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Chapter 73: 73:Breach Protector



And thus, he had now acquired a huge supply of tea leaves, enough to last for a whole year.

Evan stayed back to oversee things a bit.

He didn\'t want to dump everything on Ryan right away. Though the loyalty contract mitigated the concerns about any kind of betrayal, Evan still needed to make sure that Ryan could do the work properly.

Also, not to forget, he was the only who had full knowledge of cultivation of Spirit Vitalizing Tea.

As anticipated, Ryan was troubled by the sudden job change as he struggled to cope up with it, and if Evan had to rate him on a scale of ten, it would be a 6 if he was being generous, otherwise, honestly, it was a 4.

However...

Being a detective, and having good observation skills, Ryan\'s growth was quite noticeable to Evan.

Ryan absorbed knowledge in no time and got acknowledgement from the labourers and the people around him.

Evan brought a few trucks and drivers for transportation purposes, thinking that since he was there, it was better to finish all the small tasks.

Who knew that instead of delivering the product to the said destination, the driver in charge of transporting the tea later would send it somewhere else?

And what if the driver put a few illegal substances and his things were to get seized by the authorities, creating more problems?

Evan was slowly getting the hang of high society, where tricks like these were common.

Just throw some money and get the job done.

Wickedness and treachery knew no bounds when it came to human greed.

While going through all of this, Evan wasn\'t just daydreaming and spending his days idly like a sloth.

In the meantime, he worked on his programming skills and came up with another app.

–Breach Protector...

While creating CodeZipper, he discovered this to use it for encasing the system as a shield but it still had many loopholes.

Using compression alone wasn\'t suitable for securing a firewall system. Firewalls relied on robust security practices such as encryption, access controls, intrusion detection/prevention systems, and regular updates to ensure protection against breaches. These measures were essential for safeguarding sensitive data and systems from unauthorized access or attacks.

So, keeping all this in mind, he used his knowledge to craft another app and software.

With a keen focus on security, Evan meticulously wrote each component to fortify against modern cyber threats.

–Encryption Fortification…

Evan\'s first stroke of brilliance was the integration of AES encryption standards into the Breach Protector. This robust encryption ensured that sensitive data within the firewall system remained impervious to any unauthorized access, regardless of where the threats originated from.

–Vigilant Data Flow Monitoring…

Understanding the importance of continuous vigilance, Evan engineered the Breach Protector to meticulously monitor data inflows and outflows. Through deep packet inspection (DPI) and sophisticated behavioural analysis, the application would track every byte, distinguishing between legitimate traffic and potential threats.

–Real-Time Threat Detection...

To preemptively thwart any of the attacks, Evan incorporated real-time alert mechanisms where Breach Protector would instantly flag any suspicious activities such as unauthorized access attempts or anomalies in data transmissions. These alerts were seamlessly related to system administrators, empowering swift responses to emerging threats.

–Comprehensive Tracking and Auditing

Evan\'s ingenuity extended further to developing a comprehensive tracking and auditing system within Breach Protector, which would meticulously log all the data exports, creating an audit trail that was essential for forensic analysis and ensuring accountability in the event of security breaches.

–Geo-Location Mastery

One of Evan\'s crowning achievements was enhancing Breach Protector\'s ability to determine the destination country of outgoing data. By leveraging the advanced IP geolocation techniques, the application could accurately pinpoint where data was transmitted to, facilitating regulatory compliance requirements and enhancing security monitoring capabilities.

However, this wasn\'t the end.

Engrossed in his work, Evan took it a step further...

No, it wouldn\'t be wrong to say that he had taken it too much ahead.

He planned to create software that would protect against the intrusion of malicious instructions, but now, he had added a mechanism that could track, and monitor all the data that would be imported and explored.

He introduced another preliminary code, and developed an entirely different software model of Tracking Mechanisms:

–IP Address Monitoring...

Breach Protector would monitor IP addresses accessing the firewall system and track incoming and outgoing connections to detect suspicious activities or unauthorized access attempts

______

[If you are not aware of the meaning, here is a short summary.]

Denial-of-Service (DoS) Detection: Utilizes anomaly detection techniques to identify and mitigate DoS attacks. It monitors traffic patterns and behaviour to distinguish between legitimate and malicious traffic, ensuring continuous availability of services.

Behavioural Analysis: Analyzes patterns of data access and transmission to detect deviations from normal behaviour. This helps in identifying potential insider threats or external attacks attempting to exploit vulnerabilities in the firewall system.

Real-time Alerts: Generates immediate alerts and notifications upon detecting suspicious activities or breaches. Alerts are sent to system administrators or designated personnel for prompt investigation and response.

Breach Protector: Secure Firewall Management and Data Monitoring Application

AES (Advanced Encryption Standard): A widely-used encryption algorithm capable of securely encrypting sensitive data to prevent unauthorized access.

Deep Packet Inspection (DPI): A method used to inspect and analyze the contents of data packets as they pass through a network firewall, enabling detailed inspection and filtering based on packet content.

Behavioral Analysis: The process of analyzing patterns of data access and transmission to detect deviations from normal behavior, which may indicate potential security threats or anomalies.

Real-time Alerts: Immediate notifications are generated by a security system or application to alert administrators or users about potential security incidents or suspicious activities as they occur.

Tracking and Auditing: Definition:** Monitoring and recording activities within a system or network to create an audit trail. This helps maintain accountability, detect security breaches, and facilitate forensic investigations.

IP Geolocation: The technique of determining the geographic location of a device or IP address connected to the internet. It uses databases or services that map IP addresses to specific geographic locations.

SIEM (Security Information and Event Management): A technology solution that aggregates and analyzes security event data from various sources across a network to provide actionable insights, detect threats, and facilitate incident response.

Data Leakage Prevention (DLP): Techniques and tools designed to prevent sensitive data from being transmitted outside of a network perimeter without authorization, thereby protecting against data breaches.

Intrusion Detection System (IDS): A security system that monitors network traffic for suspicious activities or policy violations. It generates alerts when potential security threats or unauthorized access attempts are detected.

Intrusion Prevention System (IPS): An advanced security technology that not only detects suspicious activities or policy violations but also actively blocks or prevents them from occurring within a network or system.


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