1366f6083SPeter Grehan /*-
24d846d26SWarner Losh * SPDX-License-Identifier: BSD-2-Clause
3c49761ddSPedro F. Giffuni *
4366f6083SPeter Grehan * Copyright (c) 2011 NetApp, Inc.
5366f6083SPeter Grehan * All rights reserved.
62c352febSJohn Baldwin * Copyright (c) 2018 Joyent, Inc.
7366f6083SPeter Grehan *
8366f6083SPeter Grehan * Redistribution and use in source and binary forms, with or without
9366f6083SPeter Grehan * modification, are permitted provided that the following conditions
10366f6083SPeter Grehan * are met:
11366f6083SPeter Grehan * 1. Redistributions of source code must retain the above copyright
12366f6083SPeter Grehan * notice, this list of conditions and the following disclaimer.
13366f6083SPeter Grehan * 2. Redistributions in binary form must reproduce the above copyright
14366f6083SPeter Grehan * notice, this list of conditions and the following disclaimer in the
15366f6083SPeter Grehan * documentation and/or other materials provided with the distribution.
16366f6083SPeter Grehan *
17366f6083SPeter Grehan * THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND
18366f6083SPeter Grehan * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
19366f6083SPeter Grehan * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
20366f6083SPeter Grehan * ARE DISCLAIMED. IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE
21366f6083SPeter Grehan * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
22366f6083SPeter Grehan * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
23366f6083SPeter Grehan * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
24366f6083SPeter Grehan * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
25366f6083SPeter Grehan * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
26366f6083SPeter Grehan * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
27366f6083SPeter Grehan * SUCH DAMAGE.
28366f6083SPeter Grehan */
29366f6083SPeter Grehan
30366f6083SPeter Grehan #include <sys/cdefs.h>
31483d953aSJohn Baldwin #include "opt_bhyve_snapshot.h"
32483d953aSJohn Baldwin
33366f6083SPeter Grehan #include <sys/param.h>
34366f6083SPeter Grehan #include <sys/systm.h>
35366f6083SPeter Grehan #include <sys/smp.h>
36366f6083SPeter Grehan #include <sys/kernel.h>
37366f6083SPeter Grehan #include <sys/malloc.h>
38366f6083SPeter Grehan #include <sys/pcpu.h>
39366f6083SPeter Grehan #include <sys/proc.h>
40b7924341SAndrew Turner #include <sys/reg.h>
416f5a9606SMark Johnston #include <sys/smr.h>
423565b59eSNeel Natu #include <sys/sysctl.h>
43366f6083SPeter Grehan
44366f6083SPeter Grehan #include <vm/vm.h>
4574ac712fSMark Johnston #include <vm/vm_extern.h>
46366f6083SPeter Grehan #include <vm/pmap.h>
47366f6083SPeter Grehan
48366f6083SPeter Grehan #include <machine/psl.h>
49366f6083SPeter Grehan #include <machine/cpufunc.h>
508b287612SJohn Baldwin #include <machine/md_var.h>
51366f6083SPeter Grehan #include <machine/segments.h>
52176666c2SNeel Natu #include <machine/smp.h>
53608f97c3SPeter Grehan #include <machine/specialreg.h>
54366f6083SPeter Grehan #include <machine/vmparam.h>
55366f6083SPeter Grehan
56366f6083SPeter Grehan #include <machine/vmm.h>
57dc506506SNeel Natu #include <machine/vmm_dev.h>
58e813a873SNeel Natu #include <machine/vmm_instruction_emul.h>
59483d953aSJohn Baldwin #include <machine/vmm_snapshot.h>
60483d953aSJohn Baldwin
613ccb0233SMark Johnston #include <dev/vmm/vmm_ktr.h>
62*c76c2a19SMark Johnston #include <dev/vmm/vmm_mem.h>
633ccb0233SMark Johnston
64c3498942SNeel Natu #include "vmm_lapic.h"
65b01c2033SNeel Natu #include "vmm_host.h"
66762fd208STycho Nightingale #include "vmm_ioport.h"
67366f6083SPeter Grehan #include "vmm_stat.h"
680775fbb4STycho Nightingale #include "vatpic.h"
69de5ea6b6SNeel Natu #include "vlapic.h"
70de5ea6b6SNeel Natu #include "vlapic_priv.h"
71366f6083SPeter Grehan
72366f6083SPeter Grehan #include "ept.h"
73366f6083SPeter Grehan #include "vmx_cpufunc.h"
74366f6083SPeter Grehan #include "vmx.h"
75c3498942SNeel Natu #include "vmx_msr.h"
76366f6083SPeter Grehan #include "x86.h"
77366f6083SPeter Grehan #include "vmx_controls.h"
78*c76c2a19SMark Johnston #include "io/ppt.h"
79366f6083SPeter Grehan
80366f6083SPeter Grehan #define PINBASED_CTLS_ONE_SETTING \
81366f6083SPeter Grehan (PINBASED_EXTINT_EXITING | \
82366f6083SPeter Grehan PINBASED_NMI_EXITING | \
83366f6083SPeter Grehan PINBASED_VIRTUAL_NMI)
84366f6083SPeter Grehan #define PINBASED_CTLS_ZERO_SETTING 0
85366f6083SPeter Grehan
86366f6083SPeter Grehan #define PROCBASED_CTLS_WINDOW_SETTING \
87366f6083SPeter Grehan (PROCBASED_INT_WINDOW_EXITING | \
88366f6083SPeter Grehan PROCBASED_NMI_WINDOW_EXITING)
89366f6083SPeter Grehan
90366f6083SPeter Grehan #define PROCBASED_CTLS_ONE_SETTING \
91366f6083SPeter Grehan (PROCBASED_SECONDARY_CONTROLS | \
9265145c7fSNeel Natu PROCBASED_MWAIT_EXITING | \
9365145c7fSNeel Natu PROCBASED_MONITOR_EXITING | \
94366f6083SPeter Grehan PROCBASED_IO_EXITING | \
95366f6083SPeter Grehan PROCBASED_MSR_BITMAPS | \
96594db002STycho Nightingale PROCBASED_CTLS_WINDOW_SETTING | \
97594db002STycho Nightingale PROCBASED_CR8_LOAD_EXITING | \
98594db002STycho Nightingale PROCBASED_CR8_STORE_EXITING)
99366f6083SPeter Grehan #define PROCBASED_CTLS_ZERO_SETTING \
100366f6083SPeter Grehan (PROCBASED_CR3_LOAD_EXITING | \
101366f6083SPeter Grehan PROCBASED_CR3_STORE_EXITING | \
102366f6083SPeter Grehan PROCBASED_IO_BITMAPS)
103366f6083SPeter Grehan
104366f6083SPeter Grehan #define PROCBASED_CTLS2_ONE_SETTING PROCBASED2_ENABLE_EPT
105366f6083SPeter Grehan #define PROCBASED_CTLS2_ZERO_SETTING 0
106366f6083SPeter Grehan
107d72978ecSNeel Natu #define VM_EXIT_CTLS_ONE_SETTING \
10865eefbe4SJohn Baldwin (VM_EXIT_SAVE_DEBUG_CONTROLS | \
10965eefbe4SJohn Baldwin VM_EXIT_HOST_LMA | \
110366f6083SPeter Grehan VM_EXIT_SAVE_EFER | \
111d72978ecSNeel Natu VM_EXIT_LOAD_EFER | \
112a318f7ddSNeel Natu VM_EXIT_ACKNOWLEDGE_INTERRUPT)
113d72978ecSNeel Natu
11465eefbe4SJohn Baldwin #define VM_EXIT_CTLS_ZERO_SETTING 0
115366f6083SPeter Grehan
11665eefbe4SJohn Baldwin #define VM_ENTRY_CTLS_ONE_SETTING \
11765eefbe4SJohn Baldwin (VM_ENTRY_LOAD_DEBUG_CONTROLS | \
11865eefbe4SJohn Baldwin VM_ENTRY_LOAD_EFER)
119608f97c3SPeter Grehan
120366f6083SPeter Grehan #define VM_ENTRY_CTLS_ZERO_SETTING \
12165eefbe4SJohn Baldwin (VM_ENTRY_INTO_SMM | \
122366f6083SPeter Grehan VM_ENTRY_DEACTIVATE_DUAL_MONITOR)
123366f6083SPeter Grehan
124366f6083SPeter Grehan #define HANDLED 1
125366f6083SPeter Grehan #define UNHANDLED 0
126366f6083SPeter Grehan
127de5ea6b6SNeel Natu static MALLOC_DEFINE(M_VMX, "vmx", "vmx");
128de5ea6b6SNeel Natu static MALLOC_DEFINE(M_VLAPIC, "vlapic", "vlapic");
129366f6083SPeter Grehan
13073abae44SJohn Baldwin bool vmx_have_msr_tsc_aux;
13173abae44SJohn Baldwin
1323565b59eSNeel Natu SYSCTL_DECL(_hw_vmm);
133b40598c5SPawel Biernacki SYSCTL_NODE(_hw_vmm, OID_AUTO, vmx, CTLFLAG_RW | CTLFLAG_MPSAFE, NULL,
134b40598c5SPawel Biernacki NULL);
1353565b59eSNeel Natu
136b3996dd4SJohn Baldwin int vmxon_enabled[MAXCPU];
13774ac712fSMark Johnston static uint8_t *vmxon_region;
138366f6083SPeter Grehan
139366f6083SPeter Grehan static uint32_t pinbased_ctls, procbased_ctls, procbased_ctls2;
140366f6083SPeter Grehan static uint32_t exit_ctls, entry_ctls;
141366f6083SPeter Grehan
142366f6083SPeter Grehan static uint64_t cr0_ones_mask, cr0_zeros_mask;
1433565b59eSNeel Natu SYSCTL_ULONG(_hw_vmm_vmx, OID_AUTO, cr0_ones_mask, CTLFLAG_RD,
1443565b59eSNeel Natu &cr0_ones_mask, 0, NULL);
1453565b59eSNeel Natu SYSCTL_ULONG(_hw_vmm_vmx, OID_AUTO, cr0_zeros_mask, CTLFLAG_RD,
1463565b59eSNeel Natu &cr0_zeros_mask, 0, NULL);
1473565b59eSNeel Natu
148366f6083SPeter Grehan static uint64_t cr4_ones_mask, cr4_zeros_mask;
1493565b59eSNeel Natu SYSCTL_ULONG(_hw_vmm_vmx, OID_AUTO, cr4_ones_mask, CTLFLAG_RD,
1503565b59eSNeel Natu &cr4_ones_mask, 0, NULL);
1513565b59eSNeel Natu SYSCTL_ULONG(_hw_vmm_vmx, OID_AUTO, cr4_zeros_mask, CTLFLAG_RD,
1523565b59eSNeel Natu &cr4_zeros_mask, 0, NULL);
153366f6083SPeter Grehan
1543565b59eSNeel Natu static int vmx_initialized;
1553565b59eSNeel Natu SYSCTL_INT(_hw_vmm_vmx, OID_AUTO, initialized, CTLFLAG_RD,
1563565b59eSNeel Natu &vmx_initialized, 0, "Intel VMX initialized");
1573565b59eSNeel Natu
158366f6083SPeter Grehan /*
159366f6083SPeter Grehan * Optional capabilities
160366f6083SPeter Grehan */
161b40598c5SPawel Biernacki static SYSCTL_NODE(_hw_vmm_vmx, OID_AUTO, cap,
162b40598c5SPawel Biernacki CTLFLAG_RW | CTLFLAG_MPSAFE, NULL,
163b40598c5SPawel Biernacki NULL);
16406fc6db9SJohn Baldwin
165366f6083SPeter Grehan static int cap_halt_exit;
16606fc6db9SJohn Baldwin SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, halt_exit, CTLFLAG_RD, &cap_halt_exit, 0,
16706fc6db9SJohn Baldwin "HLT triggers a VM-exit");
16806fc6db9SJohn Baldwin
169366f6083SPeter Grehan static int cap_pause_exit;
17006fc6db9SJohn Baldwin SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, pause_exit, CTLFLAG_RD, &cap_pause_exit,
17106fc6db9SJohn Baldwin 0, "PAUSE triggers a VM-exit");
17206fc6db9SJohn Baldwin
1733ba952e1SCorvin Köhne static int cap_wbinvd_exit;
1743ba952e1SCorvin Köhne SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, wbinvd_exit, CTLFLAG_RD, &cap_wbinvd_exit,
1753ba952e1SCorvin Köhne 0, "WBINVD triggers a VM-exit");
1763ba952e1SCorvin Köhne
177f5f5f1e7SPeter Grehan static int cap_rdpid;
178f5f5f1e7SPeter Grehan SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, rdpid, CTLFLAG_RD, &cap_rdpid, 0,
179f5f5f1e7SPeter Grehan "Guests are allowed to use RDPID");
180f5f5f1e7SPeter Grehan
181f5f5f1e7SPeter Grehan static int cap_rdtscp;
182f5f5f1e7SPeter Grehan SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, rdtscp, CTLFLAG_RD, &cap_rdtscp, 0,
183f5f5f1e7SPeter Grehan "Guests are allowed to use RDTSCP");
184f5f5f1e7SPeter Grehan
185366f6083SPeter Grehan static int cap_unrestricted_guest;
18606fc6db9SJohn Baldwin SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, unrestricted_guest, CTLFLAG_RD,
18706fc6db9SJohn Baldwin &cap_unrestricted_guest, 0, "Unrestricted guests");
18806fc6db9SJohn Baldwin
189366f6083SPeter Grehan static int cap_monitor_trap;
19006fc6db9SJohn Baldwin SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, monitor_trap, CTLFLAG_RD,
19106fc6db9SJohn Baldwin &cap_monitor_trap, 0, "Monitor trap flag");
19206fc6db9SJohn Baldwin
19349cc03daSNeel Natu static int cap_invpcid;
19406fc6db9SJohn Baldwin SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, invpcid, CTLFLAG_RD, &cap_invpcid,
19506fc6db9SJohn Baldwin 0, "Guests are allowed to use INVPCID");
196366f6083SPeter Grehan
1971bc51badSMichael Reifenberger static int tpr_shadowing;
198f3ff0918SZhenlei Huang SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, tpr_shadowing,
199f3ff0918SZhenlei Huang CTLFLAG_RDTUN | CTLFLAG_NOFETCH,
2001bc51badSMichael Reifenberger &tpr_shadowing, 0, "TPR shadowing support");
2011bc51badSMichael Reifenberger
20288c4b8d1SNeel Natu static int virtual_interrupt_delivery;
203f3ff0918SZhenlei Huang SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, virtual_interrupt_delivery,
204f3ff0918SZhenlei Huang CTLFLAG_RDTUN | CTLFLAG_NOFETCH,
20588c4b8d1SNeel Natu &virtual_interrupt_delivery, 0, "APICv virtual interrupt delivery support");
20688c4b8d1SNeel Natu
207176666c2SNeel Natu static int posted_interrupts;
208f3ff0918SZhenlei Huang SYSCTL_INT(_hw_vmm_vmx_cap, OID_AUTO, posted_interrupts,
209f3ff0918SZhenlei Huang CTLFLAG_RDTUN | CTLFLAG_NOFETCH,
210176666c2SNeel Natu &posted_interrupts, 0, "APICv posted interrupt support");
211176666c2SNeel Natu
21218a2b08eSNeel Natu static int pirvec = -1;
213176666c2SNeel Natu SYSCTL_INT(_hw_vmm_vmx, OID_AUTO, posted_interrupt_vector, CTLFLAG_RD,
214176666c2SNeel Natu &pirvec, 0, "APICv posted interrupt vector");
215176666c2SNeel Natu
21645e51299SNeel Natu static struct unrhdr *vpid_unr;
21745e51299SNeel Natu static u_int vpid_alloc_failed;
21845e51299SNeel Natu SYSCTL_UINT(_hw_vmm_vmx, OID_AUTO, vpid_alloc_failed, CTLFLAG_RD,
21945e51299SNeel Natu &vpid_alloc_failed, 0, NULL);
22045e51299SNeel Natu
221d3588766SMark Johnston int guest_l1d_flush;
222f3ff0918SZhenlei Huang SYSCTL_INT(_hw_vmm_vmx, OID_AUTO, l1d_flush, CTLFLAG_RDTUN | CTLFLAG_NOFETCH,
223c30578feSKonstantin Belousov &guest_l1d_flush, 0, NULL);
224d3588766SMark Johnston int guest_l1d_flush_sw;
225f3ff0918SZhenlei Huang SYSCTL_INT(_hw_vmm_vmx, OID_AUTO, l1d_flush_sw, CTLFLAG_RDTUN | CTLFLAG_NOFETCH,
226c1141fbaSKonstantin Belousov &guest_l1d_flush_sw, 0, NULL);
227c30578feSKonstantin Belousov
228c1141fbaSKonstantin Belousov static struct msr_entry msr_load_list[1] __aligned(16);
229c30578feSKonstantin Belousov
23088c4b8d1SNeel Natu /*
2316ac73777STycho Nightingale * The definitions of SDT probes for VMX.
2326ac73777STycho Nightingale */
2336ac73777STycho Nightingale
2346ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, entry,
2356ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2366ac73777STycho Nightingale
2376ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, taskswitch,
2386ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "struct vm_task_switch *");
2396ac73777STycho Nightingale
2406ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, craccess,
2416ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint64_t");
2426ac73777STycho Nightingale
2436ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, rdmsr,
2446ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint32_t");
2456ac73777STycho Nightingale
2466ac73777STycho Nightingale SDT_PROBE_DEFINE5(vmm, vmx, exit, wrmsr,
2476ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint32_t", "uint64_t");
2486ac73777STycho Nightingale
2496ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, halt,
2506ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2516ac73777STycho Nightingale
2526ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, mtrap,
2536ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2546ac73777STycho Nightingale
2556ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, pause,
2566ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2576ac73777STycho Nightingale
2586ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, intrwindow,
2596ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2606ac73777STycho Nightingale
2616ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, interrupt,
2626ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint32_t");
2636ac73777STycho Nightingale
2646ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, nmiwindow,
2656ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2666ac73777STycho Nightingale
2676ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, inout,
2686ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2696ac73777STycho Nightingale
2706ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, cpuid,
2716ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2726ac73777STycho Nightingale
2736ac73777STycho Nightingale SDT_PROBE_DEFINE5(vmm, vmx, exit, exception,
2746ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint32_t", "int");
2756ac73777STycho Nightingale
2766ac73777STycho Nightingale SDT_PROBE_DEFINE5(vmm, vmx, exit, nestedfault,
2776ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint64_t", "uint64_t");
2786ac73777STycho Nightingale
2796ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, mmiofault,
2806ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint64_t");
2816ac73777STycho Nightingale
2826ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, eoi,
2836ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2846ac73777STycho Nightingale
2856ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, apicaccess,
2866ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2876ac73777STycho Nightingale
2886ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, apicwrite,
2896ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "struct vlapic *");
2906ac73777STycho Nightingale
2916ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, xsetbv,
2926ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2936ac73777STycho Nightingale
2946ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, monitor,
2956ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2966ac73777STycho Nightingale
2976ac73777STycho Nightingale SDT_PROBE_DEFINE3(vmm, vmx, exit, mwait,
2986ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *");
2996ac73777STycho Nightingale
30027d26457SAndrew Turner SDT_PROBE_DEFINE3(vmm, vmx, exit, vminsn,
30127d26457SAndrew Turner "struct vmx *", "int", "struct vm_exit *");
30227d26457SAndrew Turner
3036ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, unknown,
3046ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "uint32_t");
3056ac73777STycho Nightingale
3066ac73777STycho Nightingale SDT_PROBE_DEFINE4(vmm, vmx, exit, return,
3076ac73777STycho Nightingale "struct vmx *", "int", "struct vm_exit *", "int");
3086ac73777STycho Nightingale
3096ac73777STycho Nightingale /*
31088c4b8d1SNeel Natu * Use the last page below 4GB as the APIC access address. This address is
31188c4b8d1SNeel Natu * occupied by the boot firmware so it is guaranteed that it will not conflict
31288c4b8d1SNeel Natu * with a page in system memory.
31388c4b8d1SNeel Natu */
31488c4b8d1SNeel Natu #define APIC_ACCESS_ADDRESS 0xFFFFF000
31588c4b8d1SNeel Natu
316869c8d19SJohn Baldwin static int vmx_getdesc(void *vcpui, int reg, struct seg_desc *desc);
317869c8d19SJohn Baldwin static int vmx_getreg(void *vcpui, int reg, uint64_t *retval);
318c3498942SNeel Natu static int vmxctx_setreg(struct vmxctx *vmxctx, int reg, uint64_t val);
31988c4b8d1SNeel Natu static void vmx_inject_pir(struct vlapic *vlapic);
320483d953aSJohn Baldwin #ifdef BHYVE_SNAPSHOT
321869c8d19SJohn Baldwin static int vmx_restore_tsc(void *vcpui, uint64_t now);
322483d953aSJohn Baldwin #endif
32388c4b8d1SNeel Natu
324f5f5f1e7SPeter Grehan static inline bool
host_has_rdpid(void)325f5f5f1e7SPeter Grehan host_has_rdpid(void)
326f5f5f1e7SPeter Grehan {
327f5f5f1e7SPeter Grehan return ((cpu_stdext_feature2 & CPUID_STDEXT2_RDPID) != 0);
328f5f5f1e7SPeter Grehan }
329f5f5f1e7SPeter Grehan
330f5f5f1e7SPeter Grehan static inline bool
host_has_rdtscp(void)331f5f5f1e7SPeter Grehan host_has_rdtscp(void)
332f5f5f1e7SPeter Grehan {
333f5f5f1e7SPeter Grehan return ((amd_feature & AMDID_RDTSCP) != 0);
334f5f5f1e7SPeter Grehan }
335f5f5f1e7SPeter Grehan
336366f6083SPeter Grehan #ifdef KTR
337366f6083SPeter Grehan static const char *
exit_reason_to_str(int reason)338366f6083SPeter Grehan exit_reason_to_str(int reason)
339366f6083SPeter Grehan {
340366f6083SPeter Grehan static char reasonbuf[32];
341366f6083SPeter Grehan
342366f6083SPeter Grehan switch (reason) {
343366f6083SPeter Grehan case EXIT_REASON_EXCEPTION:
344366f6083SPeter Grehan return "exception";
345366f6083SPeter Grehan case EXIT_REASON_EXT_INTR:
346366f6083SPeter Grehan return "extint";
347366f6083SPeter Grehan case EXIT_REASON_TRIPLE_FAULT:
348366f6083SPeter Grehan return "triplefault";
349366f6083SPeter Grehan case EXIT_REASON_INIT:
350366f6083SPeter Grehan return "init";
351366f6083SPeter Grehan case EXIT_REASON_SIPI:
352366f6083SPeter Grehan return "sipi";
353366f6083SPeter Grehan case EXIT_REASON_IO_SMI:
354366f6083SPeter Grehan return "iosmi";
355366f6083SPeter Grehan case EXIT_REASON_SMI:
356366f6083SPeter Grehan return "smi";
357366f6083SPeter Grehan case EXIT_REASON_INTR_WINDOW:
358366f6083SPeter Grehan return "intrwindow";
359366f6083SPeter Grehan case EXIT_REASON_NMI_WINDOW:
360366f6083SPeter Grehan return "nmiwindow";
361366f6083SPeter Grehan case EXIT_REASON_TASK_SWITCH:
362366f6083SPeter Grehan return "taskswitch";
363366f6083SPeter Grehan case EXIT_REASON_CPUID:
364366f6083SPeter Grehan return "cpuid";
365366f6083SPeter Grehan case EXIT_REASON_GETSEC:
366366f6083SPeter Grehan return "getsec";
367366f6083SPeter Grehan case EXIT_REASON_HLT:
368366f6083SPeter Grehan return "hlt";
369366f6083SPeter Grehan case EXIT_REASON_INVD:
370366f6083SPeter Grehan return "invd";
371366f6083SPeter Grehan case EXIT_REASON_INVLPG:
372366f6083SPeter Grehan return "invlpg";
373366f6083SPeter Grehan case EXIT_REASON_RDPMC:
374366f6083SPeter Grehan return "rdpmc";
375366f6083SPeter Grehan case EXIT_REASON_RDTSC:
376366f6083SPeter Grehan return "rdtsc";
377366f6083SPeter Grehan case EXIT_REASON_RSM:
378366f6083SPeter Grehan return "rsm";
379366f6083SPeter Grehan case EXIT_REASON_VMCALL:
380366f6083SPeter Grehan return "vmcall";
381366f6083SPeter Grehan case EXIT_REASON_VMCLEAR:
382366f6083SPeter Grehan return "vmclear";
383366f6083SPeter Grehan case EXIT_REASON_VMLAUNCH:
384366f6083SPeter Grehan return "vmlaunch";
385366f6083SPeter Grehan case EXIT_REASON_VMPTRLD:
386366f6083SPeter Grehan return "vmptrld";
387366f6083SPeter Grehan case EXIT_REASON_VMPTRST:
388366f6083SPeter Grehan return "vmptrst";
389366f6083SPeter Grehan case EXIT_REASON_VMREAD:
390366f6083SPeter Grehan return "vmread";
391366f6083SPeter Grehan case EXIT_REASON_VMRESUME:
392366f6083SPeter Grehan return "vmresume";
393366f6083SPeter Grehan case EXIT_REASON_VMWRITE:
394366f6083SPeter Grehan return "vmwrite";
395366f6083SPeter Grehan case EXIT_REASON_VMXOFF:
396366f6083SPeter Grehan return "vmxoff";
397366f6083SPeter Grehan case EXIT_REASON_VMXON:
398366f6083SPeter Grehan return "vmxon";
399366f6083SPeter Grehan case EXIT_REASON_CR_ACCESS:
400366f6083SPeter Grehan return "craccess";
401366f6083SPeter Grehan case EXIT_REASON_DR_ACCESS:
402366f6083SPeter Grehan return "draccess";
403366f6083SPeter Grehan case EXIT_REASON_INOUT:
404366f6083SPeter Grehan return "inout";
405366f6083SPeter Grehan case EXIT_REASON_RDMSR:
406366f6083SPeter Grehan return "rdmsr";
407366f6083SPeter Grehan case EXIT_REASON_WRMSR:
408366f6083SPeter Grehan return "wrmsr";
409366f6083SPeter Grehan case EXIT_REASON_INVAL_VMCS:
410366f6083SPeter Grehan return "invalvmcs";
411366f6083SPeter Grehan case EXIT_REASON_INVAL_MSR:
412366f6083SPeter Grehan return "invalmsr";
413366f6083SPeter Grehan case EXIT_REASON_MWAIT:
414366f6083SPeter Grehan return "mwait";
415366f6083SPeter Grehan case EXIT_REASON_MTF:
416366f6083SPeter Grehan return "mtf";
417366f6083SPeter Grehan case EXIT_REASON_MONITOR:
418366f6083SPeter Grehan return "monitor";
419366f6083SPeter Grehan case EXIT_REASON_PAUSE:
420366f6083SPeter Grehan return "pause";
421b0538143SNeel Natu case EXIT_REASON_MCE_DURING_ENTRY:
422b0538143SNeel Natu return "mce-during-entry";
423366f6083SPeter Grehan case EXIT_REASON_TPR:
424366f6083SPeter Grehan return "tpr";
42588c4b8d1SNeel Natu case EXIT_REASON_APIC_ACCESS:
42688c4b8d1SNeel Natu return "apic-access";
427366f6083SPeter Grehan case EXIT_REASON_GDTR_IDTR:
428366f6083SPeter Grehan return "gdtridtr";
429366f6083SPeter Grehan case EXIT_REASON_LDTR_TR:
430366f6083SPeter Grehan return "ldtrtr";
431366f6083SPeter Grehan case EXIT_REASON_EPT_FAULT:
432366f6083SPeter Grehan return "eptfault";
433366f6083SPeter Grehan case EXIT_REASON_EPT_MISCONFIG:
434366f6083SPeter Grehan return "eptmisconfig";
435366f6083SPeter Grehan case EXIT_REASON_INVEPT:
436366f6083SPeter Grehan return "invept";
437366f6083SPeter Grehan case EXIT_REASON_RDTSCP:
438366f6083SPeter Grehan return "rdtscp";
439366f6083SPeter Grehan case EXIT_REASON_VMX_PREEMPT:
440366f6083SPeter Grehan return "vmxpreempt";
441366f6083SPeter Grehan case EXIT_REASON_INVVPID:
442366f6083SPeter Grehan return "invvpid";
443366f6083SPeter Grehan case EXIT_REASON_WBINVD:
444366f6083SPeter Grehan return "wbinvd";
445366f6083SPeter Grehan case EXIT_REASON_XSETBV:
446366f6083SPeter Grehan return "xsetbv";
44788c4b8d1SNeel Natu case EXIT_REASON_APIC_WRITE:
44888c4b8d1SNeel Natu return "apic-write";
449366f6083SPeter Grehan default:
450366f6083SPeter Grehan snprintf(reasonbuf, sizeof(reasonbuf), "%d", reason);
451366f6083SPeter Grehan return (reasonbuf);
452366f6083SPeter Grehan }
453366f6083SPeter Grehan }
454366f6083SPeter Grehan #endif /* KTR */
455366f6083SPeter Grehan
456159dd56fSNeel Natu static int
vmx_allow_x2apic_msrs(struct vmx * vmx)457159dd56fSNeel Natu vmx_allow_x2apic_msrs(struct vmx *vmx)
458159dd56fSNeel Natu {
459159dd56fSNeel Natu int i, error;
460159dd56fSNeel Natu
461159dd56fSNeel Natu error = 0;
462159dd56fSNeel Natu
463159dd56fSNeel Natu /*
464159dd56fSNeel Natu * Allow readonly access to the following x2APIC MSRs from the guest.
465159dd56fSNeel Natu */
466159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_ID);
467159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_VERSION);
468159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_LDR);
469159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_SVR);
470159dd56fSNeel Natu
471159dd56fSNeel Natu for (i = 0; i < 8; i++)
472159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_ISR0 + i);
473159dd56fSNeel Natu
474159dd56fSNeel Natu for (i = 0; i < 8; i++)
475159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_TMR0 + i);
476159dd56fSNeel Natu
477159dd56fSNeel Natu for (i = 0; i < 8; i++)
478159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_IRR0 + i);
479159dd56fSNeel Natu
480159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_ESR);
481159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_LVT_TIMER);
482159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_LVT_THERMAL);
483159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_LVT_PCINT);
484159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_LVT_LINT0);
485159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_LVT_LINT1);
486159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_LVT_ERROR);
487159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_ICR_TIMER);
488159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_DCR_TIMER);
489159dd56fSNeel Natu error += guest_msr_ro(vmx, MSR_APIC_ICR);
490159dd56fSNeel Natu
491159dd56fSNeel Natu /*
492159dd56fSNeel Natu * Allow TPR, EOI and SELF_IPI MSRs to be read and written by the guest.
493159dd56fSNeel Natu *
494159dd56fSNeel Natu * These registers get special treatment described in the section
495159dd56fSNeel Natu * "Virtualizing MSR-Based APIC Accesses".
496159dd56fSNeel Natu */
497159dd56fSNeel Natu error += guest_msr_rw(vmx, MSR_APIC_TPR);
498159dd56fSNeel Natu error += guest_msr_rw(vmx, MSR_APIC_EOI);
499159dd56fSNeel Natu error += guest_msr_rw(vmx, MSR_APIC_SELF_IPI);
500159dd56fSNeel Natu
501159dd56fSNeel Natu return (error);
502159dd56fSNeel Natu }
503159dd56fSNeel Natu
504366f6083SPeter Grehan u_long
vmx_fix_cr0(u_long cr0)505366f6083SPeter Grehan vmx_fix_cr0(u_long cr0)
506366f6083SPeter Grehan {
507366f6083SPeter Grehan
508366f6083SPeter Grehan return ((cr0 | cr0_ones_mask) & ~cr0_zeros_mask);
509366f6083SPeter Grehan }
510366f6083SPeter Grehan
511366f6083SPeter Grehan u_long
vmx_fix_cr4(u_long cr4)512366f6083SPeter Grehan vmx_fix_cr4(u_long cr4)
513366f6083SPeter Grehan {
514366f6083SPeter Grehan
515366f6083SPeter Grehan return ((cr4 | cr4_ones_mask) & ~cr4_zeros_mask);
516366f6083SPeter Grehan }
517366f6083SPeter Grehan
518366f6083SPeter Grehan static void
vpid_free(int vpid)51945e51299SNeel Natu vpid_free(int vpid)
52045e51299SNeel Natu {
52145e51299SNeel Natu if (vpid < 0 || vpid > 0xffff)
52245e51299SNeel Natu panic("vpid_free: invalid vpid %d", vpid);
52345e51299SNeel Natu
52445e51299SNeel Natu /*
525ee98f99dSJohn Baldwin * VPIDs [0,vm_maxcpu] are special and are not allocated from
52645e51299SNeel Natu * the unit number allocator.
52745e51299SNeel Natu */
52845e51299SNeel Natu
529ee98f99dSJohn Baldwin if (vpid > vm_maxcpu)
53045e51299SNeel Natu free_unr(vpid_unr, vpid);
53145e51299SNeel Natu }
53245e51299SNeel Natu
53358eefc67SJohn Baldwin static uint16_t
vpid_alloc(int vcpuid)53458eefc67SJohn Baldwin vpid_alloc(int vcpuid)
53545e51299SNeel Natu {
53658eefc67SJohn Baldwin int x;
53745e51299SNeel Natu
53845e51299SNeel Natu /*
53945e51299SNeel Natu * If the "enable vpid" execution control is not enabled then the
54045e51299SNeel Natu * VPID is required to be 0 for all vcpus.
54145e51299SNeel Natu */
54258eefc67SJohn Baldwin if ((procbased_ctls2 & PROCBASED2_ENABLE_VPID) == 0)
54358eefc67SJohn Baldwin return (0);
54445e51299SNeel Natu
54545e51299SNeel Natu /*
54658eefc67SJohn Baldwin * Try to allocate a unique VPID for each from the unit number
54758eefc67SJohn Baldwin * allocator.
54845e51299SNeel Natu */
54945e51299SNeel Natu x = alloc_unr(vpid_unr);
55045e51299SNeel Natu
55158eefc67SJohn Baldwin if (x == -1) {
55245e51299SNeel Natu atomic_add_int(&vpid_alloc_failed, 1);
55345e51299SNeel Natu
55445e51299SNeel Natu /*
55545e51299SNeel Natu * If the unit number allocator does not have enough unique
556ee98f99dSJohn Baldwin * VPIDs then we need to allocate from the [1,vm_maxcpu] range.
55745e51299SNeel Natu *
55845e51299SNeel Natu * These VPIDs are not be unique across VMs but this does not
55945e51299SNeel Natu * affect correctness because the combined mappings are also
56045e51299SNeel Natu * tagged with the EP4TA which is unique for each VM.
56145e51299SNeel Natu *
56245e51299SNeel Natu * It is still sub-optimal because the invvpid will invalidate
56345e51299SNeel Natu * combined mappings for a particular VPID across all EP4TAs.
56445e51299SNeel Natu */
56558eefc67SJohn Baldwin return (vcpuid + 1);
56645e51299SNeel Natu }
56758eefc67SJohn Baldwin
56858eefc67SJohn Baldwin return (x);
56945e51299SNeel Natu }
57045e51299SNeel Natu
57145e51299SNeel Natu static void
vpid_init(void)57245e51299SNeel Natu vpid_init(void)
57345e51299SNeel Natu {
57445e51299SNeel Natu /*
57545e51299SNeel Natu * VPID 0 is required when the "enable VPID" execution control is
57645e51299SNeel Natu * disabled.
57745e51299SNeel Natu *
578ee98f99dSJohn Baldwin * VPIDs [1,vm_maxcpu] are used as the "overflow namespace" when the
57945e51299SNeel Natu * unit number allocator does not have sufficient unique VPIDs to
58045e51299SNeel Natu * satisfy the allocation.
58145e51299SNeel Natu *
58245e51299SNeel Natu * The remaining VPIDs are managed by the unit number allocator.
58345e51299SNeel Natu */
584ee98f99dSJohn Baldwin vpid_unr = new_unrhdr(vm_maxcpu + 1, 0xffff, NULL);
58545e51299SNeel Natu }
58645e51299SNeel Natu
58745e51299SNeel Natu static void
vmx_disable(void * arg __unused)588366f6083SPeter Grehan vmx_disable(void *arg __unused)
589366f6083SPeter Grehan {
590366f6083SPeter Grehan struct invvpid_desc invvpid_desc = { 0 };
591366f6083SPeter Grehan struct invept_desc invept_desc = { 0 };
592366f6083SPeter Grehan
593366f6083SPeter Grehan if (vmxon_enabled[curcpu]) {
594366f6083SPeter Grehan /*
595366f6083SPeter Grehan * See sections 25.3.3.3 and 25.3.3.4 in Intel Vol 3b.
596366f6083SPeter Grehan *
597366f6083SPeter Grehan * VMXON or VMXOFF are not required to invalidate any TLB
598366f6083SPeter Grehan * caching structures. This prevents potential retention of
599366f6083SPeter Grehan * cached information in the TLB between distinct VMX episodes.
600366f6083SPeter Grehan */
601366f6083SPeter Grehan invvpid(INVVPID_TYPE_ALL_CONTEXTS, invvpid_desc);
602366f6083SPeter Grehan invept(INVEPT_TYPE_ALL_CONTEXTS, invept_desc);
603366f6083SPeter Grehan vmxoff();
604366f6083SPeter Grehan }
605366f6083SPeter Grehan load_cr4(rcr4() & ~CR4_VMXE);
606366f6083SPeter Grehan }
607366f6083SPeter Grehan
608366f6083SPeter Grehan static int
vmx_modcleanup(void)60915add60dSPeter Grehan vmx_modcleanup(void)
610366f6083SPeter Grehan {
611366f6083SPeter Grehan
61218a2b08eSNeel Natu if (pirvec >= 0)
61318a2b08eSNeel Natu lapic_ipi_free(pirvec);
614176666c2SNeel Natu
61545e51299SNeel Natu if (vpid_unr != NULL) {
61645e51299SNeel Natu delete_unrhdr(vpid_unr);
61745e51299SNeel Natu vpid_unr = NULL;
61845e51299SNeel Natu }
61945e51299SNeel Natu
620c1141fbaSKonstantin Belousov if (nmi_flush_l1d_sw == 1)
621c1141fbaSKonstantin Belousov nmi_flush_l1d_sw = 0;
622c1141fbaSKonstantin Belousov
623366f6083SPeter Grehan smp_rendezvous(NULL, vmx_disable, NULL, NULL);
624b10e100dSCorvin Köhne
625b10e100dSCorvin Köhne if (vmxon_region != NULL)
62674ac712fSMark Johnston kmem_free(vmxon_region, (mp_maxid + 1) * PAGE_SIZE);
627366f6083SPeter Grehan
628366f6083SPeter Grehan return (0);
629366f6083SPeter Grehan }
630366f6083SPeter Grehan
631366f6083SPeter Grehan static void
vmx_enable(void * arg __unused)632366f6083SPeter Grehan vmx_enable(void *arg __unused)
633366f6083SPeter Grehan {
634366f6083SPeter Grehan int error;
63511669a68STycho Nightingale uint64_t feature_control;
63611669a68STycho Nightingale
63711669a68STycho Nightingale feature_control = rdmsr(MSR_IA32_FEATURE_CONTROL);
63811669a68STycho Nightingale if ((feature_control & IA32_FEATURE_CONTROL_LOCK) == 0 ||
63911669a68STycho Nightingale (feature_control & IA32_FEATURE_CONTROL_VMX_EN) == 0) {
64011669a68STycho Nightingale wrmsr(MSR_IA32_FEATURE_CONTROL,
64111669a68STycho Nightingale feature_control | IA32_FEATURE_CONTROL_VMX_EN |
64211669a68STycho Nightingale IA32_FEATURE_CONTROL_LOCK);
64311669a68STycho Nightingale }
644366f6083SPeter Grehan
645366f6083SPeter Grehan load_cr4(rcr4() | CR4_VMXE);
646366f6083SPeter Grehan
64774ac712fSMark Johnston *(uint32_t *)&vmxon_region[curcpu * PAGE_SIZE] = vmx_revision();
64874ac712fSMark Johnston error = vmxon(&vmxon_region[curcpu * PAGE_SIZE]);
649366f6083SPeter Grehan if (error == 0)
650366f6083SPeter Grehan vmxon_enabled[curcpu] = 1;
651366f6083SPeter Grehan }
652366f6083SPeter Grehan
65363e62d39SJohn Baldwin static void
vmx_modsuspend(void)6540b32ef71SJoshua Rogers vmx_modsuspend(void)
6550b32ef71SJoshua Rogers {
6560b32ef71SJoshua Rogers
6570b32ef71SJoshua Rogers if (vmxon_enabled[curcpu])
6580b32ef71SJoshua Rogers vmx_disable(NULL);
6590b32ef71SJoshua Rogers }
6600b32ef71SJoshua Rogers
6610b32ef71SJoshua Rogers static void
vmx_modresume(void)66215add60dSPeter Grehan vmx_modresume(void)
66363e62d39SJohn Baldwin {
66463e62d39SJohn Baldwin
66563e62d39SJohn Baldwin if (vmxon_enabled[curcpu])
6660b32ef71SJoshua Rogers vmx_enable(NULL);
66763e62d39SJohn Baldwin }
66863e62d39SJohn Baldwin
669366f6083SPeter Grehan static int
vmx_modinit(int ipinum)67015add60dSPeter Grehan vmx_modinit(int ipinum)
671366f6083SPeter Grehan {
6721bc51badSMichael Reifenberger int error;
673d17b5104SNeel Natu uint64_t basic, fixed0, fixed1, feature_control;
67488c4b8d1SNeel Natu uint32_t tmp, procbased2_vid_bits;
675366f6083SPeter Grehan
676366f6083SPeter Grehan /* CPUID.1:ECX[bit 5] must be 1 for processor to support VMX */
6778b287612SJohn Baldwin if (!(cpu_feature2 & CPUID2_VMX)) {
67815add60dSPeter Grehan printf("vmx_modinit: processor does not support VMX "
67915add60dSPeter Grehan "operation\n");
680366f6083SPeter Grehan return (ENXIO);
681366f6083SPeter Grehan }
682366f6083SPeter Grehan
6834bff7fadSNeel Natu /*
6844bff7fadSNeel Natu * Verify that MSR_IA32_FEATURE_CONTROL lock and VMXON enable bits
6854bff7fadSNeel Natu * are set (bits 0 and 2 respectively).
6864bff7fadSNeel Natu */
6874bff7fadSNeel Natu feature_control = rdmsr(MSR_IA32_FEATURE_CONTROL);
68811669a68STycho Nightingale if ((feature_control & IA32_FEATURE_CONTROL_LOCK) == 1 &&
689150369abSNeel Natu (feature_control & IA32_FEATURE_CONTROL_VMX_EN) == 0) {
69015add60dSPeter Grehan printf("vmx_modinit: VMX operation disabled by BIOS\n");
6914bff7fadSNeel Natu return (ENXIO);
6924bff7fadSNeel Natu }
6934bff7fadSNeel Natu
694d17b5104SNeel Natu /*
695d17b5104SNeel Natu * Verify capabilities MSR_VMX_BASIC:
696d17b5104SNeel Natu * - bit 54 indicates support for INS/OUTS decoding
697d17b5104SNeel Natu */
698d17b5104SNeel Natu basic = rdmsr(MSR_VMX_BASIC);
699d17b5104SNeel Natu if ((basic & (1UL << 54)) == 0) {
70015add60dSPeter Grehan printf("vmx_modinit: processor does not support desired basic "
701d17b5104SNeel Natu "capabilities\n");
702d17b5104SNeel Natu return (EINVAL);
703d17b5104SNeel Natu }
704d17b5104SNeel Natu
705366f6083SPeter Grehan /* Check support for primary processor-based VM-execution controls */
706366f6083SPeter Grehan error = vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS,
707366f6083SPeter Grehan MSR_VMX_TRUE_PROCBASED_CTLS,
708366f6083SPeter Grehan PROCBASED_CTLS_ONE_SETTING,
709366f6083SPeter Grehan PROCBASED_CTLS_ZERO_SETTING, &procbased_ctls);
710366f6083SPeter Grehan if (error) {
71115add60dSPeter Grehan printf("vmx_modinit: processor does not support desired "
71215add60dSPeter Grehan "primary processor-based controls\n");
713366f6083SPeter Grehan return (error);
714366f6083SPeter Grehan }
715366f6083SPeter Grehan
716366f6083SPeter Grehan /* Clear the processor-based ctl bits that are set on demand */
717366f6083SPeter Grehan procbased_ctls &= ~PROCBASED_CTLS_WINDOW_SETTING;
718366f6083SPeter Grehan
719366f6083SPeter Grehan /* Check support for secondary processor-based VM-execution controls */
720366f6083SPeter Grehan error = vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS2,
721366f6083SPeter Grehan MSR_VMX_PROCBASED_CTLS2,
722366f6083SPeter Grehan PROCBASED_CTLS2_ONE_SETTING,
723366f6083SPeter Grehan PROCBASED_CTLS2_ZERO_SETTING, &procbased_ctls2);
724366f6083SPeter Grehan if (error) {
72515add60dSPeter Grehan printf("vmx_modinit: processor does not support desired "
72615add60dSPeter Grehan "secondary processor-based controls\n");
727366f6083SPeter Grehan return (error);
728366f6083SPeter Grehan }
729366f6083SPeter Grehan
730366f6083SPeter Grehan /* Check support for VPID */
731366f6083SPeter Grehan error = vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS2, MSR_VMX_PROCBASED_CTLS2,
732366f6083SPeter Grehan PROCBASED2_ENABLE_VPID, 0, &tmp);
733366f6083SPeter Grehan if (error == 0)
734366f6083SPeter Grehan procbased_ctls2 |= PROCBASED2_ENABLE_VPID;
735366f6083SPeter Grehan
736366f6083SPeter Grehan /* Check support for pin-based VM-execution controls */
737366f6083SPeter Grehan error = vmx_set_ctlreg(MSR_VMX_PINBASED_CTLS,
738366f6083SPeter Grehan MSR_VMX_TRUE_PINBASED_CTLS,
739366f6083SPeter Grehan PINBASED_CTLS_ONE_SETTING,
740366f6083SPeter Grehan PINBASED_CTLS_ZERO_SETTING, &pinbased_ctls);
741366f6083SPeter Grehan if (error) {
74215add60dSPeter Grehan printf("vmx_modinit: processor does not support desired "
743366f6083SPeter Grehan "pin-based controls\n");
744366f6083SPeter Grehan return (error);
745366f6083SPeter Grehan }
746366f6083SPeter Grehan
747366f6083SPeter Grehan /* Check support for VM-exit controls */
748366f6083SPeter Grehan error = vmx_set_ctlreg(MSR_VMX_EXIT_CTLS, MSR_VMX_TRUE_EXIT_CTLS,
749366f6083SPeter Grehan VM_EXIT_CTLS_ONE_SETTING,
750366f6083SPeter Grehan VM_EXIT_CTLS_ZERO_SETTING,
751366f6083SPeter Grehan &exit_ctls);
752366f6083SPeter Grehan if (error) {
75315add60dSPeter Grehan printf("vmx_modinit: processor does not support desired "
754366f6083SPeter Grehan "exit controls\n");
755366f6083SPeter Grehan return (error);
756366f6083SPeter Grehan }
757366f6083SPeter Grehan
758366f6083SPeter Grehan /* Check support for VM-entry controls */
759d72978ecSNeel Natu error = vmx_set_ctlreg(MSR_VMX_ENTRY_CTLS, MSR_VMX_TRUE_ENTRY_CTLS,
760d72978ecSNeel Natu VM_ENTRY_CTLS_ONE_SETTING, VM_ENTRY_CTLS_ZERO_SETTING,
761366f6083SPeter Grehan &entry_ctls);
762366f6083SPeter Grehan if (error) {
76315add60dSPeter Grehan printf("vmx_modinit: processor does not support desired "
764366f6083SPeter Grehan "entry controls\n");
765366f6083SPeter Grehan return (error);
766366f6083SPeter Grehan }
767366f6083SPeter Grehan
768366f6083SPeter Grehan /*
769366f6083SPeter Grehan * Check support for optional features by testing them
770366f6083SPeter Grehan * as individual bits
771366f6083SPeter Grehan */
772366f6083SPeter Grehan cap_halt_exit = (vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS,
773366f6083SPeter Grehan MSR_VMX_TRUE_PROCBASED_CTLS,
774366f6083SPeter Grehan PROCBASED_HLT_EXITING, 0,
775366f6083SPeter Grehan &tmp) == 0);
776366f6083SPeter Grehan
777366f6083SPeter Grehan cap_monitor_trap = (vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS,
778366f6083SPeter Grehan MSR_VMX_PROCBASED_CTLS,
779366f6083SPeter Grehan PROCBASED_MTF, 0,
780366f6083SPeter Grehan &tmp) == 0);
781366f6083SPeter Grehan
782366f6083SPeter Grehan cap_pause_exit = (vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS,
783366f6083SPeter Grehan MSR_VMX_TRUE_PROCBASED_CTLS,
784366f6083SPeter Grehan PROCBASED_PAUSE_EXITING, 0,
785366f6083SPeter Grehan &tmp) == 0);
786366f6083SPeter Grehan
7873ba952e1SCorvin Köhne cap_wbinvd_exit = (vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS2,
7883ba952e1SCorvin Köhne MSR_VMX_PROCBASED_CTLS2,
7893ba952e1SCorvin Köhne PROCBASED2_WBINVD_EXITING,
7903ba952e1SCorvin Köhne 0,
7913ba952e1SCorvin Köhne &tmp) == 0);
7923ba952e1SCorvin Köhne
793f5f5f1e7SPeter Grehan /*
794f5f5f1e7SPeter Grehan * Check support for RDPID and/or RDTSCP.
795f5f5f1e7SPeter Grehan *
796f5f5f1e7SPeter Grehan * Support a pass-through-based implementation of these via the
797f5f5f1e7SPeter Grehan * "enable RDTSCP" VM-execution control and the "RDTSC exiting"
798f5f5f1e7SPeter Grehan * VM-execution control.
799f5f5f1e7SPeter Grehan *
800f5f5f1e7SPeter Grehan * The "enable RDTSCP" VM-execution control applies to both RDPID
801f5f5f1e7SPeter Grehan * and RDTSCP (see SDM volume 3, section 25.3, "Changes to
802f5f5f1e7SPeter Grehan * Instruction Behavior in VMX Non-root operation"); this is why
803f5f5f1e7SPeter Grehan * only this VM-execution control needs to be enabled in order to
804f5f5f1e7SPeter Grehan * enable passing through whichever of RDPID and/or RDTSCP are
805f5f5f1e7SPeter Grehan * supported by the host.
806f5f5f1e7SPeter Grehan *
807f5f5f1e7SPeter Grehan * The "RDTSC exiting" VM-execution control applies to both RDTSC
808f5f5f1e7SPeter Grehan * and RDTSCP (again, per SDM volume 3, section 25.3), and is
809f5f5f1e7SPeter Grehan * already set up for RDTSC and RDTSCP pass-through by the current
810f5f5f1e7SPeter Grehan * implementation of RDTSC.
811f5f5f1e7SPeter Grehan *
812f5f5f1e7SPeter Grehan * Although RDPID and RDTSCP are optional capabilities, since there
813f5f5f1e7SPeter Grehan * does not currently seem to be a use case for enabling/disabling
814f5f5f1e7SPeter Grehan * these via libvmmapi, choose not to support this and, instead,
815f5f5f1e7SPeter Grehan * just statically always enable or always disable this support
816f5f5f1e7SPeter Grehan * across all vCPUs on all VMs. (Note that there may be some
817f5f5f1e7SPeter Grehan * complications to providing this functionality, e.g., the MSR
818f5f5f1e7SPeter Grehan * bitmap is currently per-VM rather than per-vCPU while the
819f5f5f1e7SPeter Grehan * capability API wants to be able to control capabilities on a
820f5f5f1e7SPeter Grehan * per-vCPU basis).
821f5f5f1e7SPeter Grehan */
822f5f5f1e7SPeter Grehan error = vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS2,
823f5f5f1e7SPeter Grehan MSR_VMX_PROCBASED_CTLS2,
824f5f5f1e7SPeter Grehan PROCBASED2_ENABLE_RDTSCP, 0, &tmp);
825f5f5f1e7SPeter Grehan cap_rdpid = error == 0 && host_has_rdpid();
826f5f5f1e7SPeter Grehan cap_rdtscp = error == 0 && host_has_rdtscp();
82773abae44SJohn Baldwin if (cap_rdpid || cap_rdtscp) {
828f5f5f1e7SPeter Grehan procbased_ctls2 |= PROCBASED2_ENABLE_RDTSCP;
82973abae44SJohn Baldwin vmx_have_msr_tsc_aux = true;
83073abae44SJohn Baldwin }
831f5f5f1e7SPeter Grehan
832366f6083SPeter Grehan cap_unrestricted_guest = (vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS2,
833366f6083SPeter Grehan MSR_VMX_PROCBASED_CTLS2,
834366f6083SPeter Grehan PROCBASED2_UNRESTRICTED_GUEST, 0,
835366f6083SPeter Grehan &tmp) == 0);
836366f6083SPeter Grehan
83749cc03daSNeel Natu cap_invpcid = (vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS2,
83849cc03daSNeel Natu MSR_VMX_PROCBASED_CTLS2, PROCBASED2_ENABLE_INVPCID, 0,
83949cc03daSNeel Natu &tmp) == 0);
84049cc03daSNeel Natu
84188c4b8d1SNeel Natu /*
8421bc51badSMichael Reifenberger * Check support for TPR shadow.
8431bc51badSMichael Reifenberger */
8441bc51badSMichael Reifenberger error = vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS,
8451bc51badSMichael Reifenberger MSR_VMX_TRUE_PROCBASED_CTLS, PROCBASED_USE_TPR_SHADOW, 0,
8461bc51badSMichael Reifenberger &tmp);
8471bc51badSMichael Reifenberger if (error == 0) {
8481bc51badSMichael Reifenberger tpr_shadowing = 1;
849f3ff0918SZhenlei Huang #ifndef BURN_BRIDGES
8501bc51badSMichael Reifenberger TUNABLE_INT_FETCH("hw.vmm.vmx.use_tpr_shadowing",
8511bc51badSMichael Reifenberger &tpr_shadowing);
852f3ff0918SZhenlei Huang #endif
853f3ff0918SZhenlei Huang TUNABLE_INT_FETCH("hw.vmm.vmx.cap.tpr_shadowing",
854f3ff0918SZhenlei Huang &tpr_shadowing);
8551bc51badSMichael Reifenberger }
8561bc51badSMichael Reifenberger
8571bc51badSMichael Reifenberger if (tpr_shadowing) {
8581bc51badSMichael Reifenberger procbased_ctls |= PROCBASED_USE_TPR_SHADOW;
8591bc51badSMichael Reifenberger procbased_ctls &= ~PROCBASED_CR8_LOAD_EXITING;
8601bc51badSMichael Reifenberger procbased_ctls &= ~PROCBASED_CR8_STORE_EXITING;
8611bc51badSMichael Reifenberger }
8621bc51badSMichael Reifenberger
8631bc51badSMichael Reifenberger /*
86488c4b8d1SNeel Natu * Check support for virtual interrupt delivery.
86588c4b8d1SNeel Natu */
86688c4b8d1SNeel Natu procbased2_vid_bits = (PROCBASED2_VIRTUALIZE_APIC_ACCESSES |
86788c4b8d1SNeel Natu PROCBASED2_VIRTUALIZE_X2APIC_MODE |
86888c4b8d1SNeel Natu PROCBASED2_APIC_REGISTER_VIRTUALIZATION |
86988c4b8d1SNeel Natu PROCBASED2_VIRTUAL_INTERRUPT_DELIVERY);
87088c4b8d1SNeel Natu
87188c4b8d1SNeel Natu error = vmx_set_ctlreg(MSR_VMX_PROCBASED_CTLS2, MSR_VMX_PROCBASED_CTLS2,
87288c4b8d1SNeel Natu procbased2_vid_bits, 0, &tmp);
8731bc51badSMichael Reifenberger if (error == 0 && tpr_shadowing) {
87488c4b8d1SNeel Natu virtual_interrupt_delivery = 1;
875f3ff0918SZhenlei Huang #ifndef BURN_BRIDGES
87688c4b8d1SNeel Natu TUNABLE_INT_FETCH("hw.vmm.vmx.use_apic_vid",
87788c4b8d1SNeel Natu &virtual_interrupt_delivery);
878f3ff0918SZhenlei Huang #endif
879f3ff0918SZhenlei Huang TUNABLE_INT_FETCH("hw.vmm.vmx.cap.virtual_interrupt_delivery",
880f3ff0918SZhenlei Huang &virtual_interrupt_delivery);
88188c4b8d1SNeel Natu }
88288c4b8d1SNeel Natu
88388c4b8d1SNeel Natu if (virtual_interrupt_delivery) {
88488c4b8d1SNeel Natu procbased_ctls |= PROCBASED_USE_TPR_SHADOW;
88588c4b8d1SNeel Natu procbased_ctls2 |= procbased2_vid_bits;
88688c4b8d1SNeel Natu procbased_ctls2 &= ~PROCBASED2_VIRTUALIZE_X2APIC_MODE;
887176666c2SNeel Natu
888176666c2SNeel Natu /*
889176666c2SNeel Natu * Check for Posted Interrupts only if Virtual Interrupt
890176666c2SNeel Natu * Delivery is enabled.
891176666c2SNeel Natu */
892176666c2SNeel Natu error = vmx_set_ctlreg(MSR_VMX_PINBASED_CTLS,
893176666c2SNeel Natu MSR_VMX_TRUE_PINBASED_CTLS, PINBASED_POSTED_INTERRUPT, 0,
894176666c2SNeel Natu &tmp);
895176666c2SNeel Natu if (error == 0) {
896bd50262fSKonstantin Belousov pirvec = lapic_ipi_alloc(pti ? &IDTVEC(justreturn1_pti) :
897bd50262fSKonstantin Belousov &IDTVEC(justreturn));
89818a2b08eSNeel Natu if (pirvec < 0) {
899176666c2SNeel Natu if (bootverbose) {
90015add60dSPeter Grehan printf("vmx_modinit: unable to "
90115add60dSPeter Grehan "allocate posted interrupt "
90215add60dSPeter Grehan "vector\n");
90388c4b8d1SNeel Natu }
904176666c2SNeel Natu } else {
905176666c2SNeel Natu posted_interrupts = 1;
906f3ff0918SZhenlei Huang #ifndef BURN_BRIDGES
907176666c2SNeel Natu TUNABLE_INT_FETCH("hw.vmm.vmx.use_apic_pir",
908176666c2SNeel Natu &posted_interrupts);
909f3ff0918SZhenlei Huang #endif
910f3ff0918SZhenlei Huang TUNABLE_INT_FETCH("hw.vmm.vmx.cap.posted_interrupts",
911f3ff0918SZhenlei Huang &posted_interrupts);
912176666c2SNeel Natu }
913176666c2SNeel Natu }
914176666c2SNeel Natu }
915176666c2SNeel Natu
916176666c2SNeel Natu if (posted_interrupts)
917176666c2SNeel Natu pinbased_ctls |= PINBASED_POSTED_INTERRUPT;
91849cc03daSNeel Natu
919366f6083SPeter Grehan /* Initialize EPT */
920add611fdSNeel Natu error = ept_init(ipinum);
921366f6083SPeter Grehan if (error) {
92215add60dSPeter Grehan printf("vmx_modinit: ept initialization failed (%d)\n", error);
923366f6083SPeter Grehan return (error);
924366f6083SPeter Grehan }
925366f6083SPeter Grehan
92623437573SKonstantin Belousov guest_l1d_flush = (cpu_ia32_arch_caps &
92723437573SKonstantin Belousov IA32_ARCH_CAP_SKIP_L1DFL_VMENTRY) == 0;
928f3ff0918SZhenlei Huang #ifndef BURN_BRIDGES
929c30578feSKonstantin Belousov TUNABLE_INT_FETCH("hw.vmm.l1d_flush", &guest_l1d_flush);
930f3ff0918SZhenlei Huang #endif
931f3ff0918SZhenlei Huang TUNABLE_INT_FETCH("hw.vmm.vmx.l1d_flush", &guest_l1d_flush);
932c1141fbaSKonstantin Belousov
933c1141fbaSKonstantin Belousov /*
934c1141fbaSKonstantin Belousov * L1D cache flush is enabled. Use IA32_FLUSH_CMD MSR when
935c1141fbaSKonstantin Belousov * available. Otherwise fall back to the software flush
936c1141fbaSKonstantin Belousov * method which loads enough data from the kernel text to
937c1141fbaSKonstantin Belousov * flush existing L1D content, both on VMX entry and on NMI
938c1141fbaSKonstantin Belousov * return.
939c1141fbaSKonstantin Belousov */
940c1141fbaSKonstantin Belousov if (guest_l1d_flush) {
941c1141fbaSKonstantin Belousov if ((cpu_stdext_feature3 & CPUID_STDEXT3_L1D_FLUSH) == 0) {
942c1141fbaSKonstantin Belousov guest_l1d_flush_sw = 1;
943f3ff0918SZhenlei Huang #ifndef BURN_BRIDGES
944c1141fbaSKonstantin Belousov TUNABLE_INT_FETCH("hw.vmm.l1d_flush_sw",
945c1141fbaSKonstantin Belousov &guest_l1d_flush_sw);
946f3ff0918SZhenlei Huang #endif
947f3ff0918SZhenlei Huang TUNABLE_INT_FETCH("hw.vmm.vmx.l1d_flush_sw",
948f3ff0918SZhenlei Huang &guest_l1d_flush_sw);
949c1141fbaSKonstantin Belousov }
950c1141fbaSKonstantin Belousov if (guest_l1d_flush_sw) {
951c1141fbaSKonstantin Belousov if (nmi_flush_l1d_sw <= 1)
952c1141fbaSKonstantin Belousov nmi_flush_l1d_sw = 1;
953c1141fbaSKonstantin Belousov } else {
954c1141fbaSKonstantin Belousov msr_load_list[0].index = MSR_IA32_FLUSH_CMD;
955c1141fbaSKonstantin Belousov msr_load_list[0].val = IA32_FLUSH_CMD_L1D;
956c1141fbaSKonstantin Belousov }
957c1141fbaSKonstantin Belousov }
958c30578feSKonstantin Belousov
959366f6083SPeter Grehan /*
960366f6083SPeter Grehan * Stash the cr0 and cr4 bits that must be fixed to 0 or 1
961366f6083SPeter Grehan */
962366f6083SPeter Grehan fixed0 = rdmsr(MSR_VMX_CR0_FIXED0);
963366f6083SPeter Grehan fixed1 = rdmsr(MSR_VMX_CR0_FIXED1);
964366f6083SPeter Grehan cr0_ones_mask = fixed0 & fixed1;
965366f6083SPeter Grehan cr0_zeros_mask = ~fixed0 & ~fixed1;
966366f6083SPeter Grehan
967366f6083SPeter Grehan /*
968366f6083SPeter Grehan * CR0_PE and CR0_PG can be set to zero in VMX non-root operation
969366f6083SPeter Grehan * if unrestricted guest execution is allowed.
970366f6083SPeter Grehan */
971366f6083SPeter Grehan if (cap_unrestricted_guest)
972366f6083SPeter Grehan cr0_ones_mask &= ~(CR0_PG | CR0_PE);
973366f6083SPeter Grehan
974366f6083SPeter Grehan /*
975366f6083SPeter Grehan * Do not allow the guest to set CR0_NW or CR0_CD.
976366f6083SPeter Grehan */
977366f6083SPeter Grehan cr0_zeros_mask |= (CR0_NW | CR0_CD);
978366f6083SPeter Grehan
979366f6083SPeter Grehan fixed0 = rdmsr(MSR_VMX_CR4_FIXED0);
980366f6083SPeter Grehan fixed1 = rdmsr(MSR_VMX_CR4_FIXED1);
981366f6083SPeter Grehan cr4_ones_mask = fixed0 & fixed1;
982366f6083SPeter Grehan cr4_zeros_mask = ~fixed0 & ~fixed1;
983366f6083SPeter Grehan
98445e51299SNeel Natu vpid_init();
98545e51299SNeel Natu
986c3498942SNeel Natu vmx_msr_init();
987c3498942SNeel Natu
988366f6083SPeter Grehan /* enable VMX operation */
98974ac712fSMark Johnston vmxon_region = kmem_malloc((mp_maxid + 1) * PAGE_SIZE,
99074ac712fSMark Johnston M_WAITOK | M_ZERO);
991366f6083SPeter Grehan smp_rendezvous(NULL, vmx_enable, NULL, NULL);
992366f6083SPeter Grehan
9933565b59eSNeel Natu vmx_initialized = 1;
9943565b59eSNeel Natu
995366f6083SPeter Grehan return (0);
996366f6083SPeter Grehan }
997366f6083SPeter Grehan
998f7d47425SNeel Natu static void
vmx_trigger_hostintr(int vector)999f7d47425SNeel Natu vmx_trigger_hostintr(int vector)
1000f7d47425SNeel Natu {
1001f7d47425SNeel Natu uintptr_t func;
1002f7d47425SNeel Natu struct gate_descriptor *gd;
1003f7d47425SNeel Natu
1004f7d47425SNeel Natu gd = &idt[vector];
1005f7d47425SNeel Natu
1006f7d47425SNeel Natu KASSERT(vector >= 32 && vector <= 255, ("vmx_trigger_hostintr: "
1007f7d47425SNeel Natu "invalid vector %d", vector));
1008f7d47425SNeel Natu KASSERT(gd->gd_p == 1, ("gate descriptor for vector %d not present",
1009f7d47425SNeel Natu vector));
1010f7d47425SNeel Natu KASSERT(gd->gd_type == SDT_SYSIGT, ("gate descriptor for vector %d "
1011f7d47425SNeel Natu "has invalid type %d", vector, gd->gd_type));
1012f7d47425SNeel Natu KASSERT(gd->gd_dpl == SEL_KPL, ("gate descriptor for vector %d "
1013f7d47425SNeel Natu "has invalid dpl %d", vector, gd->gd_dpl));
1014f7d47425SNeel Natu KASSERT(gd->gd_selector == GSEL(GCODE_SEL, SEL_KPL), ("gate descriptor "
1015f7d47425SNeel Natu "for vector %d has invalid selector %d", vector, gd->gd_selector));
1016f7d47425SNeel Natu KASSERT(gd->gd_ist == 0, ("gate descriptor for vector %d has invalid "
1017f7d47425SNeel Natu "IST %d", vector, gd->gd_ist));
1018f7d47425SNeel Natu
1019f7d47425SNeel Natu func = ((long)gd->gd_hioffset << 16 | gd->gd_looffset);
1020f7d47425SNeel Natu vmx_call_isr(func);
1021f7d47425SNeel Natu }
1022f7d47425SNeel Natu
1023366f6083SPeter Grehan static int
vmx_setup_cr_shadow(int which,struct vmcs * vmcs,uint32_t initial)1024aaaa0656SPeter Grehan vmx_setup_cr_shadow(int which, struct vmcs *vmcs, uint32_t initial)
1025366f6083SPeter Grehan {
102639c21c2dSNeel Natu int error, mask_ident, shadow_ident;
1027aaaa0656SPeter Grehan uint64_t mask_value;
1028366f6083SPeter Grehan
102939c21c2dSNeel Natu if (which != 0 && which != 4)
103039c21c2dSNeel Natu panic("vmx_setup_cr_shadow: unknown cr%d", which);
103139c21c2dSNeel Natu
103239c21c2dSNeel Natu if (which == 0) {
103339c21c2dSNeel Natu mask_ident = VMCS_CR0_MASK;
103439c21c2dSNeel Natu mask_value = cr0_ones_mask | cr0_zeros_mask;
103539c21c2dSNeel Natu shadow_ident = VMCS_CR0_SHADOW;
103639c21c2dSNeel Natu } else {
103739c21c2dSNeel Natu mask_ident = VMCS_CR4_MASK;
103839c21c2dSNeel Natu mask_value = cr4_ones_mask | cr4_zeros_mask;
103939c21c2dSNeel Natu shadow_ident = VMCS_CR4_SHADOW;
104039c21c2dSNeel Natu }
104139c21c2dSNeel Natu
1042d3c11f40SPeter Grehan error = vmcs_setreg(vmcs, 0, VMCS_IDENT(mask_ident), mask_value);
1043366f6083SPeter Grehan if (error)
1044366f6083SPeter Grehan return (error);
1045366f6083SPeter Grehan
1046aaaa0656SPeter Grehan error = vmcs_setreg(vmcs, 0, VMCS_IDENT(shadow_ident), initial);
1047366f6083SPeter Grehan if (error)
1048366f6083SPeter Grehan return (error);
1049366f6083SPeter Grehan
1050366f6083SPeter Grehan return (0);
1051366f6083SPeter Grehan }
1052aaaa0656SPeter Grehan #define vmx_setup_cr0_shadow(vmcs,init) vmx_setup_cr_shadow(0, (vmcs), (init))
1053aaaa0656SPeter Grehan #define vmx_setup_cr4_shadow(vmcs,init) vmx_setup_cr_shadow(4, (vmcs), (init))
1054366f6083SPeter Grehan
1055366f6083SPeter Grehan static void *
vmx_init(struct vm * vm,pmap_t pmap)105615add60dSPeter Grehan vmx_init(struct vm *vm, pmap_t pmap)
1057366f6083SPeter Grehan {
1058d487cba3SCy Schubert int error __diagused;
1059366f6083SPeter Grehan struct vmx *vmx;
1060366f6083SPeter Grehan
1061366f6083SPeter Grehan vmx = malloc(sizeof(struct vmx), M_VMX, M_WAITOK | M_ZERO);
1062366f6083SPeter Grehan vmx->vm = vm;
1063366f6083SPeter Grehan
10649ce875d9SKonstantin Belousov vmx->eptp = eptp(vtophys((vm_offset_t)pmap->pm_pmltop));
1065318224bbSNeel Natu
1066366f6083SPeter Grehan /*
1067366f6083SPeter Grehan * Clean up EPTP-tagged guest physical and combined mappings
1068366f6083SPeter Grehan *
1069366f6083SPeter Grehan * VMX transitions are not required to invalidate any guest physical
1070366f6083SPeter Grehan * mappings. So, it may be possible for stale guest physical mappings
1071366f6083SPeter Grehan * to be present in the processor TLBs.
1072366f6083SPeter Grehan *
1073366f6083SPeter Grehan * Combined mappings for this EP4TA are also invalidated for all VPIDs.
1074366f6083SPeter Grehan */
1075318224bbSNeel Natu ept_invalidate_mappings(vmx->eptp);
1076366f6083SPeter Grehan
10770f00260cSJohn Baldwin vmx->msr_bitmap = malloc_aligned(PAGE_SIZE, PAGE_SIZE, M_VMX,
10780f00260cSJohn Baldwin M_WAITOK | M_ZERO);
1079366f6083SPeter Grehan msr_bitmap_initialize(vmx->msr_bitmap);
1080366f6083SPeter Grehan
1081366f6083SPeter Grehan /*
1082366f6083SPeter Grehan * It is safe to allow direct access to MSR_GSBASE and MSR_FSBASE.
1083366f6083SPeter Grehan * The guest FSBASE and GSBASE are saved and restored during
1084366f6083SPeter Grehan * vm-exit and vm-entry respectively. The host FSBASE and GSBASE are
1085366f6083SPeter Grehan * always restored from the vmcs host state area on vm-exit.
1086366f6083SPeter Grehan *
10871fb0ea3fSPeter Grehan * The SYSENTER_CS/ESP/EIP MSRs are identical to FS/GSBASE in
10881fb0ea3fSPeter Grehan * how they are saved/restored so can be directly accessed by the
10891fb0ea3fSPeter Grehan * guest.
10901fb0ea3fSPeter Grehan *
1091366f6083SPeter Grehan * MSR_EFER is saved and restored in the guest VMCS area on a
1092366f6083SPeter Grehan * VM exit and entry respectively. It is also restored from the
1093366f6083SPeter Grehan * host VMCS area on a VM exit.
10948d1d7a9eSPeter Grehan *
1095277bdd99STycho Nightingale * The TSC MSR is exposed read-only. Writes are disallowed as
1096277bdd99STycho Nightingale * that will impact the host TSC. If the guest does a write
1097277bdd99STycho Nightingale * the "use TSC offsetting" execution control is enabled and the
1098277bdd99STycho Nightingale * difference between the host TSC and the guest TSC is written
1099277bdd99STycho Nightingale * into the TSC offset in the VMCS.
1100f5f5f1e7SPeter Grehan *
1101f5f5f1e7SPeter Grehan * Guest TSC_AUX support is enabled if any of guest RDPID and/or
1102f5f5f1e7SPeter Grehan * guest RDTSCP support are enabled (since, as per Table 2-2 in SDM
1103f5f5f1e7SPeter Grehan * volume 4, TSC_AUX is supported if any of RDPID and/or RDTSCP are
1104f5f5f1e7SPeter Grehan * supported). If guest TSC_AUX support is enabled, TSC_AUX is
1105f5f5f1e7SPeter Grehan * exposed read-only so that the VMM can do one fewer MSR read per
1106f5f5f1e7SPeter Grehan * exit than if this register were exposed read-write; the guest
1107f5f5f1e7SPeter Grehan * restore value can be updated during guest writes (expected to be
1108f5f5f1e7SPeter Grehan * rare) instead of during all exits (common).
1109366f6083SPeter Grehan */
1110366f6083SPeter Grehan if (guest_msr_rw(vmx, MSR_GSBASE) ||
1111366f6083SPeter Grehan guest_msr_rw(vmx, MSR_FSBASE) ||
11121fb0ea3fSPeter Grehan guest_msr_rw(vmx, MSR_SYSENTER_CS_MSR) ||
11131fb0ea3fSPeter Grehan guest_msr_rw(vmx, MSR_SYSENTER_ESP_MSR) ||
11141fb0ea3fSPeter Grehan guest_msr_rw(vmx, MSR_SYSENTER_EIP_MSR) ||
11158d1d7a9eSPeter Grehan guest_msr_rw(vmx, MSR_EFER) ||
1116f5f5f1e7SPeter Grehan guest_msr_ro(vmx, MSR_TSC) ||
1117f5f5f1e7SPeter Grehan ((cap_rdpid || cap_rdtscp) && guest_msr_ro(vmx, MSR_TSC_AUX)))
111815add60dSPeter Grehan panic("vmx_init: error setting guest msr access");
1119366f6083SPeter Grehan
112088c4b8d1SNeel Natu if (virtual_interrupt_delivery) {
112188c4b8d1SNeel Natu error = vm_map_mmio(vm, DEFAULT_APIC_BASE, PAGE_SIZE,
112288c4b8d1SNeel Natu APIC_ACCESS_ADDRESS);
112388c4b8d1SNeel Natu /* XXX this should really return an error to the caller */
112488c4b8d1SNeel Natu KASSERT(error == 0, ("vm_map_mmio(apicbase) error %d", error));
112588c4b8d1SNeel Natu }
112688c4b8d1SNeel Natu
11271aa51504SJohn Baldwin vmx->pmap = pmap;
11281aa51504SJohn Baldwin return (vmx);
11291aa51504SJohn Baldwin }
11300f00260cSJohn Baldwin
11311aa51504SJohn Baldwin static void *
vmx_vcpu_init(void * vmi,struct vcpu * vcpu1,int vcpuid)1132950af9ffSJohn Baldwin vmx_vcpu_init(void *vmi, struct vcpu *vcpu1, int vcpuid)
11331aa51504SJohn Baldwin {
1134869c8d19SJohn Baldwin struct vmx *vmx = vmi;
11351aa51504SJohn Baldwin struct vmcs *vmcs;
11361aa51504SJohn Baldwin struct vmx_vcpu *vcpu;
11371aa51504SJohn Baldwin uint32_t exc_bitmap;
113858eefc67SJohn Baldwin uint16_t vpid;
11391aa51504SJohn Baldwin int error;
11401aa51504SJohn Baldwin
114158eefc67SJohn Baldwin vpid = vpid_alloc(vcpuid);
114258eefc67SJohn Baldwin
11431aa51504SJohn Baldwin vcpu = malloc(sizeof(*vcpu), M_VMX, M_WAITOK | M_ZERO);
1144869c8d19SJohn Baldwin vcpu->vmx = vmx;
1145950af9ffSJohn Baldwin vcpu->vcpu = vcpu1;
11461aa51504SJohn Baldwin vcpu->vcpuid = vcpuid;
11470f00260cSJohn Baldwin vcpu->vmcs = malloc_aligned(sizeof(*vmcs), PAGE_SIZE, M_VMX,
11480f00260cSJohn Baldwin M_WAITOK | M_ZERO);
11490f00260cSJohn Baldwin vcpu->apic_page = malloc_aligned(PAGE_SIZE, PAGE_SIZE, M_VMX,
11500f00260cSJohn Baldwin M_WAITOK | M_ZERO);
11511aa51504SJohn Baldwin vcpu->pir_desc = malloc_aligned(sizeof(*vcpu->pir_desc), 64, M_VMX,
11521aa51504SJohn Baldwin M_WAITOK | M_ZERO);
11530f00260cSJohn Baldwin
11540f00260cSJohn Baldwin vmcs = vcpu->vmcs;
1155c847a506SNeel Natu vmcs->identifier = vmx_revision();
1156c847a506SNeel Natu error = vmclear(vmcs);
1157366f6083SPeter Grehan if (error != 0) {
115815add60dSPeter Grehan panic("vmx_init: vmclear error %d on vcpu %d\n",
11591aa51504SJohn Baldwin error, vcpuid);
1160366f6083SPeter Grehan }
1161366f6083SPeter Grehan
11621aa51504SJohn Baldwin vmx_msr_guest_init(vmx, vcpu);
1163c3498942SNeel Natu
1164c847a506SNeel Natu error = vmcs_init(vmcs);
1165c847a506SNeel Natu KASSERT(error == 0, ("vmcs_init error %d", error));
1166366f6083SPeter Grehan
1167c847a506SNeel Natu VMPTRLD(vmcs);
1168c847a506SNeel Natu error = 0;
11690f00260cSJohn Baldwin error += vmwrite(VMCS_HOST_RSP, (u_long)&vcpu->ctx);
1170c847a506SNeel Natu error += vmwrite(VMCS_EPTP, vmx->eptp);
1171c847a506SNeel Natu error += vmwrite(VMCS_PIN_BASED_CTLS, pinbased_ctls);
1172c847a506SNeel Natu error += vmwrite(VMCS_PRI_PROC_BASED_CTLS, procbased_ctls);
117380cb5d84SJohn Baldwin if (vcpu_trap_wbinvd(vcpu->vcpu)) {
11743ba952e1SCorvin Köhne KASSERT(cap_wbinvd_exit, ("WBINVD trap not available"));
11753ba952e1SCorvin Köhne procbased_ctls2 |= PROCBASED2_WBINVD_EXITING;
11763ba952e1SCorvin Köhne }
1177c847a506SNeel Natu error += vmwrite(VMCS_SEC_PROC_BASED_CTLS, procbased_ctls2);
1178c847a506SNeel Natu error += vmwrite(VMCS_EXIT_CTLS, exit_ctls);
1179c847a506SNeel Natu error += vmwrite(VMCS_ENTRY_CTLS, entry_ctls);
1180c847a506SNeel Natu error += vmwrite(VMCS_MSR_BITMAP, vtophys(vmx->msr_bitmap));
118158eefc67SJohn Baldwin error += vmwrite(VMCS_VPID, vpid);
1182b0538143SNeel Natu
1183c1141fbaSKonstantin Belousov if (guest_l1d_flush && !guest_l1d_flush_sw) {
1184c1141fbaSKonstantin Belousov vmcs_write(VMCS_ENTRY_MSR_LOAD, pmap_kextract(
1185c1141fbaSKonstantin Belousov (vm_offset_t)&msr_load_list[0]));
1186c1141fbaSKonstantin Belousov vmcs_write(VMCS_ENTRY_MSR_LOAD_COUNT,
1187c1141fbaSKonstantin Belousov nitems(msr_load_list));
1188c1141fbaSKonstantin Belousov vmcs_write(VMCS_EXIT_MSR_STORE, 0);
1189c1141fbaSKonstantin Belousov vmcs_write(VMCS_EXIT_MSR_STORE_COUNT, 0);
1190c1141fbaSKonstantin Belousov }
1191c1141fbaSKonstantin Belousov
1192b0538143SNeel Natu /* exception bitmap */
119380cb5d84SJohn Baldwin if (vcpu_trace_exceptions(vcpu->vcpu))
1194b0538143SNeel Natu exc_bitmap = 0xffffffff;
1195b0538143SNeel Natu else
1196b0538143SNeel Natu exc_bitmap = 1 << IDT_MC;
1197b0538143SNeel Natu error += vmwrite(VMCS_EXCEPTION_BITMAP, exc_bitmap);
1198b0538143SNeel Natu
11990f00260cSJohn Baldwin vcpu->ctx.guest_dr6 = DBREG_DR6_RESERVED1;
12009e2154ffSJohn Baldwin error += vmwrite(VMCS_GUEST_DR7, DBREG_DR7_RESERVED1);
120165eefbe4SJohn Baldwin
12021bc51badSMichael Reifenberger if (tpr_shadowing) {
12031aa51504SJohn Baldwin error += vmwrite(VMCS_VIRTUAL_APIC, vtophys(vcpu->apic_page));
12041bc51badSMichael Reifenberger }
12051bc51badSMichael Reifenberger
12061bc51badSMichael Reifenberger if (virtual_interrupt_delivery) {
12071bc51badSMichael Reifenberger error += vmwrite(VMCS_APIC_ACCESS, APIC_ACCESS_ADDRESS);
120888c4b8d1SNeel Natu error += vmwrite(VMCS_EOI_EXIT0, 0);
120988c4b8d1SNeel Natu error += vmwrite(VMCS_EOI_EXIT1, 0);
121088c4b8d1SNeel Natu error += vmwrite(VMCS_EOI_EXIT2, 0);
121188c4b8d1SNeel Natu error += vmwrite(VMCS_EOI_EXIT3, 0);
121288c4b8d1SNeel Natu }
1213176666c2SNeel Natu if (posted_interrupts) {
1214176666c2SNeel Natu error += vmwrite(VMCS_PIR_VECTOR, pirvec);
12151aa51504SJohn Baldwin error += vmwrite(VMCS_PIR_DESC, vtophys(vcpu->pir_desc));
1216176666c2SNeel Natu }
1217c847a506SNeel Natu VMCLEAR(vmcs);
121815add60dSPeter Grehan KASSERT(error == 0, ("vmx_init: error customizing the vmcs"));
1219366f6083SPeter Grehan
12200f00260cSJohn Baldwin vcpu->cap.set = 0;
12210f00260cSJohn Baldwin vcpu->cap.set |= cap_rdpid != 0 ? 1 << VM_CAP_RDPID : 0;
12220f00260cSJohn Baldwin vcpu->cap.set |= cap_rdtscp != 0 ? 1 << VM_CAP_RDTSCP : 0;
12230f00260cSJohn Baldwin vcpu->cap.proc_ctls = procbased_ctls;
12240f00260cSJohn Baldwin vcpu->cap.proc_ctls2 = procbased_ctls2;
12250f00260cSJohn Baldwin vcpu->cap.exc_bitmap = exc_bitmap;
1226366f6083SPeter Grehan
12270f00260cSJohn Baldwin vcpu->state.nextrip = ~0;
12280f00260cSJohn Baldwin vcpu->state.lastcpu = NOCPU;
122958eefc67SJohn Baldwin vcpu->state.vpid = vpid;
1230366f6083SPeter Grehan
1231aaaa0656SPeter Grehan /*
1232aaaa0656SPeter Grehan * Set up the CR0/4 shadows, and init the read shadow
1233aaaa0656SPeter Grehan * to the power-on register value from the Intel Sys Arch.
1234aaaa0656SPeter Grehan * CR0 - 0x60000010
1235aaaa0656SPeter Grehan * CR4 - 0
1236aaaa0656SPeter Grehan */
1237c847a506SNeel Natu error = vmx_setup_cr0_shadow(vmcs, 0x60000010);
123839c21c2dSNeel Natu if (error != 0)
123939c21c2dSNeel Natu panic("vmx_setup_cr0_shadow %d", error);
124039c21c2dSNeel Natu
1241c847a506SNeel Natu error = vmx_setup_cr4_shadow(vmcs, 0);
124239c21c2dSNeel Natu if (error != 0)
124339c21c2dSNeel Natu panic("vmx_setup_cr4_shadow %d", error);
1244318224bbSNeel Natu
12451aa51504SJohn Baldwin vcpu->ctx.pmap = vmx->pmap;
1246366f6083SPeter Grehan
12471aa51504SJohn Baldwin return (vcpu);
1248366f6083SPeter Grehan }
1249366f6083SPeter Grehan
1250366f6083SPeter Grehan static int
vmx_handle_cpuid(struct vmx_vcpu * vcpu,struct vmxctx * vmxctx)125180cb5d84SJohn Baldwin vmx_handle_cpuid(struct vmx_vcpu *vcpu, struct vmxctx *vmxctx)
1252366f6083SPeter Grehan {
1253a3f2a9c5SJohn Baldwin int handled;
1254366f6083SPeter Grehan
125580cb5d84SJohn Baldwin handled = x86_emulate_cpuid(vcpu->vcpu, (uint64_t *)&vmxctx->guest_rax,
1256a3f2a9c5SJohn Baldwin (uint64_t *)&vmxctx->guest_rbx, (uint64_t *)&vmxctx->guest_rcx,
1257a3f2a9c5SJohn Baldwin (uint64_t *)&vmxctx->guest_rdx);
1258366f6083SPeter Grehan return (handled);
1259366f6083SPeter Grehan }
1260366f6083SPeter Grehan
1261366f6083SPeter Grehan static __inline void
vmx_run_trace(struct vmx_vcpu * vcpu)1262869c8d19SJohn Baldwin vmx_run_trace(struct vmx_vcpu *vcpu)
1263366f6083SPeter Grehan {
126457e0119eSJohn Baldwin VMX_CTR1(vcpu, "Resume execution at %#lx", vmcs_guest_rip());
1265366f6083SPeter Grehan }
1266366f6083SPeter Grehan
1267366f6083SPeter Grehan static __inline void
vmx_exit_trace(struct vmx_vcpu * vcpu,uint64_t rip,uint32_t exit_reason,int handled)1268869c8d19SJohn Baldwin vmx_exit_trace(struct vmx_vcpu *vcpu, uint64_t rip, uint32_t exit_reason,
1269869c8d19SJohn Baldwin int handled)
1270366f6083SPeter Grehan {
127157e0119eSJohn Baldwin VMX_CTR3(vcpu, "%s %s vmexit at 0x%0lx",
1272366f6083SPeter Grehan handled ? "handled" : "unhandled",
1273366f6083SPeter Grehan exit_reason_to_str(exit_reason), rip);
1274eeefa4e4SNeel Natu }
1275366f6083SPeter Grehan
1276eeefa4e4SNeel Natu static __inline void
vmx_astpending_trace(struct vmx_vcpu * vcpu,uint64_t rip)1277869c8d19SJohn Baldwin vmx_astpending_trace(struct vmx_vcpu *vcpu, uint64_t rip)
1278eeefa4e4SNeel Natu {
127957e0119eSJohn Baldwin VMX_CTR1(vcpu, "astpending vmexit at 0x%0lx", rip);
1280366f6083SPeter Grehan }
1281366f6083SPeter Grehan
1282953c2c47SNeel Natu static VMM_STAT_INTEL(VCPU_INVVPID_SAVED, "Number of vpid invalidations saved");
12833527963bSNeel Natu static VMM_STAT_INTEL(VCPU_INVVPID_DONE, "Number of vpid invalidations done");
1284953c2c47SNeel Natu
12853527963bSNeel Natu /*
12863527963bSNeel Natu * Invalidate guest mappings identified by its vpid from the TLB.
12873527963bSNeel Natu */
12883527963bSNeel Natu static __inline void
vmx_invvpid(struct vmx * vmx,struct vmx_vcpu * vcpu,pmap_t pmap,int running)12891aa51504SJohn Baldwin vmx_invvpid(struct vmx *vmx, struct vmx_vcpu *vcpu, pmap_t pmap, int running)
1290366f6083SPeter Grehan {
1291366f6083SPeter Grehan struct vmxstate *vmxstate;
1292953c2c47SNeel Natu struct invvpid_desc invvpid_desc;
1293366f6083SPeter Grehan
12941aa51504SJohn Baldwin vmxstate = &vcpu->state;
12953527963bSNeel Natu if (vmxstate->vpid == 0)
12963de83862SNeel Natu return;
1297366f6083SPeter Grehan
12983527963bSNeel Natu if (!running) {
12993527963bSNeel Natu /*
13003527963bSNeel Natu * Set the 'lastcpu' to an invalid host cpu.
13013527963bSNeel Natu *
13023527963bSNeel Natu * This will invalidate TLB entries tagged with the vcpu's
13033527963bSNeel Natu * vpid the next time it runs via vmx_set_pcpu_defaults().
13043527963bSNeel Natu */
13053527963bSNeel Natu vmxstate->lastcpu = NOCPU;
13063527963bSNeel Natu return;
13073527963bSNeel Natu }
1308953c2c47SNeel Natu
13093527963bSNeel Natu KASSERT(curthread->td_critnest > 0, ("%s: vcpu %d running outside "
13101aa51504SJohn Baldwin "critical section", __func__, vcpu->vcpuid));
1311366f6083SPeter Grehan
1312366f6083SPeter Grehan /*
13133527963bSNeel Natu * Invalidate all mappings tagged with 'vpid'
1314366f6083SPeter Grehan *
1315366f6083SPeter Grehan * We do this because this vcpu was executing on a different host
1316366f6083SPeter Grehan * cpu when it last ran. We do not track whether it invalidated
1317366f6083SPeter Grehan * mappings associated with its 'vpid' during that run. So we must
1318366f6083SPeter Grehan * assume that the mappings associated with 'vpid' on 'curcpu' are
1319366f6083SPeter Grehan * stale and invalidate them.
1320366f6083SPeter Grehan *
1321366f6083SPeter Grehan * Note that we incur this penalty only when the scheduler chooses to
1322366f6083SPeter Grehan * move the thread associated with this vcpu between host cpus.
1323366f6083SPeter Grehan *
1324366f6083SPeter Grehan * Note also that this will invalidate mappings tagged with 'vpid'
1325366f6083SPeter Grehan * for "all" EP4TAs.
1326366f6083SPeter Grehan */
13276f5a9606SMark Johnston if (atomic_load_long(&pmap->pm_eptgen) == vmx->eptgen[curcpu]) {
1328953c2c47SNeel Natu invvpid_desc._res1 = 0;
1329953c2c47SNeel Natu invvpid_desc._res2 = 0;
1330366f6083SPeter Grehan invvpid_desc.vpid = vmxstate->vpid;
13310e30c5c0SWarner Losh invvpid_desc.linear_addr = 0;
1332366f6083SPeter Grehan invvpid(INVVPID_TYPE_SINGLE_CONTEXT, invvpid_desc);
13333dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VCPU_INVVPID_DONE, 1);
1334953c2c47SNeel Natu } else {
1335953c2c47SNeel Natu /*
1336953c2c47SNeel Natu * The invvpid can be skipped if an invept is going to
1337953c2c47SNeel Natu * be performed before entering the guest. The invept
1338953c2c47SNeel Natu * will invalidate combined mappings tagged with
1339953c2c47SNeel Natu * 'vmx->eptp' for all vpids.
1340953c2c47SNeel Natu */
13413dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VCPU_INVVPID_SAVED, 1);
1342953c2c47SNeel Natu }
1343366f6083SPeter Grehan }
13443527963bSNeel Natu
13453527963bSNeel Natu static void
vmx_set_pcpu_defaults(struct vmx * vmx,struct vmx_vcpu * vcpu,pmap_t pmap)13461aa51504SJohn Baldwin vmx_set_pcpu_defaults(struct vmx *vmx, struct vmx_vcpu *vcpu, pmap_t pmap)
13473527963bSNeel Natu {
13483527963bSNeel Natu struct vmxstate *vmxstate;
13493527963bSNeel Natu
13501aa51504SJohn Baldwin vmxstate = &vcpu->state;
13513527963bSNeel Natu if (vmxstate->lastcpu == curcpu)
13523527963bSNeel Natu return;
13533527963bSNeel Natu
13543527963bSNeel Natu vmxstate->lastcpu = curcpu;
13553527963bSNeel Natu
13563dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VCPU_MIGRATIONS, 1);
13573527963bSNeel Natu
13583527963bSNeel Natu vmcs_write(VMCS_HOST_TR_BASE, vmm_get_host_trbase());
13593527963bSNeel Natu vmcs_write(VMCS_HOST_GDTR_BASE, vmm_get_host_gdtrbase());
13603527963bSNeel Natu vmcs_write(VMCS_HOST_GS_BASE, vmm_get_host_gsbase());
13613527963bSNeel Natu vmx_invvpid(vmx, vcpu, pmap, 1);
1362366f6083SPeter Grehan }
1363366f6083SPeter Grehan
1364366f6083SPeter Grehan /*
1365366f6083SPeter Grehan * We depend on 'procbased_ctls' to have the Interrupt Window Exiting bit set.
1366366f6083SPeter Grehan */
1367366f6083SPeter Grehan CTASSERT((PROCBASED_CTLS_ONE_SETTING & PROCBASED_INT_WINDOW_EXITING) != 0);
1368366f6083SPeter Grehan
1369366f6083SPeter Grehan static void __inline
vmx_set_int_window_exiting(struct vmx_vcpu * vcpu)1370869c8d19SJohn Baldwin vmx_set_int_window_exiting(struct vmx_vcpu *vcpu)
1371366f6083SPeter Grehan {
1372366f6083SPeter Grehan
13731aa51504SJohn Baldwin if ((vcpu->cap.proc_ctls & PROCBASED_INT_WINDOW_EXITING) == 0) {
13741aa51504SJohn Baldwin vcpu->cap.proc_ctls |= PROCBASED_INT_WINDOW_EXITING;
13751aa51504SJohn Baldwin vmcs_write(VMCS_PRI_PROC_BASED_CTLS, vcpu->cap.proc_ctls);
137657e0119eSJohn Baldwin VMX_CTR0(vcpu, "Enabling interrupt window exiting");
137748b2d828SNeel Natu }
1378366f6083SPeter Grehan }
1379366f6083SPeter Grehan
1380366f6083SPeter Grehan static void __inline
vmx_clear_int_window_exiting(struct vmx_vcpu * vcpu)1381869c8d19SJohn Baldwin vmx_clear_int_window_exiting(struct vmx_vcpu *vcpu)
1382366f6083SPeter Grehan {
1383366f6083SPeter Grehan
13841aa51504SJohn Baldwin KASSERT((vcpu->cap.proc_ctls & PROCBASED_INT_WINDOW_EXITING) != 0,
13851aa51504SJohn Baldwin ("intr_window_exiting not set: %#x", vcpu->cap.proc_ctls));
13861aa51504SJohn Baldwin vcpu->cap.proc_ctls &= ~PROCBASED_INT_WINDOW_EXITING;
13871aa51504SJohn Baldwin vmcs_write(VMCS_PRI_PROC_BASED_CTLS, vcpu->cap.proc_ctls);
138857e0119eSJohn Baldwin VMX_CTR0(vcpu, "Disabling interrupt window exiting");
1389366f6083SPeter Grehan }
1390366f6083SPeter Grehan
1391366f6083SPeter Grehan static void __inline
vmx_set_nmi_window_exiting(struct vmx_vcpu * vcpu)1392869c8d19SJohn Baldwin vmx_set_nmi_window_exiting(struct vmx_vcpu *vcpu)
1393366f6083SPeter Grehan {
1394366f6083SPeter Grehan
13951aa51504SJohn Baldwin if ((vcpu->cap.proc_ctls & PROCBASED_NMI_WINDOW_EXITING) == 0) {
13961aa51504SJohn Baldwin vcpu->cap.proc_ctls |= PROCBASED_NMI_WINDOW_EXITING;
13971aa51504SJohn Baldwin vmcs_write(VMCS_PRI_PROC_BASED_CTLS, vcpu->cap.proc_ctls);
139857e0119eSJohn Baldwin VMX_CTR0(vcpu, "Enabling NMI window exiting");
139948b2d828SNeel Natu }
1400366f6083SPeter Grehan }
1401366f6083SPeter Grehan
1402366f6083SPeter Grehan static void __inline
vmx_clear_nmi_window_exiting(struct vmx_vcpu * vcpu)1403869c8d19SJohn Baldwin vmx_clear_nmi_window_exiting(struct vmx_vcpu *vcpu)
1404366f6083SPeter Grehan {
1405366f6083SPeter Grehan
14061aa51504SJohn Baldwin KASSERT((vcpu->cap.proc_ctls & PROCBASED_NMI_WINDOW_EXITING) != 0,
14071aa51504SJohn Baldwin ("nmi_window_exiting not set %#x", vcpu->cap.proc_ctls));
14081aa51504SJohn Baldwin vcpu->cap.proc_ctls &= ~PROCBASED_NMI_WINDOW_EXITING;
14091aa51504SJohn Baldwin vmcs_write(VMCS_PRI_PROC_BASED_CTLS, vcpu->cap.proc_ctls);
141057e0119eSJohn Baldwin VMX_CTR0(vcpu, "Disabling NMI window exiting");
1411366f6083SPeter Grehan }
1412366f6083SPeter Grehan
1413277bdd99STycho Nightingale int
vmx_set_tsc_offset(struct vmx_vcpu * vcpu,uint64_t offset)141480cb5d84SJohn Baldwin vmx_set_tsc_offset(struct vmx_vcpu *vcpu, uint64_t offset)
1415277bdd99STycho Nightingale {
1416277bdd99STycho Nightingale int error;
1417277bdd99STycho Nightingale
14181aa51504SJohn Baldwin if ((vcpu->cap.proc_ctls & PROCBASED_TSC_OFFSET) == 0) {
14191aa51504SJohn Baldwin vcpu->cap.proc_ctls |= PROCBASED_TSC_OFFSET;
14201aa51504SJohn Baldwin vmcs_write(VMCS_PRI_PROC_BASED_CTLS, vcpu->cap.proc_ctls);
142157e0119eSJohn Baldwin VMX_CTR0(vcpu, "Enabling TSC offsetting");
1422277bdd99STycho Nightingale }
1423277bdd99STycho Nightingale
1424277bdd99STycho Nightingale error = vmwrite(VMCS_TSC_OFFSET, offset);
1425483d953aSJohn Baldwin #ifdef BHYVE_SNAPSHOT
1426483d953aSJohn Baldwin if (error == 0)
142780cb5d84SJohn Baldwin vm_set_tsc_offset(vcpu->vcpu, offset);
1428483d953aSJohn Baldwin #endif
1429277bdd99STycho Nightingale return (error);
1430277bdd99STycho Nightingale }
1431277bdd99STycho Nightingale
143248b2d828SNeel Natu #define NMI_BLOCKING (VMCS_INTERRUPTIBILITY_NMI_BLOCKING | \
143348b2d828SNeel Natu VMCS_INTERRUPTIBILITY_MOVSS_BLOCKING)
143448b2d828SNeel Natu #define HWINTR_BLOCKING (VMCS_INTERRUPTIBILITY_STI_BLOCKING | \
143548b2d828SNeel Natu VMCS_INTERRUPTIBILITY_MOVSS_BLOCKING)
143648b2d828SNeel Natu
143748b2d828SNeel Natu static void
vmx_inject_nmi(struct vmx_vcpu * vcpu)143880cb5d84SJohn Baldwin vmx_inject_nmi(struct vmx_vcpu *vcpu)
1439366f6083SPeter Grehan {
14405c272efaSRobert Wing uint32_t gi __diagused, info;
1441366f6083SPeter Grehan
144248b2d828SNeel Natu gi = vmcs_read(VMCS_GUEST_INTERRUPTIBILITY);
144348b2d828SNeel Natu KASSERT((gi & NMI_BLOCKING) == 0, ("vmx_inject_nmi: invalid guest "
144448b2d828SNeel Natu "interruptibility-state %#x", gi));
1445366f6083SPeter Grehan
144648b2d828SNeel Natu info = vmcs_read(VMCS_ENTRY_INTR_INFO);
144748b2d828SNeel Natu KASSERT((info & VMCS_INTR_VALID) == 0, ("vmx_inject_nmi: invalid "
144848b2d828SNeel Natu "VM-entry interruption information %#x", info));
1449366f6083SPeter Grehan
1450366f6083SPeter Grehan /*
1451366f6083SPeter Grehan * Inject the virtual NMI. The vector must be the NMI IDT entry
1452366f6083SPeter Grehan * or the VMCS entry check will fail.
1453366f6083SPeter Grehan */
145448b2d828SNeel Natu info = IDT_NMI | VMCS_INTR_T_NMI | VMCS_INTR_VALID;
14553de83862SNeel Natu vmcs_write(VMCS_ENTRY_INTR_INFO, info);
1456366f6083SPeter Grehan
145757e0119eSJohn Baldwin VMX_CTR0(vcpu, "Injecting vNMI");
1458366f6083SPeter Grehan
1459366f6083SPeter Grehan /* Clear the request */
146080cb5d84SJohn Baldwin vm_nmi_clear(vcpu->vcpu);
1461366f6083SPeter Grehan }
1462366f6083SPeter Grehan
1463366f6083SPeter Grehan static void
vmx_inject_interrupts(struct vmx_vcpu * vcpu,struct vlapic * vlapic,uint64_t guestrip)146480cb5d84SJohn Baldwin vmx_inject_interrupts(struct vmx_vcpu *vcpu, struct vlapic *vlapic,
146580cb5d84SJohn Baldwin uint64_t guestrip)
1466366f6083SPeter Grehan {
14670775fbb4STycho Nightingale int vector, need_nmi_exiting, extint_pending;
1468091d4532SNeel Natu uint64_t rflags, entryinfo;
146948b2d828SNeel Natu uint32_t gi, info;
1470366f6083SPeter Grehan
1471fefac543SBojan Novković if (vcpu->cap.set & (1 << VM_CAP_MASK_HWINTR)) {
1472fefac543SBojan Novković return;
1473fefac543SBojan Novković }
1474fefac543SBojan Novković
14751aa51504SJohn Baldwin if (vcpu->state.nextrip != guestrip) {
14762ce12423SNeel Natu gi = vmcs_read(VMCS_GUEST_INTERRUPTIBILITY);
14772ce12423SNeel Natu if (gi & HWINTR_BLOCKING) {
147857e0119eSJohn Baldwin VMX_CTR2(vcpu, "Guest interrupt blocking "
14792ce12423SNeel Natu "cleared due to rip change: %#lx/%#lx",
14801aa51504SJohn Baldwin vcpu->state.nextrip, guestrip);
14812ce12423SNeel Natu gi &= ~HWINTR_BLOCKING;
14822ce12423SNeel Natu vmcs_write(VMCS_GUEST_INTERRUPTIBILITY, gi);
14832ce12423SNeel Natu }
14842ce12423SNeel Natu }
14852ce12423SNeel Natu
148680cb5d84SJohn Baldwin if (vm_entry_intinfo(vcpu->vcpu, &entryinfo)) {
1487091d4532SNeel Natu KASSERT((entryinfo & VMCS_INTR_VALID) != 0, ("%s: entry "
1488091d4532SNeel Natu "intinfo is not valid: %#lx", __func__, entryinfo));
1489dc506506SNeel Natu
1490dc506506SNeel Natu info = vmcs_read(VMCS_ENTRY_INTR_INFO);
1491dc506506SNeel Natu KASSERT((info & VMCS_INTR_VALID) == 0, ("%s: cannot inject "
1492019008ebSNeel Natu "pending exception: %#lx/%#x", __func__, entryinfo, info));
1493dc506506SNeel Natu
1494091d4532SNeel Natu info = entryinfo;
1495091d4532SNeel Natu vector = info & 0xff;
1496091d4532SNeel Natu if (vector == IDT_BP || vector == IDT_OF) {
1497091d4532SNeel Natu /*
1498091d4532SNeel Natu * VT-x requires #BP and #OF to be injected as software
1499091d4532SNeel Natu * exceptions.
1500091d4532SNeel Natu */
1501091d4532SNeel Natu info &= ~VMCS_INTR_T_MASK;
1502091d4532SNeel Natu info |= VMCS_INTR_T_SWEXCEPTION;
1503dc506506SNeel Natu }
1504091d4532SNeel Natu
1505091d4532SNeel Natu if (info & VMCS_INTR_DEL_ERRCODE)
1506091d4532SNeel Natu vmcs_write(VMCS_ENTRY_EXCEPTION_ERROR, entryinfo >> 32);
1507091d4532SNeel Natu
1508dc506506SNeel Natu vmcs_write(VMCS_ENTRY_INTR_INFO, info);
1509dc506506SNeel Natu }
1510dc506506SNeel Natu
151180cb5d84SJohn Baldwin if (vm_nmi_pending(vcpu->vcpu)) {
1512366f6083SPeter Grehan /*
151348b2d828SNeel Natu * If there are no conditions blocking NMI injection then
151448b2d828SNeel Natu * inject it directly here otherwise enable "NMI window
151548b2d828SNeel Natu * exiting" to inject it as soon as we can.
1516eeefa4e4SNeel Natu *
151748b2d828SNeel Natu * We also check for STI_BLOCKING because some implementations
151848b2d828SNeel Natu * don't allow NMI injection in this case. If we are running
151948b2d828SNeel Natu * on a processor that doesn't have this restriction it will
152048b2d828SNeel Natu * immediately exit and the NMI will be injected in the
152148b2d828SNeel Natu * "NMI window exiting" handler.
1522366f6083SPeter Grehan */
152348b2d828SNeel Natu need_nmi_exiting = 1;
152448b2d828SNeel Natu gi = vmcs_read(VMCS_GUEST_INTERRUPTIBILITY);
152548b2d828SNeel Natu if ((gi & (HWINTR_BLOCKING | NMI_BLOCKING)) == 0) {
15263de83862SNeel Natu info = vmcs_read(VMCS_ENTRY_INTR_INFO);
152748b2d828SNeel Natu if ((info & VMCS_INTR_VALID) == 0) {
152880cb5d84SJohn Baldwin vmx_inject_nmi(vcpu);
152948b2d828SNeel Natu need_nmi_exiting = 0;
153048b2d828SNeel Natu } else {
153157e0119eSJohn Baldwin VMX_CTR1(vcpu, "Cannot inject NMI "
153257e0119eSJohn Baldwin "due to VM-entry intr info %#x", info);
153348b2d828SNeel Natu }
153448b2d828SNeel Natu } else {
153557e0119eSJohn Baldwin VMX_CTR1(vcpu, "Cannot inject NMI due to "
153657e0119eSJohn Baldwin "Guest Interruptibility-state %#x", gi);
153748b2d828SNeel Natu }
1538eeefa4e4SNeel Natu
153948b2d828SNeel Natu if (need_nmi_exiting)
1540869c8d19SJohn Baldwin vmx_set_nmi_window_exiting(vcpu);
154148b2d828SNeel Natu }
1542366f6083SPeter Grehan
154380cb5d84SJohn Baldwin extint_pending = vm_extint_pending(vcpu->vcpu);
15440775fbb4STycho Nightingale
15450775fbb4STycho Nightingale if (!extint_pending && virtual_interrupt_delivery) {
154688c4b8d1SNeel Natu vmx_inject_pir(vlapic);
154788c4b8d1SNeel Natu return;
154888c4b8d1SNeel Natu }
154988c4b8d1SNeel Natu
155048b2d828SNeel Natu /*
155136736912SNeel Natu * If interrupt-window exiting is already in effect then don't bother
155236736912SNeel Natu * checking for pending interrupts. This is just an optimization and
155336736912SNeel Natu * not needed for correctness.
155448b2d828SNeel Natu */
15551aa51504SJohn Baldwin if ((vcpu->cap.proc_ctls & PROCBASED_INT_WINDOW_EXITING) != 0) {
155657e0119eSJohn Baldwin VMX_CTR0(vcpu, "Skip interrupt injection due to "
155757e0119eSJohn Baldwin "pending int_window_exiting");
155848b2d828SNeel Natu return;
155936736912SNeel Natu }
156048b2d828SNeel Natu
15610775fbb4STycho Nightingale if (!extint_pending) {
1562366f6083SPeter Grehan /* Ask the local apic for a vector to inject */
15634d1e82a8SNeel Natu if (!vlapic_pending_intr(vlapic, &vector))
1564366f6083SPeter Grehan return;
1565a026dc3fSTycho Nightingale
1566a026dc3fSTycho Nightingale /*
1567a026dc3fSTycho Nightingale * From the Intel SDM, Volume 3, Section "Maskable
1568a026dc3fSTycho Nightingale * Hardware Interrupts":
1569a026dc3fSTycho Nightingale * - maskable interrupt vectors [16,255] can be delivered
1570a026dc3fSTycho Nightingale * through the local APIC.
1571a026dc3fSTycho Nightingale */
1572a026dc3fSTycho Nightingale KASSERT(vector >= 16 && vector <= 255,
1573a026dc3fSTycho Nightingale ("invalid vector %d from local APIC", vector));
15740775fbb4STycho Nightingale } else {
15750775fbb4STycho Nightingale /* Ask the legacy pic for a vector to inject */
157680cb5d84SJohn Baldwin vatpic_pending_intr(vcpu->vmx->vm, &vector);
1577366f6083SPeter Grehan
1578a026dc3fSTycho Nightingale /*
1579a026dc3fSTycho Nightingale * From the Intel SDM, Volume 3, Section "Maskable
1580a026dc3fSTycho Nightingale * Hardware Interrupts":
1581a026dc3fSTycho Nightingale * - maskable interrupt vectors [0,255] can be delivered
1582a026dc3fSTycho Nightingale * through the INTR pin.
1583a026dc3fSTycho Nightingale */
1584a026dc3fSTycho Nightingale KASSERT(vector >= 0 && vector <= 255,
1585a026dc3fSTycho Nightingale ("invalid vector %d from INTR", vector));
1586a026dc3fSTycho Nightingale }
1587366f6083SPeter Grehan
1588366f6083SPeter Grehan /* Check RFLAGS.IF and the interruptibility state of the guest */
15893de83862SNeel Natu rflags = vmcs_read(VMCS_GUEST_RFLAGS);
159036736912SNeel Natu if ((rflags & PSL_I) == 0) {
159157e0119eSJohn Baldwin VMX_CTR2(vcpu, "Cannot inject vector %d due to "
159257e0119eSJohn Baldwin "rflags %#lx", vector, rflags);
1593366f6083SPeter Grehan goto cantinject;
159436736912SNeel Natu }
1595366f6083SPeter Grehan
159648b2d828SNeel Natu gi = vmcs_read(VMCS_GUEST_INTERRUPTIBILITY);
159736736912SNeel Natu if (gi & HWINTR_BLOCKING) {
159857e0119eSJohn Baldwin VMX_CTR2(vcpu, "Cannot inject vector %d due to "
159957e0119eSJohn Baldwin "Guest Interruptibility-state %#x", vector, gi);
1600366f6083SPeter Grehan goto cantinject;
160136736912SNeel Natu }
160236736912SNeel Natu
160336736912SNeel Natu info = vmcs_read(VMCS_ENTRY_INTR_INFO);
160436736912SNeel Natu if (info & VMCS_INTR_VALID) {
160536736912SNeel Natu /*
160636736912SNeel Natu * This is expected and could happen for multiple reasons:
160736736912SNeel Natu * - A vectoring VM-entry was aborted due to astpending
160836736912SNeel Natu * - A VM-exit happened during event injection.
1609dc506506SNeel Natu * - An exception was injected above.
161036736912SNeel Natu * - An NMI was injected above or after "NMI window exiting"
161136736912SNeel Natu */
161257e0119eSJohn Baldwin VMX_CTR2(vcpu, "Cannot inject vector %d due to "
161357e0119eSJohn Baldwin "VM-entry intr info %#x", vector, info);
161436736912SNeel Natu goto cantinject;
161536736912SNeel Natu }
1616366f6083SPeter Grehan
1617366f6083SPeter Grehan /* Inject the interrupt */
1618160471d2SNeel Natu info = VMCS_INTR_T_HWINTR | VMCS_INTR_VALID;
1619366f6083SPeter Grehan info |= vector;
16203de83862SNeel Natu vmcs_write(VMCS_ENTRY_INTR_INFO, info);
1621366f6083SPeter Grehan
16220775fbb4STycho Nightingale if (!extint_pending) {
1623366f6083SPeter Grehan /* Update the Local APIC ISR */
1624de5ea6b6SNeel Natu vlapic_intr_accepted(vlapic, vector);
16250775fbb4STycho Nightingale } else {
162680cb5d84SJohn Baldwin vm_extint_clear(vcpu->vcpu);
162780cb5d84SJohn Baldwin vatpic_intr_accepted(vcpu->vmx->vm, vector);
16280775fbb4STycho Nightingale
16290775fbb4STycho Nightingale /*
16300775fbb4STycho Nightingale * After we accepted the current ExtINT the PIC may
16310775fbb4STycho Nightingale * have posted another one. If that is the case, set
16320775fbb4STycho Nightingale * the Interrupt Window Exiting execution control so
16330775fbb4STycho Nightingale * we can inject that one too.
16340494cb1bSNeel Natu *
16350494cb1bSNeel Natu * Also, interrupt window exiting allows us to inject any
16360494cb1bSNeel Natu * pending APIC vector that was preempted by the ExtINT
16370494cb1bSNeel Natu * as soon as possible. This applies both for the software
16380494cb1bSNeel Natu * emulated vlapic and the hardware assisted virtual APIC.
16390775fbb4STycho Nightingale */
1640869c8d19SJohn Baldwin vmx_set_int_window_exiting(vcpu);
16410775fbb4STycho Nightingale }
1642366f6083SPeter Grehan
164357e0119eSJohn Baldwin VMX_CTR1(vcpu, "Injecting hwintr at vector %d", vector);
1644366f6083SPeter Grehan
1645366f6083SPeter Grehan return;
1646366f6083SPeter Grehan
1647366f6083SPeter Grehan cantinject:
1648366f6083SPeter Grehan /*
1649366f6083SPeter Grehan * Set the Interrupt Window Exiting execution control so we can inject
1650366f6083SPeter Grehan * the interrupt as soon as blocking condition goes away.
1651366f6083SPeter Grehan */
1652869c8d19SJohn Baldwin vmx_set_int_window_exiting(vcpu);
1653366f6083SPeter Grehan }
1654366f6083SPeter Grehan
1655e5a1d950SNeel Natu /*
1656e5a1d950SNeel Natu * If the Virtual NMIs execution control is '1' then the logical processor
1657e5a1d950SNeel Natu * tracks virtual-NMI blocking in the Guest Interruptibility-state field of
1658e5a1d950SNeel Natu * the VMCS. An IRET instruction in VMX non-root operation will remove any
1659e5a1d950SNeel Natu * virtual-NMI blocking.
1660e5a1d950SNeel Natu *
1661e5a1d950SNeel Natu * This unblocking occurs even if the IRET causes a fault. In this case the
1662e5a1d950SNeel Natu * hypervisor needs to restore virtual-NMI blocking before resuming the guest.
1663e5a1d950SNeel Natu */
1664e5a1d950SNeel Natu static void
vmx_restore_nmi_blocking(struct vmx_vcpu * vcpu)1665869c8d19SJohn Baldwin vmx_restore_nmi_blocking(struct vmx_vcpu *vcpu)
1666e5a1d950SNeel Natu {
1667e5a1d950SNeel Natu uint32_t gi;
1668e5a1d950SNeel Natu
166957e0119eSJohn Baldwin VMX_CTR0(vcpu, "Restore Virtual-NMI blocking");
1670e5a1d950SNeel Natu gi = vmcs_read(VMCS_GUEST_INTERRUPTIBILITY);
1671e5a1d950SNeel Natu gi |= VMCS_INTERRUPTIBILITY_NMI_BLOCKING;
1672e5a1d950SNeel Natu vmcs_write(VMCS_GUEST_INTERRUPTIBILITY, gi);
1673e5a1d950SNeel Natu }
1674e5a1d950SNeel Natu
1675e5a1d950SNeel Natu static void
vmx_clear_nmi_blocking(struct vmx_vcpu * vcpu)1676869c8d19SJohn Baldwin vmx_clear_nmi_blocking(struct vmx_vcpu *vcpu)
1677e5a1d950SNeel Natu {
1678e5a1d950SNeel Natu uint32_t gi;
1679e5a1d950SNeel Natu
168057e0119eSJohn Baldwin VMX_CTR0(vcpu, "Clear Virtual-NMI blocking");
1681e5a1d950SNeel Natu gi = vmcs_read(VMCS_GUEST_INTERRUPTIBILITY);
1682e5a1d950SNeel Natu gi &= ~VMCS_INTERRUPTIBILITY_NMI_BLOCKING;
1683e5a1d950SNeel Natu vmcs_write(VMCS_GUEST_INTERRUPTIBILITY, gi);
1684e5a1d950SNeel Natu }
1685e5a1d950SNeel Natu
1686091d4532SNeel Natu static void
vmx_assert_nmi_blocking(struct vmx_vcpu * vcpu)1687869c8d19SJohn Baldwin vmx_assert_nmi_blocking(struct vmx_vcpu *vcpu)
1688091d4532SNeel Natu {
16895c272efaSRobert Wing uint32_t gi __diagused;
1690091d4532SNeel Natu
1691091d4532SNeel Natu gi = vmcs_read(VMCS_GUEST_INTERRUPTIBILITY);
1692091d4532SNeel Natu KASSERT(gi & VMCS_INTERRUPTIBILITY_NMI_BLOCKING,
1693091d4532SNeel Natu ("NMI blocking is not in effect %#x", gi));
1694091d4532SNeel Natu }
1695091d4532SNeel Natu
1696366f6083SPeter Grehan static int
vmx_emulate_xsetbv(struct vmx * vmx,struct vmx_vcpu * vcpu,struct vm_exit * vmexit)16971aa51504SJohn Baldwin vmx_emulate_xsetbv(struct vmx *vmx, struct vmx_vcpu *vcpu,
16981aa51504SJohn Baldwin struct vm_exit *vmexit)
1699abb023fbSJohn Baldwin {
1700abb023fbSJohn Baldwin struct vmxctx *vmxctx;
1701abb023fbSJohn Baldwin uint64_t xcrval;
1702abb023fbSJohn Baldwin const struct xsave_limits *limits;
1703abb023fbSJohn Baldwin
17041aa51504SJohn Baldwin vmxctx = &vcpu->ctx;
1705abb023fbSJohn Baldwin limits = vmm_get_xsave_limits();
1706abb023fbSJohn Baldwin
1707a0efd3fbSJohn Baldwin /*
1708a0efd3fbSJohn Baldwin * Note that the processor raises a GP# fault on its own if
1709a0efd3fbSJohn Baldwin * xsetbv is executed for CPL != 0, so we do not have to
1710a0efd3fbSJohn Baldwin * emulate that fault here.
1711a0efd3fbSJohn Baldwin */
1712a0efd3fbSJohn Baldwin
1713a0efd3fbSJohn Baldwin /* Only xcr0 is supported. */
1714a0efd3fbSJohn Baldwin if (vmxctx->guest_rcx != 0) {
1715d3956e46SJohn Baldwin vm_inject_gp(vcpu->vcpu);
1716a0efd3fbSJohn Baldwin return (HANDLED);
1717a0efd3fbSJohn Baldwin }
1718a0efd3fbSJohn Baldwin
1719a0efd3fbSJohn Baldwin /* We only handle xcr0 if both the host and guest have XSAVE enabled. */
1720a0efd3fbSJohn Baldwin if (!limits->xsave_enabled || !(vmcs_read(VMCS_GUEST_CR4) & CR4_XSAVE)) {
1721d3956e46SJohn Baldwin vm_inject_ud(vcpu->vcpu);
1722a0efd3fbSJohn Baldwin return (HANDLED);
1723a0efd3fbSJohn Baldwin }
1724abb023fbSJohn Baldwin
1725abb023fbSJohn Baldwin xcrval = vmxctx->guest_rdx << 32 | (vmxctx->guest_rax & 0xffffffff);
1726a0efd3fbSJohn Baldwin if ((xcrval & ~limits->xcr0_allowed) != 0) {
1727d3956e46SJohn Baldwin vm_inject_gp(vcpu->vcpu);
1728a0efd3fbSJohn Baldwin return (HANDLED);
1729a0efd3fbSJohn Baldwin }
1730abb023fbSJohn Baldwin
1731a0efd3fbSJohn Baldwin if (!(xcrval & XFEATURE_ENABLED_X87)) {
1732d3956e46SJohn Baldwin vm_inject_gp(vcpu->vcpu);
1733a0efd3fbSJohn Baldwin return (HANDLED);
1734a0efd3fbSJohn Baldwin }
1735abb023fbSJohn Baldwin
173644a68c4eSJohn Baldwin /* AVX (YMM_Hi128) requires SSE. */
173744a68c4eSJohn Baldwin if (xcrval & XFEATURE_ENABLED_AVX &&
173844a68c4eSJohn Baldwin (xcrval & XFEATURE_AVX) != XFEATURE_AVX) {
1739d3956e46SJohn Baldwin vm_inject_gp(vcpu->vcpu);
174044a68c4eSJohn Baldwin return (HANDLED);
174144a68c4eSJohn Baldwin }
174244a68c4eSJohn Baldwin
174344a68c4eSJohn Baldwin /*
174444a68c4eSJohn Baldwin * AVX512 requires base AVX (YMM_Hi128) as well as OpMask,
174544a68c4eSJohn Baldwin * ZMM_Hi256, and Hi16_ZMM.
174644a68c4eSJohn Baldwin */
174744a68c4eSJohn Baldwin if (xcrval & XFEATURE_AVX512 &&
174844a68c4eSJohn Baldwin (xcrval & (XFEATURE_AVX512 | XFEATURE_AVX)) !=
174944a68c4eSJohn Baldwin (XFEATURE_AVX512 | XFEATURE_AVX)) {
1750d3956e46SJohn Baldwin vm_inject_gp(vcpu->vcpu);
175144a68c4eSJohn Baldwin return (HANDLED);
175244a68c4eSJohn Baldwin }
175344a68c4eSJohn Baldwin
175444a68c4eSJohn Baldwin /*
175544a68c4eSJohn Baldwin * Intel MPX requires both bound register state flags to be
175644a68c4eSJohn Baldwin * set.
175744a68c4eSJohn Baldwin */
175844a68c4eSJohn Baldwin if (((xcrval & XFEATURE_ENABLED_BNDREGS) != 0) !=
175944a68c4eSJohn Baldwin ((xcrval & XFEATURE_ENABLED_BNDCSR) != 0)) {
1760d3956e46SJohn Baldwin vm_inject_gp(vcpu->vcpu);
1761a0efd3fbSJohn Baldwin return (HANDLED);
1762a0efd3fbSJohn Baldwin }
1763abb023fbSJohn Baldwin
1764abb023fbSJohn Baldwin /*
1765abb023fbSJohn Baldwin * This runs "inside" vmrun() with the guest's FPU state, so
1766abb023fbSJohn Baldwin * modifying xcr0 directly modifies the guest's xcr0, not the
1767abb023fbSJohn Baldwin * host's.
1768abb023fbSJohn Baldwin */
1769abb023fbSJohn Baldwin load_xcr(0, xcrval);
1770abb023fbSJohn Baldwin return (HANDLED);
1771abb023fbSJohn Baldwin }
1772abb023fbSJohn Baldwin
1773594db002STycho Nightingale static uint64_t
vmx_get_guest_reg(struct vmx_vcpu * vcpu,int ident)17741aa51504SJohn Baldwin vmx_get_guest_reg(struct vmx_vcpu *vcpu, int ident)
1775366f6083SPeter Grehan {
1776366f6083SPeter Grehan const struct vmxctx *vmxctx;
1777366f6083SPeter Grehan
17781aa51504SJohn Baldwin vmxctx = &vcpu->ctx;
1779594db002STycho Nightingale
1780594db002STycho Nightingale switch (ident) {
1781594db002STycho Nightingale case 0:
1782594db002STycho Nightingale return (vmxctx->guest_rax);
1783594db002STycho Nightingale case 1:
1784594db002STycho Nightingale return (vmxctx->guest_rcx);
1785594db002STycho Nightingale case 2:
1786594db002STycho Nightingale return (vmxctx->guest_rdx);
1787594db002STycho Nightingale case 3:
1788594db002STycho Nightingale return (vmxctx->guest_rbx);
1789594db002STycho Nightingale case 4:
1790594db002STycho Nightingale return (vmcs_read(VMCS_GUEST_RSP));
1791594db002STycho Nightingale case 5:
1792594db002STycho Nightingale return (vmxctx->guest_rbp);
1793594db002STycho Nightingale case 6:
1794594db002STycho Nightingale return (vmxctx->guest_rsi);
1795594db002STycho Nightingale case 7:
1796594db002STycho Nightingale return (vmxctx->guest_rdi);
1797594db002STycho Nightingale case 8:
1798594db002STycho Nightingale return (vmxctx->guest_r8);
1799594db002STycho Nightingale case 9:
1800594db002STycho Nightingale return (vmxctx->guest_r9);
1801594db002STycho Nightingale case 10:
1802594db002STycho Nightingale return (vmxctx->guest_r10);
1803594db002STycho Nightingale case 11:
1804594db002STycho Nightingale return (vmxctx->guest_r11);
1805594db002STycho Nightingale case 12:
1806594db002STycho Nightingale return (vmxctx->guest_r12);
1807594db002STycho Nightingale case 13:
1808594db002STycho Nightingale return (vmxctx->guest_r13);
1809594db002STycho Nightingale case 14:
1810594db002STycho Nightingale return (vmxctx->guest_r14);
1811594db002STycho Nightingale case 15:
1812594db002STycho Nightingale return (vmxctx->guest_r15);
1813594db002STycho Nightingale default:
1814594db002STycho Nightingale panic("invalid vmx register %d", ident);
1815594db002STycho Nightingale }
1816594db002STycho Nightingale }
1817594db002STycho Nightingale
1818594db002STycho Nightingale static void
vmx_set_guest_reg(struct vmx_vcpu * vcpu,int ident,uint64_t regval)18191aa51504SJohn Baldwin vmx_set_guest_reg(struct vmx_vcpu *vcpu, int ident, uint64_t regval)
1820594db002STycho Nightingale {
1821594db002STycho Nightingale struct vmxctx *vmxctx;
1822594db002STycho Nightingale
18231aa51504SJohn Baldwin vmxctx = &vcpu->ctx;
1824594db002STycho Nightingale
1825594db002STycho Nightingale switch (ident) {
1826594db002STycho Nightingale case 0:
1827594db002STycho Nightingale vmxctx->guest_rax = regval;
1828594db002STycho Nightingale break;
1829594db002STycho Nightingale case 1:
1830594db002STycho Nightingale vmxctx->guest_rcx = regval;
1831594db002STycho Nightingale break;
1832594db002STycho Nightingale case 2:
1833594db002STycho Nightingale vmxctx->guest_rdx = regval;
1834594db002STycho Nightingale break;
1835594db002STycho Nightingale case 3:
1836594db002STycho Nightingale vmxctx->guest_rbx = regval;
1837594db002STycho Nightingale break;
1838594db002STycho Nightingale case 4:
1839594db002STycho Nightingale vmcs_write(VMCS_GUEST_RSP, regval);
1840594db002STycho Nightingale break;
1841594db002STycho Nightingale case 5:
1842594db002STycho Nightingale vmxctx->guest_rbp = regval;
1843594db002STycho Nightingale break;
1844594db002STycho Nightingale case 6:
1845594db002STycho Nightingale vmxctx->guest_rsi = regval;
1846594db002STycho Nightingale break;
1847594db002STycho Nightingale case 7:
1848594db002STycho Nightingale vmxctx->guest_rdi = regval;
1849594db002STycho Nightingale break;
1850594db002STycho Nightingale case 8:
1851594db002STycho Nightingale vmxctx->guest_r8 = regval;
1852594db002STycho Nightingale break;
1853594db002STycho Nightingale case 9:
1854594db002STycho Nightingale vmxctx->guest_r9 = regval;
1855594db002STycho Nightingale break;
1856594db002STycho Nightingale case 10:
1857594db002STycho Nightingale vmxctx->guest_r10 = regval;
1858594db002STycho Nightingale break;
1859594db002STycho Nightingale case 11:
1860594db002STycho Nightingale vmxctx->guest_r11 = regval;
1861594db002STycho Nightingale break;
1862594db002STycho Nightingale case 12:
1863594db002STycho Nightingale vmxctx->guest_r12 = regval;
1864594db002STycho Nightingale break;
1865594db002STycho Nightingale case 13:
1866594db002STycho Nightingale vmxctx->guest_r13 = regval;
1867594db002STycho Nightingale break;
1868594db002STycho Nightingale case 14:
1869594db002STycho Nightingale vmxctx->guest_r14 = regval;
1870594db002STycho Nightingale break;
1871594db002STycho Nightingale case 15:
1872594db002STycho Nightingale vmxctx->guest_r15 = regval;
1873594db002STycho Nightingale break;
1874594db002STycho Nightingale default:
1875594db002STycho Nightingale panic("invalid vmx register %d", ident);
1876594db002STycho Nightingale }
1877594db002STycho Nightingale }
1878594db002STycho Nightingale
1879594db002STycho Nightingale static int
vmx_emulate_cr0_access(struct vmx_vcpu * vcpu,uint64_t exitqual)18801aa51504SJohn Baldwin vmx_emulate_cr0_access(struct vmx_vcpu *vcpu, uint64_t exitqual)
1881594db002STycho Nightingale {
1882594db002STycho Nightingale uint64_t crval, regval;
1883594db002STycho Nightingale
1884594db002STycho Nightingale /* We only handle mov to %cr0 at this time */
188539c21c2dSNeel Natu if ((exitqual & 0xf0) != 0x00)
188639c21c2dSNeel Natu return (UNHANDLED);
188739c21c2dSNeel Natu
18881aa51504SJohn Baldwin regval = vmx_get_guest_reg(vcpu, (exitqual >> 8) & 0xf);
1889366f6083SPeter Grehan
1890594db002STycho Nightingale vmcs_write(VMCS_CR0_SHADOW, regval);
1891366f6083SPeter Grehan
1892594db002STycho Nightingale crval = regval | cr0_ones_mask;
1893594db002STycho Nightingale crval &= ~cr0_zeros_mask;
1894594db002STycho Nightingale vmcs_write(VMCS_GUEST_CR0, crval);
1895366f6083SPeter Grehan
1896594db002STycho Nightingale if (regval & CR0_PG) {
189780a902efSPeter Grehan uint64_t efer, entry_ctls;
189880a902efSPeter Grehan
189980a902efSPeter Grehan /*
190080a902efSPeter Grehan * If CR0.PG is 1 and EFER.LME is 1 then EFER.LMA and
190180a902efSPeter Grehan * the "IA-32e mode guest" bit in VM-entry control must be
190280a902efSPeter Grehan * equal.
190380a902efSPeter Grehan */
19043de83862SNeel Natu efer = vmcs_read(VMCS_GUEST_IA32_EFER);
190580a902efSPeter Grehan if (efer & EFER_LME) {
190680a902efSPeter Grehan efer |= EFER_LMA;
19073de83862SNeel Natu vmcs_write(VMCS_GUEST_IA32_EFER, efer);
19083de83862SNeel Natu entry_ctls = vmcs_read(VMCS_ENTRY_CTLS);
190980a902efSPeter Grehan entry_ctls |= VM_ENTRY_GUEST_LMA;
19103de83862SNeel Natu vmcs_write(VMCS_ENTRY_CTLS, entry_ctls);
191180a902efSPeter Grehan }
191280a902efSPeter Grehan }
191380a902efSPeter Grehan
1914366f6083SPeter Grehan return (HANDLED);
1915366f6083SPeter Grehan }
1916366f6083SPeter Grehan
1917594db002STycho Nightingale static int
vmx_emulate_cr4_access(struct vmx_vcpu * vcpu,uint64_t exitqual)19181aa51504SJohn Baldwin vmx_emulate_cr4_access(struct vmx_vcpu *vcpu, uint64_t exitqual)
1919594db002STycho Nightingale {
1920594db002STycho Nightingale uint64_t crval, regval;
1921594db002STycho Nightingale
1922594db002STycho Nightingale /* We only handle mov to %cr4 at this time */
1923594db002STycho Nightingale if ((exitqual & 0xf0) != 0x00)
1924594db002STycho Nightingale return (UNHANDLED);
1925594db002STycho Nightingale
19261aa51504SJohn Baldwin regval = vmx_get_guest_reg(vcpu, (exitqual >> 8) & 0xf);
1927594db002STycho Nightingale
1928594db002STycho Nightingale vmcs_write(VMCS_CR4_SHADOW, regval);
1929594db002STycho Nightingale
1930594db002STycho Nightingale crval = regval | cr4_ones_mask;
1931594db002STycho Nightingale crval &= ~cr4_zeros_mask;
1932594db002STycho Nightingale vmcs_write(VMCS_GUEST_CR4, crval);
1933594db002STycho Nightingale
1934594db002STycho Nightingale return (HANDLED);
1935594db002STycho Nightingale }
1936594db002STycho Nightingale
1937594db002STycho Nightingale static int
vmx_emulate_cr8_access(struct vmx * vmx,struct vmx_vcpu * vcpu,uint64_t exitqual)19381aa51504SJohn Baldwin vmx_emulate_cr8_access(struct vmx *vmx, struct vmx_vcpu *vcpu,
19391aa51504SJohn Baldwin uint64_t exitqual)
1940594db002STycho Nightingale {
1941051f2bd1SNeel Natu struct vlapic *vlapic;
1942051f2bd1SNeel Natu uint64_t cr8;
1943051f2bd1SNeel Natu int regnum;
1944594db002STycho Nightingale
1945594db002STycho Nightingale /* We only handle mov %cr8 to/from a register at this time. */
1946594db002STycho Nightingale if ((exitqual & 0xe0) != 0x00) {
1947594db002STycho Nightingale return (UNHANDLED);
1948594db002STycho Nightingale }
1949594db002STycho Nightingale
1950d3956e46SJohn Baldwin vlapic = vm_lapic(vcpu->vcpu);
1951051f2bd1SNeel Natu regnum = (exitqual >> 8) & 0xf;
1952594db002STycho Nightingale if (exitqual & 0x10) {
1953051f2bd1SNeel Natu cr8 = vlapic_get_cr8(vlapic);
19541aa51504SJohn Baldwin vmx_set_guest_reg(vcpu, regnum, cr8);
1955594db002STycho Nightingale } else {
19561aa51504SJohn Baldwin cr8 = vmx_get_guest_reg(vcpu, regnum);
1957051f2bd1SNeel Natu vlapic_set_cr8(vlapic, cr8);
1958594db002STycho Nightingale }
1959594db002STycho Nightingale
1960594db002STycho Nightingale return (HANDLED);
1961594db002STycho Nightingale }
1962594db002STycho Nightingale
1963e4c8a13dSNeel Natu /*
1964e4c8a13dSNeel Natu * From section "Guest Register State" in the Intel SDM: CPL = SS.DPL
1965e4c8a13dSNeel Natu */
1966e4c8a13dSNeel Natu static int
vmx_cpl(void)1967e4c8a13dSNeel Natu vmx_cpl(void)
1968e4c8a13dSNeel Natu {
1969e4c8a13dSNeel Natu uint32_t ssar;
1970e4c8a13dSNeel Natu
1971e4c8a13dSNeel Natu ssar = vmcs_read(VMCS_GUEST_SS_ACCESS_RIGHTS);
1972e4c8a13dSNeel Natu return ((ssar >> 5) & 0x3);
1973e4c8a13dSNeel Natu }
1974e4c8a13dSNeel Natu
1975e813a873SNeel Natu static enum vm_cpu_mode
vmx_cpu_mode(void)197600f3efe1SJohn Baldwin vmx_cpu_mode(void)
197700f3efe1SJohn Baldwin {
1978b301b9e2SNeel Natu uint32_t csar;
197900f3efe1SJohn Baldwin
1980b301b9e2SNeel Natu if (vmcs_read(VMCS_GUEST_IA32_EFER) & EFER_LMA) {
1981b301b9e2SNeel Natu csar = vmcs_read(VMCS_GUEST_CS_ACCESS_RIGHTS);
1982b301b9e2SNeel Natu if (csar & 0x2000)
1983b301b9e2SNeel Natu return (CPU_MODE_64BIT); /* CS.L = 1 */
198400f3efe1SJohn Baldwin else
198500f3efe1SJohn Baldwin return (CPU_MODE_COMPATIBILITY);
1986b301b9e2SNeel Natu } else if (vmcs_read(VMCS_GUEST_CR0) & CR0_PE) {
1987b301b9e2SNeel Natu return (CPU_MODE_PROTECTED);
1988b301b9e2SNeel Natu } else {
1989b301b9e2SNeel Natu return (CPU_MODE_REAL);
1990b301b9e2SNeel Natu }
199100f3efe1SJohn Baldwin }
199200f3efe1SJohn Baldwin
1993e813a873SNeel Natu static enum vm_paging_mode
vmx_paging_mode(void)199400f3efe1SJohn Baldwin vmx_paging_mode(void)
199500f3efe1SJohn Baldwin {
1996f3eb12e4SKonstantin Belousov uint64_t cr4;
199700f3efe1SJohn Baldwin
199800f3efe1SJohn Baldwin if (!(vmcs_read(VMCS_GUEST_CR0) & CR0_PG))
199900f3efe1SJohn Baldwin return (PAGING_MODE_FLAT);
2000f3eb12e4SKonstantin Belousov cr4 = vmcs_read(VMCS_GUEST_CR4);
2001f3eb12e4SKonstantin Belousov if (!(cr4 & CR4_PAE))
200200f3efe1SJohn Baldwin return (PAGING_MODE_32);
2003f3eb12e4SKonstantin Belousov if (vmcs_read(VMCS_GUEST_IA32_EFER) & EFER_LME) {
2004f3eb12e4SKonstantin Belousov if (!(cr4 & CR4_LA57))
200500f3efe1SJohn Baldwin return (PAGING_MODE_64);
2006f3eb12e4SKonstantin Belousov return (PAGING_MODE_64_LA57);
2007f3eb12e4SKonstantin Belousov } else
200800f3efe1SJohn Baldwin return (PAGING_MODE_PAE);
200900f3efe1SJohn Baldwin }
201000f3efe1SJohn Baldwin
2011d17b5104SNeel Natu static uint64_t
inout_str_index(struct vmx_vcpu * vcpu,int in)2012869c8d19SJohn Baldwin inout_str_index(struct vmx_vcpu *vcpu, int in)
2013d17b5104SNeel Natu {
2014d17b5104SNeel Natu uint64_t val;
20155c272efaSRobert Wing int error __diagused;
2016d17b5104SNeel Natu enum vm_reg_name reg;
2017d17b5104SNeel Natu
2018d17b5104SNeel Natu reg = in ? VM_REG_GUEST_RDI : VM_REG_GUEST_RSI;
2019869c8d19SJohn Baldwin error = vmx_getreg(vcpu, reg, &val);
2020d17b5104SNeel Natu KASSERT(error == 0, ("%s: vmx_getreg error %d", __func__, error));
2021d17b5104SNeel Natu return (val);
2022d17b5104SNeel Natu }
2023d17b5104SNeel Natu
2024d17b5104SNeel Natu static uint64_t
inout_str_count(struct vmx_vcpu * vcpu,int rep)2025869c8d19SJohn Baldwin inout_str_count(struct vmx_vcpu *vcpu, int rep)
2026d17b5104SNeel Natu {
2027d17b5104SNeel Natu uint64_t val;
20285c272efaSRobert Wing int error __diagused;
2029d17b5104SNeel Natu
2030d17b5104SNeel Natu if (rep) {
2031869c8d19SJohn Baldwin error = vmx_getreg(vcpu, VM_REG_GUEST_RCX, &val);
2032d17b5104SNeel Natu KASSERT(!error, ("%s: vmx_getreg error %d", __func__, error));
2033d17b5104SNeel Natu } else {
2034d17b5104SNeel Natu val = 1;
2035d17b5104SNeel Natu }
2036d17b5104SNeel Natu return (val);
2037d17b5104SNeel Natu }
2038d17b5104SNeel Natu
2039d17b5104SNeel Natu static int
inout_str_addrsize(uint32_t inst_info)2040d17b5104SNeel Natu inout_str_addrsize(uint32_t inst_info)
2041d17b5104SNeel Natu {
2042d17b5104SNeel Natu uint32_t size;
2043d17b5104SNeel Natu
2044d17b5104SNeel Natu size = (inst_info >> 7) & 0x7;
2045d17b5104SNeel Natu switch (size) {
2046d17b5104SNeel Natu case 0:
2047d17b5104SNeel Natu return (2); /* 16 bit */
2048d17b5104SNeel Natu case 1:
2049d17b5104SNeel Natu return (4); /* 32 bit */
2050d17b5104SNeel Natu case 2:
2051d17b5104SNeel Natu return (8); /* 64 bit */
2052d17b5104SNeel Natu default:
2053d17b5104SNeel Natu panic("%s: invalid size encoding %d", __func__, size);
2054d17b5104SNeel Natu }
2055d17b5104SNeel Natu }
2056d17b5104SNeel Natu
2057d17b5104SNeel Natu static void
inout_str_seginfo(struct vmx_vcpu * vcpu,uint32_t inst_info,int in,struct vm_inout_str * vis)2058869c8d19SJohn Baldwin inout_str_seginfo(struct vmx_vcpu *vcpu, uint32_t inst_info, int in,
2059869c8d19SJohn Baldwin struct vm_inout_str *vis)
2060d17b5104SNeel Natu {
20615c272efaSRobert Wing int error __diagused, s;
2062d17b5104SNeel Natu
2063d17b5104SNeel Natu if (in) {
2064d17b5104SNeel Natu vis->seg_name = VM_REG_GUEST_ES;
2065d17b5104SNeel Natu } else {
2066d17b5104SNeel Natu s = (inst_info >> 15) & 0x7;
2067d17b5104SNeel Natu vis->seg_name = vm_segment_name(s);
2068d17b5104SNeel Natu }
2069d17b5104SNeel Natu
2070869c8d19SJohn Baldwin error = vmx_getdesc(vcpu, vis->seg_name, &vis->seg_desc);
2071d17b5104SNeel Natu KASSERT(error == 0, ("%s: vmx_getdesc error %d", __func__, error));
2072d17b5104SNeel Natu }
2073d17b5104SNeel Natu
2074e4c8a13dSNeel Natu static void
vmx_paging_info(struct vm_guest_paging * paging)2075e813a873SNeel Natu vmx_paging_info(struct vm_guest_paging *paging)
2076e813a873SNeel Natu {
2077e813a873SNeel Natu paging->cr3 = vmcs_guest_cr3();
2078e813a873SNeel Natu paging->cpl = vmx_cpl();
2079e813a873SNeel Natu paging->cpu_mode = vmx_cpu_mode();
2080e813a873SNeel Natu paging->paging_mode = vmx_paging_mode();
2081e813a873SNeel Natu }
2082e813a873SNeel Natu
2083e813a873SNeel Natu static void
vmexit_inst_emul(struct vm_exit * vmexit,uint64_t gpa,uint64_t gla)2084e4c8a13dSNeel Natu vmexit_inst_emul(struct vm_exit *vmexit, uint64_t gpa, uint64_t gla)
2085e4c8a13dSNeel Natu {
2086f7a9f178SNeel Natu struct vm_guest_paging *paging;
2087f7a9f178SNeel Natu uint32_t csar;
2088f7a9f178SNeel Natu
2089f7a9f178SNeel Natu paging = &vmexit->u.inst_emul.paging;
2090f7a9f178SNeel Natu
2091e4c8a13dSNeel Natu vmexit->exitcode = VM_EXITCODE_INST_EMUL;
20921c73ea3eSNeel Natu vmexit->inst_length = 0;
2093e4c8a13dSNeel Natu vmexit->u.inst_emul.gpa = gpa;
2094e4c8a13dSNeel Natu vmexit->u.inst_emul.gla = gla;
2095f7a9f178SNeel Natu vmx_paging_info(paging);
2096f7a9f178SNeel Natu switch (paging->cpu_mode) {
2097e4f605eeSTycho Nightingale case CPU_MODE_REAL:
2098e4f605eeSTycho Nightingale vmexit->u.inst_emul.cs_base = vmcs_read(VMCS_GUEST_CS_BASE);
2099e4f605eeSTycho Nightingale vmexit->u.inst_emul.cs_d = 0;
2100e4f605eeSTycho Nightingale break;
2101f7a9f178SNeel Natu case CPU_MODE_PROTECTED:
2102f7a9f178SNeel Natu case CPU_MODE_COMPATIBILITY:
2103e4f605eeSTycho Nightingale vmexit->u.inst_emul.cs_base = vmcs_read(VMCS_GUEST_CS_BASE);
2104f7a9f178SNeel Natu csar = vmcs_read(VMCS_GUEST_CS_ACCESS_RIGHTS);
2105f7a9f178SNeel Natu vmexit->u.inst_emul.cs_d = SEG_DESC_DEF32(csar);
2106f7a9f178SNeel Natu break;
2107f7a9f178SNeel Natu default:
2108e4f605eeSTycho Nightingale vmexit->u.inst_emul.cs_base = 0;
2109f7a9f178SNeel Natu vmexit->u.inst_emul.cs_d = 0;
2110f7a9f178SNeel Natu break;
2111f7a9f178SNeel Natu }
2112c2a875f9SNeel Natu vie_init(&vmexit->u.inst_emul.vie, NULL, 0);
2113e4c8a13dSNeel Natu }
2114e4c8a13dSNeel Natu
2115366f6083SPeter Grehan static int
ept_fault_type(uint64_t ept_qual)2116318224bbSNeel Natu ept_fault_type(uint64_t ept_qual)
2117a2da7af6SNeel Natu {
2118318224bbSNeel Natu int fault_type;
2119a2da7af6SNeel Natu
2120318224bbSNeel Natu if (ept_qual & EPT_VIOLATION_DATA_WRITE)
2121318224bbSNeel Natu fault_type = VM_PROT_WRITE;
2122318224bbSNeel Natu else if (ept_qual & EPT_VIOLATION_INST_FETCH)
2123318224bbSNeel Natu fault_type = VM_PROT_EXECUTE;
2124318224bbSNeel Natu else
2125318224bbSNeel Natu fault_type= VM_PROT_READ;
2126318224bbSNeel Natu
2127318224bbSNeel Natu return (fault_type);
2128318224bbSNeel Natu }
2129318224bbSNeel Natu
2130490d56c5SEd Maste static bool
ept_emulation_fault(uint64_t ept_qual)2131318224bbSNeel Natu ept_emulation_fault(uint64_t ept_qual)
2132318224bbSNeel Natu {
2133318224bbSNeel Natu int read, write;
2134318224bbSNeel Natu
2135318224bbSNeel Natu /* EPT fault on an instruction fetch doesn't make sense here */
2136a2da7af6SNeel Natu if (ept_qual & EPT_VIOLATION_INST_FETCH)
2137490d56c5SEd Maste return (false);
2138a2da7af6SNeel Natu
2139318224bbSNeel Natu /* EPT fault must be a read fault or a write fault */
2140a2da7af6SNeel Natu read = ept_qual & EPT_VIOLATION_DATA_READ ? 1 : 0;
2141a2da7af6SNeel Natu write = ept_qual & EPT_VIOLATION_DATA_WRITE ? 1 : 0;
21423b2b0011SPeter Grehan if ((read | write) == 0)
2143490d56c5SEd Maste return (false);
2144a2da7af6SNeel Natu
2145a2da7af6SNeel Natu /*
21463b2b0011SPeter Grehan * The EPT violation must have been caused by accessing a
21473b2b0011SPeter Grehan * guest-physical address that is a translation of a guest-linear
21483b2b0011SPeter Grehan * address.
2149a2da7af6SNeel Natu */
2150a2da7af6SNeel Natu if ((ept_qual & EPT_VIOLATION_GLA_VALID) == 0 ||
2151a2da7af6SNeel Natu (ept_qual & EPT_VIOLATION_XLAT_VALID) == 0) {
2152490d56c5SEd Maste return (false);
2153a2da7af6SNeel Natu }
2154a2da7af6SNeel Natu
2155490d56c5SEd Maste return (true);
2156a2da7af6SNeel Natu }
2157a2da7af6SNeel Natu
2158159dd56fSNeel Natu static __inline int
apic_access_virtualization(struct vmx_vcpu * vcpu)21591aa51504SJohn Baldwin apic_access_virtualization(struct vmx_vcpu *vcpu)
2160159dd56fSNeel Natu {
2161159dd56fSNeel Natu uint32_t proc_ctls2;
2162159dd56fSNeel Natu
21631aa51504SJohn Baldwin proc_ctls2 = vcpu->cap.proc_ctls2;
2164159dd56fSNeel Natu return ((proc_ctls2 & PROCBASED2_VIRTUALIZE_APIC_ACCESSES) ? 1 : 0);
2165159dd56fSNeel Natu }
2166159dd56fSNeel Natu
2167159dd56fSNeel Natu static __inline int
x2apic_virtualization(struct vmx_vcpu * vcpu)21681aa51504SJohn Baldwin x2apic_virtualization(struct vmx_vcpu *vcpu)
2169159dd56fSNeel Natu {
2170159dd56fSNeel Natu uint32_t proc_ctls2;
2171159dd56fSNeel Natu
21721aa51504SJohn Baldwin proc_ctls2 = vcpu->cap.proc_ctls2;
2173159dd56fSNeel Natu return ((proc_ctls2 & PROCBASED2_VIRTUALIZE_X2APIC_MODE) ? 1 : 0);
2174159dd56fSNeel Natu }
2175159dd56fSNeel Natu
2176a2da7af6SNeel Natu static int
vmx_handle_apic_write(struct vmx_vcpu * vcpu,struct vlapic * vlapic,uint64_t qual)21771aa51504SJohn Baldwin vmx_handle_apic_write(struct vmx_vcpu *vcpu, struct vlapic *vlapic,
2178159dd56fSNeel Natu uint64_t qual)
217988c4b8d1SNeel Natu {
218088c4b8d1SNeel Natu int error, handled, offset;
2181159dd56fSNeel Natu uint32_t *apic_regs, vector;
218288c4b8d1SNeel Natu bool retu;
218388c4b8d1SNeel Natu
2184a0efd3fbSJohn Baldwin handled = HANDLED;
218588c4b8d1SNeel Natu offset = APIC_WRITE_OFFSET(qual);
2186159dd56fSNeel Natu
21871aa51504SJohn Baldwin if (!apic_access_virtualization(vcpu)) {
2188159dd56fSNeel Natu /*
2189159dd56fSNeel Natu * In general there should not be any APIC write VM-exits
2190159dd56fSNeel Natu * unless APIC-access virtualization is enabled.
2191159dd56fSNeel Natu *
2192159dd56fSNeel Natu * However self-IPI virtualization can legitimately trigger
2193159dd56fSNeel Natu * an APIC-write VM-exit so treat it specially.
2194159dd56fSNeel Natu */
21951aa51504SJohn Baldwin if (x2apic_virtualization(vcpu) &&
2196159dd56fSNeel Natu offset == APIC_OFFSET_SELF_IPI) {
2197159dd56fSNeel Natu apic_regs = (uint32_t *)(vlapic->apic_page);
2198159dd56fSNeel Natu vector = apic_regs[APIC_OFFSET_SELF_IPI / 4];
2199159dd56fSNeel Natu vlapic_self_ipi_handler(vlapic, vector);
2200159dd56fSNeel Natu return (HANDLED);
2201159dd56fSNeel Natu } else
2202159dd56fSNeel Natu return (UNHANDLED);
2203159dd56fSNeel Natu }
2204159dd56fSNeel Natu
220588c4b8d1SNeel Natu switch (offset) {
220688c4b8d1SNeel Natu case APIC_OFFSET_ID:
220788c4b8d1SNeel Natu vlapic_id_write_handler(vlapic);
220888c4b8d1SNeel Natu break;
220988c4b8d1SNeel Natu case APIC_OFFSET_LDR:
221088c4b8d1SNeel Natu vlapic_ldr_write_handler(vlapic);
221188c4b8d1SNeel Natu break;
221288c4b8d1SNeel Natu case APIC_OFFSET_DFR:
221388c4b8d1SNeel Natu vlapic_dfr_write_handler(vlapic);
221488c4b8d1SNeel Natu break;
221588c4b8d1SNeel Natu case APIC_OFFSET_SVR:
221688c4b8d1SNeel Natu vlapic_svr_write_handler(vlapic);
221788c4b8d1SNeel Natu break;
221888c4b8d1SNeel Natu case APIC_OFFSET_ESR:
221988c4b8d1SNeel Natu vlapic_esr_write_handler(vlapic);
222088c4b8d1SNeel Natu break;
222188c4b8d1SNeel Natu case APIC_OFFSET_ICR_LOW:
222288c4b8d1SNeel Natu retu = false;
222388c4b8d1SNeel Natu error = vlapic_icrlo_write_handler(vlapic, &retu);
222488c4b8d1SNeel Natu if (error != 0 || retu)
2225a0efd3fbSJohn Baldwin handled = UNHANDLED;
222688c4b8d1SNeel Natu break;
222788c4b8d1SNeel Natu case APIC_OFFSET_CMCI_LVT:
222888c4b8d1SNeel Natu case APIC_OFFSET_TIMER_LVT ... APIC_OFFSET_ERROR_LVT:
222988c4b8d1SNeel Natu vlapic_lvt_write_handler(vlapic, offset);
223088c4b8d1SNeel Natu break;
223188c4b8d1SNeel Natu case APIC_OFFSET_TIMER_ICR:
223288c4b8d1SNeel Natu vlapic_icrtmr_write_handler(vlapic);
223388c4b8d1SNeel Natu break;
223488c4b8d1SNeel Natu case APIC_OFFSET_TIMER_DCR:
223588c4b8d1SNeel Natu vlapic_dcr_write_handler(vlapic);
223688c4b8d1SNeel Natu break;
223788c4b8d1SNeel Natu default:
2238a0efd3fbSJohn Baldwin handled = UNHANDLED;
223988c4b8d1SNeel Natu break;
224088c4b8d1SNeel Natu }
224188c4b8d1SNeel Natu return (handled);
224288c4b8d1SNeel Natu }
224388c4b8d1SNeel Natu
224488c4b8d1SNeel Natu static bool
apic_access_fault(struct vmx_vcpu * vcpu,uint64_t gpa)22451aa51504SJohn Baldwin apic_access_fault(struct vmx_vcpu *vcpu, uint64_t gpa)
224688c4b8d1SNeel Natu {
224788c4b8d1SNeel Natu
22481aa51504SJohn Baldwin if (apic_access_virtualization(vcpu) &&
224988c4b8d1SNeel Natu (gpa >= DEFAULT_APIC_BASE && gpa < DEFAULT_APIC_BASE + PAGE_SIZE))
225088c4b8d1SNeel Natu return (true);
225188c4b8d1SNeel Natu else
225288c4b8d1SNeel Natu return (false);
225388c4b8d1SNeel Natu }
225488c4b8d1SNeel Natu
225588c4b8d1SNeel Natu static int
vmx_handle_apic_access(struct vmx_vcpu * vcpu,struct vm_exit * vmexit)22561aa51504SJohn Baldwin vmx_handle_apic_access(struct vmx_vcpu *vcpu, struct vm_exit *vmexit)
225788c4b8d1SNeel Natu {
225888c4b8d1SNeel Natu uint64_t qual;
225988c4b8d1SNeel Natu int access_type, offset, allowed;
226088c4b8d1SNeel Natu
22611aa51504SJohn Baldwin if (!apic_access_virtualization(vcpu))
226288c4b8d1SNeel Natu return (UNHANDLED);
226388c4b8d1SNeel Natu
226488c4b8d1SNeel Natu qual = vmexit->u.vmx.exit_qualification;
226588c4b8d1SNeel Natu access_type = APIC_ACCESS_TYPE(qual);
226688c4b8d1SNeel Natu offset = APIC_ACCESS_OFFSET(qual);
226788c4b8d1SNeel Natu
226888c4b8d1SNeel Natu allowed = 0;
226988c4b8d1SNeel Natu if (access_type == 0) {
227088c4b8d1SNeel Natu /*
227188c4b8d1SNeel Natu * Read data access to the following registers is expected.
227288c4b8d1SNeel Natu */
227388c4b8d1SNeel Natu switch (offset) {
227488c4b8d1SNeel Natu case APIC_OFFSET_APR:
227588c4b8d1SNeel Natu case APIC_OFFSET_PPR:
227688c4b8d1SNeel Natu case APIC_OFFSET_RRR:
227788c4b8d1SNeel Natu case APIC_OFFSET_CMCI_LVT:
227888c4b8d1SNeel Natu case APIC_OFFSET_TIMER_CCR:
227988c4b8d1SNeel Natu allowed = 1;
228088c4b8d1SNeel Natu break;
228188c4b8d1SNeel Natu default:
228288c4b8d1SNeel Natu break;
228388c4b8d1SNeel Natu }
228488c4b8d1SNeel Natu } else if (access_type == 1) {
228588c4b8d1SNeel Natu /*
228688c4b8d1SNeel Natu * Write data access to the following registers is expected.
228788c4b8d1SNeel Natu */
228888c4b8d1SNeel Natu switch (offset) {
228988c4b8d1SNeel Natu case APIC_OFFSET_VER:
229088c4b8d1SNeel Natu case APIC_OFFSET_APR:
229188c4b8d1SNeel Natu case APIC_OFFSET_PPR:
229288c4b8d1SNeel Natu case APIC_OFFSET_RRR:
229388c4b8d1SNeel Natu case APIC_OFFSET_ISR0 ... APIC_OFFSET_ISR7:
229488c4b8d1SNeel Natu case APIC_OFFSET_TMR0 ... APIC_OFFSET_TMR7:
229588c4b8d1SNeel Natu case APIC_OFFSET_IRR0 ... APIC_OFFSET_IRR7:
229688c4b8d1SNeel Natu case APIC_OFFSET_CMCI_LVT:
229788c4b8d1SNeel Natu case APIC_OFFSET_TIMER_CCR:
229888c4b8d1SNeel Natu allowed = 1;
229988c4b8d1SNeel Natu break;
230088c4b8d1SNeel Natu default:
230188c4b8d1SNeel Natu break;
230288c4b8d1SNeel Natu }
230388c4b8d1SNeel Natu }
230488c4b8d1SNeel Natu
230588c4b8d1SNeel Natu if (allowed) {
2306e4c8a13dSNeel Natu vmexit_inst_emul(vmexit, DEFAULT_APIC_BASE + offset,
2307e4c8a13dSNeel Natu VIE_INVALID_GLA);
230888c4b8d1SNeel Natu }
230988c4b8d1SNeel Natu
231088c4b8d1SNeel Natu /*
231188c4b8d1SNeel Natu * Regardless of whether the APIC-access is allowed this handler
231288c4b8d1SNeel Natu * always returns UNHANDLED:
231388c4b8d1SNeel Natu * - if the access is allowed then it is handled by emulating the
231488c4b8d1SNeel Natu * instruction that caused the VM-exit (outside the critical section)
231588c4b8d1SNeel Natu * - if the access is not allowed then it will be converted to an
231688c4b8d1SNeel Natu * exitcode of VM_EXITCODE_VMX and will be dealt with in userland.
231788c4b8d1SNeel Natu */
231888c4b8d1SNeel Natu return (UNHANDLED);
231988c4b8d1SNeel Natu }
232088c4b8d1SNeel Natu
23213d5444c8SNeel Natu static enum task_switch_reason
vmx_task_switch_reason(uint64_t qual)23223d5444c8SNeel Natu vmx_task_switch_reason(uint64_t qual)
23233d5444c8SNeel Natu {
23243d5444c8SNeel Natu int reason;
23253d5444c8SNeel Natu
23263d5444c8SNeel Natu reason = (qual >> 30) & 0x3;
23273d5444c8SNeel Natu switch (reason) {
23283d5444c8SNeel Natu case 0:
23293d5444c8SNeel Natu return (TSR_CALL);
23303d5444c8SNeel Natu case 1:
23313d5444c8SNeel Natu return (TSR_IRET);
23323d5444c8SNeel Natu case 2:
23333d5444c8SNeel Natu return (TSR_JMP);
23343d5444c8SNeel Natu case 3:
23353d5444c8SNeel Natu return (TSR_IDT_GATE);
23363d5444c8SNeel Natu default:
23373d5444c8SNeel Natu panic("%s: invalid reason %d", __func__, reason);
23383d5444c8SNeel Natu }
23393d5444c8SNeel Natu }
23403d5444c8SNeel Natu
234188c4b8d1SNeel Natu static int
emulate_wrmsr(struct vmx_vcpu * vcpu,u_int num,uint64_t val,bool * retu)234280cb5d84SJohn Baldwin emulate_wrmsr(struct vmx_vcpu *vcpu, u_int num, uint64_t val, bool *retu)
2343c3498942SNeel Natu {
2344c3498942SNeel Natu int error;
2345c3498942SNeel Natu
2346c3498942SNeel Natu if (lapic_msr(num))
234780cb5d84SJohn Baldwin error = lapic_wrmsr(vcpu->vcpu, num, val, retu);
2348c3498942SNeel Natu else
234980cb5d84SJohn Baldwin error = vmx_wrmsr(vcpu, num, val, retu);
2350c3498942SNeel Natu
2351c3498942SNeel Natu return (error);
2352c3498942SNeel Natu }
2353c3498942SNeel Natu
2354c3498942SNeel Natu static int
emulate_rdmsr(struct vmx_vcpu * vcpu,u_int num,bool * retu)235580cb5d84SJohn Baldwin emulate_rdmsr(struct vmx_vcpu *vcpu, u_int num, bool *retu)
2356c3498942SNeel Natu {
2357c3498942SNeel Natu struct vmxctx *vmxctx;
2358c3498942SNeel Natu uint64_t result;
2359c3498942SNeel Natu uint32_t eax, edx;
2360c3498942SNeel Natu int error;
2361c3498942SNeel Natu
2362c3498942SNeel Natu if (lapic_msr(num))
236380cb5d84SJohn Baldwin error = lapic_rdmsr(vcpu->vcpu, num, &result, retu);
2364c3498942SNeel Natu else
236580cb5d84SJohn Baldwin error = vmx_rdmsr(vcpu, num, &result, retu);
2366c3498942SNeel Natu
2367c3498942SNeel Natu if (error == 0) {
2368c3498942SNeel Natu eax = result;
23691aa51504SJohn Baldwin vmxctx = &vcpu->ctx;
2370c3498942SNeel Natu error = vmxctx_setreg(vmxctx, VM_REG_GUEST_RAX, eax);
2371c3498942SNeel Natu KASSERT(error == 0, ("vmxctx_setreg(rax) error %d", error));
2372c3498942SNeel Natu
2373c3498942SNeel Natu edx = result >> 32;
2374c3498942SNeel Natu error = vmxctx_setreg(vmxctx, VM_REG_GUEST_RDX, edx);
2375c3498942SNeel Natu KASSERT(error == 0, ("vmxctx_setreg(rdx) error %d", error));
2376c3498942SNeel Natu }
2377c3498942SNeel Natu
2378c3498942SNeel Natu return (error);
2379c3498942SNeel Natu }
2380c3498942SNeel Natu
2381c3498942SNeel Natu static int
vmx_exit_process(struct vmx * vmx,struct vmx_vcpu * vcpu,struct vm_exit * vmexit)23821aa51504SJohn Baldwin vmx_exit_process(struct vmx *vmx, struct vmx_vcpu *vcpu, struct vm_exit *vmexit)
2383366f6083SPeter Grehan {
2384c9c75df4SNeel Natu int error, errcode, errcode_valid, handled, in;
2385366f6083SPeter Grehan struct vmxctx *vmxctx;
238688c4b8d1SNeel Natu struct vlapic *vlapic;
2387d17b5104SNeel Natu struct vm_inout_str *vis;
23883d5444c8SNeel Natu struct vm_task_switch *ts;
2389d17b5104SNeel Natu uint32_t eax, ecx, edx, idtvec_info, idtvec_err, intr_info, inst_info;
2390b0538143SNeel Natu uint32_t intr_type, intr_vec, reason;
2391091d4532SNeel Natu uint64_t exitintinfo, qual, gpa;
23922ee1a18dSDmitry Chagin #ifdef KDTRACE_HOOKS
23931aa51504SJohn Baldwin int vcpuid;
23942ee1a18dSDmitry Chagin #endif
2395becd9849SNeel Natu bool retu;
2396366f6083SPeter Grehan
2397160471d2SNeel Natu CTASSERT((PINBASED_CTLS_ONE_SETTING & PINBASED_VIRTUAL_NMI) != 0);
2398c308b23bSNeel Natu CTASSERT((PINBASED_CTLS_ONE_SETTING & PINBASED_NMI_EXITING) != 0);
2399160471d2SNeel Natu
2400a0efd3fbSJohn Baldwin handled = UNHANDLED;
24011aa51504SJohn Baldwin vmxctx = &vcpu->ctx;
24022ee1a18dSDmitry Chagin #ifdef KDTRACE_HOOKS
24031aa51504SJohn Baldwin vcpuid = vcpu->vcpuid;
24042ee1a18dSDmitry Chagin #endif
24050492757cSNeel Natu
2406366f6083SPeter Grehan qual = vmexit->u.vmx.exit_qualification;
2407318224bbSNeel Natu reason = vmexit->u.vmx.exit_reason;
2408366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_BOGUS;
2409366f6083SPeter Grehan
24103dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_COUNT, 1);
24111aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, entry, vmx, vcpuid, vmexit);
241261592433SNeel Natu
2413318224bbSNeel Natu /*
2414b0538143SNeel Natu * VM-entry failures during or after loading guest state.
2415b0538143SNeel Natu *
2416b0538143SNeel Natu * These VM-exits are uncommon but must be handled specially
2417b0538143SNeel Natu * as most VM-exit fields are not populated as usual.
2418b0538143SNeel Natu */
2419b0538143SNeel Natu if (__predict_false(reason == EXIT_REASON_MCE_DURING_ENTRY)) {
242057e0119eSJohn Baldwin VMX_CTR0(vcpu, "Handling MCE during VM-entry");
2421b0538143SNeel Natu __asm __volatile("int $18");
2422b0538143SNeel Natu return (1);
2423b0538143SNeel Natu }
2424b0538143SNeel Natu
2425b0538143SNeel Natu /*
24263d5444c8SNeel Natu * VM exits that can be triggered during event delivery need to
24273d5444c8SNeel Natu * be handled specially by re-injecting the event if the IDT
24283d5444c8SNeel Natu * vectoring information field's valid bit is set.
2429318224bbSNeel Natu *
2430318224bbSNeel Natu * See "Information for VM Exits During Event Delivery" in Intel SDM
2431318224bbSNeel Natu * for details.
2432318224bbSNeel Natu */
2433318224bbSNeel Natu idtvec_info = vmcs_idt_vectoring_info();
2434318224bbSNeel Natu if (idtvec_info & VMCS_IDT_VEC_VALID) {
2435318224bbSNeel Natu idtvec_info &= ~(1 << 12); /* clear undefined bit */
2436091d4532SNeel Natu exitintinfo = idtvec_info;
2437318224bbSNeel Natu if (idtvec_info & VMCS_IDT_VEC_ERRCODE_VALID) {
2438318224bbSNeel Natu idtvec_err = vmcs_idt_vectoring_err();
2439091d4532SNeel Natu exitintinfo |= (uint64_t)idtvec_err << 32;
2440318224bbSNeel Natu }
244180cb5d84SJohn Baldwin error = vm_exit_intinfo(vcpu->vcpu, exitintinfo);
2442091d4532SNeel Natu KASSERT(error == 0, ("%s: vm_set_intinfo error %d",
2443091d4532SNeel Natu __func__, error));
2444091d4532SNeel Natu
2445160471d2SNeel Natu /*
2446160471d2SNeel Natu * If 'virtual NMIs' are being used and the VM-exit
2447160471d2SNeel Natu * happened while injecting an NMI during the previous
2448091d4532SNeel Natu * VM-entry, then clear "blocking by NMI" in the
2449091d4532SNeel Natu * Guest Interruptibility-State so the NMI can be
2450091d4532SNeel Natu * reinjected on the subsequent VM-entry.
2451091d4532SNeel Natu *
2452091d4532SNeel Natu * However, if the NMI was being delivered through a task
2453091d4532SNeel Natu * gate, then the new task must start execution with NMIs
2454091d4532SNeel Natu * blocked so don't clear NMI blocking in this case.
2455160471d2SNeel Natu */
2456091d4532SNeel Natu intr_type = idtvec_info & VMCS_INTR_T_MASK;
2457091d4532SNeel Natu if (intr_type == VMCS_INTR_T_NMI) {
2458091d4532SNeel Natu if (reason != EXIT_REASON_TASK_SWITCH)
2459869c8d19SJohn Baldwin vmx_clear_nmi_blocking(vcpu);
2460091d4532SNeel Natu else
2461869c8d19SJohn Baldwin vmx_assert_nmi_blocking(vcpu);
2462160471d2SNeel Natu }
2463091d4532SNeel Natu
2464091d4532SNeel Natu /*
2465091d4532SNeel Natu * Update VM-entry instruction length if the event being
2466091d4532SNeel Natu * delivered was a software interrupt or software exception.
2467091d4532SNeel Natu */
2468091d4532SNeel Natu if (intr_type == VMCS_INTR_T_SWINTR ||
2469091d4532SNeel Natu intr_type == VMCS_INTR_T_PRIV_SWEXCEPTION ||
2470091d4532SNeel Natu intr_type == VMCS_INTR_T_SWEXCEPTION) {
24713de83862SNeel Natu vmcs_write(VMCS_ENTRY_INST_LENGTH, vmexit->inst_length);
2472318224bbSNeel Natu }
2473318224bbSNeel Natu }
2474318224bbSNeel Natu
2475318224bbSNeel Natu switch (reason) {
24763d5444c8SNeel Natu case EXIT_REASON_TASK_SWITCH:
24773d5444c8SNeel Natu ts = &vmexit->u.task_switch;
24783d5444c8SNeel Natu ts->tsssel = qual & 0xffff;
24793d5444c8SNeel Natu ts->reason = vmx_task_switch_reason(qual);
24803d5444c8SNeel Natu ts->ext = 0;
24813d5444c8SNeel Natu ts->errcode_valid = 0;
24823d5444c8SNeel Natu vmx_paging_info(&ts->paging);
24833d5444c8SNeel Natu /*
24843d5444c8SNeel Natu * If the task switch was due to a CALL, JMP, IRET, software
24853d5444c8SNeel Natu * interrupt (INT n) or software exception (INT3, INTO),
24863d5444c8SNeel Natu * then the saved %rip references the instruction that caused
24873d5444c8SNeel Natu * the task switch. The instruction length field in the VMCS
24883d5444c8SNeel Natu * is valid in this case.
24893d5444c8SNeel Natu *
24903d5444c8SNeel Natu * In all other cases (e.g., NMI, hardware exception) the
24913d5444c8SNeel Natu * saved %rip is one that would have been saved in the old TSS
24923d5444c8SNeel Natu * had the task switch completed normally so the instruction
24933d5444c8SNeel Natu * length field is not needed in this case and is explicitly
24943d5444c8SNeel Natu * set to 0.
24953d5444c8SNeel Natu */
24963d5444c8SNeel Natu if (ts->reason == TSR_IDT_GATE) {
24973d5444c8SNeel Natu KASSERT(idtvec_info & VMCS_IDT_VEC_VALID,
2498091d4532SNeel Natu ("invalid idtvec_info %#x for IDT task switch",
24993d5444c8SNeel Natu idtvec_info));
25003d5444c8SNeel Natu intr_type = idtvec_info & VMCS_INTR_T_MASK;
25013d5444c8SNeel Natu if (intr_type != VMCS_INTR_T_SWINTR &&
25023d5444c8SNeel Natu intr_type != VMCS_INTR_T_SWEXCEPTION &&
25033d5444c8SNeel Natu intr_type != VMCS_INTR_T_PRIV_SWEXCEPTION) {
25043d5444c8SNeel Natu /* Task switch triggered by external event */
25053d5444c8SNeel Natu ts->ext = 1;
25063d5444c8SNeel Natu vmexit->inst_length = 0;
25073d5444c8SNeel Natu if (idtvec_info & VMCS_IDT_VEC_ERRCODE_VALID) {
25083d5444c8SNeel Natu ts->errcode_valid = 1;
25093d5444c8SNeel Natu ts->errcode = vmcs_idt_vectoring_err();
25103d5444c8SNeel Natu }
25113d5444c8SNeel Natu }
25123d5444c8SNeel Natu }
25133d5444c8SNeel Natu vmexit->exitcode = VM_EXITCODE_TASK_SWITCH;
25141aa51504SJohn Baldwin SDT_PROBE4(vmm, vmx, exit, taskswitch, vmx, vcpuid, vmexit, ts);
251557e0119eSJohn Baldwin VMX_CTR4(vcpu, "task switch reason %d, tss 0x%04x, "
25163d5444c8SNeel Natu "%s errcode 0x%016lx", ts->reason, ts->tsssel,
25173d5444c8SNeel Natu ts->ext ? "external" : "internal",
25183d5444c8SNeel Natu ((uint64_t)ts->errcode << 32) | ts->errcode_valid);
25193d5444c8SNeel Natu break;
2520366f6083SPeter Grehan case EXIT_REASON_CR_ACCESS:
25213dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_CR_ACCESS, 1);
25221aa51504SJohn Baldwin SDT_PROBE4(vmm, vmx, exit, craccess, vmx, vcpuid, vmexit, qual);
2523594db002STycho Nightingale switch (qual & 0xf) {
2524594db002STycho Nightingale case 0:
25251aa51504SJohn Baldwin handled = vmx_emulate_cr0_access(vcpu, qual);
2526594db002STycho Nightingale break;
2527594db002STycho Nightingale case 4:
25281aa51504SJohn Baldwin handled = vmx_emulate_cr4_access(vcpu, qual);
2529594db002STycho Nightingale break;
2530594db002STycho Nightingale case 8:
2531594db002STycho Nightingale handled = vmx_emulate_cr8_access(vmx, vcpu, qual);
2532594db002STycho Nightingale break;
2533594db002STycho Nightingale }
2534366f6083SPeter Grehan break;
2535366f6083SPeter Grehan case EXIT_REASON_RDMSR:
25363dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_RDMSR, 1);
2537becd9849SNeel Natu retu = false;
2538366f6083SPeter Grehan ecx = vmxctx->guest_rcx;
253957e0119eSJohn Baldwin VMX_CTR1(vcpu, "rdmsr 0x%08x", ecx);
25401aa51504SJohn Baldwin SDT_PROBE4(vmm, vmx, exit, rdmsr, vmx, vcpuid, vmexit, ecx);
254180cb5d84SJohn Baldwin error = emulate_rdmsr(vcpu, ecx, &retu);
2542b42206f3SNeel Natu if (error) {
2543366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_RDMSR;
2544366f6083SPeter Grehan vmexit->u.msr.code = ecx;
2545becd9849SNeel Natu } else if (!retu) {
2546a0efd3fbSJohn Baldwin handled = HANDLED;
2547becd9849SNeel Natu } else {
2548becd9849SNeel Natu /* Return to userspace with a valid exitcode */
2549becd9849SNeel Natu KASSERT(vmexit->exitcode != VM_EXITCODE_BOGUS,
2550c3498942SNeel Natu ("emulate_rdmsr retu with bogus exitcode"));
2551becd9849SNeel Natu }
2552366f6083SPeter Grehan break;
2553366f6083SPeter Grehan case EXIT_REASON_WRMSR:
25543dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_WRMSR, 1);
2555becd9849SNeel Natu retu = false;
2556366f6083SPeter Grehan eax = vmxctx->guest_rax;
2557366f6083SPeter Grehan ecx = vmxctx->guest_rcx;
2558366f6083SPeter Grehan edx = vmxctx->guest_rdx;
255957e0119eSJohn Baldwin VMX_CTR2(vcpu, "wrmsr 0x%08x value 0x%016lx",
25602cb97c9dSNeel Natu ecx, (uint64_t)edx << 32 | eax);
25611aa51504SJohn Baldwin SDT_PROBE5(vmm, vmx, exit, wrmsr, vmx, vmexit, vcpuid, ecx,
25626ac73777STycho Nightingale (uint64_t)edx << 32 | eax);
256380cb5d84SJohn Baldwin error = emulate_wrmsr(vcpu, ecx, (uint64_t)edx << 32 | eax,
256480cb5d84SJohn Baldwin &retu);
2565b42206f3SNeel Natu if (error) {
2566366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_WRMSR;
2567366f6083SPeter Grehan vmexit->u.msr.code = ecx;
2568366f6083SPeter Grehan vmexit->u.msr.wval = (uint64_t)edx << 32 | eax;
2569becd9849SNeel Natu } else if (!retu) {
2570a0efd3fbSJohn Baldwin handled = HANDLED;
2571becd9849SNeel Natu } else {
2572becd9849SNeel Natu /* Return to userspace with a valid exitcode */
2573becd9849SNeel Natu KASSERT(vmexit->exitcode != VM_EXITCODE_BOGUS,
2574becd9849SNeel Natu ("emulate_wrmsr retu with bogus exitcode"));
2575becd9849SNeel Natu }
2576366f6083SPeter Grehan break;
2577366f6083SPeter Grehan case EXIT_REASON_HLT:
25783dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_HLT, 1);
25791aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, halt, vmx, vcpuid, vmexit);
2580366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_HLT;
25813de83862SNeel Natu vmexit->u.hlt.rflags = vmcs_read(VMCS_GUEST_RFLAGS);
2582490768e2STycho Nightingale if (virtual_interrupt_delivery)
2583490768e2STycho Nightingale vmexit->u.hlt.intr_status =
2584490768e2STycho Nightingale vmcs_read(VMCS_GUEST_INTR_STATUS);
2585490768e2STycho Nightingale else
2586490768e2STycho Nightingale vmexit->u.hlt.intr_status = 0;
2587366f6083SPeter Grehan break;
2588366f6083SPeter Grehan case EXIT_REASON_MTF:
25893dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_MTRAP, 1);
25901aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, mtrap, vmx, vcpuid, vmexit);
2591366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_MTRAP;
2592c9c75df4SNeel Natu vmexit->inst_length = 0;
2593366f6083SPeter Grehan break;
2594366f6083SPeter Grehan case EXIT_REASON_PAUSE:
25953dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_PAUSE, 1);
25961aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, pause, vmx, vcpuid, vmexit);
2597366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_PAUSE;
2598366f6083SPeter Grehan break;
2599366f6083SPeter Grehan case EXIT_REASON_INTR_WINDOW:
26003dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_INTR_WINDOW, 1);
26011aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, intrwindow, vmx, vcpuid, vmexit);
2602869c8d19SJohn Baldwin vmx_clear_int_window_exiting(vcpu);
2603b5aaf7b2SNeel Natu return (1);
2604366f6083SPeter Grehan case EXIT_REASON_EXT_INTR:
2605366f6083SPeter Grehan /*
2606366f6083SPeter Grehan * External interrupts serve only to cause VM exits and allow
2607366f6083SPeter Grehan * the host interrupt handler to run.
2608366f6083SPeter Grehan *
2609366f6083SPeter Grehan * If this external interrupt triggers a virtual interrupt
2610366f6083SPeter Grehan * to a VM, then that state will be recorded by the
2611366f6083SPeter Grehan * host interrupt handler in the VM's softc. We will inject
2612366f6083SPeter Grehan * this virtual interrupt during the subsequent VM enter.
2613366f6083SPeter Grehan */
2614f7d47425SNeel Natu intr_info = vmcs_read(VMCS_EXIT_INTR_INFO);
26156ac73777STycho Nightingale SDT_PROBE4(vmm, vmx, exit, interrupt,
26161aa51504SJohn Baldwin vmx, vcpuid, vmexit, intr_info);
2617722b6744SJohn Baldwin
2618722b6744SJohn Baldwin /*
2619722b6744SJohn Baldwin * XXX: Ignore this exit if VMCS_INTR_VALID is not set.
2620ad3e3687SJohn Baldwin * This appears to be a bug in VMware Fusion?
2621722b6744SJohn Baldwin */
2622722b6744SJohn Baldwin if (!(intr_info & VMCS_INTR_VALID))
2623722b6744SJohn Baldwin return (1);
2624160471d2SNeel Natu KASSERT((intr_info & VMCS_INTR_VALID) != 0 &&
2625160471d2SNeel Natu (intr_info & VMCS_INTR_T_MASK) == VMCS_INTR_T_HWINTR,
2626f7d47425SNeel Natu ("VM exit interruption info invalid: %#x", intr_info));
2627f7d47425SNeel Natu vmx_trigger_hostintr(intr_info & 0xff);
2628366f6083SPeter Grehan
2629366f6083SPeter Grehan /*
2630366f6083SPeter Grehan * This is special. We want to treat this as an 'handled'
2631366f6083SPeter Grehan * VM-exit but not increment the instruction pointer.
2632366f6083SPeter Grehan */
26333dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_EXTINT, 1);
2634366f6083SPeter Grehan return (1);
2635366f6083SPeter Grehan case EXIT_REASON_NMI_WINDOW:
26361aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, nmiwindow, vmx, vcpuid, vmexit);
2637366f6083SPeter Grehan /* Exit to allow the pending virtual NMI to be injected */
263880cb5d84SJohn Baldwin if (vm_nmi_pending(vcpu->vcpu))
263980cb5d84SJohn Baldwin vmx_inject_nmi(vcpu);
2640869c8d19SJohn Baldwin vmx_clear_nmi_window_exiting(vcpu);
26413dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_NMI_WINDOW, 1);
2642366f6083SPeter Grehan return (1);
2643366f6083SPeter Grehan case EXIT_REASON_INOUT:
26443dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_INOUT, 1);
2645366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_INOUT;
2646366f6083SPeter Grehan vmexit->u.inout.bytes = (qual & 0x7) + 1;
2647d17b5104SNeel Natu vmexit->u.inout.in = in = (qual & 0x8) ? 1 : 0;
2648366f6083SPeter Grehan vmexit->u.inout.string = (qual & 0x10) ? 1 : 0;
2649366f6083SPeter Grehan vmexit->u.inout.rep = (qual & 0x20) ? 1 : 0;
2650366f6083SPeter Grehan vmexit->u.inout.port = (uint16_t)(qual >> 16);
2651366f6083SPeter Grehan vmexit->u.inout.eax = (uint32_t)(vmxctx->guest_rax);
2652d17b5104SNeel Natu if (vmexit->u.inout.string) {
2653d17b5104SNeel Natu inst_info = vmcs_read(VMCS_EXIT_INSTRUCTION_INFO);
2654d17b5104SNeel Natu vmexit->exitcode = VM_EXITCODE_INOUT_STR;
2655d17b5104SNeel Natu vis = &vmexit->u.inout_str;
2656e813a873SNeel Natu vmx_paging_info(&vis->paging);
2657d17b5104SNeel Natu vis->rflags = vmcs_read(VMCS_GUEST_RFLAGS);
2658d17b5104SNeel Natu vis->cr0 = vmcs_read(VMCS_GUEST_CR0);
2659869c8d19SJohn Baldwin vis->index = inout_str_index(vcpu, in);
2660869c8d19SJohn Baldwin vis->count = inout_str_count(vcpu, vis->inout.rep);
2661d17b5104SNeel Natu vis->addrsize = inout_str_addrsize(inst_info);
2662869c8d19SJohn Baldwin inout_str_seginfo(vcpu, inst_info, in, vis);
2663762fd208STycho Nightingale }
26641aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, inout, vmx, vcpuid, vmexit);
2665366f6083SPeter Grehan break;
2666366f6083SPeter Grehan case EXIT_REASON_CPUID:
26673dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_CPUID, 1);
26681aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, cpuid, vmx, vcpuid, vmexit);
266980cb5d84SJohn Baldwin handled = vmx_handle_cpuid(vcpu, vmxctx);
2670366f6083SPeter Grehan break;
2671e5a1d950SNeel Natu case EXIT_REASON_EXCEPTION:
26723dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_EXCEPTION, 1);
2673e5a1d950SNeel Natu intr_info = vmcs_read(VMCS_EXIT_INTR_INFO);
2674e5a1d950SNeel Natu KASSERT((intr_info & VMCS_INTR_VALID) != 0,
2675e5a1d950SNeel Natu ("VM exit interruption info invalid: %#x", intr_info));
2676c308b23bSNeel Natu
2677b0538143SNeel Natu intr_vec = intr_info & 0xff;
2678b0538143SNeel Natu intr_type = intr_info & VMCS_INTR_T_MASK;
2679b0538143SNeel Natu
2680e5a1d950SNeel Natu /*
2681e5a1d950SNeel Natu * If Virtual NMIs control is 1 and the VM-exit is due to a
2682e5a1d950SNeel Natu * fault encountered during the execution of IRET then we must
2683e5a1d950SNeel Natu * restore the state of "virtual-NMI blocking" before resuming
2684e5a1d950SNeel Natu * the guest.
2685e5a1d950SNeel Natu *
2686e5a1d950SNeel Natu * See "Resuming Guest Software after Handling an Exception".
2687091d4532SNeel Natu * See "Information for VM Exits Due to Vectored Events".
2688e5a1d950SNeel Natu */
2689e5a1d950SNeel Natu if ((idtvec_info & VMCS_IDT_VEC_VALID) == 0 &&
2690b0538143SNeel Natu (intr_vec != IDT_DF) &&
2691e5a1d950SNeel Natu (intr_info & EXIT_QUAL_NMIUDTI) != 0)
2692869c8d19SJohn Baldwin vmx_restore_nmi_blocking(vcpu);
2693c308b23bSNeel Natu
2694c308b23bSNeel Natu /*
269562fbd7c2SNeel Natu * The NMI has already been handled in vmx_exit_handle_nmi().
2696c308b23bSNeel Natu */
2697b0538143SNeel Natu if (intr_type == VMCS_INTR_T_NMI)
2698c308b23bSNeel Natu return (1);
2699b0538143SNeel Natu
2700b0538143SNeel Natu /*
2701b0538143SNeel Natu * Call the machine check handler by hand. Also don't reflect
2702b0538143SNeel Natu * the machine check back into the guest.
2703b0538143SNeel Natu */
2704b0538143SNeel Natu if (intr_vec == IDT_MC) {
270557e0119eSJohn Baldwin VMX_CTR0(vcpu, "Vectoring to MCE handler");
2706b0538143SNeel Natu __asm __volatile("int $18");
2707b0538143SNeel Natu return (1);
2708b0538143SNeel Natu }
2709b0538143SNeel Natu
2710cbd03a9dSJohn Baldwin /*
2711cbd03a9dSJohn Baldwin * If the hypervisor has requested user exits for
2712cbd03a9dSJohn Baldwin * debug exceptions, bounce them out to userland.
2713cbd03a9dSJohn Baldwin */
2714cbd03a9dSJohn Baldwin if (intr_type == VMCS_INTR_T_SWEXCEPTION && intr_vec == IDT_BP &&
27151aa51504SJohn Baldwin (vcpu->cap.set & (1 << VM_CAP_BPT_EXIT))) {
2716cbd03a9dSJohn Baldwin vmexit->exitcode = VM_EXITCODE_BPT;
2717cbd03a9dSJohn Baldwin vmexit->u.bpt.inst_length = vmexit->inst_length;
2718cbd03a9dSJohn Baldwin vmexit->inst_length = 0;
2719cbd03a9dSJohn Baldwin break;
2720cbd03a9dSJohn Baldwin }
2721cbd03a9dSJohn Baldwin
2722b0538143SNeel Natu if (intr_vec == IDT_PF) {
2723b0538143SNeel Natu error = vmxctx_setreg(vmxctx, VM_REG_GUEST_CR2, qual);
2724b0538143SNeel Natu KASSERT(error == 0, ("%s: vmxctx_setreg(cr2) error %d",
2725b0538143SNeel Natu __func__, error));
2726b0538143SNeel Natu }
2727b0538143SNeel Natu
2728b0538143SNeel Natu /*
2729b0538143SNeel Natu * Software exceptions exhibit trap-like behavior. This in
2730b0538143SNeel Natu * turn requires populating the VM-entry instruction length
2731b0538143SNeel Natu * so that the %rip in the trap frame is past the INT3/INTO
2732b0538143SNeel Natu * instruction.
2733b0538143SNeel Natu */
2734b0538143SNeel Natu if (intr_type == VMCS_INTR_T_SWEXCEPTION)
2735b0538143SNeel Natu vmcs_write(VMCS_ENTRY_INST_LENGTH, vmexit->inst_length);
2736b0538143SNeel Natu
2737b0538143SNeel Natu /* Reflect all other exceptions back into the guest */
2738c9c75df4SNeel Natu errcode_valid = errcode = 0;
2739b0538143SNeel Natu if (intr_info & VMCS_INTR_DEL_ERRCODE) {
2740c9c75df4SNeel Natu errcode_valid = 1;
2741c9c75df4SNeel Natu errcode = vmcs_read(VMCS_EXIT_INTR_ERRCODE);
2742b0538143SNeel Natu }
274357e0119eSJohn Baldwin VMX_CTR2(vcpu, "Reflecting exception %d/%#x into "
2744c9c75df4SNeel Natu "the guest", intr_vec, errcode);
27456ac73777STycho Nightingale SDT_PROBE5(vmm, vmx, exit, exception,
27461aa51504SJohn Baldwin vmx, vcpuid, vmexit, intr_vec, errcode);
2747d3956e46SJohn Baldwin error = vm_inject_exception(vcpu->vcpu, intr_vec,
2748c9c75df4SNeel Natu errcode_valid, errcode, 0);
2749b0538143SNeel Natu KASSERT(error == 0, ("%s: vm_inject_exception error %d",
2750b0538143SNeel Natu __func__, error));
2751b0538143SNeel Natu return (1);
2752b0538143SNeel Natu
2753cd942e0fSPeter Grehan case EXIT_REASON_EPT_FAULT:
2754318224bbSNeel Natu /*
2755318224bbSNeel Natu * If 'gpa' lies within the address space allocated to
2756318224bbSNeel Natu * memory then this must be a nested page fault otherwise
2757318224bbSNeel Natu * this must be an instruction that accesses MMIO space.
2758318224bbSNeel Natu */
2759a2da7af6SNeel Natu gpa = vmcs_gpa();
276080cb5d84SJohn Baldwin if (vm_mem_allocated(vcpu->vcpu, gpa) ||
2761*c76c2a19SMark Johnston ppt_is_mmio(vmx->vm, gpa) || apic_access_fault(vcpu, gpa)) {
2762cd942e0fSPeter Grehan vmexit->exitcode = VM_EXITCODE_PAGING;
2763d087a399SNeel Natu vmexit->inst_length = 0;
276413ec9371SPeter Grehan vmexit->u.paging.gpa = gpa;
2765318224bbSNeel Natu vmexit->u.paging.fault_type = ept_fault_type(qual);
27663dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_NESTED_FAULT, 1);
27676ac73777STycho Nightingale SDT_PROBE5(vmm, vmx, exit, nestedfault,
27681aa51504SJohn Baldwin vmx, vcpuid, vmexit, gpa, qual);
2769318224bbSNeel Natu } else if (ept_emulation_fault(qual)) {
2770e4c8a13dSNeel Natu vmexit_inst_emul(vmexit, gpa, vmcs_gla());
27713dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_INST_EMUL, 1);
27726ac73777STycho Nightingale SDT_PROBE4(vmm, vmx, exit, mmiofault,
27731aa51504SJohn Baldwin vmx, vcpuid, vmexit, gpa);
2774a2da7af6SNeel Natu }
2775e5a1d950SNeel Natu /*
2776e5a1d950SNeel Natu * If Virtual NMIs control is 1 and the VM-exit is due to an
2777e5a1d950SNeel Natu * EPT fault during the execution of IRET then we must restore
2778e5a1d950SNeel Natu * the state of "virtual-NMI blocking" before resuming.
2779e5a1d950SNeel Natu *
2780e5a1d950SNeel Natu * See description of "NMI unblocking due to IRET" in
2781e5a1d950SNeel Natu * "Exit Qualification for EPT Violations".
2782e5a1d950SNeel Natu */
2783e5a1d950SNeel Natu if ((idtvec_info & VMCS_IDT_VEC_VALID) == 0 &&
2784e5a1d950SNeel Natu (qual & EXIT_QUAL_NMIUDTI) != 0)
2785869c8d19SJohn Baldwin vmx_restore_nmi_blocking(vcpu);
2786cd942e0fSPeter Grehan break;
278730b94db8SNeel Natu case EXIT_REASON_VIRTUALIZED_EOI:
278830b94db8SNeel Natu vmexit->exitcode = VM_EXITCODE_IOAPIC_EOI;
278930b94db8SNeel Natu vmexit->u.ioapic_eoi.vector = qual & 0xFF;
27901aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, eoi, vmx, vcpuid, vmexit);
279130b94db8SNeel Natu vmexit->inst_length = 0; /* trap-like */
279230b94db8SNeel Natu break;
279388c4b8d1SNeel Natu case EXIT_REASON_APIC_ACCESS:
27941aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, apicaccess, vmx, vcpuid, vmexit);
27951aa51504SJohn Baldwin handled = vmx_handle_apic_access(vcpu, vmexit);
279688c4b8d1SNeel Natu break;
279788c4b8d1SNeel Natu case EXIT_REASON_APIC_WRITE:
279888c4b8d1SNeel Natu /*
279988c4b8d1SNeel Natu * APIC-write VM exit is trap-like so the %rip is already
280088c4b8d1SNeel Natu * pointing to the next instruction.
280188c4b8d1SNeel Natu */
280288c4b8d1SNeel Natu vmexit->inst_length = 0;
2803d3956e46SJohn Baldwin vlapic = vm_lapic(vcpu->vcpu);
28046ac73777STycho Nightingale SDT_PROBE4(vmm, vmx, exit, apicwrite,
28051aa51504SJohn Baldwin vmx, vcpuid, vmexit, vlapic);
28061aa51504SJohn Baldwin handled = vmx_handle_apic_write(vcpu, vlapic, qual);
280788c4b8d1SNeel Natu break;
2808abb023fbSJohn Baldwin case EXIT_REASON_XSETBV:
28091aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, xsetbv, vmx, vcpuid, vmexit);
2810a0efd3fbSJohn Baldwin handled = vmx_emulate_xsetbv(vmx, vcpu, vmexit);
2811abb023fbSJohn Baldwin break;
281265145c7fSNeel Natu case EXIT_REASON_MONITOR:
28131aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, monitor, vmx, vcpuid, vmexit);
281465145c7fSNeel Natu vmexit->exitcode = VM_EXITCODE_MONITOR;
281565145c7fSNeel Natu break;
281665145c7fSNeel Natu case EXIT_REASON_MWAIT:
28171aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, mwait, vmx, vcpuid, vmexit);
281865145c7fSNeel Natu vmexit->exitcode = VM_EXITCODE_MWAIT;
281965145c7fSNeel Natu break;
28201bc51badSMichael Reifenberger case EXIT_REASON_TPR:
2821d3956e46SJohn Baldwin vlapic = vm_lapic(vcpu->vcpu);
28221bc51badSMichael Reifenberger vlapic_sync_tpr(vlapic);
28231bc51badSMichael Reifenberger vmexit->inst_length = 0;
28241bc51badSMichael Reifenberger handled = HANDLED;
28251bc51badSMichael Reifenberger break;
282627d26457SAndrew Turner case EXIT_REASON_VMCALL:
282727d26457SAndrew Turner case EXIT_REASON_VMCLEAR:
282827d26457SAndrew Turner case EXIT_REASON_VMLAUNCH:
282927d26457SAndrew Turner case EXIT_REASON_VMPTRLD:
283027d26457SAndrew Turner case EXIT_REASON_VMPTRST:
283127d26457SAndrew Turner case EXIT_REASON_VMREAD:
283227d26457SAndrew Turner case EXIT_REASON_VMRESUME:
283327d26457SAndrew Turner case EXIT_REASON_VMWRITE:
283427d26457SAndrew Turner case EXIT_REASON_VMXOFF:
283527d26457SAndrew Turner case EXIT_REASON_VMXON:
28361aa51504SJohn Baldwin SDT_PROBE3(vmm, vmx, exit, vminsn, vmx, vcpuid, vmexit);
283727d26457SAndrew Turner vmexit->exitcode = VM_EXITCODE_VMINSN;
283827d26457SAndrew Turner break;
28394eadbef9SCorvin Köhne case EXIT_REASON_INVD:
28403ba952e1SCorvin Köhne case EXIT_REASON_WBINVD:
28414eadbef9SCorvin Köhne /* ignore exit */
28423ba952e1SCorvin Köhne handled = HANDLED;
28433ba952e1SCorvin Köhne break;
2844366f6083SPeter Grehan default:
28456ac73777STycho Nightingale SDT_PROBE4(vmm, vmx, exit, unknown,
28461aa51504SJohn Baldwin vmx, vcpuid, vmexit, reason);
28473dc3d32aSJohn Baldwin vmm_stat_incr(vcpu->vcpu, VMEXIT_UNKNOWN, 1);
2848366f6083SPeter Grehan break;
2849366f6083SPeter Grehan }
2850366f6083SPeter Grehan
2851366f6083SPeter Grehan if (handled) {
2852366f6083SPeter Grehan /*
2853366f6083SPeter Grehan * It is possible that control is returned to userland
2854366f6083SPeter Grehan * even though we were able to handle the VM exit in the
2855eeefa4e4SNeel Natu * kernel.
2856366f6083SPeter Grehan *
2857366f6083SPeter Grehan * In such a case we want to make sure that the userland
2858366f6083SPeter Grehan * restarts guest execution at the instruction *after*
2859366f6083SPeter Grehan * the one we just processed. Therefore we update the
2860366f6083SPeter Grehan * guest rip in the VMCS and in 'vmexit'.
2861366f6083SPeter Grehan */
2862366f6083SPeter Grehan vmexit->rip += vmexit->inst_length;
2863366f6083SPeter Grehan vmexit->inst_length = 0;
28643de83862SNeel Natu vmcs_write(VMCS_GUEST_RIP, vmexit->rip);
2865366f6083SPeter Grehan } else {
2866366f6083SPeter Grehan if (vmexit->exitcode == VM_EXITCODE_BOGUS) {
2867366f6083SPeter Grehan /*
2868366f6083SPeter Grehan * If this VM exit was not claimed by anybody then
2869366f6083SPeter Grehan * treat it as a generic VMX exit.
2870366f6083SPeter Grehan */
2871366f6083SPeter Grehan vmexit->exitcode = VM_EXITCODE_VMX;
28720492757cSNeel Natu vmexit->u.vmx.status = VM_SUCCESS;
2873c308b23bSNeel Natu vmexit->u.vmx.inst_type = 0;
2874c308b23bSNeel Natu vmexit->u.vmx.inst_error = 0;
2875366f6083SPeter Grehan } else {
2876366f6083SPeter Grehan /*
2877366f6083SPeter Grehan * The exitcode and collateral have been populated.
2878366f6083SPeter Grehan * The VM exit will be processed further in userland.
2879366f6083SPeter Grehan */
2880366f6083SPeter Grehan }
2881366f6083SPeter Grehan }
28826ac73777STycho Nightingale
28836ac73777STycho Nightingale SDT_PROBE4(vmm, vmx, exit, return,
28841aa51504SJohn Baldwin vmx, vcpuid, vmexit, handled);
2885366f6083SPeter Grehan return (handled);
2886366f6083SPeter Grehan }
2887366f6083SPeter Grehan
288840487465SNeel Natu static __inline void
vmx_exit_inst_error(struct vmxctx * vmxctx,int rc,struct vm_exit * vmexit)28890492757cSNeel Natu vmx_exit_inst_error(struct vmxctx *vmxctx, int rc, struct vm_exit *vmexit)
28900492757cSNeel Natu {
28910492757cSNeel Natu
28920492757cSNeel Natu KASSERT(vmxctx->inst_fail_status != VM_SUCCESS,
28930492757cSNeel Natu ("vmx_exit_inst_error: invalid inst_fail_status %d",
28940492757cSNeel Natu vmxctx->inst_fail_status));
28950492757cSNeel Natu
28960492757cSNeel Natu vmexit->inst_length = 0;
28970492757cSNeel Natu vmexit->exitcode = VM_EXITCODE_VMX;
28980492757cSNeel Natu vmexit->u.vmx.status = vmxctx->inst_fail_status;
28990492757cSNeel Natu vmexit->u.vmx.inst_error = vmcs_instruction_error();
29000492757cSNeel Natu vmexit->u.vmx.exit_reason = ~0;
29010492757cSNeel Natu vmexit->u.vmx.exit_qualification = ~0;
29020492757cSNeel Natu
29030492757cSNeel Natu switch (rc) {
29040492757cSNeel Natu case VMX_VMRESUME_ERROR:
29050492757cSNeel Natu case VMX_VMLAUNCH_ERROR:
29060492757cSNeel Natu vmexit->u.vmx.inst_type = rc;
29070492757cSNeel Natu break;
29080492757cSNeel Natu default:
29090492757cSNeel Natu panic("vm_exit_inst_error: vmx_enter_guest returned %d", rc);
29100492757cSNeel Natu }
29110492757cSNeel Natu }
29120492757cSNeel Natu
291362fbd7c2SNeel Natu /*
291462fbd7c2SNeel Natu * If the NMI-exiting VM execution control is set to '1' then an NMI in
291562fbd7c2SNeel Natu * non-root operation causes a VM-exit. NMI blocking is in effect so it is
291662fbd7c2SNeel Natu * sufficient to simply vector to the NMI handler via a software interrupt.
291762fbd7c2SNeel Natu * However, this must be done before maskable interrupts are enabled
291862fbd7c2SNeel Natu * otherwise the "iret" issued by an interrupt handler will incorrectly
291962fbd7c2SNeel Natu * clear NMI blocking.
292062fbd7c2SNeel Natu */
292162fbd7c2SNeel Natu static __inline void
vmx_exit_handle_nmi(struct vmx_vcpu * vcpu,struct vm_exit * vmexit)2922869c8d19SJohn Baldwin vmx_exit_handle_nmi(struct vmx_vcpu *vcpu, struct vm_exit *vmexit)
292362fbd7c2SNeel Natu {
292462fbd7c2SNeel Natu uint32_t intr_info;
292562fbd7c2SNeel Natu
292662fbd7c2SNeel Natu KASSERT((read_rflags() & PSL_I) == 0, ("interrupts enabled"));
292762fbd7c2SNeel Natu
292862fbd7c2SNeel Natu if (vmexit->u.vmx.exit_reason != EXIT_REASON_EXCEPTION)
292962fbd7c2SNeel Natu return;
293062fbd7c2SNeel Natu
293162fbd7c2SNeel Natu intr_info = vmcs_read(VMCS_EXIT_INTR_INFO);
293262fbd7c2SNeel Natu KASSERT((intr_info & VMCS_INTR_VALID) != 0,
293362fbd7c2SNeel Natu ("VM exit interruption info invalid: %#x", intr_info));
293462fbd7c2SNeel Natu
293562fbd7c2SNeel Natu if ((intr_info & VMCS_INTR_T_MASK) == VMCS_INTR_T_NMI) {
293662fbd7c2SNeel Natu KASSERT((intr_info & 0xff) == IDT_NMI, ("VM exit due "
293762fbd7c2SNeel Natu "to NMI has invalid vector: %#x", intr_info));
293857e0119eSJohn Baldwin VMX_CTR0(vcpu, "Vectoring to NMI handler");
293962fbd7c2SNeel Natu __asm __volatile("int $2");
294062fbd7c2SNeel Natu }
294162fbd7c2SNeel Natu }
294262fbd7c2SNeel Natu
294365eefbe4SJohn Baldwin static __inline void
vmx_dr_enter_guest(struct vmxctx * vmxctx)294465eefbe4SJohn Baldwin vmx_dr_enter_guest(struct vmxctx *vmxctx)
294565eefbe4SJohn Baldwin {
294665eefbe4SJohn Baldwin register_t rflags;
294765eefbe4SJohn Baldwin
294865eefbe4SJohn Baldwin /* Save host control debug registers. */
294965eefbe4SJohn Baldwin vmxctx->host_dr7 = rdr7();
295065eefbe4SJohn Baldwin vmxctx->host_debugctl = rdmsr(MSR_DEBUGCTLMSR);
295165eefbe4SJohn Baldwin
295265eefbe4SJohn Baldwin /*
295365eefbe4SJohn Baldwin * Disable debugging in DR7 and DEBUGCTL to avoid triggering
295465eefbe4SJohn Baldwin * exceptions in the host based on the guest DRx values. The
295565eefbe4SJohn Baldwin * guest DR7 and DEBUGCTL are saved/restored in the VMCS.
295665eefbe4SJohn Baldwin */
295765eefbe4SJohn Baldwin load_dr7(0);
295865eefbe4SJohn Baldwin wrmsr(MSR_DEBUGCTLMSR, 0);
295965eefbe4SJohn Baldwin
296065eefbe4SJohn Baldwin /*
296165eefbe4SJohn Baldwin * Disable single stepping the kernel to avoid corrupting the
296265eefbe4SJohn Baldwin * guest DR6. A debugger might still be able to corrupt the
296365eefbe4SJohn Baldwin * guest DR6 by setting a breakpoint after this point and then
296465eefbe4SJohn Baldwin * single stepping.
296565eefbe4SJohn Baldwin */
296665eefbe4SJohn Baldwin rflags = read_rflags();
296765eefbe4SJohn Baldwin vmxctx->host_tf = rflags & PSL_T;
296865eefbe4SJohn Baldwin write_rflags(rflags & ~PSL_T);
296965eefbe4SJohn Baldwin
297065eefbe4SJohn Baldwin /* Save host debug registers. */
297165eefbe4SJohn Baldwin vmxctx->host_dr0 = rdr0();
297265eefbe4SJohn Baldwin vmxctx->host_dr1 = rdr1();
297365eefbe4SJohn Baldwin vmxctx->host_dr2 = rdr2();
297465eefbe4SJohn Baldwin vmxctx->host_dr3 = rdr3();
297565eefbe4SJohn Baldwin vmxctx->host_dr6 = rdr6();
297665eefbe4SJohn Baldwin
297765eefbe4SJohn Baldwin /* Restore guest debug registers. */
297865eefbe4SJohn Baldwin load_dr0(vmxctx->guest_dr0);
297965eefbe4SJohn Baldwin load_dr1(vmxctx->guest_dr1);
298065eefbe4SJohn Baldwin load_dr2(vmxctx->guest_dr2);
298165eefbe4SJohn Baldwin load_dr3(vmxctx->guest_dr3);
298265eefbe4SJohn Baldwin load_dr6(vmxctx->guest_dr6);
298365eefbe4SJohn Baldwin }
298465eefbe4SJohn Baldwin
298565eefbe4SJohn Baldwin static __inline void
vmx_dr_leave_guest(struct vmxctx * vmxctx)298665eefbe4SJohn Baldwin vmx_dr_leave_guest(struct vmxctx *vmxctx)
298765eefbe4SJohn Baldwin {
298865eefbe4SJohn Baldwin
298965eefbe4SJohn Baldwin /* Save guest debug registers. */
299065eefbe4SJohn Baldwin vmxctx->guest_dr0 = rdr0();
299165eefbe4SJohn Baldwin vmxctx->guest_dr1 = rdr1();
299265eefbe4SJohn Baldwin vmxctx->guest_dr2 = rdr2();
299365eefbe4SJohn Baldwin vmxctx->guest_dr3 = rdr3();
299465eefbe4SJohn Baldwin vmxctx->guest_dr6 = rdr6();
299565eefbe4SJohn Baldwin
299665eefbe4SJohn Baldwin /*
299765eefbe4SJohn Baldwin * Restore host debug registers. Restore DR7, DEBUGCTL, and
299865eefbe4SJohn Baldwin * PSL_T last.
299965eefbe4SJohn Baldwin */
300065eefbe4SJohn Baldwin load_dr0(vmxctx->host_dr0);
300165eefbe4SJohn Baldwin load_dr1(vmxctx->host_dr1);
300265eefbe4SJohn Baldwin load_dr2(vmxctx->host_dr2);
300365eefbe4SJohn Baldwin load_dr3(vmxctx->host_dr3);
300465eefbe4SJohn Baldwin load_dr6(vmxctx->host_dr6);
300565eefbe4SJohn Baldwin wrmsr(MSR_DEBUGCTLMSR, vmxctx->host_debugctl);
300665eefbe4SJohn Baldwin load_dr7(vmxctx->host_dr7);
300765eefbe4SJohn Baldwin write_rflags(read_rflags() | vmxctx->host_tf);
300865eefbe4SJohn Baldwin }
300965eefbe4SJohn Baldwin
30108e2cbc56SMark Johnston static __inline void
vmx_pmap_activate(struct vmx * vmx,pmap_t pmap)30118e2cbc56SMark Johnston vmx_pmap_activate(struct vmx *vmx, pmap_t pmap)
30128e2cbc56SMark Johnston {
30138e2cbc56SMark Johnston long eptgen;
30148e2cbc56SMark Johnston int cpu;
30158e2cbc56SMark Johnston
30168e2cbc56SMark Johnston cpu = curcpu;
30178e2cbc56SMark Johnston
30188e2cbc56SMark Johnston CPU_SET_ATOMIC(cpu, &pmap->pm_active);
30196f5a9606SMark Johnston smr_enter(pmap->pm_eptsmr);
30208e2cbc56SMark Johnston eptgen = atomic_load_long(&pmap->pm_eptgen);
30218e2cbc56SMark Johnston if (eptgen != vmx->eptgen[cpu]) {
30228e2cbc56SMark Johnston vmx->eptgen[cpu] = eptgen;
30238e2cbc56SMark Johnston invept(INVEPT_TYPE_SINGLE_CONTEXT,
30248e2cbc56SMark Johnston (struct invept_desc){ .eptp = vmx->eptp, ._res = 0 });
30258e2cbc56SMark Johnston }
30268e2cbc56SMark Johnston }
30278e2cbc56SMark Johnston
30288e2cbc56SMark Johnston static __inline void
vmx_pmap_deactivate(struct vmx * vmx,pmap_t pmap)30298e2cbc56SMark Johnston vmx_pmap_deactivate(struct vmx *vmx, pmap_t pmap)
30308e2cbc56SMark Johnston {
30316f5a9606SMark Johnston smr_exit(pmap->pm_eptsmr);
30328e2cbc56SMark Johnston CPU_CLR_ATOMIC(curcpu, &pmap->pm_active);
30338e2cbc56SMark Johnston }
30348e2cbc56SMark Johnston
30350492757cSNeel Natu static int
vmx_run(void * vcpui,register_t rip,pmap_t pmap,struct vm_eventinfo * evinfo)3036869c8d19SJohn Baldwin vmx_run(void *vcpui, register_t rip, pmap_t pmap, struct vm_eventinfo *evinfo)
30370492757cSNeel Natu {
303880cb5d84SJohn Baldwin int rc, handled, launched;
3039366f6083SPeter Grehan struct vmx *vmx;
30401aa51504SJohn Baldwin struct vmx_vcpu *vcpu;
3041366f6083SPeter Grehan struct vmxctx *vmxctx;
3042366f6083SPeter Grehan struct vmcs *vmcs;
304398ed632cSNeel Natu struct vm_exit *vmexit;
3044de5ea6b6SNeel Natu struct vlapic *vlapic;
304579c59630SNeel Natu uint32_t exit_reason;
3046b843f9beSJohn Baldwin struct region_descriptor gdtr, idtr;
3047b843f9beSJohn Baldwin uint16_t ldt_sel;
3048366f6083SPeter Grehan
30491aa51504SJohn Baldwin vcpu = vcpui;
3050869c8d19SJohn Baldwin vmx = vcpu->vmx;
30511aa51504SJohn Baldwin vmcs = vcpu->vmcs;
30521aa51504SJohn Baldwin vmxctx = &vcpu->ctx;
3053d3956e46SJohn Baldwin vlapic = vm_lapic(vcpu->vcpu);
305480cb5d84SJohn Baldwin vmexit = vm_exitinfo(vcpu->vcpu);
30550492757cSNeel Natu launched = 0;
305698ed632cSNeel Natu
3057318224bbSNeel Natu KASSERT(vmxctx->pmap == pmap,
3058318224bbSNeel Natu ("pmap %p different than ctx pmap %p", pmap, vmxctx->pmap));
3059318224bbSNeel Natu
306080cb5d84SJohn Baldwin vmx_msr_guest_enter(vcpu);
3061c3498942SNeel Natu
3062366f6083SPeter Grehan VMPTRLD(vmcs);
3063366f6083SPeter Grehan
3064366f6083SPeter Grehan /*
3065366f6083SPeter Grehan * XXX
3066366f6083SPeter Grehan * We do this every time because we may setup the virtual machine
3067366f6083SPeter Grehan * from a different process than the one that actually runs it.
3068366f6083SPeter Grehan *
3069366f6083SPeter Grehan * If the life of a virtual machine was spent entirely in the context
307015add60dSPeter Grehan * of a single process we could do this once in vmx_init().
3071366f6083SPeter Grehan */
30723de83862SNeel Natu vmcs_write(VMCS_HOST_CR3, rcr3());
3073366f6083SPeter Grehan
30742ce12423SNeel Natu vmcs_write(VMCS_GUEST_RIP, rip);
3075953c2c47SNeel Natu vmx_set_pcpu_defaults(vmx, vcpu, pmap);
3076366f6083SPeter Grehan do {
30772ce12423SNeel Natu KASSERT(vmcs_guest_rip() == rip, ("%s: vmcs guest rip mismatch "
30782ce12423SNeel Natu "%#lx/%#lx", __func__, vmcs_guest_rip(), rip));
307940487465SNeel Natu
30802ce12423SNeel Natu handled = UNHANDLED;
30810492757cSNeel Natu /*
30820492757cSNeel Natu * Interrupts are disabled from this point on until the
30830492757cSNeel Natu * guest starts executing. This is done for the following
30840492757cSNeel Natu * reasons:
30850492757cSNeel Natu *
30860492757cSNeel Natu * If an AST is asserted on this thread after the check below,
30870492757cSNeel Natu * then the IPI_AST notification will not be lost, because it
30880492757cSNeel Natu * will cause a VM exit due to external interrupt as soon as
30890492757cSNeel Natu * the guest state is loaded.
30900492757cSNeel Natu *
30910492757cSNeel Natu * A posted interrupt after 'vmx_inject_interrupts()' will
30920492757cSNeel Natu * not be "lost" because it will be held pending in the host
30930492757cSNeel Natu * APIC because interrupts are disabled. The pending interrupt
30940492757cSNeel Natu * will be recognized as soon as the guest state is loaded.
30950492757cSNeel Natu *
30960492757cSNeel Natu * The same reasoning applies to the IPI generated by
30970492757cSNeel Natu * pmap_invalidate_ept().
30980492757cSNeel Natu */
30990492757cSNeel Natu disable_intr();
310080cb5d84SJohn Baldwin vmx_inject_interrupts(vcpu, vlapic, rip);
3101091d4532SNeel Natu
3102091d4532SNeel Natu /*
3103091d4532SNeel Natu * Check for vcpu suspension after injecting events because
3104091d4532SNeel Natu * vmx_inject_interrupts() can suspend the vcpu due to a
3105091d4532SNeel Natu * triple fault.
3106091d4532SNeel Natu */
3107248e6799SNeel Natu if (vcpu_suspended(evinfo)) {
31080492757cSNeel Natu enable_intr();
310980cb5d84SJohn Baldwin vm_exit_suspended(vcpu->vcpu, rip);
31100492757cSNeel Natu break;
31110492757cSNeel Natu }
31120492757cSNeel Natu
3113892feec2SCorvin Köhne if (vcpu_rendezvous_pending(vcpu->vcpu, evinfo)) {
31145b8a8cd1SNeel Natu enable_intr();
311580cb5d84SJohn Baldwin vm_exit_rendezvous(vcpu->vcpu, rip);
31165b8a8cd1SNeel Natu break;
31175b8a8cd1SNeel Natu }
31185b8a8cd1SNeel Natu
3119248e6799SNeel Natu if (vcpu_reqidle(evinfo)) {
3120248e6799SNeel Natu enable_intr();
312180cb5d84SJohn Baldwin vm_exit_reqidle(vcpu->vcpu, rip);
3122248e6799SNeel Natu break;
3123248e6799SNeel Natu }
3124248e6799SNeel Natu
312580cb5d84SJohn Baldwin if (vcpu_should_yield(vcpu->vcpu)) {
3126b15a09c0SNeel Natu enable_intr();
312780cb5d84SJohn Baldwin vm_exit_astpending(vcpu->vcpu, rip);
3128869c8d19SJohn Baldwin vmx_astpending_trace(vcpu, rip);
312940487465SNeel Natu handled = HANDLED;
3130b15a09c0SNeel Natu break;
3131b15a09c0SNeel Natu }
3132b15a09c0SNeel Natu
313380cb5d84SJohn Baldwin if (vcpu_debugged(vcpu->vcpu)) {
3134fc276d92SJohn Baldwin enable_intr();
313580cb5d84SJohn Baldwin vm_exit_debug(vcpu->vcpu, rip);
3136fc276d92SJohn Baldwin break;
3137fc276d92SJohn Baldwin }
3138fc276d92SJohn Baldwin
3139b843f9beSJohn Baldwin /*
31401bc51badSMichael Reifenberger * If TPR Shadowing is enabled, the TPR Threshold
31411bc51badSMichael Reifenberger * must be updated right before entering the guest.
31421bc51badSMichael Reifenberger */
31431bc51badSMichael Reifenberger if (tpr_shadowing && !virtual_interrupt_delivery) {
31441aa51504SJohn Baldwin if ((vcpu->cap.proc_ctls & PROCBASED_USE_TPR_SHADOW) != 0) {
31451bc51badSMichael Reifenberger vmcs_write(VMCS_TPR_THRESHOLD, vlapic_get_cr8(vlapic));
31461bc51badSMichael Reifenberger }
31471bc51badSMichael Reifenberger }
31481bc51badSMichael Reifenberger
31491bc51badSMichael Reifenberger /*
3150b843f9beSJohn Baldwin * VM exits restore the base address but not the
3151b843f9beSJohn Baldwin * limits of GDTR and IDTR. The VMCS only stores the
3152b843f9beSJohn Baldwin * base address, so VM exits set the limits to 0xffff.
3153b843f9beSJohn Baldwin * Save and restore the full GDTR and IDTR to restore
3154b843f9beSJohn Baldwin * the limits.
3155b843f9beSJohn Baldwin *
3156b843f9beSJohn Baldwin * The VMCS does not save the LDTR at all, and VM
3157b843f9beSJohn Baldwin * exits clear LDTR as if a NULL selector were loaded.
3158b843f9beSJohn Baldwin * The userspace hypervisor probably doesn't use a
3159b843f9beSJohn Baldwin * LDT, but save and restore it to be safe.
3160b843f9beSJohn Baldwin */
3161b843f9beSJohn Baldwin sgdt(&gdtr);
3162b843f9beSJohn Baldwin sidt(&idtr);
3163b843f9beSJohn Baldwin ldt_sel = sldt();
3164b843f9beSJohn Baldwin
3165f5f5f1e7SPeter Grehan /*
3166f5f5f1e7SPeter Grehan * The TSC_AUX MSR must be saved/restored while interrupts
3167f5f5f1e7SPeter Grehan * are disabled so that it is not possible for the guest
3168f5f5f1e7SPeter Grehan * TSC_AUX MSR value to be overwritten by the resume
3169f5f5f1e7SPeter Grehan * portion of the IPI_SUSPEND codepath. This is why the
3170f5f5f1e7SPeter Grehan * transition of this MSR is handled separately from those
3171f5f5f1e7SPeter Grehan * handled by vmx_msr_guest_{enter,exit}(), which are ok to
3172f5f5f1e7SPeter Grehan * be transitioned with preemption disabled but interrupts
3173f5f5f1e7SPeter Grehan * enabled.
3174f5f5f1e7SPeter Grehan *
3175f5f5f1e7SPeter Grehan * These vmx_msr_guest_{enter,exit}_tsc_aux() calls can be
3176f5f5f1e7SPeter Grehan * anywhere in this loop so long as they happen with
3177f5f5f1e7SPeter Grehan * interrupts disabled. This location is chosen for
3178f5f5f1e7SPeter Grehan * simplicity.
3179f5f5f1e7SPeter Grehan */
3180f5f5f1e7SPeter Grehan vmx_msr_guest_enter_tsc_aux(vmx, vcpu);
3181f5f5f1e7SPeter Grehan
318265eefbe4SJohn Baldwin vmx_dr_enter_guest(vmxctx);
318379c59630SNeel Natu
31848e2cbc56SMark Johnston /*
31858e2cbc56SMark Johnston * Mark the EPT as active on this host CPU and invalidate
31868e2cbc56SMark Johnston * EPTP-tagged TLB entries if required.
31878e2cbc56SMark Johnston */
31888e2cbc56SMark Johnston vmx_pmap_activate(vmx, pmap);
31898e2cbc56SMark Johnston
3190869c8d19SJohn Baldwin vmx_run_trace(vcpu);
31918e2cbc56SMark Johnston rc = vmx_enter_guest(vmxctx, vmx, launched);
31928e2cbc56SMark Johnston
31938e2cbc56SMark Johnston vmx_pmap_deactivate(vmx, pmap);
31948e2cbc56SMark Johnston vmx_dr_leave_guest(vmxctx);
3195f5f5f1e7SPeter Grehan vmx_msr_guest_exit_tsc_aux(vmx, vcpu);
3196f5f5f1e7SPeter Grehan
3197b843f9beSJohn Baldwin bare_lgdt(&gdtr);
3198b843f9beSJohn Baldwin lidt(&idtr);
3199b843f9beSJohn Baldwin lldt(ldt_sel);
3200b843f9beSJohn Baldwin
320179c59630SNeel Natu /* Collect some information for VM exit processing */
320279c59630SNeel Natu vmexit->rip = rip = vmcs_guest_rip();
320379c59630SNeel Natu vmexit->inst_length = vmexit_instruction_length();
320479c59630SNeel Natu vmexit->u.vmx.exit_reason = exit_reason = vmcs_exit_reason();
320579c59630SNeel Natu vmexit->u.vmx.exit_qualification = vmcs_exit_qualification();
320679c59630SNeel Natu
32072ce12423SNeel Natu /* Update 'nextrip' */
32081aa51504SJohn Baldwin vcpu->state.nextrip = rip;
32092ce12423SNeel Natu
32100492757cSNeel Natu if (rc == VMX_GUEST_VMEXIT) {
3211869c8d19SJohn Baldwin vmx_exit_handle_nmi(vcpu, vmexit);
321262fbd7c2SNeel Natu enable_intr();
32130492757cSNeel Natu handled = vmx_exit_process(vmx, vcpu, vmexit);
32140492757cSNeel Natu } else {
321562fbd7c2SNeel Natu enable_intr();
321640487465SNeel Natu vmx_exit_inst_error(vmxctx, rc, vmexit);
3217eeefa4e4SNeel Natu }
321862fbd7c2SNeel Natu launched = 1;
3219869c8d19SJohn Baldwin vmx_exit_trace(vcpu, rip, exit_reason, handled);
32202ce12423SNeel Natu rip = vmexit->rip;
3221eeefa4e4SNeel Natu } while (handled);
3222366f6083SPeter Grehan
3223366f6083SPeter Grehan /*
3224366f6083SPeter Grehan * If a VM exit has been handled then the exitcode must be BOGUS
3225366f6083SPeter Grehan * If a VM exit is not handled then the exitcode must not be BOGUS
3226366f6083SPeter Grehan */
3227366f6083SPeter Grehan if ((handled && vmexit->exitcode != VM_EXITCODE_BOGUS) ||
3228366f6083SPeter Grehan (!handled && vmexit->exitcode == VM_EXITCODE_BOGUS)) {
3229366f6083SPeter Grehan panic("Mismatch between handled (%d) and exitcode (%d)",
3230366f6083SPeter Grehan handled, vmexit->exitcode);
3231366f6083SPeter Grehan }
3232366f6083SPeter Grehan
323357e0119eSJohn Baldwin VMX_CTR1(vcpu, "returning from vmx_run: exitcode %d",
32340492757cSNeel Natu vmexit->exitcode);
3235366f6083SPeter Grehan
3236366f6083SPeter Grehan VMCLEAR(vmcs);
323780cb5d84SJohn Baldwin vmx_msr_guest_exit(vcpu);
3238c3498942SNeel Natu
3239366f6083SPeter Grehan return (0);
3240366f6083SPeter Grehan }
3241366f6083SPeter Grehan
3242366f6083SPeter Grehan static void
vmx_vcpu_cleanup(void * vcpui)3243869c8d19SJohn Baldwin vmx_vcpu_cleanup(void *vcpui)
3244366f6083SPeter Grehan {
32451aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
3246366f6083SPeter Grehan
32470f00260cSJohn Baldwin vpid_free(vcpu->state.vpid);
32480f00260cSJohn Baldwin free(vcpu->pir_desc, M_VMX);
32490f00260cSJohn Baldwin free(vcpu->apic_page, M_VMX);
32500f00260cSJohn Baldwin free(vcpu->vmcs, M_VMX);
32511aa51504SJohn Baldwin free(vcpu, M_VMX);
32520f00260cSJohn Baldwin }
325345e51299SNeel Natu
32541aa51504SJohn Baldwin static void
vmx_cleanup(void * vmi)3255869c8d19SJohn Baldwin vmx_cleanup(void *vmi)
32561aa51504SJohn Baldwin {
3257869c8d19SJohn Baldwin struct vmx *vmx = vmi;
32581aa51504SJohn Baldwin
32591aa51504SJohn Baldwin if (virtual_interrupt_delivery)
32601aa51504SJohn Baldwin vm_unmap_mmio(vmx->vm, DEFAULT_APIC_BASE, PAGE_SIZE);
32611aa51504SJohn Baldwin
32620f00260cSJohn Baldwin free(vmx->msr_bitmap, M_VMX);
3263366f6083SPeter Grehan free(vmx, M_VMX);
3264366f6083SPeter Grehan
3265366f6083SPeter Grehan return;
3266366f6083SPeter Grehan }
3267366f6083SPeter Grehan
3268366f6083SPeter Grehan static register_t *
vmxctx_regptr(struct vmxctx * vmxctx,int reg)3269366f6083SPeter Grehan vmxctx_regptr(struct vmxctx *vmxctx, int reg)
3270366f6083SPeter Grehan {
3271366f6083SPeter Grehan
3272366f6083SPeter Grehan switch (reg) {
3273366f6083SPeter Grehan case VM_REG_GUEST_RAX:
3274366f6083SPeter Grehan return (&vmxctx->guest_rax);
3275366f6083SPeter Grehan case VM_REG_GUEST_RBX:
3276366f6083SPeter Grehan return (&vmxctx->guest_rbx);
3277366f6083SPeter Grehan case VM_REG_GUEST_RCX:
3278366f6083SPeter Grehan return (&vmxctx->guest_rcx);
3279366f6083SPeter Grehan case VM_REG_GUEST_RDX:
3280366f6083SPeter Grehan return (&vmxctx->guest_rdx);
3281366f6083SPeter Grehan case VM_REG_GUEST_RSI:
3282366f6083SPeter Grehan return (&vmxctx->guest_rsi);
3283366f6083SPeter Grehan case VM_REG_GUEST_RDI:
3284366f6083SPeter Grehan return (&vmxctx->guest_rdi);
3285366f6083SPeter Grehan case VM_REG_GUEST_RBP:
3286366f6083SPeter Grehan return (&vmxctx->guest_rbp);
3287366f6083SPeter Grehan case VM_REG_GUEST_R8:
3288366f6083SPeter Grehan return (&vmxctx->guest_r8);
3289366f6083SPeter Grehan case VM_REG_GUEST_R9:
3290366f6083SPeter Grehan return (&vmxctx->guest_r9);
3291366f6083SPeter Grehan case VM_REG_GUEST_R10:
3292366f6083SPeter Grehan return (&vmxctx->guest_r10);
3293366f6083SPeter Grehan case VM_REG_GUEST_R11:
3294366f6083SPeter Grehan return (&vmxctx->guest_r11);
3295366f6083SPeter Grehan case VM_REG_GUEST_R12:
3296366f6083SPeter Grehan return (&vmxctx->guest_r12);
3297366f6083SPeter Grehan case VM_REG_GUEST_R13:
3298366f6083SPeter Grehan return (&vmxctx->guest_r13);
3299366f6083SPeter Grehan case VM_REG_GUEST_R14:
3300366f6083SPeter Grehan return (&vmxctx->guest_r14);
3301366f6083SPeter Grehan case VM_REG_GUEST_R15:
3302366f6083SPeter Grehan return (&vmxctx->guest_r15);
330337a723a5SNeel Natu case VM_REG_GUEST_CR2:
330437a723a5SNeel Natu return (&vmxctx->guest_cr2);
330565eefbe4SJohn Baldwin case VM_REG_GUEST_DR0:
330665eefbe4SJohn Baldwin return (&vmxctx->guest_dr0);
330765eefbe4SJohn Baldwin case VM_REG_GUEST_DR1:
330865eefbe4SJohn Baldwin return (&vmxctx->guest_dr1);
330965eefbe4SJohn Baldwin case VM_REG_GUEST_DR2:
331065eefbe4SJohn Baldwin return (&vmxctx->guest_dr2);
331165eefbe4SJohn Baldwin case VM_REG_GUEST_DR3:
331265eefbe4SJohn Baldwin return (&vmxctx->guest_dr3);
331365eefbe4SJohn Baldwin case VM_REG_GUEST_DR6:
331465eefbe4SJohn Baldwin return (&vmxctx->guest_dr6);
3315366f6083SPeter Grehan default:
3316366f6083SPeter Grehan break;
3317366f6083SPeter Grehan }
3318366f6083SPeter Grehan return (NULL);
3319366f6083SPeter Grehan }
3320366f6083SPeter Grehan
3321366f6083SPeter Grehan static int
vmxctx_getreg(struct vmxctx * vmxctx,int reg,uint64_t * retval)3322366f6083SPeter Grehan vmxctx_getreg(struct vmxctx *vmxctx, int reg, uint64_t *retval)
3323366f6083SPeter Grehan {
3324366f6083SPeter Grehan register_t *regp;
3325366f6083SPeter Grehan
3326366f6083SPeter Grehan if ((regp = vmxctx_regptr(vmxctx, reg)) != NULL) {
3327366f6083SPeter Grehan *retval = *regp;
3328366f6083SPeter Grehan return (0);
3329366f6083SPeter Grehan } else
3330366f6083SPeter Grehan return (EINVAL);
3331366f6083SPeter Grehan }
3332366f6083SPeter Grehan
3333366f6083SPeter Grehan static int
vmxctx_setreg(struct vmxctx * vmxctx,int reg,uint64_t val)3334366f6083SPeter Grehan vmxctx_setreg(struct vmxctx *vmxctx, int reg, uint64_t val)
3335366f6083SPeter Grehan {
3336366f6083SPeter Grehan register_t *regp;
3337366f6083SPeter Grehan
3338366f6083SPeter Grehan if ((regp = vmxctx_regptr(vmxctx, reg)) != NULL) {
3339366f6083SPeter Grehan *regp = val;
3340366f6083SPeter Grehan return (0);
3341366f6083SPeter Grehan } else
3342366f6083SPeter Grehan return (EINVAL);
3343366f6083SPeter Grehan }
3344366f6083SPeter Grehan
3345366f6083SPeter Grehan static int
vmx_get_intr_shadow(struct vmx_vcpu * vcpu,int running,uint64_t * retval)33461aa51504SJohn Baldwin vmx_get_intr_shadow(struct vmx_vcpu *vcpu, int running, uint64_t *retval)
3347d1819632SNeel Natu {
3348d1819632SNeel Natu uint64_t gi;
3349d1819632SNeel Natu int error;
3350d1819632SNeel Natu
33511aa51504SJohn Baldwin error = vmcs_getreg(vcpu->vmcs, running,
3352d1819632SNeel Natu VMCS_IDENT(VMCS_GUEST_INTERRUPTIBILITY), &gi);
3353d1819632SNeel Natu *retval = (gi & HWINTR_BLOCKING) ? 1 : 0;
3354d1819632SNeel Natu return (error);
3355d1819632SNeel Natu }
3356d1819632SNeel Natu
3357d1819632SNeel Natu static int
vmx_modify_intr_shadow(struct vmx_vcpu * vcpu,int running,uint64_t val)3358869c8d19SJohn Baldwin vmx_modify_intr_shadow(struct vmx_vcpu *vcpu, int running, uint64_t val)
3359d1819632SNeel Natu {
3360d1819632SNeel Natu struct vmcs *vmcs;
3361d1819632SNeel Natu uint64_t gi;
3362d1819632SNeel Natu int error, ident;
3363d1819632SNeel Natu
3364d1819632SNeel Natu /*
3365d1819632SNeel Natu * Forcing the vcpu into an interrupt shadow is not supported.
3366d1819632SNeel Natu */
3367d1819632SNeel Natu if (val) {
3368d1819632SNeel Natu error = EINVAL;
3369d1819632SNeel Natu goto done;
3370d1819632SNeel Natu }
3371d1819632SNeel Natu
33721aa51504SJohn Baldwin vmcs = vcpu->vmcs;
3373d1819632SNeel Natu ident = VMCS_IDENT(VMCS_GUEST_INTERRUPTIBILITY);
3374d1819632SNeel Natu error = vmcs_getreg(vmcs, running, ident, &gi);
3375d1819632SNeel Natu if (error == 0) {
3376d1819632SNeel Natu gi &= ~HWINTR_BLOCKING;
3377d1819632SNeel Natu error = vmcs_setreg(vmcs, running, ident, gi);
3378d1819632SNeel Natu }
3379d1819632SNeel Natu done:
338057e0119eSJohn Baldwin VMX_CTR2(vcpu, "Setting intr_shadow to %#lx %s", val,
338157e0119eSJohn Baldwin error ? "failed" : "succeeded");
3382d1819632SNeel Natu return (error);
3383d1819632SNeel Natu }
3384d1819632SNeel Natu
3385d1819632SNeel Natu static int
vmx_shadow_reg(int reg)3386aaaa0656SPeter Grehan vmx_shadow_reg(int reg)
3387aaaa0656SPeter Grehan {
3388aaaa0656SPeter Grehan int shreg;
3389aaaa0656SPeter Grehan
3390aaaa0656SPeter Grehan shreg = -1;
3391aaaa0656SPeter Grehan
3392aaaa0656SPeter Grehan switch (reg) {
3393aaaa0656SPeter Grehan case VM_REG_GUEST_CR0:
3394aaaa0656SPeter Grehan shreg = VMCS_CR0_SHADOW;
3395aaaa0656SPeter Grehan break;
3396aaaa0656SPeter Grehan case VM_REG_GUEST_CR4:
3397aaaa0656SPeter Grehan shreg = VMCS_CR4_SHADOW;
3398aaaa0656SPeter Grehan break;
3399aaaa0656SPeter Grehan default:
3400aaaa0656SPeter Grehan break;
3401aaaa0656SPeter Grehan }
3402aaaa0656SPeter Grehan
3403aaaa0656SPeter Grehan return (shreg);
3404aaaa0656SPeter Grehan }
3405aaaa0656SPeter Grehan
3406aaaa0656SPeter Grehan static int
vmx_getreg(void * vcpui,int reg,uint64_t * retval)3407869c8d19SJohn Baldwin vmx_getreg(void *vcpui, int reg, uint64_t *retval)
3408366f6083SPeter Grehan {
3409d3c11f40SPeter Grehan int running, hostcpu;
34101aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
3411869c8d19SJohn Baldwin struct vmx *vmx = vcpu->vmx;
3412366f6083SPeter Grehan
341380cb5d84SJohn Baldwin running = vcpu_is_running(vcpu->vcpu, &hostcpu);
3414d3c11f40SPeter Grehan if (running && hostcpu != curcpu)
34151aa51504SJohn Baldwin panic("vmx_getreg: %s%d is running", vm_name(vmx->vm),
34161aa51504SJohn Baldwin vcpu->vcpuid);
3417d3c11f40SPeter Grehan
3418f493ea65SMark Johnston switch (reg) {
3419f493ea65SMark Johnston case VM_REG_GUEST_INTR_SHADOW:
34201aa51504SJohn Baldwin return (vmx_get_intr_shadow(vcpu, running, retval));
3421f493ea65SMark Johnston case VM_REG_GUEST_KGS_BASE:
3422f493ea65SMark Johnston *retval = vcpu->guest_msrs[IDX_MSR_KGSBASE];
3423f493ea65SMark Johnston return (0);
3424f493ea65SMark Johnston case VM_REG_GUEST_TPR:
3425f493ea65SMark Johnston *retval = vlapic_get_cr8(vm_lapic(vcpu->vcpu));
3426f493ea65SMark Johnston return (0);
3427f493ea65SMark Johnston }
3428d1819632SNeel Natu
34291aa51504SJohn Baldwin if (vmxctx_getreg(&vcpu->ctx, reg, retval) == 0)
3430366f6083SPeter Grehan return (0);
3431366f6083SPeter Grehan
34321aa51504SJohn Baldwin return (vmcs_getreg(vcpu->vmcs, running, reg, retval));
3433366f6083SPeter Grehan }
3434366f6083SPeter Grehan
3435366f6083SPeter Grehan static int
vmx_setreg(void * vcpui,int reg,uint64_t val)3436869c8d19SJohn Baldwin vmx_setreg(void *vcpui, int reg, uint64_t val)
3437366f6083SPeter Grehan {
3438aaaa0656SPeter Grehan int error, hostcpu, running, shadow;
3439366f6083SPeter Grehan uint64_t ctls;
34403527963bSNeel Natu pmap_t pmap;
34411aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
3442869c8d19SJohn Baldwin struct vmx *vmx = vcpu->vmx;
3443366f6083SPeter Grehan
344480cb5d84SJohn Baldwin running = vcpu_is_running(vcpu->vcpu, &hostcpu);
3445d3c11f40SPeter Grehan if (running && hostcpu != curcpu)
34461aa51504SJohn Baldwin panic("vmx_setreg: %s%d is running", vm_name(vmx->vm),
34471aa51504SJohn Baldwin vcpu->vcpuid);
3448d3c11f40SPeter Grehan
3449d1819632SNeel Natu if (reg == VM_REG_GUEST_INTR_SHADOW)
3450869c8d19SJohn Baldwin return (vmx_modify_intr_shadow(vcpu, running, val));
3451d1819632SNeel Natu
34521aa51504SJohn Baldwin if (vmxctx_setreg(&vcpu->ctx, reg, val) == 0)
3453366f6083SPeter Grehan return (0);
3454366f6083SPeter Grehan
345509860d44SEd Maste /* Do not permit user write access to VMCS fields by offset. */
345609860d44SEd Maste if (reg < 0)
345709860d44SEd Maste return (EINVAL);
345809860d44SEd Maste
34591aa51504SJohn Baldwin error = vmcs_setreg(vcpu->vmcs, running, reg, val);
3460366f6083SPeter Grehan
3461366f6083SPeter Grehan if (error == 0) {
3462366f6083SPeter Grehan /*
3463366f6083SPeter Grehan * If the "load EFER" VM-entry control is 1 then the
3464366f6083SPeter Grehan * value of EFER.LMA must be identical to "IA-32e mode guest"
3465366f6083SPeter Grehan * bit in the VM-entry control.
3466366f6083SPeter Grehan */
3467366f6083SPeter Grehan if ((entry_ctls & VM_ENTRY_LOAD_EFER) != 0 &&
3468366f6083SPeter Grehan (reg == VM_REG_GUEST_EFER)) {
34691aa51504SJohn Baldwin vmcs_getreg(vcpu->vmcs, running,
3470366f6083SPeter Grehan VMCS_IDENT(VMCS_ENTRY_CTLS), &ctls);
3471366f6083SPeter Grehan if (val & EFER_LMA)
3472366f6083SPeter Grehan ctls |= VM_ENTRY_GUEST_LMA;
3473366f6083SPeter Grehan else
3474366f6083SPeter Grehan ctls &= ~VM_ENTRY_GUEST_LMA;
34751aa51504SJohn Baldwin vmcs_setreg(vcpu->vmcs, running,
3476366f6083SPeter Grehan VMCS_IDENT(VMCS_ENTRY_CTLS), ctls);
3477366f6083SPeter Grehan }
3478aaaa0656SPeter Grehan
3479aaaa0656SPeter Grehan shadow = vmx_shadow_reg(reg);
3480aaaa0656SPeter Grehan if (shadow > 0) {
3481aaaa0656SPeter Grehan /*
3482aaaa0656SPeter Grehan * Store the unmodified value in the shadow
3483aaaa0656SPeter Grehan */
34841aa51504SJohn Baldwin error = vmcs_setreg(vcpu->vmcs, running,
3485aaaa0656SPeter Grehan VMCS_IDENT(shadow), val);
3486aaaa0656SPeter Grehan }
34873527963bSNeel Natu
34883527963bSNeel Natu if (reg == VM_REG_GUEST_CR3) {
34893527963bSNeel Natu /*
34903527963bSNeel Natu * Invalidate the guest vcpu's TLB mappings to emulate
34913527963bSNeel Natu * the behavior of updating %cr3.
34923527963bSNeel Natu *
34933527963bSNeel Natu * XXX the processor retains global mappings when %cr3
34943527963bSNeel Natu * is updated but vmx_invvpid() does not.
34953527963bSNeel Natu */
34961aa51504SJohn Baldwin pmap = vcpu->ctx.pmap;
34973527963bSNeel Natu vmx_invvpid(vmx, vcpu, pmap, running);
34983527963bSNeel Natu }
3499366f6083SPeter Grehan }
3500366f6083SPeter Grehan
3501366f6083SPeter Grehan return (error);
3502366f6083SPeter Grehan }
3503366f6083SPeter Grehan
3504366f6083SPeter Grehan static int
vmx_getdesc(void * vcpui,int reg,struct seg_desc * desc)3505869c8d19SJohn Baldwin vmx_getdesc(void *vcpui, int reg, struct seg_desc *desc)
3506366f6083SPeter Grehan {
3507ba6f5e23SNeel Natu int hostcpu, running;
35081aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
3509869c8d19SJohn Baldwin struct vmx *vmx = vcpu->vmx;
3510366f6083SPeter Grehan
351180cb5d84SJohn Baldwin running = vcpu_is_running(vcpu->vcpu, &hostcpu);
3512ba6f5e23SNeel Natu if (running && hostcpu != curcpu)
35131aa51504SJohn Baldwin panic("vmx_getdesc: %s%d is running", vm_name(vmx->vm),
35141aa51504SJohn Baldwin vcpu->vcpuid);
3515ba6f5e23SNeel Natu
35161aa51504SJohn Baldwin return (vmcs_getdesc(vcpu->vmcs, running, reg, desc));
3517366f6083SPeter Grehan }
3518366f6083SPeter Grehan
3519366f6083SPeter Grehan static int
vmx_setdesc(void * vcpui,int reg,struct seg_desc * desc)3520869c8d19SJohn Baldwin vmx_setdesc(void *vcpui, int reg, struct seg_desc *desc)
3521366f6083SPeter Grehan {
3522ba6f5e23SNeel Natu int hostcpu, running;
35231aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
3524869c8d19SJohn Baldwin struct vmx *vmx = vcpu->vmx;
3525366f6083SPeter Grehan
352680cb5d84SJohn Baldwin running = vcpu_is_running(vcpu->vcpu, &hostcpu);
3527ba6f5e23SNeel Natu if (running && hostcpu != curcpu)
35281aa51504SJohn Baldwin panic("vmx_setdesc: %s%d is running", vm_name(vmx->vm),
35291aa51504SJohn Baldwin vcpu->vcpuid);
3530ba6f5e23SNeel Natu
35311aa51504SJohn Baldwin return (vmcs_setdesc(vcpu->vmcs, running, reg, desc));
3532366f6083SPeter Grehan }
3533366f6083SPeter Grehan
3534366f6083SPeter Grehan static int
vmx_getcap(void * vcpui,int type,int * retval)3535869c8d19SJohn Baldwin vmx_getcap(void *vcpui, int type, int *retval)
3536366f6083SPeter Grehan {
35371aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
3538366f6083SPeter Grehan int vcap;
3539366f6083SPeter Grehan int ret;
3540366f6083SPeter Grehan
3541366f6083SPeter Grehan ret = ENOENT;
3542366f6083SPeter Grehan
35431aa51504SJohn Baldwin vcap = vcpu->cap.set;
3544366f6083SPeter Grehan
3545366f6083SPeter Grehan switch (type) {
3546366f6083SPeter Grehan case VM_CAP_HALT_EXIT:
3547366f6083SPeter Grehan if (cap_halt_exit)
3548366f6083SPeter Grehan ret = 0;
3549366f6083SPeter Grehan break;
3550366f6083SPeter Grehan case VM_CAP_PAUSE_EXIT:
3551366f6083SPeter Grehan if (cap_pause_exit)
3552366f6083SPeter Grehan ret = 0;
3553366f6083SPeter Grehan break;
3554366f6083SPeter Grehan case VM_CAP_MTRAP_EXIT:
3555366f6083SPeter Grehan if (cap_monitor_trap)
3556366f6083SPeter Grehan ret = 0;
3557366f6083SPeter Grehan break;
3558f5f5f1e7SPeter Grehan case VM_CAP_RDPID:
3559f5f5f1e7SPeter Grehan if (cap_rdpid)
3560f5f5f1e7SPeter Grehan ret = 0;
3561f5f5f1e7SPeter Grehan break;
3562f5f5f1e7SPeter Grehan case VM_CAP_RDTSCP:
3563f5f5f1e7SPeter Grehan if (cap_rdtscp)
3564f5f5f1e7SPeter Grehan ret = 0;
3565f5f5f1e7SPeter Grehan break;
3566366f6083SPeter Grehan case VM_CAP_UNRESTRICTED_GUEST:
3567366f6083SPeter Grehan if (cap_unrestricted_guest)
3568366f6083SPeter Grehan ret = 0;
3569366f6083SPeter Grehan break;
357049cc03daSNeel Natu case VM_CAP_ENABLE_INVPCID:
357149cc03daSNeel Natu if (cap_invpcid)
357249cc03daSNeel Natu ret = 0;
357349cc03daSNeel Natu break;
3574cbd03a9dSJohn Baldwin case VM_CAP_BPT_EXIT:
35750bda8d3eSCorvin Köhne case VM_CAP_IPI_EXIT:
3576cbd03a9dSJohn Baldwin ret = 0;
3577cbd03a9dSJohn Baldwin break;
3578366f6083SPeter Grehan default:
3579366f6083SPeter Grehan break;
3580366f6083SPeter Grehan }
3581366f6083SPeter Grehan
3582366f6083SPeter Grehan if (ret == 0)
3583366f6083SPeter Grehan *retval = (vcap & (1 << type)) ? 1 : 0;
3584366f6083SPeter Grehan
3585366f6083SPeter Grehan return (ret);
3586366f6083SPeter Grehan }
3587366f6083SPeter Grehan
3588366f6083SPeter Grehan static int
vmx_setcap(void * vcpui,int type,int val)3589869c8d19SJohn Baldwin vmx_setcap(void *vcpui, int type, int val)
3590366f6083SPeter Grehan {
35911aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
35921aa51504SJohn Baldwin struct vmcs *vmcs = vcpu->vmcs;
35930bda8d3eSCorvin Köhne struct vlapic *vlapic;
3594366f6083SPeter Grehan uint32_t baseval;
3595366f6083SPeter Grehan uint32_t *pptr;
3596366f6083SPeter Grehan int error;
3597366f6083SPeter Grehan int flag;
3598366f6083SPeter Grehan int reg;
3599366f6083SPeter Grehan int retval;
3600366f6083SPeter Grehan
3601366f6083SPeter Grehan retval = ENOENT;
3602366f6083SPeter Grehan pptr = NULL;
3603366f6083SPeter Grehan
3604366f6083SPeter Grehan switch (type) {
3605366f6083SPeter Grehan case VM_CAP_HALT_EXIT:
3606366f6083SPeter Grehan if (cap_halt_exit) {
3607366f6083SPeter Grehan retval = 0;
36081aa51504SJohn Baldwin pptr = &vcpu->cap.proc_ctls;
3609366f6083SPeter Grehan baseval = *pptr;
3610366f6083SPeter Grehan flag = PROCBASED_HLT_EXITING;
3611366f6083SPeter Grehan reg = VMCS_PRI_PROC_BASED_CTLS;
3612366f6083SPeter Grehan }
3613366f6083SPeter Grehan break;
3614366f6083SPeter Grehan case VM_CAP_MTRAP_EXIT:
3615366f6083SPeter Grehan if (cap_monitor_trap) {
3616366f6083SPeter Grehan retval = 0;
36171aa51504SJohn Baldwin pptr = &vcpu->cap.proc_ctls;
3618366f6083SPeter Grehan baseval = *pptr;
3619366f6083SPeter Grehan flag = PROCBASED_MTF;
3620366f6083SPeter Grehan reg = VMCS_PRI_PROC_BASED_CTLS;
3621366f6083SPeter Grehan }
3622366f6083SPeter Grehan break;
3623366f6083SPeter Grehan case VM_CAP_PAUSE_EXIT:
3624366f6083SPeter Grehan if (cap_pause_exit) {
3625366f6083SPeter Grehan retval = 0;
36261aa51504SJohn Baldwin pptr = &vcpu->cap.proc_ctls;
3627366f6083SPeter Grehan baseval = *pptr;
3628366f6083SPeter Grehan flag = PROCBASED_PAUSE_EXITING;
3629366f6083SPeter Grehan reg = VMCS_PRI_PROC_BASED_CTLS;
3630366f6083SPeter Grehan }
3631366f6083SPeter Grehan break;
3632f5f5f1e7SPeter Grehan case VM_CAP_RDPID:
3633f5f5f1e7SPeter Grehan case VM_CAP_RDTSCP:
3634f5f5f1e7SPeter Grehan if (cap_rdpid || cap_rdtscp)
3635f5f5f1e7SPeter Grehan /*
3636f5f5f1e7SPeter Grehan * Choose not to support enabling/disabling
3637f5f5f1e7SPeter Grehan * RDPID/RDTSCP via libvmmapi since, as per the
363815add60dSPeter Grehan * discussion in vmx_modinit(), RDPID/RDTSCP are
3639f5f5f1e7SPeter Grehan * either always enabled or always disabled.
3640f5f5f1e7SPeter Grehan */
3641f5f5f1e7SPeter Grehan error = EOPNOTSUPP;
3642f5f5f1e7SPeter Grehan break;
3643366f6083SPeter Grehan case VM_CAP_UNRESTRICTED_GUEST:
3644366f6083SPeter Grehan if (cap_unrestricted_guest) {
3645366f6083SPeter Grehan retval = 0;
36461aa51504SJohn Baldwin pptr = &vcpu->cap.proc_ctls2;
364749cc03daSNeel Natu baseval = *pptr;
3648366f6083SPeter Grehan flag = PROCBASED2_UNRESTRICTED_GUEST;
3649366f6083SPeter Grehan reg = VMCS_SEC_PROC_BASED_CTLS;
3650366f6083SPeter Grehan }
3651366f6083SPeter Grehan break;
365249cc03daSNeel Natu case VM_CAP_ENABLE_INVPCID:
365349cc03daSNeel Natu if (cap_invpcid) {
365449cc03daSNeel Natu retval = 0;
36551aa51504SJohn Baldwin pptr = &vcpu->cap.proc_ctls2;
365649cc03daSNeel Natu baseval = *pptr;
365749cc03daSNeel Natu flag = PROCBASED2_ENABLE_INVPCID;
365849cc03daSNeel Natu reg = VMCS_SEC_PROC_BASED_CTLS;
365949cc03daSNeel Natu }
366049cc03daSNeel Natu break;
3661cbd03a9dSJohn Baldwin case VM_CAP_BPT_EXIT:
3662cbd03a9dSJohn Baldwin retval = 0;
3663cbd03a9dSJohn Baldwin
3664cbd03a9dSJohn Baldwin /* Don't change the bitmap if we are tracing all exceptions. */
36651aa51504SJohn Baldwin if (vcpu->cap.exc_bitmap != 0xffffffff) {
36661aa51504SJohn Baldwin pptr = &vcpu->cap.exc_bitmap;
3667cbd03a9dSJohn Baldwin baseval = *pptr;
3668cbd03a9dSJohn Baldwin flag = (1 << IDT_BP);
3669cbd03a9dSJohn Baldwin reg = VMCS_EXCEPTION_BITMAP;
3670cbd03a9dSJohn Baldwin }
3671cbd03a9dSJohn Baldwin break;
36720bda8d3eSCorvin Köhne case VM_CAP_IPI_EXIT:
36730bda8d3eSCorvin Köhne retval = 0;
36740bda8d3eSCorvin Köhne
3675d3956e46SJohn Baldwin vlapic = vm_lapic(vcpu->vcpu);
36760bda8d3eSCorvin Köhne vlapic->ipi_exit = val;
36770bda8d3eSCorvin Köhne break;
3678fefac543SBojan Novković case VM_CAP_MASK_HWINTR:
3679fefac543SBojan Novković retval = 0;
3680fefac543SBojan Novković break;
3681366f6083SPeter Grehan default:
3682366f6083SPeter Grehan break;
3683366f6083SPeter Grehan }
3684366f6083SPeter Grehan
3685cbd03a9dSJohn Baldwin if (retval)
3686cbd03a9dSJohn Baldwin return (retval);
3687cbd03a9dSJohn Baldwin
3688cbd03a9dSJohn Baldwin if (pptr != NULL) {
3689366f6083SPeter Grehan if (val) {
3690366f6083SPeter Grehan baseval |= flag;
3691366f6083SPeter Grehan } else {
3692366f6083SPeter Grehan baseval &= ~flag;
3693366f6083SPeter Grehan }
3694366f6083SPeter Grehan VMPTRLD(vmcs);
3695366f6083SPeter Grehan error = vmwrite(reg, baseval);
3696366f6083SPeter Grehan VMCLEAR(vmcs);
3697366f6083SPeter Grehan
3698cbd03a9dSJohn Baldwin if (error)
3699cbd03a9dSJohn Baldwin return (error);
3700cbd03a9dSJohn Baldwin
3701366f6083SPeter Grehan /*
3702366f6083SPeter Grehan * Update optional stored flags, and record
3703366f6083SPeter Grehan * setting
3704366f6083SPeter Grehan */
3705366f6083SPeter Grehan *pptr = baseval;
3706366f6083SPeter Grehan }
3707366f6083SPeter Grehan
3708366f6083SPeter Grehan if (val) {
37091aa51504SJohn Baldwin vcpu->cap.set |= (1 << type);
3710366f6083SPeter Grehan } else {
37111aa51504SJohn Baldwin vcpu->cap.set &= ~(1 << type);
3712366f6083SPeter Grehan }
3713366f6083SPeter Grehan
3714cbd03a9dSJohn Baldwin return (0);
3715366f6083SPeter Grehan }
3716366f6083SPeter Grehan
371715add60dSPeter Grehan static struct vmspace *
vmx_vmspace_alloc(vm_offset_t min,vm_offset_t max)371815add60dSPeter Grehan vmx_vmspace_alloc(vm_offset_t min, vm_offset_t max)
371915add60dSPeter Grehan {
372015add60dSPeter Grehan return (ept_vmspace_alloc(min, max));
372115add60dSPeter Grehan }
372215add60dSPeter Grehan
372315add60dSPeter Grehan static void
vmx_vmspace_free(struct vmspace * vmspace)372415add60dSPeter Grehan vmx_vmspace_free(struct vmspace *vmspace)
372515add60dSPeter Grehan {
372615add60dSPeter Grehan ept_vmspace_free(vmspace);
372715add60dSPeter Grehan }
372815add60dSPeter Grehan
372988c4b8d1SNeel Natu struct vlapic_vtx {
373088c4b8d1SNeel Natu struct vlapic vlapic;
3731176666c2SNeel Natu struct pir_desc *pir_desc;
37321aa51504SJohn Baldwin struct vmx_vcpu *vcpu;
37332c352febSJohn Baldwin u_int pending_prio;
373488c4b8d1SNeel Natu };
373588c4b8d1SNeel Natu
37362c352febSJohn Baldwin #define VPR_PRIO_BIT(vpr) (1 << ((vpr) >> 4))
37372c352febSJohn Baldwin
3738d030f941SJohn Baldwin #define VMX_CTR_PIR(vlapic, pir_desc, notify, vector, level, msg) \
373988c4b8d1SNeel Natu do { \
3740d030f941SJohn Baldwin VLAPIC_CTR2(vlapic, msg " assert %s-triggered vector %d", \
374188c4b8d1SNeel Natu level ? "level" : "edge", vector); \
3742d030f941SJohn Baldwin VLAPIC_CTR1(vlapic, msg " pir0 0x%016lx", pir_desc->pir[0]); \
3743d030f941SJohn Baldwin VLAPIC_CTR1(vlapic, msg " pir1 0x%016lx", pir_desc->pir[1]); \
3744d030f941SJohn Baldwin VLAPIC_CTR1(vlapic, msg " pir2 0x%016lx", pir_desc->pir[2]); \
3745d030f941SJohn Baldwin VLAPIC_CTR1(vlapic, msg " pir3 0x%016lx", pir_desc->pir[3]); \
3746d030f941SJohn Baldwin VLAPIC_CTR1(vlapic, msg " notify: %s", notify ? "yes" : "no"); \
374788c4b8d1SNeel Natu } while (0)
374888c4b8d1SNeel Natu
374988c4b8d1SNeel Natu /*
375088c4b8d1SNeel Natu * vlapic->ops handlers that utilize the APICv hardware assist described in
375188c4b8d1SNeel Natu * Chapter 29 of the Intel SDM.
375288c4b8d1SNeel Natu */
375388c4b8d1SNeel Natu static int
vmx_set_intr_ready(struct vlapic * vlapic,int vector,bool level)375488c4b8d1SNeel Natu vmx_set_intr_ready(struct vlapic *vlapic, int vector, bool level)
375588c4b8d1SNeel Natu {
375688c4b8d1SNeel Natu struct vlapic_vtx *vlapic_vtx;
375788c4b8d1SNeel Natu struct pir_desc *pir_desc;
375888c4b8d1SNeel Natu uint64_t mask;
37592c352febSJohn Baldwin int idx, notify = 0;
376088c4b8d1SNeel Natu
376188c4b8d1SNeel Natu vlapic_vtx = (struct vlapic_vtx *)vlapic;
3762176666c2SNeel Natu pir_desc = vlapic_vtx->pir_desc;
376388c4b8d1SNeel Natu
376488c4b8d1SNeel Natu /*
376588c4b8d1SNeel Natu * Keep track of interrupt requests in the PIR descriptor. This is
376688c4b8d1SNeel Natu * because the virtual APIC page pointed to by the VMCS cannot be
376788c4b8d1SNeel Natu * modified if the vcpu is running.
376888c4b8d1SNeel Natu */
376988c4b8d1SNeel Natu idx = vector / 64;
377088c4b8d1SNeel Natu mask = 1UL << (vector % 64);
377188c4b8d1SNeel Natu atomic_set_long(&pir_desc->pir[idx], mask);
37722c352febSJohn Baldwin
37732c352febSJohn Baldwin /*
37742c352febSJohn Baldwin * A notification is required whenever the 'pending' bit makes a
37752c352febSJohn Baldwin * transition from 0->1.
37762c352febSJohn Baldwin *
37772c352febSJohn Baldwin * Even if the 'pending' bit is already asserted, notification about
37782c352febSJohn Baldwin * the incoming interrupt may still be necessary. For example, if a
37792c352febSJohn Baldwin * vCPU is HLTed with a high PPR, a low priority interrupt would cause
37802c352febSJohn Baldwin * the 0->1 'pending' transition with a notification, but the vCPU
37812c352febSJohn Baldwin * would ignore the interrupt for the time being. The same vCPU would
37822c352febSJohn Baldwin * need to then be notified if a high-priority interrupt arrived which
37832c352febSJohn Baldwin * satisfied the PPR.
37842c352febSJohn Baldwin *
37852c352febSJohn Baldwin * The priorities of interrupts injected while 'pending' is asserted
37862c352febSJohn Baldwin * are tracked in a custom bitfield 'pending_prio'. Should the
37872c352febSJohn Baldwin * to-be-injected interrupt exceed the priorities already present, the
37882c352febSJohn Baldwin * notification is sent. The priorities recorded in 'pending_prio' are
37892c352febSJohn Baldwin * cleared whenever the 'pending' bit makes another 0->1 transition.
37902c352febSJohn Baldwin */
37912c352febSJohn Baldwin if (atomic_cmpset_long(&pir_desc->pending, 0, 1) != 0) {
37922c352febSJohn Baldwin notify = 1;
37932c352febSJohn Baldwin vlapic_vtx->pending_prio = 0;
37942c352febSJohn Baldwin } else {
37952c352febSJohn Baldwin const u_int old_prio = vlapic_vtx->pending_prio;
37962c352febSJohn Baldwin const u_int prio_bit = VPR_PRIO_BIT(vector & APIC_TPR_INT);
37972c352febSJohn Baldwin
37982c352febSJohn Baldwin if ((old_prio & prio_bit) == 0 && prio_bit > old_prio) {
37992c352febSJohn Baldwin atomic_set_int(&vlapic_vtx->pending_prio, prio_bit);
38002c352febSJohn Baldwin notify = 1;
38012c352febSJohn Baldwin }
38022c352febSJohn Baldwin }
380388c4b8d1SNeel Natu
3804d030f941SJohn Baldwin VMX_CTR_PIR(vlapic, pir_desc, notify, vector, level,
3805d030f941SJohn Baldwin "vmx_set_intr_ready");
380688c4b8d1SNeel Natu return (notify);
380788c4b8d1SNeel Natu }
380888c4b8d1SNeel Natu
380988c4b8d1SNeel Natu static int
vmx_pending_intr(struct vlapic * vlapic,int * vecptr)381088c4b8d1SNeel Natu vmx_pending_intr(struct vlapic *vlapic, int *vecptr)
381188c4b8d1SNeel Natu {
381288c4b8d1SNeel Natu struct vlapic_vtx *vlapic_vtx;
381388c4b8d1SNeel Natu struct pir_desc *pir_desc;
381488c4b8d1SNeel Natu struct LAPIC *lapic;
381588c4b8d1SNeel Natu uint64_t pending, pirval;
38160912408aSVitaliy Gusev uint8_t ppr, vpr, rvi;
38170912408aSVitaliy Gusev struct vm_exit *vmexit;
381888c4b8d1SNeel Natu int i;
381988c4b8d1SNeel Natu
382088c4b8d1SNeel Natu /*
382188c4b8d1SNeel Natu * This function is only expected to be called from the 'HLT' exit
382288c4b8d1SNeel Natu * handler which does not care about the vector that is pending.
382388c4b8d1SNeel Natu */
382488c4b8d1SNeel Natu KASSERT(vecptr == NULL, ("vmx_pending_intr: vecptr must be NULL"));
382588c4b8d1SNeel Natu
382688c4b8d1SNeel Natu vlapic_vtx = (struct vlapic_vtx *)vlapic;
3827176666c2SNeel Natu pir_desc = vlapic_vtx->pir_desc;
38280912408aSVitaliy Gusev lapic = vlapic->apic_page;
382988c4b8d1SNeel Natu
38309e33a616STycho Nightingale /*
38319e33a616STycho Nightingale * While a virtual interrupt may have already been
38329e33a616STycho Nightingale * processed the actual delivery maybe pending the
38339e33a616STycho Nightingale * interruptibility of the guest. Recognize a pending
38349e33a616STycho Nightingale * interrupt by reevaluating virtual interrupts
38350912408aSVitaliy Gusev * following Section 30.2.1 in the Intel SDM Volume 3.
38369e33a616STycho Nightingale */
383780cb5d84SJohn Baldwin vmexit = vm_exitinfo(vlapic->vcpu);
3838490768e2STycho Nightingale KASSERT(vmexit->exitcode == VM_EXITCODE_HLT,
3839490768e2STycho Nightingale ("vmx_pending_intr: exitcode not 'HLT'"));
3840490768e2STycho Nightingale rvi = vmexit->u.hlt.intr_status & APIC_TPR_INT;
38419e33a616STycho Nightingale ppr = lapic->ppr & APIC_TPR_INT;
38420912408aSVitaliy Gusev if (rvi > ppr)
38439e33a616STycho Nightingale return (1);
38449e33a616STycho Nightingale
38450912408aSVitaliy Gusev pending = atomic_load_acq_long(&pir_desc->pending);
38460912408aSVitaliy Gusev if (!pending)
38479e33a616STycho Nightingale return (0);
384888c4b8d1SNeel Natu
384988c4b8d1SNeel Natu /*
385088c4b8d1SNeel Natu * If there is an interrupt pending then it will be recognized only
385188c4b8d1SNeel Natu * if its priority is greater than the processor priority.
385288c4b8d1SNeel Natu *
385388c4b8d1SNeel Natu * Special case: if the processor priority is zero then any pending
385488c4b8d1SNeel Natu * interrupt will be recognized.
385588c4b8d1SNeel Natu */
385688c4b8d1SNeel Natu if (ppr == 0)
385788c4b8d1SNeel Natu return (1);
385888c4b8d1SNeel Natu
3859d030f941SJohn Baldwin VLAPIC_CTR1(vlapic, "HLT with non-zero PPR %d", lapic->ppr);
386088c4b8d1SNeel Natu
38612c352febSJohn Baldwin vpr = 0;
386288c4b8d1SNeel Natu for (i = 3; i >= 0; i--) {
386388c4b8d1SNeel Natu pirval = pir_desc->pir[i];
386488c4b8d1SNeel Natu if (pirval != 0) {
38659e33a616STycho Nightingale vpr = (i * 64 + flsl(pirval) - 1) & APIC_TPR_INT;
38662c352febSJohn Baldwin break;
386788c4b8d1SNeel Natu }
386888c4b8d1SNeel Natu }
38692c352febSJohn Baldwin
38702c352febSJohn Baldwin /*
38712c352febSJohn Baldwin * If the highest-priority pending interrupt falls short of the
38722c352febSJohn Baldwin * processor priority of this vCPU, ensure that 'pending_prio' does not
38732c352febSJohn Baldwin * have any stale bits which would preclude a higher-priority interrupt
38742c352febSJohn Baldwin * from incurring a notification later.
38752c352febSJohn Baldwin */
38762c352febSJohn Baldwin if (vpr <= ppr) {
38772c352febSJohn Baldwin const u_int prio_bit = VPR_PRIO_BIT(vpr);
38782c352febSJohn Baldwin const u_int old = vlapic_vtx->pending_prio;
38792c352febSJohn Baldwin
38802c352febSJohn Baldwin if (old > prio_bit && (old & prio_bit) == 0) {
38812c352febSJohn Baldwin vlapic_vtx->pending_prio = prio_bit;
38822c352febSJohn Baldwin }
388388c4b8d1SNeel Natu return (0);
388488c4b8d1SNeel Natu }
38852c352febSJohn Baldwin return (1);
38862c352febSJohn Baldwin }
388788c4b8d1SNeel Natu
388888c4b8d1SNeel Natu static void
vmx_intr_accepted(struct vlapic * vlapic,int vector)388988c4b8d1SNeel Natu vmx_intr_accepted(struct vlapic *vlapic, int vector)
389088c4b8d1SNeel Natu {
389188c4b8d1SNeel Natu
389288c4b8d1SNeel Natu panic("vmx_intr_accepted: not expected to be called");
389388c4b8d1SNeel Natu }
389488c4b8d1SNeel Natu
3895176666c2SNeel Natu static void
vmx_set_tmr(struct vlapic * vlapic,int vector,bool level)389630b94db8SNeel Natu vmx_set_tmr(struct vlapic *vlapic, int vector, bool level)
389730b94db8SNeel Natu {
389830b94db8SNeel Natu struct vlapic_vtx *vlapic_vtx;
389930b94db8SNeel Natu struct vmcs *vmcs;
390030b94db8SNeel Natu uint64_t mask, val;
390130b94db8SNeel Natu
390230b94db8SNeel Natu KASSERT(vector >= 0 && vector <= 255, ("invalid vector %d", vector));
390380cb5d84SJohn Baldwin KASSERT(!vcpu_is_running(vlapic->vcpu, NULL),
390430b94db8SNeel Natu ("vmx_set_tmr: vcpu cannot be running"));
390530b94db8SNeel Natu
390630b94db8SNeel Natu vlapic_vtx = (struct vlapic_vtx *)vlapic;
39071aa51504SJohn Baldwin vmcs = vlapic_vtx->vcpu->vmcs;
390830b94db8SNeel Natu mask = 1UL << (vector % 64);
390930b94db8SNeel Natu
391030b94db8SNeel Natu VMPTRLD(vmcs);
391130b94db8SNeel Natu val = vmcs_read(VMCS_EOI_EXIT(vector));
391230b94db8SNeel Natu if (level)
391330b94db8SNeel Natu val |= mask;
391430b94db8SNeel Natu else
391530b94db8SNeel Natu val &= ~mask;
391630b94db8SNeel Natu vmcs_write(VMCS_EOI_EXIT(vector), val);
391730b94db8SNeel Natu VMCLEAR(vmcs);
391830b94db8SNeel Natu }
391930b94db8SNeel Natu
392030b94db8SNeel Natu static void
vmx_enable_x2apic_mode_ts(struct vlapic * vlapic)39211bc51badSMichael Reifenberger vmx_enable_x2apic_mode_ts(struct vlapic *vlapic)
39221bc51badSMichael Reifenberger {
39231aa51504SJohn Baldwin struct vlapic_vtx *vlapic_vtx;
39240f00260cSJohn Baldwin struct vmx_vcpu *vcpu;
39251bc51badSMichael Reifenberger struct vmcs *vmcs;
39261bc51badSMichael Reifenberger uint32_t proc_ctls;
39271bc51badSMichael Reifenberger
39281aa51504SJohn Baldwin vlapic_vtx = (struct vlapic_vtx *)vlapic;
39291aa51504SJohn Baldwin vcpu = vlapic_vtx->vcpu;
39300f00260cSJohn Baldwin vmcs = vcpu->vmcs;
39311bc51badSMichael Reifenberger
39320f00260cSJohn Baldwin proc_ctls = vcpu->cap.proc_ctls;
39331bc51badSMichael Reifenberger proc_ctls &= ~PROCBASED_USE_TPR_SHADOW;
39341bc51badSMichael Reifenberger proc_ctls |= PROCBASED_CR8_LOAD_EXITING;
39351bc51badSMichael Reifenberger proc_ctls |= PROCBASED_CR8_STORE_EXITING;
39360f00260cSJohn Baldwin vcpu->cap.proc_ctls = proc_ctls;
39371bc51badSMichael Reifenberger
39381bc51badSMichael Reifenberger VMPTRLD(vmcs);
39391bc51badSMichael Reifenberger vmcs_write(VMCS_PRI_PROC_BASED_CTLS, proc_ctls);
39401bc51badSMichael Reifenberger VMCLEAR(vmcs);
39411bc51badSMichael Reifenberger }
39421bc51badSMichael Reifenberger
39431bc51badSMichael Reifenberger static void
vmx_enable_x2apic_mode_vid(struct vlapic * vlapic)39441bc51badSMichael Reifenberger vmx_enable_x2apic_mode_vid(struct vlapic *vlapic)
3945159dd56fSNeel Natu {
39461aa51504SJohn Baldwin struct vlapic_vtx *vlapic_vtx;
3947159dd56fSNeel Natu struct vmx *vmx;
39480f00260cSJohn Baldwin struct vmx_vcpu *vcpu;
3949159dd56fSNeel Natu struct vmcs *vmcs;
3950159dd56fSNeel Natu uint32_t proc_ctls2;
39511aa51504SJohn Baldwin int error __diagused;
3952159dd56fSNeel Natu
39531aa51504SJohn Baldwin vlapic_vtx = (struct vlapic_vtx *)vlapic;
39541aa51504SJohn Baldwin vcpu = vlapic_vtx->vcpu;
3955869c8d19SJohn Baldwin vmx = vcpu->vmx;
39560f00260cSJohn Baldwin vmcs = vcpu->vmcs;
3957159dd56fSNeel Natu
39580f00260cSJohn Baldwin proc_ctls2 = vcpu->cap.proc_ctls2;
3959159dd56fSNeel Natu KASSERT((proc_ctls2 & PROCBASED2_VIRTUALIZE_APIC_ACCESSES) != 0,
3960159dd56fSNeel Natu ("%s: invalid proc_ctls2 %#x", __func__, proc_ctls2));
3961159dd56fSNeel Natu
3962159dd56fSNeel Natu proc_ctls2 &= ~PROCBASED2_VIRTUALIZE_APIC_ACCESSES;
3963159dd56fSNeel Natu proc_ctls2 |= PROCBASED2_VIRTUALIZE_X2APIC_MODE;
39640f00260cSJohn Baldwin vcpu->cap.proc_ctls2 = proc_ctls2;
3965159dd56fSNeel Natu
3966159dd56fSNeel Natu VMPTRLD(vmcs);
3967159dd56fSNeel Natu vmcs_write(VMCS_SEC_PROC_BASED_CTLS, proc_ctls2);
3968159dd56fSNeel Natu VMCLEAR(vmcs);
3969159dd56fSNeel Natu
3970159dd56fSNeel Natu if (vlapic->vcpuid == 0) {
3971159dd56fSNeel Natu /*
3972159dd56fSNeel Natu * The nested page table mappings are shared by all vcpus
3973159dd56fSNeel Natu * so unmap the APIC access page just once.
3974159dd56fSNeel Natu */
3975159dd56fSNeel Natu error = vm_unmap_mmio(vmx->vm, DEFAULT_APIC_BASE, PAGE_SIZE);
3976159dd56fSNeel Natu KASSERT(error == 0, ("%s: vm_unmap_mmio error %d",
3977159dd56fSNeel Natu __func__, error));
3978159dd56fSNeel Natu
3979159dd56fSNeel Natu /*
3980159dd56fSNeel Natu * The MSR bitmap is shared by all vcpus so modify it only
3981159dd56fSNeel Natu * once in the context of vcpu 0.
3982159dd56fSNeel Natu */
3983159dd56fSNeel Natu error = vmx_allow_x2apic_msrs(vmx);
3984159dd56fSNeel Natu KASSERT(error == 0, ("%s: vmx_allow_x2apic_msrs error %d",
3985159dd56fSNeel Natu __func__, error));
3986159dd56fSNeel Natu }
3987159dd56fSNeel Natu }
3988159dd56fSNeel Natu
3989159dd56fSNeel Natu static void
vmx_post_intr(struct vlapic * vlapic,int hostcpu)3990176666c2SNeel Natu vmx_post_intr(struct vlapic *vlapic, int hostcpu)
3991176666c2SNeel Natu {
3992176666c2SNeel Natu
3993176666c2SNeel Natu ipi_cpu(hostcpu, pirvec);
3994176666c2SNeel Natu }
3995176666c2SNeel Natu
399688c4b8d1SNeel Natu /*
399788c4b8d1SNeel Natu * Transfer the pending interrupts in the PIR descriptor to the IRR
399888c4b8d1SNeel Natu * in the virtual APIC page.
399988c4b8d1SNeel Natu */
400088c4b8d1SNeel Natu static void
vmx_inject_pir(struct vlapic * vlapic)400188c4b8d1SNeel Natu vmx_inject_pir(struct vlapic *vlapic)
400288c4b8d1SNeel Natu {
400388c4b8d1SNeel Natu struct vlapic_vtx *vlapic_vtx;
400488c4b8d1SNeel Natu struct pir_desc *pir_desc;
400588c4b8d1SNeel Natu struct LAPIC *lapic;
400688c4b8d1SNeel Natu uint64_t val, pirval;
40070e30c5c0SWarner Losh int rvi, pirbase = -1;
400888c4b8d1SNeel Natu uint16_t intr_status_old, intr_status_new;
400988c4b8d1SNeel Natu
401088c4b8d1SNeel Natu vlapic_vtx = (struct vlapic_vtx *)vlapic;
4011176666c2SNeel Natu pir_desc = vlapic_vtx->pir_desc;
401288c4b8d1SNeel Natu if (atomic_cmpset_long(&pir_desc->pending, 1, 0) == 0) {
4013d030f941SJohn Baldwin VLAPIC_CTR0(vlapic, "vmx_inject_pir: "
401488c4b8d1SNeel Natu "no posted interrupt pending");
401588c4b8d1SNeel Natu return;
401688c4b8d1SNeel Natu }
401788c4b8d1SNeel Natu
401888c4b8d1SNeel Natu pirval = 0;
4019201b1cccSPeter Grehan pirbase = -1;
402088c4b8d1SNeel Natu lapic = vlapic->apic_page;
402188c4b8d1SNeel Natu
402288c4b8d1SNeel Natu val = atomic_readandclear_long(&pir_desc->pir[0]);
402388c4b8d1SNeel Natu if (val != 0) {
402488c4b8d1SNeel Natu lapic->irr0 |= val;
402588c4b8d1SNeel Natu lapic->irr1 |= val >> 32;
402688c4b8d1SNeel Natu pirbase = 0;
402788c4b8d1SNeel Natu pirval = val;
402888c4b8d1SNeel Natu }
402988c4b8d1SNeel Natu
403088c4b8d1SNeel Natu val = atomic_readandclear_long(&pir_desc->pir[1]);
403188c4b8d1SNeel Natu if (val != 0) {
403288c4b8d1SNeel Natu lapic->irr2 |= val;
403388c4b8d1SNeel Natu lapic->irr3 |= val >> 32;
403488c4b8d1SNeel Natu pirbase = 64;
403588c4b8d1SNeel Natu pirval = val;
403688c4b8d1SNeel Natu }
403788c4b8d1SNeel Natu
403888c4b8d1SNeel Natu val = atomic_readandclear_long(&pir_desc->pir[2]);
403988c4b8d1SNeel Natu if (val != 0) {
404088c4b8d1SNeel Natu lapic->irr4 |= val;
404188c4b8d1SNeel Natu lapic->irr5 |= val >> 32;
404288c4b8d1SNeel Natu pirbase = 128;
404388c4b8d1SNeel Natu pirval = val;
404488c4b8d1SNeel Natu }
404588c4b8d1SNeel Natu
404688c4b8d1SNeel Natu val = atomic_readandclear_long(&pir_desc->pir[3]);
404788c4b8d1SNeel Natu if (val != 0) {
404888c4b8d1SNeel Natu lapic->irr6 |= val;
404988c4b8d1SNeel Natu lapic->irr7 |= val >> 32;
405088c4b8d1SNeel Natu pirbase = 192;
405188c4b8d1SNeel Natu pirval = val;
405288c4b8d1SNeel Natu }
4053201b1cccSPeter Grehan
405488c4b8d1SNeel Natu VLAPIC_CTR_IRR(vlapic, "vmx_inject_pir");
405588c4b8d1SNeel Natu
405688c4b8d1SNeel Natu /*
405788c4b8d1SNeel Natu * Update RVI so the processor can evaluate pending virtual
405888c4b8d1SNeel Natu * interrupts on VM-entry.
4059201b1cccSPeter Grehan *
4060201b1cccSPeter Grehan * It is possible for pirval to be 0 here, even though the
4061201b1cccSPeter Grehan * pending bit has been set. The scenario is:
4062201b1cccSPeter Grehan * CPU-Y is sending a posted interrupt to CPU-X, which
4063201b1cccSPeter Grehan * is running a guest and processing posted interrupts in h/w.
4064201b1cccSPeter Grehan * CPU-X will eventually exit and the state seen in s/w is
4065201b1cccSPeter Grehan * the pending bit set, but no PIR bits set.
4066201b1cccSPeter Grehan *
4067201b1cccSPeter Grehan * CPU-X CPU-Y
4068201b1cccSPeter Grehan * (vm running) (host running)
4069201b1cccSPeter Grehan * rx posted interrupt
4070201b1cccSPeter Grehan * CLEAR pending bit
4071201b1cccSPeter Grehan * SET PIR bit
4072201b1cccSPeter Grehan * READ/CLEAR PIR bits
4073201b1cccSPeter Grehan * SET pending bit
4074201b1cccSPeter Grehan * (vm exit)
4075201b1cccSPeter Grehan * pending bit set, PIR 0
407688c4b8d1SNeel Natu */
407788c4b8d1SNeel Natu if (pirval != 0) {
407888c4b8d1SNeel Natu rvi = pirbase + flsl(pirval) - 1;
407988c4b8d1SNeel Natu intr_status_old = vmcs_read(VMCS_GUEST_INTR_STATUS);
408088c4b8d1SNeel Natu intr_status_new = (intr_status_old & 0xFF00) | rvi;
408188c4b8d1SNeel Natu if (intr_status_new > intr_status_old) {
408288c4b8d1SNeel Natu vmcs_write(VMCS_GUEST_INTR_STATUS, intr_status_new);
4083d030f941SJohn Baldwin VLAPIC_CTR2(vlapic, "vmx_inject_pir: "
408488c4b8d1SNeel Natu "guest_intr_status changed from 0x%04x to 0x%04x",
408588c4b8d1SNeel Natu intr_status_old, intr_status_new);
408688c4b8d1SNeel Natu }
408788c4b8d1SNeel Natu }
408888c4b8d1SNeel Natu }
408988c4b8d1SNeel Natu
4090de5ea6b6SNeel Natu static struct vlapic *
vmx_vlapic_init(void * vcpui)4091869c8d19SJohn Baldwin vmx_vlapic_init(void *vcpui)
4092de5ea6b6SNeel Natu {
4093de5ea6b6SNeel Natu struct vmx *vmx;
40941aa51504SJohn Baldwin struct vmx_vcpu *vcpu;
4095de5ea6b6SNeel Natu struct vlapic *vlapic;
4096176666c2SNeel Natu struct vlapic_vtx *vlapic_vtx;
4097de5ea6b6SNeel Natu
40981aa51504SJohn Baldwin vcpu = vcpui;
4099869c8d19SJohn Baldwin vmx = vcpu->vmx;
4100de5ea6b6SNeel Natu
410188c4b8d1SNeel Natu vlapic = malloc(sizeof(struct vlapic_vtx), M_VLAPIC, M_WAITOK | M_ZERO);
4102de5ea6b6SNeel Natu vlapic->vm = vmx->vm;
4103950af9ffSJohn Baldwin vlapic->vcpu = vcpu->vcpu;
41041aa51504SJohn Baldwin vlapic->vcpuid = vcpu->vcpuid;
41051aa51504SJohn Baldwin vlapic->apic_page = (struct LAPIC *)vcpu->apic_page;
4106de5ea6b6SNeel Natu
4107176666c2SNeel Natu vlapic_vtx = (struct vlapic_vtx *)vlapic;
41081aa51504SJohn Baldwin vlapic_vtx->pir_desc = vcpu->pir_desc;
41091aa51504SJohn Baldwin vlapic_vtx->vcpu = vcpu;
4110176666c2SNeel Natu
41111bc51badSMichael Reifenberger if (tpr_shadowing) {
41121bc51badSMichael Reifenberger vlapic->ops.enable_x2apic_mode = vmx_enable_x2apic_mode_ts;
41131bc51badSMichael Reifenberger }
41141bc51badSMichael Reifenberger
411588c4b8d1SNeel Natu if (virtual_interrupt_delivery) {
411688c4b8d1SNeel Natu vlapic->ops.set_intr_ready = vmx_set_intr_ready;
411788c4b8d1SNeel Natu vlapic->ops.pending_intr = vmx_pending_intr;
411888c4b8d1SNeel Natu vlapic->ops.intr_accepted = vmx_intr_accepted;
411930b94db8SNeel Natu vlapic->ops.set_tmr = vmx_set_tmr;
41201bc51badSMichael Reifenberger vlapic->ops.enable_x2apic_mode = vmx_enable_x2apic_mode_vid;
412188c4b8d1SNeel Natu }
412288c4b8d1SNeel Natu
4123176666c2SNeel Natu if (posted_interrupts)
4124176666c2SNeel Natu vlapic->ops.post_intr = vmx_post_intr;
4125176666c2SNeel Natu
4126de5ea6b6SNeel Natu vlapic_init(vlapic);
4127de5ea6b6SNeel Natu
4128de5ea6b6SNeel Natu return (vlapic);
4129de5ea6b6SNeel Natu }
4130de5ea6b6SNeel Natu
4131de5ea6b6SNeel Natu static void
vmx_vlapic_cleanup(struct vlapic * vlapic)4132869c8d19SJohn Baldwin vmx_vlapic_cleanup(struct vlapic *vlapic)
4133de5ea6b6SNeel Natu {
4134de5ea6b6SNeel Natu
4135de5ea6b6SNeel Natu vlapic_cleanup(vlapic);
4136de5ea6b6SNeel Natu free(vlapic, M_VLAPIC);
4137de5ea6b6SNeel Natu }
4138de5ea6b6SNeel Natu
4139483d953aSJohn Baldwin #ifdef BHYVE_SNAPSHOT
4140483d953aSJohn Baldwin static int
vmx_vcpu_snapshot(void * vcpui,struct vm_snapshot_meta * meta)4141869c8d19SJohn Baldwin vmx_vcpu_snapshot(void *vcpui, struct vm_snapshot_meta *meta)
4142483d953aSJohn Baldwin {
4143483d953aSJohn Baldwin struct vmcs *vmcs;
4144483d953aSJohn Baldwin struct vmx *vmx;
414539ec056eSJohn Baldwin struct vmx_vcpu *vcpu;
414639ec056eSJohn Baldwin struct vmxctx *vmxctx;
4147483d953aSJohn Baldwin int err, run, hostcpu;
4148483d953aSJohn Baldwin
4149483d953aSJohn Baldwin err = 0;
4150869c8d19SJohn Baldwin vcpu = vcpui;
4151869c8d19SJohn Baldwin vmx = vcpu->vmx;
415239ec056eSJohn Baldwin vmcs = vcpu->vmcs;
4153483d953aSJohn Baldwin
415480cb5d84SJohn Baldwin run = vcpu_is_running(vcpu->vcpu, &hostcpu);
4155483d953aSJohn Baldwin if (run && hostcpu != curcpu) {
415639ec056eSJohn Baldwin printf("%s: %s%d is running", __func__, vm_name(vmx->vm),
41571aa51504SJohn Baldwin vcpu->vcpuid);
4158483d953aSJohn Baldwin return (EINVAL);
4159483d953aSJohn Baldwin }
4160483d953aSJohn Baldwin
4161483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_CR0, meta);
4162483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_CR3, meta);
4163483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_CR4, meta);
4164483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_DR7, meta);
4165483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_RSP, meta);
4166483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_RIP, meta);
4167483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_RFLAGS, meta);
4168483d953aSJohn Baldwin
4169483d953aSJohn Baldwin /* Guest segments */
4170483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_ES, meta);
4171483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_ES, meta);
4172483d953aSJohn Baldwin
4173483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_CS, meta);
4174483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_CS, meta);
4175483d953aSJohn Baldwin
4176483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_SS, meta);
4177483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_SS, meta);
4178483d953aSJohn Baldwin
4179483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_DS, meta);
4180483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_DS, meta);
4181483d953aSJohn Baldwin
4182483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_FS, meta);
4183483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_FS, meta);
4184483d953aSJohn Baldwin
4185483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_GS, meta);
4186483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_GS, meta);
4187483d953aSJohn Baldwin
4188483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_TR, meta);
4189483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_TR, meta);
4190483d953aSJohn Baldwin
4191483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_LDTR, meta);
4192483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_LDTR, meta);
4193483d953aSJohn Baldwin
4194483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_EFER, meta);
4195483d953aSJohn Baldwin
4196483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_IDTR, meta);
4197483d953aSJohn Baldwin err += vmcs_snapshot_desc(vmcs, run, VM_REG_GUEST_GDTR, meta);
4198483d953aSJohn Baldwin
4199483d953aSJohn Baldwin /* Guest page tables */
4200483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_PDPTE0, meta);
4201483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_PDPTE1, meta);
4202483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_PDPTE2, meta);
4203483d953aSJohn Baldwin err += vmcs_snapshot_reg(vmcs, run, VM_REG_GUEST_PDPTE3, meta);
4204483d953aSJohn Baldwin
4205483d953aSJohn Baldwin /* Other guest state */
4206483d953aSJohn Baldwin err += vmcs_snapshot_any(vmcs, run, VMCS_GUEST_IA32_SYSENTER_CS, meta);
4207483d953aSJohn Baldwin err += vmcs_snapshot_any(vmcs, run, VMCS_GUEST_IA32_SYSENTER_ESP, meta);
4208483d953aSJohn Baldwin err += vmcs_snapshot_any(vmcs, run, VMCS_GUEST_IA32_SYSENTER_EIP, meta);
4209483d953aSJohn Baldwin err += vmcs_snapshot_any(vmcs, run, VMCS_GUEST_INTERRUPTIBILITY, meta);
4210483d953aSJohn Baldwin err += vmcs_snapshot_any(vmcs, run, VMCS_GUEST_ACTIVITY, meta);
4211483d953aSJohn Baldwin err += vmcs_snapshot_any(vmcs, run, VMCS_ENTRY_CTLS, meta);
4212483d953aSJohn Baldwin err += vmcs_snapshot_any(vmcs, run, VMCS_EXIT_CTLS, meta);
421339ec056eSJohn Baldwin if (err != 0)
421439ec056eSJohn Baldwin goto done;
4215483d953aSJohn Baldwin
421639ec056eSJohn Baldwin SNAPSHOT_BUF_OR_LEAVE(vcpu->guest_msrs,
421739ec056eSJohn Baldwin sizeof(vcpu->guest_msrs), meta, err, done);
421839ec056eSJohn Baldwin
4219c543e09fSVitaliy Gusev SNAPSHOT_BUF_OR_LEAVE(vcpu->pir_desc,
4220c543e09fSVitaliy Gusev sizeof(*vcpu->pir_desc), meta, err, done);
4221c543e09fSVitaliy Gusev
4222683ea4d2SVitaliy Gusev SNAPSHOT_BUF_OR_LEAVE(&vcpu->mtrr,
4223683ea4d2SVitaliy Gusev sizeof(vcpu->mtrr), meta, err, done);
4224683ea4d2SVitaliy Gusev
422539ec056eSJohn Baldwin vmxctx = &vcpu->ctx;
422639ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_rdi, meta, err, done);
422739ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_rsi, meta, err, done);
422839ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_rdx, meta, err, done);
422939ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_rcx, meta, err, done);
423039ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r8, meta, err, done);
423139ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r9, meta, err, done);
423239ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_rax, meta, err, done);
423339ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_rbx, meta, err, done);
423439ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_rbp, meta, err, done);
423539ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r10, meta, err, done);
423639ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r11, meta, err, done);
423739ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r12, meta, err, done);
423839ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r13, meta, err, done);
423939ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r14, meta, err, done);
424039ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_r15, meta, err, done);
424139ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_cr2, meta, err, done);
424239ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_dr0, meta, err, done);
424339ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_dr1, meta, err, done);
424439ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_dr2, meta, err, done);
424539ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_dr3, meta, err, done);
424639ec056eSJohn Baldwin SNAPSHOT_VAR_OR_LEAVE(vmxctx->guest_dr6, meta, err, done);
424739ec056eSJohn Baldwin
424839ec056eSJohn Baldwin done:
4249483d953aSJohn Baldwin return (err);
4250483d953aSJohn Baldwin }
4251483d953aSJohn Baldwin
4252483d953aSJohn Baldwin static int
vmx_restore_tsc(void * vcpui,uint64_t offset)4253869c8d19SJohn Baldwin vmx_restore_tsc(void *vcpui, uint64_t offset)
4254483d953aSJohn Baldwin {
42551aa51504SJohn Baldwin struct vmx_vcpu *vcpu = vcpui;
4256869c8d19SJohn Baldwin struct vmcs *vmcs;
4257869c8d19SJohn Baldwin struct vmx *vmx;
4258483d953aSJohn Baldwin int error, running, hostcpu;
4259483d953aSJohn Baldwin
4260869c8d19SJohn Baldwin vmx = vcpu->vmx;
42611aa51504SJohn Baldwin vmcs = vcpu->vmcs;
4262483d953aSJohn Baldwin
426380cb5d84SJohn Baldwin running = vcpu_is_running(vcpu->vcpu, &hostcpu);
4264483d953aSJohn Baldwin if (running && hostcpu != curcpu) {
42651aa51504SJohn Baldwin printf("%s: %s%d is running", __func__, vm_name(vmx->vm),
42661aa51504SJohn Baldwin vcpu->vcpuid);
4267483d953aSJohn Baldwin return (EINVAL);
4268483d953aSJohn Baldwin }
4269483d953aSJohn Baldwin
4270483d953aSJohn Baldwin if (!running)
4271483d953aSJohn Baldwin VMPTRLD(vmcs);
4272483d953aSJohn Baldwin
427380cb5d84SJohn Baldwin error = vmx_set_tsc_offset(vcpu, offset);
4274483d953aSJohn Baldwin
4275483d953aSJohn Baldwin if (!running)
4276483d953aSJohn Baldwin VMCLEAR(vmcs);
4277483d953aSJohn Baldwin return (error);
4278483d953aSJohn Baldwin }
4279483d953aSJohn Baldwin #endif
4280483d953aSJohn Baldwin
428115add60dSPeter Grehan const struct vmm_ops vmm_ops_intel = {
428215add60dSPeter Grehan .modinit = vmx_modinit,
428315add60dSPeter Grehan .modcleanup = vmx_modcleanup,
42840b32ef71SJoshua Rogers .modsuspend = vmx_modsuspend,
428515add60dSPeter Grehan .modresume = vmx_modresume,
428613a7c4d4SMark Johnston .init = vmx_init,
428715add60dSPeter Grehan .run = vmx_run,
428813a7c4d4SMark Johnston .cleanup = vmx_cleanup,
42891aa51504SJohn Baldwin .vcpu_init = vmx_vcpu_init,
42901aa51504SJohn Baldwin .vcpu_cleanup = vmx_vcpu_cleanup,
429115add60dSPeter Grehan .getreg = vmx_getreg,
429215add60dSPeter Grehan .setreg = vmx_setreg,
429315add60dSPeter Grehan .getdesc = vmx_getdesc,
429415add60dSPeter Grehan .setdesc = vmx_setdesc,
429515add60dSPeter Grehan .getcap = vmx_getcap,
429615add60dSPeter Grehan .setcap = vmx_setcap,
429715add60dSPeter Grehan .vmspace_alloc = vmx_vmspace_alloc,
429815add60dSPeter Grehan .vmspace_free = vmx_vmspace_free,
429913a7c4d4SMark Johnston .vlapic_init = vmx_vlapic_init,
430013a7c4d4SMark Johnston .vlapic_cleanup = vmx_vlapic_cleanup,
4301483d953aSJohn Baldwin #ifdef BHYVE_SNAPSHOT
430239ec056eSJohn Baldwin .vcpu_snapshot = vmx_vcpu_snapshot,
430315add60dSPeter Grehan .restore_tsc = vmx_restore_tsc,
4304483d953aSJohn Baldwin #endif
4305366f6083SPeter Grehan };
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