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 * Copyright (c) 2010, Oracle and/or its affiliates. All rights reserved. 23 */ 24 25 /* 26 * Autovectored Interrupt Configuration and Deconfiguration 27 */ 28 29 #include <sys/param.h> 30 #include <sys/cmn_err.h> 31 #include <sys/trap.h> 32 #include <sys/t_lock.h> 33 #include <sys/avintr.h> 34 #include <sys/kmem.h> 35 #include <sys/machlock.h> 36 #include <sys/systm.h> 37 #include <sys/machsystm.h> 38 #include <sys/sunddi.h> 39 #include <sys/x_call.h> 40 #include <sys/cpuvar.h> 41 #include <sys/atomic.h> 42 #include <sys/smp_impldefs.h> 43 #include <sys/sdt.h> 44 #include <sys/stack.h> 45 #include <sys/ddi_impldefs.h> 46 #ifdef __xpv 47 #include <sys/evtchn_impl.h> 48 #endif 49 50 typedef struct av_softinfo { 51 cpuset_t av_pending; /* pending bitmasks */ 52 } av_softinfo_t; 53 54 static void insert_av(void *intr_id, struct av_head *vectp, avfunc f, 55 caddr_t arg1, caddr_t arg2, uint64_t *ticksp, int pri_level, 56 dev_info_t *dip); 57 static void remove_av(void *intr_id, struct av_head *vectp, avfunc f, 58 int pri_level, int vect); 59 60 /* 61 * Arrange for a driver to be called when a particular 62 * auto-vectored interrupt occurs. 63 * NOTE: if a device can generate interrupts on more than 64 * one level, or if a driver services devices that interrupt 65 * on more than one level, then the driver should install 66 * itself on each of those levels. 67 */ 68 static char badsoft[] = 69 "add_avintr: bad soft interrupt level %d for driver '%s'\n"; 70 static char multilevel[] = 71 "!IRQ%d is being shared by drivers with different interrupt levels.\n" 72 "This may result in reduced system performance."; 73 static char multilevel2[] = 74 "Cannot register interrupt for '%s' device at IPL %d because it\n" 75 "conflicts with another device using the same vector %d with an IPL\n" 76 "of %d. Reconfigure the conflicting devices to use different vectors."; 77 78 #ifdef __xpv 79 #define MAX_VECT NR_IRQS 80 #else 81 #define MAX_VECT 256 82 #endif 83 84 struct autovec *nmivect = NULL; 85 struct av_head autovect[MAX_VECT]; 86 struct av_head softvect[LOCK_LEVEL + 1]; 87 kmutex_t av_lock; 88 /* 89 * These are software interrupt handlers dedicated to ddi timer. 90 * The interrupt levels up to 10 are supported, but high interrupts 91 * must not be used there. 92 */ 93 ddi_softint_hdl_impl_t softlevel_hdl[DDI_IPL_10] = { 94 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 1 */ 95 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 2 */ 96 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 3 */ 97 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 4 */ 98 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 5 */ 99 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 6 */ 100 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 7 */ 101 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 8 */ 102 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 9 */ 103 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}, /* level 10 */ 104 }; 105 ddi_softint_hdl_impl_t softlevel1_hdl = 106 {0, NULL, NULL, NULL, 0, NULL, NULL, NULL}; 107 108 /* 109 * clear/check softint pending flag corresponding for 110 * the current CPU 111 */ 112 void 113 av_clear_softint_pending(av_softinfo_t *infop) 114 { 115 CPUSET_ATOMIC_DEL(infop->av_pending, CPU->cpu_seqid); 116 } 117 118 boolean_t 119 av_check_softint_pending(av_softinfo_t *infop, boolean_t check_all) 120 { 121 if (check_all) 122 return (!CPUSET_ISNULL(infop->av_pending)); 123 else 124 return (CPU_IN_SET(infop->av_pending, CPU->cpu_seqid) != 0); 125 } 126 127 /* 128 * This is the wrapper function which is generally used to set a softint 129 * pending 130 */ 131 void 132 av_set_softint_pending(int pri, av_softinfo_t *infop) 133 { 134 kdi_av_set_softint_pending(pri, infop); 135 } 136 137 /* 138 * This is kmdb's private entry point to setsoftint called from kdi_siron 139 * It first sets our av softint pending bit for the current CPU, 140 * then it sets the CPU softint pending bit for pri. 141 */ 142 void 143 kdi_av_set_softint_pending(int pri, av_softinfo_t *infop) 144 { 145 CPUSET_ATOMIC_ADD(infop->av_pending, CPU->cpu_seqid); 146 147 atomic_or_32((uint32_t *)&CPU->cpu_softinfo.st_pending, 1 << pri); 148 } 149 150 /* 151 * register nmi interrupt routine. The first arg is used only to order 152 * various nmi interrupt service routines in the chain. Higher lvls will 153 * be called first 154 */ 155 int 156 add_nmintr(int lvl, avfunc nmintr, char *name, caddr_t arg) 157 { 158 struct autovec *mem; 159 struct autovec *p, *prev = NULL; 160 161 if (nmintr == NULL) { 162 printf("Attempt to add null vect for %s on nmi\n", name); 163 return (0); 164 165 } 166 167 mem = kmem_zalloc(sizeof (struct autovec), KM_SLEEP); 168 mem->av_vector = nmintr; 169 mem->av_intarg1 = arg; 170 mem->av_intarg2 = NULL; 171 mem->av_intr_id = NULL; 172 mem->av_prilevel = lvl; 173 mem->av_dip = NULL; 174 mem->av_link = NULL; 175 176 mutex_enter(&av_lock); 177 178 if (!nmivect) { 179 nmivect = mem; 180 mutex_exit(&av_lock); 181 return (1); 182 } 183 /* find where it goes in list */ 184 for (p = nmivect; p != NULL; p = p->av_link) { 185 if (p->av_vector == nmintr && p->av_intarg1 == arg) { 186 /* 187 * already in list 188 * So? Somebody added the same interrupt twice. 189 */ 190 cmn_err(CE_WARN, "Driver already registered '%s'", 191 name); 192 kmem_free(mem, sizeof (struct autovec)); 193 mutex_exit(&av_lock); 194 return (0); 195 } 196 if (p->av_prilevel < lvl) { 197 if (p == nmivect) { /* it's at head of list */ 198 mem->av_link = p; 199 nmivect = mem; 200 } else { 201 mem->av_link = p; 202 prev->av_link = mem; 203 } 204 mutex_exit(&av_lock); 205 return (1); 206 } 207 prev = p; 208 209 } 210 /* didn't find it, add it to the end */ 211 prev->av_link = mem; 212 mutex_exit(&av_lock); 213 return (1); 214 215 } 216 217 /* 218 * register a hardware interrupt handler. 219 * 220 * The autovect data structure only supports globally 256 interrupts. 221 * In order to support 256 * #LocalAPIC interrupts, a new PSM module 222 * apix is introduced. It defines PSM private data structures for the 223 * interrupt handlers. The PSM module initializes addintr to a PSM 224 * private function so that it could override add_avintr() to operate 225 * on its private data structures. 226 */ 227 int 228 add_avintr(void *intr_id, int lvl, avfunc xxintr, char *name, int vect, 229 caddr_t arg1, caddr_t arg2, uint64_t *ticksp, dev_info_t *dip) 230 { 231 struct av_head *vecp = (struct av_head *)0; 232 avfunc f; 233 int s, vectindex; /* save old spl value */ 234 ushort_t hi_pri; 235 236 if (addintr) { 237 return ((*addintr)(intr_id, lvl, xxintr, name, vect, 238 arg1, arg2, ticksp, dip)); 239 } 240 241 if ((f = xxintr) == NULL) { 242 printf("Attempt to add null vect for %s on vector %d\n", 243 name, vect); 244 return (0); 245 246 } 247 vectindex = vect % MAX_VECT; 248 249 vecp = &autovect[vectindex]; 250 251 /* 252 * "hi_pri == 0" implies all entries on list are "unused", 253 * which means that it's OK to just insert this one. 254 */ 255 hi_pri = vecp->avh_hi_pri; 256 if (vecp->avh_link && (hi_pri != 0)) { 257 if (((hi_pri > LOCK_LEVEL) && (lvl < LOCK_LEVEL)) || 258 ((hi_pri < LOCK_LEVEL) && (lvl > LOCK_LEVEL))) { 259 cmn_err(CE_WARN, multilevel2, name, lvl, vect, 260 hi_pri); 261 return (0); 262 } 263 if ((vecp->avh_lo_pri != lvl) || (hi_pri != lvl)) 264 cmn_err(CE_NOTE, multilevel, vect); 265 } 266 267 insert_av(intr_id, vecp, f, arg1, arg2, ticksp, lvl, dip); 268 s = splhi(); 269 /* 270 * do what ever machine specific things are necessary 271 * to set priority level (e.g. set picmasks) 272 */ 273 mutex_enter(&av_lock); 274 (*addspl)(vect, lvl, vecp->avh_lo_pri, vecp->avh_hi_pri); 275 mutex_exit(&av_lock); 276 splx(s); 277 return (1); 278 279 } 280 281 void 282 update_avsoftintr_args(void *intr_id, int lvl, caddr_t arg2) 283 { 284 struct autovec *p; 285 struct autovec *target = NULL; 286 struct av_head *vectp = (struct av_head *)&softvect[lvl]; 287 288 for (p = vectp->avh_link; p && p->av_vector; p = p->av_link) { 289 if (p->av_intr_id == intr_id) { 290 target = p; 291 break; 292 } 293 } 294 295 if (target == NULL) 296 return; 297 target->av_intarg2 = arg2; 298 } 299 300 /* 301 * Register a software interrupt handler 302 */ 303 int 304 add_avsoftintr(void *intr_id, int lvl, avfunc xxintr, char *name, 305 caddr_t arg1, caddr_t arg2) 306 { 307 int slvl; 308 ddi_softint_hdl_impl_t *hdlp = (ddi_softint_hdl_impl_t *)intr_id; 309 310 if ((slvl = slvltovect(lvl)) != -1) 311 return (add_avintr(intr_id, lvl, xxintr, 312 name, slvl, arg1, arg2, NULL, NULL)); 313 314 if (intr_id == NULL) { 315 printf("Attempt to add null intr_id for %s on level %d\n", 316 name, lvl); 317 return (0); 318 } 319 320 if (xxintr == NULL) { 321 printf("Attempt to add null handler for %s on level %d\n", 322 name, lvl); 323 return (0); 324 } 325 326 if (lvl <= 0 || lvl > LOCK_LEVEL) { 327 printf(badsoft, lvl, name); 328 return (0); 329 } 330 331 if (hdlp->ih_pending == NULL) { 332 hdlp->ih_pending = 333 kmem_zalloc(sizeof (av_softinfo_t), KM_SLEEP); 334 } 335 336 insert_av(intr_id, &softvect[lvl], xxintr, arg1, arg2, NULL, lvl, NULL); 337 338 return (1); 339 } 340 341 /* 342 * insert an interrupt vector into chain by its priority from high 343 * to low 344 */ 345 static void 346 insert_av(void *intr_id, struct av_head *vectp, avfunc f, caddr_t arg1, 347 caddr_t arg2, uint64_t *ticksp, int pri_level, dev_info_t *dip) 348 { 349 /* 350 * Protect rewrites of the list 351 */ 352 struct autovec *p, *prep, *mem; 353 354 mem = kmem_zalloc(sizeof (struct autovec), KM_SLEEP); 355 mem->av_vector = f; 356 mem->av_intarg1 = arg1; 357 mem->av_intarg2 = arg2; 358 mem->av_ticksp = ticksp; 359 mem->av_intr_id = intr_id; 360 mem->av_prilevel = pri_level; 361 mem->av_dip = dip; 362 mem->av_link = NULL; 363 364 mutex_enter(&av_lock); 365 366 if (vectp->avh_link == NULL) { /* Nothing on list - put it at head */ 367 vectp->avh_link = mem; 368 vectp->avh_hi_pri = vectp->avh_lo_pri = (ushort_t)pri_level; 369 370 mutex_exit(&av_lock); 371 return; 372 } 373 374 /* find where it goes in list */ 375 prep = NULL; 376 for (p = vectp->avh_link; p != NULL; p = p->av_link) { 377 if (p->av_vector && p->av_prilevel <= pri_level) 378 break; 379 prep = p; 380 } 381 if (prep != NULL) { 382 if (prep->av_vector == NULL) { /* freed struct available */ 383 p = prep; 384 p->av_intarg1 = arg1; 385 p->av_intarg2 = arg2; 386 p->av_ticksp = ticksp; 387 p->av_intr_id = intr_id; 388 p->av_prilevel = pri_level; 389 p->av_dip = dip; 390 if (pri_level > (int)vectp->avh_hi_pri) { 391 vectp->avh_hi_pri = (ushort_t)pri_level; 392 } 393 if (pri_level < (int)vectp->avh_lo_pri) { 394 vectp->avh_lo_pri = (ushort_t)pri_level; 395 } 396 /* 397 * To prevent calling service routine before args 398 * and ticksp are ready fill in vector last. 399 */ 400 p->av_vector = f; 401 mutex_exit(&av_lock); 402 kmem_free(mem, sizeof (struct autovec)); 403 return; 404 } 405 406 mem->av_link = prep->av_link; 407 prep->av_link = mem; 408 } else { 409 /* insert new intpt at beginning of chain */ 410 mem->av_link = vectp->avh_link; 411 vectp->avh_link = mem; 412 } 413 if (pri_level > (int)vectp->avh_hi_pri) { 414 vectp->avh_hi_pri = (ushort_t)pri_level; 415 } 416 if (pri_level < (int)vectp->avh_lo_pri) { 417 vectp->avh_lo_pri = (ushort_t)pri_level; 418 } 419 mutex_exit(&av_lock); 420 } 421 422 static int 423 av_rem_softintr(void *intr_id, int lvl, avfunc xxintr, boolean_t rem_softinfo) 424 { 425 struct av_head *vecp = (struct av_head *)0; 426 int slvl; 427 ddi_softint_hdl_impl_t *hdlp = (ddi_softint_hdl_impl_t *)intr_id; 428 av_softinfo_t *infop = (av_softinfo_t *)hdlp->ih_pending; 429 430 if (xxintr == NULL) 431 return (0); 432 433 if ((slvl = slvltovect(lvl)) != -1) { 434 rem_avintr(intr_id, lvl, xxintr, slvl); 435 return (1); 436 } 437 438 if (lvl <= 0 && lvl >= LOCK_LEVEL) { 439 return (0); 440 } 441 vecp = &softvect[lvl]; 442 remove_av(intr_id, vecp, xxintr, lvl, 0); 443 444 if (rem_softinfo) { 445 kmem_free(infop, sizeof (av_softinfo_t)); 446 hdlp->ih_pending = NULL; 447 } 448 449 return (1); 450 } 451 452 int 453 av_softint_movepri(void *intr_id, int old_lvl) 454 { 455 int ret; 456 ddi_softint_hdl_impl_t *hdlp = (ddi_softint_hdl_impl_t *)intr_id; 457 458 ret = add_avsoftintr(intr_id, hdlp->ih_pri, hdlp->ih_cb_func, 459 DEVI(hdlp->ih_dip)->devi_name, hdlp->ih_cb_arg1, hdlp->ih_cb_arg2); 460 461 if (ret) { 462 (void) av_rem_softintr(intr_id, old_lvl, hdlp->ih_cb_func, 463 B_FALSE); 464 } 465 466 return (ret); 467 } 468 469 /* 470 * Remove a driver from the autovector list. 471 */ 472 int 473 rem_avsoftintr(void *intr_id, int lvl, avfunc xxintr) 474 { 475 return (av_rem_softintr(intr_id, lvl, xxintr, B_TRUE)); 476 } 477 478 /* 479 * Remove specified interrupt handler. 480 * 481 * PSM module could initialize remintr to some PSM private function 482 * so that it could override rem_avintr() to operate on its private 483 * data structures. 484 */ 485 void 486 rem_avintr(void *intr_id, int lvl, avfunc xxintr, int vect) 487 { 488 struct av_head *vecp = (struct av_head *)0; 489 avfunc f; 490 int s, vectindex; /* save old spl value */ 491 492 if (remintr) { 493 (*remintr)(intr_id, lvl, xxintr, vect); 494 return; 495 } 496 497 if ((f = xxintr) == NULL) 498 return; 499 500 vectindex = vect % MAX_VECT; 501 vecp = &autovect[vectindex]; 502 remove_av(intr_id, vecp, f, lvl, vect); 503 s = splhi(); 504 mutex_enter(&av_lock); 505 (*delspl)(vect, lvl, vecp->avh_lo_pri, vecp->avh_hi_pri); 506 mutex_exit(&av_lock); 507 splx(s); 508 } 509 510 511 /* 512 * After having made a change to an autovector list, wait until we have 513 * seen each cpu not executing an interrupt at that level--so we know our 514 * change has taken effect completely (no old state in registers, etc). 515 */ 516 void 517 wait_till_seen(int ipl) 518 { 519 int cpu_in_chain, cix; 520 struct cpu *cpup; 521 cpuset_t cpus_to_check; 522 523 CPUSET_ALL(cpus_to_check); 524 do { 525 cpu_in_chain = 0; 526 for (cix = 0; cix < NCPU; cix++) { 527 cpup = cpu[cix]; 528 if (cpup != NULL && CPU_IN_SET(cpus_to_check, cix)) { 529 if (INTR_ACTIVE(cpup, ipl)) { 530 cpu_in_chain = 1; 531 } else { 532 CPUSET_DEL(cpus_to_check, cix); 533 } 534 } 535 } 536 } while (cpu_in_chain); 537 } 538 539 static uint64_t dummy_tick; 540 541 /* remove an interrupt vector from the chain */ 542 static void 543 remove_av(void *intr_id, struct av_head *vectp, avfunc f, int pri_level, 544 int vect) 545 { 546 struct autovec *p, *target; 547 int lo_pri, hi_pri; 548 int ipl; 549 /* 550 * Protect rewrites of the list 551 */ 552 target = NULL; 553 554 mutex_enter(&av_lock); 555 ipl = pri_level; 556 lo_pri = MAXIPL; 557 hi_pri = 0; 558 for (p = vectp->avh_link; p; p = p->av_link) { 559 if ((p->av_vector == f) && (p->av_intr_id == intr_id)) { 560 /* found the handler */ 561 target = p; 562 continue; 563 } 564 if (p->av_vector != NULL) { 565 if (p->av_prilevel > hi_pri) 566 hi_pri = p->av_prilevel; 567 if (p->av_prilevel < lo_pri) 568 lo_pri = p->av_prilevel; 569 } 570 } 571 if (ipl < hi_pri) 572 ipl = hi_pri; 573 if (target == NULL) { /* not found */ 574 printf("Couldn't remove function %p at %d, %d\n", 575 (void *)f, vect, pri_level); 576 mutex_exit(&av_lock); 577 return; 578 } 579 580 /* 581 * This drops the handler from the chain, it can no longer be called. 582 * However, there is no guarantee that the handler is not currently 583 * still executing. 584 */ 585 target->av_vector = NULL; 586 /* 587 * There is a race where we could be just about to pick up the ticksp 588 * pointer to increment it after returning from the service routine 589 * in av_dispatch_autovect. Rather than NULL it out let's just point 590 * it off to something safe so that any final tick update attempt 591 * won't fault. 592 */ 593 target->av_ticksp = &dummy_tick; 594 wait_till_seen(ipl); 595 596 if (lo_pri > hi_pri) { /* the chain is now empty */ 597 /* Leave the unused entries here for probable future use */ 598 vectp->avh_lo_pri = MAXIPL; 599 vectp->avh_hi_pri = 0; 600 } else { 601 if ((int)vectp->avh_lo_pri < lo_pri) 602 vectp->avh_lo_pri = (ushort_t)lo_pri; 603 if ((int)vectp->avh_hi_pri > hi_pri) 604 vectp->avh_hi_pri = (ushort_t)hi_pri; 605 } 606 mutex_exit(&av_lock); 607 wait_till_seen(ipl); 608 } 609 610 /* 611 * kmdb uses siron (and thus setsoftint) while the world is stopped in order to 612 * inform its driver component that there's work to be done. We need to keep 613 * DTrace from instrumenting kmdb's siron and setsoftint. We duplicate siron, 614 * giving kmdb's version a kdi prefix to keep DTrace at bay. We also 615 * provide a version of the various setsoftint functions available for kmdb to 616 * use using a kdi_ prefix while the main *setsoftint() functionality is 617 * implemented as a wrapper. This allows tracing, while still providing a 618 * way for kmdb to sneak in unmolested. 619 */ 620 void 621 kdi_siron(void) 622 { 623 (*kdisetsoftint)(1, softlevel1_hdl.ih_pending); 624 } 625 626 /* 627 * Trigger a soft interrupt. 628 */ 629 void 630 siron(void) 631 { 632 /* Level 1 software interrupt */ 633 (*setsoftint)(1, softlevel1_hdl.ih_pending); 634 } 635 636 /* 637 * Trigger software interrupts dedicated to ddi timer. 638 */ 639 void 640 sir_on(int level) 641 { 642 ASSERT(level >= DDI_IPL_1 && level <= DDI_IPL_10); 643 (*setsoftint)(level, softlevel_hdl[level-1].ih_pending); 644 } 645 646 /* 647 * The handler which is executed on the target CPU. 648 */ 649 /*ARGSUSED*/ 650 static int 651 siron_poke_intr(xc_arg_t a1, xc_arg_t a2, xc_arg_t a3) 652 { 653 siron(); 654 return (0); 655 } 656 657 /* 658 * May get called from softcall to poke CPUs. 659 */ 660 void 661 siron_poke_cpu(cpuset_t poke) 662 { 663 int cpuid = CPU->cpu_id; 664 665 /* 666 * If we are poking to ourself then we can simply 667 * generate level1 using siron() 668 */ 669 if (CPU_IN_SET(poke, cpuid)) { 670 siron(); 671 CPUSET_DEL(poke, cpuid); 672 if (CPUSET_ISNULL(poke)) 673 return; 674 } 675 676 xc_call(0, 0, 0, CPUSET2BV(poke), (xc_func_t)siron_poke_intr); 677 } 678 679 /* 680 * Walk the autovector table for this vector, invoking each 681 * interrupt handler as we go. 682 */ 683 684 extern uint64_t intr_get_time(void); 685 686 void 687 av_dispatch_autovect(uint_t vec) 688 { 689 struct autovec *av; 690 691 ASSERT_STACK_ALIGNED(); 692 693 while ((av = autovect[vec].avh_link) != NULL) { 694 uint_t numcalled = 0; 695 uint_t claimed = 0; 696 697 for (; av; av = av->av_link) { 698 uint_t r; 699 uint_t (*intr)() = av->av_vector; 700 caddr_t arg1 = av->av_intarg1; 701 caddr_t arg2 = av->av_intarg2; 702 dev_info_t *dip = av->av_dip; 703 704 /* 705 * We must walk the entire chain. Removed handlers 706 * may be anywhere in the chain. 707 */ 708 if (intr == NULL) 709 continue; 710 711 DTRACE_PROBE4(interrupt__start, dev_info_t *, dip, 712 void *, intr, caddr_t, arg1, caddr_t, arg2); 713 r = (*intr)(arg1, arg2); 714 DTRACE_PROBE4(interrupt__complete, dev_info_t *, dip, 715 void *, intr, caddr_t, arg1, uint_t, r); 716 numcalled++; 717 claimed |= r; 718 if (av->av_ticksp && av->av_prilevel <= LOCK_LEVEL) 719 atomic_add_64(av->av_ticksp, intr_get_time()); 720 } 721 722 /* 723 * If there's only one interrupt handler in the chain, 724 * or if no-one claimed the interrupt at all give up now. 725 */ 726 if (numcalled == 1 || claimed == 0) 727 break; 728 } 729 } 730 731 /* 732 * Call every soft interrupt handler we can find at this level once. 733 */ 734 void 735 av_dispatch_softvect(uint_t pil) 736 { 737 struct autovec *av; 738 ddi_softint_hdl_impl_t *hdlp; 739 uint_t (*intr)(); 740 caddr_t arg1; 741 caddr_t arg2; 742 743 ASSERT_STACK_ALIGNED(); 744 ASSERT(pil >= 0 && pil <= PIL_MAX); 745 746 for (av = softvect[pil].avh_link; av; av = av->av_link) { 747 /* 748 * We must walk the entire chain. Removed handlers 749 * may be anywhere in the chain. 750 */ 751 if ((intr = av->av_vector) == NULL) 752 continue; 753 arg1 = av->av_intarg1; 754 arg2 = av->av_intarg2; 755 756 hdlp = (ddi_softint_hdl_impl_t *)av->av_intr_id; 757 ASSERT(hdlp); 758 759 /* 760 * Each cpu has its own pending bit in hdlp->ih_pending, 761 * here av_check/clear_softint_pending is just checking 762 * and clearing the pending bit for the current cpu, who 763 * has just triggered a softint. 764 */ 765 if (av_check_softint_pending(hdlp->ih_pending, B_FALSE)) { 766 av_clear_softint_pending(hdlp->ih_pending); 767 (void) (*intr)(arg1, arg2); 768 } 769 } 770 } 771 772 struct regs; 773 774 /* 775 * Call every NMI handler we know of once. 776 */ 777 void 778 av_dispatch_nmivect(struct regs *rp) 779 { 780 struct autovec *av; 781 782 ASSERT_STACK_ALIGNED(); 783 784 for (av = nmivect; av; av = av->av_link) 785 (void) (av->av_vector)(av->av_intarg1, rp); 786 } 787