docs/devel/vfio-migration.rst - third_party/qemu - Git at Google

 =====================
 VFIO device Migration
 =====================

 Migration of virtual machine involves saving the state for each device that
 the guest is running on source host and restoring this saved state on the
 destination host. This document details how saving and restoring of VFIO
 devices is done in QEMU.

 Migration of VFIO devices consists of two phases: the optional pre-copy phase,
 and the stop-and-copy phase. The pre-copy phase is iterative and allows to
 accommodate VFIO devices that have a large amount of data that needs to be
 transferred. The iterative pre-copy phase of migration allows for the guest to
 continue whilst the VFIO device state is transferred to the destination, this
 helps to reduce the total downtime of the VM. VFIO devices can choose to skip
 the pre-copy phase of migration by returning pending_bytes as zero during the
 pre-copy phase.

 A detailed description of the UAPI for VFIO device migration can be found in
 the comment for the ``vfio_device_migration_info`` structure in the header
 file linux-headers/linux/vfio.h.

 VFIO implements the device hooks for the iterative approach as follows:

 * A ``save_setup`` function that sets up the migration region and sets _SAVING
   flag in the VFIO device state.

 * A ``load_setup`` function that sets up the migration region on the
   destination and sets _RESUMING flag in the VFIO device state.

 * A ``save_live_pending`` function that reads pending_bytes from the vendor
   driver, which indicates the amount of data that the vendor driver has yet to
   save for the VFIO device.

 * A ``save_live_iterate`` function that reads the VFIO device's data from the
   vendor driver through the migration region during iterative phase.

 * A ``save_state`` function to save the device config space if it is present.

 * A ``save_live_complete_precopy`` function that resets _RUNNING flag from the
   VFIO device state and iteratively copies the remaining data for the VFIO
   device until the vendor driver indicates that no data remains (pending bytes
   is zero).

 * A ``load_state`` function that loads the config section and the data
   sections that are generated by the save functions above

 * ``cleanup`` functions for both save and load that perform any migration
   related cleanup, including unmapping the migration region


 The VFIO migration code uses a VM state change handler to change the VFIO
 device state when the VM state changes from running to not-running, and
 vice versa.

 Similarly, a migration state change handler is used to trigger a transition of
 the VFIO device state when certain changes of the migration state occur. For
 example, the VFIO device state is transitioned back to _RUNNING in case a
 migration failed or was canceled.

 System memory dirty pages tracking
 ----------------------------------

 A ``log_global_start`` and ``log_global_stop`` memory listener callback informs
 the VFIO IOMMU module to start and stop dirty page tracking. A ``log_sync``
 memory listener callback marks those system memory pages as dirty which are
 used for DMA by the VFIO device. The dirty pages bitmap is queried per
 container. All pages pinned by the vendor driver through external APIs have to
 be marked as dirty during migration. When there are CPU writes, CPU dirty page
 tracking can identify dirtied pages, but any page pinned by the vendor driver
 can also be written by the device. There is currently no device or IOMMU
 support for dirty page tracking in hardware.

 By default, dirty pages are tracked when the device is in pre-copy as well as
 stop-and-copy phase. So, a page pinned by the vendor driver will be copied to
 the destination in both phases. Copying dirty pages in pre-copy phase helps
 QEMU to predict if it can achieve its downtime tolerances. If QEMU during
 pre-copy phase keeps finding dirty pages continuously, then it understands
 that even in stop-and-copy phase, it is likely to find dirty pages and can
 predict the downtime accordingly.

 QEMU also provides a per device opt-out option ``pre-copy-dirty-page-tracking``
 which disables querying the dirty bitmap during pre-copy phase. If it is set to
 off, all dirty pages will be copied to the destination in stop-and-copy phase
 only.

 System memory dirty pages tracking when vIOMMU is enabled
 ---------------------------------------------------------

 With vIOMMU, an IO virtual address range can get unmapped while in pre-copy
 phase of migration. In that case, the unmap ioctl returns any dirty pages in
 that range and QEMU reports corresponding guest physical pages dirty. During
 stop-and-copy phase, an IOMMU notifier is used to get a callback for mapped
 pages and then dirty pages bitmap is fetched from VFIO IOMMU modules for those
 mapped ranges.

 Flow of state changes during Live migration
 ===========================================

 Below is the flow of state change during live migration.
 The values in the brackets represent the VM state, the migration state, and
 the VFIO device state, respectively.

 Live migration save path
 ------------------------

 ::

                         QEMU normal running state
                         (RUNNING, _NONE, _RUNNING)
                                   |
                      migrate_init spawns migration_thread
                 Migration thread then calls each device's .save_setup()
                     (RUNNING, _SETUP, _RUNNING|_SAVING)
                                   |
                     (RUNNING, _ACTIVE, _RUNNING|_SAVING)
              If device is active, get pending_bytes by .save_live_pending()
           If total pending_bytes >= threshold_size, call .save_live_iterate()
                   Data of VFIO device for pre-copy phase is copied
         Iterate till total pending bytes converge and are less than threshold
                                   |
   On migration completion, vCPU stops and calls .save_live_complete_precopy for
    each active device. The VFIO device is then transitioned into _SAVING state
                    (FINISH_MIGRATE, _DEVICE, _SAVING)
                                   |
      For the VFIO device, iterate in .save_live_complete_precopy until
                          pending data is 0
                    (FINISH_MIGRATE, _DEVICE, _STOPPED)
                                   |
                  (FINISH_MIGRATE, _COMPLETED, _STOPPED)
              Migraton thread schedules cleanup bottom half and exits

 Live migration resume path
 --------------------------

 ::

               Incoming migration calls .load_setup for each device
                        (RESTORE_VM, _ACTIVE, _STOPPED)
                                  |
        For each device, .load_state is called for that device section data
                        (RESTORE_VM, _ACTIVE, _RESUMING)
                                  |
     At the end, .load_cleanup is called for each device and vCPUs are started
                        (RUNNING, _NONE, _RUNNING)

 Postcopy
 ========

 Postcopy migration is currently not supported for VFIO devices.
	=====================
	VFIO device Migration
	=====================

	Migration of virtual machine involves saving the state for each device that
	the guest is running on source host and restoring this saved state on the
	destination host. This document details how saving and restoring of VFIO
	devices is done in QEMU.

	Migration of VFIO devices consists of two phases: the optional pre-copy phase,
	and the stop-and-copy phase. The pre-copy phase is iterative and allows to
	accommodate VFIO devices that have a large amount of data that needs to be
	transferred. The iterative pre-copy phase of migration allows for the guest to
	continue whilst the VFIO device state is transferred to the destination, this
	helps to reduce the total downtime of the VM. VFIO devices can choose to skip
	the pre-copy phase of migration by returning pending_bytes as zero during the
	pre-copy phase.

	A detailed description of the UAPI for VFIO device migration can be found in
	the comment for the ``vfio_device_migration_info`` structure in the header
	file linux-headers/linux/vfio.h.

	VFIO implements the device hooks for the iterative approach as follows:

	* A ``save_setup`` function that sets up the migration region and sets _SAVING
	flag in the VFIO device state.

	* A ``load_setup`` function that sets up the migration region on the
	destination and sets _RESUMING flag in the VFIO device state.

	* A ``save_live_pending`` function that reads pending_bytes from the vendor
	driver, which indicates the amount of data that the vendor driver has yet to
	save for the VFIO device.

	* A ``save_live_iterate`` function that reads the VFIO device's data from the
	vendor driver through the migration region during iterative phase.

	* A ``save_state`` function to save the device config space if it is present.

	* A ``save_live_complete_precopy`` function that resets _RUNNING flag from the
	VFIO device state and iteratively copies the remaining data for the VFIO
	device until the vendor driver indicates that no data remains (pending bytes
	is zero).

	* A ``load_state`` function that loads the config section and the data
	sections that are generated by the save functions above

	* ``cleanup`` functions for both save and load that perform any migration
	related cleanup, including unmapping the migration region


	The VFIO migration code uses a VM state change handler to change the VFIO
	device state when the VM state changes from running to not-running, and
	vice versa.

	Similarly, a migration state change handler is used to trigger a transition of
	the VFIO device state when certain changes of the migration state occur. For
	example, the VFIO device state is transitioned back to _RUNNING in case a
	migration failed or was canceled.

	System memory dirty pages tracking
	----------------------------------

	A ``log_global_start`` and ``log_global_stop`` memory listener callback informs
	the VFIO IOMMU module to start and stop dirty page tracking. A ``log_sync``
	memory listener callback marks those system memory pages as dirty which are
	used for DMA by the VFIO device. The dirty pages bitmap is queried per
	container. All pages pinned by the vendor driver through external APIs have to
	be marked as dirty during migration. When there are CPU writes, CPU dirty page
	tracking can identify dirtied pages, but any page pinned by the vendor driver
	can also be written by the device. There is currently no device or IOMMU
	support for dirty page tracking in hardware.

	By default, dirty pages are tracked when the device is in pre-copy as well as
	stop-and-copy phase. So, a page pinned by the vendor driver will be copied to
	the destination in both phases. Copying dirty pages in pre-copy phase helps
	QEMU to predict if it can achieve its downtime tolerances. If QEMU during
	pre-copy phase keeps finding dirty pages continuously, then it understands
	that even in stop-and-copy phase, it is likely to find dirty pages and can
	predict the downtime accordingly.

	QEMU also provides a per device opt-out option ``pre-copy-dirty-page-tracking``
	which disables querying the dirty bitmap during pre-copy phase. If it is set to
	off, all dirty pages will be copied to the destination in stop-and-copy phase
	only.

	System memory dirty pages tracking when vIOMMU is enabled
	---------------------------------------------------------

	With vIOMMU, an IO virtual address range can get unmapped while in pre-copy
	phase of migration. In that case, the unmap ioctl returns any dirty pages in
	that range and QEMU reports corresponding guest physical pages dirty. During
	stop-and-copy phase, an IOMMU notifier is used to get a callback for mapped
	pages and then dirty pages bitmap is fetched from VFIO IOMMU modules for those
	mapped ranges.

	Flow of state changes during Live migration
	===========================================

	Below is the flow of state change during live migration.
	The values in the brackets represent the VM state, the migration state, and
	the VFIO device state, respectively.

	Live migration save path
	------------------------

	::

	QEMU normal running state
	(RUNNING, _NONE, _RUNNING)
	\|
	migrate_init spawns migration_thread
	Migration thread then calls each device's .save_setup()
	(RUNNING, _SETUP, _RUNNING\|_SAVING)
	\|
	(RUNNING, _ACTIVE, _RUNNING\|_SAVING)
	If device is active, get pending_bytes by .save_live_pending()
	If total pending_bytes >= threshold_size, call .save_live_iterate()
	Data of VFIO device for pre-copy phase is copied
	Iterate till total pending bytes converge and are less than threshold
	\|
	On migration completion, vCPU stops and calls .save_live_complete_precopy for
	each active device. The VFIO device is then transitioned into _SAVING state
	(FINISH_MIGRATE, _DEVICE, _SAVING)
	\|
	For the VFIO device, iterate in .save_live_complete_precopy until
	pending data is 0
	(FINISH_MIGRATE, _DEVICE, _STOPPED)
	\|
	(FINISH_MIGRATE, _COMPLETED, _STOPPED)
	Migraton thread schedules cleanup bottom half and exits

	Live migration resume path
	--------------------------

	::

	Incoming migration calls .load_setup for each device
	(RESTORE_VM, _ACTIVE, _STOPPED)
	\|
	For each device, .load_state is called for that device section data
	(RESTORE_VM, _ACTIVE, _RESUMING)
	\|
	At the end, .load_cleanup is called for each device and vCPUs are started
	(RUNNING, _NONE, _RUNNING)

	Postcopy
	========

	Postcopy migration is currently not supported for VFIO devices.