intr.c revision 1.40
1 1.40 pooka /* $NetBSD: intr.c,v 1.40 2013/05/02 21:45:28 pooka Exp $ */ 2 1.2 ad 3 1.5 pooka /* 4 1.36 pooka * Copyright (c) 2008-2010 Antti Kantee. All Rights Reserved. 5 1.2 ad * 6 1.2 ad * Redistribution and use in source and binary forms, with or without 7 1.2 ad * modification, are permitted provided that the following conditions 8 1.2 ad * are met: 9 1.2 ad * 1. Redistributions of source code must retain the above copyright 10 1.2 ad * notice, this list of conditions and the following disclaimer. 11 1.2 ad * 2. Redistributions in binary form must reproduce the above copyright 12 1.2 ad * notice, this list of conditions and the following disclaimer in the 13 1.2 ad * documentation and/or other materials provided with the distribution. 14 1.2 ad * 15 1.5 pooka * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS 16 1.5 pooka * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 17 1.5 pooka * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 18 1.5 pooka * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19 1.5 pooka * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20 1.5 pooka * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 21 1.5 pooka * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22 1.5 pooka * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23 1.5 pooka * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24 1.5 pooka * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25 1.5 pooka * SUCH DAMAGE. 26 1.2 ad */ 27 1.2 ad 28 1.11 pooka #include <sys/cdefs.h> 29 1.40 pooka __KERNEL_RCSID(0, "$NetBSD: intr.c,v 1.40 2013/05/02 21:45:28 pooka Exp $"); 30 1.11 pooka 31 1.2 ad #include <sys/param.h> 32 1.29 martin #include <sys/atomic.h> 33 1.5 pooka #include <sys/cpu.h> 34 1.24 pooka #include <sys/kernel.h> 35 1.12 pooka #include <sys/kmem.h> 36 1.5 pooka #include <sys/kthread.h> 37 1.28 pooka #include <sys/malloc.h> 38 1.2 ad #include <sys/intr.h> 39 1.24 pooka #include <sys/timetc.h> 40 1.2 ad 41 1.5 pooka #include <rump/rumpuser.h> 42 1.5 pooka 43 1.5 pooka #include "rump_private.h" 44 1.5 pooka 45 1.5 pooka /* 46 1.5 pooka * Interrupt simulator. It executes hardclock() and softintrs. 47 1.5 pooka */ 48 1.5 pooka 49 1.18 pooka #define SI_MPSAFE 0x01 50 1.32 pooka #define SI_KILLME 0x02 51 1.20 pooka 52 1.32 pooka struct softint_percpu; 53 1.5 pooka struct softint { 54 1.5 pooka void (*si_func)(void *); 55 1.5 pooka void *si_arg; 56 1.18 pooka int si_flags; 57 1.20 pooka int si_level; 58 1.5 pooka 59 1.32 pooka struct softint_percpu *si_entry; /* [0,ncpu-1] */ 60 1.32 pooka }; 61 1.32 pooka 62 1.32 pooka struct softint_percpu { 63 1.32 pooka struct softint *sip_parent; 64 1.32 pooka bool sip_onlist; 65 1.32 pooka 66 1.32 pooka LIST_ENTRY(softint_percpu) sip_entries; 67 1.2 ad }; 68 1.10 pooka 69 1.22 pooka struct softint_lev { 70 1.20 pooka struct rumpuser_cv *si_cv; 71 1.32 pooka LIST_HEAD(, softint_percpu) si_pending; 72 1.22 pooka }; 73 1.10 pooka 74 1.23 pooka kcondvar_t lbolt; /* Oh Kath Ra */ 75 1.23 pooka 76 1.24 pooka static u_int ticks; 77 1.34 pooka static int ncpu_final; 78 1.24 pooka 79 1.24 pooka static u_int 80 1.24 pooka rumptc_get(struct timecounter *tc) 81 1.14 pooka { 82 1.14 pooka 83 1.24 pooka KASSERT(rump_threads); 84 1.24 pooka return ticks; 85 1.16 pooka } 86 1.16 pooka 87 1.24 pooka static struct timecounter rumptc = { 88 1.24 pooka .tc_get_timecount = rumptc_get, 89 1.24 pooka .tc_poll_pps = NULL, 90 1.24 pooka .tc_counter_mask = ~0, 91 1.24 pooka .tc_frequency = 0, 92 1.24 pooka .tc_name = "rumpclk", 93 1.24 pooka .tc_quality = 0, 94 1.24 pooka }; 95 1.14 pooka 96 1.10 pooka /* 97 1.10 pooka * clock "interrupt" 98 1.10 pooka */ 99 1.10 pooka static void 100 1.10 pooka doclock(void *noarg) 101 1.10 pooka { 102 1.38 pooka struct timespec thetick, curclock; 103 1.40 pooka int64_t sec; 104 1.40 pooka long nsec; 105 1.24 pooka int error; 106 1.10 pooka extern int hz; 107 1.14 pooka 108 1.39 pooka error = rumpuser_clock_gettime(RUMPUSER_CLOCK_ABSMONO, &sec, &nsec); 109 1.38 pooka if (error) 110 1.38 pooka panic("clock: cannot get monotonic time"); 111 1.38 pooka 112 1.38 pooka curclock.tv_sec = sec; 113 1.38 pooka curclock.tv_nsec = nsec; 114 1.24 pooka thetick.tv_sec = 0; 115 1.24 pooka thetick.tv_nsec = 1000000000/hz; 116 1.14 pooka 117 1.10 pooka for (;;) { 118 1.5 pooka callout_hardclock(); 119 1.5 pooka 120 1.39 pooka error = rumpuser_clock_sleep(RUMPUSER_CLOCK_ABSMONO, 121 1.39 pooka curclock.tv_sec, curclock.tv_nsec); 122 1.38 pooka KASSERT(!error); 123 1.38 pooka timespecadd(&curclock, &thetick, &curclock); 124 1.26 pooka 125 1.26 pooka #if 0 126 1.26 pooka /* CPU_IS_PRIMARY is MD and hence unreliably correct here */ 127 1.26 pooka if (!CPU_IS_PRIMARY(curcpu())) 128 1.26 pooka continue; 129 1.26 pooka #else 130 1.27 pooka if (curcpu()->ci_index != 0) 131 1.25 pooka continue; 132 1.26 pooka #endif 133 1.22 pooka 134 1.24 pooka if ((++ticks % hz) == 0) { 135 1.23 pooka cv_broadcast(&lbolt); 136 1.8 pooka } 137 1.24 pooka tc_ticktock(); 138 1.10 pooka } 139 1.10 pooka } 140 1.8 pooka 141 1.10 pooka /* 142 1.28 pooka * Soft interrupt execution thread. This thread is pinned to the 143 1.28 pooka * same CPU that scheduled the interrupt, so we don't need to do 144 1.28 pooka * lock against si_lvl. 145 1.10 pooka */ 146 1.10 pooka static void 147 1.10 pooka sithread(void *arg) 148 1.10 pooka { 149 1.32 pooka struct softint_percpu *sip; 150 1.10 pooka struct softint *si; 151 1.10 pooka void (*func)(void *) = NULL; 152 1.10 pooka void *funarg; 153 1.10 pooka bool mpsafe; 154 1.20 pooka int mylevel = (uintptr_t)arg; 155 1.22 pooka struct softint_lev *si_lvlp, *si_lvl; 156 1.22 pooka struct cpu_data *cd = &curcpu()->ci_data; 157 1.20 pooka 158 1.22 pooka si_lvlp = cd->cpu_softcpu; 159 1.22 pooka si_lvl = &si_lvlp[mylevel]; 160 1.22 pooka 161 1.10 pooka for (;;) { 162 1.20 pooka if (!LIST_EMPTY(&si_lvl->si_pending)) { 163 1.32 pooka sip = LIST_FIRST(&si_lvl->si_pending); 164 1.32 pooka si = sip->sip_parent; 165 1.32 pooka 166 1.5 pooka func = si->si_func; 167 1.5 pooka funarg = si->si_arg; 168 1.18 pooka mpsafe = si->si_flags & SI_MPSAFE; 169 1.5 pooka 170 1.32 pooka sip->sip_onlist = false; 171 1.32 pooka LIST_REMOVE(sip, sip_entries); 172 1.20 pooka if (si->si_flags & SI_KILLME) { 173 1.18 pooka softint_disestablish(si); 174 1.20 pooka continue; 175 1.20 pooka } 176 1.10 pooka } else { 177 1.28 pooka rump_schedlock_cv_wait(si_lvl->si_cv); 178 1.10 pooka continue; 179 1.5 pooka } 180 1.5 pooka 181 1.10 pooka if (!mpsafe) 182 1.10 pooka KERNEL_LOCK(1, curlwp); 183 1.10 pooka func(funarg); 184 1.10 pooka if (!mpsafe) 185 1.10 pooka KERNEL_UNLOCK_ONE(curlwp); 186 1.5 pooka } 187 1.20 pooka 188 1.20 pooka panic("sithread unreachable"); 189 1.5 pooka } 190 1.2 ad 191 1.5 pooka void 192 1.34 pooka rump_intr_init(int numcpu) 193 1.22 pooka { 194 1.22 pooka 195 1.23 pooka cv_init(&lbolt, "oh kath ra"); 196 1.34 pooka ncpu_final = numcpu; 197 1.22 pooka } 198 1.22 pooka 199 1.22 pooka void 200 1.5 pooka softint_init(struct cpu_info *ci) 201 1.2 ad { 202 1.22 pooka struct cpu_data *cd = &ci->ci_data; 203 1.22 pooka struct softint_lev *slev; 204 1.20 pooka int rv, i; 205 1.5 pooka 206 1.22 pooka if (!rump_threads) 207 1.22 pooka return; 208 1.22 pooka 209 1.25 pooka /* XXX */ 210 1.25 pooka if (ci->ci_index == 0) { 211 1.25 pooka rumptc.tc_frequency = hz; 212 1.25 pooka tc_init(&rumptc); 213 1.25 pooka } 214 1.25 pooka 215 1.22 pooka slev = kmem_alloc(sizeof(struct softint_lev) * SOFTINT_COUNT, KM_SLEEP); 216 1.20 pooka for (i = 0; i < SOFTINT_COUNT; i++) { 217 1.22 pooka rumpuser_cv_init(&slev[i].si_cv); 218 1.22 pooka LIST_INIT(&slev[i].si_pending); 219 1.20 pooka } 220 1.22 pooka cd->cpu_softcpu = slev; 221 1.2 ad 222 1.28 pooka /* softint might run on different physical CPU */ 223 1.28 pooka membar_sync(); 224 1.28 pooka 225 1.22 pooka for (i = 0; i < SOFTINT_COUNT; i++) { 226 1.22 pooka rv = kthread_create(PRI_NONE, 227 1.25 pooka KTHREAD_MPSAFE | KTHREAD_INTR, ci, 228 1.22 pooka sithread, (void *)(uintptr_t)i, 229 1.30 pooka NULL, "rsi%d/%d", ci->ci_index, i); 230 1.22 pooka } 231 1.14 pooka 232 1.31 pooka rv = kthread_create(PRI_NONE, KTHREAD_MPSAFE, 233 1.30 pooka ci, doclock, NULL, NULL, "rumpclk%d", ci->ci_index); 234 1.25 pooka if (rv) 235 1.25 pooka panic("clock thread creation failed: %d", rv); 236 1.2 ad } 237 1.2 ad 238 1.5 pooka void * 239 1.5 pooka softint_establish(u_int flags, void (*func)(void *), void *arg) 240 1.2 ad { 241 1.5 pooka struct softint *si; 242 1.32 pooka struct softint_percpu *sip; 243 1.32 pooka int i; 244 1.2 ad 245 1.28 pooka si = malloc(sizeof(*si), M_TEMP, M_WAITOK); 246 1.5 pooka si->si_func = func; 247 1.5 pooka si->si_arg = arg; 248 1.18 pooka si->si_flags = flags & SOFTINT_MPSAFE ? SI_MPSAFE : 0; 249 1.20 pooka si->si_level = flags & SOFTINT_LVLMASK; 250 1.20 pooka KASSERT(si->si_level < SOFTINT_COUNT); 251 1.34 pooka si->si_entry = malloc(sizeof(*si->si_entry) * ncpu_final, 252 1.32 pooka M_TEMP, M_WAITOK | M_ZERO); 253 1.34 pooka for (i = 0; i < ncpu_final; i++) { 254 1.32 pooka sip = &si->si_entry[i]; 255 1.32 pooka sip->sip_parent = si; 256 1.32 pooka } 257 1.5 pooka 258 1.5 pooka return si; 259 1.2 ad } 260 1.2 ad 261 1.33 pooka /* 262 1.33 pooka * Soft interrupts bring two choices. If we are running with thread 263 1.33 pooka * support enabled, defer execution, otherwise execute in place. 264 1.33 pooka */ 265 1.33 pooka 266 1.2 ad void 267 1.2 ad softint_schedule(void *arg) 268 1.2 ad { 269 1.5 pooka struct softint *si = arg; 270 1.32 pooka struct softint_percpu *sip = &si->si_entry[curcpu()->ci_index]; 271 1.22 pooka struct cpu_data *cd = &curcpu()->ci_data; 272 1.22 pooka struct softint_lev *si_lvl = cd->cpu_softcpu; 273 1.2 ad 274 1.5 pooka if (!rump_threads) { 275 1.5 pooka si->si_func(si->si_arg); 276 1.5 pooka } else { 277 1.32 pooka if (!sip->sip_onlist) { 278 1.22 pooka LIST_INSERT_HEAD(&si_lvl[si->si_level].si_pending, 279 1.32 pooka sip, sip_entries); 280 1.32 pooka sip->sip_onlist = true; 281 1.5 pooka } 282 1.5 pooka } 283 1.2 ad } 284 1.2 ad 285 1.32 pooka /* 286 1.32 pooka * flimsy disestablish: should wait for softints to finish. 287 1.32 pooka */ 288 1.18 pooka void 289 1.18 pooka softint_disestablish(void *cook) 290 1.18 pooka { 291 1.18 pooka struct softint *si = cook; 292 1.32 pooka int i; 293 1.18 pooka 294 1.34 pooka for (i = 0; i < ncpu_final; i++) { 295 1.32 pooka struct softint_percpu *sip; 296 1.32 pooka 297 1.32 pooka sip = &si->si_entry[i]; 298 1.32 pooka if (sip->sip_onlist) { 299 1.32 pooka si->si_flags |= SI_KILLME; 300 1.32 pooka return; 301 1.32 pooka } 302 1.18 pooka } 303 1.32 pooka free(si->si_entry, M_TEMP); 304 1.28 pooka free(si, M_TEMP); 305 1.18 pooka } 306 1.18 pooka 307 1.20 pooka void 308 1.20 pooka rump_softint_run(struct cpu_info *ci) 309 1.20 pooka { 310 1.22 pooka struct cpu_data *cd = &ci->ci_data; 311 1.22 pooka struct softint_lev *si_lvl = cd->cpu_softcpu; 312 1.20 pooka int i; 313 1.20 pooka 314 1.22 pooka if (!rump_threads) 315 1.22 pooka return; 316 1.22 pooka 317 1.20 pooka for (i = 0; i < SOFTINT_COUNT; i++) { 318 1.22 pooka if (!LIST_EMPTY(&si_lvl[i].si_pending)) 319 1.22 pooka rumpuser_cv_signal(si_lvl[i].si_cv); 320 1.20 pooka } 321 1.20 pooka } 322 1.20 pooka 323 1.2 ad bool 324 1.9 christos cpu_intr_p(void) 325 1.2 ad { 326 1.2 ad 327 1.2 ad return false; 328 1.2 ad } 329 1.19 pooka 330 1.19 pooka bool 331 1.19 pooka cpu_softintr_p(void) 332 1.19 pooka { 333 1.19 pooka 334 1.20 pooka return curlwp->l_pflag & LP_INTR; 335 1.19 pooka } 336
Indexes created Thu Sep 25 16:09:42 GMT 2025