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Peripheral and resource redirection over the Remote Desktop Protocol

Redirection enables users to share resources and peripherals, such as the clipboard, webcams, USB devices, printers, and more, between their local device (client-side) and a remote session (server-side) over the Remote Desktop Protocol (RDP). Redirection aims to provide a seamless remote experience, comparable to the experience using their local device. This experience helps users be more productive and efficient when working remotely. As an administrator, you can configure redirection to help balance between your security requirements and the needs of your users.

This article provides detailed information about redirection methods across difference peripheral classes, redirection classifications, and the supported types of resources and peripherals you can redirect.

Redirection methods and classifications

RDP leverages two redirection methods to redirect resources and peripherals between the local device and a remote session:

  • High-level redirection: functions as an intelligent intermediary by intercepting and optimizing all communication for a specific class of peripherals or experience. High-level redirection ensures the best possible performance for remote scenarios, but also relies on peripheral driver and application support.

  • Opaque low-level redirection: transports the raw communication of a peripheral without any attempt to interpret, understand, throttle, or optimize it for remote scenarios.

    Opaque low-level redirection is used for peripherals that connect via USB where a suitable high-level peripheral reflection redirection solution doesn't exist, and for peripherals that have particular driver or software requirements in the remote session to work properly. USB redirection happens at the port and protocol level using USB request blocks (URB). Opaque low-level redirection is also used for peripherals that connect via serial/COM ports.

Within high-level redirection, there are four overarching techniques that are used, which are classified based on the direction of the redirection and the type of resource or peripheral being redirected. The four high-level redirection classifications are:

  • Peripheral reflection: reflects a specific class of peripheral connected to the local device into a remote session. This classification includes input devices, such as keyboard, mouse, touch, pen, and trackpad.

  • Data sharing: shares and transfers data between the local device and a remote session for the clipboard.

  • State reflection: reflects the local device state into a remote session, such as its battery status and location.

  • Application splitting: splits the functionality of an application across the local device and a remote session, such as Microsoft Teams.

The redirection method used can vary based on the peripheral class, such as Windows, macOS, iOS/iPadOS, or Android, and its available resources, peripherals, and capabilities. What redirection is available in a remote session is also dependent on the application used. For a comparison of the support for redirection using Windows App across different platforms, see Compare Windows App features across platforms and devices.

Important

You should use high-level redirection whenever possible, as it provides the best performance and user experience. Opaque low-level redirection is effectively a fallback scenario, so performance, reliability, and the supported feature set of such peripherals isn't guaranteed by default.

Some peripherals can't be redirected, such as encrypted USB storage.

USB redirection comparison

The following table compares redirecting a USB peripheral using opaque low-level USB redirection to redirecting the peripheral using high-level redirection with a supported peripheral class over RDP:

Opaque low-level USB redirection High-level redirection
Requires the driver for the USB peripheral to be installed in the remote session. Doesn't require the driver to be installed on the local device. Requires the driver for the peripheral to be installed on the local device. In most cases, it doesn't require the driver to be installed in the remote session.
Uses a single redirection method for many peripheral classes. Uses a specific redirection method for each peripheral class.
Forwards USB request blocks to and from the USB peripheral over the RDP connection. Exposes high-level peripheral functionality in a remote session by using an optimized protocol for the peripheral class.
The USB peripheral can't be used on the local device while it's being used in a remote session. It can only be used in one remote session at a time. The peripheral can be used simultaneously on the local device and in a remote session.
Optimized for low latency connections. Variable based on peripheral driver implementation. Optimized for LAN and WAN connections and is aware of changes in conditions, such as bandwidth and latency.

Controlling opaque low-level USB redirection

Redirecting USB peripherals using opaque low-level USB redirection is controlled by the RDP property usbdevicestoredirect:s:<value>, where <value> is the device instance path in the format USB\<Vendor ID and Product ID>\<USB instance ID>.

For some products and services, such as Azure Virtual Desktop, you can control redirection behavior by setting the RDP property value as follows:

  • Some USB peripherals might have functions that use opaque low-level USB redirection or high-level redirection. By default, these peripherals are redirected using high-level redirection. You can use the RDP property to force these peripherals to use opaque low-level USB redirection. To use USB audio peripherals with opaque low-level USB redirection, the audio output location must be set to play sounds on the local computer.

  • Use class GUIDs to redirect or not redirect an entire class of USB peripherals.

  • Use the wildcard * as the value will redirect most peripherals that don't have high-level redirection mechanisms or drivers installed. Class GUIDs can be used to redirect additional peripherals that aren't matched automatically.

Values can be used on their own, or a combination of these values can be used in conjunction with each other when separated with a semicolon, subject to a processing order. The following table lists the valid values and the processing order:

Processing order Value Description
N/A No value specified Don't redirect any supported USB peripherals using opaque low-level redirection.
1 * Redirect all peripherals that aren't using high-level redirection.
2 {<DeviceClassGUID>} Redirect all peripherals that are members of the specified device setup class.
3 <USBInstanceID> Redirect a USB peripheral specified by the given device instance path.
4 <-USBInstanceID> Don't redirect a peripheral specified by the given device instance path.

When constructed as a string in the correct processing order, the syntax is:

usbdevicestoredirect:s:*;{<DeviceClassGUID>};<USBInstanceID>;<-USBInstanceID>

The device instance path for USB devices, is constructed in three sections in the format USB\<Device ID>\<USB instance ID>. You can find this value in Device Manager, or by using the Get-PnpDevice PowerShell cmdlet. The three sections in order are:

  1. Bus driver name, in this case USB.
  2. Device ID, which contains the Vendor ID (VID) and Product ID (PID) of the USB peripheral.
  3. Instance ID, which uniquely distinguishes a device from other devices of the same type on a computer.

When specifying USB peripherals to redirect over RDP, you can use the device instance path. When using the device instance path, the value is specific to the port on the local device to which it's connected. For example, a peripheral connected to the first USB port has the device instance path USB\VID_045E&PID_0779\5&21F6DCD1&0&5, but connecting the same peripheral to the second USB port has the device instance path USB\VID_045E&PID_0779\5&21F6DCD1&0&6. For USB peripherals, specifying the device instance path means the peripheral is only redirected when connected to the same port.

Alternatively you can redirect an entire device setup class of USB peripherals by using the class GUID. When using the class GUID, all peripherals on the local device that have the corresponding class GUID are redirected, regardless of the port to which they're connected. For example, using the class GUID {4d36e96c-e325-11ce-bfc1-08002be10318} redirects all multimedia devices. A list of all the class GUIDs is available at System-Defined Device Setup Classes Available to Vendors.

For some examples of how to use the RDP property, see usbdevicestoredirect RDP property.

Supported resources and peripherals

The following table lists each supported resource or peripheral class and the recommended redirection method to use for each:

Resource or peripheral class Redirection method Predominant data flow direction
All-in-one printer/scanner Opaque low-level redirection Bidirectional
Audio input - microphone (USB or integrated) High-level - peripheral reflection Local to remote
Audio output - speaker (USB or integrated) High-level - peripheral reflection Remote to local
Battery (automatic, not configurable) High-level - state reflection Local to remote
Biometric reader (only within a session, not during logon) Opaque low-level redirection Bidirectional
Camera/webcam (USB or integrated) High-level - peripheral reflection Local to remote
CD/DVD drive (read-only) High-level - peripheral reflection Local to remote
Clipboard High-level - data sharing Bidirectional
Keyboard (USB or integrated) High-level - peripheral reflection Local to remote
Local hard drive or USB removable storage High-level - peripheral reflection Bidirectional
Location High-level - state reflection Local to remote
Mouse (USB or integrated) High-level - peripheral reflection Local to remote
MTP Media Player High-level - peripheral reflection Local to remote
Multimedia redirection High-level - application splitting Bidirectional
Pen (USB or integrated) High-level - peripheral reflection Local to remote
Printer (locally attached or network) High-level - peripheral reflection Remote to local
PTP camera High-level - peripheral reflection Local to remote
Scanner Opaque low-level redirection Bidirectional
Serial/COM port Opaque low-level redirection Bidirectional
Smart card reader High-level - peripheral reflection Bidirectional
Touch (USB or integrated) High-level - peripheral reflection Local to remote
Trackpad (USB or integrated, excluding precision touch pad (PTP) gestures) High-level - peripheral reflection Local to remote
USB to serial adapter Opaque low-level redirection Bidirectional
VoIP Telephone/Headset Opaque low-level redirection Bidirectional
WebAuthN High-level - peripheral reflection Bidirectional

Note

  • The following peripheral classes are blocked from redirection:

    • USB network adapters.
    • USB displays.
  • Scanner redirection doesn't include TWAIN support.

  • Battery redirection is only available for Azure Virtual Desktop and Windows 365. It's automatically available and not configurable.

  • Redirecting the bluetooth driver stack isn't supported. If a peripheral is connected to the local device, such as a bluetooth keyboard, it's redirected to the remote session based on the supported peripheral class.

The following diagram shows the redirection methods used for each peripheral class:

A diagram showing how different peripheral classes map to the high-level and opaque low-level redirection methods.

Configuration priority order

Which device classes are enabled for redirection and how redirections behave are configured by an administrator of a remote session. The behavior can be configured by Microsoft Intune or Group Policy (Active Directory or local) server-side, or specified in an .rdp file that is used to connect to a remote session. Azure Virtual Desktop and Remote Desktop Services also have a broker service where RDP properties can be specified instead.

However, certain settings can be overridden on the local device where a more restrictive configuration is required. A more restrictive setting takes precedence wherever it's configured; for example, if an administrator configures the clipboard to be redirected by default for all remote sessions, but the local device is configured to disable clipboard redirection, the clipboard isn't available in the remote session. This provides flexibility in scenarios where a subset of users or devices require more restrictive settings than the default configuration.