vmm.h revision 270071
1/*- 2 * Copyright (c) 2011 NetApp, Inc. 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions 7 * are met: 8 * 1. Redistributions of source code must retain the above copyright 9 * notice, this list of conditions and the following disclaimer. 10 * 2. Redistributions in binary form must reproduce the above copyright 11 * notice, this list of conditions and the following disclaimer in the 12 * documentation and/or other materials provided with the distribution. 13 * 14 * THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND 15 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17 * ARE DISCLAIMED. IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE 18 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24 * SUCH DAMAGE. 25 * 26 * $FreeBSD: stable/10/sys/amd64/include/vmm.h 270071 2014-08-17 01:00:42Z grehan $ 27 */ 28 29#ifndef _VMM_H_ 30#define _VMM_H_ 31 32enum vm_suspend_how { 33 VM_SUSPEND_NONE, 34 VM_SUSPEND_RESET, 35 VM_SUSPEND_POWEROFF, 36 VM_SUSPEND_HALT, 37 VM_SUSPEND_LAST 38}; 39 40#ifdef _KERNEL 41 42#define VM_MAX_NAMELEN 32 43 44struct vm; 45struct vm_exception; 46struct vm_memory_segment; 47struct seg_desc; 48struct vm_exit; 49struct vm_run; 50struct vhpet; 51struct vioapic; 52struct vlapic; 53struct vmspace; 54struct vm_object; 55struct pmap; 56 57enum vm_reg_name; 58enum x2apic_state; 59 60typedef int (*vmm_init_func_t)(int ipinum); 61typedef int (*vmm_cleanup_func_t)(void); 62typedef void (*vmm_resume_func_t)(void); 63typedef void * (*vmi_init_func_t)(struct vm *vm, struct pmap *pmap); 64typedef int (*vmi_run_func_t)(void *vmi, int vcpu, register_t rip, 65 struct pmap *pmap, void *rendezvous_cookie, 66 void *suspend_cookie); 67typedef void (*vmi_cleanup_func_t)(void *vmi); 68typedef int (*vmi_get_register_t)(void *vmi, int vcpu, int num, 69 uint64_t *retval); 70typedef int (*vmi_set_register_t)(void *vmi, int vcpu, int num, 71 uint64_t val); 72typedef int (*vmi_get_desc_t)(void *vmi, int vcpu, int num, 73 struct seg_desc *desc); 74typedef int (*vmi_set_desc_t)(void *vmi, int vcpu, int num, 75 struct seg_desc *desc); 76typedef int (*vmi_get_cap_t)(void *vmi, int vcpu, int num, int *retval); 77typedef int (*vmi_set_cap_t)(void *vmi, int vcpu, int num, int val); 78typedef struct vmspace * (*vmi_vmspace_alloc)(vm_offset_t min, vm_offset_t max); 79typedef void (*vmi_vmspace_free)(struct vmspace *vmspace); 80typedef struct vlapic * (*vmi_vlapic_init)(void *vmi, int vcpu); 81typedef void (*vmi_vlapic_cleanup)(void *vmi, struct vlapic *vlapic); 82 83struct vmm_ops { 84 vmm_init_func_t init; /* module wide initialization */ 85 vmm_cleanup_func_t cleanup; 86 vmm_resume_func_t resume; 87 88 vmi_init_func_t vminit; /* vm-specific initialization */ 89 vmi_run_func_t vmrun; 90 vmi_cleanup_func_t vmcleanup; 91 vmi_get_register_t vmgetreg; 92 vmi_set_register_t vmsetreg; 93 vmi_get_desc_t vmgetdesc; 94 vmi_set_desc_t vmsetdesc; 95 vmi_get_cap_t vmgetcap; 96 vmi_set_cap_t vmsetcap; 97 vmi_vmspace_alloc vmspace_alloc; 98 vmi_vmspace_free vmspace_free; 99 vmi_vlapic_init vlapic_init; 100 vmi_vlapic_cleanup vlapic_cleanup; 101}; 102 103extern struct vmm_ops vmm_ops_intel; 104extern struct vmm_ops vmm_ops_amd; 105 106int vm_create(const char *name, struct vm **retvm); 107void vm_destroy(struct vm *vm); 108int vm_reinit(struct vm *vm); 109const char *vm_name(struct vm *vm); 110int vm_malloc(struct vm *vm, vm_paddr_t gpa, size_t len); 111int vm_map_mmio(struct vm *vm, vm_paddr_t gpa, size_t len, vm_paddr_t hpa); 112int vm_unmap_mmio(struct vm *vm, vm_paddr_t gpa, size_t len); 113void *vm_gpa_hold(struct vm *, vm_paddr_t gpa, size_t len, int prot, 114 void **cookie); 115void vm_gpa_release(void *cookie); 116int vm_gpabase2memseg(struct vm *vm, vm_paddr_t gpabase, 117 struct vm_memory_segment *seg); 118int vm_get_memobj(struct vm *vm, vm_paddr_t gpa, size_t len, 119 vm_offset_t *offset, struct vm_object **object); 120boolean_t vm_mem_allocated(struct vm *vm, vm_paddr_t gpa); 121int vm_get_register(struct vm *vm, int vcpu, int reg, uint64_t *retval); 122int vm_set_register(struct vm *vm, int vcpu, int reg, uint64_t val); 123int vm_get_seg_desc(struct vm *vm, int vcpu, int reg, 124 struct seg_desc *ret_desc); 125int vm_set_seg_desc(struct vm *vm, int vcpu, int reg, 126 struct seg_desc *desc); 127int vm_run(struct vm *vm, struct vm_run *vmrun); 128int vm_suspend(struct vm *vm, enum vm_suspend_how how); 129int vm_inject_nmi(struct vm *vm, int vcpu); 130int vm_nmi_pending(struct vm *vm, int vcpuid); 131void vm_nmi_clear(struct vm *vm, int vcpuid); 132int vm_inject_extint(struct vm *vm, int vcpu); 133int vm_extint_pending(struct vm *vm, int vcpuid); 134void vm_extint_clear(struct vm *vm, int vcpuid); 135uint64_t *vm_guest_msrs(struct vm *vm, int cpu); 136struct vlapic *vm_lapic(struct vm *vm, int cpu); 137struct vioapic *vm_ioapic(struct vm *vm); 138struct vhpet *vm_hpet(struct vm *vm); 139int vm_get_capability(struct vm *vm, int vcpu, int type, int *val); 140int vm_set_capability(struct vm *vm, int vcpu, int type, int val); 141int vm_get_x2apic_state(struct vm *vm, int vcpu, enum x2apic_state *state); 142int vm_set_x2apic_state(struct vm *vm, int vcpu, enum x2apic_state state); 143int vm_apicid2vcpuid(struct vm *vm, int apicid); 144int vm_activate_cpu(struct vm *vm, int vcpu); 145cpuset_t vm_active_cpus(struct vm *vm); 146cpuset_t vm_suspended_cpus(struct vm *vm); 147struct vm_exit *vm_exitinfo(struct vm *vm, int vcpuid); 148void vm_exit_suspended(struct vm *vm, int vcpuid, uint64_t rip); 149 150/* 151 * Rendezvous all vcpus specified in 'dest' and execute 'func(arg)'. 152 * The rendezvous 'func(arg)' is not allowed to do anything that will 153 * cause the thread to be put to sleep. 154 * 155 * If the rendezvous is being initiated from a vcpu context then the 156 * 'vcpuid' must refer to that vcpu, otherwise it should be set to -1. 157 * 158 * The caller cannot hold any locks when initiating the rendezvous. 159 * 160 * The implementation of this API may cause vcpus other than those specified 161 * by 'dest' to be stalled. The caller should not rely on any vcpus making 162 * forward progress when the rendezvous is in progress. 163 */ 164typedef void (*vm_rendezvous_func_t)(struct vm *vm, int vcpuid, void *arg); 165void vm_smp_rendezvous(struct vm *vm, int vcpuid, cpuset_t dest, 166 vm_rendezvous_func_t func, void *arg); 167 168static __inline int 169vcpu_rendezvous_pending(void *rendezvous_cookie) 170{ 171 172 return (*(uintptr_t *)rendezvous_cookie != 0); 173} 174 175static __inline int 176vcpu_suspended(void *suspend_cookie) 177{ 178 179 return (*(int *)suspend_cookie); 180} 181 182/* 183 * Return 1 if device indicated by bus/slot/func is supposed to be a 184 * pci passthrough device. 185 * 186 * Return 0 otherwise. 187 */ 188int vmm_is_pptdev(int bus, int slot, int func); 189 190void *vm_iommu_domain(struct vm *vm); 191 192enum vcpu_state { 193 VCPU_IDLE, 194 VCPU_FROZEN, 195 VCPU_RUNNING, 196 VCPU_SLEEPING, 197}; 198 199int vcpu_set_state(struct vm *vm, int vcpu, enum vcpu_state state, 200 bool from_idle); 201enum vcpu_state vcpu_get_state(struct vm *vm, int vcpu, int *hostcpu); 202 203static int __inline 204vcpu_is_running(struct vm *vm, int vcpu, int *hostcpu) 205{ 206 return (vcpu_get_state(vm, vcpu, hostcpu) == VCPU_RUNNING); 207} 208 209void *vcpu_stats(struct vm *vm, int vcpu); 210void vcpu_notify_event(struct vm *vm, int vcpuid, bool lapic_intr); 211struct vmspace *vm_get_vmspace(struct vm *vm); 212int vm_assign_pptdev(struct vm *vm, int bus, int slot, int func); 213int vm_unassign_pptdev(struct vm *vm, int bus, int slot, int func); 214struct vatpic *vm_atpic(struct vm *vm); 215struct vatpit *vm_atpit(struct vm *vm); 216 217/* 218 * Inject exception 'vme' into the guest vcpu. This function returns 0 on 219 * success and non-zero on failure. 220 * 221 * Wrapper functions like 'vm_inject_gp()' should be preferred to calling 222 * this function directly because they enforce the trap-like or fault-like 223 * behavior of an exception. 224 * 225 * This function should only be called in the context of the thread that is 226 * executing this vcpu. 227 */ 228int vm_inject_exception(struct vm *vm, int vcpuid, struct vm_exception *vme); 229 230/* 231 * Returns 0 if there is no exception pending for this vcpu. Returns 1 if an 232 * exception is pending and also updates 'vme'. The pending exception is 233 * cleared when this function returns. 234 * 235 * This function should only be called in the context of the thread that is 236 * executing this vcpu. 237 */ 238int vm_exception_pending(struct vm *vm, int vcpuid, struct vm_exception *vme); 239 240void vm_inject_gp(struct vm *vm, int vcpuid); /* general protection fault */ 241void vm_inject_ud(struct vm *vm, int vcpuid); /* undefined instruction fault */ 242void vm_inject_pf(struct vm *vm, int vcpuid, int error_code, uint64_t cr2); 243 244enum vm_reg_name vm_segment_name(int seg_encoding); 245 246#endif /* KERNEL */ 247 248#define VM_MAXCPU 16 /* maximum virtual cpus */ 249 250/* 251 * Identifiers for architecturally defined registers. 252 */ 253enum vm_reg_name { 254 VM_REG_GUEST_RAX, 255 VM_REG_GUEST_RBX, 256 VM_REG_GUEST_RCX, 257 VM_REG_GUEST_RDX, 258 VM_REG_GUEST_RSI, 259 VM_REG_GUEST_RDI, 260 VM_REG_GUEST_RBP, 261 VM_REG_GUEST_R8, 262 VM_REG_GUEST_R9, 263 VM_REG_GUEST_R10, 264 VM_REG_GUEST_R11, 265 VM_REG_GUEST_R12, 266 VM_REG_GUEST_R13, 267 VM_REG_GUEST_R14, 268 VM_REG_GUEST_R15, 269 VM_REG_GUEST_CR0, 270 VM_REG_GUEST_CR3, 271 VM_REG_GUEST_CR4, 272 VM_REG_GUEST_DR7, 273 VM_REG_GUEST_RSP, 274 VM_REG_GUEST_RIP, 275 VM_REG_GUEST_RFLAGS, 276 VM_REG_GUEST_ES, 277 VM_REG_GUEST_CS, 278 VM_REG_GUEST_SS, 279 VM_REG_GUEST_DS, 280 VM_REG_GUEST_FS, 281 VM_REG_GUEST_GS, 282 VM_REG_GUEST_LDTR, 283 VM_REG_GUEST_TR, 284 VM_REG_GUEST_IDTR, 285 VM_REG_GUEST_GDTR, 286 VM_REG_GUEST_EFER, 287 VM_REG_GUEST_CR2, 288 VM_REG_LAST 289}; 290 291/* 292 * Identifiers for optional vmm capabilities 293 */ 294enum vm_cap_type { 295 VM_CAP_HALT_EXIT, 296 VM_CAP_MTRAP_EXIT, 297 VM_CAP_PAUSE_EXIT, 298 VM_CAP_UNRESTRICTED_GUEST, 299 VM_CAP_ENABLE_INVPCID, 300 VM_CAP_MAX 301}; 302 303enum x2apic_state { 304 X2APIC_DISABLED, 305 X2APIC_ENABLED, 306 X2APIC_STATE_LAST 307}; 308 309enum vm_intr_trigger { 310 EDGE_TRIGGER, 311 LEVEL_TRIGGER 312}; 313 314/* 315 * The 'access' field has the format specified in Table 21-2 of the Intel 316 * Architecture Manual vol 3b. 317 * 318 * XXX The contents of the 'access' field are architecturally defined except 319 * bit 16 - Segment Unusable. 320 */ 321struct seg_desc { 322 uint64_t base; 323 uint32_t limit; 324 uint32_t access; 325}; 326#define SEG_DESC_TYPE(desc) ((desc)->access & 0x001f) 327#define SEG_DESC_PRESENT(desc) ((desc)->access & 0x0080) 328#define SEG_DESC_DEF32(desc) ((desc)->access & 0x4000) 329#define SEG_DESC_GRANULARITY(desc) ((desc)->access & 0x8000) 330#define SEG_DESC_UNUSABLE(desc) ((desc)->access & 0x10000) 331 332enum vm_cpu_mode { 333 CPU_MODE_COMPATIBILITY, /* IA-32E mode (CS.L = 0) */ 334 CPU_MODE_64BIT, /* IA-32E mode (CS.L = 1) */ 335}; 336 337enum vm_paging_mode { 338 PAGING_MODE_FLAT, 339 PAGING_MODE_32, 340 PAGING_MODE_PAE, 341 PAGING_MODE_64, 342}; 343 344struct vm_guest_paging { 345 uint64_t cr3; 346 int cpl; 347 enum vm_cpu_mode cpu_mode; 348 enum vm_paging_mode paging_mode; 349}; 350 351/* 352 * The data structures 'vie' and 'vie_op' are meant to be opaque to the 353 * consumers of instruction decoding. The only reason why their contents 354 * need to be exposed is because they are part of the 'vm_exit' structure. 355 */ 356struct vie_op { 357 uint8_t op_byte; /* actual opcode byte */ 358 uint8_t op_type; /* type of operation (e.g. MOV) */ 359 uint16_t op_flags; 360}; 361 362#define VIE_INST_SIZE 15 363struct vie { 364 uint8_t inst[VIE_INST_SIZE]; /* instruction bytes */ 365 uint8_t num_valid; /* size of the instruction */ 366 uint8_t num_processed; 367 368 uint8_t rex_w:1, /* REX prefix */ 369 rex_r:1, 370 rex_x:1, 371 rex_b:1, 372 rex_present:1; 373 374 uint8_t mod:2, /* ModRM byte */ 375 reg:4, 376 rm:4; 377 378 uint8_t ss:2, /* SIB byte */ 379 index:4, 380 base:4; 381 382 uint8_t disp_bytes; 383 uint8_t imm_bytes; 384 385 uint8_t scale; 386 int base_register; /* VM_REG_GUEST_xyz */ 387 int index_register; /* VM_REG_GUEST_xyz */ 388 389 int64_t displacement; /* optional addr displacement */ 390 int64_t immediate; /* optional immediate operand */ 391 392 uint8_t decoded; /* set to 1 if successfully decoded */ 393 394 struct vie_op op; /* opcode description */ 395}; 396 397enum vm_exitcode { 398 VM_EXITCODE_INOUT, 399 VM_EXITCODE_VMX, 400 VM_EXITCODE_BOGUS, 401 VM_EXITCODE_RDMSR, 402 VM_EXITCODE_WRMSR, 403 VM_EXITCODE_HLT, 404 VM_EXITCODE_MTRAP, 405 VM_EXITCODE_PAUSE, 406 VM_EXITCODE_PAGING, 407 VM_EXITCODE_INST_EMUL, 408 VM_EXITCODE_SPINUP_AP, 409 VM_EXITCODE_DEPRECATED1, /* used to be SPINDOWN_CPU */ 410 VM_EXITCODE_RENDEZVOUS, 411 VM_EXITCODE_IOAPIC_EOI, 412 VM_EXITCODE_SUSPENDED, 413 VM_EXITCODE_INOUT_STR, 414 VM_EXITCODE_MAX 415}; 416 417struct vm_inout { 418 uint16_t bytes:3; /* 1 or 2 or 4 */ 419 uint16_t in:1; 420 uint16_t string:1; 421 uint16_t rep:1; 422 uint16_t port; 423 uint32_t eax; /* valid for out */ 424}; 425 426struct vm_inout_str { 427 struct vm_inout inout; /* must be the first element */ 428 struct vm_guest_paging paging; 429 uint64_t rflags; 430 uint64_t cr0; 431 uint64_t index; 432 uint64_t count; /* rep=1 (%rcx), rep=0 (1) */ 433 int addrsize; 434 enum vm_reg_name seg_name; 435 struct seg_desc seg_desc; 436}; 437 438struct vm_exit { 439 enum vm_exitcode exitcode; 440 int inst_length; /* 0 means unknown */ 441 uint64_t rip; 442 union { 443 struct vm_inout inout; 444 struct vm_inout_str inout_str; 445 struct { 446 uint64_t gpa; 447 int fault_type; 448 } paging; 449 struct { 450 uint64_t gpa; 451 uint64_t gla; 452 struct vm_guest_paging paging; 453 struct vie vie; 454 } inst_emul; 455 /* 456 * VMX specific payload. Used when there is no "better" 457 * exitcode to represent the VM-exit. 458 */ 459 struct { 460 int status; /* vmx inst status */ 461 /* 462 * 'exit_reason' and 'exit_qualification' are valid 463 * only if 'status' is zero. 464 */ 465 uint32_t exit_reason; 466 uint64_t exit_qualification; 467 /* 468 * 'inst_error' and 'inst_type' are valid 469 * only if 'status' is non-zero. 470 */ 471 int inst_type; 472 int inst_error; 473 } vmx; 474 struct { 475 uint32_t code; /* ecx value */ 476 uint64_t wval; 477 } msr; 478 struct { 479 int vcpu; 480 uint64_t rip; 481 } spinup_ap; 482 struct { 483 uint64_t rflags; 484 } hlt; 485 struct { 486 int vector; 487 } ioapic_eoi; 488 struct { 489 enum vm_suspend_how how; 490 } suspended; 491 } u; 492}; 493 494#endif /* _VMM_H_ */ 495