Get Latest Jul-2024 Conduct effective penetration tests using DumpExam NSK100 exam [Q22-Q42]

Get Latest [Jul-2024] Conduct effective penetration tests using DumpExam NSK100

Penetration testers simulate NSK100 exam PDF

NEW QUESTION # 22
What are two CASB inline interception use cases? (Choose two.)

• A. scanning Dropbox for credit card information
• B. running a retroactive scan for data at rest in Google Drive
• C. blocking file uploads to a personal Box account
• D. using the Netskope steering client to provide user alerts when sensitive information is posted in Slack

Answer: C,D

Explanation:
Explanation
CASB inline interception use cases are scenarios where you need to apply real-time policies and actions on the traffic between users and cloud applications. For example, you may want to block file uploads to a personal Box account to prevent data leakage or exfiltration. You can use Netskope's inline proxy mode to intercept and inspect the traffic between users and Box, and apply granular policies based on user identity, device type, app instance, file metadata, etc. You can also use Netskope's inline proxy mode to provide user alerts when sensitive information is posted in Slack. For example, you may want to warn users when they share credit card numbers or social security numbers in Slack channels or messages. You can use Netskope's steering client to redirect the traffic between users and Slack to Netskope's inline proxy for inspection and enforcement. You can also use Netskope's DLP engine to detect sensitive data patterns and apply actions such as alerting or blocking. References: Netskope Inline Proxy ModeNetskope Steering Client [Netskope DLP Engine]

NEW QUESTION # 23
In which scenario would you use a SAML reverse proxy?

• A. When there are multiple SAML IdPs in use and the SAML reverse proxy can help federate them all together.
• B. When the organization wants to perform inline inspection of cloud application traffic for roaming users that do not have the Netskope agent installed.
• C. When PAC files or explicit proxies can be used to steer traffic to the Netskope platform.
• D. When the API-enabled protection exceeds the Cloud App API usage limits and cannot be used anymore.

Answer: A

Explanation:
Explanation
A SAML reverse proxy is a service that acts as an intermediary between a SAML service provider (SP) and one or more SAML identity providers (IdPs). It can perform various functions, such as authentication, authorization, load balancing, caching, etc. One scenario where you would use a SAML reverse proxy is when there are multiple SAML IdPs in use and the SAML reverse proxy can help federate them all together. For example, suppose you have an internal application that needs to authenticate users from different domains or organizations, each with their own SAML IdP. Instead of configuring the application to trust each IdP separately, you can use a SAML reverse proxy to act as a single SP for the application and a single IdP for the users. The SAML reverse proxy can then redirect the users to their respective IdPs for authentication and relay the SAML assertions back to the application. This way, you can simplify the integration and management of multiple SAML IdPs and provide a seamless user experience. References: SAML Reverse ProxyWhat is application proxy & SAML SSO?

NEW QUESTION # 24
What are two use cases for Netskope's DLP solution? (Choose two.)

• A. to detect sensitive data in password protected files
• B. to stop unintentional data movement
• C. to ensure regulatory compliance
• D. to detect malware in files before they are uploaded to a cloud application

Answer: B,C

Explanation:
Explanation
Netskope's DLP solution is a powerful tool that can help customers protect their sensitive data from unauthorized access, exposure, or loss. One use case for Netskope's DLP solution is to stop unintentional data movement, such as accidental uploads, downloads, or sharing of confidential files or information to or from cloud applications. Another use case for Netskope's DLP solution is to ensure regulatory compliance, such as GDPR, HIPAA, PCI-DSS, or other industry-specific standards that require data protection and privacy measures. Netskope's DLP solution can help customers comply with these regulations by detecting and preventing data breaches, enforcing encryption policies, applying data retention rules, and generating audit reports. Detecting malware in files before they are uploaded to a cloud application or detecting sensitive data in password protected files are not use cases for Netskope's DLP solution, asthey are more related to threat protection or file inspection capabilities. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 6: Data Loss Prevention, Lesson 1: DLP Overview.

NEW QUESTION # 25
In the Skope IT interface, which two event tables would be used to label a cloud application instance? (Choose two.)

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

Answer: A,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 # 26
What are two pillars of CASB? (Choose two.)

• A. cloud native
• B. visibility
• C. compliance
• D. SASE

Answer: B,C

Explanation:
Explanation
Two pillars of CASB are visibility and compliance. CASB stands for Cloud Access Security Broker, which is a solution that provides visibility and control over cloud services and web traffic, as well as data and threat protection for cloud users and devices. Visibility is thecapability to identify all cloud services in use and assess their risk factors, such as security, auditability, business continuity, etc. Compliance is the capability to ensure that cloud services and data meet the regulatory standards and policies of the organization or industry, such as GDPR, HIPAA, PCI DSS, etc. References: What Is a Cloud Access Security Broker (CASB)? | MicrosoftCASB Guide: What are the 4 Pillars of CASB? - Security Service Edge

NEW QUESTION # 27
You consume application infrastructure (middleware) capabilities by a third-party provider. What is the cloud service model that you are using in this scenario?

• A. PaaS
• B. DaaS
• C. MaaS
• D. SaaS

Answer: A

Explanation:
Explanation
If you consume application infrastructure (middleware) capabilities by a third-party provider, then the cloud service model that you are using in this scenario is PaaS, which stands for Platform as a Service. PaaS is a cloud service model that provides customers with a platform to develop, run, and manage applications without having to deal with the underlying infrastructure or software. PaaS typically includes middleware capabilities such as databases, web servers, development tools, integration services, etc., that customers can use to build and deploy their applications faster and easier. MaaS, DaaS, and SaaS are not cloud service models that match this scenario, as they stand for different types of services. MaaS stands for Monitoring as a Service, which is a service that provides customers with tools to monitor and manage their cloud resources and performance.
DaaS stands for Desktop as a Service, which is a service that provides customers with virtual desktops that they can access from any device or location. SaaS stands for Software as a Service, which is a service that provides customers with software applications that they can use over the internet without installing or maintaining them. References: [PaaS], [MaaS], [DaaS], [SaaS].

NEW QUESTION # 28
How do you provision users to your customer's Netskope tenant? (Choose two.)

• A. Use the AD Connector.
• B. Use Microsoft Intune.
• C. Use SCIM.
• D. Use the Directory Importer.

Answer: A,D

Explanation:
Explanation
To provision users to your customer's Netskope tenant, two methods that you can use are: use the AD Connector and use SCIM. The AD Connector is a tool that allows you to synchronize users and groups from your Active Directory (AD) domain to your Netskope tenant. The AD Connector runs as a Windows service on a machine that has access to your AD domain controller. The AD Connector periodically queries your AD domain for any changes in users and groups and updates them in your Netskope tenant accordingly. The AD Connector also supports filtering users and groups based on attributes or organizational units (OUs). SCIM stands for System for Cross-domain Identity Management, which is a standard protocol for managing user identities across different applications and services. SCIM allows you to provision users and groups from your identity provider (IdP), such as Azure AD or Okta, to your Netskope tenant using APIs. SCIM also supports creating, updating, deleting, and searching users and groups in your Netskope tenant based on your IdP's configuration. References: Netskope AD ConnectorUser Provisioning with Azure AD

NEW QUESTION # 29
You want to take into account some recent adjustments to CCI scoring that were made in your Netskope tenant.
In this scenario, which two CCI aspects in the Ul would be used in a real-time protection policy? (Choose two.)

• A. App Tag
• B. GDPR Readiness
• C. CCL
• D. App Score

Answer: A,D

Explanation:
Explanation
To take into account some recent adjustments to CCI scoring that were made in your Netskope tenant, you can use the App Tag and App Score aspects in the UI to create a real-time protection policy. The App Tag is a label that indicates the level of enterprise readiness of a cloud app based on its CCI score. The App Score is a numerical value that represents the CCI score of a cloud app based on various criteria such as security, auditability, and business continuity. You can use these aspects to filter cloud apps by their CCI ratings and apply policies accordingly. For example, you can create a policy that blocks access to cloud apps with an App Tag of Poor or an App Score below 50. References: Netskope Cloud Confidence IndexCreating Real-Time Policies for Cloud Applications

NEW QUESTION # 30
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 Cloud Security Posture Management (CSPM)
• B. Netskope Secure Web Gateway (SWG)
• C. Netskope Advanced DLP and Threat Protection
• D. Netskope SaaS Security Posture Management (SSPM)

Answer: A

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 # 31
What is a benefit that Netskope instance awareness provides?

• A. It prevents movement of corporate sensitive data to a personal Dropbox account.
• B. It differentiates between an IT managed Google Drive instance versus a personal Dropbox account.
• C. It prevents the user from copying information from a corporate email and pasting the information into a GitHub repository.
• D. It differentiates between an IT managed Google Drive instance versus a personal Google Drive instance.

Answer: D

Explanation:
Explanation
A benefit that Netskope instance awareness provides is that it differentiates between an IT managed Google Drive instance versus a personal Google Drive instance. Instance awareness is a feature in the Netskope platform that allows you to define and identify different instances of the same cloud application based on the domain name or URL. For example, you can define an instance for your IT managed Google Drive instance (such as drive.google.com/a/yourcompany.com) and another instance for your personal Google Drive instance (such as drive.google.com). This way, you can differentiate between them and apply different policies and actions based on the instance. This can help you prevent data leakage, enforce compliance, or improve visibility for your cloud application activities. Preventing movement of corporate sensitive data to a personal Dropbox account, preventing the user from copying information from a corporate email and pasting it into a GitHub repository, or differentiating between an IT managed Google Drive instance versus an IT managed Box instance are not benefits that Netskope instance awareness provides, as they are either unrelated or irrelevant to the instance awareness feature. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 5: Real-Time Policies, Lesson 4: App Instances.

NEW QUESTION # 32
What are two primary advantages of Netskope's Secure Access Service Edge (SASE) architecture? (Choose two.

• A. Endpoint Detection and Response (EDR)
• B. no on-premises hardware required for policy enforcement
• C. Bayesian spam filtering
• D. single management console

Answer: B,D

Explanation:
Explanation
Two primary advantages of Netskope's Secure Access Service Edge (SASE) architecture are: no on-premises hardware required for policy enforcement and single management console. Netskope's SASE architecture delivers network and security services as cloud-based services that can be accessed from any location and device. This eliminates the need for on-premises hardware appliances such as firewalls, proxies, VPNs, etc., that are costly to maintain and scale. Netskope's SASE architecture also provides a single management console that allows administrators to configure and monitor all the network and security services from one place. This simplifies IT operations and reduces complexity and overhead. References: Netskope SASEWhat is SASE?

NEW QUESTION # 33
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 Alerts.
• B. Use the Netskope reporting engine.
• C. Export the data from Skope IT Application Events.
• D. Use the Netskope REST API.

Answer: C,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 # 34
What are two fundamental differences between the inline and API implementation of the Netskope platform?
(Choose two.)

• A. The API implementation can only be used with sanctioned applications.
• B. The inline implementation can only effectively block a transaction in sanctioned applications.
• C. The API implementation can be used with both sanctioned and unsanctioned applications.
• D. The inline implementation can effectively block a transaction in both sanctioned and unsanctioned applications.

Answer: A,D

Explanation:
Explanation
The inline and API implementation of the Netskope platform are two different ways of connecting cloud applications to Netskope for inspection and policy enforcement. Two fundamental differences between them are: The API implementation can only be used with sanctioned applications, which are applications that are approved and authorized by the organization for business use. The API implementation relies on using out-of-band API connections to access data and events from these applications and apply near real-time policies. The inline implementation can effectively block a transaction in both sanctioned and unsanctioned applications, which are applications that are not approved or authorized by the organization for business use.
The inline implementation relies on using in-band proxy or reverse-proxy connections to intercept traffic to and from these applications and apply real-time policies. The API implementation can be used with both sanctioned and unsanctioned applications and the inline implementation can only effectively block a transaction in sanctioned applications are not true statements, as they contradict the actual capabilities and limitations of each implementation method. References: [Netskope SaaS API-enabled Protection], [Netskope Inline CASB].

NEW QUESTION # 35
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 quarantine malware
• C. to block uploads
• D. to allow real-time access

Answer: A,B

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 # 36
What are two characteristics ofNetskope's Private Access Solution? (Choose two.)

• A. It acts as a cloud-based firewall.
• B. It provides protection for private applications.
• C. It provides access to private applications.
• D. It requires on-premises hardware.

Answer: B,C

Explanation:
Explanation
Netskope's Private Access Solution is a service that allows users to securely access private applications without exposing them to the internet or using VPNs. It provides protection for private applications by encrypting the traffic, enforcing granular policies, and preventing data exfiltration. It also provides access to private applications by creating a secure tunnel between the user's device and the application's server, regardless of their location or network. It does not act as a cloud-based firewall, as it does not filter or block traffic based on ports or protocols. Itdoes not require on-premises hardware, as it is a cloud-native solution that leverages Netskope's global network of points of presence (POPs). References: [Netskope Private Access].

NEW QUESTION # 37
What are two uses for deploying a Netskope Virtual Appliance? (Choose two.)

• A. as a local reverse-proxy to secure a SaaS application
• B. as a Secure Forwarder to steer traffic
• C. as an endpoint for Netskope Private Access (NPA)
• D. as a log parser to discover in-use cloud applications

Answer: B,C

Explanation:
Explanation
A Netskope Virtual Appliance is a software-based appliance that can be deployed on-premises or in the cloud to provide various functions and features for the Netskope Security Cloud platform. One use for deploying a Netskope Virtual Appliance is as an endpoint for Netskope Private Access (NPA), which is a service that allows users to securely access private applications without exposing them to the internet or using VPNs.
Another use for deploying a Netskope Virtual Appliance is as a Secure Forwarder to steer traffic from on-premises devices or networks to the Netskope platform for inspection and policy enforcement. Using a Netskope Virtual Appliance as a local reverse-proxy to secure a SaaS application or as a log parser to discover in-use cloud applications are not valid uses, as these functions are performed by other components of the Netskope Security Cloud platform, such as the Cloud Access Security Broker (CASB) or the Cloud XD engine. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 2: Architecture Overview; [Netskope Private Access]; [Netskope Secure Forwarder].

NEW QUESTION # 38
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. The destination domain is excluded from decryption in the decryption policy.
• B. The Cloud Storage category is in the Steering Configuration as an exception.
• C. A Netskope POP is not in your local country and therefore DLP policies cannot be applied.
• D. DLP policies do not apply when using IPsec as a steering option.

Answer: A,B

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 # 39
Which two cloud security and infrastructure enablement technologies does Secure Access Service Edge (SASE) combine into its unified platform? (Choose two.)

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

Answer: A,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 # 40
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 Alerts.
• B. Use the Netskope reporting engine.
• C. Export the data from Skope IT Application Events.
• D. Use the Netskope REST API.

Answer: C,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 # 41
You want to prevent Man-in-the-Middle (MITM) attacks on an encrypted website or application. In this scenario, which method would you use?

• A. Use a proxy for the connection.
• B. Use a weaker encryption algorithm.
• C. Use a stronger encryption algorithm.
• D. Use certificate pinning.

Answer: D

Explanation:
Explanation
To prevent Man-in-the-Middle (MITM) attacks on an encrypted website or application, one method that you can use is certificate pinning. Certificate pinning is a technique that restricts which certificates are considered valid for a particular website or application, limiting risk. Instead of allowing any trusted certificate to be used, operators "pin" the certificate authority (CA) issuer(s), public keys or even end-entity certificates of their choice. Certificate pinning helps to prevent MITM attacks by validating the server certificates against a hardcoded list of certificates in the website or application. If an attacker tries to intercept or modify the traffic using a fraudulent or compromised certificate, it will be rejected by the website or application as invalid, even if it is signed by a trusted CA. References: Certificate pinning - IBMCertificate and Public Key Pinning | OWASP Foundation

NEW QUESTION # 42
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