Documentation/virtual/kvm/devices/xive.txt - pub/scm/linux/kernel/git/klassert/ipsec-next - Git at Google

 POWER9 eXternal Interrupt Virtualization Engine (XIVE Gen1)
 ==========================================================

 Device types supported:
   KVM_DEV_TYPE_XIVE     POWER9 XIVE Interrupt Controller generation 1

 This device acts as a VM interrupt controller. It provides the KVM
 interface to configure the interrupt sources of a VM in the underlying
 POWER9 XIVE interrupt controller.

 Only one XIVE instance may be instantiated. A guest XIVE device
 requires a POWER9 host and the guest OS should have support for the
 XIVE native exploitation interrupt mode. If not, it should run using
 the legacy interrupt mode, referred as XICS (POWER7/8).

 * Device Mappings

   The KVM device exposes different MMIO ranges of the XIVE HW which
   are required for interrupt management. These are exposed to the
   guest in VMAs populated with a custom VM fault handler.

   1. Thread Interrupt Management Area (TIMA)

   Each thread has an associated Thread Interrupt Management context
   composed of a set of registers. These registers let the thread
   handle priority management and interrupt acknowledgment. The most
   important are :

       - Interrupt Pending Buffer     (IPB)
       - Current Processor Priority   (CPPR)
       - Notification Source Register (NSR)

   They are exposed to software in four different pages each proposing
   a view with a different privilege. The first page is for the
   physical thread context and the second for the hypervisor. Only the
   third (operating system) and the fourth (user level) are exposed the
   guest.

   2. Event State Buffer (ESB)

   Each source is associated with an Event State Buffer (ESB) with
   either a pair of even/odd pair of pages which provides commands to
   manage the source: to trigger, to EOI, to turn off the source for
   instance.

   3. Device pass-through

   When a device is passed-through into the guest, the source
   interrupts are from a different HW controller (PHB4) and the ESB
   pages exposed to the guest should accommadate this change.

   The passthru_irq helpers, kvmppc_xive_set_mapped() and
   kvmppc_xive_clr_mapped() are called when the device HW irqs are
   mapped into or unmapped from the guest IRQ number space. The KVM
   device extends these helpers to clear the ESB pages of the guest IRQ
   number being mapped and then lets the VM fault handler repopulate.
   The handler will insert the ESB page corresponding to the HW
   interrupt of the device being passed-through or the initial IPI ESB
   page if the device has being removed.

   The ESB remapping is fully transparent to the guest and the OS
   device driver. All handling is done within VFIO and the above
   helpers in KVM-PPC.

 * Groups:

   1. KVM_DEV_XIVE_GRP_CTRL
   Provides global controls on the device
   Attributes:
     1.1 KVM_DEV_XIVE_RESET (write only)
     Resets the interrupt controller configuration for sources and event
     queues. To be used by kexec and kdump.
     Errors: none

     1.2 KVM_DEV_XIVE_EQ_SYNC (write only)
     Sync all the sources and queues and mark the EQ pages dirty. This
     to make sure that a consistent memory state is captured when
     migrating the VM.
     Errors: none

   2. KVM_DEV_XIVE_GRP_SOURCE (write only)
   Initializes a new source in the XIVE device and mask it.
   Attributes:
     Interrupt source number  (64-bit)
   The kvm_device_attr.addr points to a __u64 value:
   bits:     | 63   ....  2 |   1   |   0
   values:   |    unused    | level | type
   - type:  0:MSI 1:LSI
   - level: assertion level in case of an LSI.
   Errors:
     -E2BIG:  Interrupt source number is out of range
     -ENOMEM: Could not create a new source block
     -EFAULT: Invalid user pointer for attr->addr.
     -ENXIO:  Could not allocate underlying HW interrupt

   3. KVM_DEV_XIVE_GRP_SOURCE_CONFIG (write only)
   Configures source targeting
   Attributes:
     Interrupt source number  (64-bit)
   The kvm_device_attr.addr points to a __u64 value:
   bits:     | 63   ....  33 |  32  | 31 .. 3 |  2 .. 0
   values:   |    eisn       | mask |  server | priority
   - priority: 0-7 interrupt priority level
   - server: CPU number chosen to handle the interrupt
   - mask: mask flag (unused)
   - eisn: Effective Interrupt Source Number
   Errors:
     -ENOENT: Unknown source number
     -EINVAL: Not initialized source number
     -EINVAL: Invalid priority
     -EINVAL: Invalid CPU number.
     -EFAULT: Invalid user pointer for attr->addr.
     -ENXIO:  CPU event queues not configured or configuration of the
              underlying HW interrupt failed
     -EBUSY:  No CPU available to serve interrupt

   4. KVM_DEV_XIVE_GRP_EQ_CONFIG (read-write)
   Configures an event queue of a CPU
   Attributes:
     EQ descriptor identifier (64-bit)
   The EQ descriptor identifier is a tuple (server, priority) :
   bits:     | 63   ....  32 | 31 .. 3 |  2 .. 0
   values:   |    unused     |  server | priority
   The kvm_device_attr.addr points to :
     struct kvm_ppc_xive_eq {
 	__u32 flags;
 	__u32 qshift;
 	__u64 qaddr;
 	__u32 qtoggle;
 	__u32 qindex;
 	__u8  pad[40];
     };
   - flags: queue flags
     KVM_XIVE_EQ_ALWAYS_NOTIFY (required)
 	forces notification without using the coalescing mechanism
 	provided by the XIVE END ESBs.
   - qshift: queue size (power of 2)
   - qaddr: real address of queue
   - qtoggle: current queue toggle bit
   - qindex: current queue index
   - pad: reserved for future use
   Errors:
     -ENOENT: Invalid CPU number
     -EINVAL: Invalid priority
     -EINVAL: Invalid flags
     -EINVAL: Invalid queue size
     -EINVAL: Invalid queue address
     -EFAULT: Invalid user pointer for attr->addr.
     -EIO:    Configuration of the underlying HW failed

   5. KVM_DEV_XIVE_GRP_SOURCE_SYNC (write only)
   Synchronize the source to flush event notifications
   Attributes:
     Interrupt source number  (64-bit)
   Errors:
     -ENOENT: Unknown source number
     -EINVAL: Not initialized source number

 * VCPU state

   The XIVE IC maintains VP interrupt state in an internal structure
   called the NVT. When a VP is not dispatched on a HW processor
   thread, this structure can be updated by HW if the VP is the target
   of an event notification.

   It is important for migration to capture the cached IPB from the NVT
   as it synthesizes the priorities of the pending interrupts. We
   capture a bit more to report debug information.

   KVM_REG_PPC_VP_STATE (2 * 64bits)
   bits:     |  63  ....  32  |  31  ....  0  |
   values:   |   TIMA word0   |   TIMA word1  |
   bits:     | 127       ..........       64  |
   values:   |            unused              |

 * Migration:

   Saving the state of a VM using the XIVE native exploitation mode
   should follow a specific sequence. When the VM is stopped :

   1. Mask all sources (PQ=01) to stop the flow of events.

   2. Sync the XIVE device with the KVM control KVM_DEV_XIVE_EQ_SYNC to
   flush any in-flight event notification and to stabilize the EQs. At
   this stage, the EQ pages are marked dirty to make sure they are
   transferred in the migration sequence.

   3. Capture the state of the source targeting, the EQs configuration
   and the state of thread interrupt context registers.

   Restore is similar :

   1. Restore the EQ configuration. As targeting depends on it.
   2. Restore targeting
   3. Restore the thread interrupt contexts
   4. Restore the source states
   5. Let the vCPU run
	POWER9 eXternal Interrupt Virtualization Engine (XIVE Gen1)
	==========================================================

	Device types supported:
	KVM_DEV_TYPE_XIVE POWER9 XIVE Interrupt Controller generation 1

	This device acts as a VM interrupt controller. It provides the KVM
	interface to configure the interrupt sources of a VM in the underlying
	POWER9 XIVE interrupt controller.

	Only one XIVE instance may be instantiated. A guest XIVE device
	requires a POWER9 host and the guest OS should have support for the
	XIVE native exploitation interrupt mode. If not, it should run using
	the legacy interrupt mode, referred as XICS (POWER7/8).

	* Device Mappings

	The KVM device exposes different MMIO ranges of the XIVE HW which
	are required for interrupt management. These are exposed to the
	guest in VMAs populated with a custom VM fault handler.

	1. Thread Interrupt Management Area (TIMA)

	Each thread has an associated Thread Interrupt Management context
	composed of a set of registers. These registers let the thread
	handle priority management and interrupt acknowledgment. The most
	important are :

	- Interrupt Pending Buffer (IPB)
	- Current Processor Priority (CPPR)
	- Notification Source Register (NSR)

	They are exposed to software in four different pages each proposing
	a view with a different privilege. The first page is for the
	physical thread context and the second for the hypervisor. Only the
	third (operating system) and the fourth (user level) are exposed the
	guest.

	2. Event State Buffer (ESB)

	Each source is associated with an Event State Buffer (ESB) with
	either a pair of even/odd pair of pages which provides commands to
	manage the source: to trigger, to EOI, to turn off the source for
	instance.

	3. Device pass-through

	When a device is passed-through into the guest, the source
	interrupts are from a different HW controller (PHB4) and the ESB
	pages exposed to the guest should accommadate this change.

	The passthru_irq helpers, kvmppc_xive_set_mapped() and
	kvmppc_xive_clr_mapped() are called when the device HW irqs are
	mapped into or unmapped from the guest IRQ number space. The KVM
	device extends these helpers to clear the ESB pages of the guest IRQ
	number being mapped and then lets the VM fault handler repopulate.
	The handler will insert the ESB page corresponding to the HW
	interrupt of the device being passed-through or the initial IPI ESB
	page if the device has being removed.

	The ESB remapping is fully transparent to the guest and the OS
	device driver. All handling is done within VFIO and the above
	helpers in KVM-PPC.

	* Groups:

	1. KVM_DEV_XIVE_GRP_CTRL
	Provides global controls on the device
	Attributes:
	1.1 KVM_DEV_XIVE_RESET (write only)
	Resets the interrupt controller configuration for sources and event
	queues. To be used by kexec and kdump.
	Errors: none

	1.2 KVM_DEV_XIVE_EQ_SYNC (write only)
	Sync all the sources and queues and mark the EQ pages dirty. This
	to make sure that a consistent memory state is captured when
	migrating the VM.
	Errors: none

	2. KVM_DEV_XIVE_GRP_SOURCE (write only)
	Initializes a new source in the XIVE device and mask it.
	Attributes:
	Interrupt source number (64-bit)
	The kvm_device_attr.addr points to a __u64 value:
	bits: \| 63 .... 2 \| 1 \| 0
	values: \| unused \| level \| type
	- type: 0:MSI 1:LSI
	- level: assertion level in case of an LSI.
	Errors:
	-E2BIG: Interrupt source number is out of range
	-ENOMEM: Could not create a new source block
	-EFAULT: Invalid user pointer for attr->addr.
	-ENXIO: Could not allocate underlying HW interrupt

	3. KVM_DEV_XIVE_GRP_SOURCE_CONFIG (write only)
	Configures source targeting
	Attributes:
	Interrupt source number (64-bit)
	The kvm_device_attr.addr points to a __u64 value:
	bits: \| 63 .... 33 \| 32 \| 31 .. 3 \| 2 .. 0
	values: \| eisn \| mask \| server \| priority
	- priority: 0-7 interrupt priority level
	- server: CPU number chosen to handle the interrupt
	- mask: mask flag (unused)
	- eisn: Effective Interrupt Source Number
	Errors:
	-ENOENT: Unknown source number
	-EINVAL: Not initialized source number
	-EINVAL: Invalid priority
	-EINVAL: Invalid CPU number.
	-EFAULT: Invalid user pointer for attr->addr.
	-ENXIO: CPU event queues not configured or configuration of the
	underlying HW interrupt failed
	-EBUSY: No CPU available to serve interrupt

	4. KVM_DEV_XIVE_GRP_EQ_CONFIG (read-write)
	Configures an event queue of a CPU
	Attributes:
	EQ descriptor identifier (64-bit)
	The EQ descriptor identifier is a tuple (server, priority) :
	bits: \| 63 .... 32 \| 31 .. 3 \| 2 .. 0
	values: \| unused \| server \| priority
	The kvm_device_attr.addr points to :
	struct kvm_ppc_xive_eq {
	__u32 flags;
	__u32 qshift;
	__u64 qaddr;
	__u32 qtoggle;
	__u32 qindex;
	__u8 pad[40];
	};
	- flags: queue flags
	KVM_XIVE_EQ_ALWAYS_NOTIFY (required)
	forces notification without using the coalescing mechanism
	provided by the XIVE END ESBs.
	- qshift: queue size (power of 2)
	- qaddr: real address of queue
	- qtoggle: current queue toggle bit
	- qindex: current queue index
	- pad: reserved for future use
	Errors:
	-ENOENT: Invalid CPU number
	-EINVAL: Invalid priority
	-EINVAL: Invalid flags
	-EINVAL: Invalid queue size
	-EINVAL: Invalid queue address
	-EFAULT: Invalid user pointer for attr->addr.
	-EIO: Configuration of the underlying HW failed

	5. KVM_DEV_XIVE_GRP_SOURCE_SYNC (write only)
	Synchronize the source to flush event notifications
	Attributes:
	Interrupt source number (64-bit)
	Errors:
	-ENOENT: Unknown source number
	-EINVAL: Not initialized source number

	* VCPU state

	The XIVE IC maintains VP interrupt state in an internal structure
	called the NVT. When a VP is not dispatched on a HW processor
	thread, this structure can be updated by HW if the VP is the target
	of an event notification.

	It is important for migration to capture the cached IPB from the NVT
	as it synthesizes the priorities of the pending interrupts. We
	capture a bit more to report debug information.

	KVM_REG_PPC_VP_STATE (2 * 64bits)
	bits: \| 63 .... 32 \| 31 .... 0 \|
	values: \| TIMA word0 \| TIMA word1 \|
	bits: \| 127 .......... 64 \|
	values: \| unused \|

	* Migration:

	Saving the state of a VM using the XIVE native exploitation mode
	should follow a specific sequence. When the VM is stopped :

	1. Mask all sources (PQ=01) to stop the flow of events.

	2. Sync the XIVE device with the KVM control KVM_DEV_XIVE_EQ_SYNC to
	flush any in-flight event notification and to stabilize the EQs. At
	this stage, the EQ pages are marked dirty to make sure they are
	transferred in the migration sequence.

	3. Capture the state of the source targeting, the EQs configuration
	and the state of thread interrupt context registers.

	Restore is similar :

	1. Restore the EQ configuration. As targeting depends on it.
	2. Restore targeting
	3. Restore the thread interrupt contexts
	4. Restore the source states
	5. Let the vCPU run