sysmon_envsys_events.c revision 1.19.4.4
1 1.19.4.4 joerg /* $NetBSD: sysmon_envsys_events.c,v 1.19.4.4 2007/10/26 15:47:38 joerg Exp $ */ 2 1.1 xtraeme 3 1.1 xtraeme /*- 4 1.19.4.3 joerg * Copyright (c) 2007 Juan Romero Pardines. 5 1.1 xtraeme * All rights reserved. 6 1.1 xtraeme * 7 1.1 xtraeme * Redistribution and use in source and binary forms, with or without 8 1.1 xtraeme * modification, are permitted provided that the following conditions 9 1.1 xtraeme * are met: 10 1.1 xtraeme * 1. Redistributions of source code must retain the above copyright 11 1.1 xtraeme * notice, this list of conditions and the following disclaimer. 12 1.1 xtraeme * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 xtraeme * notice, this list of conditions and the following disclaimer in the 14 1.1 xtraeme * documentation and/or other materials provided with the distribution. 15 1.1 xtraeme * 16 1.19.4.3 joerg * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.19.4.3 joerg * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.19.4.3 joerg * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.19.4.3 joerg * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.19.4.3 joerg * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 21 1.19.4.3 joerg * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 1.19.4.3 joerg * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 1.19.4.3 joerg * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 1.19.4.3 joerg * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 25 1.19.4.3 joerg * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 1.1 xtraeme */ 27 1.1 xtraeme 28 1.1 xtraeme /* 29 1.1 xtraeme * sysmon_envsys(9) events framework. 30 1.1 xtraeme */ 31 1.1 xtraeme 32 1.1 xtraeme #include <sys/cdefs.h> 33 1.19.4.4 joerg __KERNEL_RCSID(0, "$NetBSD: sysmon_envsys_events.c,v 1.19.4.4 2007/10/26 15:47:38 joerg Exp $"); 34 1.1 xtraeme 35 1.1 xtraeme #include <sys/param.h> 36 1.1 xtraeme #include <sys/types.h> 37 1.1 xtraeme #include <sys/conf.h> 38 1.1 xtraeme #include <sys/errno.h> 39 1.1 xtraeme #include <sys/kernel.h> 40 1.3 xtraeme #include <sys/sysctl.h> 41 1.1 xtraeme #include <sys/systm.h> 42 1.1 xtraeme #include <sys/proc.h> 43 1.1 xtraeme #include <sys/mutex.h> 44 1.1 xtraeme #include <sys/kmem.h> 45 1.1 xtraeme #include <sys/callout.h> 46 1.1 xtraeme 47 1.19.4.2 joerg /* #define ENVSYS_DEBUG */ 48 1.1 xtraeme #include <dev/sysmon/sysmonvar.h> 49 1.1 xtraeme #include <dev/sysmon/sysmon_envsysvar.h> 50 1.1 xtraeme 51 1.10 xtraeme struct sme_sensor_event { 52 1.10 xtraeme int state; 53 1.10 xtraeme int event; 54 1.10 xtraeme }; 55 1.10 xtraeme 56 1.10 xtraeme static const struct sme_sensor_event sme_sensor_event[] = { 57 1.10 xtraeme { ENVSYS_SVALID, PENVSYS_EVENT_NORMAL }, 58 1.10 xtraeme { ENVSYS_SCRITICAL, PENVSYS_EVENT_CRITICAL }, 59 1.10 xtraeme { ENVSYS_SCRITOVER, PENVSYS_EVENT_CRITOVER }, 60 1.10 xtraeme { ENVSYS_SCRITUNDER, PENVSYS_EVENT_CRITUNDER }, 61 1.10 xtraeme { ENVSYS_SWARNOVER, PENVSYS_EVENT_WARNOVER }, 62 1.10 xtraeme { ENVSYS_SWARNUNDER, PENVSYS_EVENT_WARNUNDER }, 63 1.10 xtraeme { -1, -1 } 64 1.10 xtraeme }; 65 1.10 xtraeme 66 1.1 xtraeme static struct workqueue *seewq; 67 1.1 xtraeme static struct callout seeco; 68 1.1 xtraeme static bool sme_events_initialized = false; 69 1.19.4.4 joerg static bool sysmon_low_power = false; 70 1.19.4.2 joerg kmutex_t sme_mtx, sme_event_init_mtx; 71 1.19.4.2 joerg kcondvar_t sme_cv; 72 1.1 xtraeme 73 1.3 xtraeme /* 10 seconds of timeout for the callout */ 74 1.3 xtraeme static int sme_events_timeout = 10; 75 1.3 xtraeme static int sme_events_timeout_sysctl(SYSCTLFN_PROTO); 76 1.3 xtraeme #define SME_EVTIMO (sme_events_timeout * hz) 77 1.3 xtraeme 78 1.19.4.4 joerg static int sme_event_check_low_power(void); 79 1.19.4.4 joerg 80 1.3 xtraeme /* 81 1.3 xtraeme * sysctl(9) stuff to handle the refresh value in the callout 82 1.3 xtraeme * function. 83 1.3 xtraeme */ 84 1.3 xtraeme static int 85 1.3 xtraeme sme_events_timeout_sysctl(SYSCTLFN_ARGS) 86 1.3 xtraeme { 87 1.3 xtraeme struct sysctlnode node; 88 1.3 xtraeme int timo, error; 89 1.3 xtraeme 90 1.3 xtraeme node = *rnode; 91 1.3 xtraeme timo = sme_events_timeout; 92 1.3 xtraeme node.sysctl_data = &timo; 93 1.3 xtraeme 94 1.3 xtraeme error = sysctl_lookup(SYSCTLFN_CALL(&node)); 95 1.19.4.3 joerg if (error || !newp) 96 1.3 xtraeme return error; 97 1.3 xtraeme 98 1.5 xtraeme /* min 1s */ 99 1.5 xtraeme if (timo < 1) 100 1.3 xtraeme return EINVAL; 101 1.3 xtraeme 102 1.3 xtraeme sme_events_timeout = timo; 103 1.3 xtraeme return 0; 104 1.3 xtraeme } 105 1.3 xtraeme 106 1.3 xtraeme SYSCTL_SETUP(sysctl_kern_envsys_timeout_setup, "sysctl kern.envsys subtree") 107 1.3 xtraeme { 108 1.3 xtraeme const struct sysctlnode *node, *envsys_node; 109 1.3 xtraeme 110 1.3 xtraeme sysctl_createv(clog, 0, NULL, &node, 111 1.3 xtraeme CTLFLAG_PERMANENT, 112 1.3 xtraeme CTLTYPE_NODE, "kern", NULL, 113 1.3 xtraeme NULL, 0, NULL, 0, 114 1.3 xtraeme CTL_KERN, CTL_EOL); 115 1.3 xtraeme 116 1.3 xtraeme sysctl_createv(clog, 0, &node, &envsys_node, 117 1.3 xtraeme 0, 118 1.3 xtraeme CTLTYPE_NODE, "envsys", NULL, 119 1.3 xtraeme NULL, 0, NULL, 0, 120 1.3 xtraeme CTL_CREATE, CTL_EOL); 121 1.3 xtraeme 122 1.3 xtraeme sysctl_createv(clog, 0, &envsys_node, &node, 123 1.3 xtraeme CTLFLAG_READWRITE, 124 1.3 xtraeme CTLTYPE_INT, "refresh_value", 125 1.3 xtraeme SYSCTL_DESCR("wait time in seconds to refresh " 126 1.3 xtraeme "sensors being monitored"), 127 1.3 xtraeme sme_events_timeout_sysctl, 0, &sme_events_timeout, 0, 128 1.3 xtraeme CTL_CREATE, CTL_EOL); 129 1.3 xtraeme } 130 1.3 xtraeme 131 1.1 xtraeme /* 132 1.1 xtraeme * sme_event_register: 133 1.1 xtraeme * 134 1.19.4.1 jmcneill * + Registers a new sysmon envsys event or updates any event 135 1.19.4.1 jmcneill * already in the queue. 136 1.1 xtraeme */ 137 1.1 xtraeme int 138 1.19.4.1 jmcneill sme_event_register(prop_dictionary_t sdict, envsys_data_t *edata, 139 1.19.4.1 jmcneill const char *drvn, const char *objkey, 140 1.19.4.1 jmcneill int32_t critval, int crittype, int powertype) 141 1.1 xtraeme { 142 1.19.4.1 jmcneill sme_event_t *see = NULL; 143 1.19.4.1 jmcneill prop_object_t obj; 144 1.19.4.1 jmcneill bool critvalup = false; 145 1.1 xtraeme int error = 0; 146 1.1 xtraeme 147 1.19.4.1 jmcneill KASSERT(sdict != NULL || edata != NULL); 148 1.1 xtraeme 149 1.19.4.2 joerg mutex_enter(&sme_mtx); 150 1.1 xtraeme /* 151 1.19.4.1 jmcneill * check if the event is already on the list and return 152 1.19.4.1 jmcneill * EEXIST if value provided hasn't been changed. 153 1.1 xtraeme */ 154 1.19.4.1 jmcneill LIST_FOREACH(see, &sme_events_list, see_list) { 155 1.19.4.1 jmcneill if (strcmp(edata->desc, see->pes.pes_sensname) == 0) 156 1.19.4.1 jmcneill if (crittype == see->type) { 157 1.19.4.1 jmcneill if (see->critval == critval) { 158 1.19.4.1 jmcneill DPRINTF(("%s: dev=%s sensor=%s type=%d " 159 1.19.4.1 jmcneill "(already exists)\n", __func__, 160 1.19.4.1 jmcneill see->pes.pes_dvname, 161 1.19.4.1 jmcneill see->pes.pes_sensname, see->type)); 162 1.19.4.2 joerg mutex_exit(&sme_mtx); 163 1.19.4.1 jmcneill return EEXIST; 164 1.19.4.1 jmcneill } 165 1.19.4.1 jmcneill critvalup = true; 166 1.19.4.1 jmcneill break; 167 1.1 xtraeme } 168 1.19.4.1 jmcneill } 169 1.19.4.1 jmcneill 170 1.19.4.1 jmcneill /* 171 1.19.4.1 jmcneill * Critical condition operation requested by userland. 172 1.19.4.1 jmcneill */ 173 1.19.4.1 jmcneill if (objkey && critval && critvalup) { 174 1.19.4.1 jmcneill obj = prop_dictionary_get(sdict, objkey); 175 1.19.4.3 joerg if (obj) { 176 1.19.4.1 jmcneill /* 177 1.19.4.1 jmcneill * object is already in dictionary and value 178 1.19.4.1 jmcneill * provided is not the same than we have 179 1.19.4.1 jmcneill * currently, update the critical value. 180 1.19.4.1 jmcneill */ 181 1.19.4.1 jmcneill see->critval = critval; 182 1.19.4.1 jmcneill DPRINTF(("%s: sensor=%s type=%d (critval updated)\n", 183 1.19.4.1 jmcneill __func__, edata->desc, see->type)); 184 1.19.4.1 jmcneill error = sme_sensor_upint32(sdict, objkey, critval); 185 1.19.4.2 joerg mutex_exit(&sme_mtx); 186 1.19.4.1 jmcneill return error; 187 1.1 xtraeme } 188 1.1 xtraeme } 189 1.1 xtraeme 190 1.19.4.1 jmcneill /* 191 1.19.4.1 jmcneill * The event is not in on the list or in a dictionary, create a new 192 1.19.4.1 jmcneill * sme event, assign required members and update the object in 193 1.19.4.1 jmcneill * the dictionary. 194 1.19.4.1 jmcneill */ 195 1.19.4.1 jmcneill see = NULL; 196 1.19.4.1 jmcneill see = kmem_zalloc(sizeof(*see), KM_NOSLEEP); 197 1.19.4.1 jmcneill if (see == NULL) { 198 1.19.4.2 joerg mutex_exit(&sme_mtx); 199 1.19.4.1 jmcneill return ENOMEM; 200 1.19.4.1 jmcneill } 201 1.19.4.1 jmcneill 202 1.19.4.1 jmcneill see->critval = critval; 203 1.19.4.1 jmcneill see->type = crittype; 204 1.19.4.1 jmcneill (void)strlcpy(see->pes.pes_dvname, drvn, 205 1.19.4.1 jmcneill sizeof(see->pes.pes_dvname)); 206 1.19.4.1 jmcneill see->pes.pes_type = powertype; 207 1.19.4.1 jmcneill (void)strlcpy(see->pes.pes_sensname, edata->desc, 208 1.19.4.1 jmcneill sizeof(see->pes.pes_sensname)); 209 1.19.4.1 jmcneill see->snum = edata->sensor; 210 1.19.4.1 jmcneill 211 1.19.4.1 jmcneill LIST_INSERT_HEAD(&sme_events_list, see, see_list); 212 1.19.4.1 jmcneill if (objkey && critval) { 213 1.19.4.1 jmcneill error = sme_sensor_upint32(sdict, objkey, critval); 214 1.19.4.1 jmcneill if (error) { 215 1.19.4.2 joerg mutex_exit(&sme_mtx); 216 1.19.4.1 jmcneill goto out; 217 1.19.4.1 jmcneill } 218 1.19.4.1 jmcneill } 219 1.19.4.1 jmcneill DPRINTF(("%s: registering dev=%s sensor=%s snum=%d type=%d " 220 1.1 xtraeme "critval=%" PRIu32 "\n", __func__, 221 1.1 xtraeme see->pes.pes_dvname, see->pes.pes_sensname, 222 1.1 xtraeme see->snum, see->type, see->critval)); 223 1.1 xtraeme /* 224 1.1 xtraeme * Initialize the events framework if it wasn't initialized 225 1.1 xtraeme * before. 226 1.1 xtraeme */ 227 1.1 xtraeme mutex_enter(&sme_event_init_mtx); 228 1.19.4.2 joerg mutex_exit(&sme_mtx); 229 1.1 xtraeme if (sme_events_initialized == false) 230 1.1 xtraeme error = sme_events_init(); 231 1.1 xtraeme mutex_exit(&sme_event_init_mtx); 232 1.19.4.1 jmcneill out: 233 1.19.4.1 jmcneill if (error) 234 1.19.4.1 jmcneill kmem_free(see, sizeof(*see)); 235 1.1 xtraeme return error; 236 1.1 xtraeme } 237 1.1 xtraeme 238 1.1 xtraeme /* 239 1.18 xtraeme * sme_event_unregister_all: 240 1.18 xtraeme * 241 1.18 xtraeme * + Unregisters all sysmon envsys events associated with a 242 1.18 xtraeme * sysmon envsys device. 243 1.18 xtraeme */ 244 1.18 xtraeme void 245 1.19.4.1 jmcneill sme_event_unregister_all(const char *sme_name) 246 1.18 xtraeme { 247 1.18 xtraeme sme_event_t *see; 248 1.18 xtraeme int evcounter = 0; 249 1.18 xtraeme 250 1.19.4.2 joerg KASSERT(mutex_owned(&sme_mtx)); 251 1.19.4.1 jmcneill KASSERT(sme_name != NULL); 252 1.18 xtraeme 253 1.18 xtraeme LIST_FOREACH(see, &sme_events_list, see_list) { 254 1.19.4.1 jmcneill if (strcmp(see->pes.pes_dvname, sme_name) == 0) 255 1.18 xtraeme evcounter++; 256 1.18 xtraeme } 257 1.18 xtraeme 258 1.18 xtraeme DPRINTF(("%s: total events %d (%s)\n", __func__, 259 1.19.4.1 jmcneill evcounter, sme_name)); 260 1.18 xtraeme 261 1.19.4.3 joerg while ((see = LIST_FIRST(&sme_events_list))) { 262 1.18 xtraeme if (evcounter == 0) 263 1.18 xtraeme break; 264 1.18 xtraeme 265 1.19.4.1 jmcneill if (strcmp(see->pes.pes_dvname, sme_name) == 0) { 266 1.18 xtraeme DPRINTF(("%s: event %s %d removed (%s)\n", __func__, 267 1.19.4.1 jmcneill see->pes.pes_sensname, see->type, sme_name)); 268 1.18 xtraeme 269 1.18 xtraeme while (see->see_flags & SME_EVENT_WORKING) 270 1.19.4.2 joerg cv_wait(&sme_cv, &sme_mtx); 271 1.18 xtraeme 272 1.18 xtraeme LIST_REMOVE(see, see_list); 273 1.18 xtraeme kmem_free(see, sizeof(*see)); 274 1.18 xtraeme evcounter--; 275 1.18 xtraeme } 276 1.18 xtraeme } 277 1.18 xtraeme 278 1.19.4.1 jmcneill if (LIST_EMPTY(&sme_events_list)) { 279 1.19.4.1 jmcneill mutex_enter(&sme_event_init_mtx); 280 1.19.4.2 joerg if (sme_events_initialized) 281 1.19.4.2 joerg sme_events_destroy(); 282 1.19.4.1 jmcneill mutex_exit(&sme_event_init_mtx); 283 1.19.4.1 jmcneill } 284 1.18 xtraeme } 285 1.18 xtraeme 286 1.18 xtraeme /* 287 1.1 xtraeme * sme_event_unregister: 288 1.1 xtraeme * 289 1.1 xtraeme * + Unregisters a sysmon envsys event. 290 1.1 xtraeme */ 291 1.1 xtraeme int 292 1.1 xtraeme sme_event_unregister(const char *sensor, int type) 293 1.1 xtraeme { 294 1.1 xtraeme sme_event_t *see; 295 1.1 xtraeme bool found = false; 296 1.1 xtraeme 297 1.19.4.3 joerg KASSERT(mutex_owned(&sme_mtx)); 298 1.1 xtraeme KASSERT(sensor != NULL); 299 1.1 xtraeme 300 1.1 xtraeme LIST_FOREACH(see, &sme_events_list, see_list) { 301 1.1 xtraeme if (strcmp(see->pes.pes_sensname, sensor) == 0) { 302 1.1 xtraeme if (see->type == type) { 303 1.1 xtraeme found = true; 304 1.1 xtraeme break; 305 1.1 xtraeme } 306 1.1 xtraeme } 307 1.1 xtraeme } 308 1.1 xtraeme 309 1.19.4.3 joerg if (!found) 310 1.1 xtraeme return EINVAL; 311 1.1 xtraeme 312 1.15 xtraeme while (see->see_flags & SME_EVENT_WORKING) 313 1.19.4.2 joerg cv_wait(&sme_cv, &sme_mtx); 314 1.15 xtraeme 315 1.1 xtraeme DPRINTF(("%s: removing dev=%s sensor=%s type=%d\n", 316 1.1 xtraeme __func__, see->pes.pes_dvname, sensor, type)); 317 1.1 xtraeme LIST_REMOVE(see, see_list); 318 1.1 xtraeme /* 319 1.1 xtraeme * So the events list is empty, we'll do the following: 320 1.1 xtraeme * 321 1.9 xtraeme * - stop and destroy the callout. 322 1.1 xtraeme * - destroy the workqueue. 323 1.1 xtraeme */ 324 1.19.4.1 jmcneill if (LIST_EMPTY(&sme_events_list)) { 325 1.19.4.1 jmcneill mutex_enter(&sme_event_init_mtx); 326 1.18 xtraeme sme_events_destroy(); 327 1.19.4.1 jmcneill mutex_exit(&sme_event_init_mtx); 328 1.19.4.1 jmcneill } 329 1.1 xtraeme 330 1.19.4.1 jmcneill kmem_free(see, sizeof(*see)); 331 1.1 xtraeme return 0; 332 1.1 xtraeme } 333 1.1 xtraeme 334 1.1 xtraeme /* 335 1.1 xtraeme * sme_event_drvadd: 336 1.1 xtraeme * 337 1.1 xtraeme * + Adds a new sysmon envsys event for a driver if a sensor 338 1.1 xtraeme * has set any accepted monitoring flag. 339 1.1 xtraeme */ 340 1.1 xtraeme void 341 1.1 xtraeme sme_event_drvadd(void *arg) 342 1.1 xtraeme { 343 1.1 xtraeme sme_event_drv_t *sed_t = arg; 344 1.2 xtraeme int error = 0; 345 1.1 xtraeme 346 1.1 xtraeme KASSERT(sed_t != NULL); 347 1.1 xtraeme 348 1.1 xtraeme #define SEE_REGEVENT(a, b, c) \ 349 1.1 xtraeme do { \ 350 1.1 xtraeme if (sed_t->edata->flags & (a)) { \ 351 1.19.4.3 joerg char str[ENVSYS_DESCLEN] = "monitoring-state-"; \ 352 1.1 xtraeme \ 353 1.19.4.1 jmcneill error = sme_event_register(sed_t->sdict, \ 354 1.2 xtraeme sed_t->edata, \ 355 1.2 xtraeme sed_t->sme->sme_name, \ 356 1.2 xtraeme NULL, \ 357 1.2 xtraeme 0, \ 358 1.2 xtraeme (b), \ 359 1.2 xtraeme sed_t->powertype); \ 360 1.2 xtraeme if (error && error != EEXIST) \ 361 1.2 xtraeme printf("%s: failed to add event! " \ 362 1.2 xtraeme "error=%d sensor=%s event=%s\n", \ 363 1.2 xtraeme __func__, error, sed_t->edata->desc, (c)); \ 364 1.2 xtraeme else { \ 365 1.2 xtraeme (void)strlcat(str, (c), sizeof(str)); \ 366 1.2 xtraeme prop_dictionary_set_bool(sed_t->sdict, \ 367 1.2 xtraeme str, \ 368 1.2 xtraeme true); \ 369 1.2 xtraeme } \ 370 1.1 xtraeme } \ 371 1.1 xtraeme } while (/* CONSTCOND */ 0) 372 1.1 xtraeme 373 1.1 xtraeme SEE_REGEVENT(ENVSYS_FMONCRITICAL, 374 1.1 xtraeme PENVSYS_EVENT_CRITICAL, 375 1.1 xtraeme "critical"); 376 1.1 xtraeme 377 1.1 xtraeme SEE_REGEVENT(ENVSYS_FMONCRITUNDER, 378 1.1 xtraeme PENVSYS_EVENT_CRITUNDER, 379 1.1 xtraeme "critunder"); 380 1.1 xtraeme 381 1.1 xtraeme SEE_REGEVENT(ENVSYS_FMONCRITOVER, 382 1.1 xtraeme PENVSYS_EVENT_CRITOVER, 383 1.1 xtraeme "critover"); 384 1.1 xtraeme 385 1.1 xtraeme SEE_REGEVENT(ENVSYS_FMONWARNUNDER, 386 1.1 xtraeme PENVSYS_EVENT_WARNUNDER, 387 1.1 xtraeme "warnunder"); 388 1.1 xtraeme 389 1.1 xtraeme SEE_REGEVENT(ENVSYS_FMONWARNOVER, 390 1.1 xtraeme PENVSYS_EVENT_WARNOVER, 391 1.1 xtraeme "warnover"); 392 1.1 xtraeme 393 1.19.4.2 joerg SEE_REGEVENT(ENVSYS_FMONSTCHANGED, 394 1.19.4.2 joerg PENVSYS_EVENT_STATE_CHANGED, 395 1.19.4.2 joerg "state-changed"); 396 1.1 xtraeme 397 1.1 xtraeme /* we are done, free memory now */ 398 1.1 xtraeme kmem_free(sed_t, sizeof(*sed_t)); 399 1.1 xtraeme } 400 1.1 xtraeme 401 1.1 xtraeme /* 402 1.1 xtraeme * sme_events_init: 403 1.1 xtraeme * 404 1.18 xtraeme * + Initializes the events framework. 405 1.1 xtraeme */ 406 1.1 xtraeme int 407 1.1 xtraeme sme_events_init(void) 408 1.1 xtraeme { 409 1.1 xtraeme int error; 410 1.1 xtraeme 411 1.19.4.1 jmcneill KASSERT(mutex_owned(&sme_event_init_mtx)); 412 1.19.4.1 jmcneill 413 1.1 xtraeme error = workqueue_create(&seewq, "envsysev", 414 1.19.4.4 joerg sme_events_worker, NULL, PRI_NONE, IPL_SOFTCLOCK, WQ_MPSAFE); 415 1.1 xtraeme if (error) 416 1.1 xtraeme goto out; 417 1.1 xtraeme 418 1.6 ad callout_init(&seeco, 0); 419 1.1 xtraeme callout_setfunc(&seeco, sme_events_check, NULL); 420 1.1 xtraeme callout_schedule(&seeco, SME_EVTIMO); 421 1.1 xtraeme sme_events_initialized = true; 422 1.1 xtraeme DPRINTF(("%s: events framework initialized\n", __func__)); 423 1.1 xtraeme 424 1.1 xtraeme out: 425 1.1 xtraeme return error; 426 1.1 xtraeme } 427 1.1 xtraeme 428 1.1 xtraeme /* 429 1.18 xtraeme * sme_events_destroy: 430 1.18 xtraeme * 431 1.18 xtraeme * + Destroys the events framework: the workqueue and the 432 1.18 xtraeme * callout are stopped and destroyed because there are not 433 1.18 xtraeme * events in the queue. 434 1.18 xtraeme */ 435 1.18 xtraeme void 436 1.18 xtraeme sme_events_destroy(void) 437 1.18 xtraeme { 438 1.19.4.1 jmcneill KASSERT(mutex_owned(&sme_event_init_mtx)); 439 1.19.4.1 jmcneill 440 1.18 xtraeme callout_stop(&seeco); 441 1.18 xtraeme sme_events_initialized = false; 442 1.18 xtraeme DPRINTF(("%s: events framework destroyed\n", __func__)); 443 1.19.4.1 jmcneill callout_destroy(&seeco); 444 1.19.4.1 jmcneill workqueue_destroy(seewq); 445 1.18 xtraeme } 446 1.18 xtraeme 447 1.18 xtraeme /* 448 1.1 xtraeme * sme_events_check: 449 1.1 xtraeme * 450 1.1 xtraeme * + Runs the work on each sysmon envsys event in our 451 1.1 xtraeme * workqueue periodically with callout. 452 1.1 xtraeme */ 453 1.1 xtraeme void 454 1.1 xtraeme sme_events_check(void *arg) 455 1.1 xtraeme { 456 1.1 xtraeme sme_event_t *see; 457 1.1 xtraeme 458 1.1 xtraeme LIST_FOREACH(see, &sme_events_list, see_list) { 459 1.14 xtraeme DPRINTFOBJ(("%s: dev=%s sensor=%s type=%d\n", 460 1.1 xtraeme __func__, 461 1.1 xtraeme see->pes.pes_dvname, 462 1.1 xtraeme see->pes.pes_sensname, 463 1.1 xtraeme see->type)); 464 1.8 rmind workqueue_enqueue(seewq, &see->see_wk, NULL); 465 1.1 xtraeme } 466 1.19.4.4 joerg /* 467 1.19.4.4 joerg * Now that the events list was checked, reset the refresh value. 468 1.19.4.4 joerg */ 469 1.19.4.4 joerg LIST_FOREACH(see, &sme_events_list, see_list) 470 1.19.4.4 joerg see->see_flags &= ~SME_EVENT_REFRESHED; 471 1.19.4.4 joerg 472 1.19.4.4 joerg if (!sysmon_low_power) 473 1.19.4.4 joerg callout_schedule(&seeco, SME_EVTIMO); 474 1.1 xtraeme } 475 1.1 xtraeme 476 1.1 xtraeme /* 477 1.1 xtraeme * sme_events_worker: 478 1.1 xtraeme * 479 1.1 xtraeme * + workqueue thread that checks if there's a critical condition 480 1.1 xtraeme * and sends an event if the condition was triggered. 481 1.1 xtraeme */ 482 1.1 xtraeme void 483 1.1 xtraeme sme_events_worker(struct work *wk, void *arg) 484 1.1 xtraeme { 485 1.19.4.2 joerg const struct sme_description_table *sdt = NULL; 486 1.10 xtraeme const struct sme_sensor_event *sse = sme_sensor_event; 487 1.1 xtraeme sme_event_t *see = (void *)wk; 488 1.1 xtraeme struct sysmon_envsys *sme; 489 1.1 xtraeme envsys_data_t *edata; 490 1.19.4.2 joerg int i, state, error; 491 1.1 xtraeme 492 1.1 xtraeme KASSERT(wk == &see->see_wk); 493 1.1 xtraeme 494 1.19.4.2 joerg state = error = 0; 495 1.19.4.2 joerg 496 1.19.4.2 joerg mutex_enter(&sme_mtx); 497 1.15 xtraeme see->see_flags |= SME_EVENT_WORKING; 498 1.15 xtraeme 499 1.1 xtraeme /* 500 1.1 xtraeme * We have to find the sme device by looking 501 1.1 xtraeme * at the power envsys device name. 502 1.1 xtraeme */ 503 1.1 xtraeme LIST_FOREACH(sme, &sysmon_envsys_list, sme_list) 504 1.1 xtraeme if (strcmp(sme->sme_name, see->pes.pes_dvname) == 0) 505 1.1 xtraeme break; 506 1.19.4.3 joerg if (!sme) 507 1.19.4.2 joerg goto out; 508 1.1 xtraeme 509 1.13 xtraeme /* get the sensor with the index specified in see->snum */ 510 1.13 xtraeme edata = &sme->sme_sensor_data[see->snum]; 511 1.1 xtraeme 512 1.1 xtraeme /* 513 1.19.4.4 joerg * refresh the sensor that was marked with a critical event 514 1.19.4.4 joerg * only if it wasn't refreshed before or if the driver doesn't 515 1.19.4.4 joerg * use its own method for refreshing. 516 1.1 xtraeme */ 517 1.1 xtraeme if ((sme->sme_flags & SME_DISABLE_GTREDATA) == 0) { 518 1.19.4.4 joerg if ((see->see_flags & SME_EVENT_REFRESHED) == 0) { 519 1.19.4.4 joerg error = (*sme->sme_gtredata)(sme, edata); 520 1.19.4.4 joerg if (error) 521 1.19.4.4 joerg goto out; 522 1.19.4.4 joerg see->see_flags |= SME_EVENT_REFRESHED; 523 1.19.4.4 joerg } 524 1.1 xtraeme } 525 1.1 xtraeme 526 1.18 xtraeme DPRINTFOBJ(("%s: desc=%s sensor=%d units=%d value_cur=%d\n", 527 1.1 xtraeme __func__, edata->desc, edata->sensor, 528 1.1 xtraeme edata->units, edata->value_cur)); 529 1.1 xtraeme 530 1.10 xtraeme #define SME_SEND_NORMALEVENT() \ 531 1.10 xtraeme do { \ 532 1.10 xtraeme see->evsent = false; \ 533 1.10 xtraeme sysmon_penvsys_event(&see->pes, PENVSYS_EVENT_NORMAL); \ 534 1.10 xtraeme } while (/* CONSTCOND */ 0) 535 1.10 xtraeme 536 1.10 xtraeme #define SME_SEND_EVENT(type) \ 537 1.1 xtraeme do { \ 538 1.10 xtraeme see->evsent = true; \ 539 1.10 xtraeme sysmon_penvsys_event(&see->pes, (type)); \ 540 1.1 xtraeme } while (/* CONSTCOND */ 0) 541 1.1 xtraeme 542 1.19.4.4 joerg 543 1.1 xtraeme switch (see->type) { 544 1.10 xtraeme /* 545 1.10 xtraeme * if state is the same than the one that matches sse[i].state, 546 1.10 xtraeme * send the event... 547 1.10 xtraeme */ 548 1.1 xtraeme case PENVSYS_EVENT_CRITICAL: 549 1.1 xtraeme case PENVSYS_EVENT_CRITUNDER: 550 1.1 xtraeme case PENVSYS_EVENT_CRITOVER: 551 1.10 xtraeme case PENVSYS_EVENT_WARNUNDER: 552 1.10 xtraeme case PENVSYS_EVENT_WARNOVER: 553 1.10 xtraeme for (i = 0; sse[i].state != -1; i++) 554 1.10 xtraeme if (sse[i].event == see->type) 555 1.10 xtraeme break; 556 1.1 xtraeme 557 1.10 xtraeme if (see->evsent && edata->state == ENVSYS_SVALID) 558 1.10 xtraeme SME_SEND_NORMALEVENT(); 559 1.1 xtraeme 560 1.10 xtraeme if (!see->evsent && edata->state == sse[i].state) 561 1.10 xtraeme SME_SEND_EVENT(see->type); 562 1.1 xtraeme 563 1.1 xtraeme break; 564 1.10 xtraeme /* 565 1.10 xtraeme * if value_cur is lower than the limit, send the event... 566 1.10 xtraeme */ 567 1.1 xtraeme case PENVSYS_EVENT_BATT_USERCAP: 568 1.10 xtraeme case PENVSYS_EVENT_USER_CRITMIN: 569 1.10 xtraeme if (see->evsent && edata->value_cur > see->critval) 570 1.10 xtraeme SME_SEND_NORMALEVENT(); 571 1.1 xtraeme 572 1.10 xtraeme if (!see->evsent && edata->value_cur < see->critval) 573 1.10 xtraeme SME_SEND_EVENT(see->type); 574 1.1 xtraeme 575 1.1 xtraeme break; 576 1.10 xtraeme /* 577 1.10 xtraeme * if value_cur is higher than the limit, send the event... 578 1.10 xtraeme */ 579 1.1 xtraeme case PENVSYS_EVENT_USER_CRITMAX: 580 1.10 xtraeme if (see->evsent && edata->value_cur < see->critval) 581 1.10 xtraeme SME_SEND_NORMALEVENT(); 582 1.1 xtraeme 583 1.10 xtraeme if (!see->evsent && edata->value_cur > see->critval) 584 1.10 xtraeme SME_SEND_EVENT(see->type); 585 1.1 xtraeme 586 1.1 xtraeme break; 587 1.10 xtraeme /* 588 1.19.4.2 joerg * if value_cur is not normal (battery) or online (drive), 589 1.19.4.2 joerg * send the event... 590 1.10 xtraeme */ 591 1.19.4.2 joerg case PENVSYS_EVENT_STATE_CHANGED: 592 1.1 xtraeme /* the state has not been changed, just ignore the event */ 593 1.1 xtraeme if (edata->value_cur == see->evsent) 594 1.1 xtraeme break; 595 1.1 xtraeme 596 1.19.4.2 joerg switch (edata->units) { 597 1.19.4.2 joerg case ENVSYS_DRIVE: 598 1.19.4.2 joerg sdt = sme_get_description_table(SME_DESC_DRIVE_STATES); 599 1.19.4.2 joerg state = ENVSYS_DRIVE_ONLINE; 600 1.19.4.2 joerg break; 601 1.19.4.2 joerg case ENVSYS_BATTERY_STATE: 602 1.19.4.2 joerg sdt = 603 1.19.4.2 joerg sme_get_description_table(SME_DESC_BATTERY_STATES); 604 1.19.4.2 joerg state = ENVSYS_BATTERY_STATE_NORMAL; 605 1.19.4.2 joerg break; 606 1.19.4.2 joerg default: 607 1.19.4.2 joerg panic("%s: invalid units for ENVSYS_FMONSTCHANGED", 608 1.19.4.2 joerg __func__); 609 1.19.4.2 joerg } 610 1.19.4.2 joerg 611 1.19.4.2 joerg for (i = 0; sdt[i].type != -1; i++) 612 1.19.4.2 joerg if (sdt[i].type == edata->value_cur) 613 1.1 xtraeme break; 614 1.1 xtraeme 615 1.1 xtraeme /* copy current state description */ 616 1.19.4.2 joerg (void)strlcpy(see->pes.pes_statedesc, sdt[i].desc, 617 1.1 xtraeme sizeof(see->pes.pes_statedesc)); 618 1.1 xtraeme 619 1.1 xtraeme /* state is ok again... send a normal event */ 620 1.19.4.2 joerg if (see->evsent && edata->value_cur == state) 621 1.10 xtraeme SME_SEND_NORMALEVENT(); 622 1.1 xtraeme 623 1.19.4.2 joerg /* state has been changed... send event */ 624 1.19.4.2 joerg if (see->evsent || edata->value_cur != state) { 625 1.1 xtraeme /* save current drive state */ 626 1.1 xtraeme see->evsent = edata->value_cur; 627 1.10 xtraeme sysmon_penvsys_event(&see->pes, see->type); 628 1.1 xtraeme } 629 1.1 xtraeme 630 1.19.4.4 joerg /* 631 1.19.4.4 joerg * Check if the system is running in low power and send the 632 1.19.4.4 joerg * event to powerd (if running) or shutdown the system 633 1.19.4.4 joerg * otherwise. 634 1.19.4.4 joerg */ 635 1.19.4.4 joerg if (!sysmon_low_power && sme_event_check_low_power()) { 636 1.19.4.4 joerg struct penvsys_state pes; 637 1.19.4.4 joerg 638 1.19.4.4 joerg pes.pes_type = PENVSYS_TYPE_BATTERY; 639 1.19.4.4 joerg sysmon_penvsys_event(&pes, PENVSYS_EVENT_LOW_POWER); 640 1.19.4.4 joerg sysmon_low_power = true; 641 1.19.4.4 joerg callout_stop(&seeco); 642 1.19.4.4 joerg } 643 1.19.4.4 joerg 644 1.1 xtraeme break; 645 1.1 xtraeme } 646 1.19.4.2 joerg out: 647 1.15 xtraeme see->see_flags &= ~SME_EVENT_WORKING; 648 1.19.4.2 joerg cv_broadcast(&sme_cv); 649 1.19.4.2 joerg mutex_exit(&sme_mtx); 650 1.1 xtraeme } 651 1.19.4.4 joerg 652 1.19.4.4 joerg static int 653 1.19.4.4 joerg sme_event_check_low_power(void) 654 1.19.4.4 joerg { 655 1.19.4.4 joerg struct sysmon_envsys *sme; 656 1.19.4.4 joerg envsys_data_t *edata; 657 1.19.4.4 joerg int i, batteries_cnt, batteries_discharged; 658 1.19.4.4 joerg bool acadapter_on, acadapter_sensor_found; 659 1.19.4.4 joerg 660 1.19.4.4 joerg acadapter_on = acadapter_sensor_found = false; 661 1.19.4.4 joerg batteries_cnt = batteries_discharged = 0; 662 1.19.4.4 joerg 663 1.19.4.4 joerg KASSERT(mutex_owned(&sme_mtx)); 664 1.19.4.4 joerg 665 1.19.4.4 joerg LIST_FOREACH(sme, &sysmon_envsys_list, sme_list) 666 1.19.4.4 joerg if (sme->sme_class == SME_CLASS_ACADAPTER) 667 1.19.4.4 joerg break; 668 1.19.4.4 joerg 669 1.19.4.4 joerg /* 670 1.19.4.4 joerg * No AC Adapter devices were found, do nothing. 671 1.19.4.4 joerg */ 672 1.19.4.4 joerg if (!sme) 673 1.19.4.4 joerg return 0; 674 1.19.4.4 joerg 675 1.19.4.4 joerg for (i = 0; i < sme->sme_nsensors; i++) { 676 1.19.4.4 joerg edata = &sme->sme_sensor_data[i]; 677 1.19.4.4 joerg if (edata->units == ENVSYS_INDICATOR) { 678 1.19.4.4 joerg acadapter_sensor_found = true; 679 1.19.4.4 joerg if (edata->value_cur) { 680 1.19.4.4 joerg acadapter_on = true; 681 1.19.4.4 joerg break; 682 1.19.4.4 joerg } 683 1.19.4.4 joerg } 684 1.19.4.4 joerg } 685 1.19.4.4 joerg /* 686 1.19.4.4 joerg * There's an AC Adapter device connected or there wasn't 687 1.19.4.4 joerg * any sensor capable of returning its state. 688 1.19.4.4 joerg */ 689 1.19.4.4 joerg if (acadapter_on || !acadapter_sensor_found) 690 1.19.4.4 joerg return 0; 691 1.19.4.4 joerg 692 1.19.4.4 joerg #define IS_BATTERY_DISCHARGED() \ 693 1.19.4.4 joerg do { \ 694 1.19.4.4 joerg if (((edata->units == ENVSYS_BATTERY_STATE) && \ 695 1.19.4.4 joerg ((edata->value_cur == ENVSYS_BATTERY_STATE_CRITICAL) || \ 696 1.19.4.4 joerg (edata->value_cur == ENVSYS_BATTERY_STATE_LOW)))) { \ 697 1.19.4.4 joerg batteries_discharged++; \ 698 1.19.4.4 joerg break; \ 699 1.19.4.4 joerg } \ 700 1.19.4.4 joerg } while (/* CONSTCOND */ 0) 701 1.19.4.4 joerg 702 1.19.4.4 joerg LIST_FOREACH(sme, &sysmon_envsys_list, sme_list) { 703 1.19.4.4 joerg if (sme->sme_class == SME_CLASS_BATTERY) { 704 1.19.4.4 joerg batteries_cnt++; 705 1.19.4.4 joerg for (i = 0; i < sme->sme_nsensors; i++) { 706 1.19.4.4 joerg edata = &sme->sme_sensor_data[i]; 707 1.19.4.4 joerg IS_BATTERY_DISCHARGED(); 708 1.19.4.4 joerg } 709 1.19.4.4 joerg } 710 1.19.4.4 joerg } 711 1.19.4.4 joerg 712 1.19.4.4 joerg /* 713 1.19.4.4 joerg * All batteries are discharged? 714 1.19.4.4 joerg */ 715 1.19.4.4 joerg if (batteries_cnt == batteries_discharged) 716 1.19.4.4 joerg return 1; 717 1.19.4.4 joerg 718 1.19.4.4 joerg return 0; 719 1.19.4.4 joerg } 720
Indexes created Mon Sep 29 21:09:56 GMT 2025