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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 Cloud Security Posture Management (CSPM)
- B. Netskope SaaS Security Posture Management (SSPM)
- C. Netskope Advanced DLP and Threat Protection
- D. Netskope Secure Web Gateway (SWG)
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 # 38
What is a benefit that Netskope instance awareness provides?
- A. It differentiates between an IT managed Google Drive instance versus a personal Google Drive instance.
- 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 prevents movement of corporate sensitive data to a personal Dropbox account.
Answer: A
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 # 39
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. These two policies would actually not work together.
- B. The policy order is not important; policies are independent of each other.
- C. Policy B is implemented before policy A.
- D. Policy A is implemented before policy B.
Answer: C
Explanation:
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.
NEW QUESTION # 40
What are two pillars of CASB? (Choose two.)
- A. SASE
- B. compliance
- C. cloud native
- D. visibility
Answer: B,D
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 # 41
Exhibit
A user is connected to a cloud application through Netskope's proxy.
In this scenario, what information is available at Skope IT? (Choose three.)
- A. account instance, URL category
- B. destination IP. OS patch version
- C. username. device location
- D. user activity, cloud app risk rating
- E. file version, shared folder
Answer: A,C,D
Explanation:
Explanation
In this scenario, a user is connected to a cloud application through Netskope's proxy, which is a deployment method that allows Netskope to intercept and inspect the traffic between the user and the cloud application in real time. In this case, Netskope can collect and display various information about the user and the cloud application at Skope IT, which is a feature in the Netskope platform that allows you to view and analyze all the activities performed by users on cloud applications. Some of the information that is available at Skope IT are: username, device location, account instance, URL category, user activity, and cloud app risk rating.
Username is the name or identifier of the user who is accessing the cloud application. Device location is the geographical location of the device that the user is using to access the cloud application. Account instance is the specific instance of the cloud application that the user is accessing, such as a personal or enterprise instance. URL category is the classification of the web page that the user is visiting within the cloud application, such as Business or Social Media. User activity is the action that the user is performing on the cloud application, such as Upload or Share. Cloud app risk rating is the score that Netskope assigns to the cloud application basedon its security posture and compliance with best practices. Destination IP, OS patch version, file version, and shared folder are not information that is available at Skope IT in this scenario, as they are either unrelated or irrelevant to the proxy connection or the Skope IT feature. References: [Netskope Inline CASB], [Netskope Skope IT].
NEW QUESTION # 42
What are two reasons why legacy solutions, such as on-premises firewalls and proxies, fail to secure the data and data access compared to Netskope Secure Web Gateway? (Choose two.)
- A. The users accessing this data are not in one central place.
- B. Legacy solutions are unable to see the user who is trying to access the application.
- C. The applications where the data resides are no longer in one central location.
- D. Legacy solutions do not meet compliance standards.
Answer: A,C
Explanation:
Explanation
Legacy solutions, such as on-premises firewalls and proxies, fail to secure the data and data access compared to Netskope Secure Web Gateway because they are designed for a perimeter-based security model, where the applications and the users are both within the corporate network. However, with the rise of cloud computing and remote work, this model is no longer valid. The applications where the data resides are no longer in one central location, but distributed across multiple cloud services and regions. The users accessing this data are not in one central place, but working from anywhere, on any device. Legacy solutions cannot provide adequate visibility and control over this dynamic and complex environment, resulting in security gaps and performance issues. Netskope Secure Web Gateway, on the other hand, leverages a cloud-native architecture that provides high-performance and scalable inspection of traffic from any location and device, as well as granular policies and advanced threat and data protection for web and cloud applications. References: Netskope Architecture OverviewNetskope Next Gen SWG
NEW QUESTION # 43
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. Certificate-related settings apply globally to the entire customer tenant.
- D. Self-signed certificates must be changed to a publicly trusted CA signed certificate.
Answer: A
Explanation:
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
NEW QUESTION # 44
Which two statements describe a website categorized as a domain generated algorithm (DGA)? (Choose two.)
- A. The website is used to hide a command-and-control server.
- B. The domain contains malicious algorithms.
- C. The domain was created by a program.
- D. The website is used for domain registration.
Answer: A,C
Explanation:
Explanation
Two statements that describe a website categorized as a domain generated algorithm (DGA) are: The website is used to hide a command-and-control server and the domain was created by a program. A domain generated algorithm (DGA) is a technique used by cyber attackers to generate new domain names and IP addresses for malware's command and control servers. Executed in a manner that seems random, it makes it nearly impossible for threat hunters to detect and contain the attack. A command-and-control server is a server that communicates with malware installed on infected machines and sends commands or updates to them. A program is a piece of software that performs a specific task or function. A domain generated algorithm is implemented by a program that runs on the attacker's machine or the malware itself, and produces a large number of domain names based on some logic, such as date, time, seed, dictionary, etc. References: Domain generation algorithmAmong cyber-attack techniques, what is a DGA?
NEW QUESTION # 45
Which two statements are correct about DLP Incidents in the Netskope platform? (Choose two.)
- A. An incident can have one or more DLP violations.
- B. An incident can be associated to one or more DLP rules.
- C. An incident can be associated to one or more DLP policies.
- D. An incident can be assigned to one or more administrators.
Answer: A,B
Explanation:
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
NEW QUESTION # 46
Which two traffic steering configurations are supported by Netskope? (Choose two.)
- A. browser isolation traffic only
- B. cloud applications only
- C. all Web traffic including cloud applications
- D. Web traffic only
Answer: B,C
Explanation:
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
NEW QUESTION # 47
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.
Answer: D
Explanation:
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
NEW QUESTION # 48
You want to set up a Netskope API connection to Box.
What two actions must be completed to enable this connection? (Choose two.)
- A. Install the Box desktop sync client.
- B. Configure Box in SaaS API Data protection.
- C. Authorize the Netskope application in Box.
- D. Integrate Box with the corporate IdP.
Answer: B,C
Explanation:
Explanation
To set up a Netskope API connection to Box, two actions that must be completed are: authorize the Netskope application in Box and configure Box in SaaS API Data protection. Authorizing the Netskope application in Box allows Netskope to access the Box API and perform out-of-band inspection and enforcement of policies on the data that is already stored in Box. Configuring Box in SaaS API Data protection allows you to specify the Box instance details, such as domain name, admin email, etc., and enable features such as retroactive scan, event stream, etc. References: Authorize Netskope Introspection App on Box Enterprise - Netskope Knowledge PortalConfigure Box Instance in Netskope UI - Netskope Knowledge Portal
NEW QUESTION # 49
There is a DLP violation on a file in your sanctioned Google Drive instance. The file is in a deleted state. You need to locate information pertaining to this DLP violation using Netskope. In this scenario, which statement is correct?
- A. You can find DLP violations under Forensic profiles.
- B. DLP incidents for a file are not visible when the file is deleted.
- C. You must create a forensic profile so that an incident is created.
- D. You can find DLP violations under the Incidents dashboard.
Answer: D
Explanation:
Explanation
To locate information pertaining to a DLP violation on a file in your sanctioned Google Drive instance, you can use the Incidents dashboard in Netskope. 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. The Incidents dashboard can show DLP violations for files that are in a deleted state, as long as they are still recoverable from the trash bin of the app. If the file is permanently deleted from the app, then the incident will not be visible in the dashboard. References: Netskope Incidents Dashboard
NEW QUESTION # 50
Which two technologies form a part of Netskope's Threat Protection module? (Choose two.)
- A. heuristics
- B. log parser
- C. DLP
- D. sandbox
Answer: A,D
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 # 51
What are two CASB inline interception use cases? (Choose two.)
- A. using the Netskope steering client to provide user alerts when sensitive information is posted in Slack
- B. scanning Dropbox for credit card information
- C. blocking file uploads to a personal Box account
- D. running a retroactive scan for data at rest in Google Drive
Answer: A,C
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 # 52
You are deploying TLS support for real-time Web and SaaS transactions. What are two secure implementation methods in this scenario? (Choose two.)
- A. Downgrade to TLS 1.2 whenever possible.
- B. Support TLS 1.2 only when 1.3 is not supported by the server.
- C. Require TLS 1.3 for every server that accepts it.
- D. Bypass TLS 1.3 because it is not widely adopted.
Answer: B,C
Explanation:
Explanation
If you are deploying TLS support for real-time Web and SaaS transactions, then you need to use secure implementation methods that ensure the highest level of encryption and security for yourtraffic. Two secure implementation methods in this scenario are: support TLS 1.2 only when 1.3 is not supported by the server and require TLS 1.3 for every server that accepts it. TLS stands for Transport Layer Security, which is a protocol that provides secure communication over the internet by encrypting and authenticating data exchanged between two parties. TLS 1.3 is the latest version of TLS, which offers several improvements over TLS 1.2, such as faster handshake, stronger encryption algorithms, better forward secrecy, and reduced attack surface.
Therefore, it is recommended to use TLS 1.3 whenever possible for real-time Web and SaaS transactions, as it provides better security and performance than TLS 1.2. However, some servers may not support TLS 1.3 yet, so in those cases, it is acceptable to use TLS 1.2 as a fallback option, as it is still considered secure and widely adopted. Bypassing TLS 1.3 because it is not widely adopted or downgrading to TLS 1.2 whenever possible are not secure implementation methods in this scenario, as they would compromise the security and performance of your traffic by using an older or weaker version of TLS than necessary. References: [TLS],
[TLS 1.3].
NEW QUESTION # 53
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 a forward proxy.
- B. Use an API connector
- C. Use a log parser.
- D. Use a reverse proxy.
Answer: A,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 # 54
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. User Device Type = Windows Device
- C. Sanctioned = No
- D. CCL = High. Under Research
Answer: A,C
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 # 55
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. browser version
- B. protocol version
- C. device classification
- D. access method
Answer: C,D
Explanation:
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]
NEW QUESTION # 56
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