Windows OS Platform Blog:
From the beginning of the cloud computing era, virtualization technology has enabled compute workloads to run as virtual machines (VMs) in a server environment. As hardware has become more sophisticated, and new functionality has become available, the software stack has kept VMs running seamlessly, thanks to sophisticated advances in the hypervisor and virtualization software.
Confidential computing is now a powerful technology for significantly improving the security of VMs running in the cloud. However, the trust boundary of a confidential VM imposes a barrier that prevents the hypervisor from offering the rich virtualization services that VMs normally expect. Customers desiring the benefits of confidential VMs have been forced to update the operating systems of their VMs to newer versions, which must be continually revised as confidential VM technology maintains its path of rapid evolution.
Microsoft has embraced a different approach that offers much more flexibility to customers through the use of a “paravisor”. A paravisor executes within the confidential trust boundary and provides the virtualization and device services needed by a general-purpose operating system (OS), enabling existing VM workloads to execute securely without requiring continual service of the OS to take advantage of innovative advances in confidential computing technology. As confidential computing becomes available on more hardware platforms and evolves, the software stack can keep VMs running seamlessly thanks to the paravisor, in much the same way other advances in virtualization software enabled VMs to run seamlessly on ever evolving hardware.
Introducing OpenHCL
Microsoft developed the first paravisor in the industry, and for years, we have been enhancing the paravisor offered to Azure customers. This effort now culminates in the release of a new, open source paravisor, called OpenHCL. We plan to develop OpenHCL in the open here: microsoft/openvmm: Home of OpenVMM and OpenHCL (github.com).
Today, OpenHCL can run on both x86-64 and ARM64 platforms, and it has support for Intel TDX and AMD SEV-SNP confidential computing platforms. See the OpenHCL user guide for step-by-step instructions to use it. OpenHCL offers a rich set of powerful services to both confidential and non-confidential VMs alike:
- Device emulation via standard device interfaces, such as vTPM and serial.
- Device translation via standard device interfaces.
- Diagnostics.
- Support for guests that are not fully enlightened - such as Windows and older versions of Linux - to run via standard architectural interfaces.
Open for collaboration
We still have much more we plan to do with OpenHCL, and as we develop new functionality in the open, we would love to collaborate with you. You can learn more about this project on: https://openvmm.dev. Please reach out to us if you have ideas you’d like to add to the OpenHCL roadmap or any other feedback. You can open a GitHub issue, reach out to us on Zulip, and even contribute to this project!
- the Core OS Platform team.
Source:
Announcing the open sourcing of OpenHCL | Microsoft Community Hub
From the beginning of the cloud computing era, virtualization technology has enabled compute workloads to run as virtual machines (VMs) in a server...
techcommunity.microsoft.com
See also:
OpenHCL: the new, open source paravisor
Intro From the beginning of the cloud computing era, virtualization technology has enabled compute workloads to run as virtual machines (VMs) in a server..
techcommunity.microsoft.com
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