24/7 — Client Support

+1(304) 900-6229

  Prepare First, download and install CrypTool.If using a Windows® PC, install CrypTool 1.  If using a MAC PC, install JCrypTool.Note: In order for



First, download and install CrypTool.

  • If using a Windows® PC, install CrypTool 1.
  •  If using a MAC PC, install JCrypTool.

Note: In order for the CrypTool program to function, you must first OPEN a text file. Only then will items on the toolbar become enabled.

Additional information for this assignment is covered in the Assignment 3 — CrypTool Lab document.

Part 1.1

  1. Identify the digital signature schemes and MAC schemes that are supported by CrypTool. For each scheme, determine the key sizes supported by CrypTool and which key sizes are recommended by NIST.
  2. Encrypt text using two digital signature schemes, measure the execution time for key generation (if applicable), signature generation, and signature verification. Measurements should be performed multiple times, and then the analysis should use the average time for comparisons. In order to obtain measurable results, you will likely need to use long messages (i.e., 5 MB or larger).
  3. Record results and draw conclusions. Identify the encryption algorithm used. Discuss the results of the measurements and any variations or trends observed when comparing the results from the group members. Report the results and the analysis. Be sure to include details on the measured results and details on each member’s computer (i.e., processor type, speed, cache size, RAM size, OS, etc.).

Part 1.2

  1. Using CrypTool, generate an MD5 hash for a small plaintext document.
  2. Record the hash result (cut and paste).
  3. Change one character in the plaintext and regenerate a hash on the changed text.
  4. Record the hash (cut and paste into your report).
  5. Do you think you could find a hash collision (that is, can you find two different texts that produce the same hash)? Experiment a few times and draw a conclusion about whether this can be done easily.

Part 1.3

  1. Generate a large prime (at least 20 digits long) and a short prime (less than 10 digits in length) (HINT: Individual Procedures \ RSA Cryptosystem \ Generate prime numbers).
  2. Determine which factorization algorithms are implemented within CrypTool (Indiv. Procedures -> RSA Demonstration -> Factorization of a Number).
  3. Identify the characteristic features of these algorithms by reading the “Factorization algorithms” help within the tutorials section of CrypTool’s built-in help.
  4. Try to factor the primes using some of these methods.
  5. Report your results, identifying the methods you used. Be sure to include how long the factorization took (or how long it was estimated to take if it was not completed in a reasonable time).
  6. Now, just enter numeric values to be factored (again, one long number and one short one).
  7. What are the results? Were factors found? Are you good at guessing prime numbers?

Share This Post


Order a Similar Paper and get 15% Discount on your First Order

Related Questions

Operational Excellence Week 2 AssignmentInformation

Operational Excellence Week 2 Assignment Information Systems for Business and Beyond Questions: · Chapter 3 – study questions 1-8, Exercise 2, 4 & 5 Information Technology and Organizational Learning Assignment: Chapter 3 – Complete the two essay assignments noted below:  · Review the strategic integration section.  Note what strategic integration is and how

Operational Excellence Week 2 Assignmentinformation

Operational Excellence Week 2 Assignment information Systems for Business and Beyond Questions · Chapter 2 – study questions 1-10, Exercise 2      Information Technology and Organizational Learning Questions · Chapter 2 – Note why the IT organizational structure is an important concept to understand.  Also, note the role of

Pg. 01Project I ProjectDeadline: Sunday 12/5/2024 @ 23:59[Total

Pg. 01 Project I Project Deadline: Sunday 12/5/2024 @ 23:59 [Total Mark is 14] Introduction to Database IT244 College of Computing and Informatics Project Instructions · You can work on this project as a group (minimum 2 and maximum 3 students). Each group member must submit the project individually with