nvmm/x86/nvmm_x86_svm.c

1.46.4.8  martin /*	$NetBSD: nvmm_x86_svm.c,v 1.46.4.8 2020/08/18 09:29:52 martin Exp $	*/
     1.1    maxv
     1.1    maxv /*
1.46.4.2  martin  * Copyright (c) 2018-2019 The NetBSD Foundation, Inc.
     1.1    maxv  * All rights reserved.
     1.1    maxv  *
     1.1    maxv  * This code is derived from software contributed to The NetBSD Foundation
     1.1    maxv  * by Maxime Villard.
     1.1    maxv  *
     1.1    maxv  * Redistribution and use in source and binary forms, with or without
     1.1    maxv  * modification, are permitted provided that the following conditions
     1.1    maxv  * are met:
     1.1    maxv  * 1. Redistributions of source code must retain the above copyright
     1.1    maxv  *    notice, this list of conditions and the following disclaimer.
     1.1    maxv  * 2. Redistributions in binary form must reproduce the above copyright
     1.1    maxv  *    notice, this list of conditions and the following disclaimer in the
     1.1    maxv  *    documentation and/or other materials provided with the distribution.
     1.1    maxv  *
     1.1    maxv  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
     1.1    maxv  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
     1.1    maxv  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
     1.1    maxv  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
     1.1    maxv  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
     1.1    maxv  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
     1.1    maxv  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
     1.1    maxv  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
     1.1    maxv  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
     1.1    maxv  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
     1.1    maxv  * POSSIBILITY OF SUCH DAMAGE.
     1.1    maxv  */
     1.1    maxv
     1.1    maxv #include <sys/cdefs.h>
1.46.4.8  martin __KERNEL_RCSID(0, "$NetBSD: nvmm_x86_svm.c,v 1.46.4.8 2020/08/18 09:29:52 martin Exp $");
     1.1    maxv
     1.1    maxv #include <sys/param.h>
     1.1    maxv #include <sys/systm.h>
     1.1    maxv #include <sys/kernel.h>
     1.1    maxv #include <sys/kmem.h>
     1.1    maxv #include <sys/cpu.h>
     1.1    maxv #include <sys/xcall.h>
    1.35    maxv #include <sys/mman.h>
     1.1    maxv
     1.1    maxv #include <uvm/uvm.h>
     1.1    maxv #include <uvm/uvm_page.h>
     1.1    maxv
     1.1    maxv #include <x86/cputypes.h>
     1.1    maxv #include <x86/specialreg.h>
     1.1    maxv #include <x86/pmap.h>
     1.1    maxv #include <x86/dbregs.h>
    1.24    maxv #include <x86/cpu_counter.h>
     1.1    maxv #include <machine/cpuvar.h>
     1.1    maxv
     1.1    maxv #include <dev/nvmm/nvmm.h>
     1.1    maxv #include <dev/nvmm/nvmm_internal.h>
     1.1    maxv #include <dev/nvmm/x86/nvmm_x86.h>
     1.1    maxv
     1.1    maxv int svm_vmrun(paddr_t, uint64_t *);
     1.1    maxv
     1.1    maxv #define	MSR_VM_HSAVE_PA	0xC0010117
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
     1.1    maxv #define VMCB_EXITCODE_CR0_READ		0x0000
     1.1    maxv #define VMCB_EXITCODE_CR1_READ		0x0001
     1.1    maxv #define VMCB_EXITCODE_CR2_READ		0x0002
     1.1    maxv #define VMCB_EXITCODE_CR3_READ		0x0003
     1.1    maxv #define VMCB_EXITCODE_CR4_READ		0x0004
     1.1    maxv #define VMCB_EXITCODE_CR5_READ		0x0005
     1.1    maxv #define VMCB_EXITCODE_CR6_READ		0x0006
     1.1    maxv #define VMCB_EXITCODE_CR7_READ		0x0007
     1.1    maxv #define VMCB_EXITCODE_CR8_READ		0x0008
     1.1    maxv #define VMCB_EXITCODE_CR9_READ		0x0009
     1.1    maxv #define VMCB_EXITCODE_CR10_READ		0x000A
     1.1    maxv #define VMCB_EXITCODE_CR11_READ		0x000B
     1.1    maxv #define VMCB_EXITCODE_CR12_READ		0x000C
     1.1    maxv #define VMCB_EXITCODE_CR13_READ		0x000D
     1.1    maxv #define VMCB_EXITCODE_CR14_READ		0x000E
     1.1    maxv #define VMCB_EXITCODE_CR15_READ		0x000F
     1.1    maxv #define VMCB_EXITCODE_CR0_WRITE		0x0010
     1.1    maxv #define VMCB_EXITCODE_CR1_WRITE		0x0011
     1.1    maxv #define VMCB_EXITCODE_CR2_WRITE		0x0012
     1.1    maxv #define VMCB_EXITCODE_CR3_WRITE		0x0013
     1.1    maxv #define VMCB_EXITCODE_CR4_WRITE		0x0014
     1.1    maxv #define VMCB_EXITCODE_CR5_WRITE		0x0015
     1.1    maxv #define VMCB_EXITCODE_CR6_WRITE		0x0016
     1.1    maxv #define VMCB_EXITCODE_CR7_WRITE		0x0017
     1.1    maxv #define VMCB_EXITCODE_CR8_WRITE		0x0018
     1.1    maxv #define VMCB_EXITCODE_CR9_WRITE		0x0019
     1.1    maxv #define VMCB_EXITCODE_CR10_WRITE	0x001A
     1.1    maxv #define VMCB_EXITCODE_CR11_WRITE	0x001B
     1.1    maxv #define VMCB_EXITCODE_CR12_WRITE	0x001C
     1.1    maxv #define VMCB_EXITCODE_CR13_WRITE	0x001D
     1.1    maxv #define VMCB_EXITCODE_CR14_WRITE	0x001E
     1.1    maxv #define VMCB_EXITCODE_CR15_WRITE	0x001F
     1.1    maxv #define VMCB_EXITCODE_DR0_READ		0x0020
     1.1    maxv #define VMCB_EXITCODE_DR1_READ		0x0021
     1.1    maxv #define VMCB_EXITCODE_DR2_READ		0x0022
     1.1    maxv #define VMCB_EXITCODE_DR3_READ		0x0023
     1.1    maxv #define VMCB_EXITCODE_DR4_READ		0x0024
     1.1    maxv #define VMCB_EXITCODE_DR5_READ		0x0025
     1.1    maxv #define VMCB_EXITCODE_DR6_READ		0x0026
     1.1    maxv #define VMCB_EXITCODE_DR7_READ		0x0027
     1.1    maxv #define VMCB_EXITCODE_DR8_READ		0x0028
     1.1    maxv #define VMCB_EXITCODE_DR9_READ		0x0029
     1.1    maxv #define VMCB_EXITCODE_DR10_READ		0x002A
     1.1    maxv #define VMCB_EXITCODE_DR11_READ		0x002B
     1.1    maxv #define VMCB_EXITCODE_DR12_READ		0x002C
     1.1    maxv #define VMCB_EXITCODE_DR13_READ		0x002D
     1.1    maxv #define VMCB_EXITCODE_DR14_READ		0x002E
     1.1    maxv #define VMCB_EXITCODE_DR15_READ		0x002F
     1.1    maxv #define VMCB_EXITCODE_DR0_WRITE		0x0030
     1.1    maxv #define VMCB_EXITCODE_DR1_WRITE		0x0031
     1.1    maxv #define VMCB_EXITCODE_DR2_WRITE		0x0032
     1.1    maxv #define VMCB_EXITCODE_DR3_WRITE		0x0033
     1.1    maxv #define VMCB_EXITCODE_DR4_WRITE		0x0034
     1.1    maxv #define VMCB_EXITCODE_DR5_WRITE		0x0035
     1.1    maxv #define VMCB_EXITCODE_DR6_WRITE		0x0036
     1.1    maxv #define VMCB_EXITCODE_DR7_WRITE		0x0037
     1.1    maxv #define VMCB_EXITCODE_DR8_WRITE		0x0038
     1.1    maxv #define VMCB_EXITCODE_DR9_WRITE		0x0039
     1.1    maxv #define VMCB_EXITCODE_DR10_WRITE	0x003A
     1.1    maxv #define VMCB_EXITCODE_DR11_WRITE	0x003B
     1.1    maxv #define VMCB_EXITCODE_DR12_WRITE	0x003C
     1.1    maxv #define VMCB_EXITCODE_DR13_WRITE	0x003D
     1.1    maxv #define VMCB_EXITCODE_DR14_WRITE	0x003E
     1.1    maxv #define VMCB_EXITCODE_DR15_WRITE	0x003F
     1.1    maxv #define VMCB_EXITCODE_EXCP0		0x0040
     1.1    maxv #define VMCB_EXITCODE_EXCP1		0x0041
     1.1    maxv #define VMCB_EXITCODE_EXCP2		0x0042
     1.1    maxv #define VMCB_EXITCODE_EXCP3		0x0043
     1.1    maxv #define VMCB_EXITCODE_EXCP4		0x0044
     1.1    maxv #define VMCB_EXITCODE_EXCP5		0x0045
     1.1    maxv #define VMCB_EXITCODE_EXCP6		0x0046
     1.1    maxv #define VMCB_EXITCODE_EXCP7		0x0047
     1.1    maxv #define VMCB_EXITCODE_EXCP8		0x0048
     1.1    maxv #define VMCB_EXITCODE_EXCP9		0x0049
     1.1    maxv #define VMCB_EXITCODE_EXCP10		0x004A
     1.1    maxv #define VMCB_EXITCODE_EXCP11		0x004B
     1.1    maxv #define VMCB_EXITCODE_EXCP12		0x004C
     1.1    maxv #define VMCB_EXITCODE_EXCP13		0x004D
     1.1    maxv #define VMCB_EXITCODE_EXCP14		0x004E
     1.1    maxv #define VMCB_EXITCODE_EXCP15		0x004F
     1.1    maxv #define VMCB_EXITCODE_EXCP16		0x0050
     1.1    maxv #define VMCB_EXITCODE_EXCP17		0x0051
     1.1    maxv #define VMCB_EXITCODE_EXCP18		0x0052
     1.1    maxv #define VMCB_EXITCODE_EXCP19		0x0053
     1.1    maxv #define VMCB_EXITCODE_EXCP20		0x0054
     1.1    maxv #define VMCB_EXITCODE_EXCP21		0x0055
     1.1    maxv #define VMCB_EXITCODE_EXCP22		0x0056
     1.1    maxv #define VMCB_EXITCODE_EXCP23		0x0057
     1.1    maxv #define VMCB_EXITCODE_EXCP24		0x0058
     1.1    maxv #define VMCB_EXITCODE_EXCP25		0x0059
     1.1    maxv #define VMCB_EXITCODE_EXCP26		0x005A
     1.1    maxv #define VMCB_EXITCODE_EXCP27		0x005B
     1.1    maxv #define VMCB_EXITCODE_EXCP28		0x005C
     1.1    maxv #define VMCB_EXITCODE_EXCP29		0x005D
     1.1    maxv #define VMCB_EXITCODE_EXCP30		0x005E
     1.1    maxv #define VMCB_EXITCODE_EXCP31		0x005F
     1.1    maxv #define VMCB_EXITCODE_INTR		0x0060
     1.1    maxv #define VMCB_EXITCODE_NMI		0x0061
     1.1    maxv #define VMCB_EXITCODE_SMI		0x0062
     1.1    maxv #define VMCB_EXITCODE_INIT		0x0063
     1.1    maxv #define VMCB_EXITCODE_VINTR		0x0064
     1.1    maxv #define VMCB_EXITCODE_CR0_SEL_WRITE	0x0065
     1.1    maxv #define VMCB_EXITCODE_IDTR_READ		0x0066
     1.1    maxv #define VMCB_EXITCODE_GDTR_READ		0x0067
     1.1    maxv #define VMCB_EXITCODE_LDTR_READ		0x0068
     1.1    maxv #define VMCB_EXITCODE_TR_READ		0x0069
     1.1    maxv #define VMCB_EXITCODE_IDTR_WRITE	0x006A
     1.1    maxv #define VMCB_EXITCODE_GDTR_WRITE	0x006B
     1.1    maxv #define VMCB_EXITCODE_LDTR_WRITE	0x006C
     1.1    maxv #define VMCB_EXITCODE_TR_WRITE		0x006D
     1.1    maxv #define VMCB_EXITCODE_RDTSC		0x006E
     1.1    maxv #define VMCB_EXITCODE_RDPMC		0x006F
     1.1    maxv #define VMCB_EXITCODE_PUSHF		0x0070
     1.1    maxv #define VMCB_EXITCODE_POPF		0x0071
     1.1    maxv #define VMCB_EXITCODE_CPUID		0x0072
     1.1    maxv #define VMCB_EXITCODE_RSM		0x0073
     1.1    maxv #define VMCB_EXITCODE_IRET		0x0074
     1.1    maxv #define VMCB_EXITCODE_SWINT		0x0075
     1.1    maxv #define VMCB_EXITCODE_INVD		0x0076
     1.1    maxv #define VMCB_EXITCODE_PAUSE		0x0077
     1.1    maxv #define VMCB_EXITCODE_HLT		0x0078
     1.1    maxv #define VMCB_EXITCODE_INVLPG		0x0079
     1.1    maxv #define VMCB_EXITCODE_INVLPGA		0x007A
     1.1    maxv #define VMCB_EXITCODE_IOIO		0x007B
     1.1    maxv #define VMCB_EXITCODE_MSR		0x007C
     1.1    maxv #define VMCB_EXITCODE_TASK_SWITCH	0x007D
     1.1    maxv #define VMCB_EXITCODE_FERR_FREEZE	0x007E
     1.1    maxv #define VMCB_EXITCODE_SHUTDOWN		0x007F
     1.1    maxv #define VMCB_EXITCODE_VMRUN		0x0080
     1.1    maxv #define VMCB_EXITCODE_VMMCALL		0x0081
     1.1    maxv #define VMCB_EXITCODE_VMLOAD		0x0082
     1.1    maxv #define VMCB_EXITCODE_VMSAVE		0x0083
     1.1    maxv #define VMCB_EXITCODE_STGI		0x0084
     1.1    maxv #define VMCB_EXITCODE_CLGI		0x0085
     1.1    maxv #define VMCB_EXITCODE_SKINIT		0x0086
     1.1    maxv #define VMCB_EXITCODE_RDTSCP		0x0087
     1.1    maxv #define VMCB_EXITCODE_ICEBP		0x0088
     1.1    maxv #define VMCB_EXITCODE_WBINVD		0x0089
     1.1    maxv #define VMCB_EXITCODE_MONITOR		0x008A
     1.1    maxv #define VMCB_EXITCODE_MWAIT		0x008B
     1.1    maxv #define VMCB_EXITCODE_MWAIT_CONDITIONAL	0x008C
     1.1    maxv #define VMCB_EXITCODE_XSETBV		0x008D
1.46.4.1  martin #define VMCB_EXITCODE_RDPRU		0x008E
     1.1    maxv #define VMCB_EXITCODE_EFER_WRITE_TRAP	0x008F
     1.1    maxv #define VMCB_EXITCODE_CR0_WRITE_TRAP	0x0090
     1.1    maxv #define VMCB_EXITCODE_CR1_WRITE_TRAP	0x0091
     1.1    maxv #define VMCB_EXITCODE_CR2_WRITE_TRAP	0x0092
     1.1    maxv #define VMCB_EXITCODE_CR3_WRITE_TRAP	0x0093
     1.1    maxv #define VMCB_EXITCODE_CR4_WRITE_TRAP	0x0094
     1.1    maxv #define VMCB_EXITCODE_CR5_WRITE_TRAP	0x0095
     1.1    maxv #define VMCB_EXITCODE_CR6_WRITE_TRAP	0x0096
     1.1    maxv #define VMCB_EXITCODE_CR7_WRITE_TRAP	0x0097
     1.1    maxv #define VMCB_EXITCODE_CR8_WRITE_TRAP	0x0098
     1.1    maxv #define VMCB_EXITCODE_CR9_WRITE_TRAP	0x0099
     1.1    maxv #define VMCB_EXITCODE_CR10_WRITE_TRAP	0x009A
     1.1    maxv #define VMCB_EXITCODE_CR11_WRITE_TRAP	0x009B
     1.1    maxv #define VMCB_EXITCODE_CR12_WRITE_TRAP	0x009C
     1.1    maxv #define VMCB_EXITCODE_CR13_WRITE_TRAP	0x009D
     1.1    maxv #define VMCB_EXITCODE_CR14_WRITE_TRAP	0x009E
     1.1    maxv #define VMCB_EXITCODE_CR15_WRITE_TRAP	0x009F
1.46.4.8  martin #define VMCB_EXITCODE_INVLPGB		0x00A0
1.46.4.8  martin #define VMCB_EXITCODE_INVLPGB_ILLEGAL	0x00A1
1.46.4.8  martin #define VMCB_EXITCODE_INVPCID		0x00A2
1.46.4.1  martin #define VMCB_EXITCODE_MCOMMIT		0x00A3
1.46.4.8  martin #define VMCB_EXITCODE_TLBSYNC		0x00A4
     1.1    maxv #define VMCB_EXITCODE_NPF		0x0400
     1.1    maxv #define VMCB_EXITCODE_AVIC_INCOMP_IPI	0x0401
     1.1    maxv #define VMCB_EXITCODE_AVIC_NOACCEL	0x0402
     1.1    maxv #define VMCB_EXITCODE_VMGEXIT		0x0403
1.46.4.8  martin #define VMCB_EXITCODE_BUSY		-2ULL
1.46.4.7  martin #define VMCB_EXITCODE_INVALID		-1ULL
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
     1.1    maxv struct vmcb_ctrl {
     1.1    maxv 	uint32_t intercept_cr;
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RCR(x)	__BIT( 0 + x)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WCR(x)	__BIT(16 + x)
     1.1    maxv
     1.1    maxv 	uint32_t intercept_dr;
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RDR(x)	__BIT( 0 + x)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WDR(x)	__BIT(16 + x)
     1.1    maxv
     1.1    maxv 	uint32_t intercept_vec;
     1.1    maxv #define VMCB_CTRL_INTERCEPT_VEC(x)	__BIT(x)
     1.1    maxv
     1.1    maxv 	uint32_t intercept_misc1;
     1.1    maxv #define VMCB_CTRL_INTERCEPT_INTR	__BIT(0)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_NMI		__BIT(1)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_SMI		__BIT(2)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_INIT	__BIT(3)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_VINTR	__BIT(4)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_CR0_SPEC	__BIT(5)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RIDTR	__BIT(6)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RGDTR	__BIT(7)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RLDTR	__BIT(8)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RTR		__BIT(9)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WIDTR	__BIT(10)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WGDTR	__BIT(11)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WLDTR	__BIT(12)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WTR		__BIT(13)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RDTSC	__BIT(14)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RDPMC	__BIT(15)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_PUSHF	__BIT(16)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_POPF	__BIT(17)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_CPUID	__BIT(18)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RSM		__BIT(19)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_IRET	__BIT(20)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_INTN	__BIT(21)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_INVD	__BIT(22)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_PAUSE	__BIT(23)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_HLT		__BIT(24)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_INVLPG	__BIT(25)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_INVLPGA	__BIT(26)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_IOIO_PROT	__BIT(27)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_MSR_PROT	__BIT(28)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_TASKSW	__BIT(29)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_FERR_FREEZE	__BIT(30)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_SHUTDOWN	__BIT(31)
     1.1    maxv
     1.1    maxv 	uint32_t intercept_misc2;
     1.1    maxv #define VMCB_CTRL_INTERCEPT_VMRUN	__BIT(0)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_VMMCALL	__BIT(1)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_VMLOAD	__BIT(2)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_VMSAVE	__BIT(3)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_STGI	__BIT(4)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_CLGI	__BIT(5)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_SKINIT	__BIT(6)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_RDTSCP	__BIT(7)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_ICEBP	__BIT(8)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WBINVD	__BIT(9)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_MONITOR	__BIT(10)
1.46.4.1  martin #define VMCB_CTRL_INTERCEPT_MWAIT	__BIT(11)
1.46.4.1  martin #define VMCB_CTRL_INTERCEPT_MWAIT_ARMED	__BIT(12)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_XSETBV	__BIT(13)
1.46.4.1  martin #define VMCB_CTRL_INTERCEPT_RDPRU	__BIT(14)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_EFER_SPEC	__BIT(15)
     1.1    maxv #define VMCB_CTRL_INTERCEPT_WCR_SPEC(x)	__BIT(16 + x)
     1.1    maxv
1.46.4.1  martin 	uint32_t intercept_misc3;
1.46.4.8  martin #define VMCB_CTRL_INTERCEPT_INVLPGB_ALL	__BIT(0)
1.46.4.8  martin #define VMCB_CTRL_INTERCEPT_INVLPGB_ILL	__BIT(1)
1.46.4.8  martin #define VMCB_CTRL_INTERCEPT_PCID	__BIT(2)
1.46.4.1  martin #define VMCB_CTRL_INTERCEPT_MCOMMIT	__BIT(3)
1.46.4.8  martin #define VMCB_CTRL_INTERCEPT_TLBSYNC	__BIT(4)
1.46.4.1  martin
1.46.4.1  martin 	uint8_t  rsvd1[36];
     1.1    maxv 	uint16_t pause_filt_thresh;
     1.1    maxv 	uint16_t pause_filt_cnt;
     1.1    maxv 	uint64_t iopm_base_pa;
     1.1    maxv 	uint64_t msrpm_base_pa;
     1.1    maxv 	uint64_t tsc_offset;
     1.1    maxv 	uint32_t guest_asid;
     1.1    maxv
     1.1    maxv 	uint32_t tlb_ctrl;
     1.1    maxv #define VMCB_CTRL_TLB_CTRL_FLUSH_ALL			0x01
     1.1    maxv #define VMCB_CTRL_TLB_CTRL_FLUSH_GUEST			0x03
     1.1    maxv #define VMCB_CTRL_TLB_CTRL_FLUSH_GUEST_NONGLOBAL	0x07
     1.1    maxv
     1.1    maxv 	uint64_t v;
    1.34    maxv #define VMCB_CTRL_V_TPR			__BITS(3,0)
     1.1    maxv #define VMCB_CTRL_V_IRQ			__BIT(8)
     1.1    maxv #define VMCB_CTRL_V_VGIF		__BIT(9)
     1.1    maxv #define VMCB_CTRL_V_INTR_PRIO		__BITS(19,16)
     1.1    maxv #define VMCB_CTRL_V_IGN_TPR		__BIT(20)
     1.1    maxv #define VMCB_CTRL_V_INTR_MASKING	__BIT(24)
     1.1    maxv #define VMCB_CTRL_V_GUEST_VGIF		__BIT(25)
     1.1    maxv #define VMCB_CTRL_V_AVIC_EN		__BIT(31)
     1.1    maxv #define VMCB_CTRL_V_INTR_VECTOR		__BITS(39,32)
     1.1    maxv
     1.1    maxv 	uint64_t intr;
     1.1    maxv #define VMCB_CTRL_INTR_SHADOW		__BIT(0)
1.46.4.8  martin #define VMCB_CTRL_INTR_MASK		__BIT(1)
     1.1    maxv
     1.1    maxv 	uint64_t exitcode;
     1.1    maxv 	uint64_t exitinfo1;
     1.1    maxv 	uint64_t exitinfo2;
     1.1    maxv
     1.1    maxv 	uint64_t exitintinfo;
     1.1    maxv #define VMCB_CTRL_EXITINTINFO_VECTOR	__BITS(7,0)
     1.1    maxv #define VMCB_CTRL_EXITINTINFO_TYPE	__BITS(10,8)
     1.1    maxv #define VMCB_CTRL_EXITINTINFO_EV	__BIT(11)
     1.1    maxv #define VMCB_CTRL_EXITINTINFO_V		__BIT(31)
     1.1    maxv #define VMCB_CTRL_EXITINTINFO_ERRORCODE	__BITS(63,32)
     1.1    maxv
     1.1    maxv 	uint64_t enable1;
     1.1    maxv #define VMCB_CTRL_ENABLE_NP		__BIT(0)
     1.1    maxv #define VMCB_CTRL_ENABLE_SEV		__BIT(1)
     1.1    maxv #define VMCB_CTRL_ENABLE_ES_SEV		__BIT(2)
1.46.4.1  martin #define VMCB_CTRL_ENABLE_GMET		__BIT(3)
1.46.4.1  martin #define VMCB_CTRL_ENABLE_VTE		__BIT(5)
     1.1    maxv
     1.1    maxv 	uint64_t avic;
     1.1    maxv #define VMCB_CTRL_AVIC_APIC_BAR		__BITS(51,0)
     1.1    maxv
     1.1    maxv 	uint64_t ghcb;
     1.1    maxv
     1.1    maxv 	uint64_t eventinj;
     1.1    maxv #define VMCB_CTRL_EVENTINJ_VECTOR	__BITS(7,0)
     1.1    maxv #define VMCB_CTRL_EVENTINJ_TYPE		__BITS(10,8)
     1.1    maxv #define VMCB_CTRL_EVENTINJ_EV		__BIT(11)
     1.1    maxv #define VMCB_CTRL_EVENTINJ_V		__BIT(31)
     1.1    maxv #define VMCB_CTRL_EVENTINJ_ERRORCODE	__BITS(63,32)
     1.1    maxv
     1.1    maxv 	uint64_t n_cr3;
     1.1    maxv
     1.1    maxv 	uint64_t enable2;
     1.1    maxv #define VMCB_CTRL_ENABLE_LBR		__BIT(0)
     1.1    maxv #define VMCB_CTRL_ENABLE_VVMSAVE	__BIT(1)
     1.1    maxv
     1.1    maxv 	uint32_t vmcb_clean;
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_I		__BIT(0)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_IOPM	__BIT(1)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_ASID	__BIT(2)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_TPR	__BIT(3)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_NP		__BIT(4)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_CR		__BIT(5)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_DR		__BIT(6)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_DT		__BIT(7)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_SEG	__BIT(8)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_CR2	__BIT(9)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_LBR	__BIT(10)
     1.1    maxv #define VMCB_CTRL_VMCB_CLEAN_AVIC	__BIT(11)
     1.1    maxv
     1.1    maxv 	uint32_t rsvd2;
     1.1    maxv 	uint64_t nrip;
     1.1    maxv 	uint8_t	inst_len;
     1.1    maxv 	uint8_t	inst_bytes[15];
    1.11    maxv 	uint64_t avic_abpp;
    1.11    maxv 	uint64_t rsvd3;
    1.11    maxv 	uint64_t avic_ltp;
    1.11    maxv
    1.11    maxv 	uint64_t avic_phys;
    1.11    maxv #define VMCB_CTRL_AVIC_PHYS_TABLE_PTR	__BITS(51,12)
    1.11    maxv #define VMCB_CTRL_AVIC_PHYS_MAX_INDEX	__BITS(7,0)
    1.11    maxv
    1.11    maxv 	uint64_t rsvd4;
1.46.4.8  martin 	uint64_t vmsa_ptr;
    1.11    maxv
    1.11    maxv 	uint8_t	pad[752];
     1.1    maxv } __packed;
     1.1    maxv
     1.1    maxv CTASSERT(sizeof(struct vmcb_ctrl) == 1024);
     1.1    maxv
     1.1    maxv struct vmcb_segment {
     1.1    maxv 	uint16_t selector;
     1.1    maxv 	uint16_t attrib;	/* hidden */
     1.1    maxv 	uint32_t limit;		/* hidden */
     1.1    maxv 	uint64_t base;		/* hidden */
     1.1    maxv } __packed;
     1.1    maxv
     1.1    maxv CTASSERT(sizeof(struct vmcb_segment) == 16);
     1.1    maxv
     1.1    maxv struct vmcb_state {
     1.1    maxv 	struct   vmcb_segment es;
     1.1    maxv 	struct   vmcb_segment cs;
     1.1    maxv 	struct   vmcb_segment ss;
     1.1    maxv 	struct   vmcb_segment ds;
     1.1    maxv 	struct   vmcb_segment fs;
     1.1    maxv 	struct   vmcb_segment gs;
     1.1    maxv 	struct   vmcb_segment gdt;
     1.1    maxv 	struct   vmcb_segment ldt;
     1.1    maxv 	struct   vmcb_segment idt;
     1.1    maxv 	struct   vmcb_segment tr;
     1.1    maxv 	uint8_t	 rsvd1[43];
     1.1    maxv 	uint8_t	 cpl;
     1.1    maxv 	uint8_t  rsvd2[4];
     1.1    maxv 	uint64_t efer;
     1.1    maxv 	uint8_t	 rsvd3[112];
     1.1    maxv 	uint64_t cr4;
     1.1    maxv 	uint64_t cr3;
     1.1    maxv 	uint64_t cr0;
     1.1    maxv 	uint64_t dr7;
     1.1    maxv 	uint64_t dr6;
     1.1    maxv 	uint64_t rflags;
     1.1    maxv 	uint64_t rip;
     1.1    maxv 	uint8_t	 rsvd4[88];
     1.1    maxv 	uint64_t rsp;
     1.1    maxv 	uint8_t	 rsvd5[24];
     1.1    maxv 	uint64_t rax;
     1.1    maxv 	uint64_t star;
     1.1    maxv 	uint64_t lstar;
     1.1    maxv 	uint64_t cstar;
     1.1    maxv 	uint64_t sfmask;
     1.1    maxv 	uint64_t kernelgsbase;
     1.1    maxv 	uint64_t sysenter_cs;
     1.1    maxv 	uint64_t sysenter_esp;
     1.1    maxv 	uint64_t sysenter_eip;
     1.1    maxv 	uint64_t cr2;
     1.1    maxv 	uint8_t	 rsvd6[32];
     1.1    maxv 	uint64_t g_pat;
     1.1    maxv 	uint64_t dbgctl;
     1.1    maxv 	uint64_t br_from;
     1.1    maxv 	uint64_t br_to;
     1.1    maxv 	uint64_t int_from;
     1.1    maxv 	uint64_t int_to;
     1.1    maxv 	uint8_t	 pad[2408];
     1.1    maxv } __packed;
     1.1    maxv
     1.1    maxv CTASSERT(sizeof(struct vmcb_state) == 0xC00);
     1.1    maxv
     1.1    maxv struct vmcb {
     1.1    maxv 	struct vmcb_ctrl ctrl;
     1.1    maxv 	struct vmcb_state state;
     1.1    maxv } __packed;
     1.1    maxv
     1.1    maxv CTASSERT(sizeof(struct vmcb) == PAGE_SIZE);
     1.1    maxv CTASSERT(offsetof(struct vmcb, state) == 0x400);
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
    1.43    maxv static void svm_vcpu_state_provide(struct nvmm_cpu *, uint64_t);
    1.43    maxv static void svm_vcpu_state_commit(struct nvmm_cpu *);
    1.43    maxv
     1.1    maxv struct svm_hsave {
     1.1    maxv 	paddr_t pa;
     1.1    maxv };
     1.1    maxv
     1.1    maxv static struct svm_hsave hsave[MAXCPUS];
     1.1    maxv
     1.1    maxv static uint8_t *svm_asidmap __read_mostly;
     1.1    maxv static uint32_t svm_maxasid __read_mostly;
     1.1    maxv static kmutex_t svm_asidlock __cacheline_aligned;
     1.1    maxv
     1.1    maxv static bool svm_decode_assist __read_mostly;
     1.1    maxv static uint32_t svm_ctrl_tlb_flush __read_mostly;
     1.1    maxv
     1.1    maxv #define SVM_XCR0_MASK_DEFAULT	(XCR0_X87|XCR0_SSE)
     1.1    maxv static uint64_t svm_xcr0_mask __read_mostly;
     1.1    maxv
     1.1    maxv #define SVM_NCPUIDS	32
     1.1    maxv
     1.1    maxv #define VMCB_NPAGES	1
     1.1    maxv
     1.1    maxv #define MSRBM_NPAGES	2
     1.1    maxv #define MSRBM_SIZE	(MSRBM_NPAGES * PAGE_SIZE)
     1.1    maxv
     1.1    maxv #define IOBM_NPAGES	3
     1.1    maxv #define IOBM_SIZE	(IOBM_NPAGES * PAGE_SIZE)
     1.1    maxv
     1.1    maxv /* Does not include EFER_LMSLE. */
     1.1    maxv #define EFER_VALID \
     1.1    maxv 	(EFER_SCE|EFER_LME|EFER_LMA|EFER_NXE|EFER_SVME|EFER_FFXSR|EFER_TCE)
     1.1    maxv
     1.1    maxv #define EFER_TLB_FLUSH \
     1.1    maxv 	(EFER_NXE|EFER_LMA|EFER_LME)
     1.1    maxv #define CR0_TLB_FLUSH \
     1.1    maxv 	(CR0_PG|CR0_WP|CR0_CD|CR0_NW)
     1.1    maxv #define CR4_TLB_FLUSH \
     1.1    maxv 	(CR4_PGE|CR4_PAE|CR4_PSE)
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
     1.1    maxv struct svm_machdata {
    1.29    maxv 	volatile uint64_t mach_htlb_gen;
     1.1    maxv };
     1.1    maxv
1.46.4.2  martin static const size_t svm_vcpu_conf_sizes[NVMM_X86_VCPU_NCONF] = {
1.46.4.2  martin 	[NVMM_VCPU_CONF_MD(NVMM_VCPU_CONF_CPUID)] =
1.46.4.2  martin 	    sizeof(struct nvmm_vcpu_conf_cpuid),
1.46.4.2  martin 	[NVMM_VCPU_CONF_MD(NVMM_VCPU_CONF_TPR)] =
1.46.4.2  martin 	    sizeof(struct nvmm_vcpu_conf_tpr)
     1.1    maxv };
     1.1    maxv
     1.1    maxv struct svm_cpudata {
     1.1    maxv 	/* General */
     1.1    maxv 	bool shared_asid;
    1.28    maxv 	bool gtlb_want_flush;
    1.36    maxv 	bool gtsc_want_update;
    1.29    maxv 	uint64_t vcpu_htlb_gen;
     1.1    maxv
     1.1    maxv 	/* VMCB */
     1.1    maxv 	struct vmcb *vmcb;
     1.1    maxv 	paddr_t vmcb_pa;
     1.1    maxv
     1.1    maxv 	/* I/O bitmap */
     1.1    maxv 	uint8_t *iobm;
     1.1    maxv 	paddr_t iobm_pa;
     1.1    maxv
     1.1    maxv 	/* MSR bitmap */
     1.1    maxv 	uint8_t *msrbm;
     1.1    maxv 	paddr_t msrbm_pa;
     1.1    maxv
     1.1    maxv 	/* Host state */
    1.13    maxv 	uint64_t hxcr0;
     1.1    maxv 	uint64_t star;
     1.1    maxv 	uint64_t lstar;
     1.1    maxv 	uint64_t cstar;
     1.1    maxv 	uint64_t sfmask;
    1.14    maxv 	uint64_t fsbase;
    1.14    maxv 	uint64_t kernelgsbase;
     1.1    maxv 	bool ts_set;
    1.16    maxv 	struct xsave_header hfpu __aligned(64);
     1.1    maxv
    1.37    maxv 	/* Intr state */
    1.10    maxv 	bool int_window_exit;
    1.10    maxv 	bool nmi_window_exit;
    1.37    maxv 	bool evt_pending;
    1.10    maxv
     1.1    maxv 	/* Guest state */
    1.13    maxv 	uint64_t gxcr0;
    1.13    maxv 	uint64_t gprs[NVMM_X64_NGPR];
    1.13    maxv 	uint64_t drs[NVMM_X64_NDR];
    1.36    maxv 	uint64_t gtsc;
    1.16    maxv 	struct xsave_header gfpu __aligned(64);
1.46.4.2  martin
1.46.4.2  martin 	/* VCPU configuration. */
1.46.4.2  martin 	bool cpuidpresent[SVM_NCPUIDS];
1.46.4.2  martin 	struct nvmm_vcpu_conf_cpuid cpuid[SVM_NCPUIDS];
     1.1    maxv };
     1.1    maxv
    1.12    maxv static void
    1.12    maxv svm_vmcb_cache_default(struct vmcb *vmcb)
    1.12    maxv {
    1.12    maxv 	vmcb->ctrl.vmcb_clean =
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_I |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_IOPM |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_ASID |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_TPR |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_NP |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_CR |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_DR |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_DT |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_SEG |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_CR2 |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_LBR |
    1.12    maxv 	    VMCB_CTRL_VMCB_CLEAN_AVIC;
    1.12    maxv }
    1.12    maxv
    1.12    maxv static void
    1.12    maxv svm_vmcb_cache_update(struct vmcb *vmcb, uint64_t flags)
    1.12    maxv {
    1.12    maxv 	if (flags & NVMM_X64_STATE_SEGS) {
    1.12    maxv 		vmcb->ctrl.vmcb_clean &=
    1.12    maxv 		    ~(VMCB_CTRL_VMCB_CLEAN_SEG | VMCB_CTRL_VMCB_CLEAN_DT);
    1.12    maxv 	}
    1.12    maxv 	if (flags & NVMM_X64_STATE_CRS) {
    1.12    maxv 		vmcb->ctrl.vmcb_clean &=
    1.13    maxv 		    ~(VMCB_CTRL_VMCB_CLEAN_CR | VMCB_CTRL_VMCB_CLEAN_CR2 |
    1.13    maxv 		      VMCB_CTRL_VMCB_CLEAN_TPR);
    1.12    maxv 	}
    1.12    maxv 	if (flags & NVMM_X64_STATE_DRS) {
    1.12    maxv 		vmcb->ctrl.vmcb_clean &= ~VMCB_CTRL_VMCB_CLEAN_DR;
    1.12    maxv 	}
    1.12    maxv 	if (flags & NVMM_X64_STATE_MSRS) {
    1.12    maxv 		/* CR for EFER, NP for PAT. */
    1.12    maxv 		vmcb->ctrl.vmcb_clean &=
    1.12    maxv 		    ~(VMCB_CTRL_VMCB_CLEAN_CR | VMCB_CTRL_VMCB_CLEAN_NP);
    1.12    maxv 	}
    1.12    maxv }
    1.12    maxv
    1.12    maxv static inline void
    1.12    maxv svm_vmcb_cache_flush(struct vmcb *vmcb, uint64_t flags)
    1.12    maxv {
    1.12    maxv 	vmcb->ctrl.vmcb_clean &= ~flags;
    1.12    maxv }
    1.12    maxv
    1.12    maxv static inline void
    1.12    maxv svm_vmcb_cache_flush_all(struct vmcb *vmcb)
    1.12    maxv {
    1.12    maxv 	vmcb->ctrl.vmcb_clean = 0;
    1.12    maxv }
    1.12    maxv
     1.1    maxv #define SVM_EVENT_TYPE_HW_INT	0
     1.1    maxv #define SVM_EVENT_TYPE_NMI	2
     1.1    maxv #define SVM_EVENT_TYPE_EXC	3
     1.1    maxv #define SVM_EVENT_TYPE_SW_INT	4
     1.1    maxv
     1.1    maxv static void
    1.10    maxv svm_event_waitexit_enable(struct nvmm_cpu *vcpu, bool nmi)
     1.1    maxv {
    1.10    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.10    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.10    maxv
     1.1    maxv 	if (nmi) {
     1.1    maxv 		vmcb->ctrl.intercept_misc1 |= VMCB_CTRL_INTERCEPT_IRET;
    1.10    maxv 		cpudata->nmi_window_exit = true;
     1.1    maxv 	} else {
     1.1    maxv 		vmcb->ctrl.intercept_misc1 |= VMCB_CTRL_INTERCEPT_VINTR;
    1.10    maxv 		vmcb->ctrl.v |= (VMCB_CTRL_V_IRQ | VMCB_CTRL_V_IGN_TPR);
    1.12    maxv 		svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_TPR);
    1.10    maxv 		cpudata->int_window_exit = true;
     1.1    maxv 	}
    1.12    maxv
    1.12    maxv 	svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_I);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
    1.10    maxv svm_event_waitexit_disable(struct nvmm_cpu *vcpu, bool nmi)
     1.1    maxv {
    1.10    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.10    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.10    maxv
     1.1    maxv 	if (nmi) {
     1.1    maxv 		vmcb->ctrl.intercept_misc1 &= ~VMCB_CTRL_INTERCEPT_IRET;
    1.10    maxv 		cpudata->nmi_window_exit = false;
     1.1    maxv 	} else {
     1.1    maxv 		vmcb->ctrl.intercept_misc1 &= ~VMCB_CTRL_INTERCEPT_VINTR;
    1.10    maxv 		vmcb->ctrl.v &= ~(VMCB_CTRL_V_IRQ | VMCB_CTRL_V_IGN_TPR);
    1.12    maxv 		svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_TPR);
    1.10    maxv 		cpudata->int_window_exit = false;
     1.1    maxv 	}
    1.12    maxv
    1.12    maxv 	svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_I);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static inline int
1.46.4.2  martin svm_event_has_error(uint8_t vector)
     1.1    maxv {
     1.1    maxv 	switch (vector) {
     1.1    maxv 	case 8:		/* #DF */
     1.1    maxv 	case 10:	/* #TS */
     1.1    maxv 	case 11:	/* #NP */
     1.1    maxv 	case 12:	/* #SS */
     1.1    maxv 	case 13:	/* #GP */
     1.1    maxv 	case 14:	/* #PF */
     1.1    maxv 	case 17:	/* #AC */
     1.1    maxv 	case 30:	/* #SX */
     1.1    maxv 		return 1;
     1.1    maxv 	default:
     1.1    maxv 		return 0;
     1.1    maxv 	}
     1.1    maxv }
     1.1    maxv
     1.1    maxv static int
    1.45    maxv svm_vcpu_inject(struct nvmm_cpu *vcpu)
     1.1    maxv {
    1.45    maxv 	struct nvmm_comm_page *comm = vcpu->comm;
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv 	struct vmcb *vmcb = cpudata->vmcb;
1.46.4.2  martin 	u_int evtype;
1.46.4.2  martin 	uint8_t vector;
1.46.4.2  martin 	uint64_t error;
     1.1    maxv 	int type = 0, err = 0;
     1.1    maxv
    1.45    maxv 	evtype = comm->event.type;
    1.45    maxv 	vector = comm->event.vector;
1.46.4.2  martin 	error = comm->event.u.excp.error;
    1.45    maxv 	__insn_barrier();
    1.45    maxv
    1.45    maxv 	switch (evtype) {
1.46.4.2  martin 	case NVMM_VCPU_EVENT_EXCP:
     1.1    maxv 		type = SVM_EVENT_TYPE_EXC;
    1.45    maxv 		if (vector == 2 || vector >= 32)
     1.1    maxv 			return EINVAL;
    1.45    maxv 		if (vector == 3 || vector == 0)
    1.22    maxv 			return EINVAL;
    1.45    maxv 		err = svm_event_has_error(vector);
     1.1    maxv 		break;
1.46.4.2  martin 	case NVMM_VCPU_EVENT_INTR:
1.46.4.2  martin 		type = SVM_EVENT_TYPE_HW_INT;
1.46.4.2  martin 		if (vector == 2) {
1.46.4.2  martin 			type = SVM_EVENT_TYPE_NMI;
1.46.4.2  martin 			svm_event_waitexit_enable(vcpu, true);
1.46.4.2  martin 		}
1.46.4.2  martin 		err = 0;
1.46.4.2  martin 		break;
     1.1    maxv 	default:
     1.1    maxv 		return EINVAL;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	vmcb->ctrl.eventinj =
1.46.4.2  martin 	    __SHIFTIN((uint64_t)vector, VMCB_CTRL_EVENTINJ_VECTOR) |
1.46.4.2  martin 	    __SHIFTIN((uint64_t)type, VMCB_CTRL_EVENTINJ_TYPE) |
1.46.4.2  martin 	    __SHIFTIN((uint64_t)err, VMCB_CTRL_EVENTINJ_EV) |
1.46.4.2  martin 	    __SHIFTIN((uint64_t)1, VMCB_CTRL_EVENTINJ_V) |
1.46.4.2  martin 	    __SHIFTIN((uint64_t)error, VMCB_CTRL_EVENTINJ_ERRORCODE);
     1.1    maxv
    1.37    maxv 	cpudata->evt_pending = true;
    1.37    maxv
     1.1    maxv 	return 0;
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
    1.45    maxv svm_inject_ud(struct nvmm_cpu *vcpu)
     1.1    maxv {
    1.45    maxv 	struct nvmm_comm_page *comm = vcpu->comm;
     1.1    maxv 	int ret __diagused;
     1.1    maxv
1.46.4.2  martin 	comm->event.type = NVMM_VCPU_EVENT_EXCP;
    1.45    maxv 	comm->event.vector = 6;
1.46.4.2  martin 	comm->event.u.excp.error = 0;
     1.1    maxv
    1.45    maxv 	ret = svm_vcpu_inject(vcpu);
     1.1    maxv 	KASSERT(ret == 0);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
    1.45    maxv svm_inject_gp(struct nvmm_cpu *vcpu)
     1.1    maxv {
    1.45    maxv 	struct nvmm_comm_page *comm = vcpu->comm;
     1.1    maxv 	int ret __diagused;
     1.1    maxv
1.46.4.2  martin 	comm->event.type = NVMM_VCPU_EVENT_EXCP;
    1.45    maxv 	comm->event.vector = 13;
1.46.4.2  martin 	comm->event.u.excp.error = 0;
     1.1    maxv
    1.45    maxv 	ret = svm_vcpu_inject(vcpu);
     1.1    maxv 	KASSERT(ret == 0);
     1.1    maxv }
     1.1    maxv
    1.45    maxv static inline int
    1.45    maxv svm_vcpu_event_commit(struct nvmm_cpu *vcpu)
    1.45    maxv {
    1.45    maxv 	if (__predict_true(!vcpu->comm->event_commit)) {
    1.45    maxv 		return 0;
    1.45    maxv 	}
    1.45    maxv 	vcpu->comm->event_commit = false;
    1.45    maxv 	return svm_vcpu_inject(vcpu);
    1.45    maxv }
    1.45    maxv
    1.17    maxv static inline void
    1.17    maxv svm_inkernel_advance(struct vmcb *vmcb)
     1.1    maxv {
    1.17    maxv 	/*
    1.17    maxv 	 * Maybe we should also apply single-stepping and debug exceptions.
    1.17    maxv 	 * Matters for guest-ring3, because it can execute 'cpuid' under a
    1.17    maxv 	 * debugger.
    1.17    maxv 	 */
    1.17    maxv 	vmcb->state.rip = vmcb->ctrl.nrip;
    1.17    maxv 	vmcb->ctrl.intr &= ~VMCB_CTRL_INTR_SHADOW;
     1.1    maxv }
     1.1    maxv
1.46.4.5  martin #define SVM_CPUID_MAX_HYPERVISOR	0x40000000
1.46.4.5  martin
     1.1    maxv static void
     1.1    maxv svm_inkernel_handle_cpuid(struct nvmm_cpu *vcpu, uint64_t eax, uint64_t ecx)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.25    maxv 	uint64_t cr4;
     1.1    maxv
     1.1    maxv 	switch (eax) {
    1.25    maxv 	case 0x00000001:
    1.33    maxv 		cpudata->vmcb->state.rax &= nvmm_cpuid_00000001.eax;
    1.33    maxv
    1.13    maxv 		cpudata->gprs[NVMM_X64_GPR_RBX] &= ~CPUID_LOCAL_APIC_ID;
    1.13    maxv 		cpudata->gprs[NVMM_X64_GPR_RBX] |= __SHIFTIN(vcpu->cpuid,
     1.1    maxv 		    CPUID_LOCAL_APIC_ID);
    1.25    maxv
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RCX] &= nvmm_cpuid_00000001.ecx;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RCX] |= CPUID2_RAZ;
    1.33    maxv
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RDX] &= nvmm_cpuid_00000001.edx;
    1.33    maxv
    1.25    maxv 		/* CPUID2_OSXSAVE depends on CR4. */
    1.25    maxv 		cr4 = cpudata->vmcb->state.cr4;
    1.25    maxv 		if (!(cr4 & CR4_OSXSAVE)) {
    1.25    maxv 			cpudata->gprs[NVMM_X64_GPR_RCX] &= ~CPUID2_OSXSAVE;
    1.25    maxv 		}
     1.1    maxv 		break;
1.46.4.5  martin 	case 0x00000002: /* Empty */
1.46.4.5  martin 	case 0x00000003: /* Empty */
1.46.4.5  martin 	case 0x00000004: /* Empty */
1.46.4.5  martin 	case 0x00000005: /* Monitor/MWait */
1.46.4.5  martin 	case 0x00000006: /* Power Management Related Features */
    1.33    maxv 		cpudata->vmcb->state.rax = 0;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RBX] = 0;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RCX] = 0;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RDX] = 0;
    1.33    maxv 		break;
1.46.4.5  martin 	case 0x00000007: /* Structured Extended Features */
    1.33    maxv 		cpudata->vmcb->state.rax &= nvmm_cpuid_00000007.eax;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RBX] &= nvmm_cpuid_00000007.ebx;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RCX] &= nvmm_cpuid_00000007.ecx;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RDX] &= nvmm_cpuid_00000007.edx;
    1.33    maxv 		break;
1.46.4.5  martin 	case 0x00000008: /* Empty */
1.46.4.5  martin 	case 0x00000009: /* Empty */
1.46.4.5  martin 	case 0x0000000A: /* Empty */
1.46.4.5  martin 	case 0x0000000B: /* Empty */
1.46.4.5  martin 	case 0x0000000C: /* Empty */
1.46.4.5  martin 		cpudata->vmcb->state.rax = 0;
1.46.4.5  martin 		cpudata->gprs[NVMM_X64_GPR_RBX] = 0;
1.46.4.5  martin 		cpudata->gprs[NVMM_X64_GPR_RCX] = 0;
1.46.4.5  martin 		cpudata->gprs[NVMM_X64_GPR_RDX] = 0;
1.46.4.5  martin 		break;
1.46.4.5  martin 	case 0x0000000D: /* Processor Extended State Enumeration */
    1.25    maxv 		if (svm_xcr0_mask == 0) {
     1.1    maxv 			break;
     1.1    maxv 		}
    1.25    maxv 		switch (ecx) {
    1.25    maxv 		case 0:
    1.26    maxv 			cpudata->vmcb->state.rax = svm_xcr0_mask & 0xFFFFFFFF;
    1.25    maxv 			if (cpudata->gxcr0 & XCR0_SSE) {
    1.25    maxv 				cpudata->gprs[NVMM_X64_GPR_RBX] = sizeof(struct fxsave);
    1.25    maxv 			} else {
    1.25    maxv 				cpudata->gprs[NVMM_X64_GPR_RBX] = sizeof(struct save87);
    1.25    maxv 			}
    1.25    maxv 			cpudata->gprs[NVMM_X64_GPR_RBX] += 64; /* XSAVE header */
    1.39    maxv 			cpudata->gprs[NVMM_X64_GPR_RCX] = sizeof(struct fxsave) + 64;
    1.25    maxv 			cpudata->gprs[NVMM_X64_GPR_RDX] = svm_xcr0_mask >> 32;
    1.25    maxv 			break;
    1.25    maxv 		case 1:
1.46.4.3  martin 			cpudata->vmcb->state.rax &=
1.46.4.3  martin 			    (CPUID_PES1_XSAVEOPT | CPUID_PES1_XSAVEC |
1.46.4.3  martin 			     CPUID_PES1_XGETBV);
1.46.4.3  martin 			cpudata->gprs[NVMM_X64_GPR_RBX] = 0;
1.46.4.3  martin 			cpudata->gprs[NVMM_X64_GPR_RCX] = 0;
1.46.4.3  martin 			cpudata->gprs[NVMM_X64_GPR_RDX] = 0;
1.46.4.3  martin 			break;
1.46.4.3  martin 		default:
1.46.4.3  martin 			cpudata->vmcb->state.rax = 0;
1.46.4.3  martin 			cpudata->gprs[NVMM_X64_GPR_RBX] = 0;
1.46.4.3  martin 			cpudata->gprs[NVMM_X64_GPR_RCX] = 0;
1.46.4.3  martin 			cpudata->gprs[NVMM_X64_GPR_RDX] = 0;
    1.25    maxv 			break;
     1.1    maxv 		}
     1.1    maxv 		break;
1.46.4.5  martin
1.46.4.5  martin 	case 0x40000000: /* Hypervisor Information */
1.46.4.5  martin 		cpudata->vmcb->state.rax = SVM_CPUID_MAX_HYPERVISOR;
    1.16    maxv 		cpudata->gprs[NVMM_X64_GPR_RBX] = 0;
    1.16    maxv 		cpudata->gprs[NVMM_X64_GPR_RCX] = 0;
    1.16    maxv 		cpudata->gprs[NVMM_X64_GPR_RDX] = 0;
    1.13    maxv 		memcpy(&cpudata->gprs[NVMM_X64_GPR_RBX], "___ ", 4);
    1.13    maxv 		memcpy(&cpudata->gprs[NVMM_X64_GPR_RCX], "NVMM", 4);
    1.13    maxv 		memcpy(&cpudata->gprs[NVMM_X64_GPR_RDX], " ___", 4);
    1.10    maxv 		break;
1.46.4.5  martin
    1.25    maxv 	case 0x80000001:
    1.33    maxv 		cpudata->vmcb->state.rax &= nvmm_cpuid_80000001.eax;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RBX] &= nvmm_cpuid_80000001.ebx;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RCX] &= nvmm_cpuid_80000001.ecx;
    1.33    maxv 		cpudata->gprs[NVMM_X64_GPR_RDX] &= nvmm_cpuid_80000001.edx;
    1.10    maxv 		break;
     1.1    maxv 	default:
     1.1    maxv 		break;
     1.1    maxv 	}
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
1.46.4.2  martin svm_exit_insn(struct vmcb *vmcb, struct nvmm_vcpu_exit *exit, uint64_t reason)
1.46.4.2  martin {
1.46.4.2  martin 	exit->u.insn.npc = vmcb->ctrl.nrip;
1.46.4.2  martin 	exit->reason = reason;
1.46.4.2  martin }
1.46.4.2  martin
1.46.4.2  martin static void
     1.1    maxv svm_exit_cpuid(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
1.46.4.2  martin 	struct nvmm_vcpu_conf_cpuid *cpuid;
     1.1    maxv 	uint64_t eax, ecx;
     1.1    maxv 	u_int descs[4];
     1.1    maxv 	size_t i;
     1.1    maxv
     1.1    maxv 	eax = cpudata->vmcb->state.rax;
    1.13    maxv 	ecx = cpudata->gprs[NVMM_X64_GPR_RCX];
     1.1    maxv 	x86_cpuid2(eax, ecx, descs);
     1.1    maxv
     1.1    maxv 	cpudata->vmcb->state.rax = descs[0];
    1.13    maxv 	cpudata->gprs[NVMM_X64_GPR_RBX] = descs[1];
    1.13    maxv 	cpudata->gprs[NVMM_X64_GPR_RCX] = descs[2];
    1.13    maxv 	cpudata->gprs[NVMM_X64_GPR_RDX] = descs[3];
     1.1    maxv
    1.38    maxv 	svm_inkernel_handle_cpuid(vcpu, eax, ecx);
    1.38    maxv
     1.1    maxv 	for (i = 0; i < SVM_NCPUIDS; i++) {
1.46.4.2  martin 		if (!cpudata->cpuidpresent[i]) {
     1.1    maxv 			continue;
     1.1    maxv 		}
1.46.4.2  martin 		cpuid = &cpudata->cpuid[i];
     1.1    maxv 		if (cpuid->leaf != eax) {
     1.1    maxv 			continue;
     1.1    maxv 		}
     1.1    maxv
1.46.4.2  martin 		if (cpuid->exit) {
1.46.4.2  martin 			svm_exit_insn(cpudata->vmcb, exit, NVMM_VCPU_EXIT_CPUID);
1.46.4.2  martin 			return;
1.46.4.2  martin 		}
1.46.4.2  martin 		KASSERT(cpuid->mask);
1.46.4.2  martin
     1.1    maxv 		/* del */
1.46.4.2  martin 		cpudata->vmcb->state.rax &= ~cpuid->u.mask.del.eax;
1.46.4.2  martin 		cpudata->gprs[NVMM_X64_GPR_RBX] &= ~cpuid->u.mask.del.ebx;
1.46.4.2  martin 		cpudata->gprs[NVMM_X64_GPR_RCX] &= ~cpuid->u.mask.del.ecx;
1.46.4.2  martin 		cpudata->gprs[NVMM_X64_GPR_RDX] &= ~cpuid->u.mask.del.edx;
     1.1    maxv
     1.1    maxv 		/* set */
1.46.4.2  martin 		cpudata->vmcb->state.rax |= cpuid->u.mask.set.eax;
1.46.4.2  martin 		cpudata->gprs[NVMM_X64_GPR_RBX] |= cpuid->u.mask.set.ebx;
1.46.4.2  martin 		cpudata->gprs[NVMM_X64_GPR_RCX] |= cpuid->u.mask.set.ecx;
1.46.4.2  martin 		cpudata->gprs[NVMM_X64_GPR_RDX] |= cpuid->u.mask.set.edx;
     1.1    maxv
     1.1    maxv 		break;
     1.1    maxv 	}
     1.1    maxv
    1.17    maxv 	svm_inkernel_advance(cpudata->vmcb);
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_NONE;
     1.1    maxv }
     1.1    maxv
    1.10    maxv static void
    1.10    maxv svm_exit_hlt(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
    1.10    maxv {
    1.10    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.17    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.10    maxv
    1.17    maxv 	if (cpudata->int_window_exit && (vmcb->state.rflags & PSL_I)) {
    1.17    maxv 		svm_event_waitexit_disable(vcpu, false);
    1.17    maxv 	}
    1.17    maxv
    1.17    maxv 	svm_inkernel_advance(cpudata->vmcb);
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_HALTED;
    1.10    maxv }
    1.10    maxv
     1.1    maxv #define SVM_EXIT_IO_PORT	__BITS(31,16)
     1.1    maxv #define SVM_EXIT_IO_SEG		__BITS(12,10)
     1.1    maxv #define SVM_EXIT_IO_A64		__BIT(9)
     1.1    maxv #define SVM_EXIT_IO_A32		__BIT(8)
     1.1    maxv #define SVM_EXIT_IO_A16		__BIT(7)
     1.1    maxv #define SVM_EXIT_IO_SZ32	__BIT(6)
     1.1    maxv #define SVM_EXIT_IO_SZ16	__BIT(5)
     1.1    maxv #define SVM_EXIT_IO_SZ8		__BIT(4)
     1.1    maxv #define SVM_EXIT_IO_REP		__BIT(3)
     1.1    maxv #define SVM_EXIT_IO_STR		__BIT(2)
     1.4    maxv #define SVM_EXIT_IO_IN		__BIT(0)
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_exit_io(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv 	uint64_t info = cpudata->vmcb->ctrl.exitinfo1;
     1.1    maxv 	uint64_t nextpc = cpudata->vmcb->ctrl.exitinfo2;
     1.1    maxv
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_IO;
     1.1    maxv
1.46.4.2  martin 	exit->u.io.in = (info & SVM_EXIT_IO_IN) != 0;
     1.1    maxv 	exit->u.io.port = __SHIFTOUT(info, SVM_EXIT_IO_PORT);
     1.1    maxv
     1.1    maxv 	if (svm_decode_assist) {
     1.1    maxv 		KASSERT(__SHIFTOUT(info, SVM_EXIT_IO_SEG) < 6);
    1.32    maxv 		exit->u.io.seg = __SHIFTOUT(info, SVM_EXIT_IO_SEG);
     1.1    maxv 	} else {
     1.8    maxv 		exit->u.io.seg = -1;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (info & SVM_EXIT_IO_A64) {
     1.1    maxv 		exit->u.io.address_size = 8;
     1.1    maxv 	} else if (info & SVM_EXIT_IO_A32) {
     1.1    maxv 		exit->u.io.address_size = 4;
     1.1    maxv 	} else if (info & SVM_EXIT_IO_A16) {
     1.1    maxv 		exit->u.io.address_size = 2;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (info & SVM_EXIT_IO_SZ32) {
     1.1    maxv 		exit->u.io.operand_size = 4;
     1.1    maxv 	} else if (info & SVM_EXIT_IO_SZ16) {
     1.1    maxv 		exit->u.io.operand_size = 2;
     1.1    maxv 	} else if (info & SVM_EXIT_IO_SZ8) {
     1.1    maxv 		exit->u.io.operand_size = 1;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	exit->u.io.rep = (info & SVM_EXIT_IO_REP) != 0;
     1.1    maxv 	exit->u.io.str = (info & SVM_EXIT_IO_STR) != 0;
     1.1    maxv 	exit->u.io.npc = nextpc;
    1.43    maxv
    1.43    maxv 	svm_vcpu_state_provide(vcpu,
    1.43    maxv 	    NVMM_X64_STATE_GPRS | NVMM_X64_STATE_SEGS |
    1.43    maxv 	    NVMM_X64_STATE_CRS | NVMM_X64_STATE_MSRS);
     1.1    maxv }
     1.1    maxv
    1.10    maxv static const uint64_t msr_ignore_list[] = {
    1.10    maxv 	0xc0010055, /* MSR_CMPHALT */
    1.10    maxv 	MSR_DE_CFG,
    1.10    maxv 	MSR_IC_CFG,
    1.10    maxv 	MSR_UCODE_AMD_PATCHLEVEL
    1.10    maxv };
    1.10    maxv
     1.1    maxv static bool
     1.1    maxv svm_inkernel_handle_msr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.19    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.10    maxv 	uint64_t val;
    1.10    maxv 	size_t i;
     1.1    maxv
1.46.4.2  martin 	if (exit->reason == NVMM_VCPU_EXIT_RDMSR) {
1.46.4.2  martin 		if (exit->u.rdmsr.msr == MSR_NB_CFG) {
    1.10    maxv 			val = NB_CFG_INITAPICCPUIDLO;
    1.19    maxv 			vmcb->state.rax = (val & 0xFFFFFFFF);
    1.13    maxv 			cpudata->gprs[NVMM_X64_GPR_RDX] = (val >> 32);
    1.10    maxv 			goto handled;
    1.10    maxv 		}
    1.10    maxv 		for (i = 0; i < __arraycount(msr_ignore_list); i++) {
1.46.4.2  martin 			if (msr_ignore_list[i] != exit->u.rdmsr.msr)
    1.10    maxv 				continue;
    1.10    maxv 			val = 0;
    1.19    maxv 			vmcb->state.rax = (val & 0xFFFFFFFF);
    1.13    maxv 			cpudata->gprs[NVMM_X64_GPR_RDX] = (val >> 32);
     1.1    maxv 			goto handled;
     1.1    maxv 		}
1.46.4.2  martin 	} else {
1.46.4.2  martin 		if (exit->u.wrmsr.msr == MSR_EFER) {
1.46.4.2  martin 			if (__predict_false(exit->u.wrmsr.val & ~EFER_VALID)) {
    1.19    maxv 				goto error;
     1.1    maxv 			}
1.46.4.2  martin 			if ((vmcb->state.efer ^ exit->u.wrmsr.val) &
     1.1    maxv 			     EFER_TLB_FLUSH) {
    1.28    maxv 				cpudata->gtlb_want_flush = true;
     1.1    maxv 			}
1.46.4.2  martin 			vmcb->state.efer = exit->u.wrmsr.val | EFER_SVME;
    1.24    maxv 			svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_CR);
    1.24    maxv 			goto handled;
    1.24    maxv 		}
1.46.4.2  martin 		if (exit->u.wrmsr.msr == MSR_TSC) {
1.46.4.2  martin 			cpudata->gtsc = exit->u.wrmsr.val;
    1.36    maxv 			cpudata->gtsc_want_update = true;
     1.1    maxv 			goto handled;
     1.1    maxv 		}
    1.10    maxv 		for (i = 0; i < __arraycount(msr_ignore_list); i++) {
1.46.4.2  martin 			if (msr_ignore_list[i] != exit->u.wrmsr.msr)
    1.10    maxv 				continue;
    1.10    maxv 			goto handled;
    1.10    maxv 		}
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	return false;
     1.1    maxv
     1.1    maxv handled:
    1.17    maxv 	svm_inkernel_advance(cpudata->vmcb);
     1.1    maxv 	return true;
    1.19    maxv
    1.19    maxv error:
    1.45    maxv 	svm_inject_gp(vcpu);
    1.19    maxv 	return true;
     1.1    maxv }
     1.1    maxv
1.46.4.2  martin static inline void
1.46.4.2  martin svm_exit_rdmsr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_RDMSR;
1.46.4.2  martin 	exit->u.rdmsr.msr = (cpudata->gprs[NVMM_X64_GPR_RCX] & 0xFFFFFFFF);
1.46.4.2  martin 	exit->u.rdmsr.npc = cpudata->vmcb->ctrl.nrip;
1.46.4.2  martin
1.46.4.2  martin 	if (svm_inkernel_handle_msr(mach, vcpu, exit)) {
1.46.4.2  martin 		exit->reason = NVMM_VCPU_EXIT_NONE;
1.46.4.2  martin 		return;
     1.1    maxv 	}
     1.1    maxv
1.46.4.2  martin 	svm_vcpu_state_provide(vcpu, NVMM_X64_STATE_GPRS);
1.46.4.2  martin }
     1.1    maxv
1.46.4.2  martin static inline void
1.46.4.2  martin svm_exit_wrmsr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
1.46.4.2  martin {
1.46.4.2  martin 	struct svm_cpudata *cpudata = vcpu->cpudata;
1.46.4.2  martin 	uint64_t rdx, rax;
1.46.4.2  martin
1.46.4.2  martin 	rdx = cpudata->gprs[NVMM_X64_GPR_RDX];
1.46.4.2  martin 	rax = cpudata->vmcb->state.rax;
1.46.4.2  martin
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_WRMSR;
1.46.4.2  martin 	exit->u.wrmsr.msr = (cpudata->gprs[NVMM_X64_GPR_RCX] & 0xFFFFFFFF);
1.46.4.2  martin 	exit->u.wrmsr.val = (rdx << 32) | (rax & 0xFFFFFFFF);
1.46.4.2  martin 	exit->u.wrmsr.npc = cpudata->vmcb->ctrl.nrip;
     1.1    maxv
     1.1    maxv 	if (svm_inkernel_handle_msr(mach, vcpu, exit)) {
1.46.4.2  martin 		exit->reason = NVMM_VCPU_EXIT_NONE;
     1.1    maxv 		return;
     1.1    maxv 	}
     1.1    maxv
    1.43    maxv 	svm_vcpu_state_provide(vcpu, NVMM_X64_STATE_GPRS);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
1.46.4.2  martin svm_exit_msr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
1.46.4.2  martin {
1.46.4.2  martin 	struct svm_cpudata *cpudata = vcpu->cpudata;
1.46.4.2  martin 	uint64_t info = cpudata->vmcb->ctrl.exitinfo1;
1.46.4.2  martin
1.46.4.2  martin 	if (info == 0) {
1.46.4.2  martin 		svm_exit_rdmsr(mach, vcpu, exit);
1.46.4.2  martin 	} else {
1.46.4.2  martin 		svm_exit_wrmsr(mach, vcpu, exit);
1.46.4.2  martin 	}
1.46.4.2  martin }
1.46.4.2  martin
1.46.4.2  martin static void
     1.1    maxv svm_exit_npf(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv 	gpaddr_t gpa = cpudata->vmcb->ctrl.exitinfo2;
     1.1    maxv
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_MEMORY;
    1.27    maxv 	if (cpudata->vmcb->ctrl.exitinfo1 & PGEX_W)
    1.35    maxv 		exit->u.mem.prot = PROT_WRITE;
    1.27    maxv 	else if (cpudata->vmcb->ctrl.exitinfo1 & PGEX_X)
    1.35    maxv 		exit->u.mem.prot = PROT_EXEC;
    1.27    maxv 	else
    1.35    maxv 		exit->u.mem.prot = PROT_READ;
    1.27    maxv 	exit->u.mem.gpa = gpa;
    1.27    maxv 	exit->u.mem.inst_len = cpudata->vmcb->ctrl.inst_len;
    1.27    maxv 	memcpy(exit->u.mem.inst_bytes, cpudata->vmcb->ctrl.inst_bytes,
    1.27    maxv 	    sizeof(exit->u.mem.inst_bytes));
    1.43    maxv
    1.43    maxv 	svm_vcpu_state_provide(vcpu,
    1.43    maxv 	    NVMM_X64_STATE_GPRS | NVMM_X64_STATE_SEGS |
    1.43    maxv 	    NVMM_X64_STATE_CRS | NVMM_X64_STATE_MSRS);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_exit_xsetbv(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv 	struct vmcb *vmcb = cpudata->vmcb;
     1.1    maxv 	uint64_t val;
     1.1    maxv
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_NONE;
     1.1    maxv
    1.13    maxv 	val = (cpudata->gprs[NVMM_X64_GPR_RDX] << 32) |
     1.3    maxv 	    (vmcb->state.rax & 0xFFFFFFFF);
     1.1    maxv
    1.13    maxv 	if (__predict_false(cpudata->gprs[NVMM_X64_GPR_RCX] != 0)) {
     1.1    maxv 		goto error;
     1.1    maxv 	} else if (__predict_false(vmcb->state.cpl != 0)) {
     1.1    maxv 		goto error;
     1.1    maxv 	} else if (__predict_false((val & ~svm_xcr0_mask) != 0)) {
     1.1    maxv 		goto error;
     1.1    maxv 	} else if (__predict_false((val & XCR0_X87) == 0)) {
     1.1    maxv 		goto error;
     1.1    maxv 	}
     1.1    maxv
    1.13    maxv 	cpudata->gxcr0 = val;
     1.1    maxv
    1.17    maxv 	svm_inkernel_advance(cpudata->vmcb);
     1.1    maxv 	return;
     1.1    maxv
     1.1    maxv error:
    1.45    maxv 	svm_inject_gp(vcpu);
     1.1    maxv }
     1.1    maxv
    1.40    maxv static void
1.46.4.2  martin svm_exit_invalid(struct nvmm_vcpu_exit *exit, uint64_t code)
    1.40    maxv {
    1.40    maxv 	exit->u.inv.hwcode = code;
1.46.4.2  martin 	exit->reason = NVMM_VCPU_EXIT_INVALID;
    1.40    maxv }
    1.40    maxv
    1.29    maxv /* -------------------------------------------------------------------------- */
    1.29    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_guest_fpu_enter(struct nvmm_cpu *vcpu)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv
    1.16    maxv 	cpudata->ts_set = (rcr0() & CR0_TS) != 0;
    1.16    maxv
    1.16    maxv 	fpu_area_save(&cpudata->hfpu, svm_xcr0_mask);
    1.16    maxv 	fpu_area_restore(&cpudata->gfpu, svm_xcr0_mask);
    1.16    maxv
    1.16    maxv 	if (svm_xcr0_mask != 0) {
    1.13    maxv 		cpudata->hxcr0 = rdxcr(0);
    1.13    maxv 		wrxcr(0, cpudata->gxcr0);
     1.1    maxv 	}
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_guest_fpu_leave(struct nvmm_cpu *vcpu)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv
    1.16    maxv 	if (svm_xcr0_mask != 0) {
    1.16    maxv 		cpudata->gxcr0 = rdxcr(0);
    1.16    maxv 		wrxcr(0, cpudata->hxcr0);
    1.16    maxv 	}
    1.16    maxv
    1.16    maxv 	fpu_area_save(&cpudata->gfpu, svm_xcr0_mask);
    1.16    maxv 	fpu_area_restore(&cpudata->hfpu, svm_xcr0_mask);
     1.1    maxv
     1.1    maxv 	if (cpudata->ts_set) {
     1.1    maxv 		stts();
     1.1    maxv 	}
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_guest_dbregs_enter(struct nvmm_cpu *vcpu)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv
     1.1    maxv 	x86_dbregs_save(curlwp);
     1.1    maxv
    1.15    maxv 	ldr7(0);
    1.15    maxv
    1.13    maxv 	ldr0(cpudata->drs[NVMM_X64_DR_DR0]);
    1.13    maxv 	ldr1(cpudata->drs[NVMM_X64_DR_DR1]);
    1.13    maxv 	ldr2(cpudata->drs[NVMM_X64_DR_DR2]);
    1.13    maxv 	ldr3(cpudata->drs[NVMM_X64_DR_DR3]);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_guest_dbregs_leave(struct nvmm_cpu *vcpu)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv
    1.13    maxv 	cpudata->drs[NVMM_X64_DR_DR0] = rdr0();
    1.13    maxv 	cpudata->drs[NVMM_X64_DR_DR1] = rdr1();
    1.13    maxv 	cpudata->drs[NVMM_X64_DR_DR2] = rdr2();
    1.13    maxv 	cpudata->drs[NVMM_X64_DR_DR3] = rdr3();
     1.1    maxv
     1.1    maxv 	x86_dbregs_restore(curlwp);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_guest_misc_enter(struct nvmm_cpu *vcpu)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv
    1.14    maxv 	cpudata->fsbase = rdmsr(MSR_FSBASE);
    1.14    maxv 	cpudata->kernelgsbase = rdmsr(MSR_KERNELGSBASE);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_guest_misc_leave(struct nvmm_cpu *vcpu)
     1.1    maxv {
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv
     1.1    maxv 	wrmsr(MSR_STAR, cpudata->star);
     1.1    maxv 	wrmsr(MSR_LSTAR, cpudata->lstar);
     1.1    maxv 	wrmsr(MSR_CSTAR, cpudata->cstar);
     1.1    maxv 	wrmsr(MSR_SFMASK, cpudata->sfmask);
    1.14    maxv 	wrmsr(MSR_FSBASE, cpudata->fsbase);
    1.14    maxv 	wrmsr(MSR_KERNELGSBASE, cpudata->kernelgsbase);
     1.1    maxv }
     1.1    maxv
    1.28    maxv /* -------------------------------------------------------------------------- */
    1.28    maxv
    1.28    maxv static inline void
    1.28    maxv svm_gtlb_catchup(struct nvmm_cpu *vcpu, int hcpu)
    1.28    maxv {
    1.28    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.28    maxv
    1.28    maxv 	if (vcpu->hcpu_last != hcpu || cpudata->shared_asid) {
    1.28    maxv 		cpudata->gtlb_want_flush = true;
    1.28    maxv 	}
    1.28    maxv }
    1.28    maxv
    1.29    maxv static inline void
    1.29    maxv svm_htlb_catchup(struct nvmm_cpu *vcpu, int hcpu)
    1.29    maxv {
    1.29    maxv 	/*
    1.29    maxv 	 * Nothing to do. If an hTLB flush was needed, either the VCPU was
    1.29    maxv 	 * executing on this hCPU and the hTLB already got flushed, or it
    1.29    maxv 	 * was executing on another hCPU in which case the catchup is done
    1.29    maxv 	 * in svm_gtlb_catchup().
    1.29    maxv 	 */
    1.29    maxv }
    1.29    maxv
    1.29    maxv static inline uint64_t
    1.29    maxv svm_htlb_flush(struct svm_machdata *machdata, struct svm_cpudata *cpudata)
    1.29    maxv {
    1.29    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.29    maxv 	uint64_t machgen;
    1.29    maxv
    1.29    maxv 	machgen = machdata->mach_htlb_gen;
    1.29    maxv 	if (__predict_true(machgen == cpudata->vcpu_htlb_gen)) {
    1.29    maxv 		return machgen;
    1.29    maxv 	}
    1.29    maxv
    1.29    maxv 	vmcb->ctrl.tlb_ctrl = svm_ctrl_tlb_flush;
    1.29    maxv 	return machgen;
    1.29    maxv }
    1.29    maxv
    1.29    maxv static inline void
    1.29    maxv svm_htlb_flush_ack(struct svm_cpudata *cpudata, uint64_t machgen)
    1.29    maxv {
    1.29    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.29    maxv
    1.29    maxv 	if (__predict_true(vmcb->ctrl.exitcode != VMCB_EXITCODE_INVALID)) {
    1.29    maxv 		cpudata->vcpu_htlb_gen = machgen;
    1.29    maxv 	}
    1.29    maxv }
    1.29    maxv
    1.41    maxv static inline void
    1.41    maxv svm_exit_evt(struct svm_cpudata *cpudata, struct vmcb *vmcb)
    1.41    maxv {
    1.41    maxv 	cpudata->evt_pending = false;
    1.41    maxv
    1.41    maxv 	if (__predict_false(vmcb->ctrl.exitintinfo & VMCB_CTRL_EXITINTINFO_V)) {
    1.41    maxv 		vmcb->ctrl.eventinj = vmcb->ctrl.exitintinfo;
    1.41    maxv 		cpudata->evt_pending = true;
    1.41    maxv 	}
    1.41    maxv }
    1.41    maxv
     1.1    maxv static int
     1.1    maxv svm_vcpu_run(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
1.46.4.2  martin     struct nvmm_vcpu_exit *exit)
     1.1    maxv {
    1.43    maxv 	struct nvmm_comm_page *comm = vcpu->comm;
    1.29    maxv 	struct svm_machdata *machdata = mach->machdata;
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.29    maxv 	uint64_t machgen;
     1.1    maxv 	int hcpu, s;
     1.1    maxv
    1.45    maxv 	if (__predict_false(svm_vcpu_event_commit(vcpu) != 0)) {
    1.45    maxv 		return EINVAL;
    1.45    maxv 	}
    1.43    maxv 	svm_vcpu_state_commit(vcpu);
    1.43    maxv 	comm->state_cached = 0;
    1.43    maxv
     1.1    maxv 	kpreempt_disable();
     1.1    maxv 	hcpu = cpu_number();
     1.1    maxv
    1.28    maxv 	svm_gtlb_catchup(vcpu, hcpu);
    1.29    maxv 	svm_htlb_catchup(vcpu, hcpu);
     1.1    maxv
     1.1    maxv 	if (vcpu->hcpu_last != hcpu) {
    1.12    maxv 		svm_vmcb_cache_flush_all(vmcb);
    1.36    maxv 		cpudata->gtsc_want_update = true;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	svm_vcpu_guest_dbregs_enter(vcpu);
     1.1    maxv 	svm_vcpu_guest_misc_enter(vcpu);
     1.1    maxv
     1.1    maxv 	while (1) {
    1.28    maxv 		if (cpudata->gtlb_want_flush) {
    1.20    maxv 			vmcb->ctrl.tlb_ctrl = svm_ctrl_tlb_flush;
    1.20    maxv 		} else {
    1.20    maxv 			vmcb->ctrl.tlb_ctrl = 0;
    1.20    maxv 		}
    1.20    maxv
    1.36    maxv 		if (__predict_false(cpudata->gtsc_want_update)) {
    1.36    maxv 			vmcb->ctrl.tsc_offset = cpudata->gtsc - rdtsc();
    1.36    maxv 			svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_I);
    1.36    maxv 		}
    1.36    maxv
     1.1    maxv 		s = splhigh();
    1.29    maxv 		machgen = svm_htlb_flush(machdata, cpudata);
     1.1    maxv 		svm_vcpu_guest_fpu_enter(vcpu);
    1.13    maxv 		svm_vmrun(cpudata->vmcb_pa, cpudata->gprs);
     1.1    maxv 		svm_vcpu_guest_fpu_leave(vcpu);
    1.29    maxv 		svm_htlb_flush_ack(cpudata, machgen);
     1.1    maxv 		splx(s);
     1.1    maxv
     1.1    maxv 		svm_vmcb_cache_default(vmcb);
     1.1    maxv
     1.1    maxv 		if (vmcb->ctrl.exitcode != VMCB_EXITCODE_INVALID) {
    1.28    maxv 			cpudata->gtlb_want_flush = false;
    1.36    maxv 			cpudata->gtsc_want_update = false;
     1.1    maxv 			vcpu->hcpu_last = hcpu;
     1.1    maxv 		}
    1.41    maxv 		svm_exit_evt(cpudata, vmcb);
     1.1    maxv
     1.1    maxv 		switch (vmcb->ctrl.exitcode) {
     1.1    maxv 		case VMCB_EXITCODE_INTR:
     1.1    maxv 		case VMCB_EXITCODE_NMI:
1.46.4.2  martin 			exit->reason = NVMM_VCPU_EXIT_NONE;
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_VINTR:
    1.10    maxv 			svm_event_waitexit_disable(vcpu, false);
1.46.4.2  martin 			exit->reason = NVMM_VCPU_EXIT_INT_READY;
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_IRET:
    1.10    maxv 			svm_event_waitexit_disable(vcpu, true);
1.46.4.2  martin 			exit->reason = NVMM_VCPU_EXIT_NMI_READY;
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_CPUID:
     1.1    maxv 			svm_exit_cpuid(mach, vcpu, exit);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_HLT:
    1.10    maxv 			svm_exit_hlt(mach, vcpu, exit);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_IOIO:
     1.1    maxv 			svm_exit_io(mach, vcpu, exit);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_MSR:
     1.1    maxv 			svm_exit_msr(mach, vcpu, exit);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_SHUTDOWN:
1.46.4.2  martin 			exit->reason = NVMM_VCPU_EXIT_SHUTDOWN;
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_RDPMC:
     1.1    maxv 		case VMCB_EXITCODE_RSM:
     1.1    maxv 		case VMCB_EXITCODE_INVLPGA:
     1.1    maxv 		case VMCB_EXITCODE_VMRUN:
     1.1    maxv 		case VMCB_EXITCODE_VMMCALL:
     1.1    maxv 		case VMCB_EXITCODE_VMLOAD:
     1.1    maxv 		case VMCB_EXITCODE_VMSAVE:
     1.1    maxv 		case VMCB_EXITCODE_STGI:
     1.1    maxv 		case VMCB_EXITCODE_CLGI:
     1.1    maxv 		case VMCB_EXITCODE_SKINIT:
     1.1    maxv 		case VMCB_EXITCODE_RDTSCP:
1.46.4.8  martin 		case VMCB_EXITCODE_RDPRU:
1.46.4.8  martin 		case VMCB_EXITCODE_INVLPGB:
1.46.4.8  martin 		case VMCB_EXITCODE_INVPCID:
1.46.4.8  martin 		case VMCB_EXITCODE_MCOMMIT:
1.46.4.8  martin 		case VMCB_EXITCODE_TLBSYNC:
    1.45    maxv 			svm_inject_ud(vcpu);
1.46.4.2  martin 			exit->reason = NVMM_VCPU_EXIT_NONE;
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_MONITOR:
1.46.4.2  martin 			svm_exit_insn(vmcb, exit, NVMM_VCPU_EXIT_MONITOR);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_MWAIT:
     1.1    maxv 		case VMCB_EXITCODE_MWAIT_CONDITIONAL:
1.46.4.2  martin 			svm_exit_insn(vmcb, exit, NVMM_VCPU_EXIT_MWAIT);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_XSETBV:
     1.1    maxv 			svm_exit_xsetbv(mach, vcpu, exit);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_NPF:
     1.1    maxv 			svm_exit_npf(mach, vcpu, exit);
     1.1    maxv 			break;
     1.1    maxv 		case VMCB_EXITCODE_FERR_FREEZE: /* ? */
     1.1    maxv 		default:
    1.40    maxv 			svm_exit_invalid(exit, vmcb->ctrl.exitcode);
     1.1    maxv 			break;
     1.1    maxv 		}
     1.1    maxv
     1.1    maxv 		/* If no reason to return to userland, keep rolling. */
1.46.4.6  martin 		if (nvmm_return_needed()) {
    1.10    maxv 			break;
    1.10    maxv 		}
1.46.4.2  martin 		if (exit->reason != NVMM_VCPU_EXIT_NONE) {
     1.1    maxv 			break;
     1.1    maxv 		}
     1.1    maxv 	}
     1.1    maxv
    1.36    maxv 	cpudata->gtsc = rdtsc() + vmcb->ctrl.tsc_offset;
    1.36    maxv
     1.1    maxv 	svm_vcpu_guest_misc_leave(vcpu);
     1.1    maxv 	svm_vcpu_guest_dbregs_leave(vcpu);
     1.1    maxv
     1.1    maxv 	kpreempt_enable();
     1.1    maxv
1.46.4.2  martin 	exit->exitstate.rflags = vmcb->state.rflags;
1.46.4.2  martin 	exit->exitstate.cr8 = __SHIFTOUT(vmcb->ctrl.v, VMCB_CTRL_V_TPR);
1.46.4.2  martin 	exit->exitstate.int_shadow =
    1.10    maxv 	    ((vmcb->ctrl.intr & VMCB_CTRL_INTR_SHADOW) != 0);
1.46.4.2  martin 	exit->exitstate.int_window_exiting = cpudata->int_window_exit;
1.46.4.2  martin 	exit->exitstate.nmi_window_exiting = cpudata->nmi_window_exit;
1.46.4.2  martin 	exit->exitstate.evt_pending = cpudata->evt_pending;
    1.10    maxv
     1.1    maxv 	return 0;
     1.1    maxv }
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
     1.1    maxv static int
     1.1    maxv svm_memalloc(paddr_t *pa, vaddr_t *va, size_t npages)
     1.1    maxv {
     1.1    maxv 	struct pglist pglist;
     1.1    maxv 	paddr_t _pa;
     1.1    maxv 	vaddr_t _va;
     1.1    maxv 	size_t i;
     1.1    maxv 	int ret;
     1.1    maxv
     1.1    maxv 	ret = uvm_pglistalloc(npages * PAGE_SIZE, 0, ~0UL, PAGE_SIZE, 0,
     1.1    maxv 	    &pglist, 1, 0);
     1.1    maxv 	if (ret != 0)
     1.1    maxv 		return ENOMEM;
1.46.4.7  martin 	_pa = VM_PAGE_TO_PHYS(TAILQ_FIRST(&pglist));
     1.1    maxv 	_va = uvm_km_alloc(kernel_map, npages * PAGE_SIZE, 0,
     1.1    maxv 	    UVM_KMF_VAONLY | UVM_KMF_NOWAIT);
     1.1    maxv 	if (_va == 0)
     1.1    maxv 		goto error;
     1.1    maxv
     1.1    maxv 	for (i = 0; i < npages; i++) {
     1.1    maxv 		pmap_kenter_pa(_va + i * PAGE_SIZE, _pa + i * PAGE_SIZE,
     1.1    maxv 		    VM_PROT_READ | VM_PROT_WRITE, PMAP_WRITE_BACK);
     1.1    maxv 	}
     1.5    maxv 	pmap_update(pmap_kernel());
     1.1    maxv
     1.1    maxv 	memset((void *)_va, 0, npages * PAGE_SIZE);
     1.1    maxv
     1.1    maxv 	*pa = _pa;
     1.1    maxv 	*va = _va;
     1.1    maxv 	return 0;
     1.1    maxv
     1.1    maxv error:
     1.1    maxv 	for (i = 0; i < npages; i++) {
     1.1    maxv 		uvm_pagefree(PHYS_TO_VM_PAGE(_pa + i * PAGE_SIZE));
     1.1    maxv 	}
     1.1    maxv 	return ENOMEM;
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_memfree(paddr_t pa, vaddr_t va, size_t npages)
     1.1    maxv {
     1.1    maxv 	size_t i;
     1.1    maxv
     1.1    maxv 	pmap_kremove(va, npages * PAGE_SIZE);
     1.1    maxv 	pmap_update(pmap_kernel());
     1.1    maxv 	uvm_km_free(kernel_map, va, npages * PAGE_SIZE, UVM_KMF_VAONLY);
     1.1    maxv 	for (i = 0; i < npages; i++) {
     1.1    maxv 		uvm_pagefree(PHYS_TO_VM_PAGE(pa + i * PAGE_SIZE));
     1.1    maxv 	}
     1.1    maxv }
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
     1.1    maxv #define SVM_MSRBM_READ	__BIT(0)
     1.1    maxv #define SVM_MSRBM_WRITE	__BIT(1)
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_msr_allow(uint8_t *bitmap, uint64_t msr, bool read, bool write)
     1.1    maxv {
     1.1    maxv 	uint64_t byte;
     1.1    maxv 	uint8_t bitoff;
     1.1    maxv
     1.1    maxv 	if (msr < 0x00002000) {
     1.1    maxv 		/* Range 1 */
     1.1    maxv 		byte = ((msr - 0x00000000) >> 2UL) + 0x0000;
     1.1    maxv 	} else if (msr >= 0xC0000000 && msr < 0xC0002000) {
     1.1    maxv 		/* Range 2 */
     1.1    maxv 		byte = ((msr - 0xC0000000) >> 2UL) + 0x0800;
     1.1    maxv 	} else if (msr >= 0xC0010000 && msr < 0xC0012000) {
     1.1    maxv 		/* Range 3 */
     1.1    maxv 		byte = ((msr - 0xC0010000) >> 2UL) + 0x1000;
     1.1    maxv 	} else {
     1.1    maxv 		panic("%s: wrong range", __func__);
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	bitoff = (msr & 0x3) << 1;
     1.1    maxv
     1.1    maxv 	if (read) {
     1.1    maxv 		bitmap[byte] &= ~(SVM_MSRBM_READ << bitoff);
     1.1    maxv 	}
     1.1    maxv 	if (write) {
     1.1    maxv 		bitmap[byte] &= ~(SVM_MSRBM_WRITE << bitoff);
     1.1    maxv 	}
     1.1    maxv }
     1.1    maxv
    1.32    maxv #define SVM_SEG_ATTRIB_TYPE		__BITS(3,0)
    1.32    maxv #define SVM_SEG_ATTRIB_S		__BIT(4)
     1.1    maxv #define SVM_SEG_ATTRIB_DPL		__BITS(6,5)
     1.1    maxv #define SVM_SEG_ATTRIB_P		__BIT(7)
     1.1    maxv #define SVM_SEG_ATTRIB_AVL		__BIT(8)
    1.32    maxv #define SVM_SEG_ATTRIB_L		__BIT(9)
    1.32    maxv #define SVM_SEG_ATTRIB_DEF		__BIT(10)
    1.32    maxv #define SVM_SEG_ATTRIB_G		__BIT(11)
     1.1    maxv
     1.1    maxv static void
    1.30    maxv svm_vcpu_setstate_seg(const struct nvmm_x64_state_seg *seg,
    1.30    maxv     struct vmcb_segment *vseg)
     1.1    maxv {
     1.1    maxv 	vseg->selector = seg->selector;
     1.1    maxv 	vseg->attrib =
     1.1    maxv 	    __SHIFTIN(seg->attrib.type, SVM_SEG_ATTRIB_TYPE) |
    1.32    maxv 	    __SHIFTIN(seg->attrib.s, SVM_SEG_ATTRIB_S) |
     1.1    maxv 	    __SHIFTIN(seg->attrib.dpl, SVM_SEG_ATTRIB_DPL) |
     1.1    maxv 	    __SHIFTIN(seg->attrib.p, SVM_SEG_ATTRIB_P) |
     1.1    maxv 	    __SHIFTIN(seg->attrib.avl, SVM_SEG_ATTRIB_AVL) |
    1.32    maxv 	    __SHIFTIN(seg->attrib.l, SVM_SEG_ATTRIB_L) |
    1.32    maxv 	    __SHIFTIN(seg->attrib.def, SVM_SEG_ATTRIB_DEF) |
    1.32    maxv 	    __SHIFTIN(seg->attrib.g, SVM_SEG_ATTRIB_G);
     1.1    maxv 	vseg->limit = seg->limit;
     1.1    maxv 	vseg->base = seg->base;
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_vcpu_getstate_seg(struct nvmm_x64_state_seg *seg, struct vmcb_segment *vseg)
     1.1    maxv {
     1.1    maxv 	seg->selector = vseg->selector;
     1.1    maxv 	seg->attrib.type = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_TYPE);
    1.32    maxv 	seg->attrib.s = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_S);
     1.1    maxv 	seg->attrib.dpl = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_DPL);
     1.1    maxv 	seg->attrib.p = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_P);
     1.1    maxv 	seg->attrib.avl = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_AVL);
    1.32    maxv 	seg->attrib.l = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_L);
    1.32    maxv 	seg->attrib.def = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_DEF);
    1.32    maxv 	seg->attrib.g = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_G);
     1.1    maxv 	seg->limit = vseg->limit;
     1.1    maxv 	seg->base = vseg->base;
     1.1    maxv }
     1.1    maxv
    1.13    maxv static inline bool
    1.30    maxv svm_state_tlb_flush(const struct vmcb *vmcb, const struct nvmm_x64_state *state,
    1.13    maxv     uint64_t flags)
     1.1    maxv {
     1.1    maxv 	if (flags & NVMM_X64_STATE_CRS) {
    1.13    maxv 		if ((vmcb->state.cr0 ^
    1.13    maxv 		     state->crs[NVMM_X64_CR_CR0]) & CR0_TLB_FLUSH) {
     1.1    maxv 			return true;
     1.1    maxv 		}
    1.13    maxv 		if (vmcb->state.cr3 != state->crs[NVMM_X64_CR_CR3]) {
     1.1    maxv 			return true;
     1.1    maxv 		}
    1.13    maxv 		if ((vmcb->state.cr4 ^
    1.13    maxv 		     state->crs[NVMM_X64_CR_CR4]) & CR4_TLB_FLUSH) {
     1.1    maxv 			return true;
     1.1    maxv 		}
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (flags & NVMM_X64_STATE_MSRS) {
    1.13    maxv 		if ((vmcb->state.efer ^
    1.13    maxv 		     state->msrs[NVMM_X64_MSR_EFER]) & EFER_TLB_FLUSH) {
     1.1    maxv 			return true;
     1.1    maxv 		}
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	return false;
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
    1.43    maxv svm_vcpu_setstate(struct nvmm_cpu *vcpu)
     1.1    maxv {
    1.43    maxv 	struct nvmm_comm_page *comm = vcpu->comm;
    1.43    maxv 	const struct nvmm_x64_state *state = &comm->state;
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv 	struct vmcb *vmcb = cpudata->vmcb;
     1.1    maxv 	struct fxsave *fpustate;
    1.43    maxv 	uint64_t flags;
    1.43    maxv
    1.43    maxv 	flags = comm->state_wanted;
     1.1    maxv
    1.13    maxv 	if (svm_state_tlb_flush(vmcb, state, flags)) {
    1.28    maxv 		cpudata->gtlb_want_flush = true;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (flags & NVMM_X64_STATE_SEGS) {
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_CS],
     1.1    maxv 		    &vmcb->state.cs);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_DS],
     1.1    maxv 		    &vmcb->state.ds);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_ES],
     1.1    maxv 		    &vmcb->state.es);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_FS],
     1.1    maxv 		    &vmcb->state.fs);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_GS],
     1.1    maxv 		    &vmcb->state.gs);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_SS],
     1.1    maxv 		    &vmcb->state.ss);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_GDT],
     1.1    maxv 		    &vmcb->state.gdt);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_IDT],
     1.1    maxv 		    &vmcb->state.idt);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_LDT],
     1.1    maxv 		    &vmcb->state.ldt);
    1.13    maxv 		svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_TR],
     1.1    maxv 		    &vmcb->state.tr);
    1.23    maxv
    1.23    maxv 		vmcb->state.cpl = state->segs[NVMM_X64_SEG_SS].attrib.dpl;
     1.1    maxv 	}
     1.1    maxv
    1.13    maxv 	CTASSERT(sizeof(cpudata->gprs) == sizeof(state->gprs));
     1.1    maxv 	if (flags & NVMM_X64_STATE_GPRS) {
    1.13    maxv 		memcpy(cpudata->gprs, state->gprs, sizeof(state->gprs));
     1.1    maxv
    1.13    maxv 		vmcb->state.rip = state->gprs[NVMM_X64_GPR_RIP];
    1.13    maxv 		vmcb->state.rsp = state->gprs[NVMM_X64_GPR_RSP];
    1.13    maxv 		vmcb->state.rax = state->gprs[NVMM_X64_GPR_RAX];
    1.13    maxv 		vmcb->state.rflags = state->gprs[NVMM_X64_GPR_RFLAGS];
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (flags & NVMM_X64_STATE_CRS) {
    1.13    maxv 		vmcb->state.cr0 = state->crs[NVMM_X64_CR_CR0];
    1.13    maxv 		vmcb->state.cr2 = state->crs[NVMM_X64_CR_CR2];
    1.13    maxv 		vmcb->state.cr3 = state->crs[NVMM_X64_CR_CR3];
    1.13    maxv 		vmcb->state.cr4 = state->crs[NVMM_X64_CR_CR4];
     1.1    maxv
     1.1    maxv 		vmcb->ctrl.v &= ~VMCB_CTRL_V_TPR;
    1.13    maxv 		vmcb->ctrl.v |= __SHIFTIN(state->crs[NVMM_X64_CR_CR8],
     1.1    maxv 		    VMCB_CTRL_V_TPR);
     1.1    maxv
     1.1    maxv 		if (svm_xcr0_mask != 0) {
    1.16    maxv 			/* Clear illegal XCR0 bits, set mandatory X87 bit. */
    1.13    maxv 			cpudata->gxcr0 = state->crs[NVMM_X64_CR_XCR0];
    1.13    maxv 			cpudata->gxcr0 &= svm_xcr0_mask;
    1.13    maxv 			cpudata->gxcr0 |= XCR0_X87;
     1.1    maxv 		}
     1.1    maxv 	}
     1.1    maxv
    1.13    maxv 	CTASSERT(sizeof(cpudata->drs) == sizeof(state->drs));
     1.1    maxv 	if (flags & NVMM_X64_STATE_DRS) {
    1.13    maxv 		memcpy(cpudata->drs, state->drs, sizeof(state->drs));
     1.1    maxv
    1.13    maxv 		vmcb->state.dr6 = state->drs[NVMM_X64_DR_DR6];
    1.13    maxv 		vmcb->state.dr7 = state->drs[NVMM_X64_DR_DR7];
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (flags & NVMM_X64_STATE_MSRS) {
    1.30    maxv 		/*
    1.30    maxv 		 * EFER_SVME is mandatory.
    1.30    maxv 		 */
    1.13    maxv 		vmcb->state.efer = state->msrs[NVMM_X64_MSR_EFER] | EFER_SVME;
    1.13    maxv 		vmcb->state.star = state->msrs[NVMM_X64_MSR_STAR];
    1.13    maxv 		vmcb->state.lstar = state->msrs[NVMM_X64_MSR_LSTAR];
    1.13    maxv 		vmcb->state.cstar = state->msrs[NVMM_X64_MSR_CSTAR];
    1.13    maxv 		vmcb->state.sfmask = state->msrs[NVMM_X64_MSR_SFMASK];
     1.1    maxv 		vmcb->state.kernelgsbase =
    1.13    maxv 		    state->msrs[NVMM_X64_MSR_KERNELGSBASE];
     1.1    maxv 		vmcb->state.sysenter_cs =
    1.13    maxv 		    state->msrs[NVMM_X64_MSR_SYSENTER_CS];
     1.1    maxv 		vmcb->state.sysenter_esp =
    1.13    maxv 		    state->msrs[NVMM_X64_MSR_SYSENTER_ESP];
     1.1    maxv 		vmcb->state.sysenter_eip =
    1.13    maxv 		    state->msrs[NVMM_X64_MSR_SYSENTER_EIP];
    1.13    maxv 		vmcb->state.g_pat = state->msrs[NVMM_X64_MSR_PAT];
    1.36    maxv
    1.36    maxv 		cpudata->gtsc = state->msrs[NVMM_X64_MSR_TSC];
    1.36    maxv 		cpudata->gtsc_want_update = true;
     1.1    maxv 	}
     1.1    maxv
    1.37    maxv 	if (flags & NVMM_X64_STATE_INTR) {
    1.37    maxv 		if (state->intr.int_shadow) {
    1.10    maxv 			vmcb->ctrl.intr |= VMCB_CTRL_INTR_SHADOW;
    1.10    maxv 		} else {
    1.10    maxv 			vmcb->ctrl.intr &= ~VMCB_CTRL_INTR_SHADOW;
    1.10    maxv 		}
    1.10    maxv
    1.37    maxv 		if (state->intr.int_window_exiting) {
    1.10    maxv 			svm_event_waitexit_enable(vcpu, false);
    1.10    maxv 		} else {
    1.10    maxv 			svm_event_waitexit_disable(vcpu, false);
    1.10    maxv 		}
    1.10    maxv
    1.37    maxv 		if (state->intr.nmi_window_exiting) {
    1.10    maxv 			svm_event_waitexit_enable(vcpu, true);
    1.10    maxv 		} else {
    1.10    maxv 			svm_event_waitexit_disable(vcpu, true);
    1.10    maxv 		}
     1.1    maxv 	}
     1.1    maxv
    1.13    maxv 	CTASSERT(sizeof(cpudata->gfpu.xsh_fxsave) == sizeof(state->fpu));
     1.1    maxv 	if (flags & NVMM_X64_STATE_FPU) {
    1.13    maxv 		memcpy(cpudata->gfpu.xsh_fxsave, &state->fpu,
    1.13    maxv 		    sizeof(state->fpu));
     1.1    maxv
     1.1    maxv 		fpustate = (struct fxsave *)cpudata->gfpu.xsh_fxsave;
     1.1    maxv 		fpustate->fx_mxcsr_mask &= x86_fpu_mxcsr_mask;
     1.1    maxv 		fpustate->fx_mxcsr &= fpustate->fx_mxcsr_mask;
    1.16    maxv
    1.16    maxv 		if (svm_xcr0_mask != 0) {
    1.16    maxv 			/* Reset XSTATE_BV, to force a reload. */
    1.16    maxv 			cpudata->gfpu.xsh_xstate_bv = svm_xcr0_mask;
    1.16    maxv 		}
     1.1    maxv 	}
    1.12    maxv
    1.12    maxv 	svm_vmcb_cache_update(vmcb, flags);
    1.43    maxv
    1.43    maxv 	comm->state_wanted = 0;
    1.43    maxv 	comm->state_cached |= flags;
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
    1.43    maxv svm_vcpu_getstate(struct nvmm_cpu *vcpu)
     1.1    maxv {
    1.43    maxv 	struct nvmm_comm_page *comm = vcpu->comm;
    1.43    maxv 	struct nvmm_x64_state *state = &comm->state;
     1.1    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
     1.1    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.43    maxv 	uint64_t flags;
    1.43    maxv
    1.43    maxv 	flags = comm->state_wanted;
     1.1    maxv
     1.1    maxv 	if (flags & NVMM_X64_STATE_SEGS) {
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_CS],
     1.1    maxv 		    &vmcb->state.cs);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_DS],
     1.1    maxv 		    &vmcb->state.ds);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_ES],
     1.1    maxv 		    &vmcb->state.es);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_FS],
     1.1    maxv 		    &vmcb->state.fs);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_GS],
     1.1    maxv 		    &vmcb->state.gs);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_SS],
     1.1    maxv 		    &vmcb->state.ss);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_GDT],
     1.1    maxv 		    &vmcb->state.gdt);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_IDT],
     1.1    maxv 		    &vmcb->state.idt);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_LDT],
     1.1    maxv 		    &vmcb->state.ldt);
    1.13    maxv 		svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_TR],
     1.1    maxv 		    &vmcb->state.tr);
    1.23    maxv
    1.23    maxv 		state->segs[NVMM_X64_SEG_SS].attrib.dpl = vmcb->state.cpl;
     1.1    maxv 	}
     1.1    maxv
    1.13    maxv 	CTASSERT(sizeof(cpudata->gprs) == sizeof(state->gprs));
     1.1    maxv 	if (flags & NVMM_X64_STATE_GPRS) {
    1.13    maxv 		memcpy(state->gprs, cpudata->gprs, sizeof(state->gprs));
     1.1    maxv
    1.13    maxv 		state->gprs[NVMM_X64_GPR_RIP] = vmcb->state.rip;
    1.13    maxv 		state->gprs[NVMM_X64_GPR_RSP] = vmcb->state.rsp;
    1.13    maxv 		state->gprs[NVMM_X64_GPR_RAX] = vmcb->state.rax;
    1.13    maxv 		state->gprs[NVMM_X64_GPR_RFLAGS] = vmcb->state.rflags;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (flags & NVMM_X64_STATE_CRS) {
    1.13    maxv 		state->crs[NVMM_X64_CR_CR0] = vmcb->state.cr0;
    1.13    maxv 		state->crs[NVMM_X64_CR_CR2] = vmcb->state.cr2;
    1.13    maxv 		state->crs[NVMM_X64_CR_CR3] = vmcb->state.cr3;
    1.13    maxv 		state->crs[NVMM_X64_CR_CR4] = vmcb->state.cr4;
    1.13    maxv 		state->crs[NVMM_X64_CR_CR8] = __SHIFTOUT(vmcb->ctrl.v,
     1.1    maxv 		    VMCB_CTRL_V_TPR);
    1.13    maxv 		state->crs[NVMM_X64_CR_XCR0] = cpudata->gxcr0;
     1.1    maxv 	}
     1.1    maxv
    1.13    maxv 	CTASSERT(sizeof(cpudata->drs) == sizeof(state->drs));
     1.1    maxv 	if (flags & NVMM_X64_STATE_DRS) {
    1.13    maxv 		memcpy(state->drs, cpudata->drs, sizeof(state->drs));
     1.1    maxv
    1.13    maxv 		state->drs[NVMM_X64_DR_DR6] = vmcb->state.dr6;
    1.13    maxv 		state->drs[NVMM_X64_DR_DR7] = vmcb->state.dr7;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (flags & NVMM_X64_STATE_MSRS) {
    1.13    maxv 		state->msrs[NVMM_X64_MSR_EFER] = vmcb->state.efer;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_STAR] = vmcb->state.star;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_LSTAR] = vmcb->state.lstar;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_CSTAR] = vmcb->state.cstar;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_SFMASK] = vmcb->state.sfmask;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_KERNELGSBASE] =
     1.1    maxv 		    vmcb->state.kernelgsbase;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_SYSENTER_CS] =
     1.1    maxv 		    vmcb->state.sysenter_cs;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_SYSENTER_ESP] =
     1.1    maxv 		    vmcb->state.sysenter_esp;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_SYSENTER_EIP] =
     1.1    maxv 		    vmcb->state.sysenter_eip;
    1.13    maxv 		state->msrs[NVMM_X64_MSR_PAT] = vmcb->state.g_pat;
    1.36    maxv 		state->msrs[NVMM_X64_MSR_TSC] = cpudata->gtsc;
     1.1    maxv
     1.1    maxv 		/* Hide SVME. */
    1.13    maxv 		state->msrs[NVMM_X64_MSR_EFER] &= ~EFER_SVME;
     1.1    maxv 	}
     1.1    maxv
    1.37    maxv 	if (flags & NVMM_X64_STATE_INTR) {
    1.37    maxv 		state->intr.int_shadow =
    1.10    maxv 		    (vmcb->ctrl.intr & VMCB_CTRL_INTR_SHADOW) != 0;
    1.37    maxv 		state->intr.int_window_exiting = cpudata->int_window_exit;
    1.37    maxv 		state->intr.nmi_window_exiting = cpudata->nmi_window_exit;
    1.37    maxv 		state->intr.evt_pending = cpudata->evt_pending;
     1.1    maxv 	}
     1.1    maxv
    1.13    maxv 	CTASSERT(sizeof(cpudata->gfpu.xsh_fxsave) == sizeof(state->fpu));
     1.1    maxv 	if (flags & NVMM_X64_STATE_FPU) {
    1.13    maxv 		memcpy(&state->fpu, cpudata->gfpu.xsh_fxsave,
    1.13    maxv 		    sizeof(state->fpu));
     1.1    maxv 	}
    1.43    maxv
    1.43    maxv 	comm->state_wanted = 0;
    1.43    maxv 	comm->state_cached |= flags;
    1.43    maxv }
    1.43    maxv
    1.43    maxv static void
    1.43    maxv svm_vcpu_state_provide(struct nvmm_cpu *vcpu, uint64_t flags)
    1.43    maxv {
    1.43    maxv 	vcpu->comm->state_wanted = flags;
    1.43    maxv 	svm_vcpu_getstate(vcpu);
    1.43    maxv }
    1.43    maxv
    1.43    maxv static void
    1.43    maxv svm_vcpu_state_commit(struct nvmm_cpu *vcpu)
    1.43    maxv {
    1.43    maxv 	vcpu->comm->state_wanted = vcpu->comm->state_commit;
    1.43    maxv 	vcpu->comm->state_commit = 0;
    1.43    maxv 	svm_vcpu_setstate(vcpu);
     1.1    maxv }
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
     1.1    maxv static void
    1.30    maxv svm_asid_alloc(struct nvmm_cpu *vcpu)
    1.30    maxv {
    1.30    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.30    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.30    maxv 	size_t i, oct, bit;
    1.30    maxv
    1.30    maxv 	mutex_enter(&svm_asidlock);
    1.30    maxv
    1.30    maxv 	for (i = 0; i < svm_maxasid; i++) {
    1.30    maxv 		oct = i / 8;
    1.30    maxv 		bit = i % 8;
    1.30    maxv
    1.30    maxv 		if (svm_asidmap[oct] & __BIT(bit)) {
    1.30    maxv 			continue;
    1.30    maxv 		}
    1.30    maxv
    1.30    maxv 		svm_asidmap[oct] |= __BIT(bit);
    1.30    maxv 		vmcb->ctrl.guest_asid = i;
    1.30    maxv 		mutex_exit(&svm_asidlock);
    1.30    maxv 		return;
    1.30    maxv 	}
    1.30    maxv
    1.30    maxv 	/*
    1.30    maxv 	 * No free ASID. Use the last one, which is shared and requires
    1.30    maxv 	 * special TLB handling.
    1.30    maxv 	 */
    1.30    maxv 	cpudata->shared_asid = true;
    1.30    maxv 	vmcb->ctrl.guest_asid = svm_maxasid - 1;
    1.30    maxv 	mutex_exit(&svm_asidlock);
    1.30    maxv }
    1.30    maxv
    1.30    maxv static void
    1.30    maxv svm_asid_free(struct nvmm_cpu *vcpu)
    1.30    maxv {
    1.30    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.30    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.30    maxv 	size_t oct, bit;
    1.30    maxv
    1.30    maxv 	if (cpudata->shared_asid) {
    1.30    maxv 		return;
    1.30    maxv 	}
    1.30    maxv
    1.30    maxv 	oct = vmcb->ctrl.guest_asid / 8;
    1.30    maxv 	bit = vmcb->ctrl.guest_asid % 8;
    1.30    maxv
    1.30    maxv 	mutex_enter(&svm_asidlock);
    1.30    maxv 	svm_asidmap[oct] &= ~__BIT(bit);
    1.30    maxv 	mutex_exit(&svm_asidlock);
    1.30    maxv }
    1.30    maxv
    1.30    maxv static void
    1.30    maxv svm_vcpu_init(struct nvmm_machine *mach, struct nvmm_cpu *vcpu)
    1.30    maxv {
    1.30    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.30    maxv 	struct vmcb *vmcb = cpudata->vmcb;
    1.30    maxv
    1.30    maxv 	/* Allow reads/writes of Control Registers. */
    1.30    maxv 	vmcb->ctrl.intercept_cr = 0;
    1.30    maxv
    1.30    maxv 	/* Allow reads/writes of Debug Registers. */
    1.30    maxv 	vmcb->ctrl.intercept_dr = 0;
    1.30    maxv
    1.30    maxv 	/* Allow exceptions 0 to 31. */
    1.30    maxv 	vmcb->ctrl.intercept_vec = 0;
    1.30    maxv
    1.30    maxv 	/*
    1.30    maxv 	 * Allow:
    1.30    maxv 	 *  - SMI [smm interrupts]
    1.30    maxv 	 *  - VINTR [virtual interrupts]
    1.30    maxv 	 *  - CR0_SPEC [CR0 writes changing other fields than CR0.TS or CR0.MP]
    1.30    maxv 	 *  - RIDTR [reads of IDTR]
    1.30    maxv 	 *  - RGDTR [reads of GDTR]
    1.30    maxv 	 *  - RLDTR [reads of LDTR]
    1.30    maxv 	 *  - RTR [reads of TR]
    1.30    maxv 	 *  - WIDTR [writes of IDTR]
    1.30    maxv 	 *  - WGDTR [writes of GDTR]
    1.30    maxv 	 *  - WLDTR [writes of LDTR]
    1.30    maxv 	 *  - WTR [writes of TR]
    1.30    maxv 	 *  - RDTSC [rdtsc instruction]
    1.30    maxv 	 *  - PUSHF [pushf instruction]
    1.30    maxv 	 *  - POPF [popf instruction]
    1.30    maxv 	 *  - IRET [iret instruction]
    1.30    maxv 	 *  - INTN [int $n instructions]
    1.30    maxv 	 *  - INVD [invd instruction]
    1.30    maxv 	 *  - PAUSE [pause instruction]
    1.30    maxv 	 *  - INVLPG [invplg instruction]
    1.30    maxv 	 *  - TASKSW [task switches]
    1.30    maxv 	 *
    1.30    maxv 	 * Intercept the rest below.
    1.30    maxv 	 */
    1.30    maxv 	vmcb->ctrl.intercept_misc1 =
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_INTR |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_NMI |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_INIT |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_RDPMC |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_CPUID |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_RSM |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_HLT |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_INVLPGA |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_IOIO_PROT |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_MSR_PROT |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_FERR_FREEZE |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_SHUTDOWN;
    1.30    maxv
    1.30    maxv 	/*
    1.30    maxv 	 * Allow:
    1.30    maxv 	 *  - ICEBP [icebp instruction]
    1.30    maxv 	 *  - WBINVD [wbinvd instruction]
    1.30    maxv 	 *  - WCR_SPEC(0..15) [writes of CR0-15, received after instruction]
    1.30    maxv 	 *
    1.30    maxv 	 * Intercept the rest below.
    1.30    maxv 	 */
    1.30    maxv 	vmcb->ctrl.intercept_misc2 =
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_VMRUN |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_VMMCALL |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_VMLOAD |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_VMSAVE |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_STGI |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_CLGI |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_SKINIT |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_RDTSCP |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_MONITOR |
    1.30    maxv 	    VMCB_CTRL_INTERCEPT_MWAIT |
1.46.4.8  martin 	    VMCB_CTRL_INTERCEPT_XSETBV |
1.46.4.8  martin 	    VMCB_CTRL_INTERCEPT_RDPRU;
1.46.4.8  martin
1.46.4.8  martin 	/*
1.46.4.8  martin 	 * Intercept everything.
1.46.4.8  martin 	 */
1.46.4.8  martin 	vmcb->ctrl.intercept_misc3 =
1.46.4.8  martin 	    VMCB_CTRL_INTERCEPT_INVLPGB_ALL |
1.46.4.8  martin 	    VMCB_CTRL_INTERCEPT_PCID |
1.46.4.8  martin 	    VMCB_CTRL_INTERCEPT_MCOMMIT |
1.46.4.8  martin 	    VMCB_CTRL_INTERCEPT_TLBSYNC;
    1.30    maxv
    1.30    maxv 	/* Intercept all I/O accesses. */
    1.30    maxv 	memset(cpudata->iobm, 0xFF, IOBM_SIZE);
    1.30    maxv 	vmcb->ctrl.iopm_base_pa = cpudata->iobm_pa;
    1.30    maxv
    1.30    maxv 	/* Allow direct access to certain MSRs. */
    1.30    maxv 	memset(cpudata->msrbm, 0xFF, MSRBM_SIZE);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_EFER, true, false);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_STAR, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_LSTAR, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_CSTAR, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_SFMASK, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_KERNELGSBASE, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_SYSENTER_CS, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_SYSENTER_ESP, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_SYSENTER_EIP, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_FSBASE, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_GSBASE, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_CR_PAT, true, true);
    1.30    maxv 	svm_vcpu_msr_allow(cpudata->msrbm, MSR_TSC, true, false);
    1.30    maxv 	vmcb->ctrl.msrpm_base_pa = cpudata->msrbm_pa;
    1.30    maxv
    1.30    maxv 	/* Generate ASID. */
    1.30    maxv 	svm_asid_alloc(vcpu);
    1.30    maxv
    1.30    maxv 	/* Virtual TPR. */
    1.30    maxv 	vmcb->ctrl.v = VMCB_CTRL_V_INTR_MASKING;
    1.30    maxv
    1.30    maxv 	/* Enable Nested Paging. */
    1.30    maxv 	vmcb->ctrl.enable1 = VMCB_CTRL_ENABLE_NP;
    1.30    maxv 	vmcb->ctrl.n_cr3 = mach->vm->vm_map.pmap->pm_pdirpa[0];
    1.30    maxv
    1.30    maxv 	/* Init XSAVE header. */
    1.30    maxv 	cpudata->gfpu.xsh_xstate_bv = svm_xcr0_mask;
    1.30    maxv 	cpudata->gfpu.xsh_xcomp_bv = 0;
    1.30    maxv
    1.30    maxv 	/* These MSRs are static. */
    1.30    maxv 	cpudata->star = rdmsr(MSR_STAR);
    1.30    maxv 	cpudata->lstar = rdmsr(MSR_LSTAR);
    1.30    maxv 	cpudata->cstar = rdmsr(MSR_CSTAR);
    1.30    maxv 	cpudata->sfmask = rdmsr(MSR_SFMASK);
    1.31    maxv
    1.31    maxv 	/* Install the RESET state. */
    1.43    maxv 	memcpy(&vcpu->comm->state, &nvmm_x86_reset_state,
    1.43    maxv 	    sizeof(nvmm_x86_reset_state));
    1.43    maxv 	vcpu->comm->state_wanted = NVMM_X64_STATE_ALL;
    1.43    maxv 	vcpu->comm->state_cached = 0;
    1.43    maxv 	svm_vcpu_setstate(vcpu);
    1.30    maxv }
    1.30    maxv
    1.30    maxv static int
    1.30    maxv svm_vcpu_create(struct nvmm_machine *mach, struct nvmm_cpu *vcpu)
    1.30    maxv {
    1.30    maxv 	struct svm_cpudata *cpudata;
    1.30    maxv 	int error;
    1.30    maxv
    1.30    maxv 	/* Allocate the SVM cpudata. */
    1.30    maxv 	cpudata = (struct svm_cpudata *)uvm_km_alloc(kernel_map,
    1.30    maxv 	    roundup(sizeof(*cpudata), PAGE_SIZE), 0,
    1.30    maxv 	    UVM_KMF_WIRED|UVM_KMF_ZERO);
    1.30    maxv 	vcpu->cpudata = cpudata;
    1.30    maxv
    1.30    maxv 	/* VMCB */
    1.30    maxv 	error = svm_memalloc(&cpudata->vmcb_pa, (vaddr_t *)&cpudata->vmcb,
    1.30    maxv 	    VMCB_NPAGES);
    1.30    maxv 	if (error)
    1.30    maxv 		goto error;
    1.30    maxv
    1.30    maxv 	/* I/O Bitmap */
    1.30    maxv 	error = svm_memalloc(&cpudata->iobm_pa, (vaddr_t *)&cpudata->iobm,
    1.30    maxv 	    IOBM_NPAGES);
    1.30    maxv 	if (error)
    1.30    maxv 		goto error;
    1.30    maxv
    1.30    maxv 	/* MSR Bitmap */
    1.30    maxv 	error = svm_memalloc(&cpudata->msrbm_pa, (vaddr_t *)&cpudata->msrbm,
    1.30    maxv 	    MSRBM_NPAGES);
    1.30    maxv 	if (error)
    1.30    maxv 		goto error;
    1.30    maxv
    1.30    maxv 	/* Init the VCPU info. */
    1.30    maxv 	svm_vcpu_init(mach, vcpu);
    1.30    maxv
    1.30    maxv 	return 0;
    1.30    maxv
    1.30    maxv error:
    1.30    maxv 	if (cpudata->vmcb_pa) {
    1.30    maxv 		svm_memfree(cpudata->vmcb_pa, (vaddr_t)cpudata->vmcb,
    1.30    maxv 		    VMCB_NPAGES);
    1.30    maxv 	}
    1.30    maxv 	if (cpudata->iobm_pa) {
    1.30    maxv 		svm_memfree(cpudata->iobm_pa, (vaddr_t)cpudata->iobm,
    1.30    maxv 		    IOBM_NPAGES);
    1.30    maxv 	}
    1.30    maxv 	if (cpudata->msrbm_pa) {
    1.30    maxv 		svm_memfree(cpudata->msrbm_pa, (vaddr_t)cpudata->msrbm,
    1.30    maxv 		    MSRBM_NPAGES);
    1.30    maxv 	}
    1.30    maxv 	uvm_km_free(kernel_map, (vaddr_t)cpudata,
    1.30    maxv 	    roundup(sizeof(*cpudata), PAGE_SIZE), UVM_KMF_WIRED);
    1.30    maxv 	return error;
    1.30    maxv }
    1.30    maxv
    1.30    maxv static void
    1.30    maxv svm_vcpu_destroy(struct nvmm_machine *mach, struct nvmm_cpu *vcpu)
    1.30    maxv {
    1.30    maxv 	struct svm_cpudata *cpudata = vcpu->cpudata;
    1.30    maxv
    1.30    maxv 	svm_asid_free(vcpu);
    1.30    maxv
    1.30    maxv 	svm_memfree(cpudata->vmcb_pa, (vaddr_t)cpudata->vmcb, VMCB_NPAGES);
    1.30    maxv 	svm_memfree(cpudata->iobm_pa, (vaddr_t)cpudata->iobm, IOBM_NPAGES);
    1.30    maxv 	svm_memfree(cpudata->msrbm_pa, (vaddr_t)cpudata->msrbm, MSRBM_NPAGES);
    1.30    maxv
    1.30    maxv 	uvm_km_free(kernel_map, (vaddr_t)cpudata,
    1.30    maxv 	    roundup(sizeof(*cpudata), PAGE_SIZE), UVM_KMF_WIRED);
    1.30    maxv }
    1.30    maxv
    1.30    maxv /* -------------------------------------------------------------------------- */
    1.30    maxv
1.46.4.2  martin static int
1.46.4.2  martin svm_vcpu_configure_cpuid(struct svm_cpudata *cpudata, void *data)
1.46.4.2  martin {
1.46.4.2  martin 	struct nvmm_vcpu_conf_cpuid *cpuid = data;
1.46.4.2  martin 	size_t i;
1.46.4.2  martin
1.46.4.2  martin 	if (__predict_false(cpuid->mask && cpuid->exit)) {
1.46.4.2  martin 		return EINVAL;
1.46.4.2  martin 	}
1.46.4.2  martin 	if (__predict_false(cpuid->mask &&
1.46.4.2  martin 	    ((cpuid->u.mask.set.eax & cpuid->u.mask.del.eax) ||
1.46.4.2  martin 	     (cpuid->u.mask.set.ebx & cpuid->u.mask.del.ebx) ||
1.46.4.2  martin 	     (cpuid->u.mask.set.ecx & cpuid->u.mask.del.ecx) ||
1.46.4.2  martin 	     (cpuid->u.mask.set.edx & cpuid->u.mask.del.edx)))) {
1.46.4.2  martin 		return EINVAL;
1.46.4.2  martin 	}
1.46.4.2  martin
1.46.4.2  martin 	/* If unset, delete, to restore the default behavior. */
1.46.4.2  martin 	if (!cpuid->mask && !cpuid->exit) {
1.46.4.2  martin 		for (i = 0; i < SVM_NCPUIDS; i++) {
1.46.4.2  martin 			if (!cpudata->cpuidpresent[i]) {
1.46.4.2  martin 				continue;
1.46.4.2  martin 			}
1.46.4.2  martin 			if (cpudata->cpuid[i].leaf == cpuid->leaf) {
1.46.4.2  martin 				cpudata->cpuidpresent[i] = false;
1.46.4.2  martin 			}
1.46.4.2  martin 		}
1.46.4.2  martin 		return 0;
1.46.4.2  martin 	}
1.46.4.2  martin
1.46.4.2  martin 	/* If already here, replace. */
1.46.4.2  martin 	for (i = 0; i < SVM_NCPUIDS; i++) {
1.46.4.2  martin 		if (!cpudata->cpuidpresent[i]) {
1.46.4.2  martin 			continue;
1.46.4.2  martin 		}
1.46.4.2  martin 		if (cpudata->cpuid[i].leaf == cpuid->leaf) {
1.46.4.2  martin 			memcpy(&cpudata->cpuid[i], cpuid,
1.46.4.2  martin 			    sizeof(struct nvmm_vcpu_conf_cpuid));
1.46.4.2  martin 			return 0;
1.46.4.2  martin 		}
1.46.4.2  martin 	}
1.46.4.2  martin
1.46.4.2  martin 	/* Not here, insert. */
1.46.4.2  martin 	for (i = 0; i < SVM_NCPUIDS; i++) {
1.46.4.2  martin 		if (!cpudata->cpuidpresent[i]) {
1.46.4.2  martin 			cpudata->cpuidpresent[i] = true;
1.46.4.2  martin 			memcpy(&cpudata->cpuid[i], cpuid,
1.46.4.2  martin 			    sizeof(struct nvmm_vcpu_conf_cpuid));
1.46.4.2  martin 			return 0;
1.46.4.2  martin 		}
1.46.4.2  martin 	}
1.46.4.2  martin
1.46.4.2  martin 	return ENOBUFS;
1.46.4.2  martin }
1.46.4.2  martin
1.46.4.2  martin static int
1.46.4.2  martin svm_vcpu_configure(struct nvmm_cpu *vcpu, uint64_t op, void *data)
1.46.4.2  martin {
1.46.4.2  martin 	struct svm_cpudata *cpudata = vcpu->cpudata;
1.46.4.2  martin
1.46.4.2  martin 	switch (op) {
1.46.4.2  martin 	case NVMM_VCPU_CONF_MD(NVMM_VCPU_CONF_CPUID):
1.46.4.2  martin 		return svm_vcpu_configure_cpuid(cpudata, data);
1.46.4.2  martin 	default:
1.46.4.2  martin 		return EINVAL;
1.46.4.2  martin 	}
1.46.4.2  martin }
1.46.4.2  martin
1.46.4.2  martin /* -------------------------------------------------------------------------- */
1.46.4.2  martin
    1.30    maxv static void
     1.1    maxv svm_tlb_flush(struct pmap *pm)
     1.1    maxv {
     1.1    maxv 	struct nvmm_machine *mach = pm->pm_data;
    1.29    maxv 	struct svm_machdata *machdata = mach->machdata;
    1.29    maxv
    1.29    maxv 	atomic_inc_64(&machdata->mach_htlb_gen);
     1.1    maxv
    1.29    maxv 	/* Generates IPIs, which cause #VMEXITs. */
1.46.4.1  martin 	pmap_tlb_shootdown(pmap_kernel(), -1, PTE_G, TLBSHOOT_UPDATE);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_machine_create(struct nvmm_machine *mach)
     1.1    maxv {
    1.29    maxv 	struct svm_machdata *machdata;
    1.29    maxv
     1.1    maxv 	/* Fill in pmap info. */
     1.1    maxv 	mach->vm->vm_map.pmap->pm_data = (void *)mach;
     1.1    maxv 	mach->vm->vm_map.pmap->pm_tlb_flush = svm_tlb_flush;
     1.1    maxv
    1.29    maxv 	machdata = kmem_zalloc(sizeof(struct svm_machdata), KM_SLEEP);
    1.29    maxv 	mach->machdata = machdata;
    1.29    maxv
    1.29    maxv 	/* Start with an hTLB flush everywhere. */
    1.29    maxv 	machdata->mach_htlb_gen = 1;
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_machine_destroy(struct nvmm_machine *mach)
     1.1    maxv {
     1.1    maxv 	kmem_free(mach->machdata, sizeof(struct svm_machdata));
     1.1    maxv }
     1.1    maxv
     1.1    maxv static int
     1.1    maxv svm_machine_configure(struct nvmm_machine *mach, uint64_t op, void *data)
     1.1    maxv {
1.46.4.2  martin 	panic("%s: impossible", __func__);
     1.1    maxv }
     1.1    maxv
     1.1    maxv /* -------------------------------------------------------------------------- */
     1.1    maxv
     1.1    maxv static bool
     1.1    maxv svm_ident(void)
     1.1    maxv {
     1.1    maxv 	u_int descs[4];
     1.1    maxv 	uint64_t msr;
     1.1    maxv
     1.1    maxv 	if (cpu_vendor != CPUVENDOR_AMD) {
     1.1    maxv 		return false;
     1.1    maxv 	}
     1.1    maxv 	if (!(cpu_feature[3] & CPUID_SVM)) {
1.46.4.4  martin 		printf("NVMM: SVM not supported\n");
     1.1    maxv 		return false;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (curcpu()->ci_max_ext_cpuid < 0x8000000a) {
1.46.4.4  martin 		printf("NVMM: CPUID leaf not available\n");
     1.1    maxv 		return false;
     1.1    maxv 	}
     1.1    maxv 	x86_cpuid(0x8000000a, descs);
     1.1    maxv
     1.1    maxv 	/* Want Nested Paging. */
     1.1    maxv 	if (!(descs[3] & CPUID_AMD_SVM_NP)) {
1.46.4.4  martin 		printf("NVMM: SVM-NP not supported\n");
     1.1    maxv 		return false;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	/* Want nRIP. */
     1.1    maxv 	if (!(descs[3] & CPUID_AMD_SVM_NRIPS)) {
1.46.4.4  martin 		printf("NVMM: SVM-NRIPS not supported\n");
     1.1    maxv 		return false;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	svm_decode_assist = (descs[3] & CPUID_AMD_SVM_DecodeAssist) != 0;
     1.1    maxv
     1.1    maxv 	msr = rdmsr(MSR_VMCR);
     1.1    maxv 	if ((msr & VMCR_SVMED) && (msr & VMCR_LOCK)) {
1.46.4.4  martin 		printf("NVMM: SVM disabled in BIOS\n");
     1.1    maxv 		return false;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	return true;
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_init_asid(uint32_t maxasid)
     1.1    maxv {
     1.1    maxv 	size_t i, j, allocsz;
     1.1    maxv
     1.1    maxv 	mutex_init(&svm_asidlock, MUTEX_DEFAULT, IPL_NONE);
     1.1    maxv
     1.1    maxv 	/* Arbitrarily limit. */
     1.1    maxv 	maxasid = uimin(maxasid, 8192);
     1.1    maxv
     1.1    maxv 	svm_maxasid = maxasid;
     1.1    maxv 	allocsz = roundup(maxasid, 8) / 8;
     1.1    maxv 	svm_asidmap = kmem_zalloc(allocsz, KM_SLEEP);
     1.1    maxv
     1.1    maxv 	/* ASID 0 is reserved for the host. */
     1.1    maxv 	svm_asidmap[0] |= __BIT(0);
     1.1    maxv
     1.1    maxv 	/* ASID n-1 is special, we share it. */
     1.1    maxv 	i = (maxasid - 1) / 8;
     1.1    maxv 	j = (maxasid - 1) % 8;
     1.1    maxv 	svm_asidmap[i] |= __BIT(j);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_change_cpu(void *arg1, void *arg2)
     1.1    maxv {
1.46.4.7  martin 	bool enable = arg1 != NULL;
     1.1    maxv 	uint64_t msr;
     1.1    maxv
     1.1    maxv 	msr = rdmsr(MSR_VMCR);
     1.1    maxv 	if (msr & VMCR_SVMED) {
     1.1    maxv 		wrmsr(MSR_VMCR, msr & ~VMCR_SVMED);
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	if (!enable) {
     1.1    maxv 		wrmsr(MSR_VM_HSAVE_PA, 0);
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	msr = rdmsr(MSR_EFER);
     1.1    maxv 	if (enable) {
     1.1    maxv 		msr |= EFER_SVME;
     1.1    maxv 	} else {
     1.1    maxv 		msr &= ~EFER_SVME;
     1.1    maxv 	}
     1.1    maxv 	wrmsr(MSR_EFER, msr);
     1.1    maxv
     1.1    maxv 	if (enable) {
     1.1    maxv 		wrmsr(MSR_VM_HSAVE_PA, hsave[cpu_index(curcpu())].pa);
     1.1    maxv 	}
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_init(void)
     1.1    maxv {
     1.1    maxv 	CPU_INFO_ITERATOR cii;
     1.1    maxv 	struct cpu_info *ci;
     1.1    maxv 	struct vm_page *pg;
     1.1    maxv 	u_int descs[4];
     1.1    maxv 	uint64_t xc;
     1.1    maxv
     1.1    maxv 	x86_cpuid(0x8000000a, descs);
     1.1    maxv
     1.1    maxv 	/* The guest TLB flush command. */
     1.1    maxv 	if (descs[3] & CPUID_AMD_SVM_FlushByASID) {
     1.1    maxv 		svm_ctrl_tlb_flush = VMCB_CTRL_TLB_CTRL_FLUSH_GUEST;
     1.1    maxv 	} else {
     1.1    maxv 		svm_ctrl_tlb_flush = VMCB_CTRL_TLB_CTRL_FLUSH_ALL;
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	/* Init the ASID. */
     1.1    maxv 	svm_init_asid(descs[1]);
     1.1    maxv
     1.1    maxv 	/* Init the XCR0 mask. */
     1.1    maxv 	svm_xcr0_mask = SVM_XCR0_MASK_DEFAULT & x86_xsave_features;
     1.1    maxv
     1.1    maxv 	memset(hsave, 0, sizeof(hsave));
     1.1    maxv 	for (CPU_INFO_FOREACH(cii, ci)) {
     1.1    maxv 		pg = uvm_pagealloc(NULL, 0, NULL, UVM_PGA_ZERO);
     1.1    maxv 		hsave[cpu_index(ci)].pa = VM_PAGE_TO_PHYS(pg);
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	xc = xc_broadcast(0, svm_change_cpu, (void *)true, NULL);
     1.1    maxv 	xc_wait(xc);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_fini_asid(void)
     1.1    maxv {
     1.1    maxv 	size_t allocsz;
     1.1    maxv
     1.1    maxv 	allocsz = roundup(svm_maxasid, 8) / 8;
     1.1    maxv 	kmem_free(svm_asidmap, allocsz);
     1.1    maxv
     1.1    maxv 	mutex_destroy(&svm_asidlock);
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_fini(void)
     1.1    maxv {
     1.1    maxv 	uint64_t xc;
     1.1    maxv 	size_t i;
     1.1    maxv
     1.1    maxv 	xc = xc_broadcast(0, svm_change_cpu, (void *)false, NULL);
     1.1    maxv 	xc_wait(xc);
     1.1    maxv
     1.1    maxv 	for (i = 0; i < MAXCPUS; i++) {
     1.1    maxv 		if (hsave[i].pa != 0)
     1.1    maxv 			uvm_pagefree(PHYS_TO_VM_PAGE(hsave[i].pa));
     1.1    maxv 	}
     1.1    maxv
     1.1    maxv 	svm_fini_asid();
     1.1    maxv }
     1.1    maxv
     1.1    maxv static void
     1.1    maxv svm_capability(struct nvmm_capability *cap)
     1.1    maxv {
1.46.4.2  martin 	cap->arch.mach_conf_support = 0;
1.46.4.2  martin 	cap->arch.vcpu_conf_support =
1.46.4.2  martin 	    NVMM_CAP_ARCH_VCPU_CONF_CPUID;
    1.42    maxv 	cap->arch.xcr0_mask = svm_xcr0_mask;
    1.42    maxv 	cap->arch.mxcsr_mask = x86_fpu_mxcsr_mask;
    1.42    maxv 	cap->arch.conf_cpuid_maxops = SVM_NCPUIDS;
     1.1    maxv }
     1.1    maxv
     1.1    maxv const struct nvmm_impl nvmm_x86_svm = {
1.46.4.6  martin 	.name = "x86-svm",
     1.1    maxv 	.ident = svm_ident,
     1.1    maxv 	.init = svm_init,
     1.1    maxv 	.fini = svm_fini,
     1.1    maxv 	.capability = svm_capability,
1.46.4.2  martin 	.mach_conf_max = NVMM_X86_MACH_NCONF,
1.46.4.2  martin 	.mach_conf_sizes = NULL,
1.46.4.2  martin 	.vcpu_conf_max = NVMM_X86_VCPU_NCONF,
1.46.4.2  martin 	.vcpu_conf_sizes = svm_vcpu_conf_sizes,
     1.1    maxv 	.state_size = sizeof(struct nvmm_x64_state),
     1.1    maxv 	.machine_create = svm_machine_create,
     1.1    maxv 	.machine_destroy = svm_machine_destroy,
     1.1    maxv 	.machine_configure = svm_machine_configure,
     1.1    maxv 	.vcpu_create = svm_vcpu_create,
     1.1    maxv 	.vcpu_destroy = svm_vcpu_destroy,
1.46.4.2  martin 	.vcpu_configure = svm_vcpu_configure,
     1.1    maxv 	.vcpu_setstate = svm_vcpu_setstate,
     1.1    maxv 	.vcpu_getstate = svm_vcpu_getstate,
     1.1    maxv 	.vcpu_inject = svm_vcpu_inject,
     1.1    maxv 	.vcpu_run = svm_vcpu_run
     1.1    maxv };