HPE6-A84ブレーン問題集リアル試験最新問題2024年08月31日には60問題 [Q12-Q34]

Share

HPE6-A84ブレーン問題集リアル試験最新問題2024年08月31日には60問題

最新HPE6-A84のPDF問題集リアル無料テスト本日更新です


HP HPE6-A84 認定試験の出題範囲:

トピック出題範囲
トピック 1
  • ClearPass Policy Manager を使用して、動的セグメンテーションを設計および実装し、統合インフラストラクチャに Aruba Zero Trust Security を実装します。
トピック 2
  • CPDI を使用したエンドポイント分類とデバイス プロファイリングの実装
  • フォレンジック技術の説明と実装
トピック 3
  • Aruba ソリューションをエコシステム パートナー ソリューションと統合
  • PKI のベスト プラクティスを定義し、証明書ベースの認証を実装します
トピック 4
  • Aruba Central および Aruba ゲートウェイを使用した安全なクライアントからサイトへのアクセスを設計および展開する
  • ゲートウェイ IDS
  • IPS を設計および展開する
トピック 5
  • 企業全体のファイアウォール ポリシーを設計する
  • Aruba ゼロトラスト セキュリティ戦略を明確にする
トピック 6
  • Aruba ソリューションがローカル コンプライアンスにどのようにマッピングされるかを説明する
  • Aruba CloudAuth 機能を説明し、Aruba CloudAuth ベースのソリューションに移行する方法を説明する
トピック 7
  • 企業のセキュリティへの取り組みにおけるデバイス プロファイリングとリスク スコアリングの役割を説明する
  • ロールベースのアクセス制御を説明および実装する
トピック 8
  • 設定された期間内で包括的な分析を実行
  • ログ、アラート、その他の機能を専門家レベルで分析して脅威を検出
トピック 9
  • 有線インターフェイスおよび VLAN ごとに複雑な ACL を設計
  • Aruba WIPS 機能を利用して、不正なワイヤレス デバイスやその他のワイヤレスの脅威の検出戦略を設計します

 

質問 # 12
A customer has an AOS 10 architecture, which includes Aruba APs. Admins have recently enabled WIDS at the high level. They also enabled alerts and email notifications for several events, as shown in the exhibit.

Admins are complaining that they are getting so many emails that they have to ignore them, so they are going to turn off all notifications.
What is one step you could recommend trying first?

  • A. Send the email notifications directly to a specific folder, and only check the folder once a week.
  • B. Disable just the Rogue AP and Client Attack Detected alerts, as they overlap with the Infrastructure Attack Detected alert.
  • C. Disable email notifications for Roque AP, but leave the Infrastructure Attack Detected and Client Attack Detected notifications on.
  • D. Change the WIDS level to custom, and enable only the checks most likely to indicate real threats.

正解:D

解説:
Explanation
According to the AOS 10 documentation1, WIDS is a feature that monitors the radio spectrum for the presence of unauthorized, rogue access points and the use of wireless attack tools. WIDS can be configured at different levels, such as low, medium, high, or custom. The higher the level, the more checks are enabled and the more alerts are generated. However, not all checks are equally relevant or indicative of real threats. Some checks may generate false positives or unnecessary alerts that can overwhelm the administrators and reduce the effectiveness of WIDS.
Therefore, one step that could be recommended to reduce the number of email notifications is to change the WIDS level to custom, and enable only the checks most likely to indicate real threats. This way, the administrators can fine-tune the WIDS settings to suit their network environment and security needs, and avoid getting flooded with irrelevant or redundant alerts. Option C is the correct answer.
Option A is incorrect because sending the email notifications directly to a specific folder and only checking the folder once a week is not a good practice for security management. This could lead to missing or ignoring important alerts that require immediate attention or action. Moreover, this does not solve the problem of getting too many emails in the first place.
Option B is incorrect because disabling email notifications for Rogue AP, but leaving the Infrastructure Attack Detected and Client Attack Detected notifications on, is not a sufficient solution. Rogue APs are unauthorized access points that can pose a serious security risk to the network, as they can be used to intercept or steal sensitive data, launch attacks, or compromise network performance. Therefore, disabling email notifications for Rogue APs could result in missing critical alerts that need to be addressed.
Option D is incorrect because disabling just the Rogue AP and Client Attack Detected alerts, as they overlap with the Infrastructure Attack Detected alert, is not a valid assumption. The Infrastructure Attack Detected alert covers a broad range of attacks that target the network infrastructure, such as deauthentication attacks, spoofing attacks, denial-of-service attacks, etc. The Rogue AP and Client Attack Detected alerts are more specific and focus on detecting and classifying rogue devices and clients that may be involved in such attacks.
Therefore, disabling these alerts could result in losing valuable information about the source and nature of the attacks.


質問 # 13
Refer to the scenario.
# Introduction to the customer
You are helping a company add Aruba ClearPass to their network, which uses Aruba network infrastructure devices.
The company currently has a Windows domain and Windows CA. The Window CA issues certificates to domain computers, domain users, and servers such as domain controllers. An example of a certificate issued by the Windows CA is shown here.


The company is in the process of adding Microsoft Endpoint Manager (Intune) to manage its mobile clients.
The customer is maintaining the on-prem AD for now and uses Azure AD Connect to sync with Azure AD.
# Requirements for issuing certificates to mobile clients
The company wants to use ClearPass Onboard to deploy certificates automatically to mobile clients enrolled in Intune. During this process, Onboard should communicate with Azure AD to validate the clients. High availability should also be provided for this scenario; in other words, clients should be able to get certificates from Subscriber 2 if Subscriber 1 is down.
The Intune admins intend to create certificate profiles that include a UPN SAN with the UPN of the user who enrolled the device.
# Requirements for authenticating clients
The customer requires all types of clients to connect and authenticate on the same corporate SSID.
The company wants CPPM to use these authentication methods:
* EAP-TLS to authenticate users on mobile clients registered in Intune
* TEAR, with EAP-TLS as the inner method to authenticate Windows domain computers and the users on them To succeed, EAP-TLS (standalone or as a TEAP method) clients must meet these requirements:
Their certificate is valid and is not revoked, as validated by OCSP
The client's username matches an account in AD
# Requirements for assigning clients to roles
After authentication, the customer wants the CPPM to assign clients to ClearPass roles based on the following rules:
* Clients with certificates issued by Onboard are assigned the "mobile-onboarded" role
* Clients that have passed TEAP Method 1 are assigned the "domain-computer" role Clients in the AD group "Medical" are assigned the "medical-staff" role Clients in the AD group "Reception" are assigned to the "reception-staff" role The customer requires CPPM to assign authenticated clients to AOS firewall roles as follows:
* Assign medical staff on mobile-onboarded clients to the "medical-mobile" firewall role
* Assign other mobile-onboarded clients to the "mobile-other" firewall role
* Assign medical staff on domain computers to the "medical-domain" firewall role
* All reception staff on domain computers to the "reception-domain" firewall role
* All domain computers with no valid user logged in to the "computer-only" firewall role
* Deny other clients' access
# Other requirements
Communications between ClearPass servers and on-prem AD domain controllers must be encrypted.
# Network topology
For the network infrastructure, this customer has Aruba APs and Aruba gateways, which are managed by Central. APs use tunneled WLANs, which tunnel traffic to the gateway cluster. The customer also has AOS-CX switches that are not managed by Central at this point.

# ClearPass cluster IP addressing and hostnames
A customer's ClearPass cluster has these IP addresses:
* Publisher = 10.47.47.5
* Subscriber 1 = 10.47.47.6
* Subscriber 2 = 10.47.47.7
* Virtual IP with Subscriber 1 and Subscriber 2 = 10.47.47.8
The customer's DNS server has these entries
* cp.acnsxtest.com = 10.47.47.5
* cps1.acnsxtest.com = 10.47.47.6
* cps2.acnsxtest.com = 10.47.47.7
* radius.acnsxtest.com = 10.47.47.8
* onboard.acnsxtest.com = 10.47.47.8
You have created a role mapping policy as shown in the exhibits below.

What is one change that you need to make to this policy?

  • A. In rule 1 change Subject-CN to Issuer-CN.
  • B. Change the default role to 'mobile-onboarded*
  • C. Change the rules evaluation mechanism to first applicable.
  • D. Move rules 2 and 3 to the top of the list.

正解:A


質問 # 14
A customer has an AOS 10-based mobility solution, which authenticates clients to Aruba ClearPass Policy Manager (CPPM). The customer has some wireless devices that support WPA2 in personal mode only.
How can you meet these devices' needs but improve security?

  • A. Enable dynamic authorization (RFC 3576) in the AAA profile for the devices.
  • B. Configure WIDS policies that apply extra monitoring to these particular devices.
  • C. Connect these devices to the same WLAN to which 802.1X-capable clients connect, using MAC-Auth fallback.
  • D. Use MPSK on the WLAN to which the devices connect.

正解:D

解説:
Explanation
MPSK (Multi Pre-Shared Key) is a feature that allows assigning different pre-shared keys (PSKs) to different devices or groups of devices on the same WLAN. MPSK improves security over WPA2 in personal mode, which uses a single PSK for all devices on the WLAN. With MPSK, you can create and manage multiple PSKs, each with its own role, policy, and expiration date. You can also revoke or change a PSK for a specific device or group without affecting other devices on the WLAN. MPSK is compatible with devices that support WPA2 in personal mode only, as they do not need to support any additional protocols or certificates.
To use MPSK on the WLAN to which the devices connect, you need to enable MPSK in the WLAN settings and configure the PSKs in Aruba ClearPass Policy Manager (CPPM). You can find more information about how to configure MPSK in the [Configuring Multi Pre-Shared Key - Aruba] page and the [ClearPass Policy Manager User Guide] . The other options are not correct because they either do not improve security or are not applicable for devices that support WPA2 in personal mode only. For example, configuring WIDS policies that apply extra monitoring to these particular devices would not prevent them from being compromised or spoofed, but rather detect and mitigate potential attacks. Connecting these devices to the same WLAN to which 802.1X-capable clients connect, using MAC-Auth fallback, would not provide strong authentication or encryption, as MAC addresses can be easily spoofed or captured. Enabling dynamic authorization (RFC 3576) in the AAA profile for the devices would not affect the authentication process, but rather allow CPPM to change the attributes or status of a user session on the controller without requiring re-authentication.


質問 # 15
Refer to the scenario.
# Introduction to the customer
You are helping a company add Aruba ClearPass to their network, which uses Aruba network infrastructure devices.
The company currently has a Windows domain and Windows CA. The Window CA issues certificates to domain computers, domain users, and servers such as domain controllers. An example of a certificate issued by the Windows CA is shown here.


The company is in the process of adding Microsoft Endpoint Manager (Intune) to manage its mobile clients.
The customer is maintaining the on-prem AD for now and uses Azure AD Connect to sync with Azure AD.
# Requirements for issuing certificates to mobile clients
The company wants to use ClearPass Onboard to deploy certificates automatically to mobile clients enrolled in Intune. During this process, Onboard should communicate with Azure AD to validate the clients. High availability should also be provided for this scenario; in other words, clients should be able to get certificates from Subscriber 2 if Subscriber 1 is down.
The Intune admins intend to create certificate profiles that include a UPN SAN with the UPN of the user who enrolled the device.
# Requirements for authenticating clients
The customer requires all types of clients to connect and authenticate on the same corporate SSID.
The company wants CPPM to use these authentication methods:
EAP-TLS to authenticate users on mobile clients registered in Intune
TEAR, with EAP-TLS as the inner method to authenticate Windows domain computers and the users on them To succeed, EAP-TLS (standalone or as a TEAP method) clients must meet these requirements:
Their certificate is valid and is not revoked, as validated by OCSP
The client's username matches an account in AD
# Requirements for assigning clients to roles
After authentication, the customer wants the CPPM to assign clients to ClearPass roles based on the following rules:
Clients with certificates issued by Onboard are assigned the "mobile-onboarded" role Clients that have passed TEAP Method 1 are assigned the "domain-computer" role Clients in the AD group "Medical" are assigned the "medical-staff" role Clients in the AD group "Reception" are assigned to the "reception-staff" role The customer requires CPPM to assign authenticated clients to AOS firewall roles as follows:
Assign medical staff on mobile-onboarded clients to the "medical-mobile" firewall role Assign other mobile-onboarded clients to the "mobile-other" firewall role Assign medical staff on domain computers to the "medical-domain" firewall role All reception staff on domain computers to the "reception-domain" firewall role All domain computers with no valid user logged in to the "computer-only" firewall role Deny other clients access
# Other requirements
Communications between ClearPass servers and on-prem AD domain controllers must be encrypted.
# Network topology
For the network infrastructure, this customer has Aruba APs and Aruba gateways, which are managed by Central. APs use tunneled WLANs, which tunnel traffic to the gateway cluster. The customer also has AOS-CX switches that are not managed by Central at this point.

# ClearPass cluster IP addressing and hostnames
A customer's ClearPass cluster has these IP addresses:
Publisher = 10.47.47.5
Subscriber 1 = 10.47.47.6
Subscriber 2 = 10.47.47.7
Virtual IP with Subscriber 1 and Subscriber 2 = 10.47.47.8
The customer's DNS server has these entries
cp.acnsxtest.com = 10.47.47.5
cps1.acnsxtest.com = 10.47.47.6
cps2.acnsxtest.com = 10.47.47.7
radius.acnsxtest.com = 10.47.47.8
onboard.acnsxtest.com = 10.47.47.8
You cannot see flow attributes for wireless clients.
What should you check?

  • A. Deep packet inspection is enabled on the role to which the Aruba APs assign the wireless clients.
  • B. Gateway IDS/IPS is enabled on the Aruba gateways, and the gateways have been rebooted.
  • C. Firewall application visibility is enabled on the Aruba gateways, and the gateways have been rebooted.
  • D. Deep packet inspection is enabled on the Aruba Aps, and the APs have been rebooted.

正解:A


質問 # 16
You are reviewing an endpoint entry in ClearPass Policy Manager (CPPM) Endpoints Repository.
What is a good sign that someone has been trying to gain unauthorized access to the network?

  • A. The entry shows a profile conflict of having a new profile of Computer for a profiled Printer.
  • B. The entry shows multiple DHCP options under the fingerprints.
  • C. The entry lacks a hostname or includes a hostname with long seemingly random characters.
  • D. The entry shows an Unknown status.

正解:A

解説:
Explanation
A profile conflict occurs when ClearPass Policy Manager (CPPM) detects a change in the device category or OS family of an endpoint that has been previously profiled. This could indicate that someone has spoofed the MAC address of a legitimate device and is trying to gain unauthorized access to the network. For example, if an endpoint that was previously profiled as a Printer suddenly shows a new profile of Computer, this could be a sign of an attack. You can find more information about profile conflicts and how to resolve them in the ClearPass Policy Manager User Guide1. The other options are not necessarily signs of unauthorized access, as they could have other explanations. For example, multiple DHCP options under the fingerprints could indicate that the device has connected to different networks or subnets, an Unknown status could indicate that the device has not been authenticated yet, and a lack of hostname or a random hostname could indicate that the device has not been configured properly or has been reset to factory settings.


質問 # 17
A customer requires a secure solution for connecting remote users to the corporate main site. You are designing a client-to-site virtual private network (VPN) based on Aruba VIA and Aruba Mobility Controllers acting as VPN Concentrators (VPNCs). Remote users will first use the VIA client to contact the VPNCs and obtain connection settings.
The users should only be allowed to receive the settings if they are the customer's "RemoteEmployees" AD group. After receiving the settings, the VIA clients will automatically establish VPN connections, authenticating to CPPM with certificates.
What should you do to help ensure that only authorized users obtain VIA connection settings?

  • A. Set up the VPNCs' VIA web authentication profile to use CPPM as the authentication server; set up a service on CPPM that uses AD as the authentication source.
  • B. Set up the VPNCs' VIA web authentication profile to use an AD domain controller as the LDAP server.
  • C. Set up the VPNCs' VIA connection profile to use two authentication profiles, one RADIUS profile to CPPM and one LDAP profile to AD.
  • D. Set up the VPNCs' VIA connection profile to use one authentication profile, which is set to the AD domain controller's hostname.

正解:A

解説:
Explanation
The VIA web authentication profile is used to authenticate the users who want to download the VIA connection settings from the VPNCs. The VPNCs can use either an internal database or an external server (such as RADIUS or LDAP) as the authentication source for this profile. To ensure that only authorized users obtain VIA connection settings, you should use CPPM as the external server and configure a service on CPPM that uses AD as the authentication source. This way, you can leverage the role mapping and enforcement features of CPPM to check if the users belong to the "RemoteEmployees" AD group and grant or deny them access accordingly1 The other options are not correct because they do not allow you to verify the users' AD group membership before providing them with VIA connection settings. Option B would only check the users' credentials against AD, but not their group membership. Option C would only apply to the VPN connection phase, not the VIA connection settings phase. Option D would not work because the VPNCs do not support LDAP as an authentication source for VIA connection profiles2


質問 # 18
Several AOS-CX switches are responding to SNMPv2 GET requests for the public community. The customer only permits SNMPv3. You have asked a network admin to fix this problem. The admin says, "I tried to remove the community, but the CLI output an error." What should you recommend to remediate the vulnerability and meet the customer's requirements?

  • A. Adding an SNMP community with a long random name
  • B. Setting the snmp-server settings to "snmpv3-only"
  • C. Enabling SNMPv3, which implicitly disables SNMPv1/v2
  • D. Enabling control plane policing to automatically drop SNMP GET requests

正解:B


質問 # 19
A customer has an AOS 10-based mobility solution, which authenticates clients to Aruba ClearPass Policy Manager (CPPM). The customer has some wireless devices that support WPA2 in personal mode only.
How can you meet these devices' needs but improve security?

  • A. Enable dynamic authorization (RFC 3576) in the AAA profile for the devices.
  • B. Configure WIDS policies that apply extra monitoring to these particular devices.
  • C. Connect these devices to the same WLAN to which 802.1X-capable clients connect, using MAC-Auth fallback.
  • D. Use MPSK on the WLAN to which the devices connect.

正解:D


質問 # 20
Refer to the scenario.
A customer is migrating from on-prem AD to Azure AD as its sole domain solution. The customer also manages both wired and wireless devices with Microsoft Endpoint Manager (Intune).
The customer wants to improve security for the network edge. You are helping the customer design a ClearPass deployment for this purpose. Aruba network devices will authenticate wireless and wired clients to an Aruba ClearPass Policy Manager (CPPM) cluster (which uses version 6.10).
The customer has several requirements for authentication. The clients should only pass EAP-TLS authentication if a query to Azure AD shows that they have accounts in Azure AD. To further refine the clients' privileges, ClearPass also should use information collected by Intune to make access control decisions.
You are planning to use Azure AD as the authentication source in 802.1X services.
What should you make sure that the customer understands is required?

  • A. Azure AD Domain Services
  • B. An app registration on Azure AD that references the CPPM's FQDN
  • C. Windows 365 subscriptions
  • D. CPPM's RADIUS certificate was imported as trusted in the Azure AD directory

正解:B


質問 # 21
Refer to the scenario.
# Introduction to the customer
You are helping a company add Aruba ClearPass to their network, which uses Aruba network infrastructure devices.
The company currently has a Windows domain and Windows CA. The Window CA issues certificates to domain computers, domain users, and servers such as domain controllers. An example of a certificate issued by the Windows CA is shown here.


The company is in the process of adding Microsoft Endpoint Manager (Intune) to manage its mobile clients.
The customer is maintaining the on-prem AD for now and uses Azure AD Connect to sync with Azure AD.
# Requirements for issuing certificates to mobile clients
The company wants to use ClearPass Onboard to deploy certificates automatically to mobile clients enrolled in Intune. During this process, Onboard should communicate with Azure AD to validate the clients. High availability should also be provided for this scenario; in other words, clients should be able to get certificates from Subscriber 2 if Subscriber 1 is down.
The Intune admins intend to create certificate profiles that include a UPN SAN with the UPN of the user who enrolled the device.
# Requirements for authenticating clients
The customer requires all types of clients to connect and authenticate on the same corporate SSID.
The company wants CPPM to use these authentication methods:
* EAP-TLS to authenticate users on mobile clients registered in Intune
* TEAR, with EAP-TLS as the inner method to authenticate Windows domain computers and the users on them To succeed, EAP-TLS (standalone or as a TEAP method) clients must meet these requirements:
Their certificate is valid and is not revoked, as validated by OCSP
The client's username matches an account in AD
# Requirements for assigning clients to roles
After authentication, the customer wants the CPPM to assign clients to ClearPass roles based on the following rules:
* Clients with certificates issued by Onboard are assigned the "mobile-onboarded" role
* Clients that have passed TEAP Method 1 are assigned the "domain-computer" role Clients in the AD group "Medical" are assigned the "medical-staff" role Clients in the AD group "Reception" are assigned to the "reception-staff" role The customer requires CPPM to assign authenticated clients to AOS firewall roles as follows:
* Assign medical staff on mobile-onboarded clients to the "medical-mobile" firewall role
* Assign other mobile-onboarded clients to the "mobile-other" firewall role
* Assign medical staff on domain computers to the "medical-domain" firewall role
* All reception staff on domain computers to the "reception-domain" firewall role
* All domain computers with no valid user logged in to the "computer-only" firewall role
* Deny other clients access
# Other requirements
Communications between ClearPass servers and on-prem AD domain controllers must be encrypted.
# Network topology
For the network infrastructure, this customer has Aruba APs and Aruba gateways, which are managed by Central. APs use tunneled WLANs, which tunnel traffic to the gateway cluster. The customer also has AOS-CX switches that are not managed by Central at this point.

# ClearPass cluster IP addressing and hostnames
A customer's ClearPass cluster has these IP addresses:
* Publisher = 10.47.47.5
* Subscriber 1 = 10.47.47.6
* Subscriber 2 = 10.47.47.7
* Virtual IP with Subscriber 1 and Subscriber 2 = 10.47.47.8
The customer's DNS server has these entries
* cp.acnsxtest.com = 10.47.47.5
* cps1.acnsxtest.com = 10.47.47.6
* cps2.acnsxtest.com = 10.47.47.7
* radius.acnsxtest.com = 10.47.47.8
* onboard.acnsxtest.com = 10.47.47.8
You have started to create a CA to meet the customer's requirements for issuing certificates to mobile clients, as shown in the exhibit below.

What change will help to meet those requirements and the requirements for authenticating clients?

  • A. Specify an OCSP responder, setting the hostname to localhost.
  • B. Change the EST authentication method to use an external validator.
  • C. Change the EST Digest Algorithm to SHA-512.
  • D. Recreate the CA as a registration authority under Azure AD.

正解:B


質問 # 22
Refer to the scenario.
A customer has an Aruba ClearPass cluster. The customer has AOS-CX switches that implement 802.1X authentication to ClearPass Policy Manager (CPPM).
Switches are using local port-access policies.
The customer wants to start tunneling wired clients that pass user authentication only to an Aruba gateway cluster. The gateway cluster should assign these clients to the "eth-internet" role. The gateway should also handle assigning clients to their VLAN, which is VLAN 20.
The plan for the enforcement policy and profiles is shown below:

The gateway cluster has two gateways with these IP addresses:
* Gateway 1
o VLAN 4085 (system IP) = 10.20.4.21
o VLAN 20 (users) = 10.20.20.1
o VLAN 4094 (WAN) = 198.51.100.14
* Gateway 2
o VLAN 4085 (system IP) = 10.20.4.22
o VLAN 20 (users) = 10.20.20.2
o VLAN 4094 (WAN) = 198.51.100.12
* VRRP on VLAN 20 = 10.20.20.254
The customer requires high availability for the tunnels between the switches and the gateway cluster. If one gateway falls, the other gateway should take over its tunnels. Also, the switch should be able to discover the gateway cluster regardless of whether one of the gateways is in the cluster.
Assume that you are using the "myzone" name for the UBT zone.
Which is a valid minimal configuration for the AOS-CX port-access roles?

  • A. port-access role eth-internet gateway-zone zone myzone gateway-role eth-user
  • B. port-access role internet-only gateway-zone zone myzone gateway-role eth-internet
  • C. port-access role eth-internet gateway-zone zone myzone gateway-role eth-internet vlan access 20
  • D. port-access role internet-only gateway-zone zone myzone gateway-role eth-internet vlan access 20

正解:B

解説:
Explanation
The UBT solution requires that the edge ports on the switches are configured in VLAN trunk mode, not access mode. This is because the UBT solution uses a special VLAN (VLAN 4095 by default) to encapsulate the user traffic and tunnel it to the gateway. The edge ports need to allow this VLAN as well as any other VLANs that are used for management or control traffic. Therefore, the edge ports should be configured as VLAN trunk ports and allow the necessary VLANs1


質問 # 23
A customer has an AOS 10-based solution, including Aruba APs. The customer wants to use Cloud Auth to authenticate non-802.1X capable IoT devices.
What is a prerequisite for setting up the device role mappings?

  • A. Integrating Aruba ClearPass Policy Manager (CPPM) and Device Insight
  • B. Creating global role-to-role firewall policies in Central
  • C. Configuring a NetConductor-based fabric
  • D. Configuring Device Insight (client profile) tags in Central

正解:D


質問 # 24
When would you implement BPDU protection on an AOS-CX switch port versus BPDU filtering?

  • A. Use BPDU protection on edge ports to permanently lock out rogue devices; use BPDU filtering on edge ports to temporarily lock out rogue devices.
  • B. Use BPDU protection on inter-switch ports to ensure that they are selected as root; use BPDU filtering on edge ports to prevent rogue devices from connecting.
  • C. Use BPDU protection on edge ports to prevent rogue devices from connecting; use BPDU filtering on inter-switch ports for specialized use cases.
  • D. Use BPDU protection on edge ports to protect against rogue devices when the switch implements MSTP; use BPDU filtering to protect against rogue devices when the switch implements PVSTP+.

正解:C


質問 # 25
A company has Aruba gateways that are Implementing gateway IDS/IPS in IDS mode. The customer complains that admins are receiving too frequent of repeat email notifications for the same threat. The threat itself might be one that the admins should investigate, but the customer does not want the email notification to repeat as often.
Which setting should you adjust in Aruba Central?

  • A. The allowlist settings in the IDS policy
  • B. Report scheduling settings
  • C. The IDS policy setting (strict, medium, or lenient)
  • D. Alert duration and threshold settings

正解:D

解説:
Explanation
Alert duration and threshold settings are used to control how often and under what conditions email notifications are sent for gateway IDS/IPS events 1. By adjusting these settings, the customer can reduce the frequency of repeat email notifications for the same threat, while still being informed of any critical or new threats.
To adjust the alert duration and threshold settings in Aruba Central, the customer can follow these steps 1:
In the Aruba Central app, set the filter to Global, a group, or a device.
Under Analyze, click Alerts & Events.
Click the Config icon to open the Alert Severities & Notifications page.
Select the Gateway IDS/IPS tab to view the alert categories and severities for gateway IDS/IPS events.
Click on an alert category to expand it and view the alert duration and threshold settings for each severity level.
Enter a value in minutes for the alert duration. This is the time period during which the alert is active and email notifications are sent.
Enter a value for the alert threshold. This is the number of times the alert must be triggered within the alert duration before an email notification is sent.
Click Save.
By increasing the alert duration and/or threshold values, the customer can reduce the number of email notifications for recurring threats, as they will only be sent when the threshold is reached within the duration.
For example, if the customer sets the alert duration to 60 minutes and the alert threshold to 10 for a Critical severity level, then an email notification will only be sent if the same threat occurs 10 times or more within an hour.


質問 # 26
Which element helps to lay the foundation for solid network security forensics?

  • A. Enable BPDU protection and loop protection on edqe switch ports
  • B. Implementing 802.1X authentication on switch ports that connect to APs
  • C. Enabling debug-level information for network infrastructure device logs
  • D. Ensuring that all network devices use a correct, consistent clock

正解:D

解説:
Explanation
This is because network forensics relies on the analysis of network traffic data, which is often time-stamped by the devices that generate or transmit it. Having a synchronized and accurate clock across all network devices helps to establish a reliable timeline of events and correlate different sources of evidence12
A: Enable BPDU protection and loop protection on edge switch ports is not related to network security forensics, but rather to preventing network loops and topology changes caused by rogue switches or bridges3
B: Enabling debug-level information for network infrastructure device logs might provide more details about the network activity, but it also consumes more resources and storage, and might not be relevant or useful for forensic analysis. Moreover, debug-level information might not be available for long-term retention or legal purposes4
C: Implementing 802.1X authentication on switch ports that connect to APs is a good security practice to prevent unauthorized access to the network, but it does not directly help with network security forensics. 802.1X authentication does not capture or record network traffic data, which is the main source of evidence for network forensics


質問 # 27
You are setting up Aruba ClearPass Policy Manager (CPPM) to enforce EAP-TLS authentication with Active Directory as the authentication source. The company wants to prevent users with disabled accounts from connecting even if those users still have valid certificates.
As the first part of meeting these criteria, what should you do to enable CPPM to determine where accounts are enabled in AD or not?

  • A. Add an Endpoint Context Server to the domain controller with actions for querying the domain controller for account status.
  • B. Install a Microsoft Active Directory extension in Aruba ClearPass Guest and set up an HTTP authentication source that points to that extension.
  • C. Add a custom attribute for userAccountControl to the filters in the AD authentication source.
  • D. Enable OCSP in the EAP-TLS authentication method settings and configure an OCSP override to the domain controller FQDN.

正解:C


質問 # 28
Refer to the scenario.
A customer requires these rights for clients in the "medical-mobile" AOS firewall role on Aruba Mobility Controllers (MCs):
Permitted to receive IP addresses with DHCP
* Permitted access to DNS services from 10.8.9.7 and no other server
* Permitted access to all subnets in the 10.1.0.0/16 range except denied access to 10.1.12.0/22
* Denied access to other 10.0.0.0/8 subnets
* Permitted access to the Internet
* Denied access to the WLAN for a period of time if they send any SSH traffic
* Denied access to the WLAN for a period of time if they send any Telnet traffic
* Denied access to all high-risk websites
External devices should not be permitted to initiate sessions with "medical-mobile" clients, only send return traffic.
The line below shows the effective configuration for the role.

There are multiple issues with this configuration. What is one change you must make to meet the scenario requirements? (In the options, rules in a policy are referenced from top to bottom. For example,
"medical-mobile" rule 1 is "ipv4 any any svc-dhcp permit," and rule 6 is "ipv4 any any any permit'.)

  • A. In the "medical-mobile" policy, change the action for rules 2 and 3 to reject.
  • B. Apply the "apprf-medical-mobile-sjcT policy explicitly to the 'medical-mobile' user-role under the
    'medical-mobile" policy.
  • C. In the "medical-mobile" policy, move rule 5 under rule 6.
  • D. In the "medical-mobile* policy, change the subnet mask in rule 5 to 255.255.252.0.

正解:D

解説:
Explanation
The scenario requires that the clients in the "medical-mobile" role are denied access to the 10.1.12.0/22 subnet, which is a range of IP addresses from 10.1.12.0 to 10.1.15.255. However, the current configuration in rule 5 has a subnet mask of 255.255.240.0, which means that it matches any IP address from 10.1.0.0 to
10.1.15.255. This is too broad and would deny access to other subnets in the 10.1.0.0/16 range that should be permitted according to the scenario. Therefore, the subnet mask in rule 5 should be changed to 255.255.252.0, which would match only the IP addresses from 10.1.12.0 to 10.1.15.255 and deny access to them as required by the scenario.1


質問 # 29
Refer to the scenario.
A customer has an AOS10 architecture that is managed by Aruba Central. Aruba infrastructure devices authenticate clients to an Aruba ClearPass cluster.
In Aruba Central, you are examining network traffic flows on a wireless IoT device that is categorized as
"Raspberry Pi" clients. You see SSH traffic. You then check several more wireless IoT clients and see that they are sending SSH also.
You want a fast way to find a list of all the IoT clients that have used SSH.
What step can you take?

  • A. Run a search for SSH traffic and loT client IDs in Aruba ClearPass Policy Manager's (CPPM's) accounting information.
  • B. Use Central's Live Events monitoring tool to detect which clients meet the desired criteria.
  • C. Use Central's Gateway IDS/IPS Security Dashboard to search for SSH events and sources.
  • D. Create and apply a Central client profile tag that selects the SSH application and the clients' category.

正解:B

解説:
Explanation
This is because the Live Events monitoring tool is a feature that allows you to view and filter real-time events and alerts from your network devices and clients on Aruba Central. You can use the Live Events monitoring tool to detect which IoT clients have used SSH by applying the following filters:
Category: IoT
Application: SSH
The Live Events monitoring tool will then display a list of all the IoT clients that have used SSH, along with other information such as their IP address, MAC address, hostname, SSID, AP name, etc. You can also export the list as a CSV file for further analysis or reporting.
A: Create and apply a Central client profile tag that selects the SSH application and the clients' category. This is not the fastest way to find a list of all the IoT clients that have used SSH because creating and applying a client profile tag is a process that involves several steps and might take some time to take effect. A client profile tag is a feature that allows you to group and classify clients based on various criteria, such as device type, OS, category, application, etc. To create and apply a client profile tag that selects the SSH application and the clients' category, you need to do the following:
Navigate to Clients > Client Profile Tags on Aruba Central.
Click Add Tag and enter a name and description for the tag.
Click Add Rule and select Application as the attribute and SSH as the value.
Click Add Rule again and select Category as the attribute and IoT as the value.
Click Save to create the tag.
Navigate to Clients > Client List on Aruba Central.
Select the clients that you want to apply the tag to and click Assign Tag.
Select the tag that you created and click Apply.
After applying the tag, you can then filter the client list by the tag name and see a list of all the IoT clients that have used SSH. However, this method might not be as fast or accurate as using the Live Events monitoring tool, as it depends on how often the client profile tags are updated and synchronized with Aruba Central.
B: Run a search for SSH traffic and loT client IDs in Aruba ClearPass Policy Manager's (CPPM's) accounting information. This is not the fastest way to find a list of all the IoT clients that have used SSH because running a search in CPPM's accounting information is a process that involves accessing another system and querying a large amount of data. Accounting information is a feature that allows CPPM to collect and store data about network sessions, such as start time, end time, duration, bytes sent/received, etc. To run a search for SSH traffic and IoT client IDs in CPPM's accounting information, you need to do the following:
Log in to CPPM and navigate to Monitoring > Live Monitoring > Accounting.
Click on Advanced Search and enter SSH as the value for Service Name.
Click on Add Filter and enter IoT as the value for Endpoint Category.
Click on Search to run the query.
The query will then return a list of all the network sessions that involved SSH traffic and IoT clients. However, this method might not be as fast or convenient as using the Live Events monitoring tool, as it requires logging in to another system and searching through a large amount of data that might not be relevant or current.
D: Use Central's Gateway IDS/IPS Security Dashboard to search for SSH events and sources. This is not a valid way to find a list of all the IoT clients that have used SSH because the Gateway IDS/IPS Security Dashboard is a feature that only applies to wired network devices connected to Aruba gateways, not wireless devices connected to Aruba APs. The Gateway IDS/IPS Security Dashboard is a feature that allows you to monitor and manage security events and alerts from your wired network devices on Aruba Central. You can use the Gateway IDS/IPS Security Dashboard to search for security events related to SSH, such as brute force attacks or unauthorized access attempts, but not for normal SSH traffic from wireless IoT devices. Therefore, this method will not help you find a list of all the IoT clients that have used SSH.


質問 # 30
Refer to the scenario.
# Introduction to the customer
You are helping a company add Aruba ClearPass to their network, which uses Aruba network infrastructure devices.
The company currently has a Windows domain and Windows CA. The Window CA issues certificates to domain computers, domain users, and servers such as domain controllers. An example of a certificate issued by the Windows CA is shown here.


The company is in the process of adding Microsoft Endpoint Manager (Intune) to manage its mobile clients.
The customer is maintaining the on-prem AD for now and uses Azure AD Connect to sync with Azure AD.
# Requirements for issuing certificates to mobile clients
The company wants to use ClearPass Onboard to deploy certificates automatically to mobile clients enrolled in Intune. During this process, Onboard should communicate with Azure AD to validate the clients. High availability should also be provided for this scenario; in other words, clients should be able to get certificates from Subscriber 2 if Subscriber 1 is down.
The Intune admins intend to create certificate profiles that include a UPN SAN with the UPN of the user who enrolled the device.
# Requirements for authenticating clients
The customer requires all types of clients to connect and authenticate on the same corporate SSID.
The company wants CPPM to use these authentication methods:
* EAP-TLS to authenticate users on mobile clients registered in Intune
* TEAR, with EAP-TLS as the inner method to authenticate Windows domain computers and the users on them To succeed, EAP-TLS (standalone or as a TEAP method) clients must meet these requirements:
Their certificate is valid and is not revoked, as validated by OCSP
The client's username matches an account in AD
# Requirements for assigning clients to roles
After authentication, the customer wants the CPPM to assign clients to ClearPass roles based on the following rules:
* Clients with certificates issued by Onboard are assigned the "mobile-onboarded" role
* Clients that have passed TEAP Method 1 are assigned the "domain-computer" role Clients in the AD group "Medical" are assigned the "medical-staff" role Clients in the AD group "Reception" are assigned to the "reception-staff" role The customer requires CPPM to assign authenticated clients to AOS firewall roles as follows:
* Assign medical staff on mobile-onboarded clients to the "medical-mobile" firewall role
* Assign other mobile-onboarded clients to the "mobile-other" firewall role
* Assign medical staff on domain computers to the "medical-domain" firewall role
* All reception staff on domain computers to the "reception-domain" firewall role
* All domain computers with no valid user logged in to the "computer-only" firewall role
* Deny other clients access
# Other requirements
Communications between ClearPass servers and on-prem AD domain controllers must be encrypted.
# Network topology
For the network infrastructure, this customer has Aruba APs and Aruba gateways, which are managed by Central. APs use tunneled WLANs, which tunnel traffic to the gateway cluster. The customer also has AOS-CX switches that are not managed by Central at this point.

# ClearPass cluster IP addressing and hostnames
A customer's ClearPass cluster has these IP addresses:
* Publisher = 10.47.47.5
* Subscriber 1 = 10.47.47.6
* Subscriber 2 = 10.47.47.7
* Virtual IP with Subscriber 1 and Subscriber 2 = 10.47.47.8
The customer's DNS server has these entries
* cp.acnsxtest.com = 10.47.47.5
* cps1.acnsxtest.com = 10.47.47.6
* cps2.acnsxtest.com = 10.47.47.7
* radius.acnsxtest.com = 10.47.47.8
* onboard.acnsxtest.com = 10.47.47.8
On CPPM, you are creating the authentication method shown in the exhibit below:

You will use the method for standalone EAP-TLS and for inner methods in TEAP.
What should you do?

  • A. Enable certificate comparison.
  • B. Enable authorization.
  • C. Configure OCSP override and leave the OCSP URL blank.
  • D. Configure OCSP override and set the OCSP URL to localhost/onboard/mdps ocspphp/2

正解:D


質問 # 31
Refer to the scenario.
A customer has asked you to review their AOS-CX switches for potential vulnerabilities. The configuration for these switches is shown below:

What is one recommendation to make?

  • A. Let the RADIUS server confiqure VLANs on LAG 1 dynamically.
  • B. Create a control plane ACL to limit the sources that can access the switch with SSH.
  • C. Encrypt the certificate in the TA-profile.
  • D. Use MDS instead of SHA1 for the NTP authentication key.

正解:B

解説:
Explanation
According to the AOS-CX Switches Multiple Vulnerabilities1, one of the vulnerabilities (CVE-2021-41000) affects the SSH service on AOS-CX switches. This vulnerability allows an unauthenticated remote attacker to cause a denial-of-service condition on the switch by sending specially crafted SSH packets. The impact of this vulnerability is high, as it could result in a loss of management access and network disruption. Therefore, one recommendation to make is to create a control plane ACL to limit the sources that can access the switch with SSH. This way, the switch can filter out unwanted or malicious SSH traffic and reduce the risk of exploitation.


質問 # 32
You are reviewing an endpoint entry in ClearPass Policy Manager (CPPM) Endpoints Repository.
What is a good sign that someone has been trying to gain unauthorized access to the network?

  • A. The entry shows a profile conflict of having a new profile of Computer for a profiled Printer.
  • B. The entry shows multiple DHCP options under the fingerprints.
  • C. The entry lacks a hostname or includes a hostname with long seemingly random characters.
  • D. The entry shows an Unknown status.

正解:A


質問 # 33
Refer to the scenario.
A customer requires these rights for clients in the "medical-mobile" AOS firewall role on Aruba Mobility Controllers (MCs):
Permitted to receive IP addresses with DHCP
Permitted access to DNS services from 10.8.9.7 and no other server
Permitted access to all subnets in the 10.1.0.0/16 range except denied access to 10.1.12.0/22 Denied access to other 10.0.0.0/8 subnets Permitted access to the Internet Denied access to the WLAN for a period of time if they send any SSH traffic Denied access to the WLAN for a period of time if they send any Telnet traffic Denied access to all high-risk websites External devices should not be permitted to initiate sessions with "medical-mobile" clients, only send return traffic.
The exhibits below show the configuration for the role.

There are multiple issues with the configuration.
What is one of the changes that you must make to the policies to meet the scenario requirements? (In the options, rules in a policy are referenced from top to bottom. For example, "medical-mobile" rule 1 is "ipv4 any any svc-dhcp permit," and rule 8 is "ipv4 any any any permit'.)

  • A. In the "medical-mobile" policy, change the source in rule 1 to "user."
  • B. Move the rule in the "apprf-medical-mobile-sacl" policy between rules 7 and 8 in the "medical-mobile" policy.
  • C. In the "medical-mobile" policy, change the subnet mask in rule 3 to 255.255.248.0.
  • D. In the "medical-mobile" policy, move rules 6 and 7 to the top of the list.

正解:C


質問 # 34
......


Aruba Certified Network Security Expert Writde Examとしても知られるHP HPE6-A84試験は、ネットワークセキュリティの分野の候補者の知識とスキルを検証する認定です。この試験では、安全なネットワークインフラストラクチャ、ワイヤレスセキュリティ、ファイアウォールテクノロジー、VPNテクノロジー、ネットワークアクセス制御など、ネットワークセキュリティの概念とテクノロジーに関する候補者の理解を評価します。

 

HPE6-A84問題集には100%厳密検証された問題と解答で合格保証もしくは全額返金:https://jp.fast2test.com/HPE6-A84-premium-file.html


弊社を連絡する

我々は12時間以内ですべてのお問い合わせを答えます。

我々の働いている時間: ( GMT 0:00-15:00 )
月曜日から土曜日まで

サポート: 現在連絡 

English Deutsch 繁体中文 한국어