xref: /titanic_50/usr/src/uts/intel/ia32/os/syscall.c (revision 2df1fe9ca32bb227b9158c67f5c00b54c20b10fd)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 
22 /*
23  * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 #pragma ident	"%Z%%M%	%I%	%E% SMI"
28 
29 #include <sys/param.h>
30 #include <sys/vmparam.h>
31 #include <sys/types.h>
32 #include <sys/sysmacros.h>
33 #include <sys/systm.h>
34 #include <sys/signal.h>
35 #include <sys/stack.h>
36 #include <sys/cred.h>
37 #include <sys/cmn_err.h>
38 #include <sys/user.h>
39 #include <sys/privregs.h>
40 #include <sys/psw.h>
41 #include <sys/debug.h>
42 #include <sys/errno.h>
43 #include <sys/proc.h>
44 #include <sys/modctl.h>
45 #include <sys/var.h>
46 #include <sys/inline.h>
47 #include <sys/syscall.h>
48 #include <sys/ucontext.h>
49 #include <sys/cpuvar.h>
50 #include <sys/siginfo.h>
51 #include <sys/trap.h>
52 #include <sys/vtrace.h>
53 #include <sys/sysinfo.h>
54 #include <sys/procfs.h>
55 #include <c2/audit.h>
56 #include <sys/modctl.h>
57 #include <sys/aio_impl.h>
58 #include <sys/tnf.h>
59 #include <sys/tnf_probe.h>
60 #include <sys/copyops.h>
61 #include <sys/priv.h>
62 #include <sys/msacct.h>
63 
64 int syscalltrace = 0;
65 #ifdef SYSCALLTRACE
66 static kmutex_t systrace_lock;		/* syscall tracing lock */
67 #else
68 #define	syscalltrace 0
69 #endif /* SYSCALLTRACE */
70 
71 typedef	int64_t (*llfcn_t)();	/* function returning long long */
72 
73 int pre_syscall(void);
74 void post_syscall(long rval1, long rval2);
75 static krwlock_t *lock_syscall(struct sysent *, uint_t);
76 void deferred_singlestep_trap(caddr_t);
77 
78 #ifdef _SYSCALL32_IMPL
79 #define	LWP_GETSYSENT(lwp)	\
80 	(lwp_getdatamodel(lwp) == DATAMODEL_NATIVE ? sysent : sysent32)
81 #else
82 #define	LWP_GETSYSENT(lwp)	(sysent)
83 #endif
84 
85 /*
86  * Arrange for the real time profiling signal to be dispatched.
87  */
88 void
89 realsigprof(int sysnum, int error)
90 {
91 	proc_t *p;
92 	klwp_t *lwp;
93 
94 	if (curthread->t_rprof->rp_anystate == 0)
95 		return;
96 	p = ttoproc(curthread);
97 	lwp = ttolwp(curthread);
98 	mutex_enter(&p->p_lock);
99 	if (sigismember(&p->p_ignore, SIGPROF) ||
100 	    signal_is_blocked(curthread, SIGPROF)) {
101 		mutex_exit(&p->p_lock);
102 		return;
103 	}
104 	lwp->lwp_siginfo.si_signo = SIGPROF;
105 	lwp->lwp_siginfo.si_code = PROF_SIG;
106 	lwp->lwp_siginfo.si_errno = error;
107 	hrt2ts(gethrtime(), &lwp->lwp_siginfo.si_tstamp);
108 	lwp->lwp_siginfo.si_syscall = sysnum;
109 	lwp->lwp_siginfo.si_nsysarg = (sysnum > 0 && sysnum < NSYSCALL) ?
110 		LWP_GETSYSENT(lwp)[sysnum].sy_narg : 0;
111 	lwp->lwp_siginfo.si_fault = lwp->lwp_lastfault;
112 	lwp->lwp_siginfo.si_faddr = lwp->lwp_lastfaddr;
113 	lwp->lwp_lastfault = 0;
114 	lwp->lwp_lastfaddr = NULL;
115 	sigtoproc(p, curthread, SIGPROF);
116 	mutex_exit(&p->p_lock);
117 	ASSERT(lwp->lwp_cursig == 0);
118 	if (issig(FORREAL))
119 		psig();
120 	mutex_enter(&p->p_lock);
121 	lwp->lwp_siginfo.si_signo = 0;
122 	bzero(curthread->t_rprof, sizeof (*curthread->t_rprof));
123 	mutex_exit(&p->p_lock);
124 }
125 
126 /*
127  * If watchpoints are active, don't make copying in of
128  * system call arguments take a read watchpoint trap.
129  */
130 static int
131 copyin_args(struct regs *rp, long *ap, uint_t nargs)
132 {
133 	greg_t *sp = 1 + (greg_t *)rp->r_sp;		/* skip ret addr */
134 
135 	ASSERT(nargs <= MAXSYSARGS);
136 
137 	return (copyin_nowatch(sp, ap, nargs * sizeof (*sp)));
138 }
139 
140 #if defined(_SYSCALL32_IMPL)
141 static int
142 copyin_args32(struct regs *rp, long *ap, uint_t nargs)
143 {
144 	greg32_t *sp = 1 + (greg32_t *)rp->r_sp;	/* skip ret addr */
145 	uint32_t a32[MAXSYSARGS];
146 	int rc;
147 
148 	ASSERT(nargs <= MAXSYSARGS);
149 
150 	if ((rc = copyin_nowatch(sp, a32, nargs * sizeof (*sp))) == 0) {
151 		uint32_t *a32p = &a32[0];
152 
153 		while (nargs--)
154 			*ap++ = (ulong_t)*a32p++;
155 	}
156 	return (rc);
157 }
158 #define	COPYIN_ARGS32	copyin_args32
159 #else
160 #define	COPYIN_ARGS32	copyin_args
161 #endif
162 
163 /*
164  * Error handler for system calls where arg copy gets fault.
165  */
166 static longlong_t
167 syscall_err()
168 {
169 	return (0);
170 }
171 
172 /*
173  * Corresponding sysent entry to allow syscall_entry caller
174  * to invoke syscall_err.
175  */
176 static struct sysent sysent_err =  {
177 	0, SE_32RVAL1, NULL, NULL, (llfcn_t)syscall_err
178 };
179 
180 /*
181  * Called from syscall() when a non-trivial 32-bit system call occurs.
182  * 	Sets up the args and returns a pointer to the handler.
183  */
184 struct sysent *
185 syscall_entry(kthread_t *t, long *argp)
186 {
187 	klwp_t *lwp = ttolwp(t);
188 	struct regs *rp = lwptoregs(lwp);
189 	unsigned int code;
190 	struct sysent *callp;
191 	struct sysent *se = LWP_GETSYSENT(lwp);
192 	int error = 0;
193 	uint_t nargs;
194 
195 	ASSERT(t == curthread && curthread->t_schedflag & TS_DONT_SWAP);
196 
197 	lwp->lwp_ru.sysc++;
198 	lwp->lwp_eosys = NORMALRETURN;	/* assume this will be normal */
199 
200 	/*
201 	 * Set lwp_ap to point to the args, even if none are needed for this
202 	 * system call.  This is for the loadable-syscall case where the
203 	 * number of args won't be known until the system call is loaded, and
204 	 * also maintains a non-NULL lwp_ap setup for get_syscall_args(). Note
205 	 * that lwp_ap MUST be set to a non-NULL value _BEFORE_ t_sysnum is
206 	 * set to non-zero; otherwise get_syscall_args(), seeing a non-zero
207 	 * t_sysnum for this thread, will charge ahead and dereference lwp_ap.
208 	 */
209 	lwp->lwp_ap = argp;		/* for get_syscall_args */
210 
211 	code = rp->r_r0;
212 	t->t_sysnum = (short)code;
213 	callp = code >= NSYSCALL ? &nosys_ent : se + code;
214 
215 	if ((t->t_pre_sys | syscalltrace) != 0) {
216 		error = pre_syscall();
217 
218 		/*
219 		 * pre_syscall() has taken care so that lwp_ap is current;
220 		 * it either points to syscall-entry-saved amd64 regs,
221 		 * or it points to lwp_arg[], which has been re-copied from
222 		 * the ia32 ustack, but either way, it's a current copy after
223 		 * /proc has possibly mucked with the syscall args.
224 		 */
225 
226 		if (error)
227 			return (&sysent_err);	/* use dummy handler */
228 	}
229 
230 	/*
231 	 * Fetch the system call arguments to the kernel stack copy used
232 	 * for syscall handling.
233 	 * Note: for loadable system calls the number of arguments required
234 	 * may not be known at this point, and will be zero if the system call
235 	 * was never loaded.  Once the system call has been loaded, the number
236 	 * of args is not allowed to be changed.
237 	 */
238 	if ((nargs = (uint_t)callp->sy_narg) != 0 &&
239 	    COPYIN_ARGS32(rp, argp, nargs)) {
240 		(void) set_errno(EFAULT);
241 		return (&sysent_err);	/* use dummy handler */
242 	}
243 
244 	return (callp);		/* return sysent entry for caller */
245 }
246 
247 void
248 syscall_exit(kthread_t *t, long rval1, long rval2)
249 {
250 	/*
251 	 * Handle signals and other post-call events if necessary.
252 	 */
253 	if ((t->t_post_sys_ast | syscalltrace) == 0) {
254 		klwp_t *lwp = ttolwp(t);
255 		struct regs *rp = lwptoregs(lwp);
256 
257 		/*
258 		 * Normal return.
259 		 * Clear error indication and set return values.
260 		 */
261 		rp->r_ps &= ~PS_C;	/* reset carry bit */
262 		rp->r_r0 = rval1;
263 		rp->r_r1 = rval2;
264 		lwp->lwp_state = LWP_USER;
265 	} else
266 		post_syscall(rval1, rval2);
267 	t->t_sysnum = 0;		/* invalidate args */
268 }
269 
270 /*
271  * Perform pre-system-call processing, including stopping for tracing,
272  * auditing, etc.
273  *
274  * This routine is called only if the t_pre_sys flag is set. Any condition
275  * requiring pre-syscall handling must set the t_pre_sys flag. If the
276  * condition is persistent, this routine will repost t_pre_sys.
277  */
278 int
279 pre_syscall()
280 {
281 	kthread_t *t = curthread;
282 	unsigned code = t->t_sysnum;
283 	klwp_t *lwp = ttolwp(t);
284 	proc_t *p = ttoproc(t);
285 	int	repost;
286 
287 	t->t_pre_sys = repost = 0;	/* clear pre-syscall processing flag */
288 
289 	ASSERT(t->t_schedflag & TS_DONT_SWAP);
290 
291 #if defined(DEBUG)
292 	/*
293 	 * On the i386 kernel, lwp_ap points at the piece of the thread
294 	 * stack that we copy the users arguments into.
295 	 *
296 	 * On the amd64 kernel, the syscall arguments in the rdi..r9
297 	 * registers should be pointed at by lwp_ap.  If the args need to
298 	 * be copied so that those registers can be changed without losing
299 	 * the ability to get the args for /proc, they can be saved by
300 	 * save_syscall_args(), and lwp_ap will be restored by post_syscall().
301 	 */
302 	if (lwp_getdatamodel(lwp) == DATAMODEL_NATIVE) {
303 #if defined(_LP64)
304 		ASSERT(lwp->lwp_ap == (long *)&lwptoregs(lwp)->r_rdi);
305 	} else {
306 #endif
307 		ASSERT((caddr_t)lwp->lwp_ap > t->t_stkbase &&
308 			(caddr_t)lwp->lwp_ap < t->t_stk);
309 	}
310 #endif	/* DEBUG */
311 
312 	/*
313 	 * Make sure the thread is holding the latest credentials for the
314 	 * process.  The credentials in the process right now apply to this
315 	 * thread for the entire system call.
316 	 */
317 	if (t->t_cred != p->p_cred) {
318 		cred_t *oldcred = t->t_cred;
319 		/*
320 		 * DTrace accesses t_cred in probe context.  t_cred must
321 		 * always be either NULL, or point to a valid, allocated cred
322 		 * structure.
323 		 */
324 		t->t_cred = crgetcred();
325 		crfree(oldcred);
326 	}
327 
328 	/*
329 	 * From the proc(4) manual page:
330 	 * When entry to a system call is being traced, the traced process
331 	 * stops after having begun the call to the system but before the
332 	 * system call arguments have been fetched from the process.
333 	 */
334 	if (PTOU(p)->u_systrap) {
335 		if (prismember(&PTOU(p)->u_entrymask, code)) {
336 			mutex_enter(&p->p_lock);
337 			/*
338 			 * Recheck stop condition, now that lock is held.
339 			 */
340 			if (PTOU(p)->u_systrap &&
341 			    prismember(&PTOU(p)->u_entrymask, code)) {
342 				stop(PR_SYSENTRY, code);
343 
344 				/*
345 				 * /proc may have modified syscall args,
346 				 * either in regs for amd64 or on ustack
347 				 * for ia32.  Either way, arrange to
348 				 * copy them again, both for the syscall
349 				 * handler and for other consumers in
350 				 * post_syscall (like audit).  Here, we
351 				 * only do amd64, and just set lwp_ap
352 				 * back to the kernel-entry stack copy;
353 				 * the syscall ml code redoes
354 				 * move-from-regs to set up for the
355 				 * syscall handler after we return.  For
356 				 * ia32, save_syscall_args() below makes
357 				 * an lwp_ap-accessible copy.
358 				 */
359 #if defined(_LP64)
360 				if (lwp_getdatamodel(lwp) == DATAMODEL_NATIVE) {
361 					lwp->lwp_argsaved = 0;
362 					lwp->lwp_ap =
363 					    (long *)&lwptoregs(lwp)->r_rdi;
364 				}
365 #endif
366 			}
367 			mutex_exit(&p->p_lock);
368 		}
369 		repost = 1;
370 	}
371 
372 	/*
373 	 * ia32 kernel, or ia32 proc on amd64 kernel: keep args in
374 	 * lwp_arg for post-syscall processing, regardless of whether
375 	 * they might have been changed in /proc above.
376 	 */
377 #if defined(_LP64)
378 	if (lwp_getdatamodel(lwp) != DATAMODEL_NATIVE)
379 #endif
380 		(void) save_syscall_args();
381 
382 	if (lwp->lwp_sysabort) {
383 		/*
384 		 * lwp_sysabort may have been set via /proc while the process
385 		 * was stopped on PR_SYSENTRY.  If so, abort the system call.
386 		 * Override any error from the copyin() of the arguments.
387 		 */
388 		lwp->lwp_sysabort = 0;
389 		(void) set_errno(EINTR);	/* forces post_sys */
390 		t->t_pre_sys = 1;	/* repost anyway */
391 		return (1);		/* don't do system call, return EINTR */
392 	}
393 
394 #ifdef C2_AUDIT
395 	if (audit_active) {	/* begin auditing for this syscall */
396 		int error;
397 		if (error = audit_start(T_SYSCALL, code, 0, lwp)) {
398 			t->t_pre_sys = 1;	/* repost anyway */
399 			(void) set_errno(error);
400 			return (1);
401 		}
402 		repost = 1;
403 	}
404 #endif /* C2_AUDIT */
405 
406 #ifndef NPROBE
407 	/* Kernel probe */
408 	if (tnf_tracing_active) {
409 		TNF_PROBE_1(syscall_start, "syscall thread", /* CSTYLED */,
410 			tnf_sysnum,	sysnum,		t->t_sysnum);
411 		t->t_post_sys = 1;	/* make sure post_syscall runs */
412 		repost = 1;
413 	}
414 #endif /* NPROBE */
415 
416 #ifdef SYSCALLTRACE
417 	if (syscalltrace) {
418 		int i;
419 		long *ap;
420 		char *cp;
421 		char *sysname;
422 		struct sysent *callp;
423 
424 		if (code >= NSYSCALL)
425 			callp = &nosys_ent;	/* nosys has no args */
426 		else
427 			callp = LWP_GETSYSENT(lwp) + code;
428 		(void) save_syscall_args();
429 		mutex_enter(&systrace_lock);
430 		printf("%d: ", p->p_pid);
431 		if (code >= NSYSCALL)
432 			printf("0x%x", code);
433 		else {
434 			sysname = mod_getsysname(code);
435 			printf("%s[0x%x/0x%p]", sysname == NULL ? "NULL" :
436 			    sysname, code, callp->sy_callc);
437 		}
438 		cp = "(";
439 		for (i = 0, ap = lwp->lwp_ap; i < callp->sy_narg; i++, ap++) {
440 			printf("%s%lx", cp, *ap);
441 			cp = ", ";
442 		}
443 		if (i)
444 			printf(")");
445 		printf(" %s id=0x%p\n", PTOU(p)->u_comm, curthread);
446 		mutex_exit(&systrace_lock);
447 	}
448 #endif /* SYSCALLTRACE */
449 
450 	/*
451 	 * If there was a continuing reason for pre-syscall processing,
452 	 * set the t_pre_sys flag for the next system call.
453 	 */
454 	if (repost)
455 		t->t_pre_sys = 1;
456 	lwp->lwp_error = 0;	/* for old drivers */
457 	lwp->lwp_badpriv = PRIV_NONE;
458 	return (0);
459 }
460 
461 
462 /*
463  * Post-syscall processing.  Perform abnormal system call completion
464  * actions such as /proc tracing, profiling, signals, preemption, etc.
465  *
466  * This routine is called only if t_post_sys, t_sig_check, or t_astflag is set.
467  * Any condition requiring pre-syscall handling must set one of these.
468  * If the condition is persistent, this routine will repost t_post_sys.
469  */
470 void
471 post_syscall(long rval1, long rval2)
472 {
473 	kthread_t *t = curthread;
474 	klwp_t *lwp = ttolwp(t);
475 	proc_t *p = ttoproc(t);
476 	struct regs *rp = lwptoregs(lwp);
477 	uint_t	error;
478 	uint_t	code = t->t_sysnum;
479 	int	repost = 0;
480 	int	proc_stop = 0;		/* non-zero if stopping */
481 	int	sigprof = 0;		/* non-zero if sending SIGPROF */
482 
483 	t->t_post_sys = 0;
484 
485 	error = lwp->lwp_errno;
486 
487 	/*
488 	 * Code can be zero if this is a new LWP returning after a forkall(),
489 	 * other than the one which matches the one in the parent which called
490 	 * forkall().  In these LWPs, skip most of post-syscall activity.
491 	 */
492 	if (code == 0)
493 		goto sig_check;
494 	/*
495 	 * If the trace flag is set, mark the lwp to take a single-step trap
496 	 * on return to user level (below). The x86 lcall interface and
497 	 * sysenter has already done this, and turned off the flag, but
498 	 * amd64 syscall interface has not.
499 	 */
500 	if (rp->r_ps & PS_T) {
501 		lwp->lwp_pcb.pcb_flags |= DEBUG_PENDING;
502 		rp->r_ps &= ~PS_T;
503 		aston(curthread);
504 	}
505 #ifdef C2_AUDIT
506 	if (audit_active) {	/* put out audit record for this syscall */
507 		rval_t	rval;
508 
509 		/* XX64 -- truncation of 64-bit return values? */
510 		rval.r_val1 = (int)rval1;
511 		rval.r_val2 = (int)rval2;
512 		audit_finish(T_SYSCALL, code, error, &rval);
513 		repost = 1;
514 	}
515 #endif /* C2_AUDIT */
516 
517 	if (curthread->t_pdmsg != NULL) {
518 		char *m = curthread->t_pdmsg;
519 
520 		uprintf("%s", m);
521 		kmem_free(m, strlen(m) + 1);
522 		curthread->t_pdmsg = NULL;
523 	}
524 
525 	/*
526 	 * If we're going to stop for /proc tracing, set the flag and
527 	 * save the arguments so that the return values don't smash them.
528 	 */
529 	if (PTOU(p)->u_systrap) {
530 		if (prismember(&PTOU(p)->u_exitmask, code)) {
531 			if (lwp_getdatamodel(lwp) == DATAMODEL_LP64)
532 				(void) save_syscall_args();
533 			proc_stop = 1;
534 		}
535 		repost = 1;
536 	}
537 
538 	/*
539 	 * Similarly check to see if SIGPROF might be sent.
540 	 */
541 	if (curthread->t_rprof != NULL &&
542 	    curthread->t_rprof->rp_anystate != 0) {
543 		if (lwp_getdatamodel(lwp) == DATAMODEL_LP64)
544 			(void) save_syscall_args();
545 		sigprof = 1;
546 	}
547 
548 	if (lwp->lwp_eosys == NORMALRETURN) {
549 		if (error == 0) {
550 #ifdef SYSCALLTRACE
551 			if (syscalltrace) {
552 				mutex_enter(&systrace_lock);
553 				printf(
554 				    "%d: r_val1=0x%lx, r_val2=0x%lx, id 0x%p\n",
555 				    p->p_pid, rval1, rval2, curthread);
556 				mutex_exit(&systrace_lock);
557 			}
558 #endif /* SYSCALLTRACE */
559 			rp->r_ps &= ~PS_C;
560 			rp->r_r0 = rval1;
561 			rp->r_r1 = rval2;
562 		} else {
563 			int sig;
564 #ifdef SYSCALLTRACE
565 			if (syscalltrace) {
566 				mutex_enter(&systrace_lock);
567 				printf("%d: error=%d, id 0x%p\n",
568 				    p->p_pid, error, curthread);
569 				mutex_exit(&systrace_lock);
570 			}
571 #endif /* SYSCALLTRACE */
572 			if (error == EINTR && t->t_activefd.a_stale)
573 				error = EBADF;
574 			if (error == EINTR &&
575 			    (sig = lwp->lwp_cursig) != 0 &&
576 			    sigismember(&PTOU(p)->u_sigrestart, sig) &&
577 			    PTOU(p)->u_signal[sig - 1] != SIG_DFL &&
578 			    PTOU(p)->u_signal[sig - 1] != SIG_IGN)
579 				error = ERESTART;
580 			rp->r_r0 = error;
581 			rp->r_ps |= PS_C;
582 		}
583 	}
584 
585 	/*
586 	 * From the proc(4) manual page:
587 	 * When exit from a system call is being traced, the traced process
588 	 * stops on completion of the system call just prior to checking for
589 	 * signals and returning to user level.  At this point all return
590 	 * values have been stored into the traced process's saved registers.
591 	 */
592 	if (proc_stop) {
593 		mutex_enter(&p->p_lock);
594 		if (PTOU(p)->u_systrap &&
595 		    prismember(&PTOU(p)->u_exitmask, code))
596 			stop(PR_SYSEXIT, code);
597 		mutex_exit(&p->p_lock);
598 	}
599 
600 	/*
601 	 * If we are the parent returning from a successful
602 	 * vfork, wait for the child to exec or exit.
603 	 * This code must be here and not in the bowels of the system
604 	 * so that /proc can intercept exit from vfork in a timely way.
605 	 */
606 	if (t->t_flag & T_VFPARENT) {
607 		ASSERT(code == SYS_vfork || code == SYS_forksys);
608 		ASSERT(rp->r_r1 == 0 && error == 0);
609 		vfwait((pid_t)rval1);
610 		t->t_flag &= ~T_VFPARENT;
611 	}
612 
613 	/*
614 	 * If profiling is active, bill the current PC in user-land
615 	 * and keep reposting until profiling is disabled.
616 	 */
617 	if (p->p_prof.pr_scale) {
618 		if (lwp->lwp_oweupc)
619 			profil_tick(rp->r_pc);
620 		repost = 1;
621 	}
622 
623 sig_check:
624 	/*
625 	 * Reset flag for next time.
626 	 * We must do this after stopping on PR_SYSEXIT
627 	 * because /proc uses the information in lwp_eosys.
628 	 */
629 	lwp->lwp_eosys = NORMALRETURN;
630 	clear_stale_fd();
631 	t->t_flag &= ~T_FORKALL;
632 
633 	if (t->t_astflag | t->t_sig_check) {
634 		/*
635 		 * Turn off the AST flag before checking all the conditions that
636 		 * may have caused an AST.  This flag is on whenever a signal or
637 		 * unusual condition should be handled after the next trap or
638 		 * syscall.
639 		 */
640 		astoff(t);
641 		/*
642 		 * If a single-step trap occurred on a syscall (see trap())
643 		 * recognize it now.  Do this before checking for signals
644 		 * because deferred_singlestep_trap() may generate a SIGTRAP to
645 		 * the LWP or may otherwise mark the LWP to call issig(FORREAL).
646 		 */
647 		if (lwp->lwp_pcb.pcb_flags & DEBUG_PENDING)
648 			deferred_singlestep_trap((caddr_t)rp->r_pc);
649 
650 		t->t_sig_check = 0;
651 
652 		/*
653 		 * The following check is legal for the following reasons:
654 		 *	1) The thread we are checking, is ourselves, so there is
655 		 *	   no way the proc can go away.
656 		 *	2) The only time we need to be protected by the
657 		 *	   lock is if the binding is changed.
658 		 *
659 		 *	Note we will still take the lock and check the binding
660 		 *	if the condition was true without the lock held.  This
661 		 *	prevents lock contention among threads owned by the
662 		 * 	same proc.
663 		 */
664 
665 		if (curthread->t_proc_flag & TP_CHANGEBIND) {
666 			mutex_enter(&p->p_lock);
667 			if (curthread->t_proc_flag & TP_CHANGEBIND) {
668 				timer_lwpbind();
669 				curthread->t_proc_flag &= ~TP_CHANGEBIND;
670 			}
671 			mutex_exit(&p->p_lock);
672 		}
673 
674 		/*
675 		 * for kaio requests on the special kaio poll queue,
676 		 * copyout their results to user memory.
677 		 */
678 		if (p->p_aio)
679 			aio_cleanup(0);
680 		/*
681 		 * If this LWP was asked to hold, call holdlwp(), which will
682 		 * stop.  holdlwps() sets this up and calls pokelwps() which
683 		 * sets the AST flag.
684 		 *
685 		 * Also check TP_EXITLWP, since this is used by fresh new LWPs
686 		 * through lwp_rtt().  That flag is set if the lwp_create(2)
687 		 * syscall failed after creating the LWP.
688 		 */
689 		if (ISHOLD(p) || (t->t_proc_flag & TP_EXITLWP))
690 			holdlwp();
691 
692 		/*
693 		 * All code that sets signals and makes ISSIG_PENDING
694 		 * evaluate true must set t_sig_check afterwards.
695 		 */
696 		if (ISSIG_PENDING(t, lwp, p)) {
697 			if (issig(FORREAL))
698 				psig();
699 			t->t_sig_check = 1;	/* recheck next time */
700 		}
701 
702 		if (sigprof) {
703 			realsigprof(code, error);
704 			t->t_sig_check = 1;	/* recheck next time */
705 		}
706 
707 		/*
708 		 * If a performance counter overflow interrupt was
709 		 * delivered *during* the syscall, then re-enable the
710 		 * AST so that we take a trip through trap() to cause
711 		 * the SIGEMT to be delivered.
712 		 */
713 		if (lwp->lwp_pcb.pcb_flags & CPC_OVERFLOW)
714 			aston(t);
715 
716 		/*
717 		 * /proc can't enable/disable the trace bit itself
718 		 * because that could race with the call gate used by
719 		 * system calls via "lcall". If that happened, an
720 		 * invalid EFLAGS would result. prstep()/prnostep()
721 		 * therefore schedule an AST for the purpose.
722 		 */
723 		if (lwp->lwp_pcb.pcb_flags & REQUEST_STEP) {
724 			lwp->lwp_pcb.pcb_flags &= ~REQUEST_STEP;
725 			rp->r_ps |= PS_T;
726 		}
727 		if (lwp->lwp_pcb.pcb_flags & REQUEST_NOSTEP) {
728 			lwp->lwp_pcb.pcb_flags &= ~REQUEST_NOSTEP;
729 			rp->r_ps &= ~PS_T;
730 		}
731 	}
732 
733 	lwp->lwp_errno = 0;		/* clear error for next time */
734 
735 #ifndef NPROBE
736 	/* Kernel probe */
737 	if (tnf_tracing_active) {
738 		TNF_PROBE_3(syscall_end, "syscall thread", /* CSTYLED */,
739 			tnf_long,	rval1,		rval1,
740 			tnf_long,	rval2,		rval2,
741 			tnf_long,	errno,		(long)error);
742 		repost = 1;
743 	}
744 #endif /* NPROBE */
745 
746 	/*
747 	 * Set state to LWP_USER here so preempt won't give us a kernel
748 	 * priority if it occurs after this point.  Call CL_TRAPRET() to
749 	 * restore the user-level priority.
750 	 *
751 	 * It is important that no locks (other than spinlocks) be entered
752 	 * after this point before returning to user mode (unless lwp_state
753 	 * is set back to LWP_SYS).
754 	 *
755 	 * XXX Sampled times past this point are charged to the user.
756 	 */
757 	lwp->lwp_state = LWP_USER;
758 
759 	if (t->t_trapret) {
760 		t->t_trapret = 0;
761 		thread_lock(t);
762 		CL_TRAPRET(t);
763 		thread_unlock(t);
764 	}
765 	if (CPU->cpu_runrun || t->t_schedflag & TS_ANYWAITQ)
766 		preempt();
767 
768 	lwp->lwp_errno = 0;		/* clear error for next time */
769 
770 	/*
771 	 * The thread lock must be held in order to clear sysnum and reset
772 	 * lwp_ap atomically with respect to other threads in the system that
773 	 * may be looking at the args via lwp_ap from get_syscall_args().
774 	 */
775 
776 	thread_lock(t);
777 	t->t_sysnum = 0;		/* no longer in a system call */
778 
779 	if (lwp_getdatamodel(lwp) == DATAMODEL_NATIVE) {
780 #if defined(_LP64)
781 		/*
782 		 * In case the args were copied to the lwp, reset the
783 		 * pointer so the next syscall will have the right
784 		 * lwp_ap pointer.
785 		 */
786 		lwp->lwp_ap = (long *)&rp->r_rdi;
787 	} else {
788 #endif
789 		lwp->lwp_ap = NULL;	/* reset on every syscall entry */
790 	}
791 	thread_unlock(t);
792 
793 	lwp->lwp_argsaved = 0;
794 
795 	/*
796 	 * If there was a continuing reason for post-syscall processing,
797 	 * set the t_post_sys flag for the next system call.
798 	 */
799 	if (repost)
800 		t->t_post_sys = 1;
801 
802 	/*
803 	 * If there is a ustack registered for this lwp, and the stack rlimit
804 	 * has been altered, read in the ustack. If the saved stack rlimit
805 	 * matches the bounds of the ustack, update the ustack to reflect
806 	 * the new rlimit. If the new stack rlimit is RLIM_INFINITY, disable
807 	 * stack checking by setting the size to 0.
808 	 */
809 	if (lwp->lwp_ustack != 0 && lwp->lwp_old_stk_ctl != 0) {
810 		rlim64_t new_size;
811 		caddr_t top;
812 		stack_t stk;
813 		struct rlimit64 rl;
814 
815 		mutex_enter(&p->p_lock);
816 		new_size = p->p_stk_ctl;
817 		top = p->p_usrstack;
818 		(void) rctl_rlimit_get(rctlproc_legacy[RLIMIT_STACK], p, &rl);
819 		mutex_exit(&p->p_lock);
820 
821 		if (rl.rlim_cur == RLIM64_INFINITY)
822 			new_size = 0;
823 
824 		if (copyin((stack_t *)lwp->lwp_ustack, &stk,
825 		    sizeof (stack_t)) == 0 &&
826 		    (stk.ss_size == lwp->lwp_old_stk_ctl ||
827 			stk.ss_size == 0) &&
828 		    stk.ss_sp == top - stk.ss_size) {
829 			stk.ss_sp = (void *)((uintptr_t)stk.ss_sp +
830 			    stk.ss_size - (uintptr_t)new_size);
831 			stk.ss_size = new_size;
832 
833 			(void) copyout(&stk, (stack_t *)lwp->lwp_ustack,
834 			    sizeof (stack_t));
835 		}
836 
837 		lwp->lwp_old_stk_ctl = 0;
838 	}
839 }
840 
841 /*
842  * Called from post_syscall() when a deferred singlestep is to be taken.
843  */
844 void
845 deferred_singlestep_trap(caddr_t pc)
846 {
847 	proc_t *p = ttoproc(curthread);
848 	klwp_t *lwp = ttolwp(curthread);
849 	pcb_t *pcb = &lwp->lwp_pcb;
850 	uint_t fault = 0;
851 	k_siginfo_t siginfo;
852 
853 	bzero(&siginfo, sizeof (siginfo));
854 
855 	/*
856 	 * If both NORMAL_STEP and WATCH_STEP are in
857 	 * effect, give precedence to WATCH_STEP.
858 	 * If neither is set, user must have set the
859 	 * PS_T bit in %efl; treat this as NORMAL_STEP.
860 	 */
861 	if ((fault = undo_watch_step(&siginfo)) == 0 &&
862 	    ((pcb->pcb_flags & NORMAL_STEP) ||
863 	    !(pcb->pcb_flags & WATCH_STEP))) {
864 		siginfo.si_signo = SIGTRAP;
865 		siginfo.si_code = TRAP_TRACE;
866 		siginfo.si_addr  = pc;
867 		fault = FLTTRACE;
868 	}
869 	pcb->pcb_flags &= ~(DEBUG_PENDING|NORMAL_STEP|WATCH_STEP);
870 
871 	if (fault) {
872 		/*
873 		 * Remember the fault and fault adddress
874 		 * for real-time (SIGPROF) profiling.
875 		 */
876 		lwp->lwp_lastfault = fault;
877 		lwp->lwp_lastfaddr = siginfo.si_addr;
878 		/*
879 		 * If a debugger has declared this fault to be an
880 		 * event of interest, stop the lwp.  Otherwise just
881 		 * deliver the associated signal.
882 		 */
883 		if (prismember(&p->p_fltmask, fault) &&
884 		    stop_on_fault(fault, &siginfo) == 0)
885 			siginfo.si_signo = 0;
886 	}
887 
888 	if (siginfo.si_signo)
889 		trapsig(&siginfo, 1);
890 }
891 
892 /*
893  * nonexistent system call-- signal lwp (may want to handle it)
894  * flag error if lwp won't see signal immediately
895  */
896 int64_t
897 nosys()
898 {
899 	tsignal(curthread, SIGSYS);
900 	return (set_errno(ENOSYS));
901 }
902 
903 /*
904  * Execute a 32-bit system call on behalf of the current thread.
905  */
906 void
907 dosyscall(void)
908 {
909 	/*
910 	 * Need space on the stack to store syscall arguments.
911 	 */
912 	long		syscall_args[MAXSYSARGS];
913 	struct sysent	*se;
914 	int64_t		ret;
915 
916 	syscall_mstate(LMS_TRAP, LMS_SYSTEM);
917 
918 	ASSERT(curproc->p_model == DATAMODEL_ILP32);
919 
920 	CPU_STATS_ENTER_K();
921 	CPU_STATS_ADDQ(CPU, sys, syscall, 1);
922 	CPU_STATS_EXIT_K();
923 
924 	se = syscall_entry(curthread, syscall_args);
925 
926 	/*
927 	 * syscall_entry() copied all 8 arguments into syscall_args.
928 	 */
929 	ret = se->sy_callc(syscall_args[0], syscall_args[1], syscall_args[2],
930 	    syscall_args[3], syscall_args[4], syscall_args[5], syscall_args[6],
931 	    syscall_args[7]);
932 
933 	syscall_exit(curthread, (int)ret & 0xffffffffu, (int)(ret >> 32));
934 	syscall_mstate(LMS_SYSTEM, LMS_TRAP);
935 }
936 
937 /*
938  * Get the arguments to the current system call. See comment atop
939  * save_syscall_args() regarding lwp_ap usage.
940  */
941 
942 uint_t
943 get_syscall_args(klwp_t *lwp, long *argp, int *nargsp)
944 {
945 	kthread_t	*t = lwptot(lwp);
946 	ulong_t	mask = 0xfffffffful;
947 	uint_t	code;
948 	long	*ap;
949 	int	nargs;
950 
951 #if defined(_LP64)
952 	if (lwp_getdatamodel(lwp) == DATAMODEL_LP64)
953 		mask = 0xfffffffffffffffful;
954 #endif
955 
956 	/*
957 	 * The thread lock must be held while looking at the arguments to ensure
958 	 * they don't go away via post_syscall().
959 	 * get_syscall_args() is the only routine to read them which is callable
960 	 * outside the LWP in question and hence the only one that must be
961 	 * synchronized in this manner.
962 	 */
963 	thread_lock(t);
964 
965 	code = t->t_sysnum;
966 	ap = lwp->lwp_ap;
967 
968 	thread_unlock(t);
969 
970 	if (code != 0 && code < NSYSCALL) {
971 		nargs = LWP_GETSYSENT(lwp)[code].sy_narg;
972 
973 		ASSERT(nargs <= MAXSYSARGS);
974 
975 		*nargsp = nargs;
976 		while (nargs-- > 0)
977 			*argp++ = *ap++ & mask;
978 	} else {
979 		*nargsp = 0;
980 	}
981 
982 	return (code);
983 }
984 
985 #ifdef _SYSCALL32_IMPL
986 /*
987  * Get the arguments to the current 32-bit system call.
988  */
989 uint_t
990 get_syscall32_args(klwp_t *lwp, int *argp, int *nargsp)
991 {
992 	long args[MAXSYSARGS];
993 	uint_t i, code;
994 
995 	code = get_syscall_args(lwp, args, nargsp);
996 
997 	for (i = 0; i != *nargsp; i++)
998 		*argp++ = (int)args[i];
999 	return (code);
1000 }
1001 #endif
1002 
1003 /*
1004  * Save the system call arguments in a safe place.
1005  *
1006  * On the i386 kernel:
1007  *
1008  *	Copy the users args prior to changing the stack or stack pointer.
1009  *	This is so /proc will be able to get a valid copy of the
1010  *	args from the user stack even after the user stack has been changed.
1011  *	Note that the kernel stack copy of the args may also have been
1012  *	changed by a system call handler which takes C-style arguments.
1013  *
1014  *	Note that this may be called by stop() from trap().  In that case
1015  *	t_sysnum will be zero (syscall_exit clears it), so no args will be
1016  *	copied.
1017  *
1018  * On the amd64 kernel:
1019  *
1020  *	For 64-bit applications, lwp->lwp_ap normally points to %rdi..%r9
1021  *	in the reg structure. If the user is going to change the argument
1022  *	registers, rax, or the stack and might want to get the args (for
1023  *	/proc tracing), it must copy the args elsewhere via save_syscall_args().
1024  *
1025  *	For 32-bit applications, lwp->lwp_ap normally points to a copy of
1026  *	the system call arguments on the kernel stack made from the user
1027  *	stack.  Copy the args prior to change the stack or stack pointer.
1028  *	This is so /proc will be able to get a valid copy of the args
1029  *	from the user stack even after that stack has been changed.
1030  *
1031  *	This may be called from stop() even when we're not in a system call.
1032  *	Since there's no easy way to tell, this must be safe (not panic).
1033  *	If the copyins get data faults, return non-zero.
1034  */
1035 int
1036 save_syscall_args()
1037 {
1038 	kthread_t	*t = curthread;
1039 	klwp_t		*lwp = ttolwp(t);
1040 	uint_t		code = t->t_sysnum;
1041 	uint_t		nargs;
1042 
1043 	if (lwp->lwp_argsaved || code == 0)
1044 		return (0);		/* args already saved or not needed */
1045 
1046 	if (code >= NSYSCALL) {
1047 		nargs = 0;		/* illegal syscall */
1048 	} else {
1049 		struct sysent *se = LWP_GETSYSENT(lwp);
1050 		struct sysent *callp = se + code;
1051 
1052 		nargs = callp->sy_narg;
1053 		if (LOADABLE_SYSCALL(callp) && nargs == 0) {
1054 			krwlock_t	*module_lock;
1055 
1056 			/*
1057 			 * Find out how many arguments the system
1058 			 * call uses.
1059 			 *
1060 			 * We have the property that loaded syscalls
1061 			 * never change the number of arguments they
1062 			 * use after they've been loaded once.  This
1063 			 * allows us to stop for /proc tracing without
1064 			 * holding the module lock.
1065 			 * /proc is assured that sy_narg is valid.
1066 			 */
1067 			module_lock = lock_syscall(se, code);
1068 			nargs = callp->sy_narg;
1069 			rw_exit(module_lock);
1070 		}
1071 	}
1072 
1073 	/*
1074 	 * Fetch the system call arguments.
1075 	 */
1076 	if (nargs == 0)
1077 		goto out;
1078 
1079 	ASSERT(nargs <= MAXSYSARGS);
1080 
1081 	if (lwp_getdatamodel(lwp) == DATAMODEL_NATIVE) {
1082 #if defined(_LP64)
1083 		struct regs *rp = lwptoregs(lwp);
1084 
1085 		lwp->lwp_arg[0] = rp->r_rdi;
1086 		lwp->lwp_arg[1] = rp->r_rsi;
1087 		lwp->lwp_arg[2] = rp->r_rdx;
1088 		lwp->lwp_arg[3] = rp->r_rcx;
1089 		lwp->lwp_arg[4] = rp->r_r8;
1090 		lwp->lwp_arg[5] = rp->r_r9;
1091 		if (nargs > 6 && copyin_args(rp, &lwp->lwp_arg[6], nargs - 6))
1092 			return (-1);
1093 	} else {
1094 #endif
1095 		if (COPYIN_ARGS32(lwptoregs(lwp), lwp->lwp_arg, nargs))
1096 			return (-1);
1097 	}
1098 out:
1099 	lwp->lwp_ap = lwp->lwp_arg;
1100 	lwp->lwp_argsaved = 1;
1101 	t->t_post_sys = 1;	/* so lwp_ap will be reset */
1102 	return (0);
1103 }
1104 
1105 void
1106 reset_syscall_args(void)
1107 {
1108 	ttolwp(curthread)->lwp_argsaved = 0;
1109 }
1110 
1111 /*
1112  * Call a system call which takes a pointer to the user args struct and
1113  * a pointer to the return values.  This is a bit slower than the standard
1114  * C arg-passing method in some cases.
1115  */
1116 int64_t
1117 syscall_ap(void)
1118 {
1119 	uint_t	error;
1120 	struct sysent *callp;
1121 	rval_t	rval;
1122 	kthread_t *t = curthread;
1123 	klwp_t	*lwp = ttolwp(t);
1124 	struct regs *rp = lwptoregs(lwp);
1125 
1126 	callp = LWP_GETSYSENT(lwp) + t->t_sysnum;
1127 
1128 #if defined(__amd64)
1129 	/*
1130 	 * If the arguments don't fit in registers %rdi-%r9, make sure they
1131 	 * have been copied to the lwp_arg array.
1132 	 */
1133 	if (callp->sy_narg > 6 && save_syscall_args())
1134 		return ((int64_t)set_errno(EFAULT));
1135 #endif
1136 
1137 	rval.r_val1 = 0;
1138 	rval.r_val2 = rp->r_r1;
1139 	lwp->lwp_error = 0;	/* for old drivers */
1140 	error = (*(callp->sy_call))(lwp->lwp_ap, &rval);
1141 	if (error)
1142 		return ((longlong_t)set_errno(error));
1143 	return (rval.r_vals);
1144 }
1145 
1146 /*
1147  * Load system call module.
1148  *	Returns with pointer to held read lock for module.
1149  */
1150 static krwlock_t *
1151 lock_syscall(struct sysent *table, uint_t code)
1152 {
1153 	krwlock_t	*module_lock;
1154 	struct modctl	*modp;
1155 	int		id;
1156 	struct sysent   *callp;
1157 
1158 	callp = table + code;
1159 	module_lock = callp->sy_lock;
1160 
1161 	/*
1162 	 * Optimization to only call modload if we don't have a loaded
1163 	 * syscall.
1164 	 */
1165 	rw_enter(module_lock, RW_READER);
1166 	if (LOADED_SYSCALL(callp))
1167 		return (module_lock);
1168 	rw_exit(module_lock);
1169 
1170 	for (;;) {
1171 		if ((id = modload("sys", syscallnames[code])) == -1)
1172 			break;
1173 
1174 		/*
1175 		 * If we loaded successfully at least once, the modctl
1176 		 * will still be valid, so we try to grab it by filename.
1177 		 * If this call fails, it's because the mod_filename
1178 		 * was changed after the call to modload() (mod_hold_by_name()
1179 		 * is the likely culprit).  We can safely just take
1180 		 * another lap if this is the case;  the modload() will
1181 		 * change the mod_filename back to one by which we can
1182 		 * find the modctl.
1183 		 */
1184 		modp = mod_find_by_filename("sys", syscallnames[code]);
1185 
1186 		if (modp == NULL)
1187 			continue;
1188 
1189 		mutex_enter(&mod_lock);
1190 
1191 		if (!modp->mod_installed) {
1192 			mutex_exit(&mod_lock);
1193 			continue;
1194 		}
1195 		break;
1196 	}
1197 	rw_enter(module_lock, RW_READER);
1198 
1199 	if (id != -1)
1200 		mutex_exit(&mod_lock);
1201 
1202 	return (module_lock);
1203 }
1204 
1205 /*
1206  * Loadable syscall support.
1207  *	If needed, load the module, then reserve it by holding a read
1208  *	lock for the duration of the call.
1209  *	Later, if the syscall is not unloadable, it could patch the vector.
1210  */
1211 /*ARGSUSED*/
1212 int64_t
1213 loadable_syscall(
1214     long a0, long a1, long a2, long a3,
1215     long a4, long a5, long a6, long a7)
1216 {
1217 	klwp_t *lwp = ttolwp(curthread);
1218 	int64_t	rval;
1219 	struct sysent *callp;
1220 	struct sysent *se = LWP_GETSYSENT(lwp);
1221 	krwlock_t *module_lock;
1222 	int code, error = 0;
1223 	int64_t (*sy_call)();
1224 
1225 	code = curthread->t_sysnum;
1226 	callp = se + code;
1227 
1228 	/*
1229 	 * Try to autoload the system call if necessary
1230 	 */
1231 	module_lock = lock_syscall(se, code);
1232 	THREAD_KPRI_RELEASE();	/* drop priority given by rw_enter */
1233 
1234 	/*
1235 	 * we've locked either the loaded syscall or nosys
1236 	 */
1237 
1238 	if (lwp_getdatamodel(lwp) == DATAMODEL_NATIVE) {
1239 #if defined(_LP64)
1240 		if (callp->sy_flags & SE_ARGC) {
1241 			sy_call = (int64_t (*)())callp->sy_call;
1242 			rval = (*sy_call)(a0, a1, a2, a3, a4, a5);
1243 		} else
1244 			rval = syscall_ap();
1245 	} else {
1246 #endif
1247 		/*
1248 		 * Now that it's loaded, make sure enough args were copied.
1249 		 */
1250 		if (COPYIN_ARGS32(lwptoregs(lwp), lwp->lwp_ap, callp->sy_narg))
1251 			error = EFAULT;
1252 		if (error) {
1253 			rval = set_errno(error);
1254 		} else if (callp->sy_flags & SE_ARGC) {
1255 			sy_call = (int64_t (*)())callp->sy_call;
1256 			rval = (*sy_call)(lwp->lwp_ap[0], lwp->lwp_ap[1],
1257 			    lwp->lwp_ap[2], lwp->lwp_ap[3], lwp->lwp_ap[4],
1258 			    lwp->lwp_ap[5]);
1259 		} else
1260 			rval = syscall_ap();
1261 	}
1262 
1263 	THREAD_KPRI_REQUEST();	/* regain priority from read lock */
1264 	rw_exit(module_lock);
1265 	return (rval);
1266 }
1267 
1268 /*
1269  * Indirect syscall handled in libc on x86 architectures
1270  */
1271 int64_t
1272 indir()
1273 {
1274 	return (nosys());
1275 }
1276 
1277 /*
1278  * set_errno - set an error return from the current system call.
1279  *	This could be a macro.
1280  *	This returns the value it is passed, so that the caller can
1281  *	use tail-recursion-elimination and do return (set_errno(ERRNO));
1282  */
1283 uint_t
1284 set_errno(uint_t error)
1285 {
1286 	ASSERT(error != 0);		/* must not be used to clear errno */
1287 
1288 	curthread->t_post_sys = 1;	/* have post_syscall do error return */
1289 	return (ttolwp(curthread)->lwp_errno = error);
1290 }
1291 
1292 /*
1293  * set_proc_pre_sys - Set pre-syscall processing for entire process.
1294  */
1295 void
1296 set_proc_pre_sys(proc_t *p)
1297 {
1298 	kthread_t	*t;
1299 	kthread_t	*first;
1300 
1301 	ASSERT(MUTEX_HELD(&p->p_lock));
1302 
1303 	t = first = p->p_tlist;
1304 	do {
1305 		t->t_pre_sys = 1;
1306 	} while ((t = t->t_forw) != first);
1307 }
1308 
1309 /*
1310  * set_proc_post_sys - Set post-syscall processing for entire process.
1311  */
1312 void
1313 set_proc_post_sys(proc_t *p)
1314 {
1315 	kthread_t	*t;
1316 	kthread_t	*first;
1317 
1318 	ASSERT(MUTEX_HELD(&p->p_lock));
1319 
1320 	t = first = p->p_tlist;
1321 	do {
1322 		t->t_post_sys = 1;
1323 	} while ((t = t->t_forw) != first);
1324 }
1325 
1326 /*
1327  * set_proc_sys - Set pre- and post-syscall processing for entire process.
1328  */
1329 void
1330 set_proc_sys(proc_t *p)
1331 {
1332 	kthread_t	*t;
1333 	kthread_t	*first;
1334 
1335 	ASSERT(MUTEX_HELD(&p->p_lock));
1336 
1337 	t = first = p->p_tlist;
1338 	do {
1339 		t->t_pre_sys = 1;
1340 		t->t_post_sys = 1;
1341 	} while ((t = t->t_forw) != first);
1342 }
1343 
1344 /*
1345  * set_all_proc_sys - set pre- and post-syscall processing flags for all
1346  * user processes.
1347  *
1348  * This is needed when auditing, tracing, or other facilities which affect
1349  * all processes are turned on.
1350  */
1351 void
1352 set_all_proc_sys()
1353 {
1354 	kthread_t	*t;
1355 	kthread_t	*first;
1356 
1357 	mutex_enter(&pidlock);
1358 	t = first = curthread;
1359 	do {
1360 		t->t_pre_sys = 1;
1361 		t->t_post_sys = 1;
1362 	} while ((t = t->t_next) != first);
1363 	mutex_exit(&pidlock);
1364 }
1365 
1366 /*
1367  * set_proc_ast - Set asynchronous service trap (AST) flag for all
1368  * threads in process.
1369  */
1370 void
1371 set_proc_ast(proc_t *p)
1372 {
1373 	kthread_t	*t;
1374 	kthread_t	*first;
1375 
1376 	ASSERT(MUTEX_HELD(&p->p_lock));
1377 
1378 	t = first = p->p_tlist;
1379 	do {
1380 		aston(t);
1381 	} while ((t = t->t_forw) != first);
1382 }
1383