Posted: February 28th, 2023
Transcript
You are an enterprise security architect for a company in a semiconductor manufacturing industry where maintaining competitive advantage and protecting intellectual property is vital. You’re in charge of security operations and strategic security planning. Your responsibilities include devising the security protocols for identification, access, and authorization management.
You recently implemented cryptography algorithms to protect the information organization. Leadership is pleased with your efforts and would like you to take protection methods even further. They’ve asked you to study cyberattacks against different cryptography mechanisms and deploy access control programs to prevent those types of attacks.
“We’d like you to create plans for future security technology deployments,” says one senior manager, “and provide documentation so that others can carry out the deployments.” A director chimes in: “But you should also devise a method for ensuring the identification, integrity, and nonrepudiation of information in transit at rest and in use within the organization.”
As the enterprise security architect, you are responsible for providing the following deliverables:
Create a network security vulnerability and threat table in which you outline the security architecture of the organization, the cryptographic means of protecting the assets of the organizations, the types of known attacks against those protections, and means to ward off the attacks. This document will help you manage the current configuration of the security architecture.
Create a Common Access Card, CAC deployment strategy, in which you describe the CAC implementation and deployment and encryption methodology for information security professionals.
Create an email security strategy in which you provide the public key/private key hashing methodology to determine the best key management system for your organization. These documents will provide a security overview for the leadership in your company.
Encryption uses cryptographic algorithms to obfuscate data. These complex algorithms transform data from human-readable plaintext into encrypted cipher text. Encryption uses the principles of substitution and permutation to ensure that data is transformed in a nondeterministic manner by allowing the user to select the password or a key to encrypt a message. The recipient must know the key in order to decrypt the message, translating it back into the human-readable plaintext.
There are six steps that will lead you through this project. After beginning with the workplace scenario, continue to Step 1: IT Systems Architecture.
You are a senior-level employee, and you must tailor your deliverables to suit your audience: the leadership of the organization. You may choose to use a fictitious organization, or model your organization on an existing organization. Remember that your deliverables should include proper citations.
Leadership is not familiar with the architecture of the IT systems, nor are they familiar with the types of threats that are likely or the security mechanisms in place to ward off those threats. You will provide this information in tabular format and call it the Network Security and Vulnerability Threat Table. Refer to this
threat table template
for guidance on creating this document.
Before you begin, select the links below to review some material on information security. These resources will help you complete the network security and vulnerability threat table.
·
LAN security
·
availability
Now you’re ready to create your table. Include and define the following components of security in the architecture of your organization, and explain if threats to these components are likely, or unlikely:
· LAN security
· identity management
· physical security
· personal security
· availability
· privacy
Next, review the different types of cyberattacks described in the following resource:
cyberattacks
. As you’re reading take note of which attacks are most likely to affect your organization. Then list the security defenses you employ in your organization to mitigate these types of attacks. Include this information in your Network Security and Vulnerability Threat Table.
This hands-on lab will introduce you to Microsoft BitLocker drive encryption as a full-featured drive encryption tool to protect user computers from data exfiltration and other attacks. Given the alarming rate of high-profile breaches, using BitLocker to protect sensitive data is something to which you, the government agencies, and the commercial and private organizations should give serious consideration.
You will develop a disk encryption report, in addition to the project-specific requirements such as common access card deployment and email security strategy. Then incorporate your findings into the project deliverables and compile your project report for submission. Additionally, you will have to provide the leadership of your organization with your plan for data protection
Step 3:
Data Hiding Technologies
You will describe to your organization the various cryptographic means of protecting its assets. Select the links below to review encryption techniques and encryption technologies, then provide your organization with a brief overview of each.
Encryption technologies
1.
shift/Caesar cipher
2.
polyalphabetic cipher
3.
one-time pad cipher/Vernam cipher/perfect cipher
4.
block ciphers
5.
triple DES
6.
RSA
7.
Advanced Encryption Standard (AES)
8.
symmetric encryption
9.
texture block coding
Data Hiding Technologies
1.
information hiding
and steganography
2.
digital watermarking
3.
masking and filtering
These descriptions will be included in the network security vulnerability and threat table for leadership
Using the information you’ve gathered from the previous steps, prepare the network security vulnerability and threat table, in which you outline the following:
· security architecture of the organization
· the cryptographic means of protecting the assets of the organization
· the types of known attacks against those types of protections
· means to ward off the attacks
Create your Network Security Vulnerability and Threat Table and include it in your submission to the organization. Refer to this
threat table template
for guidance on creating this document
Smart cards use encryption chips to identify the user’s identity, role, and sometimes use the user’s personal identifiable information (PII).
Two examples of smart cards are the federal government’s use of Common Access Cards (CACs), and the financial sector’s use of encryption chips in credit cards.
You have completed your threat table, and you’ve decided that you want to modernize the access control methods for your organization. To that end, read the following resources to gather some background information on access control and the various encryption schemas associated with a CAC:
·
access control
·
Common Access Card (CAC)
You plan to deploy CAC to the company and you are tasked with devising that CAC deployment strategy, which includes the cryptographic solutions used with the CAC.
In the Common Access Card Deployment Strategy final deliverable, describe how identity management would be a part of your overall security program and your CAC deployment plan:
Create your Common Access Card Deployment Strategy and include it in your submission to the organization.
After completing the CAC, your next step is to build the Secure Email Strategy for the organization. You will present this tool to your leadership.
Provide an overview of the types of public-private key pairing, and show how this provides authentication and nonrepudiation. You will also add hashing and describe how this added security benefit ensures the integrity of messaging.
Begin preparing your strategy by reviewing the following resources that will aid you in becoming well informed on encryption technologies for email:
·
public key infrastructure (PKI)
·
iOS encryption
Then start developing your strategy. Define these strong encryption technologies as general principles in secure email:
Pretty Good Policy (PGP algorithm)
· GNU Privacy Guard (GPG)
· public key infrastructure (PKI)
· digital signature
· mobile device encryption (e.g., iOS encryption and Android encryption)
In your report, also consider how the use of smart card readers tied to computer systems might be beneficial in the future enhancements to system and data access protection. This may help you define long-term solutions for your leadership.
Leadership does not know the costs and technical complexity of these email encryption strategies. To further their understanding, compare the complexities of each in relation to the security benefits, and then make a recommendation and a deployment plan.
The deliverables for this project are as follows:
1. Create a single report in Word document format. This report should be about 10 pages long, double-spaced, with citations in APA format. Page count does not include diagrams or tables. The report must cover the following:
· network security and threat table
· Common Access Card deployment strategy
· email security strategy
2. In a Word document, share your lab experience and provide screenshots to demonstrate that you performed the lab.
Submit your deliverables after reading the instructions below.
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