xref: /freebsd/sys/contrib/xen/vm_event.h (revision a90b9d0159070121c221b966469c3e36d912bf82)
1 /******************************************************************************
2  * vm_event.h
3  *
4  * Memory event common structures.
5  *
6  * Copyright (c) 2009 by Citrix Systems, Inc. (Patrick Colp)
7  *
8  * Permission is hereby granted, free of charge, to any person obtaining a copy
9  * of this software and associated documentation files (the "Software"), to
10  * deal in the Software without restriction, including without limitation the
11  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
12  * sell copies of the Software, and to permit persons to whom the Software is
13  * furnished to do so, subject to the following conditions:
14  *
15  * The above copyright notice and this permission notice shall be included in
16  * all copies or substantial portions of the Software.
17  *
18  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
19  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
20  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
21  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
22  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
23  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
24  * DEALINGS IN THE SOFTWARE.
25  */
26 
27 #ifndef _XEN_PUBLIC_VM_EVENT_H
28 #define _XEN_PUBLIC_VM_EVENT_H
29 
30 #include "xen.h"
31 
32 #define VM_EVENT_INTERFACE_VERSION 0x00000007
33 
34 #if defined(__XEN__) || defined(__XEN_TOOLS__)
35 
36 #include "io/ring.h"
37 
38 /*
39  * Memory event flags
40  */
41 
42 /*
43  * VCPU_PAUSED in a request signals that the vCPU triggering the event has been
44  *  paused
45  * VCPU_PAUSED in a response signals to unpause the vCPU
46  */
47 #define VM_EVENT_FLAG_VCPU_PAUSED        (1 << 0)
48 /* Flags to aid debugging vm_event */
49 #define VM_EVENT_FLAG_FOREIGN            (1 << 1)
50 /*
51  * The following flags can be set in response to a mem_access event.
52  *
53  * Emulate the fault-causing instruction (if set in the event response flags).
54  * This will allow the guest to continue execution without lifting the page
55  * access restrictions.
56  */
57 #define VM_EVENT_FLAG_EMULATE            (1 << 2)
58 /*
59  * Same as VM_EVENT_FLAG_EMULATE, but with write operations or operations
60  * potentially having side effects (like memory mapped or port I/O) disabled.
61  */
62 #define VM_EVENT_FLAG_EMULATE_NOWRITE    (1 << 3)
63 /*
64  * Toggle singlestepping on vm_event response.
65  * Requires the vCPU to be paused already (synchronous events only).
66  */
67 #define VM_EVENT_FLAG_TOGGLE_SINGLESTEP  (1 << 4)
68 /*
69  * Data is being sent back to the hypervisor in the event response, to be
70  * returned by the read function when emulating an instruction.
71  * This flag is only useful when combined with VM_EVENT_FLAG_EMULATE
72  * and takes precedence if combined with VM_EVENT_FLAG_EMULATE_NOWRITE
73  * (i.e. if both VM_EVENT_FLAG_EMULATE_NOWRITE and
74  * VM_EVENT_FLAG_SET_EMUL_READ_DATA are set, only the latter will be honored).
75  */
76 #define VM_EVENT_FLAG_SET_EMUL_READ_DATA (1 << 5)
77 /*
78  * Deny completion of the operation that triggered the event.
79  * Currently only useful for MSR and control-register write events.
80  * Requires the vCPU to be paused already (synchronous events only).
81  */
82 #define VM_EVENT_FLAG_DENY               (1 << 6)
83 /*
84  * This flag can be set in a request or a response
85  *
86  * On a request, indicates that the event occurred in the alternate p2m
87  * specified by the altp2m_idx request field.
88  *
89  * On a response, indicates that the VCPU should resume in the alternate p2m
90  * specified by the altp2m_idx response field if possible.
91  */
92 #define VM_EVENT_FLAG_ALTERNATE_P2M      (1 << 7)
93 /*
94  * Set the vCPU registers to the values in the  vm_event response.
95  * At the moment x86-only, applies to EAX-EDX, ESP, EBP, ESI, EDI, R8-R15,
96  * EFLAGS, and EIP.
97  * Requires the vCPU to be paused already (synchronous events only).
98  */
99 #define VM_EVENT_FLAG_SET_REGISTERS      (1 << 8)
100 /*
101  * Instruction cache is being sent back to the hypervisor in the event response
102  * to be used by the emulator. This flag is only useful when combined with
103  * VM_EVENT_FLAG_EMULATE and does not take presedence if combined with
104  * VM_EVENT_FLAG_EMULATE_NOWRITE or VM_EVENT_FLAG_SET_EMUL_READ_DATA, (i.e.
105  * if any of those flags are set, only those will be honored).
106  */
107 #define VM_EVENT_FLAG_SET_EMUL_INSN_DATA (1 << 9)
108 /*
109  * Have a one-shot VM_EVENT_REASON_INTERRUPT event sent for the first
110  * interrupt pending after resuming the VCPU.
111  */
112 #define VM_EVENT_FLAG_GET_NEXT_INTERRUPT (1 << 10)
113 /*
114  * Execute fast singlestepping on vm_event response.
115  * Requires the vCPU to be paused already (synchronous events only).
116  *
117  * On a response requires setting the  p2midx field of fast_singlestep to which
118  * Xen will switch the vCPU to on the occurance of the first singlestep, after
119  * which singlestep gets automatically disabled.
120  */
121 #define VM_EVENT_FLAG_FAST_SINGLESTEP    (1 << 11)
122 /*
123  * Set if the event comes from a nested VM and thus npt_base is valid.
124  */
125 #define VM_EVENT_FLAG_NESTED_P2M         (1 << 12)
126 /*
127  * Reset the vmtrace buffer (if vmtrace is enabled)
128  */
129 #define VM_EVENT_FLAG_RESET_VMTRACE      (1 << 13)
130 
131 /*
132  * Reasons for the vm event request
133  */
134 
135 /* Default case */
136 #define VM_EVENT_REASON_UNKNOWN                 0
137 /* Memory access violation */
138 #define VM_EVENT_REASON_MEM_ACCESS              1
139 /* Memory sharing event */
140 #define VM_EVENT_REASON_MEM_SHARING             2
141 /* Memory paging event */
142 #define VM_EVENT_REASON_MEM_PAGING              3
143 /* A control register was updated */
144 #define VM_EVENT_REASON_WRITE_CTRLREG           4
145 /* An MSR was updated. */
146 #define VM_EVENT_REASON_MOV_TO_MSR              5
147 /* Debug operation executed (e.g. int3) */
148 #define VM_EVENT_REASON_SOFTWARE_BREAKPOINT     6
149 /* Single-step (e.g. MTF) */
150 #define VM_EVENT_REASON_SINGLESTEP              7
151 /* An event has been requested via HVMOP_guest_request_vm_event. */
152 #define VM_EVENT_REASON_GUEST_REQUEST           8
153 /* A debug exception was caught */
154 #define VM_EVENT_REASON_DEBUG_EXCEPTION         9
155 /* CPUID executed */
156 #define VM_EVENT_REASON_CPUID                   10
157 /*
158  * Privileged call executed (e.g. SMC).
159  * Note: event may be generated even if SMC condition check fails on some CPUs.
160  *       As this behavior is CPU-specific, users are advised to not rely on it.
161  *       These kinds of events will be filtered out in future versions.
162  */
163 #define VM_EVENT_REASON_PRIVILEGED_CALL         11
164 /* An interrupt has been delivered. */
165 #define VM_EVENT_REASON_INTERRUPT               12
166 /* A descriptor table register was accessed. */
167 #define VM_EVENT_REASON_DESCRIPTOR_ACCESS       13
168 /* Current instruction is not implemented by the emulator */
169 #define VM_EVENT_REASON_EMUL_UNIMPLEMENTED      14
170 
171 /* Supported values for the vm_event_write_ctrlreg index. */
172 #define VM_EVENT_X86_CR0    0
173 #define VM_EVENT_X86_CR3    1
174 #define VM_EVENT_X86_CR4    2
175 #define VM_EVENT_X86_XCR0   3
176 
177 /* The limit field is right-shifted by 12 bits if .ar.g is set. */
178 struct vm_event_x86_selector_reg {
179     uint32_t limit  :    20;
180     uint32_t ar     :    12;
181 };
182 
183 /*
184  * Using custom vCPU structs (i.e. not hvm_hw_cpu) for both x86 and ARM
185  * so as to not fill the vm_event ring buffer too quickly.
186  */
187 struct vm_event_regs_x86 {
188     uint64_t rax;
189     uint64_t rcx;
190     uint64_t rdx;
191     uint64_t rbx;
192     uint64_t rsp;
193     uint64_t rbp;
194     uint64_t rsi;
195     uint64_t rdi;
196     uint64_t r8;
197     uint64_t r9;
198     uint64_t r10;
199     uint64_t r11;
200     uint64_t r12;
201     uint64_t r13;
202     uint64_t r14;
203     uint64_t r15;
204     uint64_t rflags;
205     uint64_t dr6;
206     uint64_t dr7;
207     uint64_t rip;
208     uint64_t cr0;
209     uint64_t cr2;
210     uint64_t cr3;
211     uint64_t cr4;
212     uint64_t sysenter_cs;
213     uint64_t sysenter_esp;
214     uint64_t sysenter_eip;
215     uint64_t msr_efer;
216     uint64_t msr_star;
217     uint64_t msr_lstar;
218     uint64_t gdtr_base;
219 
220     /*
221      * When VM_EVENT_FLAG_NESTED_P2M is set, this event comes from a nested
222      * VM.  npt_base is the guest physical address of the L1 hypervisors
223      * EPT/NPT tables for the nested guest.
224      *
225      * All bits outside of architectural address ranges are reserved for
226      * future metadata.
227      */
228     uint64_t npt_base;
229 
230     /*
231      * Current position in the vmtrace buffer, or ~0 if vmtrace is not active.
232      *
233      * For Intel Processor Trace, it is the upper half of MSR_RTIT_OUTPUT_MASK.
234      */
235     uint64_t vmtrace_pos;
236 
237     uint32_t cs_base;
238     uint32_t ss_base;
239     uint32_t ds_base;
240     uint32_t es_base;
241     uint64_t fs_base;
242     uint64_t gs_base;
243     struct vm_event_x86_selector_reg cs;
244     struct vm_event_x86_selector_reg ss;
245     struct vm_event_x86_selector_reg ds;
246     struct vm_event_x86_selector_reg es;
247     struct vm_event_x86_selector_reg fs;
248     struct vm_event_x86_selector_reg gs;
249     uint64_t shadow_gs;
250     uint16_t gdtr_limit;
251     uint16_t cs_sel;
252     uint16_t ss_sel;
253     uint16_t ds_sel;
254     uint16_t es_sel;
255     uint16_t fs_sel;
256     uint16_t gs_sel;
257     uint16_t _pad;
258 };
259 
260 /*
261  * Only the register 'pc' can be set on a vm_event response using the
262  * VM_EVENT_FLAG_SET_REGISTERS flag.
263  */
264 struct vm_event_regs_arm {
265     uint64_t ttbr0;
266     uint64_t ttbr1;
267     uint64_t ttbcr;
268     uint64_t pc;
269     uint64_t cpsr;
270 };
271 
272 /*
273  * mem_access flag definitions
274  *
275  * These flags are set only as part of a mem_event request.
276  *
277  * R/W/X: Defines the type of violation that has triggered the event
278  *        Multiple types can be set in a single violation!
279  * GLA_VALID: If the gla field holds a guest VA associated with the event
280  * FAULT_WITH_GLA: If the violation was triggered by accessing gla
281  * FAULT_IN_GPT: If the violation was triggered during translating gla
282  */
283 #define MEM_ACCESS_R                (1 << 0)
284 #define MEM_ACCESS_W                (1 << 1)
285 #define MEM_ACCESS_X                (1 << 2)
286 #define MEM_ACCESS_RWX              (MEM_ACCESS_R | MEM_ACCESS_W | MEM_ACCESS_X)
287 #define MEM_ACCESS_RW               (MEM_ACCESS_R | MEM_ACCESS_W)
288 #define MEM_ACCESS_RX               (MEM_ACCESS_R | MEM_ACCESS_X)
289 #define MEM_ACCESS_WX               (MEM_ACCESS_W | MEM_ACCESS_X)
290 #define MEM_ACCESS_GLA_VALID        (1 << 3)
291 #define MEM_ACCESS_FAULT_WITH_GLA   (1 << 4)
292 #define MEM_ACCESS_FAULT_IN_GPT     (1 << 5)
293 
294 struct vm_event_mem_access {
295     uint64_t gfn;
296     uint64_t offset;
297     uint64_t gla;   /* if flags has MEM_ACCESS_GLA_VALID set */
298     uint32_t flags; /* MEM_ACCESS_* */
299     uint32_t _pad;
300 };
301 
302 struct vm_event_write_ctrlreg {
303     uint32_t index;
304     uint32_t _pad;
305     uint64_t new_value;
306     uint64_t old_value;
307 };
308 
309 struct vm_event_singlestep {
310     uint64_t gfn;
311 };
312 
313 struct vm_event_fast_singlestep {
314     uint16_t p2midx;
315 };
316 
317 struct vm_event_debug {
318     uint64_t gfn;
319     uint64_t pending_dbg; /* Behaves like the VT-x PENDING_DBG field. */
320     uint32_t insn_length;
321     uint8_t type;        /* HVMOP_TRAP_* */
322     uint8_t _pad[3];
323 };
324 
325 struct vm_event_mov_to_msr {
326     uint64_t msr;
327     uint64_t new_value;
328     uint64_t old_value;
329 };
330 
331 #define VM_EVENT_DESC_IDTR           1
332 #define VM_EVENT_DESC_GDTR           2
333 #define VM_EVENT_DESC_LDTR           3
334 #define VM_EVENT_DESC_TR             4
335 
336 struct vm_event_desc_access {
337     union {
338         struct {
339             uint32_t instr_info;         /* VMX: VMCS Instruction-Information */
340             uint32_t _pad1;
341             uint64_t exit_qualification; /* VMX: VMCS Exit Qualification */
342         } vmx;
343     } arch;
344     uint8_t descriptor;                  /* VM_EVENT_DESC_* */
345     uint8_t is_write;
346     uint8_t _pad[6];
347 };
348 
349 struct vm_event_cpuid {
350     uint32_t insn_length;
351     uint32_t leaf;
352     uint32_t subleaf;
353     uint32_t _pad;
354 };
355 
356 struct vm_event_interrupt_x86 {
357     uint32_t vector;
358     uint32_t type;
359     uint32_t error_code;
360     uint32_t _pad;
361     uint64_t cr2;
362 };
363 
364 #define MEM_PAGING_DROP_PAGE       (1 << 0)
365 #define MEM_PAGING_EVICT_FAIL      (1 << 1)
366 
367 struct vm_event_paging {
368     uint64_t gfn;
369     uint32_t p2mt;
370     uint32_t flags;
371 };
372 
373 struct vm_event_sharing {
374     uint64_t gfn;
375     uint32_t p2mt;
376     uint32_t _pad;
377 };
378 
379 struct vm_event_emul_read_data {
380     uint32_t size;
381     /* The struct is used in a union with vm_event_regs_x86. */
382     uint8_t  data[sizeof(struct vm_event_regs_x86) - sizeof(uint32_t)];
383 };
384 
385 struct vm_event_emul_insn_data {
386     uint8_t data[16]; /* Has to be completely filled */
387 };
388 
389 typedef struct vm_event_st {
390     uint32_t version;   /* VM_EVENT_INTERFACE_VERSION */
391     uint32_t flags;     /* VM_EVENT_FLAG_* */
392     uint32_t reason;    /* VM_EVENT_REASON_* */
393     uint32_t vcpu_id;
394     uint16_t altp2m_idx; /* may be used during request and response */
395     uint16_t _pad[3];
396 
397     union {
398         struct vm_event_paging                mem_paging;
399         struct vm_event_sharing               mem_sharing;
400         struct vm_event_mem_access            mem_access;
401         struct vm_event_write_ctrlreg         write_ctrlreg;
402         struct vm_event_mov_to_msr            mov_to_msr;
403         struct vm_event_desc_access           desc_access;
404         struct vm_event_singlestep            singlestep;
405         struct vm_event_fast_singlestep       fast_singlestep;
406         struct vm_event_debug                 software_breakpoint;
407         struct vm_event_debug                 debug_exception;
408         struct vm_event_cpuid                 cpuid;
409         union {
410             struct vm_event_interrupt_x86     x86;
411         } interrupt;
412     } u;
413 
414     union {
415         union {
416             struct vm_event_regs_x86 x86;
417             struct vm_event_regs_arm arm;
418         } regs;
419 
420         union {
421             struct vm_event_emul_read_data read;
422             struct vm_event_emul_insn_data insn;
423         } emul;
424     } data;
425 } vm_event_request_t, vm_event_response_t;
426 
427 DEFINE_RING_TYPES(vm_event, vm_event_request_t, vm_event_response_t);
428 
429 #endif /* defined(__XEN__) || defined(__XEN_TOOLS__) */
430 #endif /* _XEN_PUBLIC_VM_EVENT_H */
431 
432 /*
433  * Local variables:
434  * mode: C
435  * c-file-style: "BSD"
436  * c-basic-offset: 4
437  * tab-width: 4
438  * indent-tabs-mode: nil
439  * End:
440  */
441