nvmm_x86_svm.c revision 1.46.4.2
1 1.46.4.2 martin /* $NetBSD: nvmm_x86_svm.c,v 1.46.4.2 2019/11/10 12:58:30 martin Exp $ */ 2 1.1 maxv 3 1.1 maxv /* 4 1.46.4.2 martin * Copyright (c) 2018-2019 The NetBSD Foundation, Inc. 5 1.1 maxv * All rights reserved. 6 1.1 maxv * 7 1.1 maxv * This code is derived from software contributed to The NetBSD Foundation 8 1.1 maxv * by Maxime Villard. 9 1.1 maxv * 10 1.1 maxv * Redistribution and use in source and binary forms, with or without 11 1.1 maxv * modification, are permitted provided that the following conditions 12 1.1 maxv * are met: 13 1.1 maxv * 1. Redistributions of source code must retain the above copyright 14 1.1 maxv * notice, this list of conditions and the following disclaimer. 15 1.1 maxv * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 maxv * notice, this list of conditions and the following disclaimer in the 17 1.1 maxv * documentation and/or other materials provided with the distribution. 18 1.1 maxv * 19 1.1 maxv * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 maxv * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 maxv * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 maxv * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 maxv * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 maxv * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 maxv * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 maxv * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 maxv * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 maxv * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 maxv * POSSIBILITY OF SUCH DAMAGE. 30 1.1 maxv */ 31 1.1 maxv 32 1.1 maxv #include <sys/cdefs.h> 33 1.46.4.2 martin __KERNEL_RCSID(0, "$NetBSD: nvmm_x86_svm.c,v 1.46.4.2 2019/11/10 12:58:30 martin Exp $"); 34 1.1 maxv 35 1.1 maxv #include <sys/param.h> 36 1.1 maxv #include <sys/systm.h> 37 1.1 maxv #include <sys/kernel.h> 38 1.1 maxv #include <sys/kmem.h> 39 1.1 maxv #include <sys/cpu.h> 40 1.1 maxv #include <sys/xcall.h> 41 1.35 maxv #include <sys/mman.h> 42 1.1 maxv 43 1.1 maxv #include <uvm/uvm.h> 44 1.1 maxv #include <uvm/uvm_page.h> 45 1.1 maxv 46 1.1 maxv #include <x86/cputypes.h> 47 1.1 maxv #include <x86/specialreg.h> 48 1.1 maxv #include <x86/pmap.h> 49 1.1 maxv #include <x86/dbregs.h> 50 1.24 maxv #include <x86/cpu_counter.h> 51 1.1 maxv #include <machine/cpuvar.h> 52 1.1 maxv 53 1.1 maxv #include <dev/nvmm/nvmm.h> 54 1.1 maxv #include <dev/nvmm/nvmm_internal.h> 55 1.1 maxv #include <dev/nvmm/x86/nvmm_x86.h> 56 1.1 maxv 57 1.1 maxv int svm_vmrun(paddr_t, uint64_t *); 58 1.1 maxv 59 1.1 maxv #define MSR_VM_HSAVE_PA 0xC0010117 60 1.1 maxv 61 1.1 maxv /* -------------------------------------------------------------------------- */ 62 1.1 maxv 63 1.1 maxv #define VMCB_EXITCODE_CR0_READ 0x0000 64 1.1 maxv #define VMCB_EXITCODE_CR1_READ 0x0001 65 1.1 maxv #define VMCB_EXITCODE_CR2_READ 0x0002 66 1.1 maxv #define VMCB_EXITCODE_CR3_READ 0x0003 67 1.1 maxv #define VMCB_EXITCODE_CR4_READ 0x0004 68 1.1 maxv #define VMCB_EXITCODE_CR5_READ 0x0005 69 1.1 maxv #define VMCB_EXITCODE_CR6_READ 0x0006 70 1.1 maxv #define VMCB_EXITCODE_CR7_READ 0x0007 71 1.1 maxv #define VMCB_EXITCODE_CR8_READ 0x0008 72 1.1 maxv #define VMCB_EXITCODE_CR9_READ 0x0009 73 1.1 maxv #define VMCB_EXITCODE_CR10_READ 0x000A 74 1.1 maxv #define VMCB_EXITCODE_CR11_READ 0x000B 75 1.1 maxv #define VMCB_EXITCODE_CR12_READ 0x000C 76 1.1 maxv #define VMCB_EXITCODE_CR13_READ 0x000D 77 1.1 maxv #define VMCB_EXITCODE_CR14_READ 0x000E 78 1.1 maxv #define VMCB_EXITCODE_CR15_READ 0x000F 79 1.1 maxv #define VMCB_EXITCODE_CR0_WRITE 0x0010 80 1.1 maxv #define VMCB_EXITCODE_CR1_WRITE 0x0011 81 1.1 maxv #define VMCB_EXITCODE_CR2_WRITE 0x0012 82 1.1 maxv #define VMCB_EXITCODE_CR3_WRITE 0x0013 83 1.1 maxv #define VMCB_EXITCODE_CR4_WRITE 0x0014 84 1.1 maxv #define VMCB_EXITCODE_CR5_WRITE 0x0015 85 1.1 maxv #define VMCB_EXITCODE_CR6_WRITE 0x0016 86 1.1 maxv #define VMCB_EXITCODE_CR7_WRITE 0x0017 87 1.1 maxv #define VMCB_EXITCODE_CR8_WRITE 0x0018 88 1.1 maxv #define VMCB_EXITCODE_CR9_WRITE 0x0019 89 1.1 maxv #define VMCB_EXITCODE_CR10_WRITE 0x001A 90 1.1 maxv #define VMCB_EXITCODE_CR11_WRITE 0x001B 91 1.1 maxv #define VMCB_EXITCODE_CR12_WRITE 0x001C 92 1.1 maxv #define VMCB_EXITCODE_CR13_WRITE 0x001D 93 1.1 maxv #define VMCB_EXITCODE_CR14_WRITE 0x001E 94 1.1 maxv #define VMCB_EXITCODE_CR15_WRITE 0x001F 95 1.1 maxv #define VMCB_EXITCODE_DR0_READ 0x0020 96 1.1 maxv #define VMCB_EXITCODE_DR1_READ 0x0021 97 1.1 maxv #define VMCB_EXITCODE_DR2_READ 0x0022 98 1.1 maxv #define VMCB_EXITCODE_DR3_READ 0x0023 99 1.1 maxv #define VMCB_EXITCODE_DR4_READ 0x0024 100 1.1 maxv #define VMCB_EXITCODE_DR5_READ 0x0025 101 1.1 maxv #define VMCB_EXITCODE_DR6_READ 0x0026 102 1.1 maxv #define VMCB_EXITCODE_DR7_READ 0x0027 103 1.1 maxv #define VMCB_EXITCODE_DR8_READ 0x0028 104 1.1 maxv #define VMCB_EXITCODE_DR9_READ 0x0029 105 1.1 maxv #define VMCB_EXITCODE_DR10_READ 0x002A 106 1.1 maxv #define VMCB_EXITCODE_DR11_READ 0x002B 107 1.1 maxv #define VMCB_EXITCODE_DR12_READ 0x002C 108 1.1 maxv #define VMCB_EXITCODE_DR13_READ 0x002D 109 1.1 maxv #define VMCB_EXITCODE_DR14_READ 0x002E 110 1.1 maxv #define VMCB_EXITCODE_DR15_READ 0x002F 111 1.1 maxv #define VMCB_EXITCODE_DR0_WRITE 0x0030 112 1.1 maxv #define VMCB_EXITCODE_DR1_WRITE 0x0031 113 1.1 maxv #define VMCB_EXITCODE_DR2_WRITE 0x0032 114 1.1 maxv #define VMCB_EXITCODE_DR3_WRITE 0x0033 115 1.1 maxv #define VMCB_EXITCODE_DR4_WRITE 0x0034 116 1.1 maxv #define VMCB_EXITCODE_DR5_WRITE 0x0035 117 1.1 maxv #define VMCB_EXITCODE_DR6_WRITE 0x0036 118 1.1 maxv #define VMCB_EXITCODE_DR7_WRITE 0x0037 119 1.1 maxv #define VMCB_EXITCODE_DR8_WRITE 0x0038 120 1.1 maxv #define VMCB_EXITCODE_DR9_WRITE 0x0039 121 1.1 maxv #define VMCB_EXITCODE_DR10_WRITE 0x003A 122 1.1 maxv #define VMCB_EXITCODE_DR11_WRITE 0x003B 123 1.1 maxv #define VMCB_EXITCODE_DR12_WRITE 0x003C 124 1.1 maxv #define VMCB_EXITCODE_DR13_WRITE 0x003D 125 1.1 maxv #define VMCB_EXITCODE_DR14_WRITE 0x003E 126 1.1 maxv #define VMCB_EXITCODE_DR15_WRITE 0x003F 127 1.1 maxv #define VMCB_EXITCODE_EXCP0 0x0040 128 1.1 maxv #define VMCB_EXITCODE_EXCP1 0x0041 129 1.1 maxv #define VMCB_EXITCODE_EXCP2 0x0042 130 1.1 maxv #define VMCB_EXITCODE_EXCP3 0x0043 131 1.1 maxv #define VMCB_EXITCODE_EXCP4 0x0044 132 1.1 maxv #define VMCB_EXITCODE_EXCP5 0x0045 133 1.1 maxv #define VMCB_EXITCODE_EXCP6 0x0046 134 1.1 maxv #define VMCB_EXITCODE_EXCP7 0x0047 135 1.1 maxv #define VMCB_EXITCODE_EXCP8 0x0048 136 1.1 maxv #define VMCB_EXITCODE_EXCP9 0x0049 137 1.1 maxv #define VMCB_EXITCODE_EXCP10 0x004A 138 1.1 maxv #define VMCB_EXITCODE_EXCP11 0x004B 139 1.1 maxv #define VMCB_EXITCODE_EXCP12 0x004C 140 1.1 maxv #define VMCB_EXITCODE_EXCP13 0x004D 141 1.1 maxv #define VMCB_EXITCODE_EXCP14 0x004E 142 1.1 maxv #define VMCB_EXITCODE_EXCP15 0x004F 143 1.1 maxv #define VMCB_EXITCODE_EXCP16 0x0050 144 1.1 maxv #define VMCB_EXITCODE_EXCP17 0x0051 145 1.1 maxv #define VMCB_EXITCODE_EXCP18 0x0052 146 1.1 maxv #define VMCB_EXITCODE_EXCP19 0x0053 147 1.1 maxv #define VMCB_EXITCODE_EXCP20 0x0054 148 1.1 maxv #define VMCB_EXITCODE_EXCP21 0x0055 149 1.1 maxv #define VMCB_EXITCODE_EXCP22 0x0056 150 1.1 maxv #define VMCB_EXITCODE_EXCP23 0x0057 151 1.1 maxv #define VMCB_EXITCODE_EXCP24 0x0058 152 1.1 maxv #define VMCB_EXITCODE_EXCP25 0x0059 153 1.1 maxv #define VMCB_EXITCODE_EXCP26 0x005A 154 1.1 maxv #define VMCB_EXITCODE_EXCP27 0x005B 155 1.1 maxv #define VMCB_EXITCODE_EXCP28 0x005C 156 1.1 maxv #define VMCB_EXITCODE_EXCP29 0x005D 157 1.1 maxv #define VMCB_EXITCODE_EXCP30 0x005E 158 1.1 maxv #define VMCB_EXITCODE_EXCP31 0x005F 159 1.1 maxv #define VMCB_EXITCODE_INTR 0x0060 160 1.1 maxv #define VMCB_EXITCODE_NMI 0x0061 161 1.1 maxv #define VMCB_EXITCODE_SMI 0x0062 162 1.1 maxv #define VMCB_EXITCODE_INIT 0x0063 163 1.1 maxv #define VMCB_EXITCODE_VINTR 0x0064 164 1.1 maxv #define VMCB_EXITCODE_CR0_SEL_WRITE 0x0065 165 1.1 maxv #define VMCB_EXITCODE_IDTR_READ 0x0066 166 1.1 maxv #define VMCB_EXITCODE_GDTR_READ 0x0067 167 1.1 maxv #define VMCB_EXITCODE_LDTR_READ 0x0068 168 1.1 maxv #define VMCB_EXITCODE_TR_READ 0x0069 169 1.1 maxv #define VMCB_EXITCODE_IDTR_WRITE 0x006A 170 1.1 maxv #define VMCB_EXITCODE_GDTR_WRITE 0x006B 171 1.1 maxv #define VMCB_EXITCODE_LDTR_WRITE 0x006C 172 1.1 maxv #define VMCB_EXITCODE_TR_WRITE 0x006D 173 1.1 maxv #define VMCB_EXITCODE_RDTSC 0x006E 174 1.1 maxv #define VMCB_EXITCODE_RDPMC 0x006F 175 1.1 maxv #define VMCB_EXITCODE_PUSHF 0x0070 176 1.1 maxv #define VMCB_EXITCODE_POPF 0x0071 177 1.1 maxv #define VMCB_EXITCODE_CPUID 0x0072 178 1.1 maxv #define VMCB_EXITCODE_RSM 0x0073 179 1.1 maxv #define VMCB_EXITCODE_IRET 0x0074 180 1.1 maxv #define VMCB_EXITCODE_SWINT 0x0075 181 1.1 maxv #define VMCB_EXITCODE_INVD 0x0076 182 1.1 maxv #define VMCB_EXITCODE_PAUSE 0x0077 183 1.1 maxv #define VMCB_EXITCODE_HLT 0x0078 184 1.1 maxv #define VMCB_EXITCODE_INVLPG 0x0079 185 1.1 maxv #define VMCB_EXITCODE_INVLPGA 0x007A 186 1.1 maxv #define VMCB_EXITCODE_IOIO 0x007B 187 1.1 maxv #define VMCB_EXITCODE_MSR 0x007C 188 1.1 maxv #define VMCB_EXITCODE_TASK_SWITCH 0x007D 189 1.1 maxv #define VMCB_EXITCODE_FERR_FREEZE 0x007E 190 1.1 maxv #define VMCB_EXITCODE_SHUTDOWN 0x007F 191 1.1 maxv #define VMCB_EXITCODE_VMRUN 0x0080 192 1.1 maxv #define VMCB_EXITCODE_VMMCALL 0x0081 193 1.1 maxv #define VMCB_EXITCODE_VMLOAD 0x0082 194 1.1 maxv #define VMCB_EXITCODE_VMSAVE 0x0083 195 1.1 maxv #define VMCB_EXITCODE_STGI 0x0084 196 1.1 maxv #define VMCB_EXITCODE_CLGI 0x0085 197 1.1 maxv #define VMCB_EXITCODE_SKINIT 0x0086 198 1.1 maxv #define VMCB_EXITCODE_RDTSCP 0x0087 199 1.1 maxv #define VMCB_EXITCODE_ICEBP 0x0088 200 1.1 maxv #define VMCB_EXITCODE_WBINVD 0x0089 201 1.1 maxv #define VMCB_EXITCODE_MONITOR 0x008A 202 1.1 maxv #define VMCB_EXITCODE_MWAIT 0x008B 203 1.1 maxv #define VMCB_EXITCODE_MWAIT_CONDITIONAL 0x008C 204 1.1 maxv #define VMCB_EXITCODE_XSETBV 0x008D 205 1.46.4.1 martin #define VMCB_EXITCODE_RDPRU 0x008E 206 1.1 maxv #define VMCB_EXITCODE_EFER_WRITE_TRAP 0x008F 207 1.1 maxv #define VMCB_EXITCODE_CR0_WRITE_TRAP 0x0090 208 1.1 maxv #define VMCB_EXITCODE_CR1_WRITE_TRAP 0x0091 209 1.1 maxv #define VMCB_EXITCODE_CR2_WRITE_TRAP 0x0092 210 1.1 maxv #define VMCB_EXITCODE_CR3_WRITE_TRAP 0x0093 211 1.1 maxv #define VMCB_EXITCODE_CR4_WRITE_TRAP 0x0094 212 1.1 maxv #define VMCB_EXITCODE_CR5_WRITE_TRAP 0x0095 213 1.1 maxv #define VMCB_EXITCODE_CR6_WRITE_TRAP 0x0096 214 1.1 maxv #define VMCB_EXITCODE_CR7_WRITE_TRAP 0x0097 215 1.1 maxv #define VMCB_EXITCODE_CR8_WRITE_TRAP 0x0098 216 1.1 maxv #define VMCB_EXITCODE_CR9_WRITE_TRAP 0x0099 217 1.1 maxv #define VMCB_EXITCODE_CR10_WRITE_TRAP 0x009A 218 1.1 maxv #define VMCB_EXITCODE_CR11_WRITE_TRAP 0x009B 219 1.1 maxv #define VMCB_EXITCODE_CR12_WRITE_TRAP 0x009C 220 1.1 maxv #define VMCB_EXITCODE_CR13_WRITE_TRAP 0x009D 221 1.1 maxv #define VMCB_EXITCODE_CR14_WRITE_TRAP 0x009E 222 1.1 maxv #define VMCB_EXITCODE_CR15_WRITE_TRAP 0x009F 223 1.46.4.1 martin #define VMCB_EXITCODE_MCOMMIT 0x00A3 224 1.1 maxv #define VMCB_EXITCODE_NPF 0x0400 225 1.1 maxv #define VMCB_EXITCODE_AVIC_INCOMP_IPI 0x0401 226 1.1 maxv #define VMCB_EXITCODE_AVIC_NOACCEL 0x0402 227 1.1 maxv #define VMCB_EXITCODE_VMGEXIT 0x0403 228 1.1 maxv #define VMCB_EXITCODE_INVALID -1 229 1.1 maxv 230 1.1 maxv /* -------------------------------------------------------------------------- */ 231 1.1 maxv 232 1.1 maxv struct vmcb_ctrl { 233 1.1 maxv uint32_t intercept_cr; 234 1.1 maxv #define VMCB_CTRL_INTERCEPT_RCR(x) __BIT( 0 + x) 235 1.1 maxv #define VMCB_CTRL_INTERCEPT_WCR(x) __BIT(16 + x) 236 1.1 maxv 237 1.1 maxv uint32_t intercept_dr; 238 1.1 maxv #define VMCB_CTRL_INTERCEPT_RDR(x) __BIT( 0 + x) 239 1.1 maxv #define VMCB_CTRL_INTERCEPT_WDR(x) __BIT(16 + x) 240 1.1 maxv 241 1.1 maxv uint32_t intercept_vec; 242 1.1 maxv #define VMCB_CTRL_INTERCEPT_VEC(x) __BIT(x) 243 1.1 maxv 244 1.1 maxv uint32_t intercept_misc1; 245 1.1 maxv #define VMCB_CTRL_INTERCEPT_INTR __BIT(0) 246 1.1 maxv #define VMCB_CTRL_INTERCEPT_NMI __BIT(1) 247 1.1 maxv #define VMCB_CTRL_INTERCEPT_SMI __BIT(2) 248 1.1 maxv #define VMCB_CTRL_INTERCEPT_INIT __BIT(3) 249 1.1 maxv #define VMCB_CTRL_INTERCEPT_VINTR __BIT(4) 250 1.1 maxv #define VMCB_CTRL_INTERCEPT_CR0_SPEC __BIT(5) 251 1.1 maxv #define VMCB_CTRL_INTERCEPT_RIDTR __BIT(6) 252 1.1 maxv #define VMCB_CTRL_INTERCEPT_RGDTR __BIT(7) 253 1.1 maxv #define VMCB_CTRL_INTERCEPT_RLDTR __BIT(8) 254 1.1 maxv #define VMCB_CTRL_INTERCEPT_RTR __BIT(9) 255 1.1 maxv #define VMCB_CTRL_INTERCEPT_WIDTR __BIT(10) 256 1.1 maxv #define VMCB_CTRL_INTERCEPT_WGDTR __BIT(11) 257 1.1 maxv #define VMCB_CTRL_INTERCEPT_WLDTR __BIT(12) 258 1.1 maxv #define VMCB_CTRL_INTERCEPT_WTR __BIT(13) 259 1.1 maxv #define VMCB_CTRL_INTERCEPT_RDTSC __BIT(14) 260 1.1 maxv #define VMCB_CTRL_INTERCEPT_RDPMC __BIT(15) 261 1.1 maxv #define VMCB_CTRL_INTERCEPT_PUSHF __BIT(16) 262 1.1 maxv #define VMCB_CTRL_INTERCEPT_POPF __BIT(17) 263 1.1 maxv #define VMCB_CTRL_INTERCEPT_CPUID __BIT(18) 264 1.1 maxv #define VMCB_CTRL_INTERCEPT_RSM __BIT(19) 265 1.1 maxv #define VMCB_CTRL_INTERCEPT_IRET __BIT(20) 266 1.1 maxv #define VMCB_CTRL_INTERCEPT_INTN __BIT(21) 267 1.1 maxv #define VMCB_CTRL_INTERCEPT_INVD __BIT(22) 268 1.1 maxv #define VMCB_CTRL_INTERCEPT_PAUSE __BIT(23) 269 1.1 maxv #define VMCB_CTRL_INTERCEPT_HLT __BIT(24) 270 1.1 maxv #define VMCB_CTRL_INTERCEPT_INVLPG __BIT(25) 271 1.1 maxv #define VMCB_CTRL_INTERCEPT_INVLPGA __BIT(26) 272 1.1 maxv #define VMCB_CTRL_INTERCEPT_IOIO_PROT __BIT(27) 273 1.1 maxv #define VMCB_CTRL_INTERCEPT_MSR_PROT __BIT(28) 274 1.1 maxv #define VMCB_CTRL_INTERCEPT_TASKSW __BIT(29) 275 1.1 maxv #define VMCB_CTRL_INTERCEPT_FERR_FREEZE __BIT(30) 276 1.1 maxv #define VMCB_CTRL_INTERCEPT_SHUTDOWN __BIT(31) 277 1.1 maxv 278 1.1 maxv uint32_t intercept_misc2; 279 1.1 maxv #define VMCB_CTRL_INTERCEPT_VMRUN __BIT(0) 280 1.1 maxv #define VMCB_CTRL_INTERCEPT_VMMCALL __BIT(1) 281 1.1 maxv #define VMCB_CTRL_INTERCEPT_VMLOAD __BIT(2) 282 1.1 maxv #define VMCB_CTRL_INTERCEPT_VMSAVE __BIT(3) 283 1.1 maxv #define VMCB_CTRL_INTERCEPT_STGI __BIT(4) 284 1.1 maxv #define VMCB_CTRL_INTERCEPT_CLGI __BIT(5) 285 1.1 maxv #define VMCB_CTRL_INTERCEPT_SKINIT __BIT(6) 286 1.1 maxv #define VMCB_CTRL_INTERCEPT_RDTSCP __BIT(7) 287 1.1 maxv #define VMCB_CTRL_INTERCEPT_ICEBP __BIT(8) 288 1.1 maxv #define VMCB_CTRL_INTERCEPT_WBINVD __BIT(9) 289 1.1 maxv #define VMCB_CTRL_INTERCEPT_MONITOR __BIT(10) 290 1.46.4.1 martin #define VMCB_CTRL_INTERCEPT_MWAIT __BIT(11) 291 1.46.4.1 martin #define VMCB_CTRL_INTERCEPT_MWAIT_ARMED __BIT(12) 292 1.1 maxv #define VMCB_CTRL_INTERCEPT_XSETBV __BIT(13) 293 1.46.4.1 martin #define VMCB_CTRL_INTERCEPT_RDPRU __BIT(14) 294 1.1 maxv #define VMCB_CTRL_INTERCEPT_EFER_SPEC __BIT(15) 295 1.1 maxv #define VMCB_CTRL_INTERCEPT_WCR_SPEC(x) __BIT(16 + x) 296 1.1 maxv 297 1.46.4.1 martin uint32_t intercept_misc3; 298 1.46.4.1 martin #define VMCB_CTRL_INTERCEPT_MCOMMIT __BIT(3) 299 1.46.4.1 martin 300 1.46.4.1 martin uint8_t rsvd1[36]; 301 1.1 maxv uint16_t pause_filt_thresh; 302 1.1 maxv uint16_t pause_filt_cnt; 303 1.1 maxv uint64_t iopm_base_pa; 304 1.1 maxv uint64_t msrpm_base_pa; 305 1.1 maxv uint64_t tsc_offset; 306 1.1 maxv uint32_t guest_asid; 307 1.1 maxv 308 1.1 maxv uint32_t tlb_ctrl; 309 1.1 maxv #define VMCB_CTRL_TLB_CTRL_FLUSH_ALL 0x01 310 1.1 maxv #define VMCB_CTRL_TLB_CTRL_FLUSH_GUEST 0x03 311 1.1 maxv #define VMCB_CTRL_TLB_CTRL_FLUSH_GUEST_NONGLOBAL 0x07 312 1.1 maxv 313 1.1 maxv uint64_t v; 314 1.34 maxv #define VMCB_CTRL_V_TPR __BITS(3,0) 315 1.1 maxv #define VMCB_CTRL_V_IRQ __BIT(8) 316 1.1 maxv #define VMCB_CTRL_V_VGIF __BIT(9) 317 1.1 maxv #define VMCB_CTRL_V_INTR_PRIO __BITS(19,16) 318 1.1 maxv #define VMCB_CTRL_V_IGN_TPR __BIT(20) 319 1.1 maxv #define VMCB_CTRL_V_INTR_MASKING __BIT(24) 320 1.1 maxv #define VMCB_CTRL_V_GUEST_VGIF __BIT(25) 321 1.1 maxv #define VMCB_CTRL_V_AVIC_EN __BIT(31) 322 1.1 maxv #define VMCB_CTRL_V_INTR_VECTOR __BITS(39,32) 323 1.1 maxv 324 1.1 maxv uint64_t intr; 325 1.1 maxv #define VMCB_CTRL_INTR_SHADOW __BIT(0) 326 1.1 maxv 327 1.1 maxv uint64_t exitcode; 328 1.1 maxv uint64_t exitinfo1; 329 1.1 maxv uint64_t exitinfo2; 330 1.1 maxv 331 1.1 maxv uint64_t exitintinfo; 332 1.1 maxv #define VMCB_CTRL_EXITINTINFO_VECTOR __BITS(7,0) 333 1.1 maxv #define VMCB_CTRL_EXITINTINFO_TYPE __BITS(10,8) 334 1.1 maxv #define VMCB_CTRL_EXITINTINFO_EV __BIT(11) 335 1.1 maxv #define VMCB_CTRL_EXITINTINFO_V __BIT(31) 336 1.1 maxv #define VMCB_CTRL_EXITINTINFO_ERRORCODE __BITS(63,32) 337 1.1 maxv 338 1.1 maxv uint64_t enable1; 339 1.1 maxv #define VMCB_CTRL_ENABLE_NP __BIT(0) 340 1.1 maxv #define VMCB_CTRL_ENABLE_SEV __BIT(1) 341 1.1 maxv #define VMCB_CTRL_ENABLE_ES_SEV __BIT(2) 342 1.46.4.1 martin #define VMCB_CTRL_ENABLE_GMET __BIT(3) 343 1.46.4.1 martin #define VMCB_CTRL_ENABLE_VTE __BIT(5) 344 1.1 maxv 345 1.1 maxv uint64_t avic; 346 1.1 maxv #define VMCB_CTRL_AVIC_APIC_BAR __BITS(51,0) 347 1.1 maxv 348 1.1 maxv uint64_t ghcb; 349 1.1 maxv 350 1.1 maxv uint64_t eventinj; 351 1.1 maxv #define VMCB_CTRL_EVENTINJ_VECTOR __BITS(7,0) 352 1.1 maxv #define VMCB_CTRL_EVENTINJ_TYPE __BITS(10,8) 353 1.1 maxv #define VMCB_CTRL_EVENTINJ_EV __BIT(11) 354 1.1 maxv #define VMCB_CTRL_EVENTINJ_V __BIT(31) 355 1.1 maxv #define VMCB_CTRL_EVENTINJ_ERRORCODE __BITS(63,32) 356 1.1 maxv 357 1.1 maxv uint64_t n_cr3; 358 1.1 maxv 359 1.1 maxv uint64_t enable2; 360 1.1 maxv #define VMCB_CTRL_ENABLE_LBR __BIT(0) 361 1.1 maxv #define VMCB_CTRL_ENABLE_VVMSAVE __BIT(1) 362 1.1 maxv 363 1.1 maxv uint32_t vmcb_clean; 364 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_I __BIT(0) 365 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_IOPM __BIT(1) 366 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_ASID __BIT(2) 367 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_TPR __BIT(3) 368 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_NP __BIT(4) 369 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_CR __BIT(5) 370 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_DR __BIT(6) 371 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_DT __BIT(7) 372 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_SEG __BIT(8) 373 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_CR2 __BIT(9) 374 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_LBR __BIT(10) 375 1.1 maxv #define VMCB_CTRL_VMCB_CLEAN_AVIC __BIT(11) 376 1.1 maxv 377 1.1 maxv uint32_t rsvd2; 378 1.1 maxv uint64_t nrip; 379 1.1 maxv uint8_t inst_len; 380 1.1 maxv uint8_t inst_bytes[15]; 381 1.11 maxv uint64_t avic_abpp; 382 1.11 maxv uint64_t rsvd3; 383 1.11 maxv uint64_t avic_ltp; 384 1.11 maxv 385 1.11 maxv uint64_t avic_phys; 386 1.11 maxv #define VMCB_CTRL_AVIC_PHYS_TABLE_PTR __BITS(51,12) 387 1.11 maxv #define VMCB_CTRL_AVIC_PHYS_MAX_INDEX __BITS(7,0) 388 1.11 maxv 389 1.11 maxv uint64_t rsvd4; 390 1.11 maxv uint64_t vmcb_ptr; 391 1.11 maxv 392 1.11 maxv uint8_t pad[752]; 393 1.1 maxv } __packed; 394 1.1 maxv 395 1.1 maxv CTASSERT(sizeof(struct vmcb_ctrl) == 1024); 396 1.1 maxv 397 1.1 maxv struct vmcb_segment { 398 1.1 maxv uint16_t selector; 399 1.1 maxv uint16_t attrib; /* hidden */ 400 1.1 maxv uint32_t limit; /* hidden */ 401 1.1 maxv uint64_t base; /* hidden */ 402 1.1 maxv } __packed; 403 1.1 maxv 404 1.1 maxv CTASSERT(sizeof(struct vmcb_segment) == 16); 405 1.1 maxv 406 1.1 maxv struct vmcb_state { 407 1.1 maxv struct vmcb_segment es; 408 1.1 maxv struct vmcb_segment cs; 409 1.1 maxv struct vmcb_segment ss; 410 1.1 maxv struct vmcb_segment ds; 411 1.1 maxv struct vmcb_segment fs; 412 1.1 maxv struct vmcb_segment gs; 413 1.1 maxv struct vmcb_segment gdt; 414 1.1 maxv struct vmcb_segment ldt; 415 1.1 maxv struct vmcb_segment idt; 416 1.1 maxv struct vmcb_segment tr; 417 1.1 maxv uint8_t rsvd1[43]; 418 1.1 maxv uint8_t cpl; 419 1.1 maxv uint8_t rsvd2[4]; 420 1.1 maxv uint64_t efer; 421 1.1 maxv uint8_t rsvd3[112]; 422 1.1 maxv uint64_t cr4; 423 1.1 maxv uint64_t cr3; 424 1.1 maxv uint64_t cr0; 425 1.1 maxv uint64_t dr7; 426 1.1 maxv uint64_t dr6; 427 1.1 maxv uint64_t rflags; 428 1.1 maxv uint64_t rip; 429 1.1 maxv uint8_t rsvd4[88]; 430 1.1 maxv uint64_t rsp; 431 1.1 maxv uint8_t rsvd5[24]; 432 1.1 maxv uint64_t rax; 433 1.1 maxv uint64_t star; 434 1.1 maxv uint64_t lstar; 435 1.1 maxv uint64_t cstar; 436 1.1 maxv uint64_t sfmask; 437 1.1 maxv uint64_t kernelgsbase; 438 1.1 maxv uint64_t sysenter_cs; 439 1.1 maxv uint64_t sysenter_esp; 440 1.1 maxv uint64_t sysenter_eip; 441 1.1 maxv uint64_t cr2; 442 1.1 maxv uint8_t rsvd6[32]; 443 1.1 maxv uint64_t g_pat; 444 1.1 maxv uint64_t dbgctl; 445 1.1 maxv uint64_t br_from; 446 1.1 maxv uint64_t br_to; 447 1.1 maxv uint64_t int_from; 448 1.1 maxv uint64_t int_to; 449 1.1 maxv uint8_t pad[2408]; 450 1.1 maxv } __packed; 451 1.1 maxv 452 1.1 maxv CTASSERT(sizeof(struct vmcb_state) == 0xC00); 453 1.1 maxv 454 1.1 maxv struct vmcb { 455 1.1 maxv struct vmcb_ctrl ctrl; 456 1.1 maxv struct vmcb_state state; 457 1.1 maxv } __packed; 458 1.1 maxv 459 1.1 maxv CTASSERT(sizeof(struct vmcb) == PAGE_SIZE); 460 1.1 maxv CTASSERT(offsetof(struct vmcb, state) == 0x400); 461 1.1 maxv 462 1.1 maxv /* -------------------------------------------------------------------------- */ 463 1.1 maxv 464 1.43 maxv static void svm_vcpu_state_provide(struct nvmm_cpu *, uint64_t); 465 1.43 maxv static void svm_vcpu_state_commit(struct nvmm_cpu *); 466 1.43 maxv 467 1.1 maxv struct svm_hsave { 468 1.1 maxv paddr_t pa; 469 1.1 maxv }; 470 1.1 maxv 471 1.1 maxv static struct svm_hsave hsave[MAXCPUS]; 472 1.1 maxv 473 1.1 maxv static uint8_t *svm_asidmap __read_mostly; 474 1.1 maxv static uint32_t svm_maxasid __read_mostly; 475 1.1 maxv static kmutex_t svm_asidlock __cacheline_aligned; 476 1.1 maxv 477 1.1 maxv static bool svm_decode_assist __read_mostly; 478 1.1 maxv static uint32_t svm_ctrl_tlb_flush __read_mostly; 479 1.1 maxv 480 1.1 maxv #define SVM_XCR0_MASK_DEFAULT (XCR0_X87|XCR0_SSE) 481 1.1 maxv static uint64_t svm_xcr0_mask __read_mostly; 482 1.1 maxv 483 1.1 maxv #define SVM_NCPUIDS 32 484 1.1 maxv 485 1.1 maxv #define VMCB_NPAGES 1 486 1.1 maxv 487 1.1 maxv #define MSRBM_NPAGES 2 488 1.1 maxv #define MSRBM_SIZE (MSRBM_NPAGES * PAGE_SIZE) 489 1.1 maxv 490 1.1 maxv #define IOBM_NPAGES 3 491 1.1 maxv #define IOBM_SIZE (IOBM_NPAGES * PAGE_SIZE) 492 1.1 maxv 493 1.1 maxv /* Does not include EFER_LMSLE. */ 494 1.1 maxv #define EFER_VALID \ 495 1.1 maxv (EFER_SCE|EFER_LME|EFER_LMA|EFER_NXE|EFER_SVME|EFER_FFXSR|EFER_TCE) 496 1.1 maxv 497 1.1 maxv #define EFER_TLB_FLUSH \ 498 1.1 maxv (EFER_NXE|EFER_LMA|EFER_LME) 499 1.1 maxv #define CR0_TLB_FLUSH \ 500 1.1 maxv (CR0_PG|CR0_WP|CR0_CD|CR0_NW) 501 1.1 maxv #define CR4_TLB_FLUSH \ 502 1.1 maxv (CR4_PGE|CR4_PAE|CR4_PSE) 503 1.1 maxv 504 1.1 maxv /* -------------------------------------------------------------------------- */ 505 1.1 maxv 506 1.1 maxv struct svm_machdata { 507 1.29 maxv volatile uint64_t mach_htlb_gen; 508 1.1 maxv }; 509 1.1 maxv 510 1.46.4.2 martin static const size_t svm_vcpu_conf_sizes[NVMM_X86_VCPU_NCONF] = { 511 1.46.4.2 martin [NVMM_VCPU_CONF_MD(NVMM_VCPU_CONF_CPUID)] = 512 1.46.4.2 martin sizeof(struct nvmm_vcpu_conf_cpuid), 513 1.46.4.2 martin [NVMM_VCPU_CONF_MD(NVMM_VCPU_CONF_TPR)] = 514 1.46.4.2 martin sizeof(struct nvmm_vcpu_conf_tpr) 515 1.1 maxv }; 516 1.1 maxv 517 1.1 maxv struct svm_cpudata { 518 1.1 maxv /* General */ 519 1.1 maxv bool shared_asid; 520 1.28 maxv bool gtlb_want_flush; 521 1.36 maxv bool gtsc_want_update; 522 1.29 maxv uint64_t vcpu_htlb_gen; 523 1.1 maxv 524 1.1 maxv /* VMCB */ 525 1.1 maxv struct vmcb *vmcb; 526 1.1 maxv paddr_t vmcb_pa; 527 1.1 maxv 528 1.1 maxv /* I/O bitmap */ 529 1.1 maxv uint8_t *iobm; 530 1.1 maxv paddr_t iobm_pa; 531 1.1 maxv 532 1.1 maxv /* MSR bitmap */ 533 1.1 maxv uint8_t *msrbm; 534 1.1 maxv paddr_t msrbm_pa; 535 1.1 maxv 536 1.1 maxv /* Host state */ 537 1.13 maxv uint64_t hxcr0; 538 1.1 maxv uint64_t star; 539 1.1 maxv uint64_t lstar; 540 1.1 maxv uint64_t cstar; 541 1.1 maxv uint64_t sfmask; 542 1.14 maxv uint64_t fsbase; 543 1.14 maxv uint64_t kernelgsbase; 544 1.1 maxv bool ts_set; 545 1.16 maxv struct xsave_header hfpu __aligned(64); 546 1.1 maxv 547 1.37 maxv /* Intr state */ 548 1.10 maxv bool int_window_exit; 549 1.10 maxv bool nmi_window_exit; 550 1.37 maxv bool evt_pending; 551 1.10 maxv 552 1.1 maxv /* Guest state */ 553 1.13 maxv uint64_t gxcr0; 554 1.13 maxv uint64_t gprs[NVMM_X64_NGPR]; 555 1.13 maxv uint64_t drs[NVMM_X64_NDR]; 556 1.36 maxv uint64_t gtsc; 557 1.16 maxv struct xsave_header gfpu __aligned(64); 558 1.46.4.2 martin 559 1.46.4.2 martin /* VCPU configuration. */ 560 1.46.4.2 martin bool cpuidpresent[SVM_NCPUIDS]; 561 1.46.4.2 martin struct nvmm_vcpu_conf_cpuid cpuid[SVM_NCPUIDS]; 562 1.1 maxv }; 563 1.1 maxv 564 1.12 maxv static void 565 1.12 maxv svm_vmcb_cache_default(struct vmcb *vmcb) 566 1.12 maxv { 567 1.12 maxv vmcb->ctrl.vmcb_clean = 568 1.12 maxv VMCB_CTRL_VMCB_CLEAN_I | 569 1.12 maxv VMCB_CTRL_VMCB_CLEAN_IOPM | 570 1.12 maxv VMCB_CTRL_VMCB_CLEAN_ASID | 571 1.12 maxv VMCB_CTRL_VMCB_CLEAN_TPR | 572 1.12 maxv VMCB_CTRL_VMCB_CLEAN_NP | 573 1.12 maxv VMCB_CTRL_VMCB_CLEAN_CR | 574 1.12 maxv VMCB_CTRL_VMCB_CLEAN_DR | 575 1.12 maxv VMCB_CTRL_VMCB_CLEAN_DT | 576 1.12 maxv VMCB_CTRL_VMCB_CLEAN_SEG | 577 1.12 maxv VMCB_CTRL_VMCB_CLEAN_CR2 | 578 1.12 maxv VMCB_CTRL_VMCB_CLEAN_LBR | 579 1.12 maxv VMCB_CTRL_VMCB_CLEAN_AVIC; 580 1.12 maxv } 581 1.12 maxv 582 1.12 maxv static void 583 1.12 maxv svm_vmcb_cache_update(struct vmcb *vmcb, uint64_t flags) 584 1.12 maxv { 585 1.12 maxv if (flags & NVMM_X64_STATE_SEGS) { 586 1.12 maxv vmcb->ctrl.vmcb_clean &= 587 1.12 maxv ~(VMCB_CTRL_VMCB_CLEAN_SEG | VMCB_CTRL_VMCB_CLEAN_DT); 588 1.12 maxv } 589 1.12 maxv if (flags & NVMM_X64_STATE_CRS) { 590 1.12 maxv vmcb->ctrl.vmcb_clean &= 591 1.13 maxv ~(VMCB_CTRL_VMCB_CLEAN_CR | VMCB_CTRL_VMCB_CLEAN_CR2 | 592 1.13 maxv VMCB_CTRL_VMCB_CLEAN_TPR); 593 1.12 maxv } 594 1.12 maxv if (flags & NVMM_X64_STATE_DRS) { 595 1.12 maxv vmcb->ctrl.vmcb_clean &= ~VMCB_CTRL_VMCB_CLEAN_DR; 596 1.12 maxv } 597 1.12 maxv if (flags & NVMM_X64_STATE_MSRS) { 598 1.12 maxv /* CR for EFER, NP for PAT. */ 599 1.12 maxv vmcb->ctrl.vmcb_clean &= 600 1.12 maxv ~(VMCB_CTRL_VMCB_CLEAN_CR | VMCB_CTRL_VMCB_CLEAN_NP); 601 1.12 maxv } 602 1.12 maxv } 603 1.12 maxv 604 1.12 maxv static inline void 605 1.12 maxv svm_vmcb_cache_flush(struct vmcb *vmcb, uint64_t flags) 606 1.12 maxv { 607 1.12 maxv vmcb->ctrl.vmcb_clean &= ~flags; 608 1.12 maxv } 609 1.12 maxv 610 1.12 maxv static inline void 611 1.12 maxv svm_vmcb_cache_flush_all(struct vmcb *vmcb) 612 1.12 maxv { 613 1.12 maxv vmcb->ctrl.vmcb_clean = 0; 614 1.12 maxv } 615 1.12 maxv 616 1.1 maxv #define SVM_EVENT_TYPE_HW_INT 0 617 1.1 maxv #define SVM_EVENT_TYPE_NMI 2 618 1.1 maxv #define SVM_EVENT_TYPE_EXC 3 619 1.1 maxv #define SVM_EVENT_TYPE_SW_INT 4 620 1.1 maxv 621 1.1 maxv static void 622 1.10 maxv svm_event_waitexit_enable(struct nvmm_cpu *vcpu, bool nmi) 623 1.1 maxv { 624 1.10 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 625 1.10 maxv struct vmcb *vmcb = cpudata->vmcb; 626 1.10 maxv 627 1.1 maxv if (nmi) { 628 1.1 maxv vmcb->ctrl.intercept_misc1 |= VMCB_CTRL_INTERCEPT_IRET; 629 1.10 maxv cpudata->nmi_window_exit = true; 630 1.1 maxv } else { 631 1.1 maxv vmcb->ctrl.intercept_misc1 |= VMCB_CTRL_INTERCEPT_VINTR; 632 1.10 maxv vmcb->ctrl.v |= (VMCB_CTRL_V_IRQ | VMCB_CTRL_V_IGN_TPR); 633 1.12 maxv svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_TPR); 634 1.10 maxv cpudata->int_window_exit = true; 635 1.1 maxv } 636 1.12 maxv 637 1.12 maxv svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_I); 638 1.1 maxv } 639 1.1 maxv 640 1.1 maxv static void 641 1.10 maxv svm_event_waitexit_disable(struct nvmm_cpu *vcpu, bool nmi) 642 1.1 maxv { 643 1.10 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 644 1.10 maxv struct vmcb *vmcb = cpudata->vmcb; 645 1.10 maxv 646 1.1 maxv if (nmi) { 647 1.1 maxv vmcb->ctrl.intercept_misc1 &= ~VMCB_CTRL_INTERCEPT_IRET; 648 1.10 maxv cpudata->nmi_window_exit = false; 649 1.1 maxv } else { 650 1.1 maxv vmcb->ctrl.intercept_misc1 &= ~VMCB_CTRL_INTERCEPT_VINTR; 651 1.10 maxv vmcb->ctrl.v &= ~(VMCB_CTRL_V_IRQ | VMCB_CTRL_V_IGN_TPR); 652 1.12 maxv svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_TPR); 653 1.10 maxv cpudata->int_window_exit = false; 654 1.1 maxv } 655 1.12 maxv 656 1.12 maxv svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_I); 657 1.1 maxv } 658 1.1 maxv 659 1.1 maxv static inline int 660 1.46.4.2 martin svm_event_has_error(uint8_t vector) 661 1.1 maxv { 662 1.1 maxv switch (vector) { 663 1.1 maxv case 8: /* #DF */ 664 1.1 maxv case 10: /* #TS */ 665 1.1 maxv case 11: /* #NP */ 666 1.1 maxv case 12: /* #SS */ 667 1.1 maxv case 13: /* #GP */ 668 1.1 maxv case 14: /* #PF */ 669 1.1 maxv case 17: /* #AC */ 670 1.1 maxv case 30: /* #SX */ 671 1.1 maxv return 1; 672 1.1 maxv default: 673 1.1 maxv return 0; 674 1.1 maxv } 675 1.1 maxv } 676 1.1 maxv 677 1.1 maxv static int 678 1.45 maxv svm_vcpu_inject(struct nvmm_cpu *vcpu) 679 1.1 maxv { 680 1.45 maxv struct nvmm_comm_page *comm = vcpu->comm; 681 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 682 1.1 maxv struct vmcb *vmcb = cpudata->vmcb; 683 1.46.4.2 martin u_int evtype; 684 1.46.4.2 martin uint8_t vector; 685 1.46.4.2 martin uint64_t error; 686 1.1 maxv int type = 0, err = 0; 687 1.1 maxv 688 1.45 maxv evtype = comm->event.type; 689 1.45 maxv vector = comm->event.vector; 690 1.46.4.2 martin error = comm->event.u.excp.error; 691 1.45 maxv __insn_barrier(); 692 1.45 maxv 693 1.45 maxv switch (evtype) { 694 1.46.4.2 martin case NVMM_VCPU_EVENT_EXCP: 695 1.1 maxv type = SVM_EVENT_TYPE_EXC; 696 1.45 maxv if (vector == 2 || vector >= 32) 697 1.1 maxv return EINVAL; 698 1.45 maxv if (vector == 3 || vector == 0) 699 1.22 maxv return EINVAL; 700 1.45 maxv err = svm_event_has_error(vector); 701 1.1 maxv break; 702 1.46.4.2 martin case NVMM_VCPU_EVENT_INTR: 703 1.46.4.2 martin type = SVM_EVENT_TYPE_HW_INT; 704 1.46.4.2 martin if (vector == 2) { 705 1.46.4.2 martin type = SVM_EVENT_TYPE_NMI; 706 1.46.4.2 martin svm_event_waitexit_enable(vcpu, true); 707 1.46.4.2 martin } 708 1.46.4.2 martin err = 0; 709 1.46.4.2 martin break; 710 1.1 maxv default: 711 1.1 maxv return EINVAL; 712 1.1 maxv } 713 1.1 maxv 714 1.1 maxv vmcb->ctrl.eventinj = 715 1.46.4.2 martin __SHIFTIN((uint64_t)vector, VMCB_CTRL_EVENTINJ_VECTOR) | 716 1.46.4.2 martin __SHIFTIN((uint64_t)type, VMCB_CTRL_EVENTINJ_TYPE) | 717 1.46.4.2 martin __SHIFTIN((uint64_t)err, VMCB_CTRL_EVENTINJ_EV) | 718 1.46.4.2 martin __SHIFTIN((uint64_t)1, VMCB_CTRL_EVENTINJ_V) | 719 1.46.4.2 martin __SHIFTIN((uint64_t)error, VMCB_CTRL_EVENTINJ_ERRORCODE); 720 1.1 maxv 721 1.37 maxv cpudata->evt_pending = true; 722 1.37 maxv 723 1.1 maxv return 0; 724 1.1 maxv } 725 1.1 maxv 726 1.1 maxv static void 727 1.45 maxv svm_inject_ud(struct nvmm_cpu *vcpu) 728 1.1 maxv { 729 1.45 maxv struct nvmm_comm_page *comm = vcpu->comm; 730 1.1 maxv int ret __diagused; 731 1.1 maxv 732 1.46.4.2 martin comm->event.type = NVMM_VCPU_EVENT_EXCP; 733 1.45 maxv comm->event.vector = 6; 734 1.46.4.2 martin comm->event.u.excp.error = 0; 735 1.1 maxv 736 1.45 maxv ret = svm_vcpu_inject(vcpu); 737 1.1 maxv KASSERT(ret == 0); 738 1.1 maxv } 739 1.1 maxv 740 1.1 maxv static void 741 1.45 maxv svm_inject_gp(struct nvmm_cpu *vcpu) 742 1.1 maxv { 743 1.45 maxv struct nvmm_comm_page *comm = vcpu->comm; 744 1.1 maxv int ret __diagused; 745 1.1 maxv 746 1.46.4.2 martin comm->event.type = NVMM_VCPU_EVENT_EXCP; 747 1.45 maxv comm->event.vector = 13; 748 1.46.4.2 martin comm->event.u.excp.error = 0; 749 1.1 maxv 750 1.45 maxv ret = svm_vcpu_inject(vcpu); 751 1.1 maxv KASSERT(ret == 0); 752 1.1 maxv } 753 1.1 maxv 754 1.45 maxv static inline int 755 1.45 maxv svm_vcpu_event_commit(struct nvmm_cpu *vcpu) 756 1.45 maxv { 757 1.45 maxv if (__predict_true(!vcpu->comm->event_commit)) { 758 1.45 maxv return 0; 759 1.45 maxv } 760 1.45 maxv vcpu->comm->event_commit = false; 761 1.45 maxv return svm_vcpu_inject(vcpu); 762 1.45 maxv } 763 1.45 maxv 764 1.17 maxv static inline void 765 1.17 maxv svm_inkernel_advance(struct vmcb *vmcb) 766 1.1 maxv { 767 1.17 maxv /* 768 1.17 maxv * Maybe we should also apply single-stepping and debug exceptions. 769 1.17 maxv * Matters for guest-ring3, because it can execute 'cpuid' under a 770 1.17 maxv * debugger. 771 1.17 maxv */ 772 1.17 maxv vmcb->state.rip = vmcb->ctrl.nrip; 773 1.17 maxv vmcb->ctrl.intr &= ~VMCB_CTRL_INTR_SHADOW; 774 1.1 maxv } 775 1.1 maxv 776 1.1 maxv static void 777 1.1 maxv svm_inkernel_handle_cpuid(struct nvmm_cpu *vcpu, uint64_t eax, uint64_t ecx) 778 1.1 maxv { 779 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 780 1.25 maxv uint64_t cr4; 781 1.1 maxv 782 1.1 maxv switch (eax) { 783 1.25 maxv case 0x00000001: 784 1.33 maxv cpudata->vmcb->state.rax &= nvmm_cpuid_00000001.eax; 785 1.33 maxv 786 1.13 maxv cpudata->gprs[NVMM_X64_GPR_RBX] &= ~CPUID_LOCAL_APIC_ID; 787 1.13 maxv cpudata->gprs[NVMM_X64_GPR_RBX] |= __SHIFTIN(vcpu->cpuid, 788 1.1 maxv CPUID_LOCAL_APIC_ID); 789 1.25 maxv 790 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RCX] &= nvmm_cpuid_00000001.ecx; 791 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RCX] |= CPUID2_RAZ; 792 1.33 maxv 793 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RDX] &= nvmm_cpuid_00000001.edx; 794 1.33 maxv 795 1.25 maxv /* CPUID2_OSXSAVE depends on CR4. */ 796 1.25 maxv cr4 = cpudata->vmcb->state.cr4; 797 1.25 maxv if (!(cr4 & CR4_OSXSAVE)) { 798 1.25 maxv cpudata->gprs[NVMM_X64_GPR_RCX] &= ~CPUID2_OSXSAVE; 799 1.25 maxv } 800 1.1 maxv break; 801 1.33 maxv case 0x00000005: 802 1.33 maxv case 0x00000006: 803 1.33 maxv cpudata->vmcb->state.rax = 0; 804 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RBX] = 0; 805 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RCX] = 0; 806 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RDX] = 0; 807 1.33 maxv break; 808 1.33 maxv case 0x00000007: 809 1.33 maxv cpudata->vmcb->state.rax &= nvmm_cpuid_00000007.eax; 810 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RBX] &= nvmm_cpuid_00000007.ebx; 811 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RCX] &= nvmm_cpuid_00000007.ecx; 812 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RDX] &= nvmm_cpuid_00000007.edx; 813 1.33 maxv break; 814 1.25 maxv case 0x0000000D: 815 1.25 maxv if (svm_xcr0_mask == 0) { 816 1.1 maxv break; 817 1.1 maxv } 818 1.25 maxv switch (ecx) { 819 1.25 maxv case 0: 820 1.26 maxv cpudata->vmcb->state.rax = svm_xcr0_mask & 0xFFFFFFFF; 821 1.25 maxv if (cpudata->gxcr0 & XCR0_SSE) { 822 1.25 maxv cpudata->gprs[NVMM_X64_GPR_RBX] = sizeof(struct fxsave); 823 1.25 maxv } else { 824 1.25 maxv cpudata->gprs[NVMM_X64_GPR_RBX] = sizeof(struct save87); 825 1.25 maxv } 826 1.25 maxv cpudata->gprs[NVMM_X64_GPR_RBX] += 64; /* XSAVE header */ 827 1.39 maxv cpudata->gprs[NVMM_X64_GPR_RCX] = sizeof(struct fxsave) + 64; 828 1.25 maxv cpudata->gprs[NVMM_X64_GPR_RDX] = svm_xcr0_mask >> 32; 829 1.25 maxv break; 830 1.25 maxv case 1: 831 1.26 maxv cpudata->vmcb->state.rax &= ~CPUID_PES1_XSAVES; 832 1.25 maxv break; 833 1.1 maxv } 834 1.1 maxv break; 835 1.10 maxv case 0x40000000: 836 1.16 maxv cpudata->gprs[NVMM_X64_GPR_RBX] = 0; 837 1.16 maxv cpudata->gprs[NVMM_X64_GPR_RCX] = 0; 838 1.16 maxv cpudata->gprs[NVMM_X64_GPR_RDX] = 0; 839 1.13 maxv memcpy(&cpudata->gprs[NVMM_X64_GPR_RBX], "___ ", 4); 840 1.13 maxv memcpy(&cpudata->gprs[NVMM_X64_GPR_RCX], "NVMM", 4); 841 1.13 maxv memcpy(&cpudata->gprs[NVMM_X64_GPR_RDX], " ___", 4); 842 1.10 maxv break; 843 1.25 maxv case 0x80000001: 844 1.33 maxv cpudata->vmcb->state.rax &= nvmm_cpuid_80000001.eax; 845 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RBX] &= nvmm_cpuid_80000001.ebx; 846 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RCX] &= nvmm_cpuid_80000001.ecx; 847 1.33 maxv cpudata->gprs[NVMM_X64_GPR_RDX] &= nvmm_cpuid_80000001.edx; 848 1.10 maxv break; 849 1.1 maxv default: 850 1.1 maxv break; 851 1.1 maxv } 852 1.1 maxv } 853 1.1 maxv 854 1.1 maxv static void 855 1.46.4.2 martin svm_exit_insn(struct vmcb *vmcb, struct nvmm_vcpu_exit *exit, uint64_t reason) 856 1.46.4.2 martin { 857 1.46.4.2 martin exit->u.insn.npc = vmcb->ctrl.nrip; 858 1.46.4.2 martin exit->reason = reason; 859 1.46.4.2 martin } 860 1.46.4.2 martin 861 1.46.4.2 martin static void 862 1.1 maxv svm_exit_cpuid(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 863 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 864 1.1 maxv { 865 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 866 1.46.4.2 martin struct nvmm_vcpu_conf_cpuid *cpuid; 867 1.1 maxv uint64_t eax, ecx; 868 1.1 maxv u_int descs[4]; 869 1.1 maxv size_t i; 870 1.1 maxv 871 1.1 maxv eax = cpudata->vmcb->state.rax; 872 1.13 maxv ecx = cpudata->gprs[NVMM_X64_GPR_RCX]; 873 1.1 maxv x86_cpuid2(eax, ecx, descs); 874 1.1 maxv 875 1.1 maxv cpudata->vmcb->state.rax = descs[0]; 876 1.13 maxv cpudata->gprs[NVMM_X64_GPR_RBX] = descs[1]; 877 1.13 maxv cpudata->gprs[NVMM_X64_GPR_RCX] = descs[2]; 878 1.13 maxv cpudata->gprs[NVMM_X64_GPR_RDX] = descs[3]; 879 1.1 maxv 880 1.38 maxv svm_inkernel_handle_cpuid(vcpu, eax, ecx); 881 1.38 maxv 882 1.1 maxv for (i = 0; i < SVM_NCPUIDS; i++) { 883 1.46.4.2 martin if (!cpudata->cpuidpresent[i]) { 884 1.1 maxv continue; 885 1.1 maxv } 886 1.46.4.2 martin cpuid = &cpudata->cpuid[i]; 887 1.1 maxv if (cpuid->leaf != eax) { 888 1.1 maxv continue; 889 1.1 maxv } 890 1.1 maxv 891 1.46.4.2 martin if (cpuid->exit) { 892 1.46.4.2 martin svm_exit_insn(cpudata->vmcb, exit, NVMM_VCPU_EXIT_CPUID); 893 1.46.4.2 martin return; 894 1.46.4.2 martin } 895 1.46.4.2 martin KASSERT(cpuid->mask); 896 1.46.4.2 martin 897 1.1 maxv /* del */ 898 1.46.4.2 martin cpudata->vmcb->state.rax &= ~cpuid->u.mask.del.eax; 899 1.46.4.2 martin cpudata->gprs[NVMM_X64_GPR_RBX] &= ~cpuid->u.mask.del.ebx; 900 1.46.4.2 martin cpudata->gprs[NVMM_X64_GPR_RCX] &= ~cpuid->u.mask.del.ecx; 901 1.46.4.2 martin cpudata->gprs[NVMM_X64_GPR_RDX] &= ~cpuid->u.mask.del.edx; 902 1.1 maxv 903 1.1 maxv /* set */ 904 1.46.4.2 martin cpudata->vmcb->state.rax |= cpuid->u.mask.set.eax; 905 1.46.4.2 martin cpudata->gprs[NVMM_X64_GPR_RBX] |= cpuid->u.mask.set.ebx; 906 1.46.4.2 martin cpudata->gprs[NVMM_X64_GPR_RCX] |= cpuid->u.mask.set.ecx; 907 1.46.4.2 martin cpudata->gprs[NVMM_X64_GPR_RDX] |= cpuid->u.mask.set.edx; 908 1.1 maxv 909 1.1 maxv break; 910 1.1 maxv } 911 1.1 maxv 912 1.17 maxv svm_inkernel_advance(cpudata->vmcb); 913 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_NONE; 914 1.1 maxv } 915 1.1 maxv 916 1.10 maxv static void 917 1.10 maxv svm_exit_hlt(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 918 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 919 1.10 maxv { 920 1.10 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 921 1.17 maxv struct vmcb *vmcb = cpudata->vmcb; 922 1.10 maxv 923 1.17 maxv if (cpudata->int_window_exit && (vmcb->state.rflags & PSL_I)) { 924 1.17 maxv svm_event_waitexit_disable(vcpu, false); 925 1.17 maxv } 926 1.17 maxv 927 1.17 maxv svm_inkernel_advance(cpudata->vmcb); 928 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_HALTED; 929 1.10 maxv } 930 1.10 maxv 931 1.1 maxv #define SVM_EXIT_IO_PORT __BITS(31,16) 932 1.1 maxv #define SVM_EXIT_IO_SEG __BITS(12,10) 933 1.1 maxv #define SVM_EXIT_IO_A64 __BIT(9) 934 1.1 maxv #define SVM_EXIT_IO_A32 __BIT(8) 935 1.1 maxv #define SVM_EXIT_IO_A16 __BIT(7) 936 1.1 maxv #define SVM_EXIT_IO_SZ32 __BIT(6) 937 1.1 maxv #define SVM_EXIT_IO_SZ16 __BIT(5) 938 1.1 maxv #define SVM_EXIT_IO_SZ8 __BIT(4) 939 1.1 maxv #define SVM_EXIT_IO_REP __BIT(3) 940 1.1 maxv #define SVM_EXIT_IO_STR __BIT(2) 941 1.4 maxv #define SVM_EXIT_IO_IN __BIT(0) 942 1.1 maxv 943 1.1 maxv static void 944 1.1 maxv svm_exit_io(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 945 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 946 1.1 maxv { 947 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 948 1.1 maxv uint64_t info = cpudata->vmcb->ctrl.exitinfo1; 949 1.1 maxv uint64_t nextpc = cpudata->vmcb->ctrl.exitinfo2; 950 1.1 maxv 951 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_IO; 952 1.1 maxv 953 1.46.4.2 martin exit->u.io.in = (info & SVM_EXIT_IO_IN) != 0; 954 1.1 maxv exit->u.io.port = __SHIFTOUT(info, SVM_EXIT_IO_PORT); 955 1.1 maxv 956 1.1 maxv if (svm_decode_assist) { 957 1.1 maxv KASSERT(__SHIFTOUT(info, SVM_EXIT_IO_SEG) < 6); 958 1.32 maxv exit->u.io.seg = __SHIFTOUT(info, SVM_EXIT_IO_SEG); 959 1.1 maxv } else { 960 1.8 maxv exit->u.io.seg = -1; 961 1.1 maxv } 962 1.1 maxv 963 1.1 maxv if (info & SVM_EXIT_IO_A64) { 964 1.1 maxv exit->u.io.address_size = 8; 965 1.1 maxv } else if (info & SVM_EXIT_IO_A32) { 966 1.1 maxv exit->u.io.address_size = 4; 967 1.1 maxv } else if (info & SVM_EXIT_IO_A16) { 968 1.1 maxv exit->u.io.address_size = 2; 969 1.1 maxv } 970 1.1 maxv 971 1.1 maxv if (info & SVM_EXIT_IO_SZ32) { 972 1.1 maxv exit->u.io.operand_size = 4; 973 1.1 maxv } else if (info & SVM_EXIT_IO_SZ16) { 974 1.1 maxv exit->u.io.operand_size = 2; 975 1.1 maxv } else if (info & SVM_EXIT_IO_SZ8) { 976 1.1 maxv exit->u.io.operand_size = 1; 977 1.1 maxv } 978 1.1 maxv 979 1.1 maxv exit->u.io.rep = (info & SVM_EXIT_IO_REP) != 0; 980 1.1 maxv exit->u.io.str = (info & SVM_EXIT_IO_STR) != 0; 981 1.1 maxv exit->u.io.npc = nextpc; 982 1.43 maxv 983 1.43 maxv svm_vcpu_state_provide(vcpu, 984 1.43 maxv NVMM_X64_STATE_GPRS | NVMM_X64_STATE_SEGS | 985 1.43 maxv NVMM_X64_STATE_CRS | NVMM_X64_STATE_MSRS); 986 1.1 maxv } 987 1.1 maxv 988 1.10 maxv static const uint64_t msr_ignore_list[] = { 989 1.10 maxv 0xc0010055, /* MSR_CMPHALT */ 990 1.10 maxv MSR_DE_CFG, 991 1.10 maxv MSR_IC_CFG, 992 1.10 maxv MSR_UCODE_AMD_PATCHLEVEL 993 1.10 maxv }; 994 1.10 maxv 995 1.1 maxv static bool 996 1.1 maxv svm_inkernel_handle_msr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 997 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 998 1.1 maxv { 999 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1000 1.19 maxv struct vmcb *vmcb = cpudata->vmcb; 1001 1.10 maxv uint64_t val; 1002 1.10 maxv size_t i; 1003 1.1 maxv 1004 1.46.4.2 martin if (exit->reason == NVMM_VCPU_EXIT_RDMSR) { 1005 1.46.4.2 martin if (exit->u.rdmsr.msr == MSR_NB_CFG) { 1006 1.10 maxv val = NB_CFG_INITAPICCPUIDLO; 1007 1.19 maxv vmcb->state.rax = (val & 0xFFFFFFFF); 1008 1.13 maxv cpudata->gprs[NVMM_X64_GPR_RDX] = (val >> 32); 1009 1.10 maxv goto handled; 1010 1.10 maxv } 1011 1.10 maxv for (i = 0; i < __arraycount(msr_ignore_list); i++) { 1012 1.46.4.2 martin if (msr_ignore_list[i] != exit->u.rdmsr.msr) 1013 1.10 maxv continue; 1014 1.10 maxv val = 0; 1015 1.19 maxv vmcb->state.rax = (val & 0xFFFFFFFF); 1016 1.13 maxv cpudata->gprs[NVMM_X64_GPR_RDX] = (val >> 32); 1017 1.1 maxv goto handled; 1018 1.1 maxv } 1019 1.46.4.2 martin } else { 1020 1.46.4.2 martin if (exit->u.wrmsr.msr == MSR_EFER) { 1021 1.46.4.2 martin if (__predict_false(exit->u.wrmsr.val & ~EFER_VALID)) { 1022 1.19 maxv goto error; 1023 1.1 maxv } 1024 1.46.4.2 martin if ((vmcb->state.efer ^ exit->u.wrmsr.val) & 1025 1.1 maxv EFER_TLB_FLUSH) { 1026 1.28 maxv cpudata->gtlb_want_flush = true; 1027 1.1 maxv } 1028 1.46.4.2 martin vmcb->state.efer = exit->u.wrmsr.val | EFER_SVME; 1029 1.24 maxv svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_CR); 1030 1.24 maxv goto handled; 1031 1.24 maxv } 1032 1.46.4.2 martin if (exit->u.wrmsr.msr == MSR_TSC) { 1033 1.46.4.2 martin cpudata->gtsc = exit->u.wrmsr.val; 1034 1.36 maxv cpudata->gtsc_want_update = true; 1035 1.1 maxv goto handled; 1036 1.1 maxv } 1037 1.10 maxv for (i = 0; i < __arraycount(msr_ignore_list); i++) { 1038 1.46.4.2 martin if (msr_ignore_list[i] != exit->u.wrmsr.msr) 1039 1.10 maxv continue; 1040 1.10 maxv goto handled; 1041 1.10 maxv } 1042 1.1 maxv } 1043 1.1 maxv 1044 1.1 maxv return false; 1045 1.1 maxv 1046 1.1 maxv handled: 1047 1.17 maxv svm_inkernel_advance(cpudata->vmcb); 1048 1.1 maxv return true; 1049 1.19 maxv 1050 1.19 maxv error: 1051 1.45 maxv svm_inject_gp(vcpu); 1052 1.19 maxv return true; 1053 1.1 maxv } 1054 1.1 maxv 1055 1.46.4.2 martin static inline void 1056 1.46.4.2 martin svm_exit_rdmsr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 1057 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 1058 1.1 maxv { 1059 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1060 1.1 maxv 1061 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_RDMSR; 1062 1.46.4.2 martin exit->u.rdmsr.msr = (cpudata->gprs[NVMM_X64_GPR_RCX] & 0xFFFFFFFF); 1063 1.46.4.2 martin exit->u.rdmsr.npc = cpudata->vmcb->ctrl.nrip; 1064 1.46.4.2 martin 1065 1.46.4.2 martin if (svm_inkernel_handle_msr(mach, vcpu, exit)) { 1066 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_NONE; 1067 1.46.4.2 martin return; 1068 1.1 maxv } 1069 1.1 maxv 1070 1.46.4.2 martin svm_vcpu_state_provide(vcpu, NVMM_X64_STATE_GPRS); 1071 1.46.4.2 martin } 1072 1.1 maxv 1073 1.46.4.2 martin static inline void 1074 1.46.4.2 martin svm_exit_wrmsr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 1075 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 1076 1.46.4.2 martin { 1077 1.46.4.2 martin struct svm_cpudata *cpudata = vcpu->cpudata; 1078 1.46.4.2 martin uint64_t rdx, rax; 1079 1.46.4.2 martin 1080 1.46.4.2 martin rdx = cpudata->gprs[NVMM_X64_GPR_RDX]; 1081 1.46.4.2 martin rax = cpudata->vmcb->state.rax; 1082 1.46.4.2 martin 1083 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_WRMSR; 1084 1.46.4.2 martin exit->u.wrmsr.msr = (cpudata->gprs[NVMM_X64_GPR_RCX] & 0xFFFFFFFF); 1085 1.46.4.2 martin exit->u.wrmsr.val = (rdx << 32) | (rax & 0xFFFFFFFF); 1086 1.46.4.2 martin exit->u.wrmsr.npc = cpudata->vmcb->ctrl.nrip; 1087 1.1 maxv 1088 1.1 maxv if (svm_inkernel_handle_msr(mach, vcpu, exit)) { 1089 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_NONE; 1090 1.1 maxv return; 1091 1.1 maxv } 1092 1.1 maxv 1093 1.43 maxv svm_vcpu_state_provide(vcpu, NVMM_X64_STATE_GPRS); 1094 1.1 maxv } 1095 1.1 maxv 1096 1.1 maxv static void 1097 1.46.4.2 martin svm_exit_msr(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 1098 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 1099 1.46.4.2 martin { 1100 1.46.4.2 martin struct svm_cpudata *cpudata = vcpu->cpudata; 1101 1.46.4.2 martin uint64_t info = cpudata->vmcb->ctrl.exitinfo1; 1102 1.46.4.2 martin 1103 1.46.4.2 martin if (info == 0) { 1104 1.46.4.2 martin svm_exit_rdmsr(mach, vcpu, exit); 1105 1.46.4.2 martin } else { 1106 1.46.4.2 martin svm_exit_wrmsr(mach, vcpu, exit); 1107 1.46.4.2 martin } 1108 1.46.4.2 martin } 1109 1.46.4.2 martin 1110 1.46.4.2 martin static void 1111 1.1 maxv svm_exit_npf(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 1112 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 1113 1.1 maxv { 1114 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1115 1.1 maxv gpaddr_t gpa = cpudata->vmcb->ctrl.exitinfo2; 1116 1.1 maxv 1117 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_MEMORY; 1118 1.27 maxv if (cpudata->vmcb->ctrl.exitinfo1 & PGEX_W) 1119 1.35 maxv exit->u.mem.prot = PROT_WRITE; 1120 1.27 maxv else if (cpudata->vmcb->ctrl.exitinfo1 & PGEX_X) 1121 1.35 maxv exit->u.mem.prot = PROT_EXEC; 1122 1.27 maxv else 1123 1.35 maxv exit->u.mem.prot = PROT_READ; 1124 1.27 maxv exit->u.mem.gpa = gpa; 1125 1.27 maxv exit->u.mem.inst_len = cpudata->vmcb->ctrl.inst_len; 1126 1.27 maxv memcpy(exit->u.mem.inst_bytes, cpudata->vmcb->ctrl.inst_bytes, 1127 1.27 maxv sizeof(exit->u.mem.inst_bytes)); 1128 1.43 maxv 1129 1.43 maxv svm_vcpu_state_provide(vcpu, 1130 1.43 maxv NVMM_X64_STATE_GPRS | NVMM_X64_STATE_SEGS | 1131 1.43 maxv NVMM_X64_STATE_CRS | NVMM_X64_STATE_MSRS); 1132 1.1 maxv } 1133 1.1 maxv 1134 1.1 maxv static void 1135 1.1 maxv svm_exit_xsetbv(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 1136 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 1137 1.1 maxv { 1138 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1139 1.1 maxv struct vmcb *vmcb = cpudata->vmcb; 1140 1.1 maxv uint64_t val; 1141 1.1 maxv 1142 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_NONE; 1143 1.1 maxv 1144 1.13 maxv val = (cpudata->gprs[NVMM_X64_GPR_RDX] << 32) | 1145 1.3 maxv (vmcb->state.rax & 0xFFFFFFFF); 1146 1.1 maxv 1147 1.13 maxv if (__predict_false(cpudata->gprs[NVMM_X64_GPR_RCX] != 0)) { 1148 1.1 maxv goto error; 1149 1.1 maxv } else if (__predict_false(vmcb->state.cpl != 0)) { 1150 1.1 maxv goto error; 1151 1.1 maxv } else if (__predict_false((val & ~svm_xcr0_mask) != 0)) { 1152 1.1 maxv goto error; 1153 1.1 maxv } else if (__predict_false((val & XCR0_X87) == 0)) { 1154 1.1 maxv goto error; 1155 1.1 maxv } 1156 1.1 maxv 1157 1.13 maxv cpudata->gxcr0 = val; 1158 1.1 maxv 1159 1.17 maxv svm_inkernel_advance(cpudata->vmcb); 1160 1.1 maxv return; 1161 1.1 maxv 1162 1.1 maxv error: 1163 1.45 maxv svm_inject_gp(vcpu); 1164 1.1 maxv } 1165 1.1 maxv 1166 1.40 maxv static void 1167 1.46.4.2 martin svm_exit_invalid(struct nvmm_vcpu_exit *exit, uint64_t code) 1168 1.40 maxv { 1169 1.40 maxv exit->u.inv.hwcode = code; 1170 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_INVALID; 1171 1.40 maxv } 1172 1.40 maxv 1173 1.29 maxv /* -------------------------------------------------------------------------- */ 1174 1.29 maxv 1175 1.1 maxv static void 1176 1.1 maxv svm_vcpu_guest_fpu_enter(struct nvmm_cpu *vcpu) 1177 1.1 maxv { 1178 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1179 1.1 maxv 1180 1.16 maxv cpudata->ts_set = (rcr0() & CR0_TS) != 0; 1181 1.16 maxv 1182 1.16 maxv fpu_area_save(&cpudata->hfpu, svm_xcr0_mask); 1183 1.16 maxv fpu_area_restore(&cpudata->gfpu, svm_xcr0_mask); 1184 1.16 maxv 1185 1.16 maxv if (svm_xcr0_mask != 0) { 1186 1.13 maxv cpudata->hxcr0 = rdxcr(0); 1187 1.13 maxv wrxcr(0, cpudata->gxcr0); 1188 1.1 maxv } 1189 1.1 maxv } 1190 1.1 maxv 1191 1.1 maxv static void 1192 1.1 maxv svm_vcpu_guest_fpu_leave(struct nvmm_cpu *vcpu) 1193 1.1 maxv { 1194 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1195 1.1 maxv 1196 1.16 maxv if (svm_xcr0_mask != 0) { 1197 1.16 maxv cpudata->gxcr0 = rdxcr(0); 1198 1.16 maxv wrxcr(0, cpudata->hxcr0); 1199 1.16 maxv } 1200 1.16 maxv 1201 1.16 maxv fpu_area_save(&cpudata->gfpu, svm_xcr0_mask); 1202 1.16 maxv fpu_area_restore(&cpudata->hfpu, svm_xcr0_mask); 1203 1.1 maxv 1204 1.1 maxv if (cpudata->ts_set) { 1205 1.1 maxv stts(); 1206 1.1 maxv } 1207 1.1 maxv } 1208 1.1 maxv 1209 1.1 maxv static void 1210 1.1 maxv svm_vcpu_guest_dbregs_enter(struct nvmm_cpu *vcpu) 1211 1.1 maxv { 1212 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1213 1.1 maxv 1214 1.1 maxv x86_dbregs_save(curlwp); 1215 1.1 maxv 1216 1.15 maxv ldr7(0); 1217 1.15 maxv 1218 1.13 maxv ldr0(cpudata->drs[NVMM_X64_DR_DR0]); 1219 1.13 maxv ldr1(cpudata->drs[NVMM_X64_DR_DR1]); 1220 1.13 maxv ldr2(cpudata->drs[NVMM_X64_DR_DR2]); 1221 1.13 maxv ldr3(cpudata->drs[NVMM_X64_DR_DR3]); 1222 1.1 maxv } 1223 1.1 maxv 1224 1.1 maxv static void 1225 1.1 maxv svm_vcpu_guest_dbregs_leave(struct nvmm_cpu *vcpu) 1226 1.1 maxv { 1227 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1228 1.1 maxv 1229 1.13 maxv cpudata->drs[NVMM_X64_DR_DR0] = rdr0(); 1230 1.13 maxv cpudata->drs[NVMM_X64_DR_DR1] = rdr1(); 1231 1.13 maxv cpudata->drs[NVMM_X64_DR_DR2] = rdr2(); 1232 1.13 maxv cpudata->drs[NVMM_X64_DR_DR3] = rdr3(); 1233 1.1 maxv 1234 1.1 maxv x86_dbregs_restore(curlwp); 1235 1.1 maxv } 1236 1.1 maxv 1237 1.1 maxv static void 1238 1.1 maxv svm_vcpu_guest_misc_enter(struct nvmm_cpu *vcpu) 1239 1.1 maxv { 1240 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1241 1.1 maxv 1242 1.14 maxv cpudata->fsbase = rdmsr(MSR_FSBASE); 1243 1.14 maxv cpudata->kernelgsbase = rdmsr(MSR_KERNELGSBASE); 1244 1.1 maxv } 1245 1.1 maxv 1246 1.1 maxv static void 1247 1.1 maxv svm_vcpu_guest_misc_leave(struct nvmm_cpu *vcpu) 1248 1.1 maxv { 1249 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1250 1.1 maxv 1251 1.1 maxv wrmsr(MSR_STAR, cpudata->star); 1252 1.1 maxv wrmsr(MSR_LSTAR, cpudata->lstar); 1253 1.1 maxv wrmsr(MSR_CSTAR, cpudata->cstar); 1254 1.1 maxv wrmsr(MSR_SFMASK, cpudata->sfmask); 1255 1.14 maxv wrmsr(MSR_FSBASE, cpudata->fsbase); 1256 1.14 maxv wrmsr(MSR_KERNELGSBASE, cpudata->kernelgsbase); 1257 1.1 maxv } 1258 1.1 maxv 1259 1.28 maxv /* -------------------------------------------------------------------------- */ 1260 1.28 maxv 1261 1.28 maxv static inline void 1262 1.28 maxv svm_gtlb_catchup(struct nvmm_cpu *vcpu, int hcpu) 1263 1.28 maxv { 1264 1.28 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1265 1.28 maxv 1266 1.28 maxv if (vcpu->hcpu_last != hcpu || cpudata->shared_asid) { 1267 1.28 maxv cpudata->gtlb_want_flush = true; 1268 1.28 maxv } 1269 1.28 maxv } 1270 1.28 maxv 1271 1.29 maxv static inline void 1272 1.29 maxv svm_htlb_catchup(struct nvmm_cpu *vcpu, int hcpu) 1273 1.29 maxv { 1274 1.29 maxv /* 1275 1.29 maxv * Nothing to do. If an hTLB flush was needed, either the VCPU was 1276 1.29 maxv * executing on this hCPU and the hTLB already got flushed, or it 1277 1.29 maxv * was executing on another hCPU in which case the catchup is done 1278 1.29 maxv * in svm_gtlb_catchup(). 1279 1.29 maxv */ 1280 1.29 maxv } 1281 1.29 maxv 1282 1.29 maxv static inline uint64_t 1283 1.29 maxv svm_htlb_flush(struct svm_machdata *machdata, struct svm_cpudata *cpudata) 1284 1.29 maxv { 1285 1.29 maxv struct vmcb *vmcb = cpudata->vmcb; 1286 1.29 maxv uint64_t machgen; 1287 1.29 maxv 1288 1.29 maxv machgen = machdata->mach_htlb_gen; 1289 1.29 maxv if (__predict_true(machgen == cpudata->vcpu_htlb_gen)) { 1290 1.29 maxv return machgen; 1291 1.29 maxv } 1292 1.29 maxv 1293 1.29 maxv vmcb->ctrl.tlb_ctrl = svm_ctrl_tlb_flush; 1294 1.29 maxv return machgen; 1295 1.29 maxv } 1296 1.29 maxv 1297 1.29 maxv static inline void 1298 1.29 maxv svm_htlb_flush_ack(struct svm_cpudata *cpudata, uint64_t machgen) 1299 1.29 maxv { 1300 1.29 maxv struct vmcb *vmcb = cpudata->vmcb; 1301 1.29 maxv 1302 1.29 maxv if (__predict_true(vmcb->ctrl.exitcode != VMCB_EXITCODE_INVALID)) { 1303 1.29 maxv cpudata->vcpu_htlb_gen = machgen; 1304 1.29 maxv } 1305 1.29 maxv } 1306 1.29 maxv 1307 1.41 maxv static inline void 1308 1.41 maxv svm_exit_evt(struct svm_cpudata *cpudata, struct vmcb *vmcb) 1309 1.41 maxv { 1310 1.41 maxv cpudata->evt_pending = false; 1311 1.41 maxv 1312 1.41 maxv if (__predict_false(vmcb->ctrl.exitintinfo & VMCB_CTRL_EXITINTINFO_V)) { 1313 1.41 maxv vmcb->ctrl.eventinj = vmcb->ctrl.exitintinfo; 1314 1.41 maxv cpudata->evt_pending = true; 1315 1.41 maxv } 1316 1.41 maxv } 1317 1.41 maxv 1318 1.1 maxv static int 1319 1.1 maxv svm_vcpu_run(struct nvmm_machine *mach, struct nvmm_cpu *vcpu, 1320 1.46.4.2 martin struct nvmm_vcpu_exit *exit) 1321 1.1 maxv { 1322 1.43 maxv struct nvmm_comm_page *comm = vcpu->comm; 1323 1.29 maxv struct svm_machdata *machdata = mach->machdata; 1324 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1325 1.1 maxv struct vmcb *vmcb = cpudata->vmcb; 1326 1.29 maxv uint64_t machgen; 1327 1.1 maxv int hcpu, s; 1328 1.1 maxv 1329 1.45 maxv if (__predict_false(svm_vcpu_event_commit(vcpu) != 0)) { 1330 1.45 maxv return EINVAL; 1331 1.45 maxv } 1332 1.43 maxv svm_vcpu_state_commit(vcpu); 1333 1.43 maxv comm->state_cached = 0; 1334 1.43 maxv 1335 1.1 maxv kpreempt_disable(); 1336 1.1 maxv hcpu = cpu_number(); 1337 1.1 maxv 1338 1.28 maxv svm_gtlb_catchup(vcpu, hcpu); 1339 1.29 maxv svm_htlb_catchup(vcpu, hcpu); 1340 1.1 maxv 1341 1.1 maxv if (vcpu->hcpu_last != hcpu) { 1342 1.12 maxv svm_vmcb_cache_flush_all(vmcb); 1343 1.36 maxv cpudata->gtsc_want_update = true; 1344 1.1 maxv } 1345 1.1 maxv 1346 1.1 maxv svm_vcpu_guest_dbregs_enter(vcpu); 1347 1.1 maxv svm_vcpu_guest_misc_enter(vcpu); 1348 1.1 maxv 1349 1.1 maxv while (1) { 1350 1.28 maxv if (cpudata->gtlb_want_flush) { 1351 1.20 maxv vmcb->ctrl.tlb_ctrl = svm_ctrl_tlb_flush; 1352 1.20 maxv } else { 1353 1.20 maxv vmcb->ctrl.tlb_ctrl = 0; 1354 1.20 maxv } 1355 1.20 maxv 1356 1.36 maxv if (__predict_false(cpudata->gtsc_want_update)) { 1357 1.36 maxv vmcb->ctrl.tsc_offset = cpudata->gtsc - rdtsc(); 1358 1.36 maxv svm_vmcb_cache_flush(vmcb, VMCB_CTRL_VMCB_CLEAN_I); 1359 1.36 maxv } 1360 1.36 maxv 1361 1.1 maxv s = splhigh(); 1362 1.29 maxv machgen = svm_htlb_flush(machdata, cpudata); 1363 1.1 maxv svm_vcpu_guest_fpu_enter(vcpu); 1364 1.13 maxv svm_vmrun(cpudata->vmcb_pa, cpudata->gprs); 1365 1.1 maxv svm_vcpu_guest_fpu_leave(vcpu); 1366 1.29 maxv svm_htlb_flush_ack(cpudata, machgen); 1367 1.1 maxv splx(s); 1368 1.1 maxv 1369 1.1 maxv svm_vmcb_cache_default(vmcb); 1370 1.1 maxv 1371 1.1 maxv if (vmcb->ctrl.exitcode != VMCB_EXITCODE_INVALID) { 1372 1.28 maxv cpudata->gtlb_want_flush = false; 1373 1.36 maxv cpudata->gtsc_want_update = false; 1374 1.1 maxv vcpu->hcpu_last = hcpu; 1375 1.1 maxv } 1376 1.41 maxv svm_exit_evt(cpudata, vmcb); 1377 1.1 maxv 1378 1.1 maxv switch (vmcb->ctrl.exitcode) { 1379 1.1 maxv case VMCB_EXITCODE_INTR: 1380 1.1 maxv case VMCB_EXITCODE_NMI: 1381 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_NONE; 1382 1.1 maxv break; 1383 1.1 maxv case VMCB_EXITCODE_VINTR: 1384 1.10 maxv svm_event_waitexit_disable(vcpu, false); 1385 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_INT_READY; 1386 1.1 maxv break; 1387 1.1 maxv case VMCB_EXITCODE_IRET: 1388 1.10 maxv svm_event_waitexit_disable(vcpu, true); 1389 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_NMI_READY; 1390 1.1 maxv break; 1391 1.1 maxv case VMCB_EXITCODE_CPUID: 1392 1.1 maxv svm_exit_cpuid(mach, vcpu, exit); 1393 1.1 maxv break; 1394 1.1 maxv case VMCB_EXITCODE_HLT: 1395 1.10 maxv svm_exit_hlt(mach, vcpu, exit); 1396 1.1 maxv break; 1397 1.1 maxv case VMCB_EXITCODE_IOIO: 1398 1.1 maxv svm_exit_io(mach, vcpu, exit); 1399 1.1 maxv break; 1400 1.1 maxv case VMCB_EXITCODE_MSR: 1401 1.1 maxv svm_exit_msr(mach, vcpu, exit); 1402 1.1 maxv break; 1403 1.1 maxv case VMCB_EXITCODE_SHUTDOWN: 1404 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_SHUTDOWN; 1405 1.1 maxv break; 1406 1.1 maxv case VMCB_EXITCODE_RDPMC: 1407 1.1 maxv case VMCB_EXITCODE_RSM: 1408 1.1 maxv case VMCB_EXITCODE_INVLPGA: 1409 1.1 maxv case VMCB_EXITCODE_VMRUN: 1410 1.1 maxv case VMCB_EXITCODE_VMMCALL: 1411 1.1 maxv case VMCB_EXITCODE_VMLOAD: 1412 1.1 maxv case VMCB_EXITCODE_VMSAVE: 1413 1.1 maxv case VMCB_EXITCODE_STGI: 1414 1.1 maxv case VMCB_EXITCODE_CLGI: 1415 1.1 maxv case VMCB_EXITCODE_SKINIT: 1416 1.1 maxv case VMCB_EXITCODE_RDTSCP: 1417 1.45 maxv svm_inject_ud(vcpu); 1418 1.46.4.2 martin exit->reason = NVMM_VCPU_EXIT_NONE; 1419 1.1 maxv break; 1420 1.1 maxv case VMCB_EXITCODE_MONITOR: 1421 1.46.4.2 martin svm_exit_insn(vmcb, exit, NVMM_VCPU_EXIT_MONITOR); 1422 1.1 maxv break; 1423 1.1 maxv case VMCB_EXITCODE_MWAIT: 1424 1.1 maxv case VMCB_EXITCODE_MWAIT_CONDITIONAL: 1425 1.46.4.2 martin svm_exit_insn(vmcb, exit, NVMM_VCPU_EXIT_MWAIT); 1426 1.1 maxv break; 1427 1.1 maxv case VMCB_EXITCODE_XSETBV: 1428 1.1 maxv svm_exit_xsetbv(mach, vcpu, exit); 1429 1.1 maxv break; 1430 1.1 maxv case VMCB_EXITCODE_NPF: 1431 1.1 maxv svm_exit_npf(mach, vcpu, exit); 1432 1.1 maxv break; 1433 1.1 maxv case VMCB_EXITCODE_FERR_FREEZE: /* ? */ 1434 1.1 maxv default: 1435 1.40 maxv svm_exit_invalid(exit, vmcb->ctrl.exitcode); 1436 1.1 maxv break; 1437 1.1 maxv } 1438 1.1 maxv 1439 1.1 maxv /* If no reason to return to userland, keep rolling. */ 1440 1.1 maxv if (curcpu()->ci_schedstate.spc_flags & SPCF_SHOULDYIELD) { 1441 1.1 maxv break; 1442 1.1 maxv } 1443 1.10 maxv if (curcpu()->ci_data.cpu_softints != 0) { 1444 1.10 maxv break; 1445 1.10 maxv } 1446 1.10 maxv if (curlwp->l_flag & LW_USERRET) { 1447 1.10 maxv break; 1448 1.10 maxv } 1449 1.46.4.2 martin if (exit->reason != NVMM_VCPU_EXIT_NONE) { 1450 1.1 maxv break; 1451 1.1 maxv } 1452 1.1 maxv } 1453 1.1 maxv 1454 1.36 maxv cpudata->gtsc = rdtsc() + vmcb->ctrl.tsc_offset; 1455 1.36 maxv 1456 1.1 maxv svm_vcpu_guest_misc_leave(vcpu); 1457 1.1 maxv svm_vcpu_guest_dbregs_leave(vcpu); 1458 1.1 maxv 1459 1.1 maxv kpreempt_enable(); 1460 1.1 maxv 1461 1.46.4.2 martin exit->exitstate.rflags = vmcb->state.rflags; 1462 1.46.4.2 martin exit->exitstate.cr8 = __SHIFTOUT(vmcb->ctrl.v, VMCB_CTRL_V_TPR); 1463 1.46.4.2 martin exit->exitstate.int_shadow = 1464 1.10 maxv ((vmcb->ctrl.intr & VMCB_CTRL_INTR_SHADOW) != 0); 1465 1.46.4.2 martin exit->exitstate.int_window_exiting = cpudata->int_window_exit; 1466 1.46.4.2 martin exit->exitstate.nmi_window_exiting = cpudata->nmi_window_exit; 1467 1.46.4.2 martin exit->exitstate.evt_pending = cpudata->evt_pending; 1468 1.10 maxv 1469 1.1 maxv return 0; 1470 1.1 maxv } 1471 1.1 maxv 1472 1.1 maxv /* -------------------------------------------------------------------------- */ 1473 1.1 maxv 1474 1.1 maxv static int 1475 1.1 maxv svm_memalloc(paddr_t *pa, vaddr_t *va, size_t npages) 1476 1.1 maxv { 1477 1.1 maxv struct pglist pglist; 1478 1.1 maxv paddr_t _pa; 1479 1.1 maxv vaddr_t _va; 1480 1.1 maxv size_t i; 1481 1.1 maxv int ret; 1482 1.1 maxv 1483 1.1 maxv ret = uvm_pglistalloc(npages * PAGE_SIZE, 0, ~0UL, PAGE_SIZE, 0, 1484 1.1 maxv &pglist, 1, 0); 1485 1.1 maxv if (ret != 0) 1486 1.1 maxv return ENOMEM; 1487 1.1 maxv _pa = TAILQ_FIRST(&pglist)->phys_addr; 1488 1.1 maxv _va = uvm_km_alloc(kernel_map, npages * PAGE_SIZE, 0, 1489 1.1 maxv UVM_KMF_VAONLY | UVM_KMF_NOWAIT); 1490 1.1 maxv if (_va == 0) 1491 1.1 maxv goto error; 1492 1.1 maxv 1493 1.1 maxv for (i = 0; i < npages; i++) { 1494 1.1 maxv pmap_kenter_pa(_va + i * PAGE_SIZE, _pa + i * PAGE_SIZE, 1495 1.1 maxv VM_PROT_READ | VM_PROT_WRITE, PMAP_WRITE_BACK); 1496 1.1 maxv } 1497 1.5 maxv pmap_update(pmap_kernel()); 1498 1.1 maxv 1499 1.1 maxv memset((void *)_va, 0, npages * PAGE_SIZE); 1500 1.1 maxv 1501 1.1 maxv *pa = _pa; 1502 1.1 maxv *va = _va; 1503 1.1 maxv return 0; 1504 1.1 maxv 1505 1.1 maxv error: 1506 1.1 maxv for (i = 0; i < npages; i++) { 1507 1.1 maxv uvm_pagefree(PHYS_TO_VM_PAGE(_pa + i * PAGE_SIZE)); 1508 1.1 maxv } 1509 1.1 maxv return ENOMEM; 1510 1.1 maxv } 1511 1.1 maxv 1512 1.1 maxv static void 1513 1.1 maxv svm_memfree(paddr_t pa, vaddr_t va, size_t npages) 1514 1.1 maxv { 1515 1.1 maxv size_t i; 1516 1.1 maxv 1517 1.1 maxv pmap_kremove(va, npages * PAGE_SIZE); 1518 1.1 maxv pmap_update(pmap_kernel()); 1519 1.1 maxv uvm_km_free(kernel_map, va, npages * PAGE_SIZE, UVM_KMF_VAONLY); 1520 1.1 maxv for (i = 0; i < npages; i++) { 1521 1.1 maxv uvm_pagefree(PHYS_TO_VM_PAGE(pa + i * PAGE_SIZE)); 1522 1.1 maxv } 1523 1.1 maxv } 1524 1.1 maxv 1525 1.1 maxv /* -------------------------------------------------------------------------- */ 1526 1.1 maxv 1527 1.1 maxv #define SVM_MSRBM_READ __BIT(0) 1528 1.1 maxv #define SVM_MSRBM_WRITE __BIT(1) 1529 1.1 maxv 1530 1.1 maxv static void 1531 1.1 maxv svm_vcpu_msr_allow(uint8_t *bitmap, uint64_t msr, bool read, bool write) 1532 1.1 maxv { 1533 1.1 maxv uint64_t byte; 1534 1.1 maxv uint8_t bitoff; 1535 1.1 maxv 1536 1.1 maxv if (msr < 0x00002000) { 1537 1.1 maxv /* Range 1 */ 1538 1.1 maxv byte = ((msr - 0x00000000) >> 2UL) + 0x0000; 1539 1.1 maxv } else if (msr >= 0xC0000000 && msr < 0xC0002000) { 1540 1.1 maxv /* Range 2 */ 1541 1.1 maxv byte = ((msr - 0xC0000000) >> 2UL) + 0x0800; 1542 1.1 maxv } else if (msr >= 0xC0010000 && msr < 0xC0012000) { 1543 1.1 maxv /* Range 3 */ 1544 1.1 maxv byte = ((msr - 0xC0010000) >> 2UL) + 0x1000; 1545 1.1 maxv } else { 1546 1.1 maxv panic("%s: wrong range", __func__); 1547 1.1 maxv } 1548 1.1 maxv 1549 1.1 maxv bitoff = (msr & 0x3) << 1; 1550 1.1 maxv 1551 1.1 maxv if (read) { 1552 1.1 maxv bitmap[byte] &= ~(SVM_MSRBM_READ << bitoff); 1553 1.1 maxv } 1554 1.1 maxv if (write) { 1555 1.1 maxv bitmap[byte] &= ~(SVM_MSRBM_WRITE << bitoff); 1556 1.1 maxv } 1557 1.1 maxv } 1558 1.1 maxv 1559 1.32 maxv #define SVM_SEG_ATTRIB_TYPE __BITS(3,0) 1560 1.32 maxv #define SVM_SEG_ATTRIB_S __BIT(4) 1561 1.1 maxv #define SVM_SEG_ATTRIB_DPL __BITS(6,5) 1562 1.1 maxv #define SVM_SEG_ATTRIB_P __BIT(7) 1563 1.1 maxv #define SVM_SEG_ATTRIB_AVL __BIT(8) 1564 1.32 maxv #define SVM_SEG_ATTRIB_L __BIT(9) 1565 1.32 maxv #define SVM_SEG_ATTRIB_DEF __BIT(10) 1566 1.32 maxv #define SVM_SEG_ATTRIB_G __BIT(11) 1567 1.1 maxv 1568 1.1 maxv static void 1569 1.30 maxv svm_vcpu_setstate_seg(const struct nvmm_x64_state_seg *seg, 1570 1.30 maxv struct vmcb_segment *vseg) 1571 1.1 maxv { 1572 1.1 maxv vseg->selector = seg->selector; 1573 1.1 maxv vseg->attrib = 1574 1.1 maxv __SHIFTIN(seg->attrib.type, SVM_SEG_ATTRIB_TYPE) | 1575 1.32 maxv __SHIFTIN(seg->attrib.s, SVM_SEG_ATTRIB_S) | 1576 1.1 maxv __SHIFTIN(seg->attrib.dpl, SVM_SEG_ATTRIB_DPL) | 1577 1.1 maxv __SHIFTIN(seg->attrib.p, SVM_SEG_ATTRIB_P) | 1578 1.1 maxv __SHIFTIN(seg->attrib.avl, SVM_SEG_ATTRIB_AVL) | 1579 1.32 maxv __SHIFTIN(seg->attrib.l, SVM_SEG_ATTRIB_L) | 1580 1.32 maxv __SHIFTIN(seg->attrib.def, SVM_SEG_ATTRIB_DEF) | 1581 1.32 maxv __SHIFTIN(seg->attrib.g, SVM_SEG_ATTRIB_G); 1582 1.1 maxv vseg->limit = seg->limit; 1583 1.1 maxv vseg->base = seg->base; 1584 1.1 maxv } 1585 1.1 maxv 1586 1.1 maxv static void 1587 1.1 maxv svm_vcpu_getstate_seg(struct nvmm_x64_state_seg *seg, struct vmcb_segment *vseg) 1588 1.1 maxv { 1589 1.1 maxv seg->selector = vseg->selector; 1590 1.1 maxv seg->attrib.type = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_TYPE); 1591 1.32 maxv seg->attrib.s = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_S); 1592 1.1 maxv seg->attrib.dpl = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_DPL); 1593 1.1 maxv seg->attrib.p = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_P); 1594 1.1 maxv seg->attrib.avl = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_AVL); 1595 1.32 maxv seg->attrib.l = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_L); 1596 1.32 maxv seg->attrib.def = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_DEF); 1597 1.32 maxv seg->attrib.g = __SHIFTOUT(vseg->attrib, SVM_SEG_ATTRIB_G); 1598 1.1 maxv seg->limit = vseg->limit; 1599 1.1 maxv seg->base = vseg->base; 1600 1.1 maxv } 1601 1.1 maxv 1602 1.13 maxv static inline bool 1603 1.30 maxv svm_state_tlb_flush(const struct vmcb *vmcb, const struct nvmm_x64_state *state, 1604 1.13 maxv uint64_t flags) 1605 1.1 maxv { 1606 1.1 maxv if (flags & NVMM_X64_STATE_CRS) { 1607 1.13 maxv if ((vmcb->state.cr0 ^ 1608 1.13 maxv state->crs[NVMM_X64_CR_CR0]) & CR0_TLB_FLUSH) { 1609 1.1 maxv return true; 1610 1.1 maxv } 1611 1.13 maxv if (vmcb->state.cr3 != state->crs[NVMM_X64_CR_CR3]) { 1612 1.1 maxv return true; 1613 1.1 maxv } 1614 1.13 maxv if ((vmcb->state.cr4 ^ 1615 1.13 maxv state->crs[NVMM_X64_CR_CR4]) & CR4_TLB_FLUSH) { 1616 1.1 maxv return true; 1617 1.1 maxv } 1618 1.1 maxv } 1619 1.1 maxv 1620 1.1 maxv if (flags & NVMM_X64_STATE_MSRS) { 1621 1.13 maxv if ((vmcb->state.efer ^ 1622 1.13 maxv state->msrs[NVMM_X64_MSR_EFER]) & EFER_TLB_FLUSH) { 1623 1.1 maxv return true; 1624 1.1 maxv } 1625 1.1 maxv } 1626 1.1 maxv 1627 1.1 maxv return false; 1628 1.1 maxv } 1629 1.1 maxv 1630 1.1 maxv static void 1631 1.43 maxv svm_vcpu_setstate(struct nvmm_cpu *vcpu) 1632 1.1 maxv { 1633 1.43 maxv struct nvmm_comm_page *comm = vcpu->comm; 1634 1.43 maxv const struct nvmm_x64_state *state = &comm->state; 1635 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1636 1.1 maxv struct vmcb *vmcb = cpudata->vmcb; 1637 1.1 maxv struct fxsave *fpustate; 1638 1.43 maxv uint64_t flags; 1639 1.43 maxv 1640 1.43 maxv flags = comm->state_wanted; 1641 1.1 maxv 1642 1.13 maxv if (svm_state_tlb_flush(vmcb, state, flags)) { 1643 1.28 maxv cpudata->gtlb_want_flush = true; 1644 1.1 maxv } 1645 1.1 maxv 1646 1.1 maxv if (flags & NVMM_X64_STATE_SEGS) { 1647 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_CS], 1648 1.1 maxv &vmcb->state.cs); 1649 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_DS], 1650 1.1 maxv &vmcb->state.ds); 1651 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_ES], 1652 1.1 maxv &vmcb->state.es); 1653 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_FS], 1654 1.1 maxv &vmcb->state.fs); 1655 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_GS], 1656 1.1 maxv &vmcb->state.gs); 1657 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_SS], 1658 1.1 maxv &vmcb->state.ss); 1659 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_GDT], 1660 1.1 maxv &vmcb->state.gdt); 1661 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_IDT], 1662 1.1 maxv &vmcb->state.idt); 1663 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_LDT], 1664 1.1 maxv &vmcb->state.ldt); 1665 1.13 maxv svm_vcpu_setstate_seg(&state->segs[NVMM_X64_SEG_TR], 1666 1.1 maxv &vmcb->state.tr); 1667 1.23 maxv 1668 1.23 maxv vmcb->state.cpl = state->segs[NVMM_X64_SEG_SS].attrib.dpl; 1669 1.1 maxv } 1670 1.1 maxv 1671 1.13 maxv CTASSERT(sizeof(cpudata->gprs) == sizeof(state->gprs)); 1672 1.1 maxv if (flags & NVMM_X64_STATE_GPRS) { 1673 1.13 maxv memcpy(cpudata->gprs, state->gprs, sizeof(state->gprs)); 1674 1.1 maxv 1675 1.13 maxv vmcb->state.rip = state->gprs[NVMM_X64_GPR_RIP]; 1676 1.13 maxv vmcb->state.rsp = state->gprs[NVMM_X64_GPR_RSP]; 1677 1.13 maxv vmcb->state.rax = state->gprs[NVMM_X64_GPR_RAX]; 1678 1.13 maxv vmcb->state.rflags = state->gprs[NVMM_X64_GPR_RFLAGS]; 1679 1.1 maxv } 1680 1.1 maxv 1681 1.1 maxv if (flags & NVMM_X64_STATE_CRS) { 1682 1.13 maxv vmcb->state.cr0 = state->crs[NVMM_X64_CR_CR0]; 1683 1.13 maxv vmcb->state.cr2 = state->crs[NVMM_X64_CR_CR2]; 1684 1.13 maxv vmcb->state.cr3 = state->crs[NVMM_X64_CR_CR3]; 1685 1.13 maxv vmcb->state.cr4 = state->crs[NVMM_X64_CR_CR4]; 1686 1.1 maxv 1687 1.1 maxv vmcb->ctrl.v &= ~VMCB_CTRL_V_TPR; 1688 1.13 maxv vmcb->ctrl.v |= __SHIFTIN(state->crs[NVMM_X64_CR_CR8], 1689 1.1 maxv VMCB_CTRL_V_TPR); 1690 1.1 maxv 1691 1.1 maxv if (svm_xcr0_mask != 0) { 1692 1.16 maxv /* Clear illegal XCR0 bits, set mandatory X87 bit. */ 1693 1.13 maxv cpudata->gxcr0 = state->crs[NVMM_X64_CR_XCR0]; 1694 1.13 maxv cpudata->gxcr0 &= svm_xcr0_mask; 1695 1.13 maxv cpudata->gxcr0 |= XCR0_X87; 1696 1.1 maxv } 1697 1.1 maxv } 1698 1.1 maxv 1699 1.13 maxv CTASSERT(sizeof(cpudata->drs) == sizeof(state->drs)); 1700 1.1 maxv if (flags & NVMM_X64_STATE_DRS) { 1701 1.13 maxv memcpy(cpudata->drs, state->drs, sizeof(state->drs)); 1702 1.1 maxv 1703 1.13 maxv vmcb->state.dr6 = state->drs[NVMM_X64_DR_DR6]; 1704 1.13 maxv vmcb->state.dr7 = state->drs[NVMM_X64_DR_DR7]; 1705 1.1 maxv } 1706 1.1 maxv 1707 1.1 maxv if (flags & NVMM_X64_STATE_MSRS) { 1708 1.30 maxv /* 1709 1.30 maxv * EFER_SVME is mandatory. 1710 1.30 maxv */ 1711 1.13 maxv vmcb->state.efer = state->msrs[NVMM_X64_MSR_EFER] | EFER_SVME; 1712 1.13 maxv vmcb->state.star = state->msrs[NVMM_X64_MSR_STAR]; 1713 1.13 maxv vmcb->state.lstar = state->msrs[NVMM_X64_MSR_LSTAR]; 1714 1.13 maxv vmcb->state.cstar = state->msrs[NVMM_X64_MSR_CSTAR]; 1715 1.13 maxv vmcb->state.sfmask = state->msrs[NVMM_X64_MSR_SFMASK]; 1716 1.1 maxv vmcb->state.kernelgsbase = 1717 1.13 maxv state->msrs[NVMM_X64_MSR_KERNELGSBASE]; 1718 1.1 maxv vmcb->state.sysenter_cs = 1719 1.13 maxv state->msrs[NVMM_X64_MSR_SYSENTER_CS]; 1720 1.1 maxv vmcb->state.sysenter_esp = 1721 1.13 maxv state->msrs[NVMM_X64_MSR_SYSENTER_ESP]; 1722 1.1 maxv vmcb->state.sysenter_eip = 1723 1.13 maxv state->msrs[NVMM_X64_MSR_SYSENTER_EIP]; 1724 1.13 maxv vmcb->state.g_pat = state->msrs[NVMM_X64_MSR_PAT]; 1725 1.36 maxv 1726 1.36 maxv cpudata->gtsc = state->msrs[NVMM_X64_MSR_TSC]; 1727 1.36 maxv cpudata->gtsc_want_update = true; 1728 1.1 maxv } 1729 1.1 maxv 1730 1.37 maxv if (flags & NVMM_X64_STATE_INTR) { 1731 1.37 maxv if (state->intr.int_shadow) { 1732 1.10 maxv vmcb->ctrl.intr |= VMCB_CTRL_INTR_SHADOW; 1733 1.10 maxv } else { 1734 1.10 maxv vmcb->ctrl.intr &= ~VMCB_CTRL_INTR_SHADOW; 1735 1.10 maxv } 1736 1.10 maxv 1737 1.37 maxv if (state->intr.int_window_exiting) { 1738 1.10 maxv svm_event_waitexit_enable(vcpu, false); 1739 1.10 maxv } else { 1740 1.10 maxv svm_event_waitexit_disable(vcpu, false); 1741 1.10 maxv } 1742 1.10 maxv 1743 1.37 maxv if (state->intr.nmi_window_exiting) { 1744 1.10 maxv svm_event_waitexit_enable(vcpu, true); 1745 1.10 maxv } else { 1746 1.10 maxv svm_event_waitexit_disable(vcpu, true); 1747 1.10 maxv } 1748 1.1 maxv } 1749 1.1 maxv 1750 1.13 maxv CTASSERT(sizeof(cpudata->gfpu.xsh_fxsave) == sizeof(state->fpu)); 1751 1.1 maxv if (flags & NVMM_X64_STATE_FPU) { 1752 1.13 maxv memcpy(cpudata->gfpu.xsh_fxsave, &state->fpu, 1753 1.13 maxv sizeof(state->fpu)); 1754 1.1 maxv 1755 1.1 maxv fpustate = (struct fxsave *)cpudata->gfpu.xsh_fxsave; 1756 1.1 maxv fpustate->fx_mxcsr_mask &= x86_fpu_mxcsr_mask; 1757 1.1 maxv fpustate->fx_mxcsr &= fpustate->fx_mxcsr_mask; 1758 1.16 maxv 1759 1.16 maxv if (svm_xcr0_mask != 0) { 1760 1.16 maxv /* Reset XSTATE_BV, to force a reload. */ 1761 1.16 maxv cpudata->gfpu.xsh_xstate_bv = svm_xcr0_mask; 1762 1.16 maxv } 1763 1.1 maxv } 1764 1.12 maxv 1765 1.12 maxv svm_vmcb_cache_update(vmcb, flags); 1766 1.43 maxv 1767 1.43 maxv comm->state_wanted = 0; 1768 1.43 maxv comm->state_cached |= flags; 1769 1.1 maxv } 1770 1.1 maxv 1771 1.1 maxv static void 1772 1.43 maxv svm_vcpu_getstate(struct nvmm_cpu *vcpu) 1773 1.1 maxv { 1774 1.43 maxv struct nvmm_comm_page *comm = vcpu->comm; 1775 1.43 maxv struct nvmm_x64_state *state = &comm->state; 1776 1.1 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1777 1.1 maxv struct vmcb *vmcb = cpudata->vmcb; 1778 1.43 maxv uint64_t flags; 1779 1.43 maxv 1780 1.43 maxv flags = comm->state_wanted; 1781 1.1 maxv 1782 1.1 maxv if (flags & NVMM_X64_STATE_SEGS) { 1783 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_CS], 1784 1.1 maxv &vmcb->state.cs); 1785 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_DS], 1786 1.1 maxv &vmcb->state.ds); 1787 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_ES], 1788 1.1 maxv &vmcb->state.es); 1789 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_FS], 1790 1.1 maxv &vmcb->state.fs); 1791 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_GS], 1792 1.1 maxv &vmcb->state.gs); 1793 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_SS], 1794 1.1 maxv &vmcb->state.ss); 1795 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_GDT], 1796 1.1 maxv &vmcb->state.gdt); 1797 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_IDT], 1798 1.1 maxv &vmcb->state.idt); 1799 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_LDT], 1800 1.1 maxv &vmcb->state.ldt); 1801 1.13 maxv svm_vcpu_getstate_seg(&state->segs[NVMM_X64_SEG_TR], 1802 1.1 maxv &vmcb->state.tr); 1803 1.23 maxv 1804 1.23 maxv state->segs[NVMM_X64_SEG_SS].attrib.dpl = vmcb->state.cpl; 1805 1.1 maxv } 1806 1.1 maxv 1807 1.13 maxv CTASSERT(sizeof(cpudata->gprs) == sizeof(state->gprs)); 1808 1.1 maxv if (flags & NVMM_X64_STATE_GPRS) { 1809 1.13 maxv memcpy(state->gprs, cpudata->gprs, sizeof(state->gprs)); 1810 1.1 maxv 1811 1.13 maxv state->gprs[NVMM_X64_GPR_RIP] = vmcb->state.rip; 1812 1.13 maxv state->gprs[NVMM_X64_GPR_RSP] = vmcb->state.rsp; 1813 1.13 maxv state->gprs[NVMM_X64_GPR_RAX] = vmcb->state.rax; 1814 1.13 maxv state->gprs[NVMM_X64_GPR_RFLAGS] = vmcb->state.rflags; 1815 1.1 maxv } 1816 1.1 maxv 1817 1.1 maxv if (flags & NVMM_X64_STATE_CRS) { 1818 1.13 maxv state->crs[NVMM_X64_CR_CR0] = vmcb->state.cr0; 1819 1.13 maxv state->crs[NVMM_X64_CR_CR2] = vmcb->state.cr2; 1820 1.13 maxv state->crs[NVMM_X64_CR_CR3] = vmcb->state.cr3; 1821 1.13 maxv state->crs[NVMM_X64_CR_CR4] = vmcb->state.cr4; 1822 1.13 maxv state->crs[NVMM_X64_CR_CR8] = __SHIFTOUT(vmcb->ctrl.v, 1823 1.1 maxv VMCB_CTRL_V_TPR); 1824 1.13 maxv state->crs[NVMM_X64_CR_XCR0] = cpudata->gxcr0; 1825 1.1 maxv } 1826 1.1 maxv 1827 1.13 maxv CTASSERT(sizeof(cpudata->drs) == sizeof(state->drs)); 1828 1.1 maxv if (flags & NVMM_X64_STATE_DRS) { 1829 1.13 maxv memcpy(state->drs, cpudata->drs, sizeof(state->drs)); 1830 1.1 maxv 1831 1.13 maxv state->drs[NVMM_X64_DR_DR6] = vmcb->state.dr6; 1832 1.13 maxv state->drs[NVMM_X64_DR_DR7] = vmcb->state.dr7; 1833 1.1 maxv } 1834 1.1 maxv 1835 1.1 maxv if (flags & NVMM_X64_STATE_MSRS) { 1836 1.13 maxv state->msrs[NVMM_X64_MSR_EFER] = vmcb->state.efer; 1837 1.13 maxv state->msrs[NVMM_X64_MSR_STAR] = vmcb->state.star; 1838 1.13 maxv state->msrs[NVMM_X64_MSR_LSTAR] = vmcb->state.lstar; 1839 1.13 maxv state->msrs[NVMM_X64_MSR_CSTAR] = vmcb->state.cstar; 1840 1.13 maxv state->msrs[NVMM_X64_MSR_SFMASK] = vmcb->state.sfmask; 1841 1.13 maxv state->msrs[NVMM_X64_MSR_KERNELGSBASE] = 1842 1.1 maxv vmcb->state.kernelgsbase; 1843 1.13 maxv state->msrs[NVMM_X64_MSR_SYSENTER_CS] = 1844 1.1 maxv vmcb->state.sysenter_cs; 1845 1.13 maxv state->msrs[NVMM_X64_MSR_SYSENTER_ESP] = 1846 1.1 maxv vmcb->state.sysenter_esp; 1847 1.13 maxv state->msrs[NVMM_X64_MSR_SYSENTER_EIP] = 1848 1.1 maxv vmcb->state.sysenter_eip; 1849 1.13 maxv state->msrs[NVMM_X64_MSR_PAT] = vmcb->state.g_pat; 1850 1.36 maxv state->msrs[NVMM_X64_MSR_TSC] = cpudata->gtsc; 1851 1.1 maxv 1852 1.1 maxv /* Hide SVME. */ 1853 1.13 maxv state->msrs[NVMM_X64_MSR_EFER] &= ~EFER_SVME; 1854 1.1 maxv } 1855 1.1 maxv 1856 1.37 maxv if (flags & NVMM_X64_STATE_INTR) { 1857 1.37 maxv state->intr.int_shadow = 1858 1.10 maxv (vmcb->ctrl.intr & VMCB_CTRL_INTR_SHADOW) != 0; 1859 1.37 maxv state->intr.int_window_exiting = cpudata->int_window_exit; 1860 1.37 maxv state->intr.nmi_window_exiting = cpudata->nmi_window_exit; 1861 1.37 maxv state->intr.evt_pending = cpudata->evt_pending; 1862 1.1 maxv } 1863 1.1 maxv 1864 1.13 maxv CTASSERT(sizeof(cpudata->gfpu.xsh_fxsave) == sizeof(state->fpu)); 1865 1.1 maxv if (flags & NVMM_X64_STATE_FPU) { 1866 1.13 maxv memcpy(&state->fpu, cpudata->gfpu.xsh_fxsave, 1867 1.13 maxv sizeof(state->fpu)); 1868 1.1 maxv } 1869 1.43 maxv 1870 1.43 maxv comm->state_wanted = 0; 1871 1.43 maxv comm->state_cached |= flags; 1872 1.43 maxv } 1873 1.43 maxv 1874 1.43 maxv static void 1875 1.43 maxv svm_vcpu_state_provide(struct nvmm_cpu *vcpu, uint64_t flags) 1876 1.43 maxv { 1877 1.43 maxv vcpu->comm->state_wanted = flags; 1878 1.43 maxv svm_vcpu_getstate(vcpu); 1879 1.43 maxv } 1880 1.43 maxv 1881 1.43 maxv static void 1882 1.43 maxv svm_vcpu_state_commit(struct nvmm_cpu *vcpu) 1883 1.43 maxv { 1884 1.43 maxv vcpu->comm->state_wanted = vcpu->comm->state_commit; 1885 1.43 maxv vcpu->comm->state_commit = 0; 1886 1.43 maxv svm_vcpu_setstate(vcpu); 1887 1.1 maxv } 1888 1.1 maxv 1889 1.1 maxv /* -------------------------------------------------------------------------- */ 1890 1.1 maxv 1891 1.1 maxv static void 1892 1.30 maxv svm_asid_alloc(struct nvmm_cpu *vcpu) 1893 1.30 maxv { 1894 1.30 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1895 1.30 maxv struct vmcb *vmcb = cpudata->vmcb; 1896 1.30 maxv size_t i, oct, bit; 1897 1.30 maxv 1898 1.30 maxv mutex_enter(&svm_asidlock); 1899 1.30 maxv 1900 1.30 maxv for (i = 0; i < svm_maxasid; i++) { 1901 1.30 maxv oct = i / 8; 1902 1.30 maxv bit = i % 8; 1903 1.30 maxv 1904 1.30 maxv if (svm_asidmap[oct] & __BIT(bit)) { 1905 1.30 maxv continue; 1906 1.30 maxv } 1907 1.30 maxv 1908 1.30 maxv svm_asidmap[oct] |= __BIT(bit); 1909 1.30 maxv vmcb->ctrl.guest_asid = i; 1910 1.30 maxv mutex_exit(&svm_asidlock); 1911 1.30 maxv return; 1912 1.30 maxv } 1913 1.30 maxv 1914 1.30 maxv /* 1915 1.30 maxv * No free ASID. Use the last one, which is shared and requires 1916 1.30 maxv * special TLB handling. 1917 1.30 maxv */ 1918 1.30 maxv cpudata->shared_asid = true; 1919 1.30 maxv vmcb->ctrl.guest_asid = svm_maxasid - 1; 1920 1.30 maxv mutex_exit(&svm_asidlock); 1921 1.30 maxv } 1922 1.30 maxv 1923 1.30 maxv static void 1924 1.30 maxv svm_asid_free(struct nvmm_cpu *vcpu) 1925 1.30 maxv { 1926 1.30 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1927 1.30 maxv struct vmcb *vmcb = cpudata->vmcb; 1928 1.30 maxv size_t oct, bit; 1929 1.30 maxv 1930 1.30 maxv if (cpudata->shared_asid) { 1931 1.30 maxv return; 1932 1.30 maxv } 1933 1.30 maxv 1934 1.30 maxv oct = vmcb->ctrl.guest_asid / 8; 1935 1.30 maxv bit = vmcb->ctrl.guest_asid % 8; 1936 1.30 maxv 1937 1.30 maxv mutex_enter(&svm_asidlock); 1938 1.30 maxv svm_asidmap[oct] &= ~__BIT(bit); 1939 1.30 maxv mutex_exit(&svm_asidlock); 1940 1.30 maxv } 1941 1.30 maxv 1942 1.30 maxv static void 1943 1.30 maxv svm_vcpu_init(struct nvmm_machine *mach, struct nvmm_cpu *vcpu) 1944 1.30 maxv { 1945 1.30 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 1946 1.30 maxv struct vmcb *vmcb = cpudata->vmcb; 1947 1.30 maxv 1948 1.30 maxv /* Allow reads/writes of Control Registers. */ 1949 1.30 maxv vmcb->ctrl.intercept_cr = 0; 1950 1.30 maxv 1951 1.30 maxv /* Allow reads/writes of Debug Registers. */ 1952 1.30 maxv vmcb->ctrl.intercept_dr = 0; 1953 1.30 maxv 1954 1.30 maxv /* Allow exceptions 0 to 31. */ 1955 1.30 maxv vmcb->ctrl.intercept_vec = 0; 1956 1.30 maxv 1957 1.30 maxv /* 1958 1.30 maxv * Allow: 1959 1.30 maxv * - SMI [smm interrupts] 1960 1.30 maxv * - VINTR [virtual interrupts] 1961 1.30 maxv * - CR0_SPEC [CR0 writes changing other fields than CR0.TS or CR0.MP] 1962 1.30 maxv * - RIDTR [reads of IDTR] 1963 1.30 maxv * - RGDTR [reads of GDTR] 1964 1.30 maxv * - RLDTR [reads of LDTR] 1965 1.30 maxv * - RTR [reads of TR] 1966 1.30 maxv * - WIDTR [writes of IDTR] 1967 1.30 maxv * - WGDTR [writes of GDTR] 1968 1.30 maxv * - WLDTR [writes of LDTR] 1969 1.30 maxv * - WTR [writes of TR] 1970 1.30 maxv * - RDTSC [rdtsc instruction] 1971 1.30 maxv * - PUSHF [pushf instruction] 1972 1.30 maxv * - POPF [popf instruction] 1973 1.30 maxv * - IRET [iret instruction] 1974 1.30 maxv * - INTN [int $n instructions] 1975 1.30 maxv * - INVD [invd instruction] 1976 1.30 maxv * - PAUSE [pause instruction] 1977 1.30 maxv * - INVLPG [invplg instruction] 1978 1.30 maxv * - TASKSW [task switches] 1979 1.30 maxv * 1980 1.30 maxv * Intercept the rest below. 1981 1.30 maxv */ 1982 1.30 maxv vmcb->ctrl.intercept_misc1 = 1983 1.30 maxv VMCB_CTRL_INTERCEPT_INTR | 1984 1.30 maxv VMCB_CTRL_INTERCEPT_NMI | 1985 1.30 maxv VMCB_CTRL_INTERCEPT_INIT | 1986 1.30 maxv VMCB_CTRL_INTERCEPT_RDPMC | 1987 1.30 maxv VMCB_CTRL_INTERCEPT_CPUID | 1988 1.30 maxv VMCB_CTRL_INTERCEPT_RSM | 1989 1.30 maxv VMCB_CTRL_INTERCEPT_HLT | 1990 1.30 maxv VMCB_CTRL_INTERCEPT_INVLPGA | 1991 1.30 maxv VMCB_CTRL_INTERCEPT_IOIO_PROT | 1992 1.30 maxv VMCB_CTRL_INTERCEPT_MSR_PROT | 1993 1.30 maxv VMCB_CTRL_INTERCEPT_FERR_FREEZE | 1994 1.30 maxv VMCB_CTRL_INTERCEPT_SHUTDOWN; 1995 1.30 maxv 1996 1.30 maxv /* 1997 1.30 maxv * Allow: 1998 1.30 maxv * - ICEBP [icebp instruction] 1999 1.30 maxv * - WBINVD [wbinvd instruction] 2000 1.30 maxv * - WCR_SPEC(0..15) [writes of CR0-15, received after instruction] 2001 1.30 maxv * 2002 1.30 maxv * Intercept the rest below. 2003 1.30 maxv */ 2004 1.30 maxv vmcb->ctrl.intercept_misc2 = 2005 1.30 maxv VMCB_CTRL_INTERCEPT_VMRUN | 2006 1.30 maxv VMCB_CTRL_INTERCEPT_VMMCALL | 2007 1.30 maxv VMCB_CTRL_INTERCEPT_VMLOAD | 2008 1.30 maxv VMCB_CTRL_INTERCEPT_VMSAVE | 2009 1.30 maxv VMCB_CTRL_INTERCEPT_STGI | 2010 1.30 maxv VMCB_CTRL_INTERCEPT_CLGI | 2011 1.30 maxv VMCB_CTRL_INTERCEPT_SKINIT | 2012 1.30 maxv VMCB_CTRL_INTERCEPT_RDTSCP | 2013 1.30 maxv VMCB_CTRL_INTERCEPT_MONITOR | 2014 1.30 maxv VMCB_CTRL_INTERCEPT_MWAIT | 2015 1.30 maxv VMCB_CTRL_INTERCEPT_XSETBV; 2016 1.30 maxv 2017 1.30 maxv /* Intercept all I/O accesses. */ 2018 1.30 maxv memset(cpudata->iobm, 0xFF, IOBM_SIZE); 2019 1.30 maxv vmcb->ctrl.iopm_base_pa = cpudata->iobm_pa; 2020 1.30 maxv 2021 1.30 maxv /* Allow direct access to certain MSRs. */ 2022 1.30 maxv memset(cpudata->msrbm, 0xFF, MSRBM_SIZE); 2023 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_EFER, true, false); 2024 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_STAR, true, true); 2025 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_LSTAR, true, true); 2026 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_CSTAR, true, true); 2027 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_SFMASK, true, true); 2028 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_KERNELGSBASE, true, true); 2029 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_SYSENTER_CS, true, true); 2030 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_SYSENTER_ESP, true, true); 2031 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_SYSENTER_EIP, true, true); 2032 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_FSBASE, true, true); 2033 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_GSBASE, true, true); 2034 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_CR_PAT, true, true); 2035 1.30 maxv svm_vcpu_msr_allow(cpudata->msrbm, MSR_TSC, true, false); 2036 1.30 maxv vmcb->ctrl.msrpm_base_pa = cpudata->msrbm_pa; 2037 1.30 maxv 2038 1.30 maxv /* Generate ASID. */ 2039 1.30 maxv svm_asid_alloc(vcpu); 2040 1.30 maxv 2041 1.30 maxv /* Virtual TPR. */ 2042 1.30 maxv vmcb->ctrl.v = VMCB_CTRL_V_INTR_MASKING; 2043 1.30 maxv 2044 1.30 maxv /* Enable Nested Paging. */ 2045 1.30 maxv vmcb->ctrl.enable1 = VMCB_CTRL_ENABLE_NP; 2046 1.30 maxv vmcb->ctrl.n_cr3 = mach->vm->vm_map.pmap->pm_pdirpa[0]; 2047 1.30 maxv 2048 1.30 maxv /* Init XSAVE header. */ 2049 1.30 maxv cpudata->gfpu.xsh_xstate_bv = svm_xcr0_mask; 2050 1.30 maxv cpudata->gfpu.xsh_xcomp_bv = 0; 2051 1.30 maxv 2052 1.30 maxv /* These MSRs are static. */ 2053 1.30 maxv cpudata->star = rdmsr(MSR_STAR); 2054 1.30 maxv cpudata->lstar = rdmsr(MSR_LSTAR); 2055 1.30 maxv cpudata->cstar = rdmsr(MSR_CSTAR); 2056 1.30 maxv cpudata->sfmask = rdmsr(MSR_SFMASK); 2057 1.31 maxv 2058 1.31 maxv /* Install the RESET state. */ 2059 1.43 maxv memcpy(&vcpu->comm->state, &nvmm_x86_reset_state, 2060 1.43 maxv sizeof(nvmm_x86_reset_state)); 2061 1.43 maxv vcpu->comm->state_wanted = NVMM_X64_STATE_ALL; 2062 1.43 maxv vcpu->comm->state_cached = 0; 2063 1.43 maxv svm_vcpu_setstate(vcpu); 2064 1.30 maxv } 2065 1.30 maxv 2066 1.30 maxv static int 2067 1.30 maxv svm_vcpu_create(struct nvmm_machine *mach, struct nvmm_cpu *vcpu) 2068 1.30 maxv { 2069 1.30 maxv struct svm_cpudata *cpudata; 2070 1.30 maxv int error; 2071 1.30 maxv 2072 1.30 maxv /* Allocate the SVM cpudata. */ 2073 1.30 maxv cpudata = (struct svm_cpudata *)uvm_km_alloc(kernel_map, 2074 1.30 maxv roundup(sizeof(*cpudata), PAGE_SIZE), 0, 2075 1.30 maxv UVM_KMF_WIRED|UVM_KMF_ZERO); 2076 1.30 maxv vcpu->cpudata = cpudata; 2077 1.30 maxv 2078 1.30 maxv /* VMCB */ 2079 1.30 maxv error = svm_memalloc(&cpudata->vmcb_pa, (vaddr_t *)&cpudata->vmcb, 2080 1.30 maxv VMCB_NPAGES); 2081 1.30 maxv if (error) 2082 1.30 maxv goto error; 2083 1.30 maxv 2084 1.30 maxv /* I/O Bitmap */ 2085 1.30 maxv error = svm_memalloc(&cpudata->iobm_pa, (vaddr_t *)&cpudata->iobm, 2086 1.30 maxv IOBM_NPAGES); 2087 1.30 maxv if (error) 2088 1.30 maxv goto error; 2089 1.30 maxv 2090 1.30 maxv /* MSR Bitmap */ 2091 1.30 maxv error = svm_memalloc(&cpudata->msrbm_pa, (vaddr_t *)&cpudata->msrbm, 2092 1.30 maxv MSRBM_NPAGES); 2093 1.30 maxv if (error) 2094 1.30 maxv goto error; 2095 1.30 maxv 2096 1.30 maxv /* Init the VCPU info. */ 2097 1.30 maxv svm_vcpu_init(mach, vcpu); 2098 1.30 maxv 2099 1.30 maxv return 0; 2100 1.30 maxv 2101 1.30 maxv error: 2102 1.30 maxv if (cpudata->vmcb_pa) { 2103 1.30 maxv svm_memfree(cpudata->vmcb_pa, (vaddr_t)cpudata->vmcb, 2104 1.30 maxv VMCB_NPAGES); 2105 1.30 maxv } 2106 1.30 maxv if (cpudata->iobm_pa) { 2107 1.30 maxv svm_memfree(cpudata->iobm_pa, (vaddr_t)cpudata->iobm, 2108 1.30 maxv IOBM_NPAGES); 2109 1.30 maxv } 2110 1.30 maxv if (cpudata->msrbm_pa) { 2111 1.30 maxv svm_memfree(cpudata->msrbm_pa, (vaddr_t)cpudata->msrbm, 2112 1.30 maxv MSRBM_NPAGES); 2113 1.30 maxv } 2114 1.30 maxv uvm_km_free(kernel_map, (vaddr_t)cpudata, 2115 1.30 maxv roundup(sizeof(*cpudata), PAGE_SIZE), UVM_KMF_WIRED); 2116 1.30 maxv return error; 2117 1.30 maxv } 2118 1.30 maxv 2119 1.30 maxv static void 2120 1.30 maxv svm_vcpu_destroy(struct nvmm_machine *mach, struct nvmm_cpu *vcpu) 2121 1.30 maxv { 2122 1.30 maxv struct svm_cpudata *cpudata = vcpu->cpudata; 2123 1.30 maxv 2124 1.30 maxv svm_asid_free(vcpu); 2125 1.30 maxv 2126 1.30 maxv svm_memfree(cpudata->vmcb_pa, (vaddr_t)cpudata->vmcb, VMCB_NPAGES); 2127 1.30 maxv svm_memfree(cpudata->iobm_pa, (vaddr_t)cpudata->iobm, IOBM_NPAGES); 2128 1.30 maxv svm_memfree(cpudata->msrbm_pa, (vaddr_t)cpudata->msrbm, MSRBM_NPAGES); 2129 1.30 maxv 2130 1.30 maxv uvm_km_free(kernel_map, (vaddr_t)cpudata, 2131 1.30 maxv roundup(sizeof(*cpudata), PAGE_SIZE), UVM_KMF_WIRED); 2132 1.30 maxv } 2133 1.30 maxv 2134 1.30 maxv /* -------------------------------------------------------------------------- */ 2135 1.30 maxv 2136 1.46.4.2 martin static int 2137 1.46.4.2 martin svm_vcpu_configure_cpuid(struct svm_cpudata *cpudata, void *data) 2138 1.46.4.2 martin { 2139 1.46.4.2 martin struct nvmm_vcpu_conf_cpuid *cpuid = data; 2140 1.46.4.2 martin size_t i; 2141 1.46.4.2 martin 2142 1.46.4.2 martin if (__predict_false(cpuid->mask && cpuid->exit)) { 2143 1.46.4.2 martin return EINVAL; 2144 1.46.4.2 martin } 2145 1.46.4.2 martin if (__predict_false(cpuid->mask && 2146 1.46.4.2 martin ((cpuid->u.mask.set.eax & cpuid->u.mask.del.eax) || 2147 1.46.4.2 martin (cpuid->u.mask.set.ebx & cpuid->u.mask.del.ebx) || 2148 1.46.4.2 martin (cpuid->u.mask.set.ecx & cpuid->u.mask.del.ecx) || 2149 1.46.4.2 martin (cpuid->u.mask.set.edx & cpuid->u.mask.del.edx)))) { 2150 1.46.4.2 martin return EINVAL; 2151 1.46.4.2 martin } 2152 1.46.4.2 martin 2153 1.46.4.2 martin /* If unset, delete, to restore the default behavior. */ 2154 1.46.4.2 martin if (!cpuid->mask && !cpuid->exit) { 2155 1.46.4.2 martin for (i = 0; i < SVM_NCPUIDS; i++) { 2156 1.46.4.2 martin if (!cpudata->cpuidpresent[i]) { 2157 1.46.4.2 martin continue; 2158 1.46.4.2 martin } 2159 1.46.4.2 martin if (cpudata->cpuid[i].leaf == cpuid->leaf) { 2160 1.46.4.2 martin cpudata->cpuidpresent[i] = false; 2161 1.46.4.2 martin } 2162 1.46.4.2 martin } 2163 1.46.4.2 martin return 0; 2164 1.46.4.2 martin } 2165 1.46.4.2 martin 2166 1.46.4.2 martin /* If already here, replace. */ 2167 1.46.4.2 martin for (i = 0; i < SVM_NCPUIDS; i++) { 2168 1.46.4.2 martin if (!cpudata->cpuidpresent[i]) { 2169 1.46.4.2 martin continue; 2170 1.46.4.2 martin } 2171 1.46.4.2 martin if (cpudata->cpuid[i].leaf == cpuid->leaf) { 2172 1.46.4.2 martin memcpy(&cpudata->cpuid[i], cpuid, 2173 1.46.4.2 martin sizeof(struct nvmm_vcpu_conf_cpuid)); 2174 1.46.4.2 martin return 0; 2175 1.46.4.2 martin } 2176 1.46.4.2 martin } 2177 1.46.4.2 martin 2178 1.46.4.2 martin /* Not here, insert. */ 2179 1.46.4.2 martin for (i = 0; i < SVM_NCPUIDS; i++) { 2180 1.46.4.2 martin if (!cpudata->cpuidpresent[i]) { 2181 1.46.4.2 martin cpudata->cpuidpresent[i] = true; 2182 1.46.4.2 martin memcpy(&cpudata->cpuid[i], cpuid, 2183 1.46.4.2 martin sizeof(struct nvmm_vcpu_conf_cpuid)); 2184 1.46.4.2 martin return 0; 2185 1.46.4.2 martin } 2186 1.46.4.2 martin } 2187 1.46.4.2 martin 2188 1.46.4.2 martin return ENOBUFS; 2189 1.46.4.2 martin } 2190 1.46.4.2 martin 2191 1.46.4.2 martin static int 2192 1.46.4.2 martin svm_vcpu_configure(struct nvmm_cpu *vcpu, uint64_t op, void *data) 2193 1.46.4.2 martin { 2194 1.46.4.2 martin struct svm_cpudata *cpudata = vcpu->cpudata; 2195 1.46.4.2 martin 2196 1.46.4.2 martin switch (op) { 2197 1.46.4.2 martin case NVMM_VCPU_CONF_MD(NVMM_VCPU_CONF_CPUID): 2198 1.46.4.2 martin return svm_vcpu_configure_cpuid(cpudata, data); 2199 1.46.4.2 martin default: 2200 1.46.4.2 martin return EINVAL; 2201 1.46.4.2 martin } 2202 1.46.4.2 martin } 2203 1.46.4.2 martin 2204 1.46.4.2 martin /* -------------------------------------------------------------------------- */ 2205 1.46.4.2 martin 2206 1.30 maxv static void 2207 1.1 maxv svm_tlb_flush(struct pmap *pm) 2208 1.1 maxv { 2209 1.1 maxv struct nvmm_machine *mach = pm->pm_data; 2210 1.29 maxv struct svm_machdata *machdata = mach->machdata; 2211 1.29 maxv 2212 1.29 maxv atomic_inc_64(&machdata->mach_htlb_gen); 2213 1.1 maxv 2214 1.29 maxv /* Generates IPIs, which cause #VMEXITs. */ 2215 1.46.4.1 martin pmap_tlb_shootdown(pmap_kernel(), -1, PTE_G, TLBSHOOT_UPDATE); 2216 1.1 maxv } 2217 1.1 maxv 2218 1.1 maxv static void 2219 1.1 maxv svm_machine_create(struct nvmm_machine *mach) 2220 1.1 maxv { 2221 1.29 maxv struct svm_machdata *machdata; 2222 1.29 maxv 2223 1.1 maxv /* Fill in pmap info. */ 2224 1.1 maxv mach->vm->vm_map.pmap->pm_data = (void *)mach; 2225 1.1 maxv mach->vm->vm_map.pmap->pm_tlb_flush = svm_tlb_flush; 2226 1.1 maxv 2227 1.29 maxv machdata = kmem_zalloc(sizeof(struct svm_machdata), KM_SLEEP); 2228 1.29 maxv mach->machdata = machdata; 2229 1.29 maxv 2230 1.29 maxv /* Start with an hTLB flush everywhere. */ 2231 1.29 maxv machdata->mach_htlb_gen = 1; 2232 1.1 maxv } 2233 1.1 maxv 2234 1.1 maxv static void 2235 1.1 maxv svm_machine_destroy(struct nvmm_machine *mach) 2236 1.1 maxv { 2237 1.1 maxv kmem_free(mach->machdata, sizeof(struct svm_machdata)); 2238 1.1 maxv } 2239 1.1 maxv 2240 1.1 maxv static int 2241 1.1 maxv svm_machine_configure(struct nvmm_machine *mach, uint64_t op, void *data) 2242 1.1 maxv { 2243 1.46.4.2 martin panic("%s: impossible", __func__); 2244 1.1 maxv } 2245 1.1 maxv 2246 1.1 maxv /* -------------------------------------------------------------------------- */ 2247 1.1 maxv 2248 1.1 maxv static bool 2249 1.1 maxv svm_ident(void) 2250 1.1 maxv { 2251 1.1 maxv u_int descs[4]; 2252 1.1 maxv uint64_t msr; 2253 1.1 maxv 2254 1.1 maxv if (cpu_vendor != CPUVENDOR_AMD) { 2255 1.1 maxv return false; 2256 1.1 maxv } 2257 1.1 maxv if (!(cpu_feature[3] & CPUID_SVM)) { 2258 1.1 maxv return false; 2259 1.1 maxv } 2260 1.1 maxv 2261 1.1 maxv if (curcpu()->ci_max_ext_cpuid < 0x8000000a) { 2262 1.1 maxv return false; 2263 1.1 maxv } 2264 1.1 maxv x86_cpuid(0x8000000a, descs); 2265 1.1 maxv 2266 1.1 maxv /* Want Nested Paging. */ 2267 1.1 maxv if (!(descs[3] & CPUID_AMD_SVM_NP)) { 2268 1.1 maxv return false; 2269 1.1 maxv } 2270 1.1 maxv 2271 1.1 maxv /* Want nRIP. */ 2272 1.1 maxv if (!(descs[3] & CPUID_AMD_SVM_NRIPS)) { 2273 1.1 maxv return false; 2274 1.1 maxv } 2275 1.1 maxv 2276 1.1 maxv svm_decode_assist = (descs[3] & CPUID_AMD_SVM_DecodeAssist) != 0; 2277 1.1 maxv 2278 1.1 maxv msr = rdmsr(MSR_VMCR); 2279 1.1 maxv if ((msr & VMCR_SVMED) && (msr & VMCR_LOCK)) { 2280 1.1 maxv return false; 2281 1.1 maxv } 2282 1.1 maxv 2283 1.1 maxv return true; 2284 1.1 maxv } 2285 1.1 maxv 2286 1.1 maxv static void 2287 1.1 maxv svm_init_asid(uint32_t maxasid) 2288 1.1 maxv { 2289 1.1 maxv size_t i, j, allocsz; 2290 1.1 maxv 2291 1.1 maxv mutex_init(&svm_asidlock, MUTEX_DEFAULT, IPL_NONE); 2292 1.1 maxv 2293 1.1 maxv /* Arbitrarily limit. */ 2294 1.1 maxv maxasid = uimin(maxasid, 8192); 2295 1.1 maxv 2296 1.1 maxv svm_maxasid = maxasid; 2297 1.1 maxv allocsz = roundup(maxasid, 8) / 8; 2298 1.1 maxv svm_asidmap = kmem_zalloc(allocsz, KM_SLEEP); 2299 1.1 maxv 2300 1.1 maxv /* ASID 0 is reserved for the host. */ 2301 1.1 maxv svm_asidmap[0] |= __BIT(0); 2302 1.1 maxv 2303 1.1 maxv /* ASID n-1 is special, we share it. */ 2304 1.1 maxv i = (maxasid - 1) / 8; 2305 1.1 maxv j = (maxasid - 1) % 8; 2306 1.1 maxv svm_asidmap[i] |= __BIT(j); 2307 1.1 maxv } 2308 1.1 maxv 2309 1.1 maxv static void 2310 1.1 maxv svm_change_cpu(void *arg1, void *arg2) 2311 1.1 maxv { 2312 1.1 maxv bool enable = (bool)arg1; 2313 1.1 maxv uint64_t msr; 2314 1.1 maxv 2315 1.1 maxv msr = rdmsr(MSR_VMCR); 2316 1.1 maxv if (msr & VMCR_SVMED) { 2317 1.1 maxv wrmsr(MSR_VMCR, msr & ~VMCR_SVMED); 2318 1.1 maxv } 2319 1.1 maxv 2320 1.1 maxv if (!enable) { 2321 1.1 maxv wrmsr(MSR_VM_HSAVE_PA, 0); 2322 1.1 maxv } 2323 1.1 maxv 2324 1.1 maxv msr = rdmsr(MSR_EFER); 2325 1.1 maxv if (enable) { 2326 1.1 maxv msr |= EFER_SVME; 2327 1.1 maxv } else { 2328 1.1 maxv msr &= ~EFER_SVME; 2329 1.1 maxv } 2330 1.1 maxv wrmsr(MSR_EFER, msr); 2331 1.1 maxv 2332 1.1 maxv if (enable) { 2333 1.1 maxv wrmsr(MSR_VM_HSAVE_PA, hsave[cpu_index(curcpu())].pa); 2334 1.1 maxv } 2335 1.1 maxv } 2336 1.1 maxv 2337 1.1 maxv static void 2338 1.1 maxv svm_init(void) 2339 1.1 maxv { 2340 1.1 maxv CPU_INFO_ITERATOR cii; 2341 1.1 maxv struct cpu_info *ci; 2342 1.1 maxv struct vm_page *pg; 2343 1.1 maxv u_int descs[4]; 2344 1.1 maxv uint64_t xc; 2345 1.1 maxv 2346 1.1 maxv x86_cpuid(0x8000000a, descs); 2347 1.1 maxv 2348 1.1 maxv /* The guest TLB flush command. */ 2349 1.1 maxv if (descs[3] & CPUID_AMD_SVM_FlushByASID) { 2350 1.1 maxv svm_ctrl_tlb_flush = VMCB_CTRL_TLB_CTRL_FLUSH_GUEST; 2351 1.1 maxv } else { 2352 1.1 maxv svm_ctrl_tlb_flush = VMCB_CTRL_TLB_CTRL_FLUSH_ALL; 2353 1.1 maxv } 2354 1.1 maxv 2355 1.1 maxv /* Init the ASID. */ 2356 1.1 maxv svm_init_asid(descs[1]); 2357 1.1 maxv 2358 1.1 maxv /* Init the XCR0 mask. */ 2359 1.1 maxv svm_xcr0_mask = SVM_XCR0_MASK_DEFAULT & x86_xsave_features; 2360 1.1 maxv 2361 1.1 maxv memset(hsave, 0, sizeof(hsave)); 2362 1.1 maxv for (CPU_INFO_FOREACH(cii, ci)) { 2363 1.1 maxv pg = uvm_pagealloc(NULL, 0, NULL, UVM_PGA_ZERO); 2364 1.1 maxv hsave[cpu_index(ci)].pa = VM_PAGE_TO_PHYS(pg); 2365 1.1 maxv } 2366 1.1 maxv 2367 1.1 maxv xc = xc_broadcast(0, svm_change_cpu, (void *)true, NULL); 2368 1.1 maxv xc_wait(xc); 2369 1.1 maxv } 2370 1.1 maxv 2371 1.1 maxv static void 2372 1.1 maxv svm_fini_asid(void) 2373 1.1 maxv { 2374 1.1 maxv size_t allocsz; 2375 1.1 maxv 2376 1.1 maxv allocsz = roundup(svm_maxasid, 8) / 8; 2377 1.1 maxv kmem_free(svm_asidmap, allocsz); 2378 1.1 maxv 2379 1.1 maxv mutex_destroy(&svm_asidlock); 2380 1.1 maxv } 2381 1.1 maxv 2382 1.1 maxv static void 2383 1.1 maxv svm_fini(void) 2384 1.1 maxv { 2385 1.1 maxv uint64_t xc; 2386 1.1 maxv size_t i; 2387 1.1 maxv 2388 1.1 maxv xc = xc_broadcast(0, svm_change_cpu, (void *)false, NULL); 2389 1.1 maxv xc_wait(xc); 2390 1.1 maxv 2391 1.1 maxv for (i = 0; i < MAXCPUS; i++) { 2392 1.1 maxv if (hsave[i].pa != 0) 2393 1.1 maxv uvm_pagefree(PHYS_TO_VM_PAGE(hsave[i].pa)); 2394 1.1 maxv } 2395 1.1 maxv 2396 1.1 maxv svm_fini_asid(); 2397 1.1 maxv } 2398 1.1 maxv 2399 1.1 maxv static void 2400 1.1 maxv svm_capability(struct nvmm_capability *cap) 2401 1.1 maxv { 2402 1.46.4.2 martin cap->arch.mach_conf_support = 0; 2403 1.46.4.2 martin cap->arch.vcpu_conf_support = 2404 1.46.4.2 martin NVMM_CAP_ARCH_VCPU_CONF_CPUID; 2405 1.42 maxv cap->arch.xcr0_mask = svm_xcr0_mask; 2406 1.42 maxv cap->arch.mxcsr_mask = x86_fpu_mxcsr_mask; 2407 1.42 maxv cap->arch.conf_cpuid_maxops = SVM_NCPUIDS; 2408 1.1 maxv } 2409 1.1 maxv 2410 1.1 maxv const struct nvmm_impl nvmm_x86_svm = { 2411 1.1 maxv .ident = svm_ident, 2412 1.1 maxv .init = svm_init, 2413 1.1 maxv .fini = svm_fini, 2414 1.1 maxv .capability = svm_capability, 2415 1.46.4.2 martin .mach_conf_max = NVMM_X86_MACH_NCONF, 2416 1.46.4.2 martin .mach_conf_sizes = NULL, 2417 1.46.4.2 martin .vcpu_conf_max = NVMM_X86_VCPU_NCONF, 2418 1.46.4.2 martin .vcpu_conf_sizes = svm_vcpu_conf_sizes, 2419 1.1 maxv .state_size = sizeof(struct nvmm_x64_state), 2420 1.1 maxv .machine_create = svm_machine_create, 2421 1.1 maxv .machine_destroy = svm_machine_destroy, 2422 1.1 maxv .machine_configure = svm_machine_configure, 2423 1.1 maxv .vcpu_create = svm_vcpu_create, 2424 1.1 maxv .vcpu_destroy = svm_vcpu_destroy, 2425 1.46.4.2 martin .vcpu_configure = svm_vcpu_configure, 2426 1.1 maxv .vcpu_setstate = svm_vcpu_setstate, 2427 1.1 maxv .vcpu_getstate = svm_vcpu_getstate, 2428 1.1 maxv .vcpu_inject = svm_vcpu_inject, 2429 1.1 maxv .vcpu_run = svm_vcpu_run 2430 1.1 maxv }; 2431
Indexes created Tue Oct 28 12:10:06 GMT 2025