.. SPDX-License-Identifier: CC-BY-4.0 Lifecycle of a domid ==================== Overview -------- A :term:`domid` is Xen's numeric identifier for a :term:`domain`. In any operational Xen system, there are one or more domains running. Domids are 16-bit integers. Regular domids start from 0, but there are some special identifiers, e.g. ``DOMID_SELF``, and :term:`system domains`, e.g. ``DOMID_IDLE`` starting from 0x7ff0. Therefore, a Xen system can run a maximum of 32k domains concurrently. .. note:: Despite being exposed in the domid ABI, the system domains are internal to Xen and do not have lifecycles like regular domains. Therefore, they are not discussed further in this document. At system boot, Xen will construct one or more domains. Kernels and configuration for these domains must be provided by the bootloader, or at Xen's compile time for more highly integrated solutions. Correct functioning of the domain lifecycle involves ``xenstored``, and some privileged entity which has bound the ``VIRQ_DOM_EXC`` global event channel. .. note:: While not a strict requirement for these to be the same entity, it is ``xenstored`` which typically has ``VIRQ_DOM_EXC`` bound. This document is written assuming the common case. Creation -------- Within Xen, the ``domain_create()`` function is used to allocate and perform bare minimum construction of a domain. The :term:`control domain` accesses this functionality via the ``DOMCTL_createdomain`` hypercall. The final action that ``domain_create()`` performs before returning successfully is to enter the new domain into the domlist. This makes the domain "visible" within Xen, allowing the new domid to be successfully referenced by other hypercalls. At this point, the domain exists as far as Xen is concerned, but not usefully as a VM yet. The toolstack performs further construction activities; allocating vCPUs, RAM, copying in the initial executable code, etc. Domains are automatically created with one "pause" reference count held, meaning that it is not eligible for scheduling. When the toolstack has finished VM construction, it send an ``XS_INTRODUCE`` command to ``xenstored``. This instructs ``xenstored`` to connect to the guest's xenstore ring, and fire the ``@introduceDomain`` watch. The firing of this watch is the signal to all other components which care that a new VM has appeared and is about to start running. When the ``XS_INTRODUCE`` command returns successfully, the final action the toolstack performs is to unpause the guest, using the ``DOMCTL_unpausedomain`` hypercall. This drops the "pause" reference the domain was originally created with, meaning that the vCPU(s) are eligible for scheduling and the domain will start executing its first instruction. .. note:: It is common for vCPUs other than 0 to be left in an offline state, to be started by actions within the VM. Termination ----------- The VM runs for a period of time, but eventually stops. It can stop for a number of reasons, including: * Directly at the guest kernel's request, via the ``SCHEDOP_shutdown`` hypercall. The hypercall also includes the reason for the shutdown, e.g. ``poweroff``, ``reboot`` or ``crash``. * Indirectly from certain states. E.g. executing a ``HLT`` instruction with interrupts disabled is interpreted as a shutdown request as it is a common code pattern for fatal error handling when no better options are available. * Indirectly from fatal exceptions. In some states, execution is unable to continue, e.g. Triple Fault on x86. * Directly from the device model, via the ``DMOP_remote_shutdown`` hypercall. E.g. On x86, the 0xcf9 IO port is commonly used to perform platform poweroff, reset or sleep transitions. * Directly from the toolstack. The toolstack is capable of initiating cleanup directly, e.g. ``xl destroy``. This is typically an administration action of last resort to clean up a domain which malfunctioned but not terminated properly. * Directly from Xen. Some error handling ends up using ``domain_crash()`` when Xen doesn't think it can safely continue running the VM. Whatever the reason for termination, Xen ends up calling ``domain_shutdown()`` to set the shutdown reason and deschedule all vCPUs. Xen also fires the ``VIRQ_DOM_EXC`` event channel, which is a signal to ``xenstored``. Upon receiving ``VIRQ_DOM_EXC``, ``xenstored`` re-scans all domains using the ``SYSCTL_getdomaininfolist`` hypercall. If any domain has changed state from running to shut down, ``xenstored`` fires the ``@releaseDomain`` watch. The firing of this watch is the signal to all other components which care that a VM has stopped. .. note:: Xen does not treat reboot differently to poweroff; both statuses are forwarded to the toolstack. It is up to the toolstack to restart the VM, which is typically done by constructing a new domain. .. note:: Some shutdowns may not result in the cleanup of a domain. ``suspend`` for example can be used for snapshotting, and the VM resumes execution in the same domain/domid. Therefore, a domain can cycle several times between running and "shut down" before moving into the destruction phase. Destruction ----------- The domain object in Xen is reference counted, and survives until all references are dropped. The ``@releaseDomain`` watch is to inform all entities that hold a reference on the domain to clean up. This may include: * Paravirtual driver backends having a grant map of the shared ring with the frontend. * A device model with a map of the IOREQ page(s). The toolstack also has work to do in response to ``@releaseDomain``. It must issue the ``DOMCTL_destroydomain`` hypercall. This hypercall can take minutes of wall-clock time to complete for large domains as, amongst other things, it is freeing the domain's RAM back to the system. The actions triggered by the ``@releaseDomain`` watch are asynchronous. There is no guarantee as to the order in which actions start, or which action is the final one to complete. However, the toolstack can achieve some ordering by delaying the ``DOMCTL_destroydomain`` hypercall if necessary. Freeing ------- When the final reference on the domain object is dropped, Xen will remove the domain from the domlist. This means the domid is no longer visible in Xen, and no longer able to be referenced by other hypercalls. Xen then schedules the object for deletion at some point after any concurrent hypercalls referencing the domain have completed. When the object is finally cleaned up, Xen fires the ``VIRQ_DOM_EXC`` event channel again, causing ``xenstored`` to rescan an notice that the domain has ceased to exist. It fires the ``@releaseDomain`` watch a second time to signal to any components which care that the domain has gone away. E.g. The second ``@releaseDomain`` is commonly used by paravirtual driver backends to shut themselves down. At this point, the toolstack can reuse the domid for a new domain.