pic.c revision 1.49
1 1.49 jmcneill /* $NetBSD: pic.c,v 1.49 2019/12/23 15:34:23 jmcneill Exp $ */ 2 1.2 matt /*- 3 1.2 matt * Copyright (c) 2008 The NetBSD Foundation, Inc. 4 1.2 matt * All rights reserved. 5 1.2 matt * 6 1.2 matt * This code is derived from software contributed to The NetBSD Foundation 7 1.2 matt * by Matt Thomas. 8 1.2 matt * 9 1.2 matt * Redistribution and use in source and binary forms, with or without 10 1.2 matt * modification, are permitted provided that the following conditions 11 1.2 matt * are met: 12 1.2 matt * 1. Redistributions of source code must retain the above copyright 13 1.2 matt * notice, this list of conditions and the following disclaimer. 14 1.2 matt * 2. Redistributions in binary form must reproduce the above copyright 15 1.2 matt * notice, this list of conditions and the following disclaimer in the 16 1.2 matt * documentation and/or other materials provided with the distribution. 17 1.2 matt * 18 1.2 matt * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 19 1.2 matt * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 20 1.2 matt * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 21 1.2 matt * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 22 1.2 matt * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 23 1.2 matt * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 24 1.2 matt * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 25 1.2 matt * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 26 1.2 matt * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 27 1.2 matt * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 28 1.2 matt * POSSIBILITY OF SUCH DAMAGE. 29 1.2 matt */ 30 1.21 matt 31 1.21 matt #define _INTR_PRIVATE 32 1.21 matt #include "opt_ddb.h" 33 1.25 skrll #include "opt_multiprocessor.h" 34 1.21 matt 35 1.2 matt #include <sys/cdefs.h> 36 1.49 jmcneill __KERNEL_RCSID(0, "$NetBSD: pic.c,v 1.49 2019/12/23 15:34:23 jmcneill Exp $"); 37 1.2 matt 38 1.2 matt #include <sys/param.h> 39 1.13 matt #include <sys/atomic.h> 40 1.13 matt #include <sys/cpu.h> 41 1.2 matt #include <sys/evcnt.h> 42 1.13 matt #include <sys/intr.h> 43 1.13 matt #include <sys/kernel.h> 44 1.11 matt #include <sys/kmem.h> 45 1.35 skrll #include <sys/mutex.h> 46 1.35 skrll #include <sys/once.h> 47 1.44 jmcneill #include <sys/interrupt.h> 48 1.13 matt #include <sys/xcall.h> 49 1.22 rmind #include <sys/ipi.h> 50 1.2 matt 51 1.2 matt #include <arm/armreg.h> 52 1.2 matt #include <arm/cpufunc.h> 53 1.42 ryo #include <arm/locore.h> /* for compat aarch64 */ 54 1.2 matt 55 1.21 matt #ifdef DDB 56 1.21 matt #include <arm/db_machdep.h> 57 1.21 matt #endif 58 1.21 matt 59 1.2 matt #include <arm/pic/picvar.h> 60 1.2 matt 61 1.28 matt #if defined(__HAVE_PIC_PENDING_INTRS) 62 1.29 matt /* 63 1.29 matt * This implementation of pending interrupts on a MULTIPROCESSOR system makes 64 1.29 matt * the assumption that a PIC (pic_softc) shall only have all its interrupts 65 1.29 matt * come from the same CPU. In other words, interrupts from a single PIC will 66 1.29 matt * not be distributed among multiple CPUs. 67 1.29 matt */ 68 1.29 matt struct pic_pending { 69 1.29 matt volatile uint32_t blocked_pics; 70 1.29 matt volatile uint32_t pending_pics; 71 1.29 matt volatile uint32_t pending_ipls; 72 1.29 matt }; 73 1.2 matt static uint32_t 74 1.2 matt pic_find_pending_irqs_by_ipl(struct pic_softc *, size_t, uint32_t, int); 75 1.2 matt static struct pic_softc * 76 1.29 matt pic_list_find_pic_by_pending_ipl(struct pic_pending *, uint32_t); 77 1.2 matt static void 78 1.29 matt pic_deliver_irqs(struct pic_pending *, struct pic_softc *, int, void *); 79 1.2 matt static void 80 1.29 matt pic_list_deliver_irqs(struct pic_pending *, register_t, int, void *); 81 1.29 matt 82 1.29 matt #ifdef MULTIPROCESSOR 83 1.29 matt percpu_t *pic_pending_percpu; 84 1.29 matt #else 85 1.29 matt struct pic_pending pic_pending; 86 1.29 matt #endif /* MULTIPROCESSOR */ 87 1.28 matt #endif /* __HAVE_PIC_PENDING_INTRS */ 88 1.2 matt 89 1.2 matt struct pic_softc *pic_list[PIC_MAXPICS]; 90 1.2 matt #if PIC_MAXPICS > 32 91 1.2 matt #error PIC_MAXPICS > 32 not supported 92 1.2 matt #endif 93 1.2 matt struct intrsource *pic_sources[PIC_MAXMAXSOURCES]; 94 1.2 matt struct intrsource *pic__iplsources[PIC_MAXMAXSOURCES]; 95 1.2 matt struct intrsource **pic_iplsource[NIPL] = { 96 1.2 matt [0 ... NIPL-1] = pic__iplsources, 97 1.2 matt }; 98 1.2 matt size_t pic_ipl_offset[NIPL+1]; 99 1.35 skrll 100 1.35 skrll static kmutex_t pic_lock; 101 1.2 matt size_t pic_sourcebase; 102 1.41 skrll static struct evcnt pic_deferral_ev = 103 1.2 matt EVCNT_INITIALIZER(EVCNT_TYPE_MISC, NULL, "deferred", "intr"); 104 1.2 matt EVCNT_ATTACH_STATIC(pic_deferral_ev); 105 1.2 matt 106 1.35 skrll static int pic_init(void); 107 1.35 skrll 108 1.11 matt #ifdef __HAVE_PIC_SET_PRIORITY 109 1.11 matt void 110 1.11 matt pic_set_priority(struct cpu_info *ci, int newipl) 111 1.11 matt { 112 1.13 matt register_t psw = cpsid(I32_bit); 113 1.13 matt if (pic_list[0] != NULL) 114 1.13 matt (pic_list[0]->pic_ops->pic_set_priority)(pic_list[0], newipl); 115 1.11 matt ci->ci_cpl = newipl; 116 1.13 matt if ((psw & I32_bit) == 0) 117 1.13 matt cpsie(I32_bit); 118 1.13 matt } 119 1.13 matt #endif 120 1.13 matt 121 1.13 matt #ifdef MULTIPROCESSOR 122 1.13 matt int 123 1.34 matt pic_ipi_ast(void *arg) 124 1.34 matt { 125 1.34 matt setsoftast(curcpu()); 126 1.34 matt return 1; 127 1.34 matt } 128 1.34 matt 129 1.34 matt int 130 1.13 matt pic_ipi_nop(void *arg) 131 1.13 matt { 132 1.13 matt /* do nothing */ 133 1.13 matt return 1; 134 1.13 matt } 135 1.13 matt 136 1.13 matt int 137 1.13 matt pic_ipi_xcall(void *arg) 138 1.13 matt { 139 1.13 matt xc_ipi_handler(); 140 1.13 matt return 1; 141 1.13 matt } 142 1.13 matt 143 1.22 rmind int 144 1.22 rmind pic_ipi_generic(void *arg) 145 1.22 rmind { 146 1.22 rmind ipi_cpu_handler(); 147 1.22 rmind return 1; 148 1.22 rmind } 149 1.22 rmind 150 1.21 matt #ifdef DDB 151 1.21 matt int 152 1.21 matt pic_ipi_ddb(void *arg) 153 1.21 matt { 154 1.23 skrll // printf("%s: %s: tf=%p\n", __func__, curcpu()->ci_cpuname, arg); 155 1.21 matt kdb_trap(-1, arg); 156 1.21 matt return 1; 157 1.21 matt } 158 1.39 nisimura #endif /* DDB */ 159 1.34 matt 160 1.34 matt #ifdef __HAVE_PREEMPTION 161 1.34 matt int 162 1.34 matt pic_ipi_kpreempt(void *arg) 163 1.34 matt { 164 1.34 matt atomic_or_uint(&curcpu()->ci_astpending, __BIT(1)); 165 1.34 matt return 1; 166 1.34 matt } 167 1.39 nisimura #endif /* __HAVE_PREEMPTION */ 168 1.21 matt 169 1.13 matt void 170 1.13 matt intr_cpu_init(struct cpu_info *ci) 171 1.13 matt { 172 1.13 matt for (size_t slot = 0; slot < PIC_MAXPICS; slot++) { 173 1.13 matt struct pic_softc * const pic = pic_list[slot]; 174 1.13 matt if (pic != NULL && pic->pic_ops->pic_cpu_init != NULL) { 175 1.13 matt (*pic->pic_ops->pic_cpu_init)(pic, ci); 176 1.13 matt } 177 1.13 matt } 178 1.13 matt } 179 1.13 matt 180 1.13 matt typedef void (*pic_ipi_send_func_t)(struct pic_softc *, u_long); 181 1.13 matt 182 1.13 matt void 183 1.13 matt intr_ipi_send(const kcpuset_t *kcp, u_long ipi) 184 1.13 matt { 185 1.32 matt struct cpu_info * const ci = curcpu(); 186 1.13 matt KASSERT(ipi < NIPI); 187 1.29 matt bool __diagused sent_p = false; 188 1.29 matt for (size_t slot = 0; slot < PIC_MAXPICS; slot++) { 189 1.29 matt struct pic_softc * const pic = pic_list[slot]; 190 1.29 matt if (pic == NULL || pic->pic_cpus == NULL) 191 1.29 matt continue; 192 1.30 matt if (kcp == NULL || kcpuset_intersecting_p(kcp, pic->pic_cpus)) { 193 1.32 matt // never send to ourself 194 1.32 matt if (pic->pic_cpus == ci->ci_kcpuset) 195 1.32 matt continue; 196 1.32 matt 197 1.29 matt (*pic->pic_ops->pic_ipi_send)(pic, kcp, ipi); 198 1.29 matt // If we were targeting a single CPU or this pic 199 1.29 matt // handles all cpus, we're done. 200 1.29 matt if (kcp != NULL || pic->pic_cpus == kcpuset_running) 201 1.29 matt return; 202 1.29 matt sent_p = true; 203 1.29 matt } 204 1.29 matt } 205 1.43 ryo KASSERT(cold || sent_p || ncpu <= 1); 206 1.13 matt } 207 1.13 matt #endif /* MULTIPROCESSOR */ 208 1.13 matt 209 1.13 matt #ifdef __HAVE_PIC_FAST_SOFTINTS 210 1.13 matt int 211 1.13 matt pic_handle_softint(void *arg) 212 1.13 matt { 213 1.13 matt void softint_switch(lwp_t *, int); 214 1.41 skrll struct cpu_info * const ci = curcpu(); 215 1.13 matt const size_t softint = (size_t) arg; 216 1.13 matt int s = splhigh(); 217 1.13 matt ci->ci_intr_depth--; // don't count these as interrupts 218 1.13 matt softint_switch(ci->ci_softlwps[softint], s); 219 1.13 matt ci->ci_intr_depth++; 220 1.13 matt splx(s); 221 1.13 matt return 1; 222 1.11 matt } 223 1.11 matt #endif 224 1.2 matt 225 1.2 matt int 226 1.2 matt pic_handle_intr(void *arg) 227 1.2 matt { 228 1.2 matt struct pic_softc * const pic = arg; 229 1.2 matt int rv; 230 1.2 matt 231 1.2 matt rv = (*pic->pic_ops->pic_find_pending_irqs)(pic); 232 1.2 matt 233 1.2 matt return rv > 0; 234 1.2 matt } 235 1.2 matt 236 1.28 matt #if defined(__HAVE_PIC_PENDING_INTRS) 237 1.2 matt void 238 1.2 matt pic_mark_pending_source(struct pic_softc *pic, struct intrsource *is) 239 1.2 matt { 240 1.2 matt const uint32_t ipl_mask = __BIT(is->is_ipl); 241 1.2 matt 242 1.4 matt atomic_or_32(&pic->pic_pending_irqs[is->is_irq >> 5], 243 1.4 matt __BIT(is->is_irq & 0x1f)); 244 1.2 matt 245 1.4 matt atomic_or_32(&pic->pic_pending_ipls, ipl_mask); 246 1.29 matt #ifdef MULTIPROCESSOR 247 1.29 matt struct pic_pending *pend = percpu_getref(pic_pending_percpu); 248 1.29 matt #else 249 1.29 matt struct pic_pending *pend = &pic_pending; 250 1.29 matt #endif 251 1.29 matt atomic_or_32(&pend->pending_ipls, ipl_mask); 252 1.29 matt atomic_or_32(&pend->pending_pics, __BIT(pic->pic_id)); 253 1.29 matt #ifdef MULTIPROCESSOR 254 1.29 matt percpu_putref(pic_pending_percpu); 255 1.29 matt #endif 256 1.2 matt } 257 1.2 matt 258 1.2 matt void 259 1.2 matt pic_mark_pending(struct pic_softc *pic, int irq) 260 1.2 matt { 261 1.2 matt struct intrsource * const is = pic->pic_sources[irq]; 262 1.2 matt 263 1.2 matt KASSERT(irq < pic->pic_maxsources); 264 1.2 matt KASSERT(is != NULL); 265 1.2 matt 266 1.2 matt pic_mark_pending_source(pic, is); 267 1.2 matt } 268 1.2 matt 269 1.2 matt uint32_t 270 1.2 matt pic_mark_pending_sources(struct pic_softc *pic, size_t irq_base, 271 1.2 matt uint32_t pending) 272 1.2 matt { 273 1.2 matt struct intrsource ** const isbase = &pic->pic_sources[irq_base]; 274 1.2 matt struct intrsource *is; 275 1.4 matt volatile uint32_t *ipending = &pic->pic_pending_irqs[irq_base >> 5]; 276 1.2 matt uint32_t ipl_mask = 0; 277 1.2 matt 278 1.2 matt if (pending == 0) 279 1.2 matt return ipl_mask; 280 1.2 matt 281 1.2 matt KASSERT((irq_base & 31) == 0); 282 1.41 skrll 283 1.2 matt (*pic->pic_ops->pic_block_irqs)(pic, irq_base, pending); 284 1.2 matt 285 1.4 matt atomic_or_32(ipending, pending); 286 1.40 skrll while (pending != 0) { 287 1.2 matt int n = ffs(pending); 288 1.2 matt if (n-- == 0) 289 1.2 matt break; 290 1.2 matt is = isbase[n]; 291 1.2 matt KASSERT(is != NULL); 292 1.2 matt KASSERT(irq_base <= is->is_irq && is->is_irq < irq_base + 32); 293 1.2 matt pending &= ~__BIT(n); 294 1.2 matt ipl_mask |= __BIT(is->is_ipl); 295 1.2 matt } 296 1.2 matt 297 1.4 matt atomic_or_32(&pic->pic_pending_ipls, ipl_mask); 298 1.29 matt #ifdef MULTIPROCESSOR 299 1.29 matt struct pic_pending *pend = percpu_getref(pic_pending_percpu); 300 1.29 matt #else 301 1.29 matt struct pic_pending *pend = &pic_pending; 302 1.29 matt #endif 303 1.29 matt atomic_or_32(&pend->pending_ipls, ipl_mask); 304 1.29 matt atomic_or_32(&pend->pending_pics, __BIT(pic->pic_id)); 305 1.29 matt #ifdef MULTIPROCESSOR 306 1.29 matt percpu_putref(pic_pending_percpu); 307 1.29 matt #endif 308 1.2 matt return ipl_mask; 309 1.2 matt } 310 1.2 matt 311 1.2 matt uint32_t 312 1.2 matt pic_find_pending_irqs_by_ipl(struct pic_softc *pic, size_t irq_base, 313 1.2 matt uint32_t pending, int ipl) 314 1.2 matt { 315 1.2 matt uint32_t ipl_irq_mask = 0; 316 1.2 matt uint32_t irq_mask; 317 1.2 matt 318 1.2 matt for (;;) { 319 1.2 matt int irq = ffs(pending); 320 1.2 matt if (irq-- == 0) 321 1.2 matt return ipl_irq_mask; 322 1.2 matt 323 1.2 matt irq_mask = __BIT(irq); 324 1.8 bsh #if 1 325 1.10 skrll KASSERTMSG(pic->pic_sources[irq_base + irq] != NULL, 326 1.10 skrll "%s: irq_base %zu irq %d\n", __func__, irq_base, irq); 327 1.8 bsh #else 328 1.8 bsh if (pic->pic_sources[irq_base + irq] == NULL) { 329 1.8 bsh aprint_error("stray interrupt? irq_base=%zu irq=%d\n", 330 1.8 bsh irq_base, irq); 331 1.8 bsh } else 332 1.8 bsh #endif 333 1.2 matt if (pic->pic_sources[irq_base + irq]->is_ipl == ipl) 334 1.2 matt ipl_irq_mask |= irq_mask; 335 1.2 matt 336 1.2 matt pending &= ~irq_mask; 337 1.2 matt } 338 1.2 matt } 339 1.28 matt #endif /* __HAVE_PIC_PENDING_INTRS */ 340 1.2 matt 341 1.2 matt void 342 1.2 matt pic_dispatch(struct intrsource *is, void *frame) 343 1.2 matt { 344 1.20 matt int (*func)(void *) = is->is_func; 345 1.20 matt void *arg = is->is_arg; 346 1.2 matt 347 1.20 matt if (__predict_false(arg == NULL)) { 348 1.20 matt if (__predict_false(frame == NULL)) { 349 1.20 matt pic_deferral_ev.ev_count++; 350 1.20 matt return; 351 1.20 matt } 352 1.20 matt arg = frame; 353 1.2 matt } 354 1.13 matt 355 1.20 matt #ifdef MULTIPROCESSOR 356 1.20 matt if (!is->is_mpsafe) { 357 1.20 matt KERNEL_LOCK(1, NULL); 358 1.21 matt const u_int ci_blcnt __diagused = curcpu()->ci_biglock_count; 359 1.21 matt const u_int l_blcnt __diagused = curlwp->l_blcnt; 360 1.20 matt (void)(*func)(arg); 361 1.21 matt KASSERT(ci_blcnt == curcpu()->ci_biglock_count); 362 1.21 matt KASSERT(l_blcnt == curlwp->l_blcnt); 363 1.20 matt KERNEL_UNLOCK_ONE(NULL); 364 1.20 matt } else 365 1.20 matt #endif 366 1.20 matt (void)(*func)(arg); 367 1.20 matt 368 1.20 matt 369 1.13 matt struct pic_percpu * const pcpu = percpu_getref(is->is_pic->pic_percpu); 370 1.13 matt KASSERT(pcpu->pcpu_magic == PICPERCPU_MAGIC); 371 1.13 matt pcpu->pcpu_evs[is->is_irq].ev_count++; 372 1.13 matt percpu_putref(is->is_pic->pic_percpu); 373 1.2 matt } 374 1.2 matt 375 1.28 matt #if defined(__HAVE_PIC_PENDING_INTRS) 376 1.2 matt void 377 1.29 matt pic_deliver_irqs(struct pic_pending *pend, struct pic_softc *pic, int ipl, 378 1.29 matt void *frame) 379 1.2 matt { 380 1.2 matt const uint32_t ipl_mask = __BIT(ipl); 381 1.2 matt struct intrsource *is; 382 1.4 matt volatile uint32_t *ipending = pic->pic_pending_irqs; 383 1.4 matt volatile uint32_t *iblocked = pic->pic_blocked_irqs; 384 1.2 matt size_t irq_base; 385 1.2 matt #if PIC_MAXSOURCES > 32 386 1.2 matt size_t irq_count; 387 1.6 kiyohara int poi = 0; /* Possibility of interrupting */ 388 1.2 matt #endif 389 1.2 matt uint32_t pending_irqs; 390 1.2 matt uint32_t blocked_irqs; 391 1.2 matt int irq; 392 1.19 martin bool progress __diagused = false; 393 1.29 matt 394 1.2 matt KASSERT(pic->pic_pending_ipls & ipl_mask); 395 1.2 matt 396 1.2 matt irq_base = 0; 397 1.2 matt #if PIC_MAXSOURCES > 32 398 1.2 matt irq_count = 0; 399 1.2 matt #endif 400 1.2 matt 401 1.2 matt for (;;) { 402 1.2 matt pending_irqs = pic_find_pending_irqs_by_ipl(pic, irq_base, 403 1.2 matt *ipending, ipl); 404 1.2 matt KASSERT((pending_irqs & *ipending) == pending_irqs); 405 1.2 matt KASSERT((pending_irqs & ~(*ipending)) == 0); 406 1.2 matt if (pending_irqs == 0) { 407 1.2 matt #if PIC_MAXSOURCES > 32 408 1.2 matt irq_count += 32; 409 1.6 kiyohara if (__predict_true(irq_count >= pic->pic_maxsources)) { 410 1.6 kiyohara if (!poi) 411 1.6 kiyohara /*Interrupt at this level was handled.*/ 412 1.6 kiyohara break; 413 1.6 kiyohara irq_base = 0; 414 1.6 kiyohara irq_count = 0; 415 1.6 kiyohara poi = 0; 416 1.2 matt ipending = pic->pic_pending_irqs; 417 1.2 matt iblocked = pic->pic_blocked_irqs; 418 1.6 kiyohara } else { 419 1.6 kiyohara irq_base += 32; 420 1.6 kiyohara ipending++; 421 1.6 kiyohara iblocked++; 422 1.6 kiyohara KASSERT(irq_base <= pic->pic_maxsources); 423 1.2 matt } 424 1.2 matt continue; 425 1.2 matt #else 426 1.2 matt break; 427 1.2 matt #endif 428 1.2 matt } 429 1.2 matt progress = true; 430 1.5 kiyohara blocked_irqs = 0; 431 1.2 matt do { 432 1.2 matt irq = ffs(pending_irqs) - 1; 433 1.2 matt KASSERT(irq >= 0); 434 1.2 matt 435 1.4 matt atomic_and_32(ipending, ~__BIT(irq)); 436 1.2 matt is = pic->pic_sources[irq_base + irq]; 437 1.2 matt if (is != NULL) { 438 1.2 matt cpsie(I32_bit); 439 1.2 matt pic_dispatch(is, frame); 440 1.2 matt cpsid(I32_bit); 441 1.6 kiyohara #if PIC_MAXSOURCES > 32 442 1.6 kiyohara /* 443 1.6 kiyohara * There is a possibility of interrupting 444 1.6 kiyohara * from cpsie() to cpsid(). 445 1.6 kiyohara */ 446 1.6 kiyohara poi = 1; 447 1.6 kiyohara #endif 448 1.5 kiyohara blocked_irqs |= __BIT(irq); 449 1.2 matt } else { 450 1.2 matt KASSERT(0); 451 1.2 matt } 452 1.2 matt pending_irqs = pic_find_pending_irqs_by_ipl(pic, 453 1.2 matt irq_base, *ipending, ipl); 454 1.2 matt } while (pending_irqs); 455 1.2 matt if (blocked_irqs) { 456 1.4 matt atomic_or_32(iblocked, blocked_irqs); 457 1.29 matt atomic_or_32(&pend->blocked_pics, __BIT(pic->pic_id)); 458 1.2 matt } 459 1.2 matt } 460 1.2 matt 461 1.2 matt KASSERT(progress); 462 1.2 matt /* 463 1.2 matt * Since interrupts are disabled, we don't have to be too careful 464 1.2 matt * about these. 465 1.2 matt */ 466 1.4 matt if (atomic_and_32_nv(&pic->pic_pending_ipls, ~ipl_mask) == 0) 467 1.29 matt atomic_and_32(&pend->pending_pics, ~__BIT(pic->pic_id)); 468 1.2 matt } 469 1.2 matt 470 1.2 matt static void 471 1.29 matt pic_list_unblock_irqs(struct pic_pending *pend) 472 1.2 matt { 473 1.29 matt uint32_t blocked_pics = pend->blocked_pics; 474 1.29 matt 475 1.29 matt pend->blocked_pics = 0; 476 1.2 matt 477 1.2 matt for (;;) { 478 1.2 matt struct pic_softc *pic; 479 1.2 matt #if PIC_MAXSOURCES > 32 480 1.4 matt volatile uint32_t *iblocked; 481 1.4 matt uint32_t blocked; 482 1.2 matt size_t irq_base; 483 1.2 matt #endif 484 1.2 matt 485 1.4 matt int pic_id = ffs(blocked_pics); 486 1.2 matt if (pic_id-- == 0) 487 1.2 matt return; 488 1.2 matt 489 1.2 matt pic = pic_list[pic_id]; 490 1.2 matt KASSERT(pic != NULL); 491 1.2 matt #if PIC_MAXSOURCES > 32 492 1.2 matt for (irq_base = 0, iblocked = pic->pic_blocked_irqs; 493 1.2 matt irq_base < pic->pic_maxsources; 494 1.2 matt irq_base += 32, iblocked++) { 495 1.4 matt if ((blocked = *iblocked) != 0) { 496 1.2 matt (*pic->pic_ops->pic_unblock_irqs)(pic, 497 1.4 matt irq_base, blocked); 498 1.4 matt atomic_and_32(iblocked, ~blocked); 499 1.2 matt } 500 1.2 matt } 501 1.2 matt #else 502 1.2 matt KASSERT(pic->pic_blocked_irqs[0] != 0); 503 1.2 matt (*pic->pic_ops->pic_unblock_irqs)(pic, 504 1.2 matt 0, pic->pic_blocked_irqs[0]); 505 1.4 matt pic->pic_blocked_irqs[0] = 0; 506 1.2 matt #endif 507 1.4 matt blocked_pics &= ~__BIT(pic_id); 508 1.2 matt } 509 1.2 matt } 510 1.2 matt 511 1.2 matt 512 1.2 matt struct pic_softc * 513 1.29 matt pic_list_find_pic_by_pending_ipl(struct pic_pending *pend, uint32_t ipl_mask) 514 1.2 matt { 515 1.29 matt uint32_t pending_pics = pend->pending_pics; 516 1.2 matt struct pic_softc *pic; 517 1.2 matt 518 1.2 matt for (;;) { 519 1.4 matt int pic_id = ffs(pending_pics); 520 1.2 matt if (pic_id-- == 0) 521 1.2 matt return NULL; 522 1.2 matt 523 1.2 matt pic = pic_list[pic_id]; 524 1.2 matt KASSERT(pic != NULL); 525 1.2 matt if (pic->pic_pending_ipls & ipl_mask) 526 1.2 matt return pic; 527 1.4 matt pending_pics &= ~__BIT(pic_id); 528 1.2 matt } 529 1.2 matt } 530 1.2 matt 531 1.2 matt void 532 1.29 matt pic_list_deliver_irqs(struct pic_pending *pend, register_t psw, int ipl, 533 1.29 matt void *frame) 534 1.2 matt { 535 1.2 matt const uint32_t ipl_mask = __BIT(ipl); 536 1.2 matt struct pic_softc *pic; 537 1.2 matt 538 1.29 matt while ((pic = pic_list_find_pic_by_pending_ipl(pend, ipl_mask)) != NULL) { 539 1.29 matt pic_deliver_irqs(pend, pic, ipl, frame); 540 1.2 matt KASSERT((pic->pic_pending_ipls & ipl_mask) == 0); 541 1.2 matt } 542 1.29 matt atomic_and_32(&pend->pending_ipls, ~ipl_mask); 543 1.2 matt } 544 1.28 matt #endif /* __HAVE_PIC_PENDING_INTRS */ 545 1.2 matt 546 1.2 matt void 547 1.2 matt pic_do_pending_ints(register_t psw, int newipl, void *frame) 548 1.2 matt { 549 1.2 matt struct cpu_info * const ci = curcpu(); 550 1.13 matt if (__predict_false(newipl == IPL_HIGH)) { 551 1.13 matt KASSERTMSG(ci->ci_cpl == IPL_HIGH, "cpl %d", ci->ci_cpl); 552 1.2 matt return; 553 1.13 matt } 554 1.28 matt #if defined(__HAVE_PIC_PENDING_INTRS) 555 1.29 matt #ifdef MULTIPROCESSOR 556 1.29 matt struct pic_pending *pend = percpu_getref(pic_pending_percpu); 557 1.29 matt #else 558 1.29 matt struct pic_pending *pend = &pic_pending; 559 1.29 matt #endif 560 1.29 matt while ((pend->pending_ipls & ~__BIT(newipl)) > __BIT(newipl)) { 561 1.29 matt KASSERT(pend->pending_ipls < __BIT(NIPL)); 562 1.2 matt for (;;) { 563 1.29 matt int ipl = 31 - __builtin_clz(pend->pending_ipls); 564 1.2 matt KASSERT(ipl < NIPL); 565 1.2 matt if (ipl <= newipl) 566 1.2 matt break; 567 1.2 matt 568 1.12 matt pic_set_priority(ci, ipl); 569 1.29 matt pic_list_deliver_irqs(pend, psw, ipl, frame); 570 1.29 matt pic_list_unblock_irqs(pend); 571 1.2 matt } 572 1.2 matt } 573 1.29 matt #ifdef MULTIPROCESSOR 574 1.29 matt percpu_putref(pic_pending_percpu); 575 1.29 matt #endif 576 1.28 matt #endif /* __HAVE_PIC_PENDING_INTRS */ 577 1.33 jmcneill #ifdef __HAVE_PREEMPTION 578 1.27 matt if (newipl == IPL_NONE && (ci->ci_astpending & __BIT(1))) { 579 1.27 matt pic_set_priority(ci, IPL_SCHED); 580 1.27 matt kpreempt(0); 581 1.27 matt } 582 1.27 matt #endif 583 1.2 matt if (ci->ci_cpl != newipl) 584 1.11 matt pic_set_priority(ci, newipl); 585 1.13 matt } 586 1.13 matt 587 1.13 matt static void 588 1.13 matt pic_percpu_allocate(void *v0, void *v1, struct cpu_info *ci) 589 1.13 matt { 590 1.13 matt struct pic_percpu * const pcpu = v0; 591 1.13 matt struct pic_softc * const pic = v1; 592 1.13 matt 593 1.13 matt pcpu->pcpu_evs = kmem_zalloc(pic->pic_maxsources * sizeof(pcpu->pcpu_evs[0]), 594 1.13 matt KM_SLEEP); 595 1.13 matt KASSERT(pcpu->pcpu_evs != NULL); 596 1.13 matt 597 1.13 matt #define PCPU_NAMELEN 32 598 1.14 matt #ifdef DIAGNOSTIC 599 1.13 matt const size_t namelen = strlen(pic->pic_name) + 4 + strlen(ci->ci_data.cpu_name); 600 1.14 matt #endif 601 1.13 matt 602 1.13 matt KASSERT(namelen < PCPU_NAMELEN); 603 1.13 matt pcpu->pcpu_name = kmem_alloc(PCPU_NAMELEN, KM_SLEEP); 604 1.13 matt #ifdef MULTIPROCESSOR 605 1.13 matt snprintf(pcpu->pcpu_name, PCPU_NAMELEN, 606 1.13 matt "%s (%s)", pic->pic_name, ci->ci_data.cpu_name); 607 1.13 matt #else 608 1.13 matt strlcpy(pcpu->pcpu_name, pic->pic_name, PCPU_NAMELEN); 609 1.13 matt #endif 610 1.13 matt pcpu->pcpu_magic = PICPERCPU_MAGIC; 611 1.13 matt #if 0 612 1.13 matt printf("%s: %s %s: <%s>\n", 613 1.13 matt __func__, ci->ci_data.cpu_name, pic->pic_name, 614 1.13 matt pcpu->pcpu_name); 615 1.2 matt #endif 616 1.2 matt } 617 1.2 matt 618 1.29 matt #if defined(__HAVE_PIC_PENDING_INTRS) && defined(MULTIPROCESSOR) 619 1.29 matt static void 620 1.29 matt pic_pending_zero(void *v0, void *v1, struct cpu_info *ci) 621 1.29 matt { 622 1.29 matt struct pic_pending * const p = v0; 623 1.29 matt memset(p, 0, sizeof(*p)); 624 1.29 matt } 625 1.29 matt #endif /* __HAVE_PIC_PENDING_INTRS && MULTIPROCESSOR */ 626 1.29 matt 627 1.35 skrll static int 628 1.35 skrll pic_init(void) 629 1.35 skrll { 630 1.35 skrll 631 1.35 skrll mutex_init(&pic_lock, MUTEX_DEFAULT, IPL_HIGH); 632 1.35 skrll 633 1.35 skrll return 0; 634 1.35 skrll } 635 1.35 skrll 636 1.2 matt void 637 1.2 matt pic_add(struct pic_softc *pic, int irqbase) 638 1.2 matt { 639 1.2 matt int slot, maybe_slot = -1; 640 1.35 skrll size_t sourcebase; 641 1.35 skrll static ONCE_DECL(pic_once); 642 1.35 skrll 643 1.35 skrll RUN_ONCE(&pic_once, pic_init); 644 1.2 matt 645 1.13 matt KASSERT(strlen(pic->pic_name) > 0); 646 1.13 matt 647 1.29 matt #if defined(__HAVE_PIC_PENDING_INTRS) && defined(MULTIPROCESSOR) 648 1.29 matt if (__predict_false(pic_pending_percpu == NULL)) { 649 1.29 matt pic_pending_percpu = percpu_alloc(sizeof(struct pic_pending)); 650 1.29 matt 651 1.29 matt /* 652 1.29 matt * Now zero the per-cpu pending data. 653 1.29 matt */ 654 1.29 matt percpu_foreach(pic_pending_percpu, pic_pending_zero, NULL); 655 1.29 matt } 656 1.29 matt #endif /* __HAVE_PIC_PENDING_INTRS && MULTIPROCESSOR */ 657 1.29 matt 658 1.35 skrll mutex_enter(&pic_lock); 659 1.2 matt for (slot = 0; slot < PIC_MAXPICS; slot++) { 660 1.2 matt struct pic_softc * const xpic = pic_list[slot]; 661 1.2 matt if (xpic == NULL) { 662 1.2 matt if (maybe_slot < 0) 663 1.2 matt maybe_slot = slot; 664 1.2 matt if (irqbase < 0) 665 1.2 matt break; 666 1.2 matt continue; 667 1.2 matt } 668 1.2 matt if (irqbase < 0 || xpic->pic_irqbase < 0) 669 1.2 matt continue; 670 1.2 matt if (irqbase >= xpic->pic_irqbase + xpic->pic_maxsources) 671 1.2 matt continue; 672 1.2 matt if (irqbase + pic->pic_maxsources <= xpic->pic_irqbase) 673 1.2 matt continue; 674 1.2 matt panic("pic_add: pic %s (%zu sources @ irq %u) conflicts" 675 1.2 matt " with pic %s (%zu sources @ irq %u)", 676 1.2 matt pic->pic_name, pic->pic_maxsources, irqbase, 677 1.2 matt xpic->pic_name, xpic->pic_maxsources, xpic->pic_irqbase); 678 1.2 matt } 679 1.2 matt slot = maybe_slot; 680 1.2 matt #if 0 681 1.2 matt printf("%s: pic_sourcebase=%zu pic_maxsources=%zu\n", 682 1.2 matt pic->pic_name, pic_sourcebase, pic->pic_maxsources); 683 1.2 matt #endif 684 1.17 matt KASSERTMSG(pic->pic_maxsources <= PIC_MAXSOURCES, "%zu", 685 1.17 matt pic->pic_maxsources); 686 1.2 matt KASSERT(pic_sourcebase + pic->pic_maxsources <= PIC_MAXMAXSOURCES); 687 1.35 skrll sourcebase = pic_sourcebase; 688 1.35 skrll pic_sourcebase += pic->pic_maxsources; 689 1.35 skrll 690 1.35 skrll mutex_exit(&pic_lock); 691 1.2 matt 692 1.13 matt /* 693 1.13 matt * Allocate a pointer to each cpu's evcnts and then, for each cpu, 694 1.13 matt * allocate its evcnts and then attach an evcnt for each pin. 695 1.13 matt * We can't allocate the evcnt structures directly since 696 1.41 skrll * percpu will move the contents of percpu memory around and 697 1.13 matt * corrupt the pointers in the evcnts themselves. Remember, any 698 1.13 matt * problem can be solved with sufficient indirection. 699 1.13 matt */ 700 1.13 matt pic->pic_percpu = percpu_alloc(sizeof(struct pic_percpu)); 701 1.13 matt 702 1.13 matt /* 703 1.13 matt * Now allocate the per-cpu evcnts. 704 1.13 matt */ 705 1.13 matt percpu_foreach(pic->pic_percpu, pic_percpu_allocate, pic); 706 1.13 matt 707 1.35 skrll pic->pic_sources = &pic_sources[sourcebase]; 708 1.2 matt pic->pic_irqbase = irqbase; 709 1.2 matt pic->pic_id = slot; 710 1.13 matt #ifdef __HAVE_PIC_SET_PRIORITY 711 1.13 matt KASSERT((slot == 0) == (pic->pic_ops->pic_set_priority != NULL)); 712 1.13 matt #endif 713 1.13 matt #ifdef MULTIPROCESSOR 714 1.29 matt KASSERT((pic->pic_cpus != NULL) == (pic->pic_ops->pic_ipi_send != NULL)); 715 1.13 matt #endif 716 1.2 matt pic_list[slot] = pic; 717 1.2 matt } 718 1.2 matt 719 1.2 matt int 720 1.2 matt pic_alloc_irq(struct pic_softc *pic) 721 1.2 matt { 722 1.2 matt int irq; 723 1.2 matt 724 1.2 matt for (irq = 0; irq < pic->pic_maxsources; irq++) { 725 1.2 matt if (pic->pic_sources[irq] == NULL) 726 1.2 matt return irq; 727 1.2 matt } 728 1.2 matt 729 1.2 matt return -1; 730 1.2 matt } 731 1.2 matt 732 1.13 matt static void 733 1.13 matt pic_percpu_evcnt_attach(void *v0, void *v1, struct cpu_info *ci) 734 1.13 matt { 735 1.13 matt struct pic_percpu * const pcpu = v0; 736 1.13 matt struct intrsource * const is = v1; 737 1.13 matt 738 1.13 matt KASSERT(pcpu->pcpu_magic == PICPERCPU_MAGIC); 739 1.13 matt evcnt_attach_dynamic(&pcpu->pcpu_evs[is->is_irq], EVCNT_TYPE_INTR, NULL, 740 1.13 matt pcpu->pcpu_name, is->is_source); 741 1.13 matt } 742 1.13 matt 743 1.2 matt void * 744 1.2 matt pic_establish_intr(struct pic_softc *pic, int irq, int ipl, int type, 745 1.48 jmcneill int (*func)(void *), void *arg, const char *xname) 746 1.2 matt { 747 1.2 matt struct intrsource *is; 748 1.2 matt int off, nipl; 749 1.2 matt 750 1.2 matt if (pic->pic_sources[irq]) { 751 1.2 matt printf("pic_establish_intr: pic %s irq %d already present\n", 752 1.2 matt pic->pic_name, irq); 753 1.2 matt return NULL; 754 1.2 matt } 755 1.2 matt 756 1.11 matt is = kmem_zalloc(sizeof(*is), KM_SLEEP); 757 1.2 matt is->is_pic = pic; 758 1.2 matt is->is_irq = irq; 759 1.2 matt is->is_ipl = ipl; 760 1.21 matt is->is_type = type & 0xff; 761 1.2 matt is->is_func = func; 762 1.2 matt is->is_arg = arg; 763 1.20 matt #ifdef MULTIPROCESSOR 764 1.24 skrll is->is_mpsafe = (type & IST_MPSAFE) || ipl != IPL_VM; 765 1.20 matt #endif 766 1.13 matt 767 1.2 matt if (pic->pic_ops->pic_source_name) 768 1.2 matt (*pic->pic_ops->pic_source_name)(pic, irq, is->is_source, 769 1.2 matt sizeof(is->is_source)); 770 1.2 matt else 771 1.2 matt snprintf(is->is_source, sizeof(is->is_source), "irq %d", irq); 772 1.2 matt 773 1.13 matt /* 774 1.13 matt * Now attach the per-cpu evcnts. 775 1.13 matt */ 776 1.13 matt percpu_foreach(pic->pic_percpu, pic_percpu_evcnt_attach, is); 777 1.2 matt 778 1.2 matt pic->pic_sources[irq] = is; 779 1.2 matt 780 1.2 matt /* 781 1.2 matt * First try to use an existing slot which is empty. 782 1.2 matt */ 783 1.2 matt for (off = pic_ipl_offset[ipl]; off < pic_ipl_offset[ipl+1]; off++) { 784 1.2 matt if (pic__iplsources[off] == NULL) { 785 1.2 matt is->is_iplidx = off - pic_ipl_offset[ipl]; 786 1.2 matt pic__iplsources[off] = is; 787 1.36 mlelstv goto unblock; 788 1.2 matt } 789 1.2 matt } 790 1.2 matt 791 1.2 matt /* 792 1.2 matt * Move up all the sources by one. 793 1.2 matt */ 794 1.2 matt if (ipl < NIPL) { 795 1.2 matt off = pic_ipl_offset[ipl+1]; 796 1.2 matt memmove(&pic__iplsources[off+1], &pic__iplsources[off], 797 1.2 matt sizeof(pic__iplsources[0]) * (pic_ipl_offset[NIPL] - off)); 798 1.2 matt } 799 1.2 matt 800 1.2 matt /* 801 1.2 matt * Advance the offset of all IPLs higher than this. Include an 802 1.2 matt * extra one as well. Thus the number of sources per ipl is 803 1.2 matt * pic_ipl_offset[ipl+1] - pic_ipl_offset[ipl]. 804 1.2 matt */ 805 1.2 matt for (nipl = ipl + 1; nipl <= NIPL; nipl++) 806 1.2 matt pic_ipl_offset[nipl]++; 807 1.2 matt 808 1.2 matt /* 809 1.2 matt * Insert into the previously made position at the end of this IPL's 810 1.2 matt * sources. 811 1.2 matt */ 812 1.2 matt off = pic_ipl_offset[ipl + 1] - 1; 813 1.2 matt is->is_iplidx = off - pic_ipl_offset[ipl]; 814 1.2 matt pic__iplsources[off] = is; 815 1.2 matt 816 1.2 matt (*pic->pic_ops->pic_establish_irq)(pic, is); 817 1.2 matt 818 1.36 mlelstv unblock: 819 1.2 matt (*pic->pic_ops->pic_unblock_irqs)(pic, is->is_irq & ~0x1f, 820 1.2 matt __BIT(is->is_irq & 0x1f)); 821 1.41 skrll 822 1.48 jmcneill if (xname) { 823 1.48 jmcneill if (is->is_xname == NULL) 824 1.48 jmcneill is->is_xname = kmem_zalloc(INTRDEVNAMEBUF, KM_SLEEP); 825 1.48 jmcneill if (is->is_xname[0] != '\0') 826 1.48 jmcneill strlcat(is->is_xname, ", ", INTRDEVNAMEBUF); 827 1.48 jmcneill strlcat(is->is_xname, xname, INTRDEVNAMEBUF); 828 1.48 jmcneill } 829 1.48 jmcneill 830 1.2 matt /* We're done. */ 831 1.2 matt return is; 832 1.2 matt } 833 1.2 matt 834 1.13 matt static void 835 1.13 matt pic_percpu_evcnt_deattach(void *v0, void *v1, struct cpu_info *ci) 836 1.13 matt { 837 1.13 matt struct pic_percpu * const pcpu = v0; 838 1.13 matt struct intrsource * const is = v1; 839 1.13 matt 840 1.13 matt KASSERT(pcpu->pcpu_magic == PICPERCPU_MAGIC); 841 1.13 matt evcnt_detach(&pcpu->pcpu_evs[is->is_irq]); 842 1.13 matt } 843 1.13 matt 844 1.2 matt void 845 1.2 matt pic_disestablish_source(struct intrsource *is) 846 1.2 matt { 847 1.2 matt struct pic_softc * const pic = is->is_pic; 848 1.2 matt const int irq = is->is_irq; 849 1.2 matt 850 1.13 matt KASSERT(is == pic->pic_sources[irq]); 851 1.13 matt 852 1.15 msaitoh (*pic->pic_ops->pic_block_irqs)(pic, irq & ~0x1f, __BIT(irq & 0x1f)); 853 1.2 matt pic->pic_sources[irq] = NULL; 854 1.2 matt pic__iplsources[pic_ipl_offset[is->is_ipl] + is->is_iplidx] = NULL; 855 1.48 jmcneill if (is->is_xname != NULL) { 856 1.48 jmcneill kmem_free(is->is_xname, INTRDEVNAMEBUF); 857 1.48 jmcneill is->is_xname = NULL; 858 1.48 jmcneill } 859 1.13 matt /* 860 1.13 matt * Now detach the per-cpu evcnts. 861 1.13 matt */ 862 1.13 matt percpu_foreach(pic->pic_percpu, pic_percpu_evcnt_deattach, is); 863 1.2 matt 864 1.11 matt kmem_free(is, sizeof(*is)); 865 1.2 matt } 866 1.2 matt 867 1.2 matt void * 868 1.2 matt intr_establish(int irq, int ipl, int type, int (*func)(void *), void *arg) 869 1.2 matt { 870 1.48 jmcneill return intr_establish_xname(irq, ipl, type, func, arg, NULL); 871 1.48 jmcneill } 872 1.48 jmcneill 873 1.48 jmcneill void * 874 1.48 jmcneill intr_establish_xname(int irq, int ipl, int type, int (*func)(void *), void *arg, 875 1.48 jmcneill const char *xname) 876 1.48 jmcneill { 877 1.11 matt KASSERT(!cpu_intr_p()); 878 1.11 matt KASSERT(!cpu_softintr_p()); 879 1.11 matt 880 1.13 matt for (size_t slot = 0; slot < PIC_MAXPICS; slot++) { 881 1.2 matt struct pic_softc * const pic = pic_list[slot]; 882 1.2 matt if (pic == NULL || pic->pic_irqbase < 0) 883 1.2 matt continue; 884 1.2 matt if (pic->pic_irqbase <= irq 885 1.2 matt && irq < pic->pic_irqbase + pic->pic_maxsources) { 886 1.2 matt return pic_establish_intr(pic, irq - pic->pic_irqbase, 887 1.48 jmcneill ipl, type, func, arg, xname); 888 1.2 matt } 889 1.2 matt } 890 1.2 matt 891 1.2 matt return NULL; 892 1.2 matt } 893 1.2 matt 894 1.2 matt void 895 1.2 matt intr_disestablish(void *ih) 896 1.2 matt { 897 1.2 matt struct intrsource * const is = ih; 898 1.13 matt 899 1.13 matt KASSERT(!cpu_intr_p()); 900 1.13 matt KASSERT(!cpu_softintr_p()); 901 1.13 matt 902 1.2 matt pic_disestablish_source(is); 903 1.2 matt } 904 1.44 jmcneill 905 1.49 jmcneill void 906 1.49 jmcneill intr_mask(void *ih) 907 1.49 jmcneill { 908 1.49 jmcneill struct intrsource * const is = ih; 909 1.49 jmcneill struct pic_softc * const pic = is->is_pic; 910 1.49 jmcneill const int irq = is->is_irq; 911 1.49 jmcneill 912 1.49 jmcneill (*pic->pic_ops->pic_block_irqs)(pic, irq & ~0x1f, __BIT(irq & 0x1f)); 913 1.49 jmcneill } 914 1.49 jmcneill 915 1.49 jmcneill void 916 1.49 jmcneill intr_unmask(void *ih) 917 1.49 jmcneill { 918 1.49 jmcneill struct intrsource * const is = ih; 919 1.49 jmcneill struct pic_softc * const pic = is->is_pic; 920 1.49 jmcneill const int irq = is->is_irq; 921 1.49 jmcneill 922 1.49 jmcneill (*pic->pic_ops->pic_unblock_irqs)(pic, irq & ~0x1f, __BIT(irq & 0x1f)); 923 1.49 jmcneill } 924 1.49 jmcneill 925 1.45 jmcneill const char * 926 1.45 jmcneill intr_string(intr_handle_t irq, char *buf, size_t len) 927 1.45 jmcneill { 928 1.45 jmcneill for (size_t slot = 0; slot < PIC_MAXPICS; slot++) { 929 1.45 jmcneill struct pic_softc * const pic = pic_list[slot]; 930 1.45 jmcneill if (pic == NULL || pic->pic_irqbase < 0) 931 1.45 jmcneill continue; 932 1.45 jmcneill if (pic->pic_irqbase <= irq 933 1.45 jmcneill && irq < pic->pic_irqbase + pic->pic_maxsources) { 934 1.45 jmcneill struct intrsource * const is = pic->pic_sources[irq - pic->pic_irqbase]; 935 1.45 jmcneill snprintf(buf, len, "%s %s", pic->pic_name, is->is_source); 936 1.45 jmcneill return buf; 937 1.45 jmcneill } 938 1.45 jmcneill } 939 1.45 jmcneill 940 1.45 jmcneill return NULL; 941 1.45 jmcneill } 942 1.45 jmcneill 943 1.46 jmcneill static struct intrsource * 944 1.46 jmcneill intr_get_source(const char *intrid) 945 1.46 jmcneill { 946 1.46 jmcneill struct intrsource *is; 947 1.46 jmcneill intrid_t buf; 948 1.46 jmcneill size_t slot; 949 1.46 jmcneill int irq; 950 1.46 jmcneill 951 1.46 jmcneill KASSERT(mutex_owned(&cpu_lock)); 952 1.46 jmcneill 953 1.46 jmcneill for (slot = 0; slot < PIC_MAXPICS; slot++) { 954 1.46 jmcneill struct pic_softc * const pic = pic_list[slot]; 955 1.46 jmcneill if (pic == NULL || pic->pic_irqbase < 0) 956 1.46 jmcneill continue; 957 1.46 jmcneill for (irq = 0; irq < pic->pic_maxsources; irq++) { 958 1.47 jmcneill is = pic->pic_sources[irq]; 959 1.46 jmcneill if (is == NULL || is->is_source[0] == '\0') 960 1.46 jmcneill continue; 961 1.46 jmcneill 962 1.46 jmcneill snprintf(buf, sizeof(buf), "%s %s", pic->pic_name, is->is_source); 963 1.46 jmcneill if (strcmp(buf, intrid) == 0) 964 1.46 jmcneill return is; 965 1.46 jmcneill } 966 1.46 jmcneill } 967 1.46 jmcneill 968 1.46 jmcneill return NULL; 969 1.46 jmcneill } 970 1.46 jmcneill 971 1.46 jmcneill struct intrids_handler * 972 1.46 jmcneill interrupt_construct_intrids(const kcpuset_t *cpuset) 973 1.46 jmcneill { 974 1.46 jmcneill struct intrids_handler *iih; 975 1.46 jmcneill struct intrsource *is; 976 1.46 jmcneill int count, irq, n; 977 1.46 jmcneill size_t slot; 978 1.46 jmcneill 979 1.46 jmcneill if (kcpuset_iszero(cpuset)) 980 1.46 jmcneill return NULL; 981 1.46 jmcneill 982 1.46 jmcneill count = 0; 983 1.46 jmcneill for (slot = 0; slot < PIC_MAXPICS; slot++) { 984 1.46 jmcneill struct pic_softc * const pic = pic_list[slot]; 985 1.46 jmcneill if (pic != NULL && pic->pic_irqbase >= 0) { 986 1.46 jmcneill for (irq = 0; irq < pic->pic_maxsources; irq++) { 987 1.47 jmcneill is = pic->pic_sources[irq]; 988 1.46 jmcneill if (is && is->is_source[0] != '\0') 989 1.46 jmcneill count++; 990 1.46 jmcneill } 991 1.46 jmcneill } 992 1.46 jmcneill } 993 1.46 jmcneill 994 1.46 jmcneill iih = kmem_zalloc(sizeof(int) + sizeof(intrid_t) * count, KM_SLEEP); 995 1.46 jmcneill iih->iih_nids = count; 996 1.46 jmcneill 997 1.46 jmcneill for (n = 0, slot = 0; n < count && slot < PIC_MAXPICS; slot++) { 998 1.46 jmcneill struct pic_softc * const pic = pic_list[slot]; 999 1.46 jmcneill if (pic == NULL || pic->pic_irqbase < 0) 1000 1.46 jmcneill continue; 1001 1.46 jmcneill for (irq = 0; irq < pic->pic_maxsources; irq++) { 1002 1.47 jmcneill is = pic->pic_sources[irq]; 1003 1.46 jmcneill if (is == NULL || is->is_source[0] == '\0') 1004 1.46 jmcneill continue; 1005 1.46 jmcneill 1006 1.46 jmcneill snprintf(iih->iih_intrids[n++], sizeof(intrid_t), "%s %s", 1007 1.46 jmcneill pic->pic_name, is->is_source); 1008 1.46 jmcneill } 1009 1.46 jmcneill } 1010 1.46 jmcneill 1011 1.46 jmcneill return iih; 1012 1.46 jmcneill } 1013 1.46 jmcneill 1014 1.46 jmcneill void 1015 1.46 jmcneill interrupt_destruct_intrids(struct intrids_handler *iih) 1016 1.46 jmcneill { 1017 1.46 jmcneill if (iih == NULL) 1018 1.46 jmcneill return; 1019 1.46 jmcneill 1020 1.46 jmcneill kmem_free(iih, sizeof(int) + sizeof(intrid_t) * iih->iih_nids); 1021 1.46 jmcneill } 1022 1.46 jmcneill 1023 1.46 jmcneill void 1024 1.46 jmcneill interrupt_get_available(kcpuset_t *cpuset) 1025 1.46 jmcneill { 1026 1.46 jmcneill CPU_INFO_ITERATOR cii; 1027 1.46 jmcneill struct cpu_info *ci; 1028 1.46 jmcneill 1029 1.46 jmcneill kcpuset_zero(cpuset); 1030 1.46 jmcneill 1031 1.46 jmcneill mutex_enter(&cpu_lock); 1032 1.46 jmcneill for (CPU_INFO_FOREACH(cii, ci)) { 1033 1.46 jmcneill if ((ci->ci_schedstate.spc_flags & SPCF_NOINTR) == 0) 1034 1.46 jmcneill kcpuset_set(cpuset, cpu_index(ci)); 1035 1.46 jmcneill } 1036 1.46 jmcneill mutex_exit(&cpu_lock); 1037 1.46 jmcneill } 1038 1.46 jmcneill 1039 1.46 jmcneill void 1040 1.46 jmcneill interrupt_get_devname(const char *intrid, char *buf, size_t len) 1041 1.46 jmcneill { 1042 1.48 jmcneill struct intrsource *is; 1043 1.48 jmcneill 1044 1.48 jmcneill mutex_enter(&cpu_lock); 1045 1.48 jmcneill is = intr_get_source(intrid); 1046 1.48 jmcneill if (is == NULL || is->is_xname == NULL) 1047 1.48 jmcneill buf[0] = '\0'; 1048 1.48 jmcneill else 1049 1.48 jmcneill strlcpy(buf, is->is_xname, len); 1050 1.48 jmcneill mutex_exit(&cpu_lock); 1051 1.46 jmcneill } 1052 1.46 jmcneill 1053 1.46 jmcneill struct interrupt_get_count_arg { 1054 1.46 jmcneill struct intrsource *is; 1055 1.46 jmcneill uint64_t count; 1056 1.46 jmcneill u_int cpu_idx; 1057 1.46 jmcneill }; 1058 1.46 jmcneill 1059 1.46 jmcneill static void 1060 1.46 jmcneill interrupt_get_count_cb(void *v0, void *v1, struct cpu_info *ci) 1061 1.46 jmcneill { 1062 1.46 jmcneill struct pic_percpu * const pcpu = v0; 1063 1.46 jmcneill struct interrupt_get_count_arg * const arg = v1; 1064 1.46 jmcneill 1065 1.46 jmcneill if (arg->cpu_idx != cpu_index(ci)) 1066 1.46 jmcneill return; 1067 1.46 jmcneill 1068 1.46 jmcneill arg->count = pcpu->pcpu_evs[arg->is->is_irq].ev_count; 1069 1.46 jmcneill } 1070 1.46 jmcneill 1071 1.46 jmcneill uint64_t 1072 1.46 jmcneill interrupt_get_count(const char *intrid, u_int cpu_idx) 1073 1.46 jmcneill { 1074 1.46 jmcneill struct interrupt_get_count_arg arg; 1075 1.46 jmcneill struct intrsource *is; 1076 1.46 jmcneill uint64_t count; 1077 1.46 jmcneill 1078 1.46 jmcneill count = 0; 1079 1.46 jmcneill 1080 1.46 jmcneill mutex_enter(&cpu_lock); 1081 1.46 jmcneill is = intr_get_source(intrid); 1082 1.46 jmcneill if (is != NULL && is->is_pic != NULL) { 1083 1.46 jmcneill arg.is = is; 1084 1.46 jmcneill arg.count = 0; 1085 1.46 jmcneill arg.cpu_idx = cpu_idx; 1086 1.46 jmcneill percpu_foreach(is->is_pic->pic_percpu, interrupt_get_count_cb, &arg); 1087 1.46 jmcneill count = arg.count; 1088 1.46 jmcneill } 1089 1.46 jmcneill mutex_exit(&cpu_lock); 1090 1.46 jmcneill 1091 1.46 jmcneill return count; 1092 1.46 jmcneill } 1093 1.46 jmcneill 1094 1.44 jmcneill #ifdef MULTIPROCESSOR 1095 1.46 jmcneill void 1096 1.46 jmcneill interrupt_get_assigned(const char *intrid, kcpuset_t *cpuset) 1097 1.46 jmcneill { 1098 1.46 jmcneill struct intrsource *is; 1099 1.46 jmcneill struct pic_softc *pic; 1100 1.46 jmcneill 1101 1.46 jmcneill kcpuset_zero(cpuset); 1102 1.46 jmcneill 1103 1.46 jmcneill mutex_enter(&cpu_lock); 1104 1.46 jmcneill is = intr_get_source(intrid); 1105 1.46 jmcneill if (is != NULL) { 1106 1.46 jmcneill pic = is->is_pic; 1107 1.46 jmcneill if (pic && pic->pic_ops->pic_get_affinity) 1108 1.46 jmcneill pic->pic_ops->pic_get_affinity(pic, is->is_irq, cpuset); 1109 1.46 jmcneill } 1110 1.46 jmcneill mutex_exit(&cpu_lock); 1111 1.46 jmcneill } 1112 1.46 jmcneill 1113 1.46 jmcneill int 1114 1.46 jmcneill interrupt_distribute_handler(const char *intrid, const kcpuset_t *newset, 1115 1.46 jmcneill kcpuset_t *oldset) 1116 1.46 jmcneill { 1117 1.46 jmcneill struct intrsource *is; 1118 1.46 jmcneill int error; 1119 1.46 jmcneill 1120 1.46 jmcneill mutex_enter(&cpu_lock); 1121 1.46 jmcneill is = intr_get_source(intrid); 1122 1.46 jmcneill if (is == NULL) { 1123 1.46 jmcneill error = ENOENT; 1124 1.46 jmcneill } else { 1125 1.46 jmcneill error = interrupt_distribute(is, newset, oldset); 1126 1.46 jmcneill } 1127 1.46 jmcneill mutex_exit(&cpu_lock); 1128 1.46 jmcneill 1129 1.46 jmcneill return error; 1130 1.46 jmcneill } 1131 1.46 jmcneill 1132 1.44 jmcneill int 1133 1.44 jmcneill interrupt_distribute(void *ih, const kcpuset_t *newset, kcpuset_t *oldset) 1134 1.44 jmcneill { 1135 1.44 jmcneill struct intrsource * const is = ih; 1136 1.44 jmcneill struct pic_softc * const pic = is->is_pic; 1137 1.44 jmcneill 1138 1.44 jmcneill if (pic == NULL) 1139 1.44 jmcneill return EOPNOTSUPP; 1140 1.44 jmcneill if (pic->pic_ops->pic_set_affinity == NULL || 1141 1.44 jmcneill pic->pic_ops->pic_get_affinity == NULL) 1142 1.44 jmcneill return EOPNOTSUPP; 1143 1.44 jmcneill 1144 1.44 jmcneill if (!is->is_mpsafe) 1145 1.44 jmcneill return EINVAL; 1146 1.44 jmcneill 1147 1.44 jmcneill if (oldset != NULL) 1148 1.44 jmcneill pic->pic_ops->pic_get_affinity(pic, is->is_irq, oldset); 1149 1.44 jmcneill 1150 1.44 jmcneill return pic->pic_ops->pic_set_affinity(pic, is->is_irq, newset); 1151 1.44 jmcneill } 1152 1.44 jmcneill #endif 1153
Indexes created Fri Sep 26 08:10:20 GMT 2025