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|
/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
/*
* Userspace interface for /dev/acrn_hsm - ACRN Hypervisor Service Module
*
* This file can be used by applications that need to communicate with the HSM
* via the ioctl interface.
*
* Copyright (C) 2021 Intel Corporation. All rights reserved.
*/
#ifndef _UAPI_ACRN_H
#define _UAPI_ACRN_H
#include <linux/types.h>
#include <linux/uuid.h>
#define ACRN_IO_REQUEST_MAX 16
#define ACRN_IOREQ_STATE_PENDING 0
#define ACRN_IOREQ_STATE_COMPLETE 1
#define ACRN_IOREQ_STATE_PROCESSING 2
#define ACRN_IOREQ_STATE_FREE 3
#define ACRN_IOREQ_TYPE_PORTIO 0
#define ACRN_IOREQ_TYPE_MMIO 1
#define ACRN_IOREQ_TYPE_PCICFG 2
#define ACRN_IOREQ_DIR_READ 0
#define ACRN_IOREQ_DIR_WRITE 1
/**
* struct acrn_mmio_request - Info of a MMIO I/O request
* @direction: Access direction of this request (ACRN_IOREQ_DIR_*)
* @reserved: Reserved for alignment and should be 0
* @address: Access address of this MMIO I/O request
* @size: Access size of this MMIO I/O request
* @value: Read/write value of this MMIO I/O request
*/
struct acrn_mmio_request {
__u32 direction;
__u32 reserved;
__u64 address;
__u64 size;
__u64 value;
};
/**
* struct acrn_pio_request - Info of a PIO I/O request
* @direction: Access direction of this request (ACRN_IOREQ_DIR_*)
* @reserved: Reserved for alignment and should be 0
* @address: Access address of this PIO I/O request
* @size: Access size of this PIO I/O request
* @value: Read/write value of this PIO I/O request
*/
struct acrn_pio_request {
__u32 direction;
__u32 reserved;
__u64 address;
__u64 size;
__u32 value;
};
/**
* struct acrn_pci_request - Info of a PCI I/O request
* @direction: Access direction of this request (ACRN_IOREQ_DIR_*)
* @reserved: Reserved for alignment and should be 0
* @size: Access size of this PCI I/O request
* @value: Read/write value of this PIO I/O request
* @bus: PCI bus value of this PCI I/O request
* @dev: PCI device value of this PCI I/O request
* @func: PCI function value of this PCI I/O request
* @reg: PCI config space offset of this PCI I/O request
*
* Need keep same header layout with &struct acrn_pio_request.
*/
struct acrn_pci_request {
__u32 direction;
__u32 reserved[3];
__u64 size;
__u32 value;
__u32 bus;
__u32 dev;
__u32 func;
__u32 reg;
};
/**
* struct acrn_io_request - 256-byte ACRN I/O request
* @type: Type of this request (ACRN_IOREQ_TYPE_*).
* @completion_polling: Polling flag. Hypervisor will poll completion of the
* I/O request if this flag set.
* @reserved0: Reserved fields.
* @reqs: Union of different types of request. Byte offset: 64.
* @reqs.pio_request: PIO request data of the I/O request.
* @reqs.pci_request: PCI configuration space request data of the I/O request.
* @reqs.mmio_request: MMIO request data of the I/O request.
* @reqs.data: Raw data of the I/O request.
* @reserved1: Reserved fields.
* @kernel_handled: Flag indicates this request need be handled in kernel.
* @processed: The status of this request (ACRN_IOREQ_STATE_*).
*
* The state transitions of ACRN I/O request:
*
* FREE -> PENDING -> PROCESSING -> COMPLETE -> FREE -> ...
*
* An I/O request in COMPLETE or FREE state is owned by the hypervisor. HSM and
* ACRN userspace are in charge of processing the others.
*
* On basis of the states illustrated above, a typical lifecycle of ACRN IO
* request would look like:
*
* Flow (assume the initial state is FREE)
* |
* | Service VM vCPU 0 Service VM vCPU x User vCPU y
* |
* | hypervisor:
* | fills in type, addr, etc.
* | pauses the User VM vCPU y
* | sets the state to PENDING (a)
* | fires an upcall to Service VM
* |
* | HSM:
* | scans for PENDING requests
* | sets the states to PROCESSING (b)
* | assigns the requests to clients (c)
* V
* | client:
* | scans for the assigned requests
* | handles the requests (d)
* | HSM:
* | sets states to COMPLETE
* | notifies the hypervisor
* |
* | hypervisor:
* | resumes User VM vCPU y (e)
* |
* | hypervisor:
* | post handling (f)
* V sets states to FREE
*
* Note that the procedures (a) to (f) in the illustration above require to be
* strictly processed in the order. One vCPU cannot trigger another request of
* I/O emulation before completing the previous one.
*
* Atomic and barriers are required when HSM and hypervisor accessing the state
* of &struct acrn_io_request.
*
*/
struct acrn_io_request {
__u32 type;
__u32 completion_polling;
__u32 reserved0[14];
union {
struct acrn_pio_request pio_request;
struct acrn_pci_request pci_request;
struct acrn_mmio_request mmio_request;
__u64 data[8];
} reqs;
__u32 reserved1;
__u32 kernel_handled;
__u32 processed;
} __attribute__((aligned(256)));
struct acrn_io_request_buffer {
union {
struct acrn_io_request req_slot[ACRN_IO_REQUEST_MAX];
__u8 reserved[4096];
};
};
/**
* struct acrn_ioreq_notify - The structure of ioreq completion notification
* @vmid: User VM ID
* @reserved: Reserved and should be 0
* @vcpu: vCPU ID
*/
struct acrn_ioreq_notify {
__u16 vmid;
__u16 reserved;
__u32 vcpu;
};
/**
* struct acrn_vm_creation - Info to create a User VM
* @vmid: User VM ID returned from the hypervisor
* @reserved0: Reserved and must be 0
* @vcpu_num: Number of vCPU in the VM. Return from hypervisor.
* @reserved1: Reserved and must be 0
* @uuid: UUID of the VM. Pass to hypervisor directly.
* @vm_flag: Flag of the VM creating. Pass to hypervisor directly.
* @ioreq_buf: Service VM GPA of I/O request buffer. Pass to
* hypervisor directly.
* @cpu_affinity: CPU affinity of the VM. Pass to hypervisor directly.
* It's a bitmap which indicates CPUs used by the VM.
*/
struct acrn_vm_creation {
__u16 vmid;
__u16 reserved0;
__u16 vcpu_num;
__u16 reserved1;
guid_t uuid;
__u64 vm_flag;
__u64 ioreq_buf;
__u64 cpu_affinity;
};
/**
* struct acrn_gp_regs - General registers of a User VM
* @rax: Value of register RAX
* @rcx: Value of register RCX
* @rdx: Value of register RDX
* @rbx: Value of register RBX
* @rsp: Value of register RSP
* @rbp: Value of register RBP
* @rsi: Value of register RSI
* @rdi: Value of register RDI
* @r8: Value of register R8
* @r9: Value of register R9
* @r10: Value of register R10
* @r11: Value of register R11
* @r12: Value of register R12
* @r13: Value of register R13
* @r14: Value of register R14
* @r15: Value of register R15
*/
struct acrn_gp_regs {
__le64 rax;
__le64 rcx;
__le64 rdx;
__le64 rbx;
__le64 rsp;
__le64 rbp;
__le64 rsi;
__le64 rdi;
__le64 r8;
__le64 r9;
__le64 r10;
__le64 r11;
__le64 r12;
__le64 r13;
__le64 r14;
__le64 r15;
};
/**
* struct acrn_descriptor_ptr - Segment descriptor table of a User VM.
* @limit: Limit field.
* @base: Base field.
* @reserved: Reserved and must be 0.
*/
struct acrn_descriptor_ptr {
__le16 limit;
__le64 base;
__le16 reserved[3];
} __attribute__ ((__packed__));
/**
* struct acrn_regs - Registers structure of a User VM
* @gprs: General registers
* @gdt: Global Descriptor Table
* @idt: Interrupt Descriptor Table
* @rip: Value of register RIP
* @cs_base: Base of code segment selector
* @cr0: Value of register CR0
* @cr4: Value of register CR4
* @cr3: Value of register CR3
* @ia32_efer: Value of IA32_EFER MSR
* @rflags: Value of regsiter RFLAGS
* @reserved_64: Reserved and must be 0
* @cs_ar: Attribute field of code segment selector
* @cs_limit: Limit field of code segment selector
* @reserved_32: Reserved and must be 0
* @cs_sel: Value of code segment selector
* @ss_sel: Value of stack segment selector
* @ds_sel: Value of data segment selector
* @es_sel: Value of extra segment selector
* @fs_sel: Value of FS selector
* @gs_sel: Value of GS selector
* @ldt_sel: Value of LDT descriptor selector
* @tr_sel: Value of TSS descriptor selector
*/
struct acrn_regs {
struct acrn_gp_regs gprs;
struct acrn_descriptor_ptr gdt;
struct acrn_descriptor_ptr idt;
__le64 rip;
__le64 cs_base;
__le64 cr0;
__le64 cr4;
__le64 cr3;
__le64 ia32_efer;
__le64 rflags;
__le64 reserved_64[4];
__le32 cs_ar;
__le32 cs_limit;
__le32 reserved_32[3];
__le16 cs_sel;
__le16 ss_sel;
__le16 ds_sel;
__le16 es_sel;
__le16 fs_sel;
__le16 gs_sel;
__le16 ldt_sel;
__le16 tr_sel;
};
/**
* struct acrn_vcpu_regs - Info of vCPU registers state
* @vcpu_id: vCPU ID
* @reserved: Reserved and must be 0
* @vcpu_regs: vCPU registers state
*
* This structure will be passed to hypervisor directly.
*/
struct acrn_vcpu_regs {
__u16 vcpu_id;
__u16 reserved[3];
struct acrn_regs vcpu_regs;
};
#define ACRN_MEM_ACCESS_RIGHT_MASK 0x00000007U
#define ACRN_MEM_ACCESS_READ 0x00000001U
#define ACRN_MEM_ACCESS_WRITE 0x00000002U
#define ACRN_MEM_ACCESS_EXEC 0x00000004U
#define ACRN_MEM_ACCESS_RWX (ACRN_MEM_ACCESS_READ | \
ACRN_MEM_ACCESS_WRITE | \
ACRN_MEM_ACCESS_EXEC)
#define ACRN_MEM_TYPE_MASK 0x000007C0U
#define ACRN_MEM_TYPE_WB 0x00000040U
#define ACRN_MEM_TYPE_WT 0x00000080U
#define ACRN_MEM_TYPE_UC 0x00000100U
#define ACRN_MEM_TYPE_WC 0x00000200U
#define ACRN_MEM_TYPE_WP 0x00000400U
/* Memory mapping types */
#define ACRN_MEMMAP_RAM 0
#define ACRN_MEMMAP_MMIO 1
/**
* struct acrn_vm_memmap - A EPT memory mapping info for a User VM.
* @type: Type of the memory mapping (ACRM_MEMMAP_*).
* Pass to hypervisor directly.
* @attr: Attribute of the memory mapping.
* Pass to hypervisor directly.
* @user_vm_pa: Physical address of User VM.
* Pass to hypervisor directly.
* @service_vm_pa: Physical address of Service VM.
* Pass to hypervisor directly.
* @vma_base: VMA address of Service VM. Pass to hypervisor directly.
* @len: Length of the memory mapping.
* Pass to hypervisor directly.
*/
struct acrn_vm_memmap {
__u32 type;
__u32 attr;
__u64 user_vm_pa;
union {
__u64 service_vm_pa;
__u64 vma_base;
};
__u64 len;
};
/* Type of interrupt of a passthrough device */
#define ACRN_PTDEV_IRQ_INTX 0
#define ACRN_PTDEV_IRQ_MSI 1
#define ACRN_PTDEV_IRQ_MSIX 2
/**
* struct acrn_ptdev_irq - Interrupt data of a passthrough device.
* @type: Type (ACRN_PTDEV_IRQ_*)
* @virt_bdf: Virtual Bus/Device/Function
* @phys_bdf: Physical Bus/Device/Function
* @intx: Info of interrupt
* @intx.virt_pin: Virtual IOAPIC pin
* @intx.phys_pin: Physical IOAPIC pin
* @intx.is_pic_pin: Is PIC pin or not
*
* This structure will be passed to hypervisor directly.
*/
struct acrn_ptdev_irq {
__u32 type;
__u16 virt_bdf;
__u16 phys_bdf;
struct {
__u32 virt_pin;
__u32 phys_pin;
__u32 is_pic_pin;
} intx;
};
/* Type of PCI device assignment */
#define ACRN_PTDEV_QUIRK_ASSIGN (1U << 0)
#define ACRN_MMIODEV_RES_NUM 3
#define ACRN_PCI_NUM_BARS 6
/**
* struct acrn_pcidev - Info for assigning or de-assigning a PCI device
* @type: Type of the assignment
* @virt_bdf: Virtual Bus/Device/Function
* @phys_bdf: Physical Bus/Device/Function
* @intr_line: PCI interrupt line
* @intr_pin: PCI interrupt pin
* @bar: PCI BARs.
*
* This structure will be passed to hypervisor directly.
*/
struct acrn_pcidev {
__u32 type;
__u16 virt_bdf;
__u16 phys_bdf;
__u8 intr_line;
__u8 intr_pin;
__u32 bar[ACRN_PCI_NUM_BARS];
};
/**
* struct acrn_mmiodev - Info for assigning or de-assigning a MMIO device
* @name: Name of the MMIO device.
* @res[].user_vm_pa: Physical address of User VM of the MMIO region
* for the MMIO device.
* @res[].service_vm_pa: Physical address of Service VM of the MMIO
* region for the MMIO device.
* @res[].size: Size of the MMIO region for the MMIO device.
* @res[].mem_type: Memory type of the MMIO region for the MMIO
* device.
*
* This structure will be passed to hypervisor directly.
*/
struct acrn_mmiodev {
__u8 name[8];
struct {
__u64 user_vm_pa;
__u64 service_vm_pa;
__u64 size;
__u64 mem_type;
} res[ACRN_MMIODEV_RES_NUM];
};
/**
* struct acrn_vdev - Info for creating or destroying a virtual device
* @id: Union of identifier of the virtual device
* @id.value: Raw data of the identifier
* @id.fields.vendor: Vendor id of the virtual PCI device
* @id.fields.device: Device id of the virtual PCI device
* @id.fields.legacy_id: ID of the virtual device if not a PCI device
* @slot: Virtual Bus/Device/Function of the virtual
* device
* @io_base: IO resource base address of the virtual device
* @io_size: IO resource size of the virtual device
* @args: Arguments for the virtual device creation
*
* The created virtual device can be a PCI device or a legacy device (e.g.
* a virtual UART controller) and it is emulated by the hypervisor. This
* structure will be passed to hypervisor directly.
*/
struct acrn_vdev {
/*
* the identifier of the device, the low 32 bits represent the vendor
* id and device id of PCI device and the high 32 bits represent the
* device number of the legacy device
*/
union {
__u64 value;
struct {
__le16 vendor;
__le16 device;
__le32 legacy_id;
} fields;
} id;
__u64 slot;
__u32 io_addr[ACRN_PCI_NUM_BARS];
__u32 io_size[ACRN_PCI_NUM_BARS];
__u8 args[128];
};
/**
* struct acrn_msi_entry - Info for injecting a MSI interrupt to a VM
* @msi_addr: MSI addr[19:12] with dest vCPU ID
* @msi_data: MSI data[7:0] with vector
*/
struct acrn_msi_entry {
__u64 msi_addr;
__u64 msi_data;
};
struct acrn_acpi_generic_address {
__u8 space_id;
__u8 bit_width;
__u8 bit_offset;
__u8 access_size;
__u64 address;
} __attribute__ ((__packed__));
/**
* struct acrn_cstate_data - A C state package defined in ACPI
* @cx_reg: Register of the C state object
* @type: Type of the C state object
* @latency: The worst-case latency to enter and exit this C state
* @power: The average power consumption when in this C state
*/
struct acrn_cstate_data {
struct acrn_acpi_generic_address cx_reg;
__u8 type;
__u32 latency;
__u64 power;
};
/**
* struct acrn_pstate_data - A P state package defined in ACPI
* @core_frequency: CPU frequency (in MHz).
* @power: Power dissipation (in milliwatts).
* @transition_latency: The worst-case latency in microseconds that CPU is
* unavailable during a transition from any P state to
* this P state.
* @bus_master_latency: The worst-case latency in microseconds that Bus Masters
* are prevented from accessing memory during a transition
* from any P state to this P state.
* @control: The value to be written to Performance Control Register
* @status: Transition status.
*/
struct acrn_pstate_data {
__u64 core_frequency;
__u64 power;
__u64 transition_latency;
__u64 bus_master_latency;
__u64 control;
__u64 status;
};
#define PMCMD_TYPE_MASK 0x000000ff
enum acrn_pm_cmd_type {
ACRN_PMCMD_GET_PX_CNT,
ACRN_PMCMD_GET_PX_DATA,
ACRN_PMCMD_GET_CX_CNT,
ACRN_PMCMD_GET_CX_DATA,
};
#define ACRN_IOEVENTFD_FLAG_PIO 0x01
#define ACRN_IOEVENTFD_FLAG_DATAMATCH 0x02
#define ACRN_IOEVENTFD_FLAG_DEASSIGN 0x04
/**
* struct acrn_ioeventfd - Data to operate a &struct hsm_ioeventfd
* @fd: The fd of eventfd associated with a hsm_ioeventfd
* @flags: Logical-OR of ACRN_IOEVENTFD_FLAG_*
* @addr: The start address of IO range of ioeventfd
* @len: The length of IO range of ioeventfd
* @reserved: Reserved and should be 0
* @data: Data for data matching
*
* Without flag ACRN_IOEVENTFD_FLAG_DEASSIGN, ioctl ACRN_IOCTL_IOEVENTFD
* creates a &struct hsm_ioeventfd with properties originated from &struct
* acrn_ioeventfd. With flag ACRN_IOEVENTFD_FLAG_DEASSIGN, ioctl
* ACRN_IOCTL_IOEVENTFD destroys the &struct hsm_ioeventfd matching the fd.
*/
struct acrn_ioeventfd {
__u32 fd;
__u32 flags;
__u64 addr;
__u32 len;
__u32 reserved;
__u64 data;
};
#define ACRN_IRQFD_FLAG_DEASSIGN 0x01
/**
* struct acrn_irqfd - Data to operate a &struct hsm_irqfd
* @fd: The fd of eventfd associated with a hsm_irqfd
* @flags: Logical-OR of ACRN_IRQFD_FLAG_*
* @msi: Info of MSI associated with the irqfd
*/
struct acrn_irqfd {
__s32 fd;
__u32 flags;
struct acrn_msi_entry msi;
};
/* The ioctl type, documented in ioctl-number.rst */
#define ACRN_IOCTL_TYPE 0xA2
/*
* Common IOCTL IDs definition for ACRN userspace
*/
#define ACRN_IOCTL_CREATE_VM \
_IOWR(ACRN_IOCTL_TYPE, 0x10, struct acrn_vm_creation)
#define ACRN_IOCTL_DESTROY_VM \
_IO(ACRN_IOCTL_TYPE, 0x11)
#define ACRN_IOCTL_START_VM \
_IO(ACRN_IOCTL_TYPE, 0x12)
#define ACRN_IOCTL_PAUSE_VM \
_IO(ACRN_IOCTL_TYPE, 0x13)
#define ACRN_IOCTL_RESET_VM \
_IO(ACRN_IOCTL_TYPE, 0x15)
#define ACRN_IOCTL_SET_VCPU_REGS \
_IOW(ACRN_IOCTL_TYPE, 0x16, struct acrn_vcpu_regs)
#define ACRN_IOCTL_INJECT_MSI \
_IOW(ACRN_IOCTL_TYPE, 0x23, struct acrn_msi_entry)
#define ACRN_IOCTL_VM_INTR_MONITOR \
_IOW(ACRN_IOCTL_TYPE, 0x24, unsigned long)
#define ACRN_IOCTL_SET_IRQLINE \
_IOW(ACRN_IOCTL_TYPE, 0x25, __u64)
#define ACRN_IOCTL_NOTIFY_REQUEST_FINISH \
_IOW(ACRN_IOCTL_TYPE, 0x31, struct acrn_ioreq_notify)
#define ACRN_IOCTL_CREATE_IOREQ_CLIENT \
_IO(ACRN_IOCTL_TYPE, 0x32)
#define ACRN_IOCTL_ATTACH_IOREQ_CLIENT \
_IO(ACRN_IOCTL_TYPE, 0x33)
#define ACRN_IOCTL_DESTROY_IOREQ_CLIENT \
_IO(ACRN_IOCTL_TYPE, 0x34)
#define ACRN_IOCTL_CLEAR_VM_IOREQ \
_IO(ACRN_IOCTL_TYPE, 0x35)
#define ACRN_IOCTL_SET_MEMSEG \
_IOW(ACRN_IOCTL_TYPE, 0x41, struct acrn_vm_memmap)
#define ACRN_IOCTL_UNSET_MEMSEG \
_IOW(ACRN_IOCTL_TYPE, 0x42, struct acrn_vm_memmap)
#define ACRN_IOCTL_SET_PTDEV_INTR \
_IOW(ACRN_IOCTL_TYPE, 0x53, struct acrn_ptdev_irq)
#define ACRN_IOCTL_RESET_PTDEV_INTR \
_IOW(ACRN_IOCTL_TYPE, 0x54, struct acrn_ptdev_irq)
#define ACRN_IOCTL_ASSIGN_PCIDEV \
_IOW(ACRN_IOCTL_TYPE, 0x55, struct acrn_pcidev)
#define ACRN_IOCTL_DEASSIGN_PCIDEV \
_IOW(ACRN_IOCTL_TYPE, 0x56, struct acrn_pcidev)
#define ACRN_IOCTL_ASSIGN_MMIODEV \
_IOW(ACRN_IOCTL_TYPE, 0x57, struct acrn_mmiodev)
#define ACRN_IOCTL_DEASSIGN_MMIODEV \
_IOW(ACRN_IOCTL_TYPE, 0x58, struct acrn_mmiodev)
#define ACRN_IOCTL_CREATE_VDEV \
_IOW(ACRN_IOCTL_TYPE, 0x59, struct acrn_vdev)
#define ACRN_IOCTL_DESTROY_VDEV \
_IOW(ACRN_IOCTL_TYPE, 0x5A, struct acrn_vdev)
#define ACRN_IOCTL_PM_GET_CPU_STATE \
_IOWR(ACRN_IOCTL_TYPE, 0x60, __u64)
#define ACRN_IOCTL_IOEVENTFD \
_IOW(ACRN_IOCTL_TYPE, 0x70, struct acrn_ioeventfd)
#define ACRN_IOCTL_IRQFD \
_IOW(ACRN_IOCTL_TYPE, 0x71, struct acrn_irqfd)
#endif /* _UAPI_ACRN_H */
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