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1c79356b 1/*
39236c6e 2 * Copyright (c) 2000-2012 Apple Inc. All rights reserved.
1c79356b 3 *
2d21ac55 4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
1c79356b 5 *
2d21ac55
A
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
8f6c56a5 14 *
2d21ac55
A
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
17 *
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
8f6c56a5
A
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
2d21ac55
A
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
8f6c56a5 25 *
2d21ac55 26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
1c79356b
A
27 */
28/*
2d21ac55
A
29* @OSF_COPYRIGHT@
30*/
1c79356b 31/*
2d21ac55
A
32* Mach Operating System
33* Copyright (c) 1991,1990,1989,1988 Carnegie Mellon University
34* All Rights Reserved.
35*
36* Permission to use, copy, modify and distribute this software and its
37* documentation is hereby granted, provided that both the copyright
38* notice and this permission notice appear in all copies of the
39* software, derivative works or modified versions, and any portions
40* thereof, and that both notices appear in supporting documentation.
41*
42* CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
43* CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
44* ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
45*
46* Carnegie Mellon requests users of this software to return to
47*
48* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
49* School of Computer Science
50* Carnegie Mellon University
51* Pittsburgh PA 15213-3890
52*
53* any improvements or extensions that they make and grant Carnegie Mellon
54* the rights to redistribute these changes.
55*/
1c79356b 56/*
2d21ac55
A
57*/
58
1c79356b 59/*
2d21ac55 60* Hardware trap/fault handler.
1c79356b
A
61 */
62
1c79356b
A
63#include <mach_kdp.h>
64#include <mach_ldebug.h>
65
66#include <types.h>
67#include <i386/eflags.h>
68#include <i386/trap.h>
69#include <i386/pmap.h>
70#include <i386/fpu.h>
0c530ab8 71#include <i386/misc_protos.h> /* panic_io_port_read() */
b0d623f7 72#include <i386/lapic.h>
1c79356b
A
73
74#include <mach/exception.h>
75#include <mach/kern_return.h>
76#include <mach/vm_param.h>
77#include <mach/i386/thread_status.h>
78
79#include <vm/vm_kern.h>
80#include <vm/vm_fault.h>
81
1c79356b 82#include <kern/kern_types.h>
91447636 83#include <kern/processor.h>
1c79356b
A
84#include <kern/thread.h>
85#include <kern/task.h>
86#include <kern/sched.h>
87#include <kern/sched_prim.h>
88#include <kern/exception.h>
89#include <kern/spl.h>
90#include <kern/misc_protos.h>
b0d623f7 91#include <kern/debug.h>
39236c6e
A
92#if CONFIG_TELEMETRY
93#include <kern/telemetry.h>
94#endif
0c530ab8
A
95#include <sys/kdebug.h>
96
1c79356b
A
97#include <string.h>
98
0c530ab8
A
99#include <i386/postcode.h>
100#include <i386/mp_desc.h>
101#include <i386/proc_reg.h>
b0d623f7 102#if CONFIG_MCA
0c530ab8 103#include <i386/machine_check.h>
b0d623f7 104#endif
0c530ab8 105#include <mach/i386/syscall_sw.h>
1c79356b 106
b0d623f7 107#include <libkern/OSDebug.h>
bd504ef0 108#include <i386/cpu_threads.h>
6d2010ae 109#include <machine/pal_routines.h>
593a1d5f 110
6d2010ae
A
111extern void throttle_lowpri_io(int);
112extern void kprint_state(x86_saved_state64_t *saved_state);
b0d623f7 113
1c79356b
A
114/*
115 * Forward declarations
116 */
0c530ab8 117static void user_page_fault_continue(kern_return_t kret);
b0d623f7
A
118static void panic_trap(x86_saved_state64_t *saved_state);
119static void set_recovery_ip(x86_saved_state64_t *saved_state, vm_offset_t ip);
6601e61a 120
b0d623f7 121volatile perfCallback perfTrapHook = NULL; /* Pointer to CHUD trap hook routine */
1c79356b 122
2d21ac55
A
123#if CONFIG_DTRACE
124/* See <rdar://problem/4613924> */
125perfCallback tempDTraceTrapHook = NULL; /* Pointer to DTrace fbt trap hook routine */
126
127extern boolean_t dtrace_tally_fault(user_addr_t);
128#endif
129
13f56ec4 130extern boolean_t pmap_smep_enabled;
7ddcb079 131
1c79356b
A
132void
133thread_syscall_return(
134 kern_return_t ret)
135{
0c530ab8 136 thread_t thr_act = current_thread();
b0d623f7
A
137 boolean_t is_mach;
138 int code;
139
6d2010ae 140 pal_register_cache_state(thr_act, DIRTY);
0c530ab8
A
141
142 if (thread_is_64bit(thr_act)) {
143 x86_saved_state64_t *regs;
144
145 regs = USER_REGS64(thr_act);
146
b0d623f7
A
147 code = (int) (regs->rax & SYSCALL_NUMBER_MASK);
148 is_mach = (regs->rax & SYSCALL_CLASS_MASK)
149 == (SYSCALL_CLASS_MACH << SYSCALL_CLASS_SHIFT);
150 if (kdebug_enable && is_mach) {
0c530ab8 151 /* Mach trap */
316670eb 152 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
b0d623f7
A
153 MACHDBG_CODE(DBG_MACH_EXCP_SC,code)|DBG_FUNC_END,
154 ret, 0, 0, 0, 0);
0c530ab8
A
155 }
156 regs->rax = ret;
b0d623f7
A
157#if DEBUG
158 if (is_mach)
159 DEBUG_KPRINT_SYSCALL_MACH(
160 "thread_syscall_return: 64-bit mach ret=%u\n",
161 ret);
162 else
163 DEBUG_KPRINT_SYSCALL_UNIX(
164 "thread_syscall_return: 64-bit unix ret=%u\n",
165 ret);
166#endif
0c530ab8
A
167 } else {
168 x86_saved_state32_t *regs;
169
170 regs = USER_REGS32(thr_act);
171
b0d623f7
A
172 code = ((int) regs->eax);
173 is_mach = (code < 0);
174 if (kdebug_enable && is_mach) {
0c530ab8 175 /* Mach trap */
316670eb 176 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
b0d623f7
A
177 MACHDBG_CODE(DBG_MACH_EXCP_SC,-code)|DBG_FUNC_END,
178 ret, 0, 0, 0, 0);
0c530ab8
A
179 }
180 regs->eax = ret;
b0d623f7
A
181#if DEBUG
182 if (is_mach)
183 DEBUG_KPRINT_SYSCALL_MACH(
184 "thread_syscall_return: 32-bit mach ret=%u\n",
185 ret);
186 else
187 DEBUG_KPRINT_SYSCALL_UNIX(
188 "thread_syscall_return: 32-bit unix ret=%u\n",
189 ret);
190#endif
0c530ab8 191 }
39236c6e 192 throttle_lowpri_io(1);
593a1d5f
A
193
194 thread_exception_return();
1c79356b
A
195 /*NOTREACHED*/
196}
197
198
6d2010ae 199static inline void
1c79356b 200user_page_fault_continue(
0c530ab8 201 kern_return_t kr)
1c79356b 202{
0c530ab8 203 thread_t thread = current_thread();
0c530ab8 204 user_addr_t vaddr;
b0d623f7 205
316670eb
A
206 if (thread_is_64bit(thread)) {
207 x86_saved_state64_t *uregs;
0c530ab8
A
208
209 uregs = USER_REGS64(thread);
210
0c530ab8
A
211 vaddr = (user_addr_t)uregs->cr2;
212 } else {
213 x86_saved_state32_t *uregs;
214
215 uregs = USER_REGS32(thread);
216
0c530ab8
A
217 vaddr = uregs->cr2;
218 }
1c79356b 219
1c79356b 220
6d2010ae
A
221 /* PAL debug hook */
222 pal_dbg_page_fault( thread, vaddr, kr );
b0d623f7 223
0c530ab8 224 i386_exception(EXC_BAD_ACCESS, kr, vaddr);
1c79356b
A
225 /*NOTREACHED*/
226}
227
228/*
229 * Fault recovery in copyin/copyout routines.
230 */
231struct recovery {
b0d623f7
A
232 uintptr_t fault_addr;
233 uintptr_t recover_addr;
1c79356b
A
234};
235
236extern struct recovery recover_table[];
237extern struct recovery recover_table_end[];
238
0c530ab8
A
239const char * trap_type[] = {TRAP_NAMES};
240unsigned TRAP_TYPES = sizeof(trap_type)/sizeof(trap_type[0]);
91447636 241
6d2010ae
A
242extern void PE_incoming_interrupt(int interrupt);
243
b0d623f7 244#if defined(__x86_64__) && DEBUG
6d2010ae
A
245void
246kprint_state(x86_saved_state64_t *saved_state)
b0d623f7
A
247{
248 kprintf("current_cpu_datap() 0x%lx\n", (uintptr_t)current_cpu_datap());
249 kprintf("Current GS base MSR 0x%llx\n", rdmsr64(MSR_IA32_GS_BASE));
250 kprintf("Kernel GS base MSR 0x%llx\n", rdmsr64(MSR_IA32_KERNEL_GS_BASE));
251 kprintf("state at 0x%lx:\n", (uintptr_t) saved_state);
252
253 kprintf(" rdi 0x%llx\n", saved_state->rdi);
254 kprintf(" rsi 0x%llx\n", saved_state->rsi);
255 kprintf(" rdx 0x%llx\n", saved_state->rdx);
256 kprintf(" r10 0x%llx\n", saved_state->r10);
257 kprintf(" r8 0x%llx\n", saved_state->r8);
258 kprintf(" r9 0x%llx\n", saved_state->r9);
259 kprintf(" v_arg6 0x%llx\n", saved_state->v_arg6);
260 kprintf(" v_arg7 0x%llx\n", saved_state->v_arg7);
261 kprintf(" v_arg8 0x%llx\n", saved_state->v_arg8);
262
263 kprintf(" cr2 0x%llx\n", saved_state->cr2);
264 kprintf("real cr2 0x%lx\n", get_cr2());
265 kprintf(" r15 0x%llx\n", saved_state->r15);
266 kprintf(" r14 0x%llx\n", saved_state->r14);
267 kprintf(" r13 0x%llx\n", saved_state->r13);
268 kprintf(" r12 0x%llx\n", saved_state->r12);
269 kprintf(" r11 0x%llx\n", saved_state->r11);
270 kprintf(" rbp 0x%llx\n", saved_state->rbp);
271 kprintf(" rbx 0x%llx\n", saved_state->rbx);
272 kprintf(" rcx 0x%llx\n", saved_state->rcx);
273 kprintf(" rax 0x%llx\n", saved_state->rax);
274
275 kprintf(" gs 0x%x\n", saved_state->gs);
276 kprintf(" fs 0x%x\n", saved_state->fs);
277
278 kprintf(" isf.trapno 0x%x\n", saved_state->isf.trapno);
279 kprintf(" isf._pad 0x%x\n", saved_state->isf._pad);
280 kprintf(" isf.trapfn 0x%llx\n", saved_state->isf.trapfn);
281 kprintf(" isf.err 0x%llx\n", saved_state->isf.err);
282 kprintf(" isf.rip 0x%llx\n", saved_state->isf.rip);
283 kprintf(" isf.cs 0x%llx\n", saved_state->isf.cs);
284 kprintf(" isf.rflags 0x%llx\n", saved_state->isf.rflags);
285 kprintf(" isf.rsp 0x%llx\n", saved_state->isf.rsp);
286 kprintf(" isf.ss 0x%llx\n", saved_state->isf.ss);
287}
b0d623f7
A
288#endif
289
060df5ea 290
060df5ea
A
291/*
292 * Non-zero indicates latency assert is enabled and capped at valued
293 * absolute time units.
294 */
295
296uint64_t interrupt_latency_cap = 0;
297boolean_t ilat_assert = FALSE;
298
299void
300interrupt_latency_tracker_setup(void) {
301 uint32_t ilat_cap_us;
302 if (PE_parse_boot_argn("interrupt_latency_cap_us", &ilat_cap_us, sizeof(ilat_cap_us))) {
303 interrupt_latency_cap = ilat_cap_us * NSEC_PER_USEC;
304 nanoseconds_to_absolutetime(interrupt_latency_cap, &interrupt_latency_cap);
305 } else {
306 interrupt_latency_cap = LockTimeOut;
307 }
308 PE_parse_boot_argn("-interrupt_latency_assert_enable", &ilat_assert, sizeof(ilat_assert));
309}
310
311void interrupt_reset_latency_stats(void) {
312 uint32_t i;
313 for (i = 0; i < real_ncpus; i++) {
314 cpu_data_ptr[i]->cpu_max_observed_int_latency =
315 cpu_data_ptr[i]->cpu_max_observed_int_latency_vector = 0;
316 }
317}
318
319void interrupt_populate_latency_stats(char *buf, unsigned bufsize) {
320 uint32_t i, tcpu = ~0;
321 uint64_t cur_max = 0;
322
323 for (i = 0; i < real_ncpus; i++) {
324 if (cur_max < cpu_data_ptr[i]->cpu_max_observed_int_latency) {
325 cur_max = cpu_data_ptr[i]->cpu_max_observed_int_latency;
326 tcpu = i;
327 }
328 }
329
330 if (tcpu < real_ncpus)
331 snprintf(buf, bufsize, "0x%x 0x%x 0x%llx", tcpu, cpu_data_ptr[tcpu]->cpu_max_observed_int_latency_vector, cpu_data_ptr[tcpu]->cpu_max_observed_int_latency);
332}
b0d623f7 333
39236c6e
A
334uint32_t interrupt_timer_coalescing_enabled = 1;
335uint64_t interrupt_coalesced_timers;
336
b0d623f7
A
337/*
338 * Handle interrupts:
339 * - local APIC interrupts (IPIs, timers, etc) are handled by the kernel,
340 * - device interrupts go to the platform expert.
341 */
342void
343interrupt(x86_saved_state_t *state)
344{
345 uint64_t rip;
346 uint64_t rsp;
347 int interrupt_num;
348 boolean_t user_mode = FALSE;
6d2010ae 349 int ipl;
060df5ea 350 int cnum = cpu_number();
39236c6e 351 cpu_data_t *cdp = cpu_data_ptr[cnum];
316670eb 352 int itype = 0;
bd504ef0 353
060df5ea 354 if (is_saved_state64(state) == TRUE) {
b0d623f7
A
355 x86_saved_state64_t *state64;
356
357 state64 = saved_state64(state);
358 rip = state64->isf.rip;
359 rsp = state64->isf.rsp;
360 interrupt_num = state64->isf.trapno;
361#ifdef __x86_64__
362 if(state64->isf.cs & 0x03)
363#endif
364 user_mode = TRUE;
365 } else {
366 x86_saved_state32_t *state32;
367
368 state32 = saved_state32(state);
369 if (state32->cs & 0x03)
370 user_mode = TRUE;
371 rip = state32->eip;
372 rsp = state32->uesp;
373 interrupt_num = state32->trapno;
374 }
375
bd504ef0
A
376 if (cpu_data_ptr[cnum]->lcpu.package->num_idle == topoParms.nLThreadsPerPackage)
377 cpu_data_ptr[cnum]->cpu_hwIntpexits[interrupt_num]++;
378
316670eb
A
379 if (interrupt_num == (LAPIC_DEFAULT_INTERRUPT_BASE + LAPIC_INTERPROCESSOR_INTERRUPT))
380 itype = 1;
381 else if (interrupt_num == (LAPIC_DEFAULT_INTERRUPT_BASE + LAPIC_TIMER_INTERRUPT))
382 itype = 2;
383 else
384 itype = 3;
385
386 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
b0d623f7 387 MACHDBG_CODE(DBG_MACH_EXCP_INTR, 0) | DBG_FUNC_START,
316670eb
A
388 interrupt_num,
389 (user_mode ? rip : VM_KERNEL_UNSLIDE(rip)),
390 user_mode, itype, 0);
6d2010ae
A
391
392 SCHED_STATS_INTERRUPT(current_processor());
393
39236c6e
A
394#if CONFIG_TELEMETRY
395 if (telemetry_needs_record
396 && (current_task() != kernel_task)
397#if CONFIG_SCHED_IDLE_IN_PLACE
398 && ((current_thread()->state & TH_IDLE) == 0) /* idle-in-place should be treated like the idle thread */
399#endif
400 ) {
401 telemetry_mark_curthread(user_mode);
402 }
403#endif
404
6d2010ae 405 ipl = get_preemption_level();
316670eb 406
b0d623f7
A
407 /*
408 * Handle local APIC interrupts
409 * else call platform expert for devices.
6d2010ae
A
410 */
411 if (!lapic_interrupt(interrupt_num, state))
b0d623f7 412 PE_incoming_interrupt(interrupt_num);
6d2010ae
A
413
414 if (__improbable(get_preemption_level() != ipl)) {
415 panic("Preemption level altered by interrupt vector 0x%x: initial 0x%x, final: 0x%x\n", interrupt_num, ipl, get_preemption_level());
060df5ea 416 }
b0d623f7 417
316670eb 418
39236c6e
A
419 if (__improbable(cdp->cpu_nested_istack)) {
420 cdp->cpu_nested_istack_events++;
060df5ea 421 }
6d2010ae 422 else {
39236c6e
A
423 uint64_t ctime = mach_absolute_time();
424 uint64_t int_latency = ctime - cdp->cpu_int_event_time;
425 uint64_t esdeadline, ehdeadline;
426 /* Attempt to process deferred timers in the context of
427 * this interrupt, unless interrupt time has already exceeded
428 * TCOAL_ILAT_THRESHOLD.
429 */
430#define TCOAL_ILAT_THRESHOLD (30000ULL)
431
432 if ((int_latency < TCOAL_ILAT_THRESHOLD) &&
433 interrupt_timer_coalescing_enabled) {
434 esdeadline = cdp->rtclock_timer.queue.earliest_soft_deadline;
435 ehdeadline = cdp->rtclock_timer.deadline;
436 if ((ctime >= esdeadline) && (ctime < ehdeadline)) {
437 interrupt_coalesced_timers++;
438 TCOAL_DEBUG(0x88880000 | DBG_FUNC_START, ctime, esdeadline, ehdeadline, interrupt_coalesced_timers, 0);
439 rtclock_intr(state);
440 TCOAL_DEBUG(0x88880000 | DBG_FUNC_END, ctime, esdeadline, interrupt_coalesced_timers, 0, 0);
441 } else {
442 TCOAL_DEBUG(0x77770000, ctime, cdp->rtclock_timer.queue.earliest_soft_deadline, cdp->rtclock_timer.deadline, interrupt_coalesced_timers, 0);
443 }
060df5ea 444 }
39236c6e
A
445
446 if (__improbable(ilat_assert && (int_latency > interrupt_latency_cap) && !machine_timeout_suspended())) {
447 panic("Interrupt vector 0x%x exceeded interrupt latency threshold, 0x%llx absolute time delta, prior signals: 0x%x, current signals: 0x%x", interrupt_num, int_latency, cdp->cpu_prior_signals, cdp->cpu_signals);
448 }
449
450 if (__improbable(int_latency > cdp->cpu_max_observed_int_latency)) {
451 cdp->cpu_max_observed_int_latency = int_latency;
452 cdp->cpu_max_observed_int_latency_vector = interrupt_num;
060df5ea
A
453 }
454 }
455
b0d623f7
A
456 /*
457 * Having serviced the interrupt first, look at the interrupted stack depth.
458 */
459 if (!user_mode) {
39236c6e 460 uint64_t depth = cdp->cpu_kernel_stack
b0d623f7
A
461 + sizeof(struct x86_kernel_state)
462 + sizeof(struct i386_exception_link *)
463 - rsp;
39236c6e 464 if (__improbable(depth > kernel_stack_depth_max)) {
b0d623f7
A
465 kernel_stack_depth_max = (vm_offset_t)depth;
466 KERNEL_DEBUG_CONSTANT(
467 MACHDBG_CODE(DBG_MACH_SCHED, MACH_STACK_DEPTH),
316670eb 468 (long) depth, (long) VM_KERNEL_UNSLIDE(rip), 0, 0, 0);
b0d623f7
A
469 }
470 }
39236c6e
A
471
472 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
473 MACHDBG_CODE(DBG_MACH_EXCP_INTR, 0) | DBG_FUNC_END,
474 interrupt_num, 0, 0, 0, 0);
475
b0d623f7 476}
2d21ac55 477
0c530ab8
A
478static inline void
479reset_dr7(void)
480{
b0d623f7
A
481 long dr7 = 0x400; /* magic dr7 reset value; 32 bit on i386, 64 bit on x86_64 */
482 __asm__ volatile("mov %0,%%dr7" : : "r" (dr7));
0c530ab8
A
483}
484#if MACH_KDP
485unsigned kdp_has_active_watchpoints = 0;
b0d623f7
A
486#define NO_WATCHPOINTS (!kdp_has_active_watchpoints)
487#else
488#define NO_WATCHPOINTS 1
0c530ab8 489#endif
1c79356b
A
490/*
491 * Trap from kernel mode. Only page-fault errors are recoverable,
492 * and then only in special circumstances. All other errors are
493 * fatal. Return value indicates if trap was handled.
494 */
b0d623f7 495
0c530ab8 496void
1c79356b 497kernel_trap(
6d2010ae
A
498 x86_saved_state_t *state,
499 uintptr_t *lo_spp)
1c79356b 500{
b0d623f7 501 x86_saved_state64_t *saved_state;
91447636 502 int code;
0c530ab8
A
503 user_addr_t vaddr;
504 int type;
2d21ac55 505 vm_map_t map = 0; /* protected by T_PAGE_FAULT */
91447636 506 kern_return_t result = KERN_FAILURE;
0c530ab8
A
507 thread_t thread;
508 ast_t *myast;
509 boolean_t intr;
510 vm_prot_t prot;
511 struct recovery *rp;
512 vm_offset_t kern_ip;
b0d623f7 513#if NCOPY_WINDOWS > 0
0c530ab8 514 int fault_in_copy_window = -1;
b0d623f7 515#endif
0c530ab8 516 int is_user = 0;
b0d623f7 517
1c79356b 518 thread = current_thread();
1c79356b 519
6d2010ae 520 if (__improbable(is_saved_state32(state)))
b0d623f7
A
521 panic("kernel_trap(%p) with 32-bit state", state);
522 saved_state = saved_state64(state);
6d2010ae
A
523
524 /* Record cpu where state was captured */
525 saved_state->isf.cpu = cpu_number();
526
b0d623f7
A
527 vaddr = (user_addr_t)saved_state->cr2;
528 type = saved_state->isf.trapno;
529 code = (int)(saved_state->isf.err & 0xffff);
530 intr = (saved_state->isf.rflags & EFL_IF) != 0; /* state of ints at trap */
531 kern_ip = (vm_offset_t)saved_state->isf.rip;
0c530ab8
A
532
533 myast = ast_pending();
534
6d2010ae
A
535 perfASTCallback astfn = perfASTHook;
536 if (__improbable(astfn != NULL)) {
0c530ab8 537 if (*myast & AST_CHUD_ALL)
6d2010ae 538 astfn(AST_CHUD_ALL, myast);
0c530ab8
A
539 } else
540 *myast &= ~AST_CHUD_ALL;
541
542 /*
543 * Is there a hook?
544 */
6d2010ae
A
545 perfCallback fn = perfTrapHook;
546 if (__improbable(fn != NULL)) {
b0d623f7 547 if (fn(type, NULL, 0, 0) == KERN_SUCCESS) {
0c530ab8
A
548 /*
549 * If it succeeds, we are done...
550 */
551 return;
552 }
553 }
2d21ac55
A
554
555#if CONFIG_DTRACE
6d2010ae
A
556 if (__improbable(tempDTraceTrapHook != NULL)) {
557 if (tempDTraceTrapHook(type, state, lo_spp, 0) == KERN_SUCCESS) {
2d21ac55
A
558 /*
559 * If it succeeds, we are done...
560 */
561 return;
562 }
563 }
564#endif /* CONFIG_DTRACE */
565
0c530ab8
A
566 /*
567 * we come here with interrupts off as we don't want to recurse
568 * on preemption below. but we do want to re-enable interrupts
569 * as soon we possibly can to hold latency down
570 */
6d2010ae 571 if (__improbable(T_PREEMPT == type)) {
2d21ac55 572 ast_taken(AST_PREEMPTION, FALSE);
0c530ab8 573
316670eb
A
574 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
575 (MACHDBG_CODE(DBG_MACH_EXCP_KTRAP_x86, type)) | DBG_FUNC_NONE,
576 0, 0, 0, VM_KERNEL_UNSLIDE(kern_ip), 0);
0c530ab8
A
577 return;
578 }
579
580 if (T_PAGE_FAULT == type) {
581 /*
582 * assume we're faulting in the kernel map
583 */
584 map = kernel_map;
585
6d2010ae 586 if (__probable(thread != THREAD_NULL && thread->map != kernel_map)) {
b0d623f7
A
587#if NCOPY_WINDOWS > 0
588 vm_offset_t copy_window_base;
0c530ab8
A
589 vm_offset_t kvaddr;
590 int window_index;
591
592 kvaddr = (vm_offset_t)vaddr;
b0d623f7 593 /*
0c530ab8
A
594 * must determine if fault occurred in
595 * the copy window while pre-emption is
596 * disabled for this processor so that
597 * we only need to look at the window
598 * associated with this processor
599 */
6d2010ae 600 copy_window_base = current_cpu_datap()->cpu_copywindow_base;
0c530ab8
A
601
602 if (kvaddr >= copy_window_base && kvaddr < (copy_window_base + (NBPDE * NCOPY_WINDOWS)) ) {
603
6d2010ae 604 window_index = (int)((kvaddr - copy_window_base) / NBPDE);
0c530ab8
A
605
606 if (thread->machine.copy_window[window_index].user_base != (user_addr_t)-1) {
607
608 kvaddr -= (copy_window_base + (NBPDE * window_index));
609 vaddr = thread->machine.copy_window[window_index].user_base + kvaddr;
610
611 map = thread->map;
612 fault_in_copy_window = window_index;
613 }
614 is_user = -1;
615 }
b0d623f7 616#else
7ddcb079 617 if (__probable(vaddr < VM_MAX_USER_PAGE_ADDRESS)) {
b0d623f7
A
618 /* fault occurred in userspace */
619 map = thread->map;
620 is_user = -1;
7ddcb079 621
13f56ec4
A
622 /* Intercept a potential Supervisor Mode Execute
623 * Protection fault. These criteria identify
624 * both NX faults and SMEP faults, but both
625 * are fatal. We avoid checking PTEs (racy).
626 * (The VM could just redrive a SMEP fault, hence
627 * the intercept).
628 */
629 if (__improbable((code == (T_PF_PROT | T_PF_EXECUTE)) && (pmap_smep_enabled) && (saved_state->isf.rip == vaddr))) {
630 goto debugger_entry;
631 }
632
b0d623f7
A
633 /*
634 * If we're not sharing cr3 with the user
635 * and we faulted in copyio,
636 * then switch cr3 here and dismiss the fault.
637 */
638 if (no_shared_cr3 &&
639 (thread->machine.specFlags&CopyIOActive) &&
6d2010ae
A
640 map->pmap->pm_cr3 != get_cr3_base()) {
641 pmap_assert(current_cpu_datap()->cpu_pmap_pcid_enabled == FALSE);
642 set_cr3_raw(map->pmap->pm_cr3);
b0d623f7
A
643 return;
644 }
645 }
646#endif
0c530ab8
A
647 }
648 }
316670eb
A
649 user_addr_t kd_vaddr = is_user ? vaddr : VM_KERNEL_UNSLIDE(vaddr);
650 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
b0d623f7 651 (MACHDBG_CODE(DBG_MACH_EXCP_KTRAP_x86, type)) | DBG_FUNC_NONE,
316670eb
A
652 (unsigned)(kd_vaddr >> 32), (unsigned)kd_vaddr, is_user,
653 VM_KERNEL_UNSLIDE(kern_ip), 0);
0c530ab8
A
654
655
656 (void) ml_set_interrupts_enabled(intr);
657
1c79356b 658 switch (type) {
1c79356b
A
659
660 case T_NO_FPU:
661 fpnoextflt();
0c530ab8 662 return;
1c79356b
A
663
664 case T_FPU_FAULT:
665 fpextovrflt();
0c530ab8 666 return;
1c79356b
A
667
668 case T_FLOATING_POINT_ERROR:
669 fpexterrflt();
0c530ab8 670 return;
1c79356b 671
0c530ab8
A
672 case T_SSE_FLOAT_ERROR:
673 fpSSEexterrflt();
674 return;
675 case T_DEBUG:
b0d623f7 676 if ((saved_state->isf.rflags & EFL_TF) == 0 && NO_WATCHPOINTS)
2d21ac55 677 {
0c530ab8
A
678 /* We've somehow encountered a debug
679 * register match that does not belong
680 * to the kernel debugger.
681 * This isn't supposed to happen.
682 */
683 reset_dr7();
684 return;
2d21ac55 685 }
0c530ab8 686 goto debugger_entry;
b0d623f7
A
687#ifdef __x86_64__
688 case T_INT3:
689 goto debugger_entry;
690#endif
1c79356b 691 case T_PAGE_FAULT:
0c530ab8 692
2d21ac55 693#if CONFIG_DTRACE
6d2010ae 694 if (thread != THREAD_NULL && thread->options & TH_OPT_DTRACE) { /* Executing under dtrace_probe? */
2d21ac55
A
695 if (dtrace_tally_fault(vaddr)) { /* Should a fault under dtrace be ignored? */
696 /*
697 * DTrace has "anticipated" the possibility of this fault, and has
698 * established the suitable recovery state. Drop down now into the
699 * recovery handling code in "case T_GENERAL_PROTECTION:".
700 */
701 goto FALL_THROUGH;
702 }
703 }
704#endif /* CONFIG_DTRACE */
7ddcb079
A
705
706 prot = VM_PROT_READ;
707
708 if (code & T_PF_WRITE)
709 prot |= VM_PROT_WRITE;
710#if PAE
711 if (code & T_PF_EXECUTE)
712 prot |= VM_PROT_EXECUTE;
713#endif
714
0c530ab8 715 result = vm_fault(map,
39236c6e
A
716 vm_map_trunc_page(vaddr,
717 PAGE_MASK),
0c530ab8
A
718 prot,
719 FALSE,
720 THREAD_UNINT, NULL, 0);
721
1c79356b 722 if (result == KERN_SUCCESS) {
b0d623f7 723#if NCOPY_WINDOWS > 0
0c530ab8 724 if (fault_in_copy_window != -1) {
6d2010ae
A
725 ml_set_interrupts_enabled(FALSE);
726 copy_window_fault(thread, map,
727 fault_in_copy_window);
0c530ab8 728 (void) ml_set_interrupts_enabled(intr);
1c79356b 729 }
b0d623f7 730#endif /* NCOPY_WINDOWS > 0 */
0c530ab8 731 return;
1c79356b 732 }
0c530ab8
A
733 /*
734 * fall through
735 */
2d21ac55
A
736#if CONFIG_DTRACE
737FALL_THROUGH:
738#endif /* CONFIG_DTRACE */
1c79356b
A
739
740 case T_GENERAL_PROTECTION:
1c79356b
A
741 /*
742 * If there is a failure recovery address
743 * for this fault, go there.
744 */
0c530ab8
A
745 for (rp = recover_table; rp < recover_table_end; rp++) {
746 if (kern_ip == rp->fault_addr) {
747 set_recovery_ip(saved_state, rp->recover_addr);
748 return;
1c79356b 749 }
1c79356b
A
750 }
751
752 /*
0c530ab8 753 * Check thread recovery address also.
1c79356b 754 */
6d2010ae 755 if (thread != THREAD_NULL && thread->recover) {
b0d623f7 756 set_recovery_ip(saved_state, thread->recover);
0c530ab8
A
757 thread->recover = 0;
758 return;
1c79356b 759 }
1c79356b
A
760 /*
761 * Unanticipated page-fault errors in kernel
762 * should not happen.
0c530ab8
A
763 *
764 * fall through...
1c79356b 765 */
1c79356b 766 default:
91447636
A
767 /*
768 * Exception 15 is reserved but some chips may generate it
769 * spuriously. Seen at startup on AMD Athlon-64.
770 */
771 if (type == 15) {
772 kprintf("kernel_trap() ignoring spurious trap 15\n");
0c530ab8 773 return;
91447636 774 }
0c530ab8
A
775debugger_entry:
776 /* Ensure that the i386_kernel_state at the base of the
777 * current thread's stack (if any) is synchronized with the
778 * context at the moment of the trap, to facilitate
779 * access through the debugger.
1c79356b 780 */
b0d623f7 781 sync_iss_to_iks(state);
1c79356b 782#if MACH_KDP
316670eb 783 if (current_debugger != KDB_CUR_DB) {
b0d623f7 784 if (kdp_i386_trap(type, saved_state, result, (vm_offset_t)vaddr))
0c530ab8 785 return;
2d21ac55
A
786 }
787#endif
4452a7af 788 }
316670eb 789 pal_cli();
0c530ab8
A
790 panic_trap(saved_state);
791 /*
792 * NO RETURN
793 */
794}
795
796
b0d623f7
A
797static void
798set_recovery_ip(x86_saved_state64_t *saved_state, vm_offset_t ip)
799{
800 saved_state->isf.rip = ip;
801}
0c530ab8
A
802
803
7ddcb079
A
804
805
b0d623f7
A
806static void
807panic_trap(x86_saved_state64_t *regs)
4452a7af 808{
b0d623f7 809 const char *trapname = "Unknown";
6d2010ae 810 pal_cr_t cr0, cr2, cr3, cr4;
316670eb 811 boolean_t potential_smep_fault = FALSE, potential_kernel_NX_fault = FALSE;
0c530ab8 812
6d2010ae
A
813 pal_get_control_registers( &cr0, &cr2, &cr3, &cr4 );
814 assert(ml_get_interrupts_enabled() == FALSE);
815 current_cpu_datap()->cpu_fatal_trap_state = regs;
2d21ac55
A
816 /*
817 * Issue an I/O port read if one has been requested - this is an
818 * event logic analyzers can use as a trigger point.
819 */
0c530ab8
A
820 panic_io_port_read();
821
b0d623f7
A
822 kprintf("panic trap number 0x%x, rip 0x%016llx\n",
823 regs->isf.trapno, regs->isf.rip);
824 kprintf("cr0 0x%016llx cr2 0x%016llx cr3 0x%016llx cr4 0x%016llx\n",
825 cr0, cr2, cr3, cr4);
4452a7af 826
b0d623f7
A
827 if (regs->isf.trapno < TRAP_TYPES)
828 trapname = trap_type[regs->isf.trapno];
7ddcb079 829
316670eb
A
830 if ((regs->isf.trapno == T_PAGE_FAULT) && (regs->isf.err == (T_PF_PROT | T_PF_EXECUTE)) && (regs->isf.rip == regs->cr2)) {
831 if (pmap_smep_enabled && (regs->isf.rip < VM_MAX_USER_PAGE_ADDRESS)) {
832 potential_smep_fault = TRUE;
833 } else if (regs->isf.rip >= VM_MIN_KERNEL_AND_KEXT_ADDRESS) {
834 potential_kernel_NX_fault = TRUE;
835 }
13f56ec4
A
836 }
837
b0d623f7
A
838#undef panic
839 panic("Kernel trap at 0x%016llx, type %d=%s, registers:\n"
840 "CR0: 0x%016llx, CR2: 0x%016llx, CR3: 0x%016llx, CR4: 0x%016llx\n"
841 "RAX: 0x%016llx, RBX: 0x%016llx, RCX: 0x%016llx, RDX: 0x%016llx\n"
842 "RSP: 0x%016llx, RBP: 0x%016llx, RSI: 0x%016llx, RDI: 0x%016llx\n"
843 "R8: 0x%016llx, R9: 0x%016llx, R10: 0x%016llx, R11: 0x%016llx\n"
844 "R12: 0x%016llx, R13: 0x%016llx, R14: 0x%016llx, R15: 0x%016llx\n"
845 "RFL: 0x%016llx, RIP: 0x%016llx, CS: 0x%016llx, SS: 0x%016llx\n"
316670eb 846 "Fault CR2: 0x%016llx, Error code: 0x%016llx, Fault CPU: 0x%x%s%s%s\n",
b0d623f7
A
847 regs->isf.rip, regs->isf.trapno, trapname,
848 cr0, cr2, cr3, cr4,
849 regs->rax, regs->rbx, regs->rcx, regs->rdx,
850 regs->isf.rsp, regs->rbp, regs->rsi, regs->rdi,
851 regs->r8, regs->r9, regs->r10, regs->r11,
852 regs->r12, regs->r13, regs->r14, regs->r15,
6d2010ae 853 regs->isf.rflags, regs->isf.rip, regs->isf.cs & 0xFFFF,
7ddcb079 854 regs->isf.ss & 0xFFFF,regs->cr2, regs->isf.err, regs->isf.cpu,
316670eb
A
855 virtualized ? " VMM" : "",
856 potential_kernel_NX_fault ? " Kernel NX fault" : "",
857 potential_smep_fault ? " SMEP/User NX fault" : "");
0c530ab8 858 /*
b0d623f7
A
859 * This next statement is not executed,
860 * but it's needed to stop the compiler using tail call optimization
861 * for the panic call - which confuses the subsequent backtrace.
0c530ab8 862 */
b0d623f7 863 cr0 = 0;
4452a7af
A
864}
865
2d21ac55
A
866#if CONFIG_DTRACE
867extern kern_return_t dtrace_user_probe(x86_saved_state_t *);
868#endif
869
1c79356b
A
870/*
871 * Trap from user mode.
872 */
873void
874user_trap(
0c530ab8 875 x86_saved_state_t *saved_state)
1c79356b 876{
2d21ac55
A
877 int exc;
878 int err;
879 mach_exception_code_t code;
880 mach_exception_subcode_t subcode;
881 int type;
882 user_addr_t vaddr;
883 vm_prot_t prot;
884 thread_t thread = current_thread();
885 ast_t *myast;
886 kern_return_t kret;
887 user_addr_t rip;
6d2010ae 888 unsigned long dr6 = 0; /* 32 bit for i386, 64 bit for x86_64 */
0c530ab8
A
889
890 assert((is_saved_state32(saved_state) && !thread_is_64bit(thread)) ||
891 (is_saved_state64(saved_state) && thread_is_64bit(thread)));
892
893 if (is_saved_state64(saved_state)) {
894 x86_saved_state64_t *regs;
895
896 regs = saved_state64(saved_state);
897
6d2010ae
A
898 /* Record cpu where state was captured */
899 regs->isf.cpu = cpu_number();
900
0c530ab8 901 type = regs->isf.trapno;
b0d623f7 902 err = (int)regs->isf.err & 0xffff;
0c530ab8
A
903 vaddr = (user_addr_t)regs->cr2;
904 rip = (user_addr_t)regs->isf.rip;
905 } else {
2d21ac55 906 x86_saved_state32_t *regs;
0c530ab8
A
907
908 regs = saved_state32(saved_state);
909
6d2010ae
A
910 /* Record cpu where state was captured */
911 regs->cpu = cpu_number();
912
0c530ab8
A
913 type = regs->trapno;
914 err = regs->err & 0xffff;
915 vaddr = (user_addr_t)regs->cr2;
916 rip = (user_addr_t)regs->eip;
1c79356b
A
917 }
918
6d2010ae
A
919 if ((type == T_DEBUG) && thread->machine.ids) {
920 unsigned long clear = 0;
921 /* Stash and clear this processor's DR6 value, in the event
922 * this was a debug register match
923 */
924 __asm__ volatile ("mov %%db6, %0" : "=r" (dr6));
925 __asm__ volatile ("mov %0, %%db6" : : "r" (clear));
926 }
927
928 pal_sti();
929
316670eb 930 KERNEL_DEBUG_CONSTANT_IST(KDEBUG_TRACE,
b0d623f7
A
931 (MACHDBG_CODE(DBG_MACH_EXCP_UTRAP_x86, type)) | DBG_FUNC_NONE,
932 (unsigned)(vaddr>>32), (unsigned)vaddr,
933 (unsigned)(rip>>32), (unsigned)rip, 0);
0c530ab8 934
1c79356b
A
935 code = 0;
936 subcode = 0;
91447636 937 exc = 0;
1c79356b 938
0c530ab8
A
939#if DEBUG_TRACE
940 kprintf("user_trap(0x%08x) type=%d vaddr=0x%016llx\n",
941 saved_state, type, vaddr);
942#endif
6d2010ae
A
943
944 perfASTCallback astfn = perfASTHook;
945 if (__improbable(astfn != NULL)) {
d41d1dae 946 myast = ast_pending();
0c530ab8 947 if (*myast & AST_CHUD_ALL) {
6d2010ae 948 astfn(AST_CHUD_ALL, myast);
0c530ab8 949 }
0c530ab8
A
950 }
951
952 /* Is there a hook? */
6d2010ae
A
953 perfCallback fn = perfTrapHook;
954 if (__improbable(fn != NULL)) {
b0d623f7 955 if (fn(type, saved_state, 0, 0) == KERN_SUCCESS)
0c530ab8
A
956 return; /* If it succeeds, we are done... */
957 }
958
2d21ac55
A
959 /*
960 * DTrace does not consume all user traps, only INT_3's for now.
961 * Avoid needlessly calling tempDTraceTrapHook here, and let the
962 * INT_3 case handle them.
963 */
b0d623f7
A
964 DEBUG_KPRINT_SYSCALL_MASK(1,
965 "user_trap: type=0x%x(%s) err=0x%x cr2=%p rip=%p\n",
966 type, trap_type[type], err, (void *)(long) vaddr, (void *)(long) rip);
6d2010ae 967
1c79356b
A
968 switch (type) {
969
970 case T_DIVIDE_ERROR:
971 exc = EXC_ARITHMETIC;
972 code = EXC_I386_DIV;
973 break;
974
975 case T_DEBUG:
0c530ab8
A
976 {
977 pcb_t pcb;
0c530ab8 978 /*
6d2010ae
A
979 * Update the PCB with this processor's DR6 value
980 * in the event this was a debug register match.
0c530ab8 981 */
6d2010ae 982 pcb = THREAD_TO_PCB(thread);
0c530ab8
A
983 if (pcb->ids) {
984 /*
985 * We can get and set the status register
986 * in 32-bit mode even on a 64-bit thread
987 * because the high order bits are not
988 * used on x86_64
989 */
990 if (thread_is_64bit(thread)) {
0c530ab8 991 x86_debug_state64_t *ids = pcb->ids;
6d2010ae 992 ids->dr6 = dr6;
0c530ab8
A
993 } else { /* 32 bit thread */
994 x86_debug_state32_t *ids = pcb->ids;
6d2010ae 995 ids->dr6 = (uint32_t) dr6;
0c530ab8 996 }
0c530ab8
A
997 }
998 exc = EXC_BREAKPOINT;
999 code = EXC_I386_SGL;
1000 break;
1001 }
1c79356b 1002 case T_INT3:
2d21ac55
A
1003#if CONFIG_DTRACE
1004 if (dtrace_user_probe(saved_state) == KERN_SUCCESS)
1005 return; /* If it succeeds, we are done... */
1006#endif
1c79356b
A
1007 exc = EXC_BREAKPOINT;
1008 code = EXC_I386_BPT;
1009 break;
1010
1011 case T_OVERFLOW:
1012 exc = EXC_ARITHMETIC;
1013 code = EXC_I386_INTO;
1014 break;
1015
1016 case T_OUT_OF_BOUNDS:
1017 exc = EXC_SOFTWARE;
1018 code = EXC_I386_BOUND;
1019 break;
1020
1021 case T_INVALID_OPCODE:
1022 exc = EXC_BAD_INSTRUCTION;
1023 code = EXC_I386_INVOP;
1024 break;
1025
1026 case T_NO_FPU:
1c79356b
A
1027 fpnoextflt();
1028 return;
1029
1030 case T_FPU_FAULT:
2d21ac55 1031 fpextovrflt(); /* Propagates exception directly, doesn't return */
1c79356b
A
1032 return;
1033
2d21ac55 1034 case T_INVALID_TSS: /* invalid TSS == iret with NT flag set */
1c79356b
A
1035 exc = EXC_BAD_INSTRUCTION;
1036 code = EXC_I386_INVTSSFLT;
0c530ab8 1037 subcode = err;
1c79356b
A
1038 break;
1039
1040 case T_SEGMENT_NOT_PRESENT:
1041 exc = EXC_BAD_INSTRUCTION;
1042 code = EXC_I386_SEGNPFLT;
0c530ab8 1043 subcode = err;
1c79356b
A
1044 break;
1045
1046 case T_STACK_FAULT:
1047 exc = EXC_BAD_INSTRUCTION;
1048 code = EXC_I386_STKFLT;
0c530ab8 1049 subcode = err;
1c79356b
A
1050 break;
1051
1052 case T_GENERAL_PROTECTION:
2d21ac55
A
1053 /*
1054 * There's a wide range of circumstances which generate this
1055 * class of exception. From user-space, many involve bad
1056 * addresses (such as a non-canonical 64-bit address).
1057 * So we map this to EXC_BAD_ACCESS (and thereby SIGSEGV).
1058 * The trouble is cr2 doesn't contain the faulting address;
1059 * we'd need to decode the faulting instruction to really
1060 * determine this. We'll leave that to debuggers.
1061 * However, attempted execution of privileged instructions
1062 * (e.g. cli) also generate GP faults and so we map these to
1063 * to EXC_BAD_ACCESS (and thence SIGSEGV) also - rather than
1064 * EXC_BAD_INSTRUCTION which is more accurate. We just can't
1065 * win!
1066 */
1067 exc = EXC_BAD_ACCESS;
1c79356b 1068 code = EXC_I386_GPFLT;
0c530ab8 1069 subcode = err;
1c79356b
A
1070 break;
1071
1072 case T_PAGE_FAULT:
db609669 1073 {
39236c6e 1074 prot = VM_PROT_READ;
0c530ab8
A
1075
1076 if (err & T_PF_WRITE)
1077 prot |= VM_PROT_WRITE;
1078#if PAE
6d2010ae 1079 if (__improbable(err & T_PF_EXECUTE))
0c530ab8
A
1080 prot |= VM_PROT_EXECUTE;
1081#endif
39236c6e
A
1082 kret = vm_fault(thread->map,
1083 vm_map_trunc_page(vaddr,
1084 PAGE_MASK),
1085 prot, FALSE,
1086 THREAD_ABORTSAFE, NULL, 0);
0c530ab8 1087
db609669
A
1088 if (__probable((kret == KERN_SUCCESS) || (kret == KERN_ABORTED))) {
1089 thread_exception_return();
39236c6e 1090 /*NOTREACHED*/
db609669
A
1091 }
1092
1093 user_page_fault_continue(kret);
1094 } /* NOTREACHED */
1c79356b
A
1095 break;
1096
0c530ab8 1097 case T_SSE_FLOAT_ERROR:
2d21ac55 1098 fpSSEexterrflt(); /* Propagates exception directly, doesn't return */
0c530ab8
A
1099 return;
1100
1101
1c79356b 1102 case T_FLOATING_POINT_ERROR:
2d21ac55 1103 fpexterrflt(); /* Propagates exception directly, doesn't return */
1c79356b
A
1104 return;
1105
2d21ac55
A
1106 case T_DTRACE_RET:
1107#if CONFIG_DTRACE
1108 if (dtrace_user_probe(saved_state) == KERN_SUCCESS)
1109 return; /* If it succeeds, we are done... */
1110#endif
1111 /*
1112 * If we get an INT 0x7f when we do not expect to,
1113 * treat it as an illegal instruction
1114 */
1115 exc = EXC_BAD_INSTRUCTION;
1116 code = EXC_I386_INVOP;
1117 break;
1118
1c79356b 1119 default:
2d21ac55 1120 panic("Unexpected user trap, type %d", type);
1c79356b
A
1121 return;
1122 }
2d21ac55
A
1123 /* Note: Codepaths that directly return from user_trap() have pending
1124 * ASTs processed in locore
1125 */
1c79356b 1126 i386_exception(exc, code, subcode);
2d21ac55 1127 /* NOTREACHED */
1c79356b
A
1128}
1129
1c79356b
A
1130
1131/*
1132 * Handle AST traps for i386.
1c79356b
A
1133 */
1134
1135extern void log_thread_action (thread_t, char *);
1136
1137void
1138i386_astintr(int preemption)
1139{
0c530ab8 1140 ast_t mask = AST_ALL;
1c79356b 1141 spl_t s;
1c79356b 1142
0c530ab8
A
1143 if (preemption)
1144 mask = AST_PREEMPTION;
1145
1146 s = splsched();
1c79356b 1147
91447636
A
1148 ast_taken(mask, s);
1149
0c530ab8 1150 splx(s);
1c79356b
A
1151}
1152
1153/*
1154 * Handle exceptions for i386.
1155 *
1156 * If we are an AT bus machine, we must turn off the AST for a
1157 * delayed floating-point exception.
1158 *
1159 * If we are providing floating-point emulation, we may have
1160 * to retrieve the real register values from the floating point
1161 * emulator.
1162 */
1163void
1164i386_exception(
1165 int exc,
2d21ac55
A
1166 mach_exception_code_t code,
1167 mach_exception_subcode_t subcode)
1c79356b 1168{
2d21ac55 1169 mach_exception_data_type_t codes[EXCEPTION_CODE_MAX];
1c79356b 1170
b0d623f7
A
1171 DEBUG_KPRINT_SYSCALL_MACH("i386_exception: exc=%d code=0x%llx subcode=0x%llx\n",
1172 exc, code, subcode);
1c79356b
A
1173 codes[0] = code; /* new exception interface */
1174 codes[1] = subcode;
91447636 1175 exception_triage(exc, codes, 2);
1c79356b
A
1176 /*NOTREACHED*/
1177}
1178
0c530ab8 1179
0c530ab8
A
1180/* Synchronize a thread's i386_kernel_state (if any) with the given
1181 * i386_saved_state_t obtained from the trap/IPI handler; called in
1182 * kernel_trap() prior to entering the debugger, and when receiving
1183 * an "MP_KDP" IPI.
1184 */
1185
1186void
b0d623f7 1187sync_iss_to_iks(x86_saved_state_t *saved_state)
0c530ab8 1188{
b0d623f7 1189 struct x86_kernel_state *iks;
0c530ab8
A
1190 vm_offset_t kstack;
1191 boolean_t record_active_regs = FALSE;
1192
6d2010ae
A
1193 /* The PAL may have a special way to sync registers */
1194 if( saved_state->flavor == THREAD_STATE_NONE )
1195 pal_get_kern_regs( saved_state );
1196
0c530ab8 1197 if ((kstack = current_thread()->kernel_stack) != 0) {
b0d623f7 1198 x86_saved_state64_t *regs = saved_state64(saved_state);
0c530ab8
A
1199
1200 iks = STACK_IKS(kstack);
1201
6d2010ae 1202 /* Did we take the trap/interrupt in kernel mode? */
b0d623f7
A
1203 if (regs == USER_REGS64(current_thread()))
1204 record_active_regs = TRUE;
1205 else {
1206 iks->k_rbx = regs->rbx;
1207 iks->k_rsp = regs->isf.rsp;
1208 iks->k_rbp = regs->rbp;
1209 iks->k_r12 = regs->r12;
1210 iks->k_r13 = regs->r13;
1211 iks->k_r14 = regs->r14;
1212 iks->k_r15 = regs->r15;
1213 iks->k_rip = regs->isf.rip;
1214 }
0c530ab8
A
1215 }
1216
1217 if (record_active_regs == TRUE) {
b0d623f7
A
1218 /* Show the trap handler path */
1219 __asm__ volatile("movq %%rbx, %0" : "=m" (iks->k_rbx));
1220 __asm__ volatile("movq %%rsp, %0" : "=m" (iks->k_rsp));
1221 __asm__ volatile("movq %%rbp, %0" : "=m" (iks->k_rbp));
1222 __asm__ volatile("movq %%r12, %0" : "=m" (iks->k_r12));
1223 __asm__ volatile("movq %%r13, %0" : "=m" (iks->k_r13));
1224 __asm__ volatile("movq %%r14, %0" : "=m" (iks->k_r14));
1225 __asm__ volatile("movq %%r15, %0" : "=m" (iks->k_r15));
1226 /* "Current" instruction pointer */
1227 __asm__ volatile("leaq 1f(%%rip), %%rax; mov %%rax, %0\n1:"
1228 : "=m" (iks->k_rip)
1229 :
1230 : "rax");
0c530ab8
A
1231 }
1232}
1233
1234/*
1235 * This is used by the NMI interrupt handler (from mp.c) to
1236 * uncondtionally sync the trap handler context to the IKS
1237 * irrespective of whether the NMI was fielded in kernel
1238 * or user space.
1239 */
1240void
2d21ac55 1241sync_iss_to_iks_unconditionally(__unused x86_saved_state_t *saved_state) {
b0d623f7 1242 struct x86_kernel_state *iks;
0c530ab8 1243 vm_offset_t kstack;
0c530ab8
A
1244
1245 if ((kstack = current_thread()->kernel_stack) != 0) {
0c530ab8 1246 iks = STACK_IKS(kstack);
b0d623f7
A
1247 /* Display the trap handler path */
1248 __asm__ volatile("movq %%rbx, %0" : "=m" (iks->k_rbx));
1249 __asm__ volatile("movq %%rsp, %0" : "=m" (iks->k_rsp));
1250 __asm__ volatile("movq %%rbp, %0" : "=m" (iks->k_rbp));
1251 __asm__ volatile("movq %%r12, %0" : "=m" (iks->k_r12));
1252 __asm__ volatile("movq %%r13, %0" : "=m" (iks->k_r13));
1253 __asm__ volatile("movq %%r14, %0" : "=m" (iks->k_r14));
1254 __asm__ volatile("movq %%r15, %0" : "=m" (iks->k_r15));
1255 /* "Current" instruction pointer */
1256 __asm__ volatile("leaq 1f(%%rip), %%rax; mov %%rax, %0\n1:" : "=m" (iks->k_rip)::"rax");
0c530ab8
A
1257 }
1258}