[Q34-Q52] NSK100無料更新100%試験合格率保証 [2024]

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NSK100無料更新100%試験合格率保証 [2024]

[2024年07月] 認証されたNetskope試験問題集でNSK100試験学習ガイド

質問 # 34
What is a benefit that Netskope instance awareness provides?

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

正解:D

解説:
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.


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

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

正解:A、C

解説:
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.


質問 # 36
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. Risk Insights
  • B. DLP forensics
  • C. SaaS API-enabled Protection
  • D. laaS API-enabled Protection

正解:C

解説:
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].


質問 # 37
Which two traffic steering configurations are supported by Netskope? (Choose two.)

  • A. all Web traffic including cloud applications
  • B. browser isolation traffic only
  • C. cloud applications only
  • D. Web traffic only

正解:A、C

解説:
Explanation
The two traffic steering configurations that are supported by Netskope are cloud applications only and all Web traffic including cloud applications. These configurations allow you to control what kind of traffic gets steered to Netskope for real-time deep analysis and what kind of traffic gets bypassed. You can choose one of these options for both on-premises and off-premises scenarios, depending on your network environment and security needs. You can also create exceptions for specific domains, IP addresses, or certificate-pinned applications that you want to bypass or steer regardless of the configuration option. References: Steering ConfigurationCreating a Steering Configuration


質問 # 38
Which two statements are correct about DLP Incidents in the Netskope platform? (Choose two.)

  • A. An incident can be associated to one or more DLP policies.
  • B. An incident can have one or more DLP violations.
  • C. An incident can be associated to one or more DLP rules.
  • D. An incident can be assigned to one or more administrators.

正解:B、C

解説:
Explanation
Two statements that are correct about DLP Incidents in the Netskope platform are: An incident can have one or more DLP violations and an incident can be associated to one or more DLP rules. A DLP violation occurs when a file or object matches a DLP rule used in a DLP profile. A DLP rule defines the criteria for detecting sensitive data, such as keywords, regular expressions, fingerprints, machine learning classifiers, etc. A DLP profile is a collection of DLP rules that can be applied to a policy. An incident is a record of a file or object that triggered a DLP policy violation. An incident can have multiple violations if the file or object matches multiple DLP rules from different profiles. An incident can also be associated to multiple DLP rules if the file or object matches more than one rule from the same profile. References: About DLPDLP Profiles


質問 # 39
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. CCL = Medium. Low, Poor
  • B. Sanctioned = No
  • C. CCL = High. Under Research
  • D. User Device Type = Windows Device

正解:A、B

解説:
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


質問 # 40
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 Secure Web Gateway (SWG)
  • B. Netskope Cloud Security Posture Management (CSPM)
  • C. Netskope SaaS Security Posture Management (SSPM)
  • D. Netskope Advanced DLP and Threat Protection

正解:B

解説:
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


質問 # 41
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 Profile
  • B. block notification
  • C. real-time policy
  • D. DLP Rule

正解:C

解説:
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.


質問 # 42
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. PCI-DSS
  • B. SOC 3
  • C. AES-256
  • D. ISO 27001

正解:A

解説:
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].


質問 # 43
You are creating a real-time policy for cloud applications.
In addition to users, groups, and organizational units, which two source criteria would support this scenario?
(Choose two.)

  • A. access method
  • B. device classification
  • C. protocol version
  • D. browser version

正解:A、B

解説:
Explanation
When creating a real-time policy for cloud applications, you can use access method and device classification as source criteria, in addition to users, groups, and organizational units. Access method refers to how the user accesses the cloud application, such as browser, sync client, mobile app, etc. Device classification refers to the type of device used by the user, such as managed or unmanaged, Windows or Mac, etc. These criteria can help you define granular policies based on different scenarios and risks. References: [Creating Real-Time Policies for Cloud Applications]


質問 # 44
When would an administrator need to use a tombstone file?

  • A. You use a tombstone file when a policy causes a publicly shared file to be encrypted.
  • B. You use a tombstone file when a policy causes a file download to be blocked.
  • C. You use a tombstone file when a policy causes a file to be moved to legal hold.
  • D. You use a tombstone file when the policy causes a file to be moved to quarantine.

正解:D

解説:
Explanation
A tombstone file is a placeholder file that replaces the original file when it is moved to quarantine by a Netskope policy. The tombstone file contains information about the original file, such as its name, size, type, owner, and the reason why it was quarantined. The tombstone file also provides a link to the Netskope UI where the administrator or the file owner can view more details about the incident and take appropriate actions, such as restoring or deleting the file. The purpose of using a tombstone file is to preserve the metadata and location of the original file, as well as to notify the users about the quarantine action and how to access the file if needed. References: Threat Protection - Netskope Knowledge PortalNetskope threat protection - Netskope


質問 # 45
Which three technologies describe the primary cloud service models as defined by the National Institute of Standards and Technology (NIST)? (Choose three.)

  • A. Infrastructure as a Service (laaS)
  • B. Platform as a Service (PaaS)
  • C. Identity as a Service (IDaaS)
  • D. Cloud Service Provider (CSP)
  • E. Software as a Service (SaaS)

正解:A、B、E

解説:
Explanation
The three technologies that describe the primary cloud service models as defined by the National Institute of Standards and Technology (NIST) are Platform as a Service (PaaS), Software as a Service (SaaS), and Infrastructure as a Service (IaaS). These service models are based on the type of computing capability that is provided by the cloud provider to the cloud consumer over a network. According to NIST, these service models have the following definitions:
Platform as a Service (PaaS): The capability provided to the consumer is to deploy onto the cloud infrastructure consumer-created or acquired applications created using programming languages, libraries, services, and tools supported by the provider. The consumer does not manage or control the underlying cloud infrastructure including network, servers, operating systems, or storage, but has control over the deployed applications and possibly configuration settings for the application-hosting environment.
Software as a Service (SaaS): The capability provided to the consumer is to use the provider's applications running on a cloud infrastructure. The applications are accessible from various client devices through either a thin client interface, such as a web browser (e.g., web-based email), or a program interface. The consumer does not manage or control the underlying cloud infrastructure including network, servers, operating systems, storage, or even individual application capabilities, with the possible exception of limited user-specific application configuration settings.
Infrastructure as a Service (IaaS): The capability provided to the consumer is to provision processing, storage, networks, and other fundamental computing resources where the consumer is able to deploy and run arbitrary software, which can include operating systems and applications. The consumer does not manage or control the underlying cloud infrastructure but has control over operating systems, storage, and deployed applications; and possibly limited control of select networking components (e.g., host firewalls).
References: The NIST Definition of Cloud ComputingNIST Cloud Computing Program


質問 # 46
What are two pillars of CASB? (Choose two.)

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

正解:A、D

解説:
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


質問 # 47
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 Secure Web Gateway (SWG)
  • B. Netskope Cloud Security Posture Management (CSPM)
  • C. Netskope SaaS Security Posture Management (SSPM)
  • D. Netskope Advanced DLP and Threat Protection

正解:B

解説:
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


質問 # 48
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 places a higher business risk weight on vendors that claim ownership of their data.
  • C. The customer has discovered a new SaaS application that is not yet rated in the CCI database.
  • D. The customer's organization uses a SaaS application that is currently listed as "under research".

正解:B

解説:
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.


質問 # 49
A customer asks you to create several real-time policies. Policy A generates alerts when any user downloads, uploads, or shares files on a cloud storage application. Policy B blocks users from downloading files from any operating system (OS) other than Mac or Windows for cloud storage. In this case, policy A is least restrictive and policy B is more restrictive.
Which statement is correct in this scenario?

  • A. Policy A is implemented before policy B.
  • B. Policy B is implemented before policy A.
  • C. The policy order is not important; policies are independent of each other.
  • D. These two policies would actually not work together.

正解:B

解説:
Explanation
In this scenario, policy B is more restrictive than policy A, as it blocks users from downloading files from any OS other than Mac or Windows for cloud storage, while policy A only generates alerts when any user downloads, uploads, or shares files on a cloud storage application. Therefore, policy B should be implemented before policy A, as the policy order determines the order of evaluation and enforcement of the policies. If policy A is implemented before policy B, then policy B will never be triggered, as policy A will match all the download activities for cloud storage and generate alerts. The policy order is important; policies are not independent of each other, as they may have overlapping or conflicting conditions and actions. These two policies would actually work together, as long as they are ordered correctly. References: Netskope Security Cloud Operation & Administration (NSCO&A) - Classroom Course, Module 5: Real-Time Policies, Lesson 3:
Policy Order.


質問 # 50
You want to block access to sites that use self-signed certificates. Which statement is true in this scenario?

  • A. Certificate-related settings apply to each individual steering configuration level.
  • B. Certificate-related settings apply to each individual client configuration level.
  • C. Self-signed certificates must be changed to a publicly trusted CA signed certificate.
  • D. Certificate-related settings apply globally to the entire customer tenant.

正解:A

解説:
Explanation
The statement that is true in this scenario is: Certificate-related settings apply to each individual steering configuration level. Certificate-related settings are the options that allow you to configure how Netskope handles SSL/TLS certificates for encrypted web traffic. For example, you can choose whether to allow or block self-signed certificates, expired certificates, revoked certificates, etc. You can also choose whether to enable SSL decryption for specific domains or categories. Certificate-related settings apply to each individual steering configuration level, which means that you can have different settings for different types of traffic or devices. For example, you can have one steering configuration for managed devices and another one for unmanaged devices, and apply different certificate-related settings for each one. This allows you to customize your security policies based on your needs and preferences. References: Netskope SSL DecryptionNetskope Steering Configuration


質問 # 51
Which three security controls are offered by the Netskope Cloud platform? (Choose three.)

  • A. data loss prevention for SMTP
  • B. cloud security posture management
  • C. endpoint anti-malware
  • D. identity lifecycle management
  • E. threat protection

正解:A、B、E

解説:
Explanation
Three security controls that are offered by the Netskope Cloud platform are: C. cloud security posture management, E. threat protection, and B. data loss prevention for SMTP.
Cloud security posture management 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 cloud service providers such as AWS, Azure, and GCP 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 security standards and best practices of the organization or industry.
Threat protection is a capability to detect and block malware, ransomware, phishing, and other cyber threats that may compromise cloud data or users. Netskope threat protection uses advanced techniques such as machine learning, sandboxing, threat intelligence, and behavioral analysis to identify and prevent malicious activities in real time.Netskope threat protection also integrates with third-party solutions such as antivirus engines, firewalls, SIEMs, etc., to provide comprehensive defense across the cloud and web1.
Data loss prevention for SMTP is a feature that allows you to protect sensitive data that is sent or received via email. Netskope DLP for SMTP can scan email messages and attachments for predefined or custom data patterns, such as credit card numbers, social security numbers, health records, etc., and apply appropriate actions, such as block, quarantine, encrypt, notify, etc., based on the DLP policies.Netskope DLP for SMTP can also support multiple email domains and routing rules for different groups of users2.


質問 # 52
......


Netskope NSK100 認定試験の出題範囲:

トピック出題範囲
トピック 1
  • Netskope Platform Management
  • Cloud security risk management
  • reduction
トピック 2
  • Identifying cloud risk using the Cloud Confidence Index (CCI)
  • Common industry compliance standards
トピック 3
  • Policy-related misconfigurations
  • Features and architectural benefits
トピック 4
  • Netskope Platform Monitoring
  • Steering traffic to Netskope
トピック 5
  • Web security concepts
  • Basic administration tasks

 

正真正銘のベスト試験材料はNSK100オンライン練習試験:https://jp.fast2test.com/NSK100-premium-file.html


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