2023 NSK100 Dumps PDF - NSK100 Real Exam Questions Answers [Q27-Q45]

2023 NSK100 Dumps PDF - NSK100 Real Exam Questions Answers

Valid NSK100 Test Answers & Netskope NSK100 Exam PDF

NEW QUESTION # 27
You are working with a large retail chain and have concerns about their customer data. You want to protect customer credit card data so that it is never exposed in transit or at rest. In this scenario, which regulatory compliance standard should be used to govern this data?

• A. ISO 27001
• B. SOC 3
• C. AES-256
• D. PCI-DSS

Answer: D

Explanation:
Explanation
PCI-DSS stands for Payment Card Industry Data Security Standard, which is a set of security requirements for organizations that handle credit card data. It aims to protect cardholder data from unauthorized access, disclosure, or theft, both in transit and at rest. PCI-DSS covers various aspects of security, such as encryption, authentication, firewall, logging, monitoring, andincident response. If you are working with a large retail chain and have concerns about their customer data, you should use PCI-DSS as the regulatory compliance standard to govern this data. SOC 3, AES-256, and ISO 27001 are not specific to credit card data protection, although they may have some relevance to general security practices. References: [PCI-DSS], [SOC 3], [AES-256],
[ISO 27001].

NEW QUESTION # 28
Which three statements are correct about Netskope's NewEdge Security Cloud Network Infrastructure?
(Choose three.)

• A. It is a private security cloud network that is massively over provisioned, highly elastic, and built for scale.
• B. It simplifies the administrator's job by limiting access to pre-defined availability zones.
• C. It delivers a single, unified network with no surcharges or reliance on public cloud infrastructure or virtual PoPs.
• D. It includes direct peering with Microsoft and Google in every data center.
• E. It takes advantage of the public cloud by deploying security services on Google Cloud Platform.

Answer: A,C,D

Explanation:
Explanation
Netskope's NewEdge Security Cloud Network Infrastructure is a global network that powers the Netskope Security Cloud, providing real-time inline and out-of-band API-driven services for cloud and web security.
Three statements that are correct about Netskope's NewEdge Security Cloud Network Infrastructure are:
It includes direct peering with Microsoft and Google in every data center. This means that Netskope has established high-speed, low-latency connections with these major cloud service providers, ensuring optimal performance and user experience for their customers. Direct peering also reduces the risk of network congestion, packet loss, or routing issues that may affect the quality of service.
It is a private security cloud network that is massively over provisioned, highly elastic, and built for scale. This means that Netskope owns and operates its own network infrastructure, without relying on third-party providers or public cloud platforms. Netskope has invested over $150 million to build the world's largest and fastest security private cloud, with data centers in more than 65 regions and growing.
Netskope can dynamically scale its network capacity and resources to meet the growing demand and traffic volume of its customers, without compromising on security or performance.
It delivers a single, unified network with no surcharges or reliance on public cloud infrastructure or virtual PoPs. This means that Netskope provides a consistent and transparent network service to its customers, regardless of their location or device. Netskope does not charge any additional fees or hidden costs for accessing its network services, unlike some other providers that may impose surcharges based on geography or bandwidth usage. Netskope also does not use virtual points of presence (PoPs) that are hosted on public cloud platforms, which may introduce latency, complexity, or security risks.
References: Netskope NewEdgeNetskope NewEdge Data SheetNetskope SASE

NEW QUESTION # 29
You want to use an out-of-band API connection into your sanctioned Microsoft 365 OneDrive for Business application to find sensitive content, enforce near real-time policy controls, and quarantine malware.
In this scenario, which primary function in the Netskope platform would you use to connect your application to Netskope?

• A. laaS API-enabled Protection
• B. Risk Insights
• C. SaaS API-enabled Protection
• D. DLP forensics

Answer: C

Explanation:
Explanation
SaaS API-enabled Protection is a primary function in the Netskope platform that allows customers to connect their sanctioned SaaS applications to Netskope using out-of-band API connections. This enables customers to find sensitive content, enforce near real-time policycontrols, and quarantine malware in their SaaS applications without affecting user experience or performance. If you want to use an out-of-band API connection into your sanctioned Microsoft 365 OneDrive for Business application to achieve these goals, you should use SaaS API-enabled Protection as the primary function in the Netskope platform. DLP forensics, Risk Insights, and IaaS API-enabled Protection are not primary functions in the Netskope platform that can be used to connect your application to Netskope. References: [Netskope SaaS API-enabled Protection].

NEW QUESTION # 30
You want to enable Netskope to gain visibility into your users' cloud application activities in an inline mode.
In this scenario, which two deployment methods would match your inline use case? (Choose two.)

• A. Use an API connector
• B. Use a forward proxy.
• C. Use a log parser.
• D. Use a reverse proxy.

Answer: B,D

Explanation:
Explanation
To enable Netskope to gain visibility into your users' cloud application activities in an inline mode, you need to use a deployment method that allows Netskope to intercept and inspect the traffic between your users and the cloud applications in real time. Two deployment methods that would match your inline use case are: use a forward proxy and use a reverse proxy. A forward proxy is a deployment method that allows Netskope to act as a proxy server for your users' outbound traffic to the internet. You can configure your users' devices or browsers to send their traffic to Netskope's proxy server, either manually or using PAC files or VPN profiles.
A reverse proxy is a deployment method that allows Netskope to act as a proxy server for your users' inbound traffic from specific cloud applications. You can configure your cloud applications to redirect their traffic to Netskope's proxy server, either using custom URLs or certificates. Using an API connector or a log parser are not deployment methods that would match your inline use case, as they are more suitable for out-of-band modes that rely on accessing data and events from the cloud applications using APIs or logs, rather than intercepting traffic in real time. References: [Netskope Inline CASB], Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 3: Steering Configuration, Lesson 4: Forward Proxy and Lesson 5: Reverse Proxy.

NEW QUESTION # 31
Which two cloud security and infrastructure enablement technologies does Secure Access Service Edge (SASE) combine into its unified platform? (Choose two.)

• A. Unified Threat Management (UTM)
• B. Distributed Denial of Service Protection (DDoS)
• C. Zero Trust Network Access (ZTNA)
• D. Cloud Access Security Broker (CASB)

Answer: C,D

Explanation:
Explanation
Secure Access Service Edge (SASE) is a cloud-based architecture that combines various cloud security and infrastructure enablement technologies into a unified platform that delivers security and networking services from the edge of the network. Two of these technologies are Zero Trust Network Access (ZTNA) and Cloud Access Security Broker (CASB). ZTNA is a technology that provides secure access to private applications without exposing them to the internet or using VPNs. It uses identity-based policies and encryption to grant granular access to authorized users and devices, regardless of their location or network. CASB is a technology that provides visibility and control over cloud applications (SaaS) used by users and devices. It uses API connections or inline proxies to inspect and enforce policies on data and activities in cloud applications, such as data loss prevention, threat protection, or compliance. Distributed Denial of Service Protection (DDoS) and Unified Threat Management (UTM) are not technologies that SASE combines into its unified platform, although they may be related or integrated with some of its components. References: [SASE], [ZTNA],
[CASB].

NEW QUESTION # 32
You need to block all users from uploading data files into risky collaboration applications. Which element must you configure within Netskope's CASB to accomplish this task?

• A. DLP Rule
• B. block notification
• C. DLP Profile
• D. real-time policy

Answer: D

Explanation:
Explanation
A real-time policy is a type of policy in Netskope's CASB that allows you to control the actions that users can perform on cloud applications in real time. You can use a real-time policy to block all users from uploading data files into risky collaboration applications by specifying the following elements: the application category (such as Collaboration), the activity (such as Upload), the file type (such as Data), the risk level (such as High or Very High), and the action (such as Block). A DLP rule, a DLP profile, and a block notification are not sufficient to accomplish this task, as they are either sub-components or outcomes of a real-time policy. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 5: Real-Time Policies, Lesson 1: Real-Time Policy Overview and Lesson 2: Real-Time Policy Configuration.

NEW QUESTION # 33
Which two technologies form a part of Netskope's Threat Protection module? (Choose two.)

• A. log parser
• B. sandbox
• C. heuristics
• D. DLP

Answer: B,C

Explanation:
Explanation
To protect your users from malicious scripts that may be downloaded from websites, you need to use technologies that can detect and prevent malware, ransomware, phishing, and other advanced threats in web traffic. Two technologies that form a part of Netskope's Threat Protection module, which is a feature in the Netskope platform that provides these capabilities, are sandbox and heuristics. Sandbox is a technology that allows Netskope to analyze suspicious files or URLs in a virtual environment isolated from the rest of the network. It simulates the execution of the files or URLs and observes their behavior and impact on the system.
It then generates a verdict based on the analysis and blocks any malicious files or URLsfrom reaching your users or devices. Heuristics is a technology that allows Netskope to identify unknown or emerging threats based on their characteristics or patterns, rather than relying on predefined signatures or rules. It uses machine learning and artificial intelligence to analyze various attributes of files or URLs, such as file type, size, entropy, metadata, code structure, etc., and assigns a risk score based on the analysis. It then blocks any files or URLs that exceed a certain risk threshold from reaching your users or devices. A log parser or DLP are not technologies that form a part of Netskope's Threat Protection module, as they are more related to discovering cloud applications or protecting sensitive data. References: [Netskope Threat Protection], Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 9: Threat Protection.

NEW QUESTION # 34
Your company asks you to obtain a detailed list of all events from the last 24 hours for a specific user. In this scenario, what are two methods to accomplish this task? (Choose two.)

• A. Export the data from Skope IT Application Events.
• B. Use the Netskope reporting engine.
• C. Export the data from Skope IT Alerts.
• D. Use the Netskope REST API.

Answer: A,D

Explanation:
Explanation
In this scenario, there are two methods to obtain a detailed list of all events from the last 24 hours for a specific user. One method is to export the data from Skope IT Application Events, which is a feature in the Netskope platform that allows you to view and analyze all the activities performed by users on cloud applications. You can use filters to narrow down your search by user name, time range, application, activity, and other criteria. You can then export the data to a CSV or JSON file for further analysis or reporting.
Another method is to use the Netskope REST API, which is a programmatic interface that allows you to access and manipulate data from the Netskope platform using HTTP requests. You can use the API to query for events by user name, time range, application, activity, and other parameters. You can then retrieve the data in JSON format for further analysis or integration with other tools. Using the Netskope reporting engine or exporting the data from Skope IT Alerts are not methods to obtain a detailed list of all events from the last 24 hours for a specific user, as they are more suited for generating summary reports or alerts based on predefined criteria or thresholds, rather than granular event data. References: [Netskope Skope IT Application Events],
[Netskope REST API].

NEW QUESTION # 35
In the Skope IT interface, which two event tables would be used to label a cloud application instance? (Choose two.)

• A. Network Events
• B. Page Events
• C. Application Events
• D. Alerts

Answer: B,C

Explanation:
Explanation
In the Skope IT interface, which is a feature in the Netskope platform that allows you to view and analyze all the activities performed by users on cloud applications, there are two event tables that would be used to label a cloud application instance: Page Events and Application Events. Page Events are events that capture the URL and category of the web pages visited by users, as well as the time spent and the bytes transferred on each page. Application Events are events that capture the details of the actions performed by users on cloud applications, such as upload, download, share, edit, delete, etc. You can use these event tables to label a cloud application instance by applying filters based on the domain name or URL of the instance, such as drive.google.com/a/yourcompany.com or slack.com/yourteam. You can then assign a custom label to the filtered events and use it for reporting or policy enforcement. Network Events and Alerts are not event tables that would be used to label a cloud application instance, as they are more related to network traffic or policy violations, rather than cloud application activities. References: [Netskope Skope IT], Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 8: Skope IT.

NEW QUESTION # 36
You need to provide a quick view under the Skope IT Applications page showing only risky shadow IT cloud applications being used.
In this scenario, which two filter combinations would you use to accomplish this task? (Choose two.)

• A. Sanctioned = No
• B. CCL = Medium. Low, Poor
• C. CCL = High. Under Research
• D. User Device Type = Windows Device

Answer: A,B

Explanation:
Explanation
To provide a quick view under the Skope IT Applications page showing only risky shadow IT cloud applications being used, you can use two filter combinations: Sanctioned = No and CCL = Medium, Low, Poor. The Sanctioned filter allows you to select whether you want to see only sanctioned or unsanctioned apps in your organization. Sanctioned apps are those that are approved and managed by your IT department, while unsanctioned apps are those that are used without authorization or oversight by your employees. Shadow IT refers to the use ofunsanctioned apps that may pose security or compliance risks for your organization. The CCL filter allows you to select the Cloud Confidence Level (CCL) ratings of the apps you want to see. The CCL rating is a measure of how enterprise-ready a cloud app is based on various criteria such as security, auditability, business continuity, etc. The CCL rating ranges from Excellent to Poor, with Excellent being the most secure and compliant and Poor being the least. Risky cloud apps are those that have a low CCL rating, such as Medium, Low, or Poor. By applying these two filters, you can narrow down the list of apps to only those that are unsanctioned and have a low CCL rating, which indicates that they are risky shadow IT cloud applications being used in your organization. References: SkopeIT ApplicationsNetskope Cloud Confidence Index

NEW QUESTION # 37
A customer wants to detect misconfigurations in their AWS cloud instances.
In this scenario, which Netskope feature would you recommend to the customer?

• A. Netskope Advanced DLP and Threat Protection
• B. Netskope SaaS Security Posture Management (SSPM)
• C. Netskope Cloud Security Posture Management (CSPM)
• D. Netskope Secure Web Gateway (SWG)

Answer: C

Explanation:
Explanation
If a customer wants to detect misconfigurations in their AWS cloud instances, the Netskope feature that I would recommend to them is Netskope Cloud Security Posture Management (CSPM). Netskope CSPM is a service that provides continuous assessment and remediation of public cloud deployments for risks, threats, and compliance issues. Netskope CSPM leverages the APIs available from AWS and other cloud service providers to scan the cloud infrastructure for misconfigurations, such as insecure permissions, open ports, unencrypted data, etc. Netskope CSPM also provides security posture policies, profiles, and rules that can be customized to match the customer's security standards and best practices. Netskope CSPM can also alert, report, or remediate the misconfigurations automatically or manually. References: Netskope CSPMCloud Security Posture Management

NEW QUESTION # 38
When using an out-of-band API connection with your sanctioned cloud service, what are two capabilities available to the administrator? (Choose two.)

• A. to find sensitive content
• B. to allow real-time access
• C. to quarantine malware
• D. to block uploads

Answer: A,C

Explanation:
Explanation
When using an out-of-band API connection with your sanctioned cloud service, two capabilities available to the administrator are: to quarantine malware and to find sensitive content. An out-of-band API connection is a method of integrating Netskope with your cloud service provider using the APIs exposed by the cloud service.
This allows Netskope to access the data that is already stored in the cloud service and perform retrospective inspection and enforcement ofpolicies. One capability that the administrator can use with an out-of-band API connection is to quarantine malware. This means that Netskope can scan the files in the cloud service for malware, ransomware, phishing, and other threats, and move them to a quarantine folder or delete them if they are found to be malicious. Another capability that the administrator can use with an out-of-band API connection is to find sensitive content. This means that Netskope can scan the files in the cloud service for sensitive data, such as personal information, intellectual property, or regulated data, and apply data loss prevention (DLP) policies to protect them. For example, Netskope can encrypt, redact, or watermark the files that contain sensitive content, or notify the administrator or the file owner about the exposure. References: Netskope API ProtectionReal-time Control and Data Protection via Out-of-Band API

NEW QUESTION # 39
You investigate a suspected malware incident and confirm that it was a false alarm.

• A. Quarantine the file. Look up the hash at the VirusTotal website.
• B. Export the packet capture to a pcap file.
• C. Add the hash to the file filter.
• D. In this scenario, how would you prevent the same file from triggering another incident?

Answer: C

Explanation:
Explanation
A file filter is a list of file hashes that you can use to exclude files from inspection by Netskope. By adding the hash of the file that triggered a false alarm to the file filter, you can prevent it from being scanned again by Netskope and avoid generating another incident. Quarantining the file, exporting the packet capture, or looking up the hash at VirusTotal are not effective ways to prevent the same file from triggering another incident, as they do not affect how Netskope handles the file. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 6: Data Loss Prevention, Lesson 2: File Filters.

NEW QUESTION # 40
You have applied a DLP Profile to block all Personally Identifiable Information data uploads to Microsoft 365 OneDrive. DLP Alerts are not displayed and no OneDrive-related activities are displayed in the Skope IT App Events table.
In this scenario, what are two possible reasons for this issue? (Choose two.)

• A. A Netskope POP is not in your local country and therefore DLP policies cannot be applied.
• B. DLP policies do not apply when using IPsec as a steering option.
• C. The Cloud Storage category is in the Steering Configuration as an exception.
• D. The destination domain is excluded from decryption in the decryption policy.

Answer: C,D

Explanation:
Explanation
If the Cloud Storage category is in the Steering Configuration as an exception, then Netskope will not steer any traffic to or from cloud storage applications, such as Microsoft 365 OneDrive, to its platform. This means that Netskope will not be able to inspect or apply any policies to this traffic, including DLP policies. Similarly, if the destination domain is excluded from decryption in the decryption policy, then Netskope will not decrypt any traffic to or from that domain, such as onedrive.com. This means that Netskope will not be able to inspect or apply any policies to this traffic, including DLP policies. The location of the Netskope POP or the use of IPsec as a steering option do not affect the application of DLP policies, as long as Netskope can steer and decrypt the relevant traffic. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 3: Steering Configuration, Lesson 1: Steering Options and Lesson 2: Exceptions; Module 4: Decryption Policy, Lesson 1: Decryption Policy Overview and Lesson 2: Decryption Policy Configuration.
https://www.bsimm.com/ : https://www.iso.org/isoiec-27001-information-security.html :
https://www.dasca.org/ : https://www.nist.gov/cyberframework

NEW QUESTION # 41
Exhibit

Which portion of the interface shown in the exhibit allows an administrator to set severity, assign ownership, track progress, and perform forensic analysis with excerpts of violating content?

• A. Incidents -> DLP
• B. Reports -> New Report
• C. Skope IT-> Alerts
• D. API-enabled Protection -> Inventory

Answer: A

Explanation:
Explanation
The portion of the interface shown in the exhibit that allows an administrator to set severity, assign ownership, track progress, and perform forensic analysis with excerpts of violating content is Incidents -> DLP. The Incidents dashboard provides a comprehensive view of all the incidents that have occurred in your cloud environment, such as DLP violations, malware infections, anomalous activities, etc. You can filter the incidents by various criteria, such as app name, incident type, severity, user name, etc. You can also drill down into each incident to see more details, such as file name, file path, file owner, file size, file type, etc. You can also assign an owner to an incident, change its status and severity, add notes or comments, and view the excerpts of the violating content that triggered the DLP policy. References: Netskope Incidents Dashboard

NEW QUESTION # 42

Click the Exhibit button.
Referring to the exhibit, which statement accurately describes the difference between Source IP (Egress) and Source IP (User) address?

• A. Source IP (Egress) is the public IP address of your Internet edge router while Source IP (User) is the address assigned to the endpoint.
• B. You must always leave the source IP fields blank and configure the user identity as a source criteria.
• C. Source IP (Egress) is the IP address of the destination Web server while Source IP (User) is the IP address assigned to your network.
• D. Source IP (Egress) is the IP address assigned to the endpoint host IP address while Source IP (User) is the public IP address of your Internet edge router.

Answer: A

Explanation:
Explanation
The statement that accurately describes the difference between Source IP (Egress) and Source IP (User) address is: Source IP (Egress) is the public IP address of your Internet edge router while Source IP (User) is the address assigned to the endpoint. Source IP (Egress) is the IP address that is visible to external networks when you send traffic from your network to the Internet. It is usually the IP address of your Internet edge router or gateway that performs NAT (Network Address Translation). Source IP (User) is the IP address that is assigned to your endpoint device, such as a laptop or a smartphone, within your network. It is usually a private IP address that is not routable on the Internet. You can use these two criteria to filter traffic based on where it originates from within your network or outside your network. References: Source Address / Source Port vs Destination Address / Destination PortHow to explain Source IP Address, Destination IP Address & Service in easy way

NEW QUESTION # 43
A customer changes CCI scoring from the default objective score to another score. In this scenario, what would be a valid reason for making this change?

• A. The customer wants to punish an application vendor for providing poor customer service.
• B. The customer's organization uses a SaaS application that is currently listed as "under research".
• C. The customer's organization places a higher business risk weight on vendors that claim ownership of their data.
• D. The customer has discovered a new SaaS application that is not yet rated in the CCI database.

Answer: C

Explanation:
Explanation
The CCI scoring is a way to measure the security posture of cloud applications based on a set of criteria and weights. The default objective score is calculated by Netskope using industry best practices and standards.
However, customers can change the CCI scoring to suit their own business needs and risk appetite. For example, a customer may want to place a higher business risk weight on vendors that claim ownership of their data, as this may affect their data sovereignty and privacy rights. Changing the CCI scoring for this reason would be valid, as it reflects the customer's own security requirements and preferences. Changing the CCI scoring for other reasons, such as discovering a new SaaS application, punishing an application vendor, or using an application under research, would not be valid, as they do not align with the purpose and methodology of the CCI scoring. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 7: Cloud Confidence Index (CCI), Lesson 1: CCI Overview and Lesson 2: CCI Scoring.

NEW QUESTION # 44
Which two use cases would be considered examples of Shadow IT within an organization? (Choose two.)

• A. an unsanctioned Microsoft 365 OneDrive account being used by a corporate user to upload sensitive data
• B. an unsanctioned Google Drive account used by a corporate user to upload non-sensitive data
• C. a sanctioned Salesforce account used by a contractor to upload non-sensitive data
• D. a sanctioned Wetransfer being used by a corporate user to share sensitive data

Answer: A,B

Explanation:
Explanation
Shadow IT is the term for the unauthorized use of IT resources and functions by employees within an organization. It can include cloud services, software, and hardware that are not approved or managed by the IT department. Two use cases that would be considered examples of shadow IT within an organization are: an unsanctioned Microsoft 365 OneDrive account being used by a corporate user to upload sensitive data and an unsanctioned Google Drive account used by a corporate user to upload non-sensitive data. In both cases, the corporate user is using a personal cloud storage service that is not sanctioned by the organization to store work-related data. This can introduce security risks, such as data leakage, data loss, compliance violations, malware infections, etc. The IT department may not have visibility or control over these cloud services or the data stored in them. References: What is shadow IT? | CloudflareWhat is Shadow IT? | IBM

NEW QUESTION # 45
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