#ifndef __VMX_H #define __VMX_H #include "libcflat.h" #include "processor.h" #include "bitops.h" #include "asm/page.h" #include "asm/io.h" struct vmcs { u32 revision_id; /* vmcs revision identifier */ u32 abort; /* VMX-abort indicator */ /* VMCS data */ char data[0]; }; struct invvpid_operand { u64 vpid; u64 gla; }; struct regs { u64 rax; u64 rcx; u64 rdx; u64 rbx; u64 cr2; u64 rbp; u64 rsi; u64 rdi; u64 r8; u64 r9; u64 r10; u64 r11; u64 r12; u64 r13; u64 r14; u64 r15; u64 rflags; }; struct vmentry_failure { /* Did a vmlaunch or vmresume fail? */ bool vmlaunch; /* Instruction mnemonic (for convenience). */ const char *instr; /* Did the instruction return right away, or did we jump to HOST_RIP? */ bool early; /* Contents of [re]flags after failed entry. */ unsigned long flags; }; struct vmx_test { const char *name; int (*init)(struct vmcs *vmcs); void (*guest_main)(); int (*exit_handler)(); void (*syscall_handler)(u64 syscall_no); struct regs guest_regs; int (*entry_failure_handler)(struct vmentry_failure *failure); struct vmcs *vmcs; int exits; /* Alternative test interface. */ void (*v2)(void); }; union vmx_basic { u64 val; struct { u32 revision; u32 size:13, reserved1: 3, width:1, dual:1, type:4, insouts:1, ctrl:1, reserved2:8; }; }; union vmx_ctrl_msr { u64 val; struct { u32 set, clr; }; }; union vmx_ept_vpid { u64 val; struct { u32:16, super:2, : 2, invept:1, : 11; u32 invvpid:1; }; }; enum Encoding { /* 16-Bit Control Fields */ VPID = 0x0000ul, /* Posted-interrupt notification vector */ PINV = 0x0002ul, /* EPTP index */ EPTP_IDX = 0x0004ul, /* 16-Bit Guest State Fields */ GUEST_SEL_ES = 0x0800ul, GUEST_SEL_CS = 0x0802ul, GUEST_SEL_SS = 0x0804ul, GUEST_SEL_DS = 0x0806ul, GUEST_SEL_FS = 0x0808ul, GUEST_SEL_GS = 0x080aul, GUEST_SEL_LDTR = 0x080cul, GUEST_SEL_TR = 0x080eul, GUEST_INT_STATUS = 0x0810ul, GUEST_PML_INDEX = 0x0812ul, /* 16-Bit Host State Fields */ HOST_SEL_ES = 0x0c00ul, HOST_SEL_CS = 0x0c02ul, HOST_SEL_SS = 0x0c04ul, HOST_SEL_DS = 0x0c06ul, HOST_SEL_FS = 0x0c08ul, HOST_SEL_GS = 0x0c0aul, HOST_SEL_TR = 0x0c0cul, /* 64-Bit Control Fields */ IO_BITMAP_A = 0x2000ul, IO_BITMAP_B = 0x2002ul, MSR_BITMAP = 0x2004ul, EXIT_MSR_ST_ADDR = 0x2006ul, EXIT_MSR_LD_ADDR = 0x2008ul, ENTER_MSR_LD_ADDR = 0x200aul, VMCS_EXEC_PTR = 0x200cul, TSC_OFFSET = 0x2010ul, TSC_OFFSET_HI = 0x2011ul, APIC_VIRT_ADDR = 0x2012ul, APIC_ACCS_ADDR = 0x2014ul, EPTP = 0x201aul, EPTP_HI = 0x201bul, PMLADDR = 0x200eul, PMLADDR_HI = 0x200ful, /* 64-Bit Readonly Data Field */ INFO_PHYS_ADDR = 0x2400ul, /* 64-Bit Guest State */ VMCS_LINK_PTR = 0x2800ul, VMCS_LINK_PTR_HI = 0x2801ul, GUEST_DEBUGCTL = 0x2802ul, GUEST_DEBUGCTL_HI = 0x2803ul, GUEST_EFER = 0x2806ul, GUEST_PAT = 0x2804ul, GUEST_PERF_GLOBAL_CTRL = 0x2808ul, GUEST_PDPTE = 0x280aul, /* 64-Bit Host State */ HOST_PAT = 0x2c00ul, HOST_EFER = 0x2c02ul, HOST_PERF_GLOBAL_CTRL = 0x2c04ul, /* 32-Bit Control Fields */ PIN_CONTROLS = 0x4000ul, CPU_EXEC_CTRL0 = 0x4002ul, EXC_BITMAP = 0x4004ul, PF_ERROR_MASK = 0x4006ul, PF_ERROR_MATCH = 0x4008ul, CR3_TARGET_COUNT = 0x400aul, EXI_CONTROLS = 0x400cul, EXI_MSR_ST_CNT = 0x400eul, EXI_MSR_LD_CNT = 0x4010ul, ENT_CONTROLS = 0x4012ul, ENT_MSR_LD_CNT = 0x4014ul, ENT_INTR_INFO = 0x4016ul, ENT_INTR_ERROR = 0x4018ul, ENT_INST_LEN = 0x401aul, TPR_THRESHOLD = 0x401cul, CPU_EXEC_CTRL1 = 0x401eul, /* 32-Bit R/O Data Fields */ VMX_INST_ERROR = 0x4400ul, EXI_REASON = 0x4402ul, EXI_INTR_INFO = 0x4404ul, EXI_INTR_ERROR = 0x4406ul, IDT_VECT_INFO = 0x4408ul, IDT_VECT_ERROR = 0x440aul, EXI_INST_LEN = 0x440cul, EXI_INST_INFO = 0x440eul, /* 32-Bit Guest State Fields */ GUEST_LIMIT_ES = 0x4800ul, GUEST_LIMIT_CS = 0x4802ul, GUEST_LIMIT_SS = 0x4804ul, GUEST_LIMIT_DS = 0x4806ul, GUEST_LIMIT_FS = 0x4808ul, GUEST_LIMIT_GS = 0x480aul, GUEST_LIMIT_LDTR = 0x480cul, GUEST_LIMIT_TR = 0x480eul, GUEST_LIMIT_GDTR = 0x4810ul, GUEST_LIMIT_IDTR = 0x4812ul, GUEST_AR_ES = 0x4814ul, GUEST_AR_CS = 0x4816ul, GUEST_AR_SS = 0x4818ul, GUEST_AR_DS = 0x481aul, GUEST_AR_FS = 0x481cul, GUEST_AR_GS = 0x481eul, GUEST_AR_LDTR = 0x4820ul, GUEST_AR_TR = 0x4822ul, GUEST_INTR_STATE = 0x4824ul, GUEST_ACTV_STATE = 0x4826ul, GUEST_SMBASE = 0x4828ul, GUEST_SYSENTER_CS = 0x482aul, PREEMPT_TIMER_VALUE = 0x482eul, /* 32-Bit Host State Fields */ HOST_SYSENTER_CS = 0x4c00ul, /* Natural-Width Control Fields */ CR0_MASK = 0x6000ul, CR4_MASK = 0x6002ul, CR0_READ_SHADOW = 0x6004ul, CR4_READ_SHADOW = 0x6006ul, CR3_TARGET_0 = 0x6008ul, CR3_TARGET_1 = 0x600aul, CR3_TARGET_2 = 0x600cul, CR3_TARGET_3 = 0x600eul, /* Natural-Width R/O Data Fields */ EXI_QUALIFICATION = 0x6400ul, IO_RCX = 0x6402ul, IO_RSI = 0x6404ul, IO_RDI = 0x6406ul, IO_RIP = 0x6408ul, GUEST_LINEAR_ADDRESS = 0x640aul, /* Natural-Width Guest State Fields */ GUEST_CR0 = 0x6800ul, GUEST_CR3 = 0x6802ul, GUEST_CR4 = 0x6804ul, GUEST_BASE_ES = 0x6806ul, GUEST_BASE_CS = 0x6808ul, GUEST_BASE_SS = 0x680aul, GUEST_BASE_DS = 0x680cul, GUEST_BASE_FS = 0x680eul, GUEST_BASE_GS = 0x6810ul, GUEST_BASE_LDTR = 0x6812ul, GUEST_BASE_TR = 0x6814ul, GUEST_BASE_GDTR = 0x6816ul, GUEST_BASE_IDTR = 0x6818ul, GUEST_DR7 = 0x681aul, GUEST_RSP = 0x681cul, GUEST_RIP = 0x681eul, GUEST_RFLAGS = 0x6820ul, GUEST_PENDING_DEBUG = 0x6822ul, GUEST_SYSENTER_ESP = 0x6824ul, GUEST_SYSENTER_EIP = 0x6826ul, /* Natural-Width Host State Fields */ HOST_CR0 = 0x6c00ul, HOST_CR3 = 0x6c02ul, HOST_CR4 = 0x6c04ul, HOST_BASE_FS = 0x6c06ul, HOST_BASE_GS = 0x6c08ul, HOST_BASE_TR = 0x6c0aul, HOST_BASE_GDTR = 0x6c0cul, HOST_BASE_IDTR = 0x6c0eul, HOST_SYSENTER_ESP = 0x6c10ul, HOST_SYSENTER_EIP = 0x6c12ul, HOST_RSP = 0x6c14ul, HOST_RIP = 0x6c16ul }; #define VMX_ENTRY_FAILURE (1ul << 31) #define VMX_ENTRY_FLAGS (X86_EFLAGS_CF | X86_EFLAGS_PF | X86_EFLAGS_AF | \ X86_EFLAGS_ZF | X86_EFLAGS_SF | X86_EFLAGS_OF) enum Reason { VMX_EXC_NMI = 0, VMX_EXTINT = 1, VMX_TRIPLE_FAULT = 2, VMX_INIT = 3, VMX_SIPI = 4, VMX_SMI_IO = 5, VMX_SMI_OTHER = 6, VMX_INTR_WINDOW = 7, VMX_NMI_WINDOW = 8, VMX_TASK_SWITCH = 9, VMX_CPUID = 10, VMX_GETSEC = 11, VMX_HLT = 12, VMX_INVD = 13, VMX_INVLPG = 14, VMX_RDPMC = 15, VMX_RDTSC = 16, VMX_RSM = 17, VMX_VMCALL = 18, VMX_VMCLEAR = 19, VMX_VMLAUNCH = 20, VMX_VMPTRLD = 21, VMX_VMPTRST = 22, VMX_VMREAD = 23, VMX_VMRESUME = 24, VMX_VMWRITE = 25, VMX_VMXOFF = 26, VMX_VMXON = 27, VMX_CR = 28, VMX_DR = 29, VMX_IO = 30, VMX_RDMSR = 31, VMX_WRMSR = 32, VMX_FAIL_STATE = 33, VMX_FAIL_MSR = 34, VMX_MWAIT = 36, VMX_MTF = 37, VMX_MONITOR = 39, VMX_PAUSE = 40, VMX_FAIL_MCHECK = 41, VMX_TPR_THRESHOLD = 43, VMX_APIC_ACCESS = 44, VMX_GDTR_IDTR = 46, VMX_LDTR_TR = 47, VMX_EPT_VIOLATION = 48, VMX_EPT_MISCONFIG = 49, VMX_INVEPT = 50, VMX_PREEMPT = 52, VMX_INVVPID = 53, VMX_WBINVD = 54, VMX_XSETBV = 55, VMX_APIC_WRITE = 56, VMX_RDRAND = 57, VMX_INVPCID = 58, VMX_VMFUNC = 59, VMX_RDSEED = 61, VMX_PML_FULL = 62, VMX_XSAVES = 63, VMX_XRSTORS = 64, }; enum Ctrl_exi { EXI_SAVE_DBGCTLS = 1UL << 2, EXI_HOST_64 = 1UL << 9, EXI_LOAD_PERF = 1UL << 12, EXI_INTA = 1UL << 15, EXI_SAVE_PAT = 1UL << 18, EXI_LOAD_PAT = 1UL << 19, EXI_SAVE_EFER = 1UL << 20, EXI_LOAD_EFER = 1UL << 21, EXI_SAVE_PREEMPT = 1UL << 22, }; enum Ctrl_ent { ENT_LOAD_DBGCTLS = 1UL << 2, ENT_GUEST_64 = 1UL << 9, ENT_LOAD_PAT = 1UL << 14, ENT_LOAD_EFER = 1UL << 15, }; enum Ctrl_pin { PIN_EXTINT = 1ul << 0, PIN_NMI = 1ul << 3, PIN_VIRT_NMI = 1ul << 5, PIN_PREEMPT = 1ul << 6, }; enum Ctrl0 { CPU_INTR_WINDOW = 1ul << 2, CPU_HLT = 1ul << 7, CPU_INVLPG = 1ul << 9, CPU_MWAIT = 1ul << 10, CPU_RDPMC = 1ul << 11, CPU_RDTSC = 1ul << 12, CPU_CR3_LOAD = 1ul << 15, CPU_CR3_STORE = 1ul << 16, CPU_CR8_LOAD = 1ul << 19, CPU_CR8_STORE = 1ul << 20, CPU_TPR_SHADOW = 1ul << 21, CPU_NMI_WINDOW = 1ul << 22, CPU_IO = 1ul << 24, CPU_IO_BITMAP = 1ul << 25, CPU_MSR_BITMAP = 1ul << 28, CPU_MONITOR = 1ul << 29, CPU_PAUSE = 1ul << 30, CPU_SECONDARY = 1ul << 31, }; enum Ctrl1 { CPU_EPT = 1ul << 1, CPU_DESC_TABLE = 1ul << 2, CPU_RDTSCP = 1ul << 3, CPU_VPID = 1ul << 5, CPU_WBINVD = 1ul << 6, CPU_URG = 1ul << 7, CPU_VINTD = 1ul << 9, CPU_RDRAND = 1ul << 11, CPU_RDSEED = 1ul << 16, CPU_PML = 1ul << 17, }; enum Intr_type { VMX_INTR_TYPE_EXT_INTR = 0, VMX_INTR_TYPE_NMI_INTR = 2, VMX_INTR_TYPE_HARD_EXCEPTION = 3, VMX_INTR_TYPE_SOFT_INTR = 4, VMX_INTR_TYPE_SOFT_EXCEPTION = 6, }; /* * Interruption-information format */ #define INTR_INFO_VECTOR_MASK 0xff /* 7:0 */ #define INTR_INFO_INTR_TYPE_MASK 0x700 /* 10:8 */ #define INTR_INFO_DELIVER_CODE_MASK 0x800 /* 11 */ #define INTR_INFO_UNBLOCK_NMI_MASK 0x1000 /* 12 */ #define INTR_INFO_VALID_MASK 0x80000000 /* 31 */ #define INTR_INFO_INTR_TYPE_SHIFT 8 /* * VM-instruction error numbers */ enum vm_instruction_error_number { VMXERR_VMCALL_IN_VMX_ROOT_OPERATION = 1, VMXERR_VMCLEAR_INVALID_ADDRESS = 2, VMXERR_VMCLEAR_VMXON_POINTER = 3, VMXERR_VMLAUNCH_NONCLEAR_VMCS = 4, VMXERR_VMRESUME_NONLAUNCHED_VMCS = 5, VMXERR_VMRESUME_AFTER_VMXOFF = 6, VMXERR_ENTRY_INVALID_CONTROL_FIELD = 7, VMXERR_ENTRY_INVALID_HOST_STATE_FIELD = 8, VMXERR_VMPTRLD_INVALID_ADDRESS = 9, VMXERR_VMPTRLD_VMXON_POINTER = 10, VMXERR_VMPTRLD_INCORRECT_VMCS_REVISION_ID = 11, VMXERR_UNSUPPORTED_VMCS_COMPONENT = 12, VMXERR_VMWRITE_READ_ONLY_VMCS_COMPONENT = 13, VMXERR_VMXON_IN_VMX_ROOT_OPERATION = 15, VMXERR_ENTRY_INVALID_EXECUTIVE_VMCS_POINTER = 16, VMXERR_ENTRY_NONLAUNCHED_EXECUTIVE_VMCS = 17, VMXERR_ENTRY_EXECUTIVE_VMCS_POINTER_NOT_VMXON_POINTER = 18, VMXERR_VMCALL_NONCLEAR_VMCS = 19, VMXERR_VMCALL_INVALID_VM_EXIT_CONTROL_FIELDS = 20, VMXERR_VMCALL_INCORRECT_MSEG_REVISION_ID = 22, VMXERR_VMXOFF_UNDER_DUAL_MONITOR_TREATMENT_OF_SMIS_AND_SMM = 23, VMXERR_VMCALL_INVALID_SMM_MONITOR_FEATURES = 24, VMXERR_ENTRY_INVALID_VM_EXECUTION_CONTROL_FIELDS_IN_EXECUTIVE_VMCS = 25, VMXERR_ENTRY_EVENTS_BLOCKED_BY_MOV_SS = 26, VMXERR_INVALID_OPERAND_TO_INVEPT_INVVPID = 28, }; #define SAVE_GPR \ "xchg %rax, regs\n\t" \ "xchg %rbx, regs+0x8\n\t" \ "xchg %rcx, regs+0x10\n\t" \ "xchg %rdx, regs+0x18\n\t" \ "xchg %rbp, regs+0x28\n\t" \ "xchg %rsi, regs+0x30\n\t" \ "xchg %rdi, regs+0x38\n\t" \ "xchg %r8, regs+0x40\n\t" \ "xchg %r9, regs+0x48\n\t" \ "xchg %r10, regs+0x50\n\t" \ "xchg %r11, regs+0x58\n\t" \ "xchg %r12, regs+0x60\n\t" \ "xchg %r13, regs+0x68\n\t" \ "xchg %r14, regs+0x70\n\t" \ "xchg %r15, regs+0x78\n\t" #define LOAD_GPR SAVE_GPR #define SAVE_GPR_C \ "xchg %%rax, regs\n\t" \ "xchg %%rbx, regs+0x8\n\t" \ "xchg %%rcx, regs+0x10\n\t" \ "xchg %%rdx, regs+0x18\n\t" \ "xchg %%rbp, regs+0x28\n\t" \ "xchg %%rsi, regs+0x30\n\t" \ "xchg %%rdi, regs+0x38\n\t" \ "xchg %%r8, regs+0x40\n\t" \ "xchg %%r9, regs+0x48\n\t" \ "xchg %%r10, regs+0x50\n\t" \ "xchg %%r11, regs+0x58\n\t" \ "xchg %%r12, regs+0x60\n\t" \ "xchg %%r13, regs+0x68\n\t" \ "xchg %%r14, regs+0x70\n\t" \ "xchg %%r15, regs+0x78\n\t" #define LOAD_GPR_C SAVE_GPR_C #define VMX_IO_SIZE_MASK 0x7 #define _VMX_IO_BYTE 0 #define _VMX_IO_WORD 1 #define _VMX_IO_LONG 3 #define VMX_IO_DIRECTION_MASK (1ul << 3) #define VMX_IO_IN (1ul << 3) #define VMX_IO_OUT 0 #define VMX_IO_STRING (1ul << 4) #define VMX_IO_REP (1ul << 5) #define VMX_IO_OPRAND_IMM (1ul << 6) #define VMX_IO_PORT_MASK 0xFFFF0000 #define VMX_IO_PORT_SHIFT 16 #define VMX_TEST_START 0 #define VMX_TEST_VMEXIT 1 #define VMX_TEST_EXIT 2 #define VMX_TEST_RESUME 3 #define VMX_TEST_VMABORT 4 #define VMX_TEST_VMSKIP 5 #define HYPERCALL_BIT (1ul << 12) #define HYPERCALL_MASK 0xFFF #define HYPERCALL_VMEXIT 0x1 #define HYPERCALL_VMABORT 0x2 #define HYPERCALL_VMSKIP 0x3 #define EPTP_PG_WALK_LEN_SHIFT 3ul #define EPTP_AD_FLAG (1ul << 6) #define EPT_MEM_TYPE_UC 0ul #define EPT_MEM_TYPE_WC 1ul #define EPT_MEM_TYPE_WT 4ul #define EPT_MEM_TYPE_WP 5ul #define EPT_MEM_TYPE_WB 6ul #define EPT_RA 1ul #define EPT_WA 2ul #define EPT_EA 4ul #define EPT_PRESENT (EPT_RA | EPT_WA | EPT_EA) #define EPT_ACCESS_FLAG (1ul << 8) #define EPT_DIRTY_FLAG (1ul << 9) #define EPT_LARGE_PAGE (1ul << 7) #define EPT_MEM_TYPE_SHIFT 3ul #define EPT_IGNORE_PAT (1ul << 6) #define EPT_SUPPRESS_VE (1ull << 63) #define EPT_CAP_WT 1ull #define EPT_CAP_PWL4 (1ull << 6) #define EPT_CAP_UC (1ull << 8) #define EPT_CAP_WB (1ull << 14) #define EPT_CAP_2M_PAGE (1ull << 16) #define EPT_CAP_1G_PAGE (1ull << 17) #define EPT_CAP_INVEPT (1ull << 20) #define EPT_CAP_INVEPT_SINGLE (1ull << 25) #define EPT_CAP_INVEPT_ALL (1ull << 26) #define EPT_CAP_AD_FLAG (1ull << 21) #define VPID_CAP_INVVPID (1ull << 32) #define VPID_CAP_INVVPID_ADDR (1ull << 40) #define VPID_CAP_INVVPID_CXTGLB (1ull << 41) #define VPID_CAP_INVVPID_ALL (1ull << 42) #define VPID_CAP_INVVPID_CXTLOC (1ull << 43) #define PAGE_SIZE_2M (512 * PAGE_SIZE) #define PAGE_SIZE_1G (512 * PAGE_SIZE_2M) #define EPT_PAGE_LEVEL 4 #define EPT_PGDIR_WIDTH 9 #define EPT_PGDIR_MASK 511 #define EPT_PGDIR_ENTRIES (1 << EPT_PGDIR_WIDTH) #define EPT_LEVEL_SHIFT(level) (((level)-1) * EPT_PGDIR_WIDTH + 12) #define EPT_ADDR_MASK GENMASK_ULL(51, 12) #define PAGE_MASK_2M (~(PAGE_SIZE_2M-1)) #define EPT_VLT_RD 1 #define EPT_VLT_WR (1 << 1) #define EPT_VLT_FETCH (1 << 2) #define EPT_VLT_PERM_RD (1 << 3) #define EPT_VLT_PERM_WR (1 << 4) #define EPT_VLT_PERM_EX (1 << 5) #define EPT_VLT_PERMS (EPT_VLT_PERM_RD | EPT_VLT_PERM_WR | \ EPT_VLT_PERM_EX) #define EPT_VLT_LADDR_VLD (1 << 7) #define EPT_VLT_PADDR (1 << 8) #define MAGIC_VAL_1 0x12345678ul #define MAGIC_VAL_2 0x87654321ul #define MAGIC_VAL_3 0xfffffffful #define MAGIC_VAL_4 0xdeadbeeful #define INVEPT_SINGLE 1 #define INVEPT_GLOBAL 2 #define INVVPID_ADDR 0 #define INVVPID_CONTEXT_GLOBAL 1 #define INVVPID_ALL 2 #define INVVPID_CONTEXT_LOCAL 3 #define ACTV_ACTIVE 0 #define ACTV_HLT 1 extern struct regs regs; extern union vmx_basic basic; extern union vmx_ctrl_msr ctrl_pin_rev; extern union vmx_ctrl_msr ctrl_cpu_rev[2]; extern union vmx_ctrl_msr ctrl_exit_rev; extern union vmx_ctrl_msr ctrl_enter_rev; extern union vmx_ept_vpid ept_vpid; extern u64 *vmxon_region; void vmx_set_test_stage(u32 s); u32 vmx_get_test_stage(void); void vmx_inc_test_stage(void); static int vmx_on(void) { bool ret; u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; asm volatile ("push %1; popf; vmxon %2; setbe %0\n\t" : "=q" (ret) : "q" (rflags), "m" (vmxon_region) : "cc"); return ret; } static int vmx_off(void) { bool ret; u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; asm volatile("push %1; popf; vmxoff; setbe %0\n\t" : "=q"(ret) : "q" (rflags) : "cc"); return ret; } static inline int make_vmcs_current(struct vmcs *vmcs) { bool ret; u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; asm volatile ("push %1; popf; vmptrld %2; setbe %0" : "=q" (ret) : "q" (rflags), "m" (vmcs) : "cc"); return ret; } static inline int vmcs_clear(struct vmcs *vmcs) { bool ret; u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; asm volatile ("push %1; popf; vmclear %2; setbe %0" : "=q" (ret) : "q" (rflags), "m" (vmcs) : "cc"); return ret; } static inline u64 vmcs_read(enum Encoding enc) { u64 val; asm volatile ("vmread %1, %0" : "=rm" (val) : "r" ((u64)enc) : "cc"); return val; } static inline int vmcs_read_checking(enum Encoding enc, u64 *value) { u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; u64 encoding = enc; u64 val; asm volatile ("shl $8, %%rax;" "sahf;" "vmread %[encoding], %[val];" "lahf;" "shr $8, %%rax" : /* output */ [val]"=rm"(val), "+a"(rflags) : /* input */ [encoding]"r"(encoding) : /* clobber */ "cc"); *value = val; return rflags & (X86_EFLAGS_CF | X86_EFLAGS_ZF); } static inline int vmcs_write(enum Encoding enc, u64 val) { bool ret; asm volatile ("vmwrite %1, %2; setbe %0" : "=q"(ret) : "rm" (val), "r" ((u64)enc) : "cc"); return ret; } static inline int vmcs_save(struct vmcs **vmcs) { bool ret; unsigned long pa; u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; asm volatile ("push %2; popf; vmptrst %1; setbe %0" : "=q" (ret), "=m" (pa) : "r" (rflags) : "cc"); *vmcs = (pa == -1ull) ? NULL : phys_to_virt(pa); return ret; } static inline bool invept(unsigned long type, u64 eptp) { bool ret; u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; struct { u64 eptp, gpa; } operand = {eptp, 0}; asm volatile("push %1; popf; invept %2, %3; setbe %0" : "=q" (ret) : "r" (rflags), "m"(operand),"r"(type) : "cc"); return ret; } static inline bool invvpid(unsigned long type, u64 vpid, u64 gla) { bool ret; u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; struct invvpid_operand operand = {vpid, gla}; asm volatile("push %1; popf; invvpid %2, %3; setbe %0" : "=q" (ret) : "r" (rflags), "m"(operand),"r"(type) : "cc"); return ret; } const char *exit_reason_description(u64 reason); void print_vmexit_info(); void print_vmentry_failure_info(struct vmentry_failure *failure); void ept_sync(int type, u64 eptp); void vpid_sync(int type, u16 vpid); void install_ept_entry(unsigned long *pml4, int pte_level, unsigned long guest_addr, unsigned long pte, unsigned long *pt_page); void install_1g_ept(unsigned long *pml4, unsigned long phys, unsigned long guest_addr, u64 perm); void install_2m_ept(unsigned long *pml4, unsigned long phys, unsigned long guest_addr, u64 perm); void install_ept(unsigned long *pml4, unsigned long phys, unsigned long guest_addr, u64 perm); void setup_ept_range(unsigned long *pml4, unsigned long start, unsigned long len, int map_1g, int map_2m, u64 perm); bool get_ept_pte(unsigned long *pml4, unsigned long guest_addr, int level, unsigned long *pte); void set_ept_pte(unsigned long *pml4, unsigned long guest_addr, int level, u64 pte_val); void check_ept_ad(unsigned long *pml4, u64 guest_cr3, unsigned long guest_addr, int expected_gpa_ad, int expected_pt_ad); void clear_ept_ad(unsigned long *pml4, u64 guest_cr3, unsigned long guest_addr); bool ept_2m_supported(void); bool ept_1g_supported(void); bool ept_huge_pages_supported(int level); bool ept_execute_only_supported(void); bool ept_ad_bits_supported(void); void enter_guest(void); typedef void (*test_guest_func)(void); typedef void (*test_teardown_func)(void *data); void test_set_guest(test_guest_func func); void test_add_teardown(test_teardown_func func, void *data); void test_skip(const char *msg); void __abort_test(void); #define TEST_ASSERT(cond) \ do { \ if (!(cond)) { \ report("%s:%d: Assertion failed: %s", 0, \ __FILE__, __LINE__, #cond); \ dump_stack(); \ __abort_test(); \ } \ report_pass(); \ } while (0) #define TEST_ASSERT_MSG(cond, fmt, args...) \ do { \ if (!(cond)) { \ report("%s:%d: Assertion failed: %s\n" fmt, 0, \ __FILE__, __LINE__, #cond, ##args); \ dump_stack(); \ __abort_test(); \ } \ report_pass(); \ } while (0) #define __TEST_EQ(a, b, a_str, b_str, assertion, fmt, args...) \ do { \ typeof(a) _a = a; \ typeof(b) _b = b; \ if (_a != _b) { \ char _bin_a[BINSTR_SZ]; \ char _bin_b[BINSTR_SZ]; \ binstr(_a, _bin_a); \ binstr(_b, _bin_b); \ report("%s:%d: %s failed: (%s) == (%s)\n" \ "\tLHS: %#018lx - %s - %lu\n" \ "\tRHS: %#018lx - %s - %lu%s" fmt, 0, \ __FILE__, __LINE__, \ assertion ? "Assertion" : "Expectation", a_str, b_str, \ (unsigned long) _a, _bin_a, (unsigned long) _a, \ (unsigned long) _b, _bin_b, (unsigned long) _b, \ fmt[0] == '\0' ? "" : "\n", ## args); \ dump_stack(); \ if (assertion) \ __abort_test(); \ } \ report_pass(); \ } while (0) #define TEST_ASSERT_EQ(a, b) __TEST_EQ(a, b, #a, #b, 1, "") #define TEST_ASSERT_EQ_MSG(a, b, fmt, args...) \ __TEST_EQ(a, b, #a, #b, 1, fmt, ## args) #define TEST_EXPECT_EQ(a, b) __TEST_EQ(a, b, #a, #b, 0, "") #define TEST_EXPECT_EQ_MSG(a, b, fmt, args...) \ __TEST_EQ(a, b, #a, #b, 0, fmt, ## args) #endif