Libvirt driver emulator threads placement policy

https://blueprints.launchpad.net/nova/+spec/libvirt-emulator-threads-policy

The Nova scheduler determines CPU resource utilization and instance CPU placement based on the number of vCPUs in the flavor. A number of hypervisors have operations that are being performed on behalf of the guest instance in the host OS. These operations should be accounted and scheduled separately, as well as have their own placement policy controls applied.

Problem description

The Nova scheduler determines CPU resource utilization by counting the number of vCPUs allocated for each guest. When doing overcommit, as opposed to dedicated resources, this vCPU count is multiplied by an overcommit ratio. This utilization is then used to determine optimal guest placement across compute nodes, or within NUMA nodes.

A number of hypervisors, however, perform work on behalf of a guest instance in an execution context that is not associated with the virtual instance vCPUs. With KVM / QEMU, there are one or more threads associated with the QEMU process which are used for the QEMU main event loop, asynchronous I/O operation completion, migration data transfer, SPICE display I/O and more. With Xen, if the stub-domain feature is in use, there is an entire domain used to provide I/O backends for the main domain.

Nova does not have any current mechanism to either track this extra guest instance compute requirement in order to measure utilization, nor to place any control over its execution policy.

The libvirt driver has implemented a generic placement policy for KVM whereby the QEMU emulator threads are allowed to float across the same pCPUs that the instance vCPUs are running on. In other words, the emulator threads will steal some time from the vCPUs whenever they have work to do. This is just about acceptable in the case where CPU overcommit is being used. However, when guests want dedicated vCPU allocation though, there is a desire to be able to express other placement policies, for example, to allocate one or more pCPUs to be dedicated to a guest’s emulator threads. This becomes critical as Nova continues to implement support for real-time workloads, as it will not be acceptable to allow emulator threads to steal time from real-time vCPUs.

While it would be possible for the libvirt driver to add different placement policies, unless the concept of emulator threads is exposed to the scheduler in some manner, CPU usage cannot be expressed in a satisfactory manner. Thus there needs to be a way to describe to the scheduler what other CPU usage may be associated with a guest, and account for that during placement.

Use Cases

With current Nova real time support in libvirt, there is a requirement to reserve one vCPU for running non-realtime workloads. The QEMU emulator threads are pinned to run on the same host pCPU as this vCPU. While this requirement is just about acceptable for Linux guests, it prevents use of Nova to run other real time operating systems which require realtime response for all vCPUs. To broaden the realtime support it is necessary to pin emulator threads separately from vCPUs, which requires that the scheduler be able to account for extra pCPU usage per guest.

Project Priority

None

Proposed change

A pre-requisite for enabling the emulator threads placement policy feature on a flavor is that it must also have ‘hw:cpu_policy’ set to ‘dedicated’.

Each hypervisor has a different architecture, for example QEMU has emulator threads, while Xen has stub-domains. To avoid favoring any specific implementation, the idea is to extend estimate_instance_overhead to return 1 additional host CPU to take into account during claim. A user which expresses the desire to isolate emulator threads must use a flavor configured to accept that specification as:

  • hw:cpu_emulator_threads=isolate

Would say that this instance is to be considered to consume 1 additional host CPU. That pCPU used to make running emulator threads is going to always be configured on the related guest NUMA node ID 0, to make it predictable for users. Currently there is no desire to make customizable the number of host CPUs running emulator threads since only one should work for almost every use case. If in the future there is a desire to isolate more than one host CPU to run emulator threads, we would implement instead I/O threads to add granularity on dedicating used resources to run guests on host CPUs.

As we said an additional pCPU is going to be consumed but this first implementation is not going to update the user quotas, that in a spirit of simplicity since quotas already leak on different scenarios.

Alternatives

We could use a host level tunable to just reserve a set of host pCPUs for running emulator threads globally, instead of trying to account for it per instance. This would work in the simple case, but when NUMA is used, it is highly desirable to have more fine grained config to control emulator thread placement. When real-time or dedicated CPUs are used, it will be critical to separate emulator threads for different KVM instances.

Another option is to hardcode an assumption that the vCPUs number set against the flavour implicitly includes 1 vCPUs for emulator. eg a vCPU value of 5 would imply 4 actual vCPUs and 1 system pseudo-vCPU. This would likely be extremely confusing to tenant users, and developers alike.

Do nothing is always an option. If we did nothing, then it would limit the types of workload that can be run on Nova. This would have a negative impact inparticular on users making use of the dedicated vCPU feature, as there would be no way to guarantee their vCPUs are not pre-empted by emulator threads. It can be worked around to some degree with realtime by setting a fixed policy that the emulator threads only run on the vCPUs that have non-realtime policy. This requires that all guest OS using realtime are SMP, but some guest OS want realtime, but are only UP.

Data model impact

The InstanceNUMATopology object will be extended to have a new field used to store requested policy

  • emulator_threads_policy=CPUEmulatorThreadsPolicy()

This field will be implemented as an enum with two options:

  • share - The emulator threads float across the pCPUs associated to the guest.

  • isolate - The emulator threads are isolated on a single pCPU.

By default ‘shared’ will be used. It’s important to note that: Since [1] on kernel the load-balancing on CPU isolated from the kernel command line using ‘isolcpus=’ has been removed. It means that the emulator threads are not going to float on the union of pCPUs dedicated to the guest but instead be constrained to the pCPU running vCPU 0.

The InstanceNUMACell object will be extended to have a new field where physical CPUs ID will be stored and used by the driver layer to pin emulator threads

  • cpuset_reserved=SetOfIntegersField(nullable=True)

[1] https://kernel.googlesource.com/pub/scm/linux/kernel/git/stable/linux-stable/+/47b8ea7186aae7f474ec4c98f43eaa8da719cd83%5E%21/#F0

REST API impact

None

Security impact

None

Notifications impact

None

Other end user impact

For end users, using the option ‘cpu_emulator_threads’ is going to consume an additional host CPU on the resources quota regarding the guest vCPUs allocated.

Performance Impact

The NUMA and compute scheduler filters will have some changes to them, but it is not anticipated that they will become more computationally expensive to any measurable degree.

Other deployer impact

Deployers who want to use that new feature will have to configure their flavors to use a dedicated cpu policy (hw:cpu_policy=dedicated), in a same time set ‘hw:cpu_emulator_threads’ to ‘isolate’.

Developer impact

  • Developers of other virtualization drivers may wish to make use of the new flavor extra spec property and scheduler accounting. This will be of particular interest to the Xen hypervisor, if using the stub domain feature.

  • Developers of metric or GUI systems have to take into account that host CPU overhead which are going to be consumed by instances with a cpu_emulator_threads set as isolate.

Implementation

Assignee(s)

Primary assignee:

sahid-ferdjaoui

Other contributors:

berrange

Work Items

  • Enhance flavor extra spec to take into account hw:cpu_emulator_threads

  • Enhance InstanceNUMATopology to take into account cpu_emulator_threads

  • Make resource tracker to handle ‘estimate_instance_overhead’ with vcpus

  • Extend estimate_instance_overhead for libvirt

  • Make libvirt to corretly pin emulator threads if requested.

Dependencies

The realtime spec is not a pre-requisite, but is complementary to this work

Testing

This can be tested in any CI system that is capable of testing the current NUMA and dedicated CPUs policy. i.e. It requires ability to use KVM and not merely QEMU. Functionnal tests for the scheduling and driver bits (libvirt) are going to be added.

Documentation Impact

The documentation detailing NUMA and dedicated CPU policy usage will need to be extended to also describe the new options this work introduces.

References

History

Revisions

Release Name

Description

Mitaka

Proposed

Ocata

Re-proposed

Pike

Re-proposed