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 (c) 1991, 2010, Oracle and/or its affiliates. All rights reserved. 24 * Copyright 2019 Joyent, Inc. 25 */ 26 27 #include <sys/param.h> 28 #include <sys/vmparam.h> 29 #include <sys/types.h> 30 #include <sys/sysmacros.h> 31 #include <sys/systm.h> 32 #include <sys/cmn_err.h> 33 #include <sys/signal.h> 34 #include <sys/stack.h> 35 #include <sys/cred.h> 36 #include <sys/user.h> 37 #include <sys/debug.h> 38 #include <sys/errno.h> 39 #include <sys/proc.h> 40 #include <sys/var.h> 41 #include <sys/inline.h> 42 #include <sys/syscall.h> 43 #include <sys/ucontext.h> 44 #include <sys/cpuvar.h> 45 #include <sys/siginfo.h> 46 #include <sys/trap.h> 47 #include <sys/machtrap.h> 48 #include <sys/sysinfo.h> 49 #include <sys/procfs.h> 50 #include <sys/prsystm.h> 51 #include <sys/fpu/fpusystm.h> 52 #include <sys/modctl.h> 53 #include <sys/aio_impl.h> 54 #include <c2/audit.h> 55 #include <sys/tnf.h> 56 #include <sys/tnf_probe.h> 57 #include <sys/machpcb.h> 58 #include <sys/privregs.h> 59 #include <sys/copyops.h> 60 #include <sys/timer.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 #endif /* SYSCALLTRACE */ 68 69 static krwlock_t *lock_syscall(struct sysent *, uint_t); 70 71 #ifdef _SYSCALL32_IMPL 72 static struct sysent * 73 lwp_getsysent(klwp_t *lwp) 74 { 75 if (lwp_getdatamodel(lwp) == DATAMODEL_NATIVE) 76 return (sysent); 77 return (sysent32); 78 } 79 #define LWP_GETSYSENT(lwp) (lwp_getsysent(lwp)) 80 #else 81 #define LWP_GETSYSENT(lwp) (sysent) 82 #endif 83 84 /* 85 * Called to restore the lwp's register window just before 86 * returning to user level (only if the registers have been 87 * fetched or modified through /proc). 88 */ 89 /*ARGSUSED1*/ 90 void 91 xregrestore(klwp_t *lwp, int shared) 92 { 93 /* 94 * If locals+ins were modified by /proc copy them out. 95 * Also copy to the shared window, if necessary. 96 */ 97 if (lwp->lwp_pcb.pcb_xregstat == XREGMODIFIED) { 98 struct machpcb *mpcb = lwptompcb(lwp); 99 caddr_t sp = (caddr_t)lwptoregs(lwp)->r_sp; 100 101 size_t rwinsize; 102 caddr_t rwp; 103 int is64; 104 105 if (lwp_getdatamodel(lwp) == DATAMODEL_LP64) { 106 rwinsize = sizeof (struct rwindow); 107 rwp = sp + STACK_BIAS; 108 is64 = 1; 109 } else { 110 rwinsize = sizeof (struct rwindow32); 111 sp = (caddr_t)(uintptr_t)(caddr32_t)(uintptr_t)sp; 112 rwp = sp; 113 is64 = 0; 114 } 115 116 if (is64) 117 (void) copyout_nowatch(&lwp->lwp_pcb.pcb_xregs, 118 rwp, rwinsize); 119 else { 120 struct rwindow32 rwindow32; 121 int watched; 122 123 watched = watch_disable_addr(rwp, rwinsize, S_WRITE); 124 rwindow_nto32(&lwp->lwp_pcb.pcb_xregs, &rwindow32); 125 (void) copyout(&rwindow32, rwp, rwinsize); 126 if (watched) 127 watch_enable_addr(rwp, rwinsize, S_WRITE); 128 } 129 130 /* also copy to the user return window */ 131 mpcb->mpcb_rsp[0] = sp; 132 mpcb->mpcb_rsp[1] = NULL; 133 bcopy(&lwp->lwp_pcb.pcb_xregs, &mpcb->mpcb_rwin[0], 134 sizeof (lwp->lwp_pcb.pcb_xregs)); 135 } 136 lwp->lwp_pcb.pcb_xregstat = XREGNONE; 137 } 138 139 140 /* 141 * Get the arguments to the current system call. 142 * lwp->lwp_ap normally points to the out regs in the reg structure. 143 * If the user is going to change the out registers and might want to 144 * get the args (for /proc tracing), it must copy the args elsewhere 145 * via save_syscall_args(). 146 */ 147 uint_t 148 get_syscall_args(klwp_t *lwp, long *argp, int *nargsp) 149 { 150 kthread_t *t = lwptot(lwp); 151 uint_t code = t->t_sysnum; 152 long mask; 153 long *ap; 154 int nargs; 155 156 if (lwptoproc(lwp)->p_model == DATAMODEL_ILP32) 157 mask = (uint32_t)0xffffffffU; 158 else 159 mask = 0xffffffffffffffff; 160 161 if (code != 0 && code < NSYSCALL) { 162 163 nargs = LWP_GETSYSENT(lwp)[code].sy_narg; 164 165 ASSERT(nargs <= MAXSYSARGS); 166 167 *nargsp = nargs; 168 ap = lwp->lwp_ap; 169 while (nargs-- > 0) 170 *argp++ = *ap++ & mask; 171 } else { 172 *nargsp = 0; 173 } 174 return (code); 175 } 176 177 #ifdef _SYSCALL32_IMPL 178 /* 179 * Get the arguments to the current 32-bit system call. 180 */ 181 uint_t 182 get_syscall32_args(klwp_t *lwp, int *argp, int *nargsp) 183 { 184 long args[MAXSYSARGS]; 185 uint_t i, code; 186 187 code = get_syscall_args(lwp, args, nargsp); 188 for (i = 0; i != *nargsp; i++) 189 *argp++ = (int)args[i]; 190 return (code); 191 } 192 #endif 193 194 /* 195 * Save the system call arguments in a safe place. 196 * lwp->lwp_ap normally points to the out regs in the reg structure. 197 * If the user is going to change the out registers, g1, or the stack, 198 * and might want to get the args (for /proc tracing), it must copy 199 * the args elsewhere via save_syscall_args(). 200 * 201 * This may be called from stop() even when we're not in a system call. 202 * Since there's no easy way to tell, this must be safe (not panic). 203 * If the copyins get data faults, return non-zero. 204 */ 205 int 206 save_syscall_args() 207 { 208 kthread_t *t = curthread; 209 klwp_t *lwp = ttolwp(t); 210 struct regs *rp = lwptoregs(lwp); 211 uint_t code = t->t_sysnum; 212 uint_t nargs; 213 int i; 214 caddr_t ua; 215 model_t datamodel; 216 217 if (lwp->lwp_argsaved || code == 0) 218 return (0); /* args already saved or not needed */ 219 220 if (code >= NSYSCALL) { 221 nargs = 0; /* illegal syscall */ 222 } else { 223 struct sysent *se = LWP_GETSYSENT(lwp); 224 struct sysent *callp = se + code; 225 226 nargs = callp->sy_narg; 227 if (LOADABLE_SYSCALL(callp) && nargs == 0) { 228 krwlock_t *module_lock; 229 230 /* 231 * Find out how many arguments the system 232 * call uses. 233 * 234 * We have the property that loaded syscalls 235 * never change the number of arguments they 236 * use after they've been loaded once. This 237 * allows us to stop for /proc tracing without 238 * holding the module lock. 239 * /proc is assured that sy_narg is valid. 240 */ 241 module_lock = lock_syscall(se, code); 242 nargs = callp->sy_narg; 243 rw_exit(module_lock); 244 } 245 } 246 247 /* 248 * Fetch the system call arguments. 249 */ 250 if (nargs == 0) 251 goto out; 252 253 254 ASSERT(nargs <= MAXSYSARGS); 255 256 if ((datamodel = lwp_getdatamodel(lwp)) == DATAMODEL_ILP32) { 257 258 if (rp->r_g1 == 0) { /* indirect syscall */ 259 260 lwp->lwp_arg[0] = (uint32_t)rp->r_o1; 261 lwp->lwp_arg[1] = (uint32_t)rp->r_o2; 262 lwp->lwp_arg[2] = (uint32_t)rp->r_o3; 263 lwp->lwp_arg[3] = (uint32_t)rp->r_o4; 264 lwp->lwp_arg[4] = (uint32_t)rp->r_o5; 265 if (nargs > 5) { 266 ua = (caddr_t)(uintptr_t)(caddr32_t)(uintptr_t) 267 (rp->r_sp + MINFRAME32); 268 for (i = 5; i < nargs; i++) { 269 uint32_t a; 270 if (fuword32(ua, &a) != 0) 271 return (-1); 272 lwp->lwp_arg[i] = a; 273 ua += sizeof (a); 274 } 275 } 276 } else { 277 lwp->lwp_arg[0] = (uint32_t)rp->r_o0; 278 lwp->lwp_arg[1] = (uint32_t)rp->r_o1; 279 lwp->lwp_arg[2] = (uint32_t)rp->r_o2; 280 lwp->lwp_arg[3] = (uint32_t)rp->r_o3; 281 lwp->lwp_arg[4] = (uint32_t)rp->r_o4; 282 lwp->lwp_arg[5] = (uint32_t)rp->r_o5; 283 if (nargs > 6) { 284 ua = (caddr_t)(uintptr_t)(caddr32_t)(uintptr_t) 285 (rp->r_sp + MINFRAME32); 286 for (i = 6; i < nargs; i++) { 287 uint32_t a; 288 if (fuword32(ua, &a) != 0) 289 return (-1); 290 lwp->lwp_arg[i] = a; 291 ua += sizeof (a); 292 } 293 } 294 } 295 } else { 296 ASSERT(datamodel == DATAMODEL_LP64); 297 lwp->lwp_arg[0] = rp->r_o0; 298 lwp->lwp_arg[1] = rp->r_o1; 299 lwp->lwp_arg[2] = rp->r_o2; 300 lwp->lwp_arg[3] = rp->r_o3; 301 lwp->lwp_arg[4] = rp->r_o4; 302 lwp->lwp_arg[5] = rp->r_o5; 303 if (nargs > 6) { 304 ua = (caddr_t)rp->r_sp + MINFRAME + STACK_BIAS; 305 for (i = 6; i < nargs; i++) { 306 unsigned long a; 307 if (fulword(ua, &a) != 0) 308 return (-1); 309 lwp->lwp_arg[i] = a; 310 ua += sizeof (a); 311 } 312 } 313 } 314 315 out: 316 lwp->lwp_ap = lwp->lwp_arg; 317 lwp->lwp_argsaved = 1; 318 t->t_post_sys = 1; /* so lwp_ap will be reset */ 319 return (0); 320 } 321 322 void 323 reset_syscall_args(void) 324 { 325 klwp_t *lwp = ttolwp(curthread); 326 327 lwp->lwp_ap = (long *)&lwptoregs(lwp)->r_o0; 328 lwp->lwp_argsaved = 0; 329 } 330 331 /* 332 * nonexistent system call-- signal lwp (may want to handle it) 333 * flag error if lwp won't see signal immediately 334 * This works for old or new calling sequence. 335 */ 336 int64_t 337 nosys() 338 { 339 tsignal(curthread, SIGSYS); 340 return ((int64_t)set_errno(ENOSYS)); 341 } 342 343 /* 344 * Perform pre-system-call processing, including stopping for tracing, 345 * auditing, microstate-accounting, etc. 346 * 347 * This routine is called only if the t_pre_sys flag is set. Any condition 348 * requiring pre-syscall handling must set the t_pre_sys flag. If the 349 * condition is persistent, this routine will repost t_pre_sys. 350 */ 351 int 352 pre_syscall(int arg0) 353 { 354 unsigned int code; 355 kthread_t *t = curthread; 356 proc_t *p = ttoproc(t); 357 klwp_t *lwp = ttolwp(t); 358 struct regs *rp = lwptoregs(lwp); 359 int repost; 360 361 t->t_pre_sys = repost = 0; /* clear pre-syscall processing flag */ 362 363 ASSERT(t->t_schedflag & TS_DONT_SWAP); 364 365 syscall_mstate(LMS_USER, LMS_SYSTEM); 366 367 /* 368 * The syscall arguments in the out registers should be pointed to 369 * by lwp_ap. If the args need to be copied so that the outs can 370 * be changed without losing the ability to get the args for /proc, 371 * they can be saved by save_syscall_args(), and lwp_ap will be 372 * restored by post_syscall(). 373 */ 374 ASSERT(lwp->lwp_ap == (long *)&rp->r_o0); 375 376 /* 377 * Make sure the thread is holding the latest credentials for the 378 * process. The credentials in the process right now apply to this 379 * thread for the entire system call. 380 */ 381 if (t->t_cred != p->p_cred) { 382 cred_t *oldcred = t->t_cred; 383 /* 384 * DTrace accesses t_cred in probe context. t_cred must 385 * always be either NULL, or point to a valid, allocated cred 386 * structure. 387 */ 388 t->t_cred = crgetcred(); 389 crfree(oldcred); 390 } 391 392 /* 393 * Undo special arrangements to single-step the lwp 394 * so that a debugger will see valid register contents. 395 * Also so that the pc is valid for syncfpu(). 396 * Also so that a syscall like exec() can be stepped. 397 */ 398 if (lwp->lwp_pcb.pcb_step != STEP_NONE) { 399 (void) prundostep(); 400 repost = 1; 401 } 402 403 /* 404 * Check for indirect system call in case we stop for tracing. 405 * Don't allow multiple indirection. 406 */ 407 code = t->t_sysnum; 408 if (code == 0 && arg0 != 0) { /* indirect syscall */ 409 code = arg0; 410 t->t_sysnum = arg0; 411 } 412 413 /* 414 * From the proc(4) manual page: 415 * When entry to a system call is being traced, the traced process 416 * stops after having begun the call to the system but before the 417 * system call arguments have been fetched from the process. 418 * If proc changes the args we must refetch them after starting. 419 */ 420 if (PTOU(p)->u_systrap) { 421 if (prismember(&PTOU(p)->u_entrymask, code)) { 422 /* 423 * Recheck stop condition, now that lock is held. 424 */ 425 mutex_enter(&p->p_lock); 426 if (PTOU(p)->u_systrap && 427 prismember(&PTOU(p)->u_entrymask, code)) { 428 stop(PR_SYSENTRY, code); 429 /* 430 * Must refetch args since they were 431 * possibly modified by /proc. Indicate 432 * that the valid copy is in the 433 * registers. 434 */ 435 lwp->lwp_argsaved = 0; 436 lwp->lwp_ap = (long *)&rp->r_o0; 437 } 438 mutex_exit(&p->p_lock); 439 } 440 repost = 1; 441 } 442 443 if (lwp->lwp_sysabort) { 444 /* 445 * lwp_sysabort may have been set via /proc while the process 446 * was stopped on PR_SYSENTRY. If so, abort the system call. 447 * Override any error from the copyin() of the arguments. 448 */ 449 lwp->lwp_sysabort = 0; 450 (void) set_errno(EINTR); /* sets post-sys processing */ 451 t->t_pre_sys = 1; /* repost anyway */ 452 return (1); /* don't do system call, return EINTR */ 453 } 454 455 /* begin auditing for this syscall */ 456 if (audit_active == C2AUDIT_LOADED) { 457 uint32_t auditing = au_zone_getstate(NULL); 458 459 if (auditing & AU_AUDIT_MASK) { 460 int error; 461 if (error = audit_start(T_SYSCALL, code, auditing, \ 462 0, lwp)) { 463 t->t_pre_sys = 1; /* repost anyway */ 464 lwp->lwp_error = 0; /* for old drivers */ 465 return (error); 466 } 467 repost = 1; 468 } 469 } 470 471 #ifndef NPROBE 472 /* Kernel probe */ 473 if (tnf_tracing_active) { 474 TNF_PROBE_1(syscall_start, "syscall thread", /* CSTYLED */, 475 tnf_sysnum, sysnum, t->t_sysnum); 476 t->t_post_sys = 1; /* make sure post_syscall runs */ 477 repost = 1; 478 } 479 #endif /* NPROBE */ 480 481 #ifdef SYSCALLTRACE 482 if (syscalltrace) { 483 int i; 484 long *ap; 485 char *cp; 486 char *sysname; 487 struct sysent *callp; 488 489 if (code >= NSYSCALL) 490 callp = &nosys_ent; /* nosys has no args */ 491 else 492 callp = LWP_GETSYSENT(lwp) + code; 493 (void) save_syscall_args(); 494 mutex_enter(&systrace_lock); 495 printf("%d: ", p->p_pid); 496 if (code >= NSYSCALL) 497 printf("0x%x", code); 498 else { 499 sysname = mod_getsysname(code); 500 printf("%s[0x%x]", sysname == NULL ? "NULL" : 501 sysname, code); 502 } 503 cp = "("; 504 for (i = 0, ap = lwp->lwp_ap; i < callp->sy_narg; i++, ap++) { 505 printf("%s%lx", cp, *ap); 506 cp = ", "; 507 } 508 if (i) 509 printf(")"); 510 printf(" %s id=0x%p\n", PTOU(p)->u_comm, curthread); 511 mutex_exit(&systrace_lock); 512 } 513 #endif /* SYSCALLTRACE */ 514 515 /* 516 * If there was a continuing reason for pre-syscall processing, 517 * set the t_pre_sys flag for the next system call. 518 */ 519 if (repost) 520 t->t_pre_sys = 1; 521 lwp->lwp_error = 0; /* for old drivers */ 522 lwp->lwp_badpriv = PRIV_NONE; /* for privilege tracing */ 523 return (0); 524 } 525 526 /* 527 * Post-syscall processing. Perform abnormal system call completion 528 * actions such as /proc tracing, profiling, signals, preemption, etc. 529 * 530 * This routine is called only if t_post_sys, t_sig_check, or t_astflag is set. 531 * Any condition requiring pre-syscall handling must set one of these. 532 * If the condition is persistent, this routine will repost t_post_sys. 533 */ 534 void 535 post_syscall(long rval1, long rval2) 536 { 537 kthread_t *t = curthread; 538 proc_t *p = curproc; 539 klwp_t *lwp = ttolwp(t); 540 struct regs *rp = lwptoregs(lwp); 541 uint_t error; 542 int code = t->t_sysnum; 543 int repost = 0; 544 int proc_stop = 0; /* non-zero if stopping for /proc */ 545 int sigprof = 0; /* non-zero if sending SIGPROF */ 546 547 t->t_post_sys = 0; 548 549 error = lwp->lwp_errno; 550 551 /* 552 * Code can be zero if this is a new LWP returning after a forkall(), 553 * other than the one which matches the one in the parent which called 554 * forkall(). In these LWPs, skip most of post-syscall activity. 555 */ 556 if (code == 0) 557 goto sig_check; 558 559 /* put out audit record for this syscall */ 560 if (AU_AUDITING()) { 561 rval_t rval; /* fix audit_finish() someday */ 562 563 /* XX64 -- truncation of 64-bit return values? */ 564 rval.r_val1 = (int)rval1; 565 rval.r_val2 = (int)rval2; 566 audit_finish(T_SYSCALL, code, error, &rval); 567 repost = 1; 568 } 569 570 if (curthread->t_pdmsg != NULL) { 571 char *m = curthread->t_pdmsg; 572 573 uprintf("%s", m); 574 kmem_free(m, strlen(m) + 1); 575 curthread->t_pdmsg = NULL; 576 } 577 578 /* 579 * If we're going to stop for /proc tracing, set the flag and 580 * save the arguments so that the return values don't smash them. 581 */ 582 if (PTOU(p)->u_systrap) { 583 if (prismember(&PTOU(p)->u_exitmask, code)) { 584 proc_stop = 1; 585 (void) save_syscall_args(); 586 } 587 repost = 1; 588 } 589 590 /* 591 * Similarly check to see if SIGPROF might be sent. 592 */ 593 if (curthread->t_rprof != NULL && 594 curthread->t_rprof->rp_anystate != 0) { 595 (void) save_syscall_args(); 596 sigprof = 1; 597 } 598 599 if (lwp->lwp_eosys == NORMALRETURN) { 600 if (error == 0) { 601 #ifdef SYSCALLTRACE 602 if (syscalltrace) { 603 mutex_enter(&systrace_lock); 604 printf( 605 "%d: r_val1=0x%lx, r_val2=0x%lx, id 0x%p\n", 606 p->p_pid, rval1, rval2, curthread); 607 mutex_exit(&systrace_lock); 608 } 609 #endif /* SYSCALLTRACE */ 610 rp->r_tstate &= ~TSTATE_IC; 611 rp->r_o0 = rval1; 612 rp->r_o1 = rval2; 613 } else { 614 int sig; 615 616 #ifdef SYSCALLTRACE 617 if (syscalltrace) { 618 mutex_enter(&systrace_lock); 619 printf("%d: error=%d, id 0x%p\n", 620 p->p_pid, error, curthread); 621 mutex_exit(&systrace_lock); 622 } 623 #endif /* SYSCALLTRACE */ 624 if (error == EINTR && t->t_activefd.a_stale) 625 error = EBADF; 626 if (error == EINTR && 627 (sig = lwp->lwp_cursig) != 0 && 628 sigismember(&PTOU(p)->u_sigrestart, sig) && 629 PTOU(p)->u_signal[sig - 1] != SIG_DFL && 630 PTOU(p)->u_signal[sig - 1] != SIG_IGN) 631 error = ERESTART; 632 rp->r_o0 = error; 633 rp->r_tstate |= TSTATE_IC; 634 } 635 /* 636 * The default action is to redo the trap instruction. 637 * We increment the pc and npc past it for NORMALRETURN. 638 * JUSTRETURN has set up a new pc and npc already. 639 * If we are a cloned thread of forkall(), don't 640 * adjust here because we have already inherited 641 * the adjusted values from our clone. 642 */ 643 if (!(t->t_flag & T_FORKALL)) { 644 rp->r_pc = rp->r_npc; 645 rp->r_npc += 4; 646 } 647 } 648 649 /* 650 * From the proc(4) manual page: 651 * When exit from a system call is being traced, the traced process 652 * stops on completion of the system call just prior to checking for 653 * signals and returning to user level. At this point all return 654 * values have been stored into the traced process's saved registers. 655 */ 656 if (proc_stop) { 657 mutex_enter(&p->p_lock); 658 if (PTOU(p)->u_systrap && 659 prismember(&PTOU(p)->u_exitmask, code)) 660 stop(PR_SYSEXIT, code); 661 mutex_exit(&p->p_lock); 662 } 663 664 /* 665 * If we are the parent returning from a successful 666 * vfork, wait for the child to exec or exit. 667 * This code must be here and not in the bowels of the system 668 * so that /proc can intercept exit from vfork in a timely way. 669 */ 670 if (t->t_flag & T_VFPARENT) { 671 ASSERT(code == SYS_vfork || code == SYS_forksys); 672 ASSERT(rp->r_o1 == 0 && error == 0); 673 vfwait((pid_t)rval1); 674 t->t_flag &= ~T_VFPARENT; 675 } 676 677 /* 678 * If profiling is active, bill the current PC in user-land 679 * and keep reposting until profiling is disabled. 680 */ 681 if (p->p_prof.pr_scale) { 682 if (lwp->lwp_oweupc) 683 profil_tick(rp->r_pc); 684 repost = 1; 685 } 686 687 sig_check: 688 /* 689 * Reset flag for next time. 690 * We must do this after stopping on PR_SYSEXIT 691 * because /proc uses the information in lwp_eosys. 692 */ 693 lwp->lwp_eosys = NORMALRETURN; 694 clear_stale_fd(); 695 t->t_flag &= ~T_FORKALL; 696 697 if (t->t_astflag | t->t_sig_check) { 698 /* 699 * Turn off the AST flag before checking all the conditions that 700 * may have caused an AST. This flag is on whenever a signal or 701 * unusual condition should be handled after the next trap or 702 * syscall. 703 */ 704 astoff(t); 705 t->t_sig_check = 0; 706 707 /* 708 * The following check is legal for the following reasons: 709 * 1) The thread we are checking, is ourselves, so there is 710 * no way the proc can go away. 711 * 2) The only time we need to be protected by the 712 * lock is if the binding is changed. 713 * 714 * Note we will still take the lock and check the binding 715 * if the condition was true without the lock held. This 716 * prevents lock contention among threads owned by the 717 * same proc. 718 */ 719 720 if (curthread->t_proc_flag & TP_CHANGEBIND) { 721 mutex_enter(&p->p_lock); 722 if (curthread->t_proc_flag & TP_CHANGEBIND) { 723 timer_lwpbind(); 724 curthread->t_proc_flag &= ~TP_CHANGEBIND; 725 } 726 mutex_exit(&p->p_lock); 727 } 728 729 /* 730 * for kaio requests on the special kaio poll queue, 731 * copyout their results to user memory. 732 */ 733 if (p->p_aio) 734 aio_cleanup(0); 735 736 /* 737 * If this LWP was asked to hold, call holdlwp(), which will 738 * stop. holdlwps() sets this up and calls pokelwps() which 739 * sets the AST flag. 740 * 741 * Also check TP_EXITLWP, since this is used by fresh new LWPs 742 * through lwp_rtt(). That flag is set if the lwp_create(2) 743 * syscall failed after creating the LWP. 744 */ 745 if (ISHOLD(p) || (t->t_proc_flag & TP_EXITLWP)) 746 holdlwp(); 747 748 /* 749 * All code that sets signals and makes ISSIG_PENDING 750 * evaluate true must set t_sig_check afterwards. 751 */ 752 if (ISSIG_PENDING(t, lwp, p)) { 753 if (issig(FORREAL)) 754 psig(); 755 t->t_sig_check = 1; /* recheck next time */ 756 } 757 758 if (sigprof) { 759 int nargs = (code > 0 && code < NSYSCALL)? 760 LWP_GETSYSENT(lwp)[code].sy_narg : 0; 761 realsigprof(code, nargs, error); 762 t->t_sig_check = 1; /* recheck next time */ 763 } 764 765 /* 766 * If a performance counter overflow interrupt was 767 * delivered *during* the syscall, then re-enable the 768 * AST so that we take a trip through trap() to cause 769 * the SIGEMT to be delivered. 770 */ 771 if (lwp->lwp_pcb.pcb_flags & CPC_OVERFLOW) 772 aston(t); 773 774 /* 775 * If an asynchronous hardware error is pending, turn AST flag 776 * back on. AST will be checked again before we return to user 777 * mode and we'll come back through trap() to handle the error. 778 */ 779 if (lwp->lwp_pcb.pcb_flags & ASYNC_HWERR) 780 aston(t); 781 } 782 783 /* 784 * Restore register window if a debugger modified it. 785 * Set up to perform a single-step if a debugger requested it. 786 */ 787 if (lwp->lwp_pcb.pcb_xregstat != XREGNONE) 788 xregrestore(lwp, 1); 789 790 lwp->lwp_errno = 0; /* clear error for next time */ 791 792 #ifndef NPROBE 793 /* Kernel probe */ 794 if (tnf_tracing_active) { 795 TNF_PROBE_3(syscall_end, "syscall thread", /* CSTYLED */, 796 tnf_long, rval1, rval1, 797 tnf_long, rval2, rval2, 798 tnf_long, errno, (long)error); 799 repost = 1; 800 } 801 #endif /* NPROBE */ 802 803 /* 804 * Set state to LWP_USER here so preempt won't give us a kernel 805 * priority if it occurs after this point. Call CL_TRAPRET() to 806 * restore the user-level priority. 807 * 808 * It is important that no locks (other than spinlocks) be entered 809 * after this point before returning to user mode (unless lwp_state 810 * is set back to LWP_SYS). 811 * 812 * Sampled times past this point are charged to the user. 813 */ 814 lwp->lwp_state = LWP_USER; 815 816 if (t->t_trapret) { 817 t->t_trapret = 0; 818 thread_lock(t); 819 CL_TRAPRET(t); 820 thread_unlock(t); 821 } 822 if (CPU->cpu_runrun || t->t_schedflag & TS_ANYWAITQ) 823 preempt(); 824 prunstop(); 825 826 /* 827 * t_post_sys will be set if pcb_step is active. 828 */ 829 if (lwp->lwp_pcb.pcb_step != STEP_NONE) { 830 prdostep(); 831 repost = 1; 832 } 833 834 t->t_sysnum = 0; /* no longer in a system call */ 835 836 /* 837 * In case the args were copied to the lwp, reset the 838 * pointer so the next syscall will have the right lwp_ap pointer. 839 */ 840 lwp->lwp_ap = (long *)&rp->r_o0; 841 lwp->lwp_argsaved = 0; 842 843 /* 844 * If there was a continuing reason for post-syscall processing, 845 * set the t_post_sys flag for the next system call. 846 */ 847 if (repost) 848 t->t_post_sys = 1; 849 850 /* 851 * If there is a ustack registered for this lwp, and the stack rlimit 852 * has been altered, read in the ustack. If the saved stack rlimit 853 * matches the bounds of the ustack, update the ustack to reflect 854 * the new rlimit. If the new stack rlimit is RLIM_INFINITY, disable 855 * stack checking by setting the size to 0. 856 */ 857 if (lwp->lwp_ustack != 0 && lwp->lwp_old_stk_ctl != 0) { 858 rlim64_t new_size; 859 model_t model; 860 caddr_t top; 861 struct rlimit64 rl; 862 863 mutex_enter(&p->p_lock); 864 new_size = p->p_stk_ctl; 865 model = p->p_model; 866 top = p->p_usrstack; 867 (void) rctl_rlimit_get(rctlproc_legacy[RLIMIT_STACK], p, &rl); 868 mutex_exit(&p->p_lock); 869 870 if (rl.rlim_cur == RLIM64_INFINITY) 871 new_size = 0; 872 873 if (model == DATAMODEL_NATIVE) { 874 stack_t stk; 875 876 if (copyin((stack_t *)lwp->lwp_ustack, &stk, 877 sizeof (stack_t)) == 0 && 878 (stk.ss_size == lwp->lwp_old_stk_ctl || 879 stk.ss_size == 0) && 880 stk.ss_sp == top - stk.ss_size) { 881 stk.ss_sp = (void *)((uintptr_t)stk.ss_sp + 882 stk.ss_size - new_size); 883 stk.ss_size = new_size; 884 885 (void) copyout(&stk, 886 (stack_t *)lwp->lwp_ustack, 887 sizeof (stack_t)); 888 } 889 } else { 890 stack32_t stk32; 891 892 if (copyin((stack32_t *)lwp->lwp_ustack, &stk32, 893 sizeof (stack32_t)) == 0 && 894 (stk32.ss_size == lwp->lwp_old_stk_ctl || 895 stk32.ss_size == 0) && 896 stk32.ss_sp == 897 (caddr32_t)(uintptr_t)(top - stk32.ss_size)) { 898 stk32.ss_sp += stk32.ss_size - new_size; 899 stk32.ss_size = new_size; 900 901 (void) copyout(&stk32, 902 (stack32_t *)lwp->lwp_ustack, 903 sizeof (stack32_t)); 904 } 905 } 906 907 lwp->lwp_old_stk_ctl = 0; 908 } 909 910 syscall_mstate(LMS_SYSTEM, LMS_USER); 911 } 912 913 /* 914 * Call a system call which takes a pointer to the user args struct and 915 * a pointer to the return values. This is a bit slower than the standard 916 * C arg-passing method in some cases. 917 */ 918 int64_t 919 syscall_ap() 920 { 921 uint_t error; 922 struct sysent *callp; 923 rval_t rval; 924 klwp_t *lwp = ttolwp(curthread); 925 struct regs *rp = lwptoregs(lwp); 926 927 callp = LWP_GETSYSENT(lwp) + curthread->t_sysnum; 928 929 /* 930 * If the arguments don't fit in registers %o0 - o5, make sure they 931 * have been copied to the lwp_arg array. 932 */ 933 if (callp->sy_narg > 6 && save_syscall_args()) 934 return ((int64_t)set_errno(EFAULT)); 935 936 rval.r_val1 = 0; 937 rval.r_val2 = (int)rp->r_o1; 938 lwp->lwp_error = 0; /* for old drivers */ 939 error = (*(callp->sy_call))(lwp->lwp_ap, &rval); 940 if (error) 941 return ((int64_t)set_errno(error)); 942 return (rval.r_vals); 943 } 944 945 /* 946 * Load system call module. 947 * Returns with pointer to held read lock for module. 948 */ 949 static krwlock_t * 950 lock_syscall(struct sysent *table, uint_t code) 951 { 952 krwlock_t *module_lock; 953 struct modctl *modp; 954 int id; 955 struct sysent *callp; 956 957 module_lock = table[code].sy_lock; 958 callp = &table[code]; 959 960 /* 961 * Optimization to only call modload if we don't have a loaded 962 * syscall. 963 */ 964 rw_enter(module_lock, RW_READER); 965 if (LOADED_SYSCALL(callp)) 966 return (module_lock); 967 rw_exit(module_lock); 968 969 for (;;) { 970 if ((id = modload("sys", syscallnames[code])) == -1) 971 break; 972 973 /* 974 * If we loaded successfully at least once, the modctl 975 * will still be valid, so we try to grab it by filename. 976 * If this call fails, it's because the mod_filename 977 * was changed after the call to modload() (mod_hold_by_name() 978 * is the likely culprit). We can safely just take 979 * another lap if this is the case; the modload() will 980 * change the mod_filename back to one by which we can 981 * find the modctl. 982 */ 983 modp = mod_find_by_filename("sys", syscallnames[code]); 984 985 if (modp == NULL) 986 continue; 987 988 mutex_enter(&mod_lock); 989 990 if (!modp->mod_installed) { 991 mutex_exit(&mod_lock); 992 continue; 993 } 994 break; 995 } 996 997 rw_enter(module_lock, RW_READER); 998 999 if (id != -1) 1000 mutex_exit(&mod_lock); 1001 1002 return (module_lock); 1003 } 1004 1005 /* 1006 * Loadable syscall support. 1007 * If needed, load the module, then reserve it by holding a read 1008 * lock for the duration of the call. 1009 * Later, if the syscall is not unloadable, it could patch the vector. 1010 */ 1011 /*ARGSUSED*/ 1012 int64_t 1013 loadable_syscall( 1014 long a0, long a1, long a2, long a3, 1015 long a4, long a5, long a6, long a7) 1016 { 1017 int64_t rval; 1018 struct sysent *callp; 1019 struct sysent *se = LWP_GETSYSENT(ttolwp(curthread)); 1020 krwlock_t *module_lock; 1021 int code; 1022 1023 code = curthread->t_sysnum; 1024 callp = se + code; 1025 1026 /* 1027 * Try to autoload the system call if necessary. 1028 */ 1029 module_lock = lock_syscall(se, code); 1030 1031 /* 1032 * we've locked either the loaded syscall or nosys 1033 */ 1034 if (callp->sy_flags & SE_ARGC) { 1035 int64_t (*sy_call)(); 1036 1037 sy_call = (int64_t (*)())callp->sy_call; 1038 rval = (*sy_call)(a0, a1, a2, a3, a4, a5); 1039 } else { 1040 rval = syscall_ap(); 1041 } 1042 1043 rw_exit(module_lock); 1044 return (rval); 1045 } 1046 1047 /* 1048 * Handle indirect system calls. 1049 * This interface should be deprecated. The library can handle 1050 * this more efficiently, but keep this implementation for old binaries. 1051 * 1052 * XX64 Needs some work. 1053 */ 1054 int64_t 1055 indir(int code, long a0, long a1, long a2, long a3, long a4) 1056 { 1057 klwp_t *lwp = ttolwp(curthread); 1058 struct sysent *callp; 1059 1060 if (code <= 0 || code >= NSYSCALL) 1061 return (nosys()); 1062 1063 ASSERT(lwp->lwp_ap != NULL); 1064 1065 curthread->t_sysnum = code; 1066 callp = LWP_GETSYSENT(lwp) + code; 1067 1068 /* 1069 * Handle argument setup, unless already done in pre_syscall(). 1070 */ 1071 if (callp->sy_narg > 5) { 1072 if (save_syscall_args()) /* move args to LWP array */ 1073 return ((int64_t)set_errno(EFAULT)); 1074 } else if (!lwp->lwp_argsaved) { 1075 long *ap; 1076 1077 ap = lwp->lwp_ap; /* args haven't been saved */ 1078 lwp->lwp_ap = ap + 1; /* advance arg pointer */ 1079 curthread->t_post_sys = 1; /* so lwp_ap will be reset */ 1080 } 1081 return ((*callp->sy_callc)(a0, a1, a2, a3, a4, lwp->lwp_arg[5])); 1082 } 1083 1084 /* 1085 * set_errno - set an error return from the current system call. 1086 * This could be a macro. 1087 * This returns the value it is passed, so that the caller can 1088 * use tail-recursion-elimination and do return (set_errno(ERRNO)); 1089 */ 1090 uint_t 1091 set_errno(uint_t error) 1092 { 1093 ASSERT(error != 0); /* must not be used to clear errno */ 1094 1095 curthread->t_post_sys = 1; /* have post_syscall do error return */ 1096 return (ttolwp(curthread)->lwp_errno = error); 1097 } 1098 1099 /* 1100 * set_proc_pre_sys - Set pre-syscall processing for entire process. 1101 */ 1102 void 1103 set_proc_pre_sys(proc_t *p) 1104 { 1105 kthread_t *t; 1106 kthread_t *first; 1107 1108 ASSERT(MUTEX_HELD(&p->p_lock)); 1109 1110 t = first = p->p_tlist; 1111 do { 1112 t->t_pre_sys = 1; 1113 } while ((t = t->t_forw) != first); 1114 } 1115 1116 /* 1117 * set_proc_post_sys - Set post-syscall processing for entire process. 1118 */ 1119 void 1120 set_proc_post_sys(proc_t *p) 1121 { 1122 kthread_t *t; 1123 kthread_t *first; 1124 1125 ASSERT(MUTEX_HELD(&p->p_lock)); 1126 1127 t = first = p->p_tlist; 1128 do { 1129 t->t_post_sys = 1; 1130 } while ((t = t->t_forw) != first); 1131 } 1132 1133 /* 1134 * set_proc_sys - Set pre- and post-syscall processing for entire process. 1135 */ 1136 void 1137 set_proc_sys(proc_t *p) 1138 { 1139 kthread_t *t; 1140 kthread_t *first; 1141 1142 ASSERT(MUTEX_HELD(&p->p_lock)); 1143 1144 t = first = p->p_tlist; 1145 do { 1146 t->t_pre_sys = 1; 1147 t->t_post_sys = 1; 1148 } while ((t = t->t_forw) != first); 1149 } 1150 1151 /* 1152 * set_all_proc_sys - set pre- and post-syscall processing flags for all 1153 * user processes. 1154 * 1155 * This is needed when auditing, tracing, or other facilities which affect 1156 * all processes are turned on. 1157 */ 1158 void 1159 set_all_proc_sys() 1160 { 1161 kthread_t *t; 1162 kthread_t *first; 1163 1164 mutex_enter(&pidlock); 1165 t = first = curthread; 1166 do { 1167 t->t_pre_sys = 1; 1168 t->t_post_sys = 1; 1169 } while ((t = t->t_next) != first); 1170 mutex_exit(&pidlock); 1171 } 1172 1173 /* 1174 * set_all_zone_usr_proc_sys - set pre- and post-syscall processing flags for 1175 * all user processes running in the zone of the current process 1176 * 1177 * This is needed when auditing is turned on. 1178 */ 1179 void 1180 set_all_zone_usr_proc_sys(zoneid_t zoneid) 1181 { 1182 proc_t *p; 1183 kthread_t *t; 1184 1185 mutex_enter(&pidlock); 1186 for (p = practive; p != NULL; p = p->p_next) { 1187 /* skip kernel processes */ 1188 if (p->p_exec == NULLVP || p->p_as == &kas || 1189 p->p_stat == SIDL || p->p_stat == SZOMB || 1190 (p->p_flag & (SSYS | SEXITING | SEXITLWPS))) 1191 continue; 1192 /* 1193 * Only processes in the given zone (eventually in 1194 * all zones) are taken into account 1195 */ 1196 if (zoneid == ALL_ZONES || p->p_zone->zone_id == zoneid) { 1197 mutex_enter(&p->p_lock); 1198 if ((t = p->p_tlist) == NULL) { 1199 mutex_exit(&p->p_lock); 1200 continue; 1201 } 1202 /* 1203 * Set pre- and post-syscall processing flags 1204 * for all threads of the process 1205 */ 1206 do { 1207 t->t_pre_sys = 1; 1208 t->t_post_sys = 1; 1209 } while (p->p_tlist != (t = t->t_forw)); 1210 mutex_exit(&p->p_lock); 1211 } 1212 } 1213 mutex_exit(&pidlock); 1214 } 1215 1216 /* 1217 * set_proc_ast - Set asynchronous service trap (AST) flag for all 1218 * threads in process. 1219 */ 1220 void 1221 set_proc_ast(proc_t *p) 1222 { 1223 kthread_t *t; 1224 kthread_t *first; 1225 1226 ASSERT(MUTEX_HELD(&p->p_lock)); 1227 1228 t = first = p->p_tlist; 1229 do { 1230 aston(t); 1231 } while ((t = t->t_forw) != first); 1232 } 1233