All posts in category device tunnel

Always On VPN and Interface Metrics

Always On VPN DNS Registration Update Available

In Windows, each network interface identified by the operating system is assigned a metric value. Interface metrics are settings that determine the priority or preference of network interfaces when there are multiple active network connections. The Windows networking stack uses these metrics to determine which network interface should be used for routing traffic when multiple network interfaces are available. Network interface metrics are critical for Always On VPN administrators to understand because they can impact how name resolution requests are processed when an Always On VPN connection is established.

Metric Values

By default, Windows automatically assigns metric values to network interfaces (including VPN interfaces) based on various factors, including the connection speed, link state, and interface type. It tries to select the most suitable interface for general internet connectivity.

Metrics and DNS

Windows will also use the network interface with the lowest metric value as the preferred interface for sending DNS queries by default. This means that DNS queries will be routed through the network interface with the lowest metric value, assuming it is available and connected. When an Always On VPN connection is established, DNS queries may fail or return unexpected results if the network interface metrics are not configured optimally.

Split DNS and Wired Ethernet

Split DNS (sometimes called ‘split brain DNS’) is when the DNS namespace is the same internally and externally. The most common scenario where interface metric settings interfere with DNS operation is when using split DNS and the endpoint is connected to the Internet with a wired Ethernet connection. In this scenario, the Ethernet interface will be assigned the same or lower interface metric value as the Always On VPN interface, which can yield unexpected results.

Viewing Metrics

Always On VPN administrators can view currently assigned interface metric values by running the following PowerShell command.

Get-NetIpInterface

Assigning Metrics

Most Always On VPN administrators will never have to change interface metric settings. However, if your implementation uses split DNS and some of your endpoints connect using wired Ethernet connections, you may need to update the interface metric settings to ensure proper DNS operation. Choose a setting for the interface metric value that is lower than the wired Ethernet interface. I’ve used a value of ‘3’ without issue for many years. Use one of the following methods to update the interface metric for Always On VPN connections.

PowerShell

Updating interface metric settings in Windows can be accomplished by running the Set-NetIpInterface PowerShell command.

Set-NetIpInterface -InterfaceAlias <connection name> -InterfaceMetric 3

Note: Using PowerShell to assign the interface metric is not persistent! While this method is suitable for local validation testing, you should use one of the following methods to implement this change permanently.

Rasphone.pbk

To assign the interface metric permanently, Always On VPN administrators can edit the following settings in the rasphone.pbk configuration file.

IpInterfaceMetric=3

Ipv6InterfaceMetric=3

Administrators can automate updating this setting using the Update-Rasphone.ps1 PowerShell script. In addition, the following scripts can be used with Microsoft Intune remediation.

Detect-DeviceIpv4InterfaceMetric.ps1

Remediate-DeviceIpv4InterfaceMetric.ps1

Detect-DeviceIpv6InterfaceMetric.ps1

Remediate-DeviceIpv6InterfaceMetric.ps1

Detect-Ipv4InterfaceMetric.ps1

Remediate-Ipv4InterfaceMetric.ps1

Detect-Ipv6InterfaceMetric.ps1

Remediate-Ipv6InterfaceMetric.ps1

DPC

Organizations using PowerON Platforms’ Dynamic Profile Configurator (DPC) to manage Always On VPN client configuration settings with Active Directory and group policy or Microsoft Intune can enable the VPN Tunnel Metric setting.

Additional Information

Get-NetIpInterface PowerShell Command

Set-NetIpInterface PowerShell Command

Managing Always On VPN Client Settings with DPC

Always On VPN DPC with Microsoft Intune

Always On VPN DPC Advanced Features

Always On VPN DPC Video Demonstration

PowerON Platforms Always On VPN Dynamic Profile Configurator (DPC)

11 Comments
by Richard M. Hicks on September 25, 2023  •  Permalink
Posted in Active Directory, administration, Always On VPN, Always On VPN DPC, AOVPN, AovpnDPC, Deployment, Device Management, device tunnel, DNS, DPC, Dynamic Profile Configurator, Endpoint Manager, Enterprise, enterprise mobility, Group Policy, HAADJ, Hybrid Azure AD Join, Infrastructure, MDM, MEM, MEMCM, Microsoft, Microsoft Endpoint Manager, Microsoft Intune, Mobile Device Management, Mobility, Name Resolution, Operational Support, PowerShell, ProfileXML, Remote Access, Split DNS, split tunnel, split tunneling, systems management, user tunnel, VPN, Windows 10, Windows 11, XML
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Posted by Richard M. Hicks on September 25, 2023

https://directaccess.richardhicks.com/2023/09/25/always-on-vpn-and-interface-metrics/

Intune Certificate Connector Configuration Failed

Troubleshooting Always On VPN Error 691 and 812 – Part 2

The Microsoft Intune Certificate Connector must be deployed on-premises to provision and manage enterprise PKI certificates using Intune. The Intune Certificate Connector supports the deployment of SCEP, PKCS, PKCS imported certificates, or any combination of these. The connector can be configured to run under the SYSTEM account or optionally (and recommended) a domain service account. When using a service account, the service account must have permission to log on as a service on the server where the Intune Certificate Connector server.

Access is Denied

Even when all prerequisites are met, administrators may still find the installation of the Intune Certificate Connector fails with the following error message.

“Configuring Microsoft Intune Certificate Connector failed. No changes were made to Feature or Proxy settings. Please try again.”

“Unexpected Failure. Error: System.lnvalidOperationException: Cannot open PFXCertificateConnectorSvc service on computer ‘.’ System.ComponentModel.Win32Exception: Access is denied”

Workaround

After the connector installation fails, open the file explore and navigate to C:\Program Files\Microsoft Intune\PFXCertificateConnector\ConnectorUI. Right-click PFXCertificateConnectorUI.exe and choose ‘Run as administrator’.

Run through the connector installation wizard again, and it should install without issue.

To avoid this problem for future Intune Certificate Connector deployments, administrators can right-click the Intune Certificate Connector installer (IntuneCertificateConnector.exe) and choose ‘Run as administrator’.

Additional Information

Microsoft Intune Certificate Connector Configuration Failure (Part 1)

Microsoft Intune Certificate Connector Service Account and PKCS

Microsoft Intune Learning Resources for Always On VPN Admins

Microsoft Intune Certificate Connector Overview

2 Comments
by Richard M. Hicks on May 24, 2023  •  Permalink
Posted in Active Directory, administration, Always On VPN, AOVPN, cloud, Deployment, Device Management, device tunnel, Endpoint Manager, Enterprise, enterprise mobility, Infrastructure, Intune, Intune Certificate Connector, Intune PFX Connector, MDM, MEM, Microsoft, Microsoft Endpoint Manager, Microsoft Intune, Mobile Device Management, Mobility, NDES, Operational Support, PFX Connector, PKCS, PKI, public cloud, Remote Access, SCEP, Security, Simple Certificate Enrollment Protocol, troubleshooting, user tunnel, VPN, Windows 10, Windows 11
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Posted by Richard M. Hicks on May 24, 2023

https://directaccess.richardhicks.com/2023/05/24/intune-certificate-connector-configuration-failed/

Always On VPN May 2023 Security Updates

Hey, Always On VPN administrators! It’s the second Tuesday of the month, which means security updates for Windows have been released. This month’s batch includes an update to address a critical vulnerability likely to affect many Always On VPN implementations using Windows Server.

SSTP Vulnerability

CVE-2023-24903 documents a vulnerability on Windows Servers with the Routing and Remote Access Service (RRAS) configured to support Secure Socket Tunneling Protocol (SSTP) for VPN connections. This is a remote code execution (RCE) vulnerability that can be exploited when an attacker sends a specifically crafted malicious packet to the server. Administrators are encouraged to update as soon as possible.

Mitigation

SSTP is commonly used for Always On VPN user tunnels. However, if administrators have configured user tunnels using IKEv2, or are using the device tunnel only, consider blocking inbound TCP 443 at the edge firewall to prevent attacks from the Internet. In addition, if SSTP is not in use, consider disabling support for SSTP by opening an elevated PowerShell command window and running the following commands.

netsh.exe RAS set wanports device = “WAN Miniport (SSTP)” rasinonly = disabled ddinout = disabled ddoutonly = disabled maxports = 0

Restart-Service RemoteAccess -PassThru

Alternatively, SSTP can be disabled in the RRAS management console by following the steps below.

  1. Open the RRAS management console (rrasmgmt.msc).
  2. Expand the server.
  3. Right-click Ports.
  4. Choose Properties.
  5. Highlight WAN Miniport (SSTP).
  6. Click Configure.
  7. Uncheck Remote access connections (inbound only).
  8. Uncheck Demand-dial routing connections (inbound and outbound).
  9. Enter 0 in the Maximum ports field.
  10. Click Ok.

Additional Information

Windows SSTP Remote Code Execution Vulnerability (CVE-2023-24903)

May 2023 Security Updates for Windows Server 2016 (KB5026363)

May 2023 Security Updates for Windows Server 2019 (KB5026362)

May 2023 Security Updates for Windows Server 2022 (KB5026370)

1 Comment
by Richard M. Hicks on May 9, 2023  •  Permalink
Posted in administration, Always On VPN, AOVPN, device tunnel, Enterprise, enterprise mobility, IKEv2, Infrastructure, Microsoft, Mobility, Operational Support, PowerShell, Remote Access, routing and remote access service, RRAS, Secure Socket Tunneling Protocol, Security, SSTP, TLS, Update, user tunnel, VPN, Windows 10, Windows 11, Windows Server 2016, Windows Server 2019, Windows Server 2022
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Posted by Richard M. Hicks on May 9, 2023

https://directaccess.richardhicks.com/2023/05/09/always-on-vpn-may-2023-security-updates/

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