Documentation/virtual/kvm/devices/mpic.txt - kernel/quantenna - Git at Google

 MPIC interrupt controller
 =========================

 Device types supported:
   KVM_DEV_TYPE_FSL_MPIC_20     Freescale MPIC v2.0
   KVM_DEV_TYPE_FSL_MPIC_42     Freescale MPIC v4.2

 Only one MPIC instance, of any type, may be instantiated.  The created
 MPIC will act as the system interrupt controller, connecting to each
 vcpu's interrupt inputs.

 Groups:
   KVM_DEV_MPIC_GRP_MISC
   Attributes:
     KVM_DEV_MPIC_BASE_ADDR (rw, 64-bit)
       Base address of the 256 KiB MPIC register space.  Must be
       naturally aligned.  A value of zero disables the mapping.
       Reset value is zero.

   KVM_DEV_MPIC_GRP_REGISTER (rw, 32-bit)
     Access an MPIC register, as if the access were made from the guest.
     "attr" is the byte offset into the MPIC register space.  Accesses
     must be 4-byte aligned.

     MSIs may be signaled by using this attribute group to write
     to the relevant MSIIR.

   KVM_DEV_MPIC_GRP_IRQ_ACTIVE (rw, 32-bit)
     IRQ input line for each standard openpic source.  0 is inactive and 1
     is active, regardless of interrupt sense.

     For edge-triggered interrupts:  Writing 1 is considered an activating
     edge, and writing 0 is ignored.  Reading returns 1 if a previously
     signaled edge has not been acknowledged, and 0 otherwise.

     "attr" is the IRQ number.  IRQ numbers for standard sources are the
     byte offset of the relevant IVPR from EIVPR0, divided by 32.

 IRQ Routing:

   The MPIC emulation supports IRQ routing. Only a single MPIC device can
   be instantiated. Once that device has been created, it's available as
   irqchip id 0.

   This irqchip 0 has 256 interrupt pins, which expose the interrupts in
   the main array of interrupt sources (a.k.a. "SRC" interrupts).

   The numbering is the same as the MPIC device tree binding -- based on
   the register offset from the beginning of the sources array, without
   regard to any subdivisions in chip documentation such as "internal"
   or "external" interrupts.

   Access to non-SRC interrupts is not implemented through IRQ routing mechanisms.
	MPIC interrupt controller
	=========================

	Device types supported:
	KVM_DEV_TYPE_FSL_MPIC_20 Freescale MPIC v2.0
	KVM_DEV_TYPE_FSL_MPIC_42 Freescale MPIC v4.2

	Only one MPIC instance, of any type, may be instantiated. The created
	MPIC will act as the system interrupt controller, connecting to each
	vcpu's interrupt inputs.

	Groups:
	KVM_DEV_MPIC_GRP_MISC
	Attributes:
	KVM_DEV_MPIC_BASE_ADDR (rw, 64-bit)
	Base address of the 256 KiB MPIC register space. Must be
	naturally aligned. A value of zero disables the mapping.
	Reset value is zero.

	KVM_DEV_MPIC_GRP_REGISTER (rw, 32-bit)
	Access an MPIC register, as if the access were made from the guest.
	"attr" is the byte offset into the MPIC register space. Accesses
	must be 4-byte aligned.

	MSIs may be signaled by using this attribute group to write
	to the relevant MSIIR.

	KVM_DEV_MPIC_GRP_IRQ_ACTIVE (rw, 32-bit)
	IRQ input line for each standard openpic source. 0 is inactive and 1
	is active, regardless of interrupt sense.

	For edge-triggered interrupts: Writing 1 is considered an activating
	edge, and writing 0 is ignored. Reading returns 1 if a previously
	signaled edge has not been acknowledged, and 0 otherwise.

	"attr" is the IRQ number. IRQ numbers for standard sources are the
	byte offset of the relevant IVPR from EIVPR0, divided by 32.

	IRQ Routing:

	The MPIC emulation supports IRQ routing. Only a single MPIC device can
	be instantiated. Once that device has been created, it's available as
	irqchip id 0.

	This irqchip 0 has 256 interrupt pins, which expose the interrupts in
	the main array of interrupt sources (a.k.a. "SRC" interrupts).

	The numbering is the same as the MPIC device tree binding -- based on
	the register offset from the beginning of the sources array, without
	regard to any subdivisions in chip documentation such as "internal"
	or "external" interrupts.

	Access to non-SRC interrupts is not implemented through IRQ routing mechanisms.