Secure-102

This project aims to create a secure communication system between the university entity and its students and professors. The system operates on a client-server architecture, prioritizing information security through various encryption technologies.

Key features include:

Client-Server Architecture:
The system comprises a server responsible for handling requests from clients (students and professors). Concurrency Handling: The server is designed to efficiently handle multiple client connections simultaneously.
Concurrency Handling:

The server is designed to efficiently handle multiple client connections simultaneously.

Information Security:
The system employs encryption technologies to ensure confidentiality, integrity, non-repudiation, authentication, and authorization.
Encryption Technologies:
1. Data Encryption:
  - Symmetric Encryption:
  Utilized to encrypt data transmitted between clients and the server. Symmetric encryption employs a single shared key for both encryption and decryption.
  - Hybrid Encryption:
  A combination of symmetric and asymmetric encryption techniques. Symmetric encryption is used for data encryption, while asymmetric encryption (e.g., PGP) is utilized for key exchange.
2. Digital Signatures:
  - Integrity Verification: Professors can digitally sign data using cryptographic algorithms to ensure the data's integrity and authenticate its origin.
  - Non-Repudiation: Digital signatures provide proof of the signer's identity and prevent them from denying their involvement in the signed data.
3. Certificate-based Authentication:
  - Client Authentication: Clients and professors are authenticated using digital certificates issued by a trusted Certificate Authority (CA). These certificates verify the identities of clients and professors, enhancing the system's security.
  - Server Authentication: The server presents its digital certificate to clients during the authentication process, ensuring clients are connecting to the legitimate server and not a malicious entity.

Usage:

Clone the repository.
Run the server application.
Clients can connect to the server using their credentials.
Follow the authentication process to access the university system securely.

Name		Name	Last commit message	Last commit date
Latest commit History 5 Commits
controllers		controllers
middleware		middleware
models		models
routes		routes
utils		utils
.gitignore		.gitignore
README.md		README.md
app.js		app.js
index.js		index.js
package-lock.json		package-lock.json
package.json		package.json

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Secure-102

Key features include:

Client-Server Architecture:

Concurrency Handling:

Information Security:

Encryption Technologies:

Data Encryption:

Symmetric Encryption:

Hybrid Encryption:

Digital Signatures:

Integrity Verification: Professors can digitally sign data using cryptographic algorithms to ensure the data's integrity and authenticate its origin.

Non-Repudiation: Digital signatures provide proof of the signer's identity and prevent them from denying their involvement in the signed data.

Certificate-based Authentication:

Client Authentication: Clients and professors are authenticated using digital certificates issued by a trusted Certificate Authority (CA). These certificates verify the identities of clients and professors, enhancing the system's security.

Server Authentication: The server presents its digital certificate to clients during the authentication process, ensuring clients are connecting to the legitimate server and not a malicious entity.

Usage:

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