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|
/* $OpenBSD: vmmvar.h,v 1.78 2022/06/26 06:49:09 dv Exp $ */
/*
* Copyright (c) 2014 Mike Larkin <mlarkin@openbsd.org>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
/*
* CPU capabilities for VMM operation
*/
#ifndef _MACHINE_VMMVAR_H_
#define _MACHINE_VMMVAR_H_
#define VMM_HV_SIGNATURE "OpenBSDVMM58"
#define VMM_MAX_MEM_RANGES 16
#define VMM_MAX_DISKS_PER_VM 4
#define VMM_MAX_PATH_DISK 128
#define VMM_MAX_PATH_CDROM 128
#define VMM_MAX_NAME_LEN 64
#define VMM_MAX_KERNEL_PATH 128
#define VMM_MAX_VCPUS 512
#define VMM_MAX_VCPUS_PER_VM 64
#define VMM_MAX_VM_MEM_SIZE 32L * 1024 * 1024 * 1024 /* 32 GiB */
#define VMM_MAX_NICS_PER_VM 4
#define VMM_PCI_MMIO_BAR_BASE 0xF0000000ULL
#define VMM_PCI_MMIO_BAR_END 0xFFDFFFFFULL /* 2 MiB below 4 GiB */
#define VMM_PCI_MMIO_BAR_SIZE 0x00010000
#define VMM_PCI_IO_BAR_BASE 0x1000
#define VMM_PCI_IO_BAR_END 0xFFFF
#define VMM_PCI_IO_BAR_SIZE 0x1000
/* VMX: Basic Exit Reasons */
#define VMX_EXIT_NMI 0
#define VMX_EXIT_EXTINT 1
#define VMX_EXIT_TRIPLE_FAULT 2
#define VMX_EXIT_INIT 3
#define VMX_EXIT_SIPI 4
#define VMX_EXIT_IO_SMI 5
#define VMX_EXIT_OTHER_SMI 6
#define VMX_EXIT_INT_WINDOW 7
#define VMX_EXIT_NMI_WINDOW 8
#define VMX_EXIT_TASK_SWITCH 9
#define VMX_EXIT_CPUID 10
#define VMX_EXIT_GETSEC 11
#define VMX_EXIT_HLT 12
#define VMX_EXIT_INVD 13
#define VMX_EXIT_INVLPG 14
#define VMX_EXIT_RDPMC 15
#define VMX_EXIT_RDTSC 16
#define VMX_EXIT_RSM 17
#define VMX_EXIT_VMCALL 18
#define VMX_EXIT_VMCLEAR 19
#define VMX_EXIT_VMLAUNCH 20
#define VMX_EXIT_VMPTRLD 21
#define VMX_EXIT_VMPTRST 22
#define VMX_EXIT_VMREAD 23
#define VMX_EXIT_VMRESUME 24
#define VMX_EXIT_VMWRITE 25
#define VMX_EXIT_VMXOFF 26
#define VMX_EXIT_VMXON 27
#define VMX_EXIT_CR_ACCESS 28
#define VMX_EXIT_MOV_DR 29
#define VMX_EXIT_IO 30
#define VMX_EXIT_RDMSR 31
#define VMX_EXIT_WRMSR 32
#define VMX_EXIT_ENTRY_FAILED_GUEST_STATE 33
#define VMX_EXIT_ENTRY_FAILED_MSR_LOAD 34
#define VMX_EXIT_MWAIT 36
#define VMX_EXIT_MTF 37
#define VMX_EXIT_MONITOR 39
#define VMX_EXIT_PAUSE 40
#define VMX_EXIT_ENTRY_FAILED_MCE 41
#define VMX_EXIT_TPR_BELOW_THRESHOLD 43
#define VMX_EXIT_APIC_ACCESS 44
#define VMX_EXIT_VIRTUALIZED_EOI 45
#define VMX_EXIT_GDTR_IDTR 46
#define VMX_EXIT_LDTR_TR 47
#define VMX_EXIT_EPT_VIOLATION 48
#define VMX_EXIT_EPT_MISCONFIGURATION 49
#define VMX_EXIT_INVEPT 50
#define VMX_EXIT_RDTSCP 51
#define VMX_EXIT_VMX_PREEMPTION_TIMER_EXPIRED 52
#define VMX_EXIT_INVVPID 53
#define VMX_EXIT_WBINVD 54
#define VMX_EXIT_XSETBV 55
#define VMX_EXIT_APIC_WRITE 56
#define VMX_EXIT_RDRAND 57
#define VMX_EXIT_INVPCID 58
#define VMX_EXIT_VMFUNC 59
#define VMX_EXIT_RDSEED 61
#define VMX_EXIT_XSAVES 63
#define VMX_EXIT_XRSTORS 64
/*
* VMX: Misc defines
*/
#define VMX_MAX_CR3_TARGETS 256
#define VMX_VMCS_PA_CLEAR 0xFFFFFFFFFFFFFFFFUL
#define VM_EXIT_TERMINATED 0xFFFE
#define VM_EXIT_NONE 0xFFFF
/*
* SVM: Intercept codes (exit reasons)
*/
#define SVM_VMEXIT_CR0_READ 0x00
#define SVM_VMEXIT_CR1_READ 0x01
#define SVM_VMEXIT_CR2_READ 0x02
#define SVM_VMEXIT_CR3_READ 0x03
#define SVM_VMEXIT_CR4_READ 0x04
#define SVM_VMEXIT_CR5_READ 0x05
#define SVM_VMEXIT_CR6_READ 0x06
#define SVM_VMEXIT_CR7_READ 0x07
#define SVM_VMEXIT_CR8_READ 0x08
#define SVM_VMEXIT_CR9_READ 0x09
#define SVM_VMEXIT_CR10_READ 0x0A
#define SVM_VMEXIT_CR11_READ 0x0B
#define SVM_VMEXIT_CR12_READ 0x0C
#define SVM_VMEXIT_CR13_READ 0x0D
#define SVM_VMEXIT_CR14_READ 0x0E
#define SVM_VMEXIT_CR15_READ 0x0F
#define SVM_VMEXIT_CR0_WRITE 0x10
#define SVM_VMEXIT_CR1_WRITE 0x11
#define SVM_VMEXIT_CR2_WRITE 0x12
#define SVM_VMEXIT_CR3_WRITE 0x13
#define SVM_VMEXIT_CR4_WRITE 0x14
#define SVM_VMEXIT_CR5_WRITE 0x15
#define SVM_VMEXIT_CR6_WRITE 0x16
#define SVM_VMEXIT_CR7_WRITE 0x17
#define SVM_VMEXIT_CR8_WRITE 0x18
#define SVM_VMEXIT_CR9_WRITE 0x19
#define SVM_VMEXIT_CR10_WRITE 0x1A
#define SVM_VMEXIT_CR11_WRITE 0x1B
#define SVM_VMEXIT_CR12_WRITE 0x1C
#define SVM_VMEXIT_CR13_WRITE 0x1D
#define SVM_VMEXIT_CR14_WRITE 0x1E
#define SVM_VMEXIT_CR15_WRITE 0x1F
#define SVM_VMEXIT_DR0_READ 0x20
#define SVM_VMEXIT_DR1_READ 0x21
#define SVM_VMEXIT_DR2_READ 0x22
#define SVM_VMEXIT_DR3_READ 0x23
#define SVM_VMEXIT_DR4_READ 0x24
#define SVM_VMEXIT_DR5_READ 0x25
#define SVM_VMEXIT_DR6_READ 0x26
#define SVM_VMEXIT_DR7_READ 0x27
#define SVM_VMEXIT_DR8_READ 0x28
#define SVM_VMEXIT_DR9_READ 0x29
#define SVM_VMEXIT_DR10_READ 0x2A
#define SVM_VMEXIT_DR11_READ 0x2B
#define SVM_VMEXIT_DR12_READ 0x2C
#define SVM_VMEXIT_DR13_READ 0x2D
#define SVM_VMEXIT_DR14_READ 0x2E
#define SVM_VMEXIT_DR15_READ 0x2F
#define SVM_VMEXIT_DR0_WRITE 0x30
#define SVM_VMEXIT_DR1_WRITE 0x31
#define SVM_VMEXIT_DR2_WRITE 0x32
#define SVM_VMEXIT_DR3_WRITE 0x33
#define SVM_VMEXIT_DR4_WRITE 0x34
#define SVM_VMEXIT_DR5_WRITE 0x35
#define SVM_VMEXIT_DR6_WRITE 0x36
#define SVM_VMEXIT_DR7_WRITE 0x37
#define SVM_VMEXIT_DR8_WRITE 0x38
#define SVM_VMEXIT_DR9_WRITE 0x39
#define SVM_VMEXIT_DR10_WRITE 0x3A
#define SVM_VMEXIT_DR11_WRITE 0x3B
#define SVM_VMEXIT_DR12_WRITE 0x3C
#define SVM_VMEXIT_DR13_WRITE 0x3D
#define SVM_VMEXIT_DR14_WRITE 0x3E
#define SVM_VMEXIT_DR15_WRITE 0x3F
#define SVM_VMEXIT_EXCP0 0x40
#define SVM_VMEXIT_EXCP1 0x41
#define SVM_VMEXIT_EXCP2 0x42
#define SVM_VMEXIT_EXCP3 0x43
#define SVM_VMEXIT_EXCP4 0x44
#define SVM_VMEXIT_EXCP5 0x45
#define SVM_VMEXIT_EXCP6 0x46
#define SVM_VMEXIT_EXCP7 0x47
#define SVM_VMEXIT_EXCP8 0x48
#define SVM_VMEXIT_EXCP9 0x49
#define SVM_VMEXIT_EXCP10 0x4A
#define SVM_VMEXIT_EXCP11 0x4B
#define SVM_VMEXIT_EXCP12 0x4C
#define SVM_VMEXIT_EXCP13 0x4D
#define SVM_VMEXIT_EXCP14 0x4E
#define SVM_VMEXIT_EXCP15 0x4F
#define SVM_VMEXIT_EXCP16 0x50
#define SVM_VMEXIT_EXCP17 0x51
#define SVM_VMEXIT_EXCP18 0x52
#define SVM_VMEXIT_EXCP19 0x53
#define SVM_VMEXIT_EXCP20 0x54
#define SVM_VMEXIT_EXCP21 0x55
#define SVM_VMEXIT_EXCP22 0x56
#define SVM_VMEXIT_EXCP23 0x57
#define SVM_VMEXIT_EXCP24 0x58
#define SVM_VMEXIT_EXCP25 0x59
#define SVM_VMEXIT_EXCP26 0x5A
#define SVM_VMEXIT_EXCP27 0x5B
#define SVM_VMEXIT_EXCP28 0x5C
#define SVM_VMEXIT_EXCP29 0x5D
#define SVM_VMEXIT_EXCP30 0x5E
#define SVM_VMEXIT_EXCP31 0x5F
#define SVM_VMEXIT_INTR 0x60
#define SVM_VMEXIT_NMI 0x61
#define SVM_VMEXIT_SMI 0x62
#define SVM_VMEXIT_INIT 0x63
#define SVM_VMEXIT_VINTR 0x64
#define SVM_VMEXIT_CR0_SEL_WRITE 0x65
#define SVM_VMEXIT_IDTR_READ 0x66
#define SVM_VMEXIT_GDTR_READ 0x67
#define SVM_VMEXIT_LDTR_READ 0x68
#define SVM_VMEXIT_TR_READ 0x69
#define SVM_VMEXIT_IDTR_WRITE 0x6A
#define SVM_VMEXIT_GDTR_WRITE 0x6B
#define SVM_VMEXIT_LDTR_WRITE 0x6C
#define SVM_VMEXIT_TR_WRITE 0x6D
#define SVM_VMEXIT_RDTSC 0x6E
#define SVM_VMEXIT_RDPMC 0x6F
#define SVM_VMEXIT_PUSHF 0x70
#define SVM_VMEXIT_POPF 0x71
#define SVM_VMEXIT_CPUID 0x72
#define SVM_VMEXIT_RSM 0x73
#define SVM_VMEXIT_IRET 0x74
#define SVM_VMEXIT_SWINT 0x75
#define SVM_VMEXIT_INVD 0x76
#define SVM_VMEXIT_PAUSE 0x77
#define SVM_VMEXIT_HLT 0x78
#define SVM_VMEXIT_INVLPG 0x79
#define SVM_VMEXIT_INVLPGA 0x7A
#define SVM_VMEXIT_IOIO 0x7B
#define SVM_VMEXIT_MSR 0x7C
#define SVM_VMEXIT_TASK_SWITCH 0x7D
#define SVM_VMEXIT_FERR_FREEZE 0x7E
#define SVM_VMEXIT_SHUTDOWN 0x7F
#define SVM_VMEXIT_VMRUN 0x80
#define SVM_VMEXIT_VMMCALL 0x81
#define SVM_VMEXIT_VMLOAD 0x82
#define SVM_VMEXIT_VMSAVE 0x83
#define SVM_VMEXIT_STGI 0x84
#define SVM_VMEXIT_CLGI 0x85
#define SVM_VMEXIT_SKINIT 0x86
#define SVM_VMEXIT_RDTSCP 0x87
#define SVM_VMEXIT_ICEBP 0x88
#define SVM_VMEXIT_WBINVD 0x89
#define SVM_VMEXIT_MONITOR 0x8A
#define SVM_VMEXIT_MWAIT 0x8B
#define SVM_VMEXIT_MWAIT_CONDITIONAL 0x8C
#define SVM_VMEXIT_XSETBV 0x8D
#define SVM_VMEXIT_EFER_WRITE_TRAP 0x8F
#define SVM_VMEXIT_CR0_WRITE_TRAP 0x90
#define SVM_VMEXIT_CR1_WRITE_TRAP 0x91
#define SVM_VMEXIT_CR2_WRITE_TRAP 0x92
#define SVM_VMEXIT_CR3_WRITE_TRAP 0x93
#define SVM_VMEXIT_CR4_WRITE_TRAP 0x94
#define SVM_VMEXIT_CR5_WRITE_TRAP 0x95
#define SVM_VMEXIT_CR6_WRITE_TRAP 0x96
#define SVM_VMEXIT_CR7_WRITE_TRAP 0x97
#define SVM_VMEXIT_CR8_WRITE_TRAP 0x98
#define SVM_VMEXIT_CR9_WRITE_TRAP 0x99
#define SVM_VMEXIT_CR10_WRITE_TRAP 0x9A
#define SVM_VMEXIT_CR11_WRITE_TRAP 0x9B
#define SVM_VMEXIT_CR12_WRITE_TRAP 0x9C
#define SVM_VMEXIT_CR13_WRITE_TRAP 0x9D
#define SVM_VMEXIT_CR14_WRITE_TRAP 0x9E
#define SVM_VMEXIT_CR15_WRITE_TRAP 0x9F
#define SVM_VMEXIT_NPF 0x400
#define SVM_AVIC_INCOMPLETE_IPI 0x401
#define SVM_AVIC_NOACCEL 0x402
#define SVM_VMEXIT_VMGEXIT 0x403
#define SVM_VMEXIT_INVALID -1
/*
* Exception injection vectors (these correspond to the CPU exception types
* defined in the SDM.)
*/
#define VMM_EX_DE 0 /* Divide Error #DE */
#define VMM_EX_DB 1 /* Debug Exception #DB */
#define VMM_EX_NMI 2 /* NMI */
#define VMM_EX_BP 3 /* Breakpoint #BP */
#define VMM_EX_OF 4 /* Overflow #OF */
#define VMM_EX_BR 5 /* Bound range exceeded #BR */
#define VMM_EX_UD 6 /* Undefined opcode #UD */
#define VMM_EX_NM 7 /* Device not available #NM */
#define VMM_EX_DF 8 /* Double fault #DF */
#define VMM_EX_CP 9 /* Coprocessor segment overrun (unused) */
#define VMM_EX_TS 10 /* Invalid TSS #TS */
#define VMM_EX_NP 11 /* Segment not present #NP */
#define VMM_EX_SS 12 /* Stack segment fault #SS */
#define VMM_EX_GP 13 /* General protection #GP */
#define VMM_EX_PF 14 /* Page fault #PF */
#define VMM_EX_MF 16 /* x87 FPU floating point error #MF */
#define VMM_EX_AC 17 /* Alignment check #AC */
#define VMM_EX_MC 18 /* Machine check #MC */
#define VMM_EX_XM 19 /* SIMD floating point exception #XM */
#define VMM_EX_VE 20 /* Virtualization exception #VE */
/*
* VCPU state values. Note that there is a conversion function in vmm.c
* (vcpu_state_decode) that converts these to human readable strings,
* so this enum and vcpu_state_decode should be kept in sync.
*/
enum {
VCPU_STATE_STOPPED,
VCPU_STATE_RUNNING,
VCPU_STATE_REQTERM,
VCPU_STATE_TERMINATED,
VCPU_STATE_UNKNOWN,
};
enum {
VEI_DIR_OUT,
VEI_DIR_IN
};
enum {
VEE_FAULT_HANDLED,
VEE_FAULT_PROTECT,
};
enum {
VMM_CPU_MODE_REAL,
VMM_CPU_MODE_PROT,
VMM_CPU_MODE_PROT32,
VMM_CPU_MODE_COMPAT,
VMM_CPU_MODE_LONG,
VMM_CPU_MODE_UNKNOWN,
};
/*
* Port definitions not found elsewhere
*/
#define PCKBC_AUX 0x61
#define ELCR0 0x4D0
#define ELCR1 0x4D1
/*
* vm exit data
* vm_exit_inout : describes an IN/OUT exit
*/
struct vm_exit_inout {
uint8_t vei_size; /* Size of access */
uint8_t vei_dir; /* Direction */
uint8_t vei_rep; /* REP prefix? */
uint8_t vei_string; /* string variety? */
uint8_t vei_encoding; /* operand encoding */
uint16_t vei_port; /* port */
uint32_t vei_data; /* data */
};
/*
* vm_exit_eptviolation : describes an EPT VIOLATION exit
*/
struct vm_exit_eptviolation {
uint8_t vee_fault_type;
};
/*
* struct vcpu_segment_info
*
* Describes a segment + selector set, used in constructing the initial vcpu
* register content
*/
struct vcpu_segment_info {
uint16_t vsi_sel;
uint32_t vsi_limit;
uint32_t vsi_ar;
uint64_t vsi_base;
};
#define VCPU_REGS_RAX 0
#define VCPU_REGS_RBX 1
#define VCPU_REGS_RCX 2
#define VCPU_REGS_RDX 3
#define VCPU_REGS_RSI 4
#define VCPU_REGS_RDI 5
#define VCPU_REGS_R8 6
#define VCPU_REGS_R9 7
#define VCPU_REGS_R10 8
#define VCPU_REGS_R11 9
#define VCPU_REGS_R12 10
#define VCPU_REGS_R13 11
#define VCPU_REGS_R14 12
#define VCPU_REGS_R15 13
#define VCPU_REGS_RSP 14
#define VCPU_REGS_RBP 15
#define VCPU_REGS_RIP 16
#define VCPU_REGS_RFLAGS 17
#define VCPU_REGS_NGPRS (VCPU_REGS_RFLAGS + 1)
#define VCPU_REGS_CR0 0
#define VCPU_REGS_CR2 1
#define VCPU_REGS_CR3 2
#define VCPU_REGS_CR4 3
#define VCPU_REGS_CR8 4
#define VCPU_REGS_XCR0 5
#define VCPU_REGS_PDPTE0 6
#define VCPU_REGS_PDPTE1 7
#define VCPU_REGS_PDPTE2 8
#define VCPU_REGS_PDPTE3 9
#define VCPU_REGS_NCRS (VCPU_REGS_PDPTE3 + 1)
#define VCPU_REGS_CS 0
#define VCPU_REGS_DS 1
#define VCPU_REGS_ES 2
#define VCPU_REGS_FS 3
#define VCPU_REGS_GS 4
#define VCPU_REGS_SS 5
#define VCPU_REGS_LDTR 6
#define VCPU_REGS_TR 7
#define VCPU_REGS_NSREGS (VCPU_REGS_TR + 1)
#define VCPU_REGS_EFER 0
#define VCPU_REGS_STAR 1
#define VCPU_REGS_LSTAR 2
#define VCPU_REGS_CSTAR 3
#define VCPU_REGS_SFMASK 4
#define VCPU_REGS_KGSBASE 5
#define VCPU_REGS_MISC_ENABLE 6
#define VCPU_REGS_NMSRS (VCPU_REGS_MISC_ENABLE + 1)
#define VCPU_REGS_DR0 0
#define VCPU_REGS_DR1 1
#define VCPU_REGS_DR2 2
#define VCPU_REGS_DR3 3
#define VCPU_REGS_DR6 4
#define VCPU_REGS_DR7 5
#define VCPU_REGS_NDRS (VCPU_REGS_DR7 + 1)
struct vcpu_reg_state {
uint64_t vrs_gprs[VCPU_REGS_NGPRS];
uint64_t vrs_crs[VCPU_REGS_NCRS];
uint64_t vrs_msrs[VCPU_REGS_NMSRS];
uint64_t vrs_drs[VCPU_REGS_NDRS];
struct vcpu_segment_info vrs_sregs[VCPU_REGS_NSREGS];
struct vcpu_segment_info vrs_gdtr;
struct vcpu_segment_info vrs_idtr;
};
struct vm_mem_range {
paddr_t vmr_gpa;
vaddr_t vmr_va;
size_t vmr_size;
};
/*
* struct vm_exit
*
* Contains VM exit information communicated to vmd(8). This information is
* gathered by vmm(4) from the CPU on each exit that requires help from vmd.
*/
struct vm_exit {
union {
struct vm_exit_inout vei; /* IN/OUT exit */
struct vm_exit_eptviolation vee; /* EPT VIOLATION exit*/
};
struct vcpu_reg_state vrs;
int cpl;
};
struct vm_create_params {
/* Input parameters to VMM_IOC_CREATE */
size_t vcp_nmemranges;
size_t vcp_ncpus;
size_t vcp_ndisks;
size_t vcp_nnics;
struct vm_mem_range vcp_memranges[VMM_MAX_MEM_RANGES];
char vcp_disks[VMM_MAX_DISKS_PER_VM][VMM_MAX_PATH_DISK];
char vcp_cdrom[VMM_MAX_PATH_CDROM];
char vcp_name[VMM_MAX_NAME_LEN];
char vcp_kernel[VMM_MAX_KERNEL_PATH];
uint8_t vcp_macs[VMM_MAX_NICS_PER_VM][6];
/* Output parameter from VMM_IOC_CREATE */
uint32_t vcp_id;
};
struct vm_run_params {
/* Input parameters to VMM_IOC_RUN */
uint32_t vrp_vm_id;
uint32_t vrp_vcpu_id;
uint8_t vrp_continue; /* Continuing from an exit */
uint16_t vrp_irq; /* IRQ to inject */
/* Input/output parameter to VMM_IOC_RUN */
struct vm_exit *vrp_exit; /* updated exit data */
/* Output parameter from VMM_IOC_RUN */
uint16_t vrp_exit_reason; /* exit reason */
uint8_t vrp_irqready; /* ready for IRQ on entry */
};
struct vm_info_result {
/* Output parameters from VMM_IOC_INFO */
size_t vir_memory_size;
size_t vir_used_size;
size_t vir_ncpus;
uint8_t vir_vcpu_state[VMM_MAX_VCPUS_PER_VM];
pid_t vir_creator_pid;
uint32_t vir_id;
char vir_name[VMM_MAX_NAME_LEN];
};
struct vm_info_params {
/* Input parameters to VMM_IOC_INFO */
size_t vip_size; /* Output buffer size */
/* Output Parameters from VMM_IOC_INFO */
size_t vip_info_ct; /* # of entries returned */
struct vm_info_result *vip_info; /* Output buffer */
};
struct vm_terminate_params {
/* Input parameters to VMM_IOC_TERM */
uint32_t vtp_vm_id;
};
struct vm_resetcpu_params {
/* Input parameters to VMM_IOC_RESETCPU */
uint32_t vrp_vm_id;
uint32_t vrp_vcpu_id;
struct vcpu_reg_state vrp_init_state;
};
struct vm_intr_params {
/* Input parameters to VMM_IOC_INTR */
uint32_t vip_vm_id;
uint32_t vip_vcpu_id;
uint16_t vip_intr;
};
#define VM_RWVMPARAMS_PVCLOCK_SYSTEM_GPA 0x1 /* read/write pvclock gpa */
#define VM_RWVMPARAMS_PVCLOCK_VERSION 0x2 /* read/write pvclock version */
#define VM_RWVMPARAMS_ALL (VM_RWVMPARAMS_PVCLOCK_SYSTEM_GPA | \
VM_RWVMPARAMS_PVCLOCK_VERSION)
struct vm_rwvmparams_params {
/* Input parameters to VMM_IOC_READVMPARAMS/VMM_IOC_WRITEVMPARAMS */
uint32_t vpp_vm_id;
uint32_t vpp_vcpu_id;
uint32_t vpp_mask;
paddr_t vpp_pvclock_system_gpa;
uint32_t vpp_pvclock_version;
};
#define VM_RWREGS_GPRS 0x1 /* read/write GPRs */
#define VM_RWREGS_SREGS 0x2 /* read/write segment registers */
#define VM_RWREGS_CRS 0x4 /* read/write CRs */
#define VM_RWREGS_MSRS 0x8 /* read/write MSRs */
#define VM_RWREGS_DRS 0x10 /* read/write DRs */
#define VM_RWREGS_ALL (VM_RWREGS_GPRS | VM_RWREGS_SREGS | VM_RWREGS_CRS | \
VM_RWREGS_MSRS | VM_RWREGS_DRS)
struct vm_rwregs_params {
/*
* Input/output parameters to VMM_IOC_READREGS /
* VMM_IOC_WRITEREGS
*/
uint32_t vrwp_vm_id;
uint32_t vrwp_vcpu_id;
uint64_t vrwp_mask;
struct vcpu_reg_state vrwp_regs;
};
struct vm_mprotect_ept_params {
/* Input parameters to VMM_IOC_MPROTECT_EPT */
uint32_t vmep_vm_id;
uint32_t vmep_vcpu_id;
vaddr_t vmep_sgpa;
size_t vmep_size;
int vmep_prot;
};
/* IOCTL definitions */
#define VMM_IOC_CREATE _IOWR('V', 1, struct vm_create_params) /* Create VM */
#define VMM_IOC_RUN _IOWR('V', 2, struct vm_run_params) /* Run VCPU */
#define VMM_IOC_INFO _IOWR('V', 3, struct vm_info_params) /* Get VM Info */
#define VMM_IOC_TERM _IOW('V', 4, struct vm_terminate_params) /* Terminate VM */
#define VMM_IOC_RESETCPU _IOW('V', 5, struct vm_resetcpu_params) /* Reset */
#define VMM_IOC_INTR _IOW('V', 6, struct vm_intr_params) /* Intr pending */
#define VMM_IOC_READREGS _IOWR('V', 7, struct vm_rwregs_params) /* Get regs */
#define VMM_IOC_WRITEREGS _IOW('V', 8, struct vm_rwregs_params) /* Set regs */
/* Get VM params */
#define VMM_IOC_READVMPARAMS _IOWR('V', 9, struct vm_rwvmparams_params)
/* Set VM params */
#define VMM_IOC_WRITEVMPARAMS _IOW('V', 10, struct vm_rwvmparams_params)
/* Control the protection of ept pages*/
#define VMM_IOC_MPROTECT_EPT _IOW('V', 11, struct vm_mprotect_ept_params)
/* CPUID masks */
/*
* clone host capabilities minus:
* debug store (CPUIDECX_DTES64, CPUIDECX_DSCPL, CPUID_DS)
* monitor/mwait (CPUIDECX_MWAIT, CPUIDECX_MWAITX)
* vmx/svm (CPUIDECX_VMX, CPUIDECX_SVM)
* smx (CPUIDECX_SMX)
* speedstep (CPUIDECX_EST)
* thermal (CPUIDECX_TM2, CPUID_ACPI, CPUID_TM)
* context id (CPUIDECX_CNXTID)
* machine check (CPUID_MCE, CPUID_MCA)
* silicon debug (CPUIDECX_SDBG)
* xTPR (CPUIDECX_XTPR)
* perf/debug (CPUIDECX_PDCM)
* pcid (CPUIDECX_PCID)
* direct cache access (CPUIDECX_DCA)
* x2APIC (CPUIDECX_X2APIC)
* apic deadline (CPUIDECX_DEADLINE)
* apic (CPUID_APIC)
* psn (CPUID_PSN)
* self snoop (CPUID_SS)
* hyperthreading (CPUID_HTT)
* pending break enabled (CPUID_PBE)
* MTRR (CPUID_MTRR)
* Speculative execution control features (AMD)
*/
#define VMM_CPUIDECX_MASK ~(CPUIDECX_EST | CPUIDECX_TM2 | CPUIDECX_MWAIT | \
CPUIDECX_PDCM | CPUIDECX_VMX | CPUIDECX_DTES64 | \
CPUIDECX_DSCPL | CPUIDECX_SMX | CPUIDECX_CNXTID | \
CPUIDECX_SDBG | CPUIDECX_XTPR | CPUIDECX_PCID | \
CPUIDECX_DCA | CPUIDECX_X2APIC | CPUIDECX_DEADLINE)
#define VMM_ECPUIDECX_MASK ~(CPUIDECX_SVM | CPUIDECX_MWAITX)
#define VMM_CPUIDEDX_MASK ~(CPUID_ACPI | CPUID_TM | \
CPUID_HTT | CPUID_DS | CPUID_APIC | \
CPUID_PSN | CPUID_SS | CPUID_PBE | \
CPUID_MTRR | CPUID_MCE | CPUID_MCA)
#define VMM_AMDSPEC_EBX_MASK ~(CPUIDEBX_IBPB | CPUIDEBX_IBRS | \
CPUIDEBX_STIBP | CPUIDEBX_IBRS_ALWAYSON | CPUIDEBX_STIBP_ALWAYSON | \
CPUIDEBX_IBRS_PREF | CPUIDEBX_SSBD | CPUIDEBX_VIRT_SSBD | \
CPUIDEBX_SSBD_NOTREQ)
/*
* SEFF flags - copy from host minus:
* TSC_ADJUST (SEFF0EBX_TSC_ADJUST)
* SGX (SEFF0EBX_SGX)
* HLE (SEFF0EBX_HLE)
* INVPCID (SEFF0EBX_INVPCID)
* RTM (SEFF0EBX_RTM)
* PQM (SEFF0EBX_PQM)
* AVX512F (SEFF0EBX_AVX512F)
* AVX512DQ (SEFF0EBX_AVX512DQ)
* AVX512IFMA (SEFF0EBX_AVX512IFMA)
* AVX512PF (SEFF0EBX_AVX512PF)
* AVX512ER (SEFF0EBX_AVX512ER)
* AVX512CD (SEFF0EBX_AVX512CD)
* AVX512BW (SEFF0EBX_AVX512BW)
* AVX512VL (SEFF0EBX_AVX512VL)
* MPX (SEFF0EBX_MPX)
* PCOMMIT (SEFF0EBX_PCOMMIT)
* PT (SEFF0EBX_PT)
* AVX512VBMI (SEFF0ECX_AVX512VBMI)
*/
#define VMM_SEFF0EBX_MASK ~(SEFF0EBX_TSC_ADJUST | SEFF0EBX_SGX | \
SEFF0EBX_HLE | SEFF0EBX_INVPCID | \
SEFF0EBX_RTM | SEFF0EBX_PQM | SEFF0EBX_MPX | \
SEFF0EBX_PCOMMIT | SEFF0EBX_PT | \
SEFF0EBX_AVX512F | SEFF0EBX_AVX512DQ | \
SEFF0EBX_AVX512IFMA | SEFF0EBX_AVX512PF | \
SEFF0EBX_AVX512ER | SEFF0EBX_AVX512CD | \
SEFF0EBX_AVX512BW | SEFF0EBX_AVX512VL)
#define VMM_SEFF0ECX_MASK ~(SEFF0ECX_AVX512VBMI)
/* EDX mask contains the bits to include */
#define VMM_SEFF0EDX_MASK (SEFF0EDX_MD_CLEAR)
/*
* Extended function flags - copy from host minus:
* 0x80000001 EDX:RDTSCP Support
*/
#define VMM_FEAT_EFLAGS_MASK ~(CPUID_RDTSCP)
/*
* CPUID[0x4] deterministic cache info
*/
#define VMM_CPUID4_CACHE_TOPOLOGY_MASK 0x3FF
#ifdef _KERNEL
#define VMX_FAIL_LAUNCH_UNKNOWN 1
#define VMX_FAIL_LAUNCH_INVALID_VMCS 2
#define VMX_FAIL_LAUNCH_VALID_VMCS 3
#define VMX_NUM_MSR_STORE 7
/* MSR bitmap manipulation macros */
#define VMX_MSRIDX(m) ((m) / 8)
#define VMX_MSRBIT(m) (1 << (m) % 8)
#define SVM_MSRIDX(m) ((m) / 4)
#define SVM_MSRBIT_R(m) (1 << (((m) % 4) * 2))
#define SVM_MSRBIT_W(m) (1 << (((m) % 4) * 2 + 1))
enum {
VMM_MODE_UNKNOWN,
VMM_MODE_VMX,
VMM_MODE_EPT,
VMM_MODE_SVM,
VMM_MODE_RVI
};
enum {
VMM_MEM_TYPE_REGULAR,
VMM_MEM_TYPE_UNKNOWN
};
/* Forward declarations */
struct vm;
/*
* Implementation-specific cpu state
*/
struct vmcb_segment {
uint16_t vs_sel; /* 000h */
uint16_t vs_attr; /* 002h */
uint32_t vs_lim; /* 004h */
uint64_t vs_base; /* 008h */
};
struct vmcb {
union {
struct {
uint32_t v_cr_rw; /* 000h */
uint32_t v_dr_rw; /* 004h */
uint32_t v_excp; /* 008h */
uint32_t v_intercept1; /* 00Ch */
uint32_t v_intercept2; /* 010h */
uint8_t v_pad1[0x28]; /* 014h-03Bh */
uint16_t v_pause_thr; /* 03Ch */
uint16_t v_pause_ct; /* 03Eh */
uint64_t v_iopm_pa; /* 040h */
uint64_t v_msrpm_pa; /* 048h */
uint64_t v_tsc_offset; /* 050h */
uint32_t v_asid; /* 058h */
uint8_t v_tlb_control; /* 05Ch */
uint8_t v_pad2[0x3]; /* 05Dh-05Fh */
uint8_t v_tpr; /* 060h */
uint8_t v_irq; /* 061h */
uint8_t v_intr_misc; /* 062h */
uint8_t v_intr_masking; /* 063h */
uint8_t v_intr_vector; /* 064h */
uint8_t v_pad3[0x3]; /* 065h-067h */
uint64_t v_intr_shadow; /* 068h */
uint64_t v_exitcode; /* 070h */
uint64_t v_exitinfo1; /* 078h */
uint64_t v_exitinfo2; /* 080h */
uint64_t v_exitintinfo; /* 088h */
uint64_t v_np_enable; /* 090h */
uint64_t v_avic_apic_bar; /* 098h */
uint64_t v_pad4; /* 0A0h */
uint64_t v_eventinj; /* 0A8h */
uint64_t v_n_cr3; /* 0B0h */
uint64_t v_lbr_virt_enable; /* 0B8h */
uint64_t v_vmcb_clean_bits; /* 0C0h */
uint64_t v_nrip; /* 0C8h */
uint8_t v_n_bytes_fetched; /* 0D0h */
uint8_t v_guest_ins_bytes[0xf]; /* 0D1h-0DFh */
uint64_t v_avic_apic_back_page; /* 0E0h */
uint64_t v_pad5; /* 0E8h-0EFh */
uint64_t v_avic_logical_table; /* 0F0h */
uint64_t v_avic_phys; /* 0F8h */
};
uint8_t vmcb_control[0x400];
};
union {
struct {
/* Offsets here are relative to start of VMCB SSA */
struct vmcb_segment v_es; /* 000h */
struct vmcb_segment v_cs; /* 010h */
struct vmcb_segment v_ss; /* 020h */
struct vmcb_segment v_ds; /* 030h */
struct vmcb_segment v_fs; /* 040h */
struct vmcb_segment v_gs; /* 050h */
struct vmcb_segment v_gdtr; /* 060h */
struct vmcb_segment v_ldtr; /* 070h */
struct vmcb_segment v_idtr; /* 080h */
struct vmcb_segment v_tr; /* 090h */
uint8_t v_pad6[0x2B]; /* 0A0h-0CAh */
uint8_t v_cpl; /* 0CBh */
uint32_t v_pad7; /* 0CCh-0CFh */
uint64_t v_efer; /* 0D0h */
uint8_t v_pad8[0x70]; /* 0D8h-147h */
uint64_t v_cr4; /* 148h */
uint64_t v_cr3; /* 150h */
uint64_t v_cr0; /* 158h */
uint64_t v_dr7; /* 160h */
uint64_t v_dr6; /* 168h */
uint64_t v_rflags; /* 170h */
uint64_t v_rip; /* 178h */
uint64_t v_pad9[0xB]; /* 180h-1D7h */
uint64_t v_rsp; /* 1D8h */
uint64_t v_pad10[0x3]; /* 1E0h-1F7h */
uint64_t v_rax; /* 1F8h */
uint64_t v_star; /* 200h */
uint64_t v_lstar; /* 208h */
uint64_t v_cstar; /* 210h */
uint64_t v_sfmask; /* 218h */
uint64_t v_kgsbase; /* 220h */
uint64_t v_sysenter_cs; /* 228h */
uint64_t v_sysenter_esp; /* 230h */
uint64_t v_sysenter_eip; /* 238h */
uint64_t v_cr2; /* 240h */
uint64_t v_pad11[0x4]; /* 248h-267h */
uint64_t v_g_pat; /* 268h */
uint64_t v_dbgctl; /* 270h */
uint64_t v_br_from; /* 278h */
uint64_t v_br_to; /* 280h */
uint64_t v_lastexcpfrom; /* 288h */
uint64_t v_lastexcpto; /* 290h */
};
uint8_t vmcb_layout[PAGE_SIZE - 0x400];
};
};
struct vmcs {
uint32_t vmcs_revision;
};
struct vmx_invvpid_descriptor
{
uint64_t vid_vpid;
uint64_t vid_addr;
};
struct vmx_invept_descriptor
{
uint64_t vid_eptp;
uint64_t vid_reserved;
};
struct vmx_msr_store
{
uint64_t vms_index;
uint64_t vms_data;
};
/*
* Storage for guest registers not preserved in VMCS and various exit
* information.
*
* Note that vmx/svm_enter_guest depend on the layout of this struct for
* field access.
*/
struct vcpu_gueststate
{
/* %rsi should be first */
uint64_t vg_rsi; /* 0x00 */
uint64_t vg_rax; /* 0x08 */
uint64_t vg_rbx; /* 0x10 */
uint64_t vg_rcx; /* 0x18 */
uint64_t vg_rdx; /* 0x20 */
uint64_t vg_rdi; /* 0x28 */
uint64_t vg_rbp; /* 0x30 */
uint64_t vg_r8; /* 0x38 */
uint64_t vg_r9; /* 0x40 */
uint64_t vg_r10; /* 0x48 */
uint64_t vg_r11; /* 0x50 */
uint64_t vg_r12; /* 0x58 */
uint64_t vg_r13; /* 0x60 */
uint64_t vg_r14; /* 0x68 */
uint64_t vg_r15; /* 0x70 */
uint64_t vg_cr2; /* 0x78 */
uint64_t vg_rip; /* 0x80 */
uint32_t vg_exit_reason; /* 0x88 */
uint64_t vg_rflags; /* 0x90 */
uint64_t vg_xcr0; /* 0x98 */
/*
* Debug registers
* - %dr4/%dr5 are aliased to %dr6/%dr7 (or cause #DE)
* - %dr7 is saved automatically in the VMCS
*/
uint64_t vg_dr0; /* 0xa0 */
uint64_t vg_dr1; /* 0xa8 */
uint64_t vg_dr2; /* 0xb0 */
uint64_t vg_dr3; /* 0xb8 */
uint64_t vg_dr6; /* 0xc0 */
};
/*
* Virtual Machine
*/
struct vm;
/*
* Virtual CPU
*/
struct vcpu {
/*
* Guest FPU state - this must remain as the first member of the struct
* to ensure 64-byte alignment (set up during vcpu_pool init)
*/
struct savefpu vc_g_fpu;
/* VMCS / VMCB pointer */
vaddr_t vc_control_va;
paddr_t vc_control_pa;
/* VLAPIC pointer */
vaddr_t vc_vlapic_va;
uint64_t vc_vlapic_pa;
/* MSR bitmap address */
vaddr_t vc_msr_bitmap_va;
uint64_t vc_msr_bitmap_pa;
struct vm *vc_parent;
uint32_t vc_id;
uint16_t vc_vpid;
u_int vc_state;
SLIST_ENTRY(vcpu) vc_vcpu_link;
uint8_t vc_virt_mode;
struct rwlock vc_lock;
struct cpu_info *vc_last_pcpu;
struct vm_exit vc_exit;
uint16_t vc_intr;
uint8_t vc_irqready;
uint8_t vc_fpuinited;
uint64_t vc_h_xcr0;
struct vcpu_gueststate vc_gueststate;
uint8_t vc_event;
uint32_t vc_pvclock_version;
paddr_t vc_pvclock_system_gpa;
uint32_t vc_pvclock_system_tsc_mul;
/* Shadowed MSRs */
uint64_t vc_shadow_pat;
/* VMX only */
uint64_t vc_vmx_basic;
uint64_t vc_vmx_entry_ctls;
uint64_t vc_vmx_true_entry_ctls;
uint64_t vc_vmx_exit_ctls;
uint64_t vc_vmx_true_exit_ctls;
uint64_t vc_vmx_pinbased_ctls;
uint64_t vc_vmx_true_pinbased_ctls;
uint64_t vc_vmx_procbased_ctls;
uint64_t vc_vmx_true_procbased_ctls;
uint64_t vc_vmx_procbased2_ctls;
vaddr_t vc_vmx_msr_exit_save_va;
paddr_t vc_vmx_msr_exit_save_pa;
vaddr_t vc_vmx_msr_exit_load_va;
paddr_t vc_vmx_msr_exit_load_pa;
vaddr_t vc_vmx_msr_entry_load_va;
paddr_t vc_vmx_msr_entry_load_pa;
uint8_t vc_vmx_vpid_enabled;
uint64_t vc_vmx_cr0_fixed1;
uint64_t vc_vmx_cr0_fixed0;
uint32_t vc_vmx_vmcs_state;
#define VMCS_CLEARED 0
#define VMCS_LAUNCHED 1
/* SVM only */
vaddr_t vc_svm_hsa_va;
paddr_t vc_svm_hsa_pa;
vaddr_t vc_svm_ioio_va;
paddr_t vc_svm_ioio_pa;
};
SLIST_HEAD(vcpu_head, vcpu);
void vmm_dispatch_intr(vaddr_t);
int vmxon(uint64_t *);
int vmxoff(void);
int vmclear(paddr_t *);
int vmptrld(paddr_t *);
int vmptrst(paddr_t *);
int vmwrite(uint64_t, uint64_t);
int vmread(uint64_t, uint64_t *);
void invvpid(uint64_t, struct vmx_invvpid_descriptor *);
void invept(uint64_t, struct vmx_invept_descriptor *);
int vmx_enter_guest(paddr_t *, struct vcpu_gueststate *, int, uint8_t);
int svm_enter_guest(uint64_t, struct vcpu_gueststate *,
struct region_descriptor *);
void start_vmm_on_cpu(struct cpu_info *);
void stop_vmm_on_cpu(struct cpu_info *);
void vmclear_on_cpu(struct cpu_info *);
#endif /* _KERNEL */
#endif /* ! _MACHINE_VMMVAR_H_ */
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