though it may already be known by attackers who are quietly exploiting it. Because zero-day vulnerabilities are unknown to software vendors and to antivirus firms, there is no patch available yet to fix the hole and generally no antivirus signatures to detect the exploit, though sometimes antivirus scanners can still detect a zero-day using heuristics (behavior-tracking algorithms that spot suspicious or malicious behavior).

Zero-day exploit refers to code that attackers use to take advantage of a zero-day vulnerability. They use the exploit code to slip through the hole in the software and plant a virus, Trojan horse or other malware onto a computer or device. It’s similar to a thief slipping through a broken or unlocked window to get into a house.

The term “zero-day” refers to the number of days that the software vendor has known about the hole
https://www.wired.com/2014/11/what-is-a-zero-day/
  • Information Security

Information Security (also known as InfoSec) guarantees that the data, including both physical and digital, is safeguarded from unauthorized use, access, disruption, inspection, modification, destruction or recording. In case a business is beginning to generate a security program, Information Security is where they should start
Cybersecurity
Cybersecurity guarantees that the computers, data, and network of the organization is defended from the unauthorized digital attack, access or damage by the mean of implementing several processes, practices, and technologies.  This security is to prevent the data, network, and reputation of the company against the attack

A physical security component is available to Information Security and Cybersecurity. Either a data is stored digitally or physically, there is a need to make sure that the entire physical access control is generated in place in order to avoid unauthorized access.
In Information Security, the main concern is safeguarding the data of the company from the illegal access of any kind, whereas, in Cybersecurity, the main concern is safeguarding the data of the company from illegal digital access.

https://www.hack2secure.com/blogs/cyber-security-vs-information-security


  • Information security (or “InfoSec”) is another way of saying “data security.” So if you are an information security specialist, your concern is for the confidentiality, integrity, and availability of your data. (This is often referred to as the “CIA.”) 

InfoSec is concerned with making sure data in any form is kept secure and is a bit broader than cybersecurity.
Cybersecurity is all about protecting data that is found in the electronic form.

Overlap Between Information Security & Cybersecurity
There is a physical security component to both cybersecurity and information security
In other words, if your data is stored physically or digitally, you need to be sure you have all the right physical access controls in place to prevent unauthorized individuals from gaining access

They both take the value of the data into consideration.
If you’re in information security, your main concern is protecting your company's data from unauthorized access of any sort—and if you’re in cybersecurity, your main concern is protecting your company’s data from unauthorized electronic access
https://www.bitsighttech.com/blog/cybersecurity-vs-information-security

  • Cyber Hygiene: A Baseline Set of Practices
Cybersecurity hygiene is a set of practices for managing the most common and pervasive cybersecurity risks faced by organizations today.
https://resources.sei.cmu.edu/asset_files/Presentation/2017_017_001_508771.pdf


  • Defining Cyber Hygiene

To achieve security within the domain, we need to adapt a good cyber hygiene strategy, that is, making sure we are protecting and maintaining systems and devices appropriately and using cyber security best practices for anything and everything that connects to the web.
It includes organizing security in hardware, software and IT infrastructure, continuous network monitoring, and employee awareness and training.
The Center for Internet Security (CIS) and the Council on Cyber Security (CCS) defines cyber hygiene as a means to appropriately protect and maintain IT systems and devices and implement cyber security best practices.
The campaign’s top priorities address the vast majority of known cyber threats:
    Count: Know what’s connected to and running on your network
    Configure: Implement key security settings to help protect your systems
    Control: Limit and manage those who have administrative privileges for security settings
    Patch: Regularly update all apps, software, and operating systems
    Repeat: Regularly revisit the Top Priorities to form a solid foundation of cyber security
Lack of security controls in a modern information system which eventually increases the likelihood of a cyber risk or a data breach can be termed as a cyber mess. Cyber mess can be classified into two categories focusing on technical and non-technical issues. A technical cyber mess can occur because of absence of the following:

    AAA – Authentication, Authorization and Accounting
    Access Controls – Data Level and Function Level Access Controls
    Monitoring – Security Monitoring and Security Intelligence
    Plan – Incident Response Plan
    Security Patches and Remediation process – Vulnerability Management
    Managed Cyber Risks – Continued Risk Assessments

Non-technical issues mainly concentrate on absence of employee training, security awareness, organization policies and social engineering awareness.


https://resources.infosecinstitute.com/the-importance-of-cyber-hygiene-in-cyberspace/#gref

  • Authentication, authorization and accounting (AAA) is a system for tracking user activities on an IP-based network and controlling their access to network resources. AAA is often is implemented as a dedicated server

https://www.techopedia.com/definition/24130/authentication-authorization-and-accounting-aaa


  • Authentication, authorization, and accounting (AAA) is a term for a framework for intelligently controlling access to computer resources, enforcing policies, auditing usage, and providing the information necessary to bill for services

http://searchsecurity.techtarget.com/definition/authentication-authorization-and-accounting
  • The Critical Security Controls: Basic Cybersecurity Hygiene for your Organization

Fortunately, there is a tried and true set of practices that, since its first release in 2008, has given thousands of organizations a solid cybersecurity foundation: The Center for Internet Security’s Critical Security Controls
https://blog.qualys.com/news/2017/10/12/the-critical-security-controls-basic-cyber-security-hygiene-for-your-organization


  • Implementing the CIS 20 Critical Security Controls: Building Upon Foundational Cyber Hygiene

You can significantly lower the risk of being victimized by this type of common, preventable attack by adopting the Center for Internet Security's Critical Security Controls (CSCs).
This set of 20 structured InfoSec best practices offers a methodical and sensible plan for securing your IT environment, and maps to most security control frameworks, government regulations, contractual obligations and industry mandates.
https://www.marketscreener.com/QUALYS-INC-11612572/news/Implementing-the-CIS-20-Critical-Security-Controls-Building-Upon-Foundational-Cyber-Hygiene-25582102/
  • CIS Controls V7 Measures & Metrics Measures & Metrics for CIS Controls V7

The CIS Controls are updated and reviewed in collaboration with international cybersecurity experts from various industries, governmental agencies, and academic institutions around the world. These volunteers and industry leaders bring deep technical understanding and threat experience to identify the most effective technical security controls needed to stop the attacks they observe
https://www.cisecurity.org/white-papers/cis-controls-v7-measures-metrics/


  • CIS Controls Measures and Metrics for Version 7

https://www.cisecurity.org/wp-content/uploads/2018/03/CIS-Controls-Measures-and-Metrics-for-Version-7-cc-FINAL.pdf


  • Top 20 Critical Security Controls for Effective Cyber Defense

The complete list of CIS Critical Security Controls, version 6.1
The CIS CSC is a set of 20 controls (sometimes called the SANS Top 20) designed to help organizations safeguard their systems and data from known attack vectors. It can also be an effective guide for companies that do yet not have a coherent security program. Although the CIS Controls are not a replacement for any existing compliance scheme, the controls map to several major compliance frameworks (e.g., the NIST Cybersecurity framework) and regulations (e.g., PCI DSS and HIPAA).

Implementing the Controls: A Pragmatic Approach
Getting value from the CIS Critical Security Controls does not necessarily mean implementing all 20 controls at once.
A more pragmatic approach to implementing the controls includes the following steps:

    Discover your information assets and estimate their value. Perform risk assessment and think through potential attacks against your systems and data (including initial entry points, spread and damage). Prioritize the CIS Controls around your riskiest assets.
    Compare your current security controls to the CIS Controls. Make note of each area where no security capabilities exist or where additional work is needed.
    Develop a plan for adopting the most valuable new security controls and improving the operational effectiveness of your existing controls.
    Obtain management buy-in for the plan and form line-of-business commitments for necessary financial and personnel support.
    Implement the controls. Keep an eye on trends that could introduce new risks to your organization. Measure progress and risk reduction, and communicate your findings.


https://blog.netwrix.com/2018/02/01/top-20-critical-security-controls-for-effective-cyber-defense/



  • The 20 CIS Controls & Resources

Basic CIS Controls

1. Inventory and Control of Hardware Assets

2. Inventory and Control of Software Assets

3. Continuous Vulnerability Management

4. Controlled Use of Administrative Privileges

5. Secure Configuration for Hardware and Software on Mobile Devices, Laptops, Workstations and Servers

6. Maintenance, Monitoring and Analysis of Audit Logs
Foundational CIS Controls

7. Email and Web Browser Protections

8. Malware Defenses

9. Limitation and Control of Network Ports, Protocols and Services

10. Data Recovery Capabilities

11. Secure Configuration for Network Devices, such as Firewalls, Routers and Switches

12. Boundary Defense

13. Data Protection

14. Controlled Access Based on the Need to Know

15. Wireless Access Control

16. Account Monitoring and Control
Organizational CIS Controls

17. Implement a Security Awareness and Training Program

18. Application Software Security

19. Incident Response and Management

20. Penetration Tests and Red Team Exercises
https://www.cisecurity.org/controls/cis-controls-list/



  • Tabletop Exercises

Six Scenarios to Help Prepare Your Cybersecurity Team
Tabletop exercises are meant to help organizations consider different risk scenarios and prepare for potential cyber threats.
https://www.cisecurity.org/wp-content/uploads/2018/10/Six-tabletop-exercises-FINAL.pdf


  • A Measurement Companion to the CIS Critical Security Controls

The CIS Critical Security Controls (the Controls”) have always included a set of Metrics for every Control in order to help our adopters manage their implementation projects. Adopters could use our sample Metrics as a starting point to identify key
information to help them track progress and to encourage the use of automation

https://www.cisecurity.org/wp-content/uploads/2017/03/A-Measurement-Companion-to-the-CIS-Critical-Security-Controls-VER-6.0-10.15.2015.pdf

  • In Forensic science, Locard's exchange principle (sometimes simply Locard's principle) holds that the perpetrator of a crime will bring something into the crime scene and leave with something from it and that both can be used as forensic evidence.

https://en.wikipedia.org/wiki/Locard%27s_exchange_principle


  • The NICE Framework is comprised of the following components:

    Categories (7) – A high-level grouping of common cybersecurity functions;
    Specialty Areas (33) – Distinct areas of cybersecurity work;
    Work Roles (52) – The most detailed groupings cybersecurity work comprised of specific knowledge, skills, and abilities required to perform tasks in a work role;
        Knowledge, Skills, and Abilities (KSAs) – Attributes required to perform Tasks, generally demonstrated through relevant experience or performance-based education and training.
        Tasks – Specifically defined pieces of work that, combined with other identified Tasks, composes the work in a specific specialty area or work role.
https://www.nist.gov/itl/applied-cybersecurity/national-initiative-cybersecurity-education-nice/nice-cybersecurity


  • The National Initiative for Cybersecurity Education (NICE) Cybersecurity Workforce Framework provides a blueprint to categorize, organize, and describe cybersecurity work into Categories, Specialty Areas, Work Roles, tasks, and knowledge, skills, and abilities (KSAs).  The NICE Framework provides a common language to speak about cyber roles and jobs and helps define personal requirements in cybersecurity.

https://niccs.us-cert.gov/workforce-development/cyber-security-workforce-framework

  • This voluntary Framework consists of standards, guidelines, and best practices to manage cybersecurity-related risk.  The Cybersecurity Framework’s prioritized, flexible, and cost-effective approach helps to promote the protection and resilience of critical infrastructure and other sectors important to the economy and national security
https://www.nist.gov/cyberframework

  • The Cyber Analytics Repository (CAR) is a knowledge base of analytics developed by MITRE based on the Adversary Tactics, Techniques, and Common Knowledge (ATT&CK™) adversary model. 
Analytics stored in CAR contain the following information

    a hypothesis which explains the idea behind the analytic
    the information domain or the primary domain the analytic is designed to operate within (e.g. host, network, process, external)
    references to ATT&CK Techniques and Tactics that the analytic detects
    the type of analytic
    a pseudocode description of how the analytic might be implemented
    a unit test which can be run to trigger the analytic
https://car.mitre.org/wiki/Main_Page

ATT&CK is useful for understanding security risk against known adversary behavior, for planning security improvements, and verifying defenses work as expected. 
https://attack.mitre.org/wiki/Main_Page

With MITRE’s Navigator tool you can select an actor or malware family. After making the selection, the boxes in the matrix show which techniques the actor or malware has used.
From these techniques, we can learn how our environments protect against these techniques and where we have gaps. The goal is not to create coverage or signatures for each technique; the matrix helps organizations understand how attackers behave. Having more visibility into their methods leads us to the right responses, and helps us contain and eradicate attacks in a coordinated way. 

https://securingtomorrow.mcafee.com/mcafee-labs/apply-mitres-attck-model-to-check-your-defenses/

  • MITRE ATT&CK™ is a globally-accessible knowledge base of adversary tactics and techniques based on real-world observations. The ATT&CK knowledge base is used as a foundation for the development of specific threat models and methodologies in the private sector, in government, and in the cybersecurity product and service community. 


https://attack.mitre.org/

  • CK is a community-driven, decentralized, small and cross-platform framework helping users to save their knowledge and automate repetitive and often painful tasks in the form of portable, customizable and reusable Python components with a unified API, CLI and JSON meta description. Such tasks include automatically detecting and installing software, models and data sets on Linux, Windows, MacOS and Android; assembling, running and autotuning AI/ML workflows across diverse platforms from IoT to supercomputers; crowdsourcing and reproducing experiments; support reproducible tournaments and hackathons such as ACM ReQuEST and Quantum computing challenges; and even generating interactive articles.

http://cknowledge.org/


  • What is the four-eyes principle?
The four-eyes principle means that a certain activity, i.e. a decision, transaction, etc., must be approved by at least two people. This controlling mechanism is used to facilitate delegation of authority and increase transparency
https://www.unido.org/change/faq/what-is-the-four-eyes-principle.html

  • The 4-eyes principle (4EP) is a well-known access control and authorization principle, and used in many scenarios to minimize the likelihood of corruption. It states that at least two separate entities must approve a message before it is considered authentic. Hence, an adversarial party aiming to forge bogus content is forced to convince other parties to collude in the attack.
http://ieeexplore.ieee.org/document/7784643/

  • secure islands
Secure Islands provides powerful data classification, protection, and loss prevention technologies for virtually any type of file, which allows customers to apply data protection to more applications.
http://www.secureislands.com/

  • Information Security Management: Using BS 10012:2009 to Comply with The Data Protection Act (1998)
To be authoritative data needs to remain authentic, reliable and useable while retaining its integrity.2 These characteristics of data can be preserved through the implementation of effective information management systems.
Without these characteristics, data cannot be confidently reused, and there may be both short-term and long-term legal repercussions for mismanaging data.

    Authentic data is what it purports to be, and was created by the purported person at the purported time
    Reliable data can be trusted to contain what was actually created
    Useable data can be located, retrieved, presented and interpreted
    Data with integrity is complete and unaltered

The 8 Data Protection Principles which Apply to all Personal Data
http://www.dcc.ac.uk/resources/briefing-papers/standards-watch-papers/information-security-management-using-bs-100122009-

  • What is BS 10012:2009?
BS 10012 has been developed to help companies establish and maintain a best practice personal information management system that complies with the Data Protection Act 1998. It is the first standard that relates to the management of personal information
http://shop.bsigroup.com/ProductDetail/?pid=000000000030175849


  • At a high-level, both the Clark-Wilson Model and the Biba Model want to do the following three things:

First, they don’t want unauthorized users making changes within a system.
This is one of the core goals of the Biba and Clark Wilson access control model, to prevent unauthorized modifications to data.  To consistently maintain its integrity.

Second, the Biba and Clark Wilson Model uphold integrity by making sure that authorized users aren’t making unauthorized changes.
As in, yes the user is authorized to make changes, but the user can’t make changes which change the integrity of a file, object or resource.
Meaning, they don’t do something accidentally or even intentionally, (even though they are authorized), to mess up the integrity of a system.  Even the good guys can destroy a system by making mistakes.

Third, they both make sure internal and external consistency is maintained.
Internal consistency is making sure that numbers which are supposed to add, actually add and numbers which are supposed to be multiplied, are actually multiplied and not added.  Internal transactions do what they are supposed to do.As for external consistency, that’s when someone like an investment banker tells his or her client that they sold 1000 shares of stock, and actually did sell 1000 shares of their stock.  The banker didn’t tell their customer they sold a 1000 shares of their stock, but in actuality winded up selling only 900 and pocketing the rest of the money.These internal and external consistency things are a way to maintain integrity, and to keep the systems and people in place honest.

What we just talked about are the high-level concepts of what these two models (Clark-Wilson & Biba) want to do as far as maintaining integrity, but not their specific implementation.  That’s where they are different.  They both want to uphold integrity, but they both go about doing it in different ways.


Quick Recap of The Biba Model
The Biba Model has these three rules:
No Write Up Rule, which says a subject can’t write data to an object at a higher integrity level.
No Read Down Rule, which states a subject cannot read data located at a lower integrity level.
The Invocation Rule where a subject can’t request a service at a higher integrity level (depending on classification level: Top Secret/Secret/Confidential)

The Clark-Wilson Model does the same thing, but it does so in a completely different way.
With Clark-Wilson, instead of using integrity levels like in the Biba model, it uses a stringent set of change control principles and an intermediary.
The beauty of the Clark-Wilson model is that if a subject is trying to access an object, it does so without having a direct connection to it - without having direct access to the object.
It takes external entities in order to prove and provide the necessary security.

Clark-Wilson Model
Users.
It all starts with users, otherwise known as the subjects.  The subjects which will access the objects.  Users are the ones that need the information.  I think the books call users the “active agents”.
Transformation Procedures (TPs)

Then we have Transformation Procedures.  Think of them as operations the subject is trying to perform.
Is the subject trying to read a file?
Write to a file?
Or modify a file?
Transformation Procedures are simply operations which can be performed.

Constrained Data Items (CDIs)
There’s Constrained Data Items and Unconstrained Data Items.
Objects which belong in the subset of Constrained Data Items are at a higher level of protection.
In a Clark-Wilson Model, there are two types of protections given to data items, constrained and unconstrained.
In order to read an object located in the Constrained Data Items subset, we have to go through a transformation procedure.
Constrained Data Items can only be manipulated by a Transformation Procedure.
Objects within a Constrained Data Items are so valuable, that in a Clark-Wilson model, a subject has to go through an intermediary to even just access it.

Unconstrained Data Items (UDIs)
These can be accessed by the subject directly, it doesn’t need to go through an intermediary like a Transformation Procedure.  The subject can perform their own read and write operations without going through a Transformation Procedure
Subjects access objects in a UDI like how they would normally access an object in a networked environment as if they weren't using a Clark-Wilson Model.

Integrity Verification Procedures (IVPs)
they check the internal and external consistency.
IVPs are a way to audit the transformation procedure.



  • The Clark-Wilson Model enforces the concept of separation of duties.

This is done through the Integrity Verification Procedures.
When the IVP audits the well-formed transactions of the Transformation Procedures, the IVP is independently performing a duty separate from that of the Transformation Procedure
Separation of duties is performed when the IVP audits the Transformation Procedure.

https://www.studynotesandtheory.com/single-post/The-Clark-Wilson-Model


  • Trusted Computer System Evaluation Criteria (TCSEC) is a United States Government Department of Defense (DoD) standard that sets basic requirements for assessing the effectiveness of computer security controls built into a computer system. The TCSEC was used to evaluate, classify, and select computer systems being considered for the processing, storage, and retrieval of sensitive or classified information.

https://en.wikipedia.org/wiki/Trusted_Computer_System_Evaluation_Criteria



  • The documents and guidelines were developed to help evaluate and establish system assurance

A trusted system has undergone testing and validation to a specific standard.
Assurance is the freedom of doubt and a level of confidence that a system will perform as required every time it is used.
When a developer prepares to sell a system, he must have a way to measure the system’s features and abilities.
The buyer, when preparing to make a purchase, must have a way to measure the system’s effectiveness and benchmark its abilities.

The Rainbow Series
The rainbow series is aptly named because each book in the series has a label of a different color


The Orange Book: Trusted Computer System Evaluation Criteria

The Orange Book’s official name is the Trusted Computer System Evaluation Criteria. As noted, it was developed to evaluate standalone systems. Its basis of measurement is confidentiality, so it is similar to the Bell-LaPadula model. It is designed to rate systems and place them into one of four categories:

    A—Verified protection. An A-rated system is the highest security division.
    B—Mandatory security. A B-rated system has mandatory protection of the TCB.
    C—Discretionary protection. A C-rated system provides discretionary protection of the TCB.
    D—Minimal protection. A D-rated system fails to meet any of the standards of A, B, or C and basically has no security controls.
http://www.pearsonitcertification.com/articles/article.aspx?p=1998558&seqNum=5


  • What Is Access Control?


    Access control - Granting or denying approval to use specific resources; it is controlling access
    Physical access control - Fencing, hardware door locks, and mantraps that limit contact with devices
    Technical access control - Technology restrictions that limit users on computers from accessing data
    Access control has set of associated terminology to describe actions
    Four standard access control models
    Specific practices used to enforce access control


Access Control Terminology

    Identification - Presenting credentials (Example: delivery driver presenting employee badge)
    Authentication - Checking credentials (Example: examining the delivery driver’s badge)
    Authorization - Granting permission to take action (Example: allowing delivery driver to pick up package)

Basic Steps In Access Control
Identification User enters username
Authentication User provides password
Authorization User authorized to log in
Access User allowed to access specific data

Impose Technical Access Control

    Object - Specific resource (Example: file or hardware device)
    Subject - User or process functioning on behalf of a user (Example: computer user)
    Operation - Action taken by the subject over an object (Example: deleting file)

Access Control Models

    Access control model - Hardware and software predefined framework that custodian can use for controlling access
    Access control models used by custodians for access control are neither created nor installed by custodians or users; instead, these models are already part of software and hardware.
    Four major access control models

Discretionary Access Control (DAC)

    Discretionary Access Control (DAC) - Least restrictive model
    Every object has owner, who has total control over that object
    Owners can create and access their objects freely
    Owner can give permissions to other subjects over these objects
    DAC used on operating systems like UNIX and Microsoft Windows



    DAC has two significant weaknesses:
        DAC relies on decisions by end-user to set proper level of security; incorrect permissions might be granted to subject or permissions might be given to unauthorized subject
        Subject’s permissions will be “inherited” by any programs that subject executes; attackers often take advantage of this inheritance because end-users frequently have a high level of privileges

Mandatory Access Control (MAC)

    Mandatory Access Control (MAC) - Opposite of DAC and is most restrictive access control model
    MAC assigns users’ access controls strictly according to custodian’s desires and user has no freedom to set any controls

Mandatory Access Control (MAC): Elements

    Two key elements to MAC:
        Labels - Every entity is an object (laptops, files, projects, and so on) and assigned classification label (confidential, secret, and top secret) while subjects assigned privilege label (a clearance)
        Levels - Hierarchy based on labels is also used, both for objects and subjects (Top secret higher level than secret)
    MAC grants permissions by matching object labels with subject labels based on their respective levels

Mandatory Access Control (MAC): Major Implementations

    Lattice model - Subjects and objects are assigned “rung” on lattice and multiple lattices can be placed beside each other
    Bell-LaPadula - Similar to lattice model but subjects may not create new object or perform specific functions on lower level objects
    Biba Integrity model - Goes beyond BLP model and adds protecting data integrity and confidentiality
    Mandatory Integrity Control (MIC) - Based on Biba model, MIC ensures data integrity by controlling access to securable objects


Role Based Access Control (RBAC)

    Role Based Access Control (RBAC) - Considered more “real-world” access control than other models because of access based on user’s job function within an organization
    Instead of setting permissions for each user or group assigns permissions to particular roles in the organization and then assigns users to those roles
    Objects are set to be a certain type, to which subjects with that particular role have access

Rule-Based Access Control (RBAC)

    Rule-Based Access Control (RBAC) - Dynamically assign roles to subjects based on a set of rules defined by the custodian
    Each resource object contains a set of access properties based on rules
    When a user attempts to access that resource, system checks rules contained in the object to determine if access is permissible


https://www.emaze.com/@ALQOIRLR


  • Confidentiality, integrity and availability, also known as the CIA triad, is a model designed to guide policies for information security within an organization. The model is also sometimes referred to as the AIC triad (availability, integrity and confidentiality) to avoid confusion with the Central Intelligence Agency

In this context, confidentiality is a set of rules that limits access to information, integrity is the assurance that the information is trustworthy and accurate, and availability is a guarantee of reliable access to the information by authorized people.
http://whatis.techtarget.com/definition/Confidentiality-integrity-and-availability-CIA

  • Security Architecture


Although a robust architecture is a good start, real security requires that you have a security architecture in place to control processes and applications. The concepts related to security architecture include the following:

    Protection rings
    Trusted computer base (TCB)
    Open and closed systems
    Security modes
    Recovery procedures

Protection Rings

The operating system knows who and what to trust by relying on rings of protection. Rings of protection work much like your network of family, friends, coworkers, and acquaintances. The people who are closest to you, such as your spouse and family, have the highest level of trust.

In reality, the protection rings are conceptual.
The first implementation of such a system was in MIT’s Multics time-shared operating system.

The protection ring model provides the operating system with various levels at which to execute code or to restrict that code’s access. The rings provide much greater granularity than a system that just operates in user and privileged mode. As code moves toward the outer bounds of the model, the layer number increases and the level of trust decreases


    Layer 0—The most trusted level. The operating system kernel resides at this level. Any process running at layer 0 is said to be operating in privileged mode.
    Layer 1—Contains nonprivileged portions of the operating system.
    Layer 2—Where I/O drivers, low-level operations, and utilities reside.
    Layer 3—Where applications and processes operate. This is the level at which individuals usually interact with the operating system. Applications operating here are said to be working in user mode.

Most systems that are used today operate in two modes: user mode or supervisor (privileged) mode.
Protection rings are part of the trusted computing base concept.

Trusted Computer Base

The trusted computer base (TCB) is the sum of all the protection mechanisms within a computer and is responsible for enforcing the security policy.
This includes hardware, software, controls, and processes.
This includes hardware, firmware, and software
The TCB is responsible for confidentiality and integrity.
The TCB is the only portion of a system that operates at a high level of trust.

It monitors four basic functions:

    Input/output operations—I/O operations are a security concern because operations from the outermost rings might need to interface with rings of greater protection. These cross-domain communications must be monitored.

    Execution domain switching—Applications running in one domain or level of protection often invoke applications or services in other domains. If these requests are to obtain more sensitive data or service, their activity must be controlled.

    Memory protection—To truly be secure, the TCB must monitor memory references to verify confidentiality and integrity in storage.

    Process activation—Registers, process status information, and file access lists are vulnerable to loss of confidentiality in a multiprogramming environment. This type of potentially sensitive information must be protected.


http://www.pearsonitcertification.com/articles/article.aspx?p=1998558&seqNum=3


  • Incident Response – Triage

triage is the first post-detection incident response process any responder will execute to open an incident or false positive
Structuring an efficient and accurate triage process will reduce Analyst Fatigue and ensure that only valid alerts are promoted to “investigation or incident” status.
https://www.syncurity.net/2015/10/07/ir-management-process-triage/

  • Effective security alert triage

the process of quickly and accurately determining the severity of a threat
is a must-have component for every organization

It’s critical that analysts quickly differentiate between security alerts that are actual threats to the organization and those that aren’t.
which alerts require their immediate attention
which ones the team can safely ignore
https://www.lastline.com/blog/effective-security-alert-triage/


  • Incident Response Triage  – identifying, scoping and containing an incident


Incident preparation
The defined incident response standards by NIST and SANS both begin with preparation, which includes having the required tools and logs before an incident occur.

Incident detection and analysis
An incident such as an intrusion or malware outbreak should result in computer incident response team members being notified and communication coordinated between members.
This identification or analysis includes scoping an incident; defining the proportionate response to the impact of an incident and determining the appropriate
scale of the investigation. Scoping should answer the question “what is the goal of the investigation” or what is the desired outcome?

Incident containment
The containment and remediation plan must be based on the findings of the security team’s investigation of the incident. The course of action to follow should be objective and ideally based on multiple independent sources of evidence from the analysis stage


https://community.jisc.ac.uk/blogs/csirt/article/incident-response-triage



  • 6 Phases in the Incident Response Plan

The incident response phases are:

    Preparation
    Identification
    Containment
    Eradication
    Recovery
    Lessons Learned
https://www.securitymetrics.com/blog/6-phases-incident-response-plan
Intelligence Concepts — The SANS Incident Response Process
The Big Picture of the Security Incident Cycle
  • Security Incident Response Industry Standards

- NIST
- US-CERT
- SANS
- veriscommunity



  • An overview of Attack Path Mapping, an asset-centric approach that helps prioritise security spending


Vulnerability-centric testing has limitations and drawbacks
manage a list of Highs, Mediums and Lows which only ever grows, however much remediation effort gets thrown at it
many business managers don't really understand the language of vulnerabilities
increasing security budgets in terms of lists of vulnerabilities
Attack Path Mapping (APM) is an asset-centric approach that helps prioritise investments in controls, mitigations, and remediations
It works by starting with the assets that matter most, or the risks that would hurt the business most
These are then used to map, and validate, all the routes an attacker could use to reach those things
This drives priorities – targeted, precision improvements in terms of what vulnerabilities to fix & what attack paths to close, how to channel potential attackers, what controls to strengthen, where detection needs improving

You can make it harder for attackers to damage the business in the ways that would do most harm
It helps you to detect attackers when they try - and to respond effectively
when the business comes looking for justification of your security spend, you can immediately talk about the things that matter most to them and how you’re going to protect those things.

APM will need your people’s time
To be cost-effective it needs to be done as a white-box, collaborative exercise
If you aren’t yet sure what your organisation’s most important assets are,you might want to consider doing another exercise first - such as a Business Impact Assessment or a Security Maturity Review - which helps define & agree what is most important to your organisation.
if you feel confident your primary assets are already identified, the attack paths well secured, and that you're already prepared to detect and respond to attempted attacks,you might want to consider a Targeted Attack Simulation which will test and further enhance the organisation’s ability to prevent, detect and respond.

https://www.mwrinfosecurity.com/our-thinking/what-is-attack-path-mapping/


  • As attacks and networks become more complex, the possible attack scenarios grow exponentially and evaluating real-world risk levels becomes difficult

NIST’s technique offers a standard model for measuring security in a quantifiable, comparable way.
Called Probabilistic Attack Graphs, it charts the paths through a network used to exploit multiple vulnerabilities, assigning a risk value to each vulnerability that takes into account how easy or likely it is to be exploited at that point in the path.
These metrics can be used to objectively assess the security risks and to evaluate the return on a cybersecurity investment

One limitation of an attack graph is that it assumes a vulnerability can always be exploited
But there is a range of probabilities that vulnerabilities at different steps in the path can be exploited, depending on the skill of the attacker and the difficulty of the exploit
Attack graphs typically show only what is possible rather than what is likely.

Probabilistic attack graphs use the industry standard Common Vulnerability Scoring System as a starting point for quantifying risk, also taking into account the likelihood that a given vulnerability can be exploited given its position in the path being charted

With an objective metric, trade-offs between security costs and benefits can be analyzed, so organizations can spend their money on security measures that pay off.
An automatic attack-graph generator can identify obscure attack possibilities arising from intricate security interactions within an enterprise network that could be easily overlooked by a human analyst.
https://gcn.com/Articles/2011/10/04/NIST-attack-graphs-measure-cyber-risks.aspx


  • To more accurately  assess  the  security  of enterprise  systems, one  must  understand  how  vulnerabilities  can  be combinedand  exploited to stage  an attack.

Composition  of  vulnerabilities can  be  modeled  usingprobabilistic attack  graphs,  whichshow  all paths  of  attacks  that  allow  incrementalnetwork  penetration.
Attack  likelihoods are  propagated through the attack graph, yielding a novelway to measurethe security risk of enterprise systems
This metric for risk  mitigation  analysis is  used to maximizethe securityof  enterprise  systems
This methodology  based on probabilistic attackgraphs  canbe  used  to  evaluate and  strengthenthe  overall  security of  enterprise networks.
Federal agencies seekinginformation on how to useprobabilistic attack graphs for security risk analysisof their enterprise networks

The  objective  of  our  research  was  to  develop  a  standard  model  for measuring  security  of  computer  networks. A  standard  model  will  enable  usto  answer  questions  such  as
“Are we more secure than yesterday?”
“How does the security of one network configuration compare with  another?”


the challenges for security risk analysis of enterprise networks
Security vulnerabilities are rampant:
Security vulnerabilities are rampant:CERT1reports about a hundred new security vulnerabilities each week. It becomes difficult to manage the security of an enterprise network (with hundreds of hosts and different operating systems and applications on each host) in the presence of  software vulnerabilities that can be exploited.
Attackers  launch  complex  multi-step  cyber  attacks: Cyber  attackers  can  launch  multi-step  and multi-host  attacks  that  can  incrementally  penetrate  the  network  with  the  goal  of  eventually compromising  critical  systems.
Current attack detection methods cannot deal with the complexity of attacks: Traditional  approaches  to  detecting  attacks  (using  an Intrusion Detection System) have problems such as too many false positives, limited scalability, and limits on detecting attacks

Decision makers can therefore avoid over  investing  in  security  measures  that  do  not  pay  off,  or  under  investing  and  risk  devastating consequences

Attack graphs model how multiple  vulnerabilities  may  be  combined  for  an  attack.
They represent system states using a collection of security-related conditions, such as the existence of vulnerability on a particular host  or  the  connectivity  between  different  hosts.
Vulnerability exploitation is  modeled  as  a transition between system states

Tools for Generating Attack Graphs
TVA (Topological Analysis of Network Attack Vulnerability)
NETSPA (A Network Security Planning Architecture)
MULVAL (Multihost, multistage, Vulnerability Analysis)


https://nvlpubs.nist.gov/nistpubs/Legacy/IR/nistir7788.pdf


  • Cybersecurity Framework Version 1.1
https://www.nist.gov/cyberframework/framework

  • WHAT IS THE FRAMEWORK?
The Framework is voluntary guidance, based on existing standards, guidelines, and practices for organizations to better manage and reduce cybersecurity risk. In addition to helping organizations manage and reduce risks, it was designed to foster risk and cybersecurity management communications amongst both internal and external organizational stakeholders

AN INTRODUCTION TO THE COMPONENTS OF THE FRAMEWORK

The Cybersecurity Framework consists of three main components: the Core, Implementation Tiers, and Profiles.

The Framework Core provides a set of desired cybersecurity activities and outcomes using common language that is easy to understand.   The Core guides organizations in managing and reducing their cybersecurity risks in a way that complements an organization’s existing cybersecurity and risk management processes.

The Framework Implementation Tiers assist organizations by providing context on how an organization views cybersecurity risk management. The Tiers guide organizations to consider the appropriate level of rigor for their cybersecurity program and are often used as a communication tool to discuss risk appetite, mission priority, and budget.

Framework Profiles are an organization’s unique alignment of their organizational requirements and objectives, risk appetite, and resources against the desired outcomes of the Framework Core.  Profiles are primarily used to identify and prioritize opportunities for improving cybersecurity at an organization. 

https://www.nist.gov/cyberframework/getting-started








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