acpi_cpu_pstate.c revision 1.50
1 1.50 jruoho /* $NetBSD: acpi_cpu_pstate.c,v 1.50 2011/06/22 08:05:10 jruoho Exp $ */ 2 1.1 jruoho 3 1.1 jruoho /*- 4 1.39 jruoho * Copyright (c) 2010, 2011 Jukka Ruohonen <jruohonen (at) iki.fi> 5 1.1 jruoho * All rights reserved. 6 1.1 jruoho * 7 1.1 jruoho * Redistribution and use in source and binary forms, with or without 8 1.1 jruoho * modification, are permitted provided that the following conditions 9 1.1 jruoho * are met: 10 1.1 jruoho * 11 1.1 jruoho * 1. Redistributions of source code must retain the above copyright 12 1.1 jruoho * notice, this list of conditions and the following disclaimer. 13 1.1 jruoho * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 jruoho * notice, this list of conditions and the following disclaimer in the 15 1.1 jruoho * documentation and/or other materials provided with the distribution. 16 1.1 jruoho * 17 1.1 jruoho * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 18 1.1 jruoho * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 19 1.1 jruoho * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 20 1.1 jruoho * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 21 1.1 jruoho * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 22 1.1 jruoho * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 23 1.1 jruoho * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 24 1.1 jruoho * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 25 1.1 jruoho * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 26 1.1 jruoho * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 27 1.1 jruoho * SUCH DAMAGE. 28 1.1 jruoho */ 29 1.1 jruoho #include <sys/cdefs.h> 30 1.50 jruoho __KERNEL_RCSID(0, "$NetBSD: acpi_cpu_pstate.c,v 1.50 2011/06/22 08:05:10 jruoho Exp $"); 31 1.1 jruoho 32 1.1 jruoho #include <sys/param.h> 33 1.1 jruoho #include <sys/kmem.h> 34 1.1 jruoho #include <sys/once.h> 35 1.42 jruoho #include <sys/xcall.h> 36 1.1 jruoho 37 1.1 jruoho #include <dev/acpi/acpireg.h> 38 1.1 jruoho #include <dev/acpi/acpivar.h> 39 1.1 jruoho #include <dev/acpi/acpi_cpu.h> 40 1.1 jruoho 41 1.1 jruoho #define _COMPONENT ACPI_BUS_COMPONENT 42 1.1 jruoho ACPI_MODULE_NAME ("acpi_cpu_pstate") 43 1.1 jruoho 44 1.21 jruoho static ACPI_STATUS acpicpu_pstate_pss(struct acpicpu_softc *); 45 1.1 jruoho static ACPI_STATUS acpicpu_pstate_pss_add(struct acpicpu_pstate *, 46 1.1 jruoho ACPI_OBJECT *); 47 1.21 jruoho static ACPI_STATUS acpicpu_pstate_xpss(struct acpicpu_softc *); 48 1.21 jruoho static ACPI_STATUS acpicpu_pstate_xpss_add(struct acpicpu_pstate *, 49 1.21 jruoho ACPI_OBJECT *); 50 1.1 jruoho static ACPI_STATUS acpicpu_pstate_pct(struct acpicpu_softc *); 51 1.40 jruoho static ACPI_STATUS acpicpu_pstate_dep(struct acpicpu_softc *); 52 1.1 jruoho static int acpicpu_pstate_max(struct acpicpu_softc *); 53 1.27 jruoho static int acpicpu_pstate_min(struct acpicpu_softc *); 54 1.1 jruoho static void acpicpu_pstate_change(struct acpicpu_softc *); 55 1.28 jruoho static void acpicpu_pstate_reset(struct acpicpu_softc *); 56 1.1 jruoho static void acpicpu_pstate_bios(void); 57 1.42 jruoho static void acpicpu_pstate_set_xcall(void *, void *); 58 1.1 jruoho 59 1.42 jruoho extern struct acpicpu_softc **acpicpu_sc; 60 1.25 jruoho 61 1.1 jruoho void 62 1.1 jruoho acpicpu_pstate_attach(device_t self) 63 1.1 jruoho { 64 1.1 jruoho struct acpicpu_softc *sc = device_private(self); 65 1.3 jruoho const char *str; 66 1.27 jruoho ACPI_HANDLE tmp; 67 1.1 jruoho ACPI_STATUS rv; 68 1.1 jruoho 69 1.1 jruoho rv = acpicpu_pstate_pss(sc); 70 1.1 jruoho 71 1.3 jruoho if (ACPI_FAILURE(rv)) { 72 1.3 jruoho str = "_PSS"; 73 1.3 jruoho goto fail; 74 1.3 jruoho } 75 1.1 jruoho 76 1.21 jruoho /* 77 1.37 jruoho * Append additional information from the extended _PSS, 78 1.37 jruoho * if available. Note that XPSS can not be used on Intel 79 1.37 jruoho * systems that use either _PDC or _OSC. From the XPSS 80 1.37 jruoho * method specification: 81 1.37 jruoho * 82 1.37 jruoho * "The platform must not require the use of the 83 1.37 jruoho * optional _PDC or _OSC methods to coordinate 84 1.37 jruoho * between the operating system and firmware for 85 1.37 jruoho * the purposes of enabling specific processor 86 1.37 jruoho * power management features or implementations." 87 1.21 jruoho */ 88 1.21 jruoho if (sc->sc_cap == 0) { 89 1.34 jruoho 90 1.21 jruoho rv = acpicpu_pstate_xpss(sc); 91 1.21 jruoho 92 1.21 jruoho if (ACPI_SUCCESS(rv)) 93 1.21 jruoho sc->sc_flags |= ACPICPU_FLAG_P_XPSS; 94 1.21 jruoho } 95 1.21 jruoho 96 1.1 jruoho rv = acpicpu_pstate_pct(sc); 97 1.1 jruoho 98 1.3 jruoho if (ACPI_FAILURE(rv)) { 99 1.3 jruoho str = "_PCT"; 100 1.3 jruoho goto fail; 101 1.3 jruoho } 102 1.1 jruoho 103 1.24 jruoho /* 104 1.24 jruoho * The ACPI 3.0 and 4.0 specifications mandate three 105 1.24 jruoho * objects for P-states: _PSS, _PCT, and _PPC. A less 106 1.24 jruoho * strict wording is however used in the earlier 2.0 107 1.24 jruoho * standard, and some systems conforming to ACPI 2.0 108 1.24 jruoho * do not have _PPC, the method for dynamic maximum. 109 1.24 jruoho */ 110 1.27 jruoho rv = AcpiGetHandle(sc->sc_node->ad_handle, "_PPC", &tmp); 111 1.27 jruoho 112 1.27 jruoho if (ACPI_FAILURE(rv)) 113 1.27 jruoho aprint_debug_dev(self, "_PPC missing\n"); 114 1.27 jruoho 115 1.30 jruoho /* 116 1.45 jruoho * Carry out MD initialization. 117 1.30 jruoho */ 118 1.45 jruoho rv = acpicpu_md_pstate_init(sc); 119 1.30 jruoho 120 1.30 jruoho if (rv != 0) { 121 1.30 jruoho rv = AE_SUPPORT; 122 1.30 jruoho goto fail; 123 1.30 jruoho } 124 1.30 jruoho 125 1.40 jruoho /* 126 1.40 jruoho * Query the optional _PSD. 127 1.40 jruoho */ 128 1.40 jruoho rv = acpicpu_pstate_dep(sc); 129 1.40 jruoho 130 1.40 jruoho if (ACPI_SUCCESS(rv)) 131 1.40 jruoho sc->sc_flags |= ACPICPU_FLAG_P_DEP; 132 1.40 jruoho 133 1.1 jruoho sc->sc_flags |= ACPICPU_FLAG_P; 134 1.1 jruoho 135 1.1 jruoho acpicpu_pstate_bios(); 136 1.28 jruoho acpicpu_pstate_reset(sc); 137 1.3 jruoho 138 1.3 jruoho return; 139 1.3 jruoho 140 1.3 jruoho fail: 141 1.15 jruoho switch (rv) { 142 1.15 jruoho 143 1.15 jruoho case AE_NOT_FOUND: 144 1.15 jruoho return; 145 1.15 jruoho 146 1.15 jruoho case AE_SUPPORT: 147 1.37 jruoho aprint_verbose_dev(self, "P-states not supported\n"); 148 1.15 jruoho return; 149 1.15 jruoho 150 1.15 jruoho default: 151 1.37 jruoho aprint_error_dev(self, "failed to evaluate " 152 1.15 jruoho "%s: %s\n", str, AcpiFormatException(rv)); 153 1.15 jruoho } 154 1.1 jruoho } 155 1.1 jruoho 156 1.1 jruoho int 157 1.1 jruoho acpicpu_pstate_detach(device_t self) 158 1.1 jruoho { 159 1.1 jruoho struct acpicpu_softc *sc = device_private(self); 160 1.1 jruoho static ONCE_DECL(once_detach); 161 1.1 jruoho size_t size; 162 1.1 jruoho int rv; 163 1.1 jruoho 164 1.1 jruoho if ((sc->sc_flags & ACPICPU_FLAG_P) == 0) 165 1.1 jruoho return 0; 166 1.1 jruoho 167 1.1 jruoho rv = RUN_ONCE(&once_detach, acpicpu_md_pstate_stop); 168 1.1 jruoho 169 1.1 jruoho if (rv != 0) 170 1.1 jruoho return rv; 171 1.1 jruoho 172 1.1 jruoho size = sc->sc_pstate_count * sizeof(*sc->sc_pstate); 173 1.1 jruoho 174 1.1 jruoho if (sc->sc_pstate != NULL) 175 1.1 jruoho kmem_free(sc->sc_pstate, size); 176 1.1 jruoho 177 1.1 jruoho sc->sc_flags &= ~ACPICPU_FLAG_P; 178 1.1 jruoho 179 1.1 jruoho return 0; 180 1.1 jruoho } 181 1.1 jruoho 182 1.24 jruoho void 183 1.1 jruoho acpicpu_pstate_start(device_t self) 184 1.1 jruoho { 185 1.1 jruoho struct acpicpu_softc *sc = device_private(self); 186 1.25 jruoho struct acpicpu_pstate *ps; 187 1.25 jruoho uint32_t i; 188 1.24 jruoho int rv; 189 1.1 jruoho 190 1.39 jruoho rv = acpicpu_md_pstate_start(sc); 191 1.24 jruoho 192 1.25 jruoho if (rv != 0) 193 1.25 jruoho goto fail; 194 1.25 jruoho 195 1.25 jruoho /* 196 1.42 jruoho * Initialize the states to P0. 197 1.25 jruoho */ 198 1.25 jruoho for (i = 0, rv = ENXIO; i < sc->sc_pstate_count; i++) { 199 1.25 jruoho 200 1.25 jruoho ps = &sc->sc_pstate[i]; 201 1.25 jruoho 202 1.25 jruoho if (ps->ps_freq != 0) { 203 1.42 jruoho acpicpu_pstate_set(sc->sc_ci, ps->ps_freq); 204 1.42 jruoho return; 205 1.25 jruoho } 206 1.25 jruoho } 207 1.25 jruoho 208 1.25 jruoho fail: 209 1.24 jruoho sc->sc_flags &= ~ACPICPU_FLAG_P; 210 1.24 jruoho aprint_error_dev(self, "failed to start P-states (err %d)\n", rv); 211 1.1 jruoho } 212 1.1 jruoho 213 1.47 jruoho void 214 1.47 jruoho acpicpu_pstate_suspend(void *aux) 215 1.1 jruoho { 216 1.25 jruoho struct acpicpu_pstate *ps = NULL; 217 1.47 jruoho struct acpicpu_softc *sc; 218 1.47 jruoho struct cpu_info *ci; 219 1.47 jruoho device_t self = aux; 220 1.46 jruoho uint64_t xc; 221 1.25 jruoho int32_t i; 222 1.25 jruoho 223 1.47 jruoho sc = device_private(self); 224 1.47 jruoho ci = sc->sc_ci; 225 1.47 jruoho 226 1.46 jruoho /* 227 1.46 jruoho * Reset any dynamic limits. 228 1.46 jruoho */ 229 1.29 jruoho mutex_enter(&sc->sc_mtx); 230 1.28 jruoho acpicpu_pstate_reset(sc); 231 1.25 jruoho 232 1.25 jruoho /* 233 1.25 jruoho * Following design notes for Windows, we set the highest 234 1.25 jruoho * P-state when entering any of the system sleep states. 235 1.25 jruoho * When resuming, the saved P-state will be restored. 236 1.25 jruoho * 237 1.25 jruoho * Microsoft Corporation: Windows Native Processor 238 1.25 jruoho * Performance Control. Version 1.1a, November, 2002. 239 1.25 jruoho */ 240 1.46 jruoho sc->sc_pstate_saved = sc->sc_pstate_current; 241 1.46 jruoho 242 1.25 jruoho for (i = sc->sc_pstate_count - 1; i >= 0; i--) { 243 1.25 jruoho 244 1.25 jruoho if (sc->sc_pstate[i].ps_freq != 0) { 245 1.25 jruoho ps = &sc->sc_pstate[i]; 246 1.25 jruoho break; 247 1.25 jruoho } 248 1.25 jruoho } 249 1.25 jruoho 250 1.48 jruoho if (__predict_false(ps == NULL)) { 251 1.48 jruoho mutex_exit(&sc->sc_mtx); 252 1.48 jruoho return; 253 1.48 jruoho } 254 1.46 jruoho 255 1.48 jruoho if (sc->sc_pstate_saved == ps->ps_freq) { 256 1.48 jruoho mutex_exit(&sc->sc_mtx); 257 1.47 jruoho return; 258 1.48 jruoho } 259 1.25 jruoho 260 1.48 jruoho mutex_exit(&sc->sc_mtx); 261 1.25 jruoho 262 1.46 jruoho xc = xc_unicast(0, acpicpu_pstate_set_xcall, &ps->ps_freq, NULL, ci); 263 1.46 jruoho xc_wait(xc); 264 1.1 jruoho } 265 1.1 jruoho 266 1.47 jruoho void 267 1.47 jruoho acpicpu_pstate_resume(void *aux) 268 1.1 jruoho { 269 1.47 jruoho struct acpicpu_softc *sc; 270 1.47 jruoho device_t self = aux; 271 1.47 jruoho uint32_t freq; 272 1.46 jruoho uint64_t xc; 273 1.25 jruoho 274 1.47 jruoho sc = device_private(self); 275 1.47 jruoho freq = sc->sc_pstate_saved; 276 1.47 jruoho 277 1.46 jruoho xc = xc_unicast(0, acpicpu_pstate_set_xcall, &freq, NULL, sc->sc_ci); 278 1.46 jruoho xc_wait(xc); 279 1.1 jruoho } 280 1.1 jruoho 281 1.1 jruoho void 282 1.1 jruoho acpicpu_pstate_callback(void *aux) 283 1.1 jruoho { 284 1.1 jruoho struct acpicpu_softc *sc; 285 1.1 jruoho device_t self = aux; 286 1.48 jruoho uint32_t freq; 287 1.48 jruoho uint64_t xc; 288 1.1 jruoho 289 1.1 jruoho sc = device_private(self); 290 1.1 jruoho 291 1.1 jruoho mutex_enter(&sc->sc_mtx); 292 1.48 jruoho acpicpu_pstate_change(sc); 293 1.48 jruoho 294 1.48 jruoho freq = sc->sc_pstate[sc->sc_pstate_max].ps_freq; 295 1.36 jruoho 296 1.48 jruoho if (sc->sc_pstate_saved == 0) 297 1.48 jruoho sc->sc_pstate_saved = sc->sc_pstate_current; 298 1.36 jruoho 299 1.48 jruoho if (sc->sc_pstate_saved <= freq) { 300 1.48 jruoho freq = sc->sc_pstate_saved; 301 1.48 jruoho sc->sc_pstate_saved = 0; 302 1.36 jruoho } 303 1.36 jruoho 304 1.1 jruoho mutex_exit(&sc->sc_mtx); 305 1.1 jruoho 306 1.48 jruoho xc = xc_unicast(0, acpicpu_pstate_set_xcall, &freq, NULL, sc->sc_ci); 307 1.48 jruoho xc_wait(xc); 308 1.1 jruoho } 309 1.1 jruoho 310 1.1 jruoho ACPI_STATUS 311 1.1 jruoho acpicpu_pstate_pss(struct acpicpu_softc *sc) 312 1.1 jruoho { 313 1.1 jruoho struct acpicpu_pstate *ps; 314 1.1 jruoho ACPI_OBJECT *obj; 315 1.1 jruoho ACPI_BUFFER buf; 316 1.1 jruoho ACPI_STATUS rv; 317 1.1 jruoho uint32_t count; 318 1.1 jruoho uint32_t i, j; 319 1.1 jruoho 320 1.1 jruoho rv = acpi_eval_struct(sc->sc_node->ad_handle, "_PSS", &buf); 321 1.1 jruoho 322 1.1 jruoho if (ACPI_FAILURE(rv)) 323 1.1 jruoho return rv; 324 1.1 jruoho 325 1.1 jruoho obj = buf.Pointer; 326 1.1 jruoho 327 1.1 jruoho if (obj->Type != ACPI_TYPE_PACKAGE) { 328 1.1 jruoho rv = AE_TYPE; 329 1.1 jruoho goto out; 330 1.1 jruoho } 331 1.1 jruoho 332 1.1 jruoho sc->sc_pstate_count = obj->Package.Count; 333 1.1 jruoho 334 1.1 jruoho if (sc->sc_pstate_count == 0) { 335 1.1 jruoho rv = AE_NOT_EXIST; 336 1.1 jruoho goto out; 337 1.1 jruoho } 338 1.1 jruoho 339 1.9 jruoho if (sc->sc_pstate_count > ACPICPU_P_STATE_MAX) { 340 1.1 jruoho rv = AE_LIMIT; 341 1.1 jruoho goto out; 342 1.1 jruoho } 343 1.1 jruoho 344 1.1 jruoho sc->sc_pstate = kmem_zalloc(sc->sc_pstate_count * 345 1.1 jruoho sizeof(struct acpicpu_pstate), KM_SLEEP); 346 1.1 jruoho 347 1.1 jruoho if (sc->sc_pstate == NULL) { 348 1.1 jruoho rv = AE_NO_MEMORY; 349 1.1 jruoho goto out; 350 1.1 jruoho } 351 1.1 jruoho 352 1.1 jruoho for (count = i = 0; i < sc->sc_pstate_count; i++) { 353 1.1 jruoho 354 1.1 jruoho ps = &sc->sc_pstate[i]; 355 1.1 jruoho rv = acpicpu_pstate_pss_add(ps, &obj->Package.Elements[i]); 356 1.1 jruoho 357 1.13 jruoho if (ACPI_FAILURE(rv)) { 358 1.37 jruoho aprint_error_dev(sc->sc_dev, "failed to add " 359 1.37 jruoho "P-state: %s\n", AcpiFormatException(rv)); 360 1.13 jruoho ps->ps_freq = 0; 361 1.1 jruoho continue; 362 1.13 jruoho } 363 1.1 jruoho 364 1.1 jruoho for (j = 0; j < i; j++) { 365 1.1 jruoho 366 1.1 jruoho if (ps->ps_freq >= sc->sc_pstate[j].ps_freq) { 367 1.1 jruoho ps->ps_freq = 0; 368 1.1 jruoho break; 369 1.1 jruoho } 370 1.1 jruoho } 371 1.1 jruoho 372 1.1 jruoho if (ps->ps_freq != 0) 373 1.1 jruoho count++; 374 1.1 jruoho } 375 1.1 jruoho 376 1.1 jruoho rv = (count != 0) ? AE_OK : AE_NOT_EXIST; 377 1.1 jruoho 378 1.1 jruoho out: 379 1.1 jruoho if (buf.Pointer != NULL) 380 1.1 jruoho ACPI_FREE(buf.Pointer); 381 1.1 jruoho 382 1.1 jruoho return rv; 383 1.1 jruoho } 384 1.1 jruoho 385 1.1 jruoho static ACPI_STATUS 386 1.1 jruoho acpicpu_pstate_pss_add(struct acpicpu_pstate *ps, ACPI_OBJECT *obj) 387 1.1 jruoho { 388 1.1 jruoho ACPI_OBJECT *elm; 389 1.1 jruoho int i; 390 1.1 jruoho 391 1.1 jruoho if (obj->Type != ACPI_TYPE_PACKAGE) 392 1.1 jruoho return AE_TYPE; 393 1.1 jruoho 394 1.1 jruoho if (obj->Package.Count != 6) 395 1.1 jruoho return AE_BAD_DATA; 396 1.1 jruoho 397 1.1 jruoho elm = obj->Package.Elements; 398 1.1 jruoho 399 1.1 jruoho for (i = 0; i < 6; i++) { 400 1.1 jruoho 401 1.1 jruoho if (elm[i].Type != ACPI_TYPE_INTEGER) 402 1.1 jruoho return AE_TYPE; 403 1.1 jruoho 404 1.1 jruoho if (elm[i].Integer.Value > UINT32_MAX) 405 1.1 jruoho return AE_AML_NUMERIC_OVERFLOW; 406 1.1 jruoho } 407 1.1 jruoho 408 1.21 jruoho ps->ps_freq = elm[0].Integer.Value; 409 1.21 jruoho ps->ps_power = elm[1].Integer.Value; 410 1.21 jruoho ps->ps_latency = elm[2].Integer.Value; 411 1.21 jruoho ps->ps_latency_bm = elm[3].Integer.Value; 412 1.21 jruoho ps->ps_control = elm[4].Integer.Value; 413 1.21 jruoho ps->ps_status = elm[5].Integer.Value; 414 1.1 jruoho 415 1.13 jruoho if (ps->ps_freq == 0 || ps->ps_freq > 9999) 416 1.13 jruoho return AE_BAD_DECIMAL_CONSTANT; 417 1.13 jruoho 418 1.38 jruoho if (ps->ps_latency == 0 || ps->ps_latency > 1000) 419 1.38 jruoho ps->ps_latency = 1; 420 1.1 jruoho 421 1.1 jruoho return AE_OK; 422 1.1 jruoho } 423 1.1 jruoho 424 1.21 jruoho static ACPI_STATUS 425 1.21 jruoho acpicpu_pstate_xpss(struct acpicpu_softc *sc) 426 1.21 jruoho { 427 1.34 jruoho struct acpicpu_pstate *ps; 428 1.21 jruoho ACPI_OBJECT *obj; 429 1.21 jruoho ACPI_BUFFER buf; 430 1.21 jruoho ACPI_STATUS rv; 431 1.34 jruoho uint32_t i = 0; 432 1.21 jruoho 433 1.21 jruoho rv = acpi_eval_struct(sc->sc_node->ad_handle, "XPSS", &buf); 434 1.21 jruoho 435 1.21 jruoho if (ACPI_FAILURE(rv)) 436 1.37 jruoho goto out; 437 1.21 jruoho 438 1.21 jruoho obj = buf.Pointer; 439 1.21 jruoho 440 1.21 jruoho if (obj->Type != ACPI_TYPE_PACKAGE) { 441 1.21 jruoho rv = AE_TYPE; 442 1.21 jruoho goto out; 443 1.21 jruoho } 444 1.21 jruoho 445 1.34 jruoho if (obj->Package.Count != sc->sc_pstate_count) { 446 1.21 jruoho rv = AE_LIMIT; 447 1.21 jruoho goto out; 448 1.21 jruoho } 449 1.21 jruoho 450 1.34 jruoho while (i < sc->sc_pstate_count) { 451 1.21 jruoho 452 1.34 jruoho ps = &sc->sc_pstate[i]; 453 1.34 jruoho acpicpu_pstate_xpss_add(ps, &obj->Package.Elements[i]); 454 1.21 jruoho 455 1.34 jruoho i++; 456 1.33 jmcneill } 457 1.21 jruoho 458 1.21 jruoho out: 459 1.37 jruoho if (ACPI_FAILURE(rv) && rv != AE_NOT_FOUND) 460 1.37 jruoho aprint_error_dev(sc->sc_dev, "failed to evaluate " 461 1.37 jruoho "XPSS: %s\n", AcpiFormatException(rv)); 462 1.37 jruoho 463 1.21 jruoho if (buf.Pointer != NULL) 464 1.21 jruoho ACPI_FREE(buf.Pointer); 465 1.21 jruoho 466 1.21 jruoho return rv; 467 1.21 jruoho } 468 1.21 jruoho 469 1.21 jruoho static ACPI_STATUS 470 1.21 jruoho acpicpu_pstate_xpss_add(struct acpicpu_pstate *ps, ACPI_OBJECT *obj) 471 1.21 jruoho { 472 1.21 jruoho ACPI_OBJECT *elm; 473 1.21 jruoho int i; 474 1.21 jruoho 475 1.21 jruoho if (obj->Type != ACPI_TYPE_PACKAGE) 476 1.21 jruoho return AE_TYPE; 477 1.21 jruoho 478 1.21 jruoho if (obj->Package.Count != 8) 479 1.21 jruoho return AE_BAD_DATA; 480 1.21 jruoho 481 1.21 jruoho elm = obj->Package.Elements; 482 1.21 jruoho 483 1.21 jruoho for (i = 0; i < 4; i++) { 484 1.21 jruoho 485 1.21 jruoho if (elm[i].Type != ACPI_TYPE_INTEGER) 486 1.21 jruoho return AE_TYPE; 487 1.21 jruoho 488 1.21 jruoho if (elm[i].Integer.Value > UINT32_MAX) 489 1.21 jruoho return AE_AML_NUMERIC_OVERFLOW; 490 1.21 jruoho } 491 1.21 jruoho 492 1.21 jruoho for (; i < 8; i++) { 493 1.21 jruoho 494 1.21 jruoho if (elm[i].Type != ACPI_TYPE_BUFFER) 495 1.21 jruoho return AE_TYPE; 496 1.21 jruoho 497 1.33 jmcneill if (elm[i].Buffer.Length != 8) 498 1.21 jruoho return AE_LIMIT; 499 1.21 jruoho } 500 1.21 jruoho 501 1.34 jruoho /* 502 1.34 jruoho * Only overwrite the elements that were 503 1.34 jruoho * not available from the conventional _PSS. 504 1.34 jruoho */ 505 1.34 jruoho if (ps->ps_freq == 0) 506 1.34 jruoho ps->ps_freq = elm[0].Integer.Value; 507 1.34 jruoho 508 1.34 jruoho if (ps->ps_power == 0) 509 1.34 jruoho ps->ps_power = elm[1].Integer.Value; 510 1.34 jruoho 511 1.34 jruoho if (ps->ps_latency == 0) 512 1.34 jruoho ps->ps_latency = elm[2].Integer.Value; 513 1.34 jruoho 514 1.34 jruoho if (ps->ps_latency_bm == 0) 515 1.34 jruoho ps->ps_latency_bm = elm[3].Integer.Value; 516 1.34 jruoho 517 1.34 jruoho if (ps->ps_control == 0) 518 1.34 jruoho ps->ps_control = ACPI_GET64(elm[4].Buffer.Pointer); 519 1.34 jruoho 520 1.34 jruoho if (ps->ps_status == 0) 521 1.34 jruoho ps->ps_status = ACPI_GET64(elm[5].Buffer.Pointer); 522 1.21 jruoho 523 1.34 jruoho if (ps->ps_control_mask == 0) 524 1.34 jruoho ps->ps_control_mask = ACPI_GET64(elm[6].Buffer.Pointer); 525 1.21 jruoho 526 1.34 jruoho if (ps->ps_status_mask == 0) 527 1.34 jruoho ps->ps_status_mask = ACPI_GET64(elm[7].Buffer.Pointer); 528 1.21 jruoho 529 1.21 jruoho ps->ps_flags |= ACPICPU_FLAG_P_XPSS; 530 1.21 jruoho 531 1.38 jruoho if (ps->ps_freq == 0 || ps->ps_freq > 9999) 532 1.34 jruoho return AE_BAD_DECIMAL_CONSTANT; 533 1.34 jruoho 534 1.38 jruoho if (ps->ps_latency == 0 || ps->ps_latency > 1000) 535 1.38 jruoho ps->ps_latency = 1; 536 1.38 jruoho 537 1.21 jruoho return AE_OK; 538 1.21 jruoho } 539 1.21 jruoho 540 1.1 jruoho ACPI_STATUS 541 1.1 jruoho acpicpu_pstate_pct(struct acpicpu_softc *sc) 542 1.1 jruoho { 543 1.1 jruoho static const size_t size = sizeof(struct acpicpu_reg); 544 1.1 jruoho struct acpicpu_reg *reg[2]; 545 1.21 jruoho struct acpicpu_pstate *ps; 546 1.1 jruoho ACPI_OBJECT *elm, *obj; 547 1.1 jruoho ACPI_BUFFER buf; 548 1.1 jruoho ACPI_STATUS rv; 549 1.1 jruoho uint8_t width; 550 1.21 jruoho uint32_t i; 551 1.1 jruoho 552 1.1 jruoho rv = acpi_eval_struct(sc->sc_node->ad_handle, "_PCT", &buf); 553 1.1 jruoho 554 1.1 jruoho if (ACPI_FAILURE(rv)) 555 1.1 jruoho return rv; 556 1.1 jruoho 557 1.1 jruoho obj = buf.Pointer; 558 1.1 jruoho 559 1.1 jruoho if (obj->Type != ACPI_TYPE_PACKAGE) { 560 1.1 jruoho rv = AE_TYPE; 561 1.1 jruoho goto out; 562 1.1 jruoho } 563 1.1 jruoho 564 1.1 jruoho if (obj->Package.Count != 2) { 565 1.1 jruoho rv = AE_LIMIT; 566 1.1 jruoho goto out; 567 1.1 jruoho } 568 1.1 jruoho 569 1.1 jruoho for (i = 0; i < 2; i++) { 570 1.1 jruoho 571 1.1 jruoho elm = &obj->Package.Elements[i]; 572 1.1 jruoho 573 1.1 jruoho if (elm->Type != ACPI_TYPE_BUFFER) { 574 1.1 jruoho rv = AE_TYPE; 575 1.1 jruoho goto out; 576 1.1 jruoho } 577 1.1 jruoho 578 1.1 jruoho if (size > elm->Buffer.Length) { 579 1.1 jruoho rv = AE_AML_BAD_RESOURCE_LENGTH; 580 1.1 jruoho goto out; 581 1.1 jruoho } 582 1.1 jruoho 583 1.1 jruoho reg[i] = (struct acpicpu_reg *)elm->Buffer.Pointer; 584 1.1 jruoho 585 1.1 jruoho switch (reg[i]->reg_spaceid) { 586 1.1 jruoho 587 1.1 jruoho case ACPI_ADR_SPACE_SYSTEM_IO: 588 1.1 jruoho 589 1.1 jruoho if (reg[i]->reg_addr == 0) { 590 1.1 jruoho rv = AE_AML_ILLEGAL_ADDRESS; 591 1.1 jruoho goto out; 592 1.1 jruoho } 593 1.1 jruoho 594 1.1 jruoho width = reg[i]->reg_bitwidth; 595 1.1 jruoho 596 1.10 jruoho if (width + reg[i]->reg_bitoffset > 32) { 597 1.10 jruoho rv = AE_AML_BAD_RESOURCE_VALUE; 598 1.10 jruoho goto out; 599 1.10 jruoho } 600 1.10 jruoho 601 1.1 jruoho if (width != 8 && width != 16 && width != 32) { 602 1.4 jruoho rv = AE_AML_BAD_RESOURCE_VALUE; 603 1.1 jruoho goto out; 604 1.1 jruoho } 605 1.1 jruoho 606 1.1 jruoho break; 607 1.1 jruoho 608 1.1 jruoho case ACPI_ADR_SPACE_FIXED_HARDWARE: 609 1.1 jruoho 610 1.21 jruoho if ((sc->sc_flags & ACPICPU_FLAG_P_XPSS) != 0) { 611 1.21 jruoho 612 1.21 jruoho if (reg[i]->reg_bitwidth != 64) { 613 1.21 jruoho rv = AE_AML_BAD_RESOURCE_VALUE; 614 1.21 jruoho goto out; 615 1.21 jruoho } 616 1.21 jruoho 617 1.21 jruoho if (reg[i]->reg_bitoffset != 0) { 618 1.21 jruoho rv = AE_AML_BAD_RESOURCE_VALUE; 619 1.21 jruoho goto out; 620 1.21 jruoho } 621 1.21 jruoho 622 1.21 jruoho break; 623 1.21 jruoho } 624 1.21 jruoho 625 1.1 jruoho if ((sc->sc_flags & ACPICPU_FLAG_P_FFH) == 0) { 626 1.4 jruoho rv = AE_SUPPORT; 627 1.1 jruoho goto out; 628 1.1 jruoho } 629 1.1 jruoho 630 1.1 jruoho break; 631 1.1 jruoho 632 1.1 jruoho default: 633 1.1 jruoho rv = AE_AML_INVALID_SPACE_ID; 634 1.1 jruoho goto out; 635 1.1 jruoho } 636 1.1 jruoho } 637 1.1 jruoho 638 1.1 jruoho if (reg[0]->reg_spaceid != reg[1]->reg_spaceid) { 639 1.1 jruoho rv = AE_AML_INVALID_SPACE_ID; 640 1.1 jruoho goto out; 641 1.1 jruoho } 642 1.1 jruoho 643 1.15 jruoho (void)memcpy(&sc->sc_pstate_control, reg[0], size); 644 1.15 jruoho (void)memcpy(&sc->sc_pstate_status, reg[1], size); 645 1.1 jruoho 646 1.22 jruoho if ((sc->sc_flags & ACPICPU_FLAG_P_XPSS) == 0) 647 1.22 jruoho goto out; 648 1.22 jruoho 649 1.22 jruoho /* 650 1.45 jruoho * At the very least, mandate that 651 1.45 jruoho * XPSS supplies the control address. 652 1.22 jruoho */ 653 1.22 jruoho if (sc->sc_pstate_control.reg_addr == 0) { 654 1.23 jmcneill rv = AE_AML_BAD_RESOURCE_LENGTH; 655 1.22 jruoho goto out; 656 1.22 jruoho } 657 1.22 jruoho 658 1.21 jruoho /* 659 1.21 jruoho * If XPSS is present, copy the MSR addresses 660 1.21 jruoho * to the P-state structures for convenience. 661 1.21 jruoho */ 662 1.21 jruoho for (i = 0; i < sc->sc_pstate_count; i++) { 663 1.21 jruoho 664 1.21 jruoho ps = &sc->sc_pstate[i]; 665 1.21 jruoho 666 1.21 jruoho if (ps->ps_freq == 0) 667 1.21 jruoho continue; 668 1.21 jruoho 669 1.21 jruoho ps->ps_status_addr = sc->sc_pstate_status.reg_addr; 670 1.21 jruoho ps->ps_control_addr = sc->sc_pstate_control.reg_addr; 671 1.21 jruoho } 672 1.21 jruoho 673 1.1 jruoho out: 674 1.1 jruoho if (buf.Pointer != NULL) 675 1.1 jruoho ACPI_FREE(buf.Pointer); 676 1.1 jruoho 677 1.1 jruoho return rv; 678 1.1 jruoho } 679 1.1 jruoho 680 1.40 jruoho static ACPI_STATUS 681 1.40 jruoho acpicpu_pstate_dep(struct acpicpu_softc *sc) 682 1.40 jruoho { 683 1.40 jruoho ACPI_OBJECT *elm, *obj; 684 1.40 jruoho ACPI_BUFFER buf; 685 1.40 jruoho ACPI_STATUS rv; 686 1.40 jruoho uint32_t val; 687 1.40 jruoho uint8_t i, n; 688 1.40 jruoho 689 1.40 jruoho rv = acpi_eval_struct(sc->sc_node->ad_handle, "_PSD", &buf); 690 1.40 jruoho 691 1.40 jruoho if (ACPI_FAILURE(rv)) 692 1.40 jruoho goto out; 693 1.40 jruoho 694 1.40 jruoho obj = buf.Pointer; 695 1.40 jruoho 696 1.40 jruoho if (obj->Type != ACPI_TYPE_PACKAGE) { 697 1.40 jruoho rv = AE_TYPE; 698 1.40 jruoho goto out; 699 1.40 jruoho } 700 1.40 jruoho 701 1.40 jruoho if (obj->Package.Count != 1) { 702 1.40 jruoho rv = AE_LIMIT; 703 1.40 jruoho goto out; 704 1.40 jruoho } 705 1.40 jruoho 706 1.40 jruoho elm = &obj->Package.Elements[0]; 707 1.40 jruoho 708 1.40 jruoho if (obj->Type != ACPI_TYPE_PACKAGE) { 709 1.40 jruoho rv = AE_TYPE; 710 1.40 jruoho goto out; 711 1.40 jruoho } 712 1.40 jruoho 713 1.40 jruoho n = elm->Package.Count; 714 1.40 jruoho 715 1.40 jruoho if (n != 5) { 716 1.40 jruoho rv = AE_LIMIT; 717 1.40 jruoho goto out; 718 1.40 jruoho } 719 1.40 jruoho 720 1.40 jruoho elm = elm->Package.Elements; 721 1.40 jruoho 722 1.40 jruoho for (i = 0; i < n; i++) { 723 1.40 jruoho 724 1.40 jruoho if (elm[i].Type != ACPI_TYPE_INTEGER) { 725 1.40 jruoho rv = AE_TYPE; 726 1.40 jruoho goto out; 727 1.40 jruoho } 728 1.40 jruoho 729 1.40 jruoho if (elm[i].Integer.Value > UINT32_MAX) { 730 1.40 jruoho rv = AE_AML_NUMERIC_OVERFLOW; 731 1.40 jruoho goto out; 732 1.40 jruoho } 733 1.40 jruoho } 734 1.40 jruoho 735 1.40 jruoho val = elm[1].Integer.Value; 736 1.40 jruoho 737 1.40 jruoho if (val != 0) 738 1.40 jruoho aprint_debug_dev(sc->sc_dev, "invalid revision in _PSD\n"); 739 1.40 jruoho 740 1.40 jruoho val = elm[3].Integer.Value; 741 1.40 jruoho 742 1.40 jruoho if (val < ACPICPU_DEP_SW_ALL || val > ACPICPU_DEP_HW_ALL) { 743 1.40 jruoho rv = AE_AML_BAD_RESOURCE_VALUE; 744 1.40 jruoho goto out; 745 1.40 jruoho } 746 1.40 jruoho 747 1.40 jruoho val = elm[4].Integer.Value; 748 1.40 jruoho 749 1.40 jruoho if (val > sc->sc_ncpus) { 750 1.40 jruoho rv = AE_BAD_VALUE; 751 1.40 jruoho goto out; 752 1.40 jruoho } 753 1.40 jruoho 754 1.40 jruoho sc->sc_pstate_dep.dep_domain = elm[2].Integer.Value; 755 1.40 jruoho sc->sc_pstate_dep.dep_type = elm[3].Integer.Value; 756 1.40 jruoho sc->sc_pstate_dep.dep_ncpus = elm[4].Integer.Value; 757 1.40 jruoho 758 1.40 jruoho out: 759 1.40 jruoho if (ACPI_FAILURE(rv) && rv != AE_NOT_FOUND) 760 1.40 jruoho aprint_debug_dev(sc->sc_dev, "failed to evaluate " 761 1.40 jruoho "_PSD: %s\n", AcpiFormatException(rv)); 762 1.40 jruoho 763 1.40 jruoho if (buf.Pointer != NULL) 764 1.40 jruoho ACPI_FREE(buf.Pointer); 765 1.40 jruoho 766 1.40 jruoho return rv; 767 1.40 jruoho } 768 1.40 jruoho 769 1.1 jruoho static int 770 1.1 jruoho acpicpu_pstate_max(struct acpicpu_softc *sc) 771 1.1 jruoho { 772 1.1 jruoho ACPI_INTEGER val; 773 1.1 jruoho ACPI_STATUS rv; 774 1.1 jruoho 775 1.1 jruoho /* 776 1.1 jruoho * Evaluate the currently highest P-state that can be used. 777 1.1 jruoho * If available, we can use either this state or any lower 778 1.1 jruoho * power (i.e. higher numbered) state from the _PSS object. 779 1.27 jruoho * Note that the return value must match the _OST parameter. 780 1.1 jruoho */ 781 1.1 jruoho rv = acpi_eval_integer(sc->sc_node->ad_handle, "_PPC", &val); 782 1.1 jruoho 783 1.27 jruoho if (ACPI_SUCCESS(rv) && val < sc->sc_pstate_count) { 784 1.27 jruoho 785 1.27 jruoho if (sc->sc_pstate[val].ps_freq != 0) { 786 1.27 jruoho sc->sc_pstate_max = val; 787 1.27 jruoho return 0; 788 1.27 jruoho } 789 1.27 jruoho } 790 1.27 jruoho 791 1.27 jruoho return 1; 792 1.27 jruoho } 793 1.27 jruoho 794 1.27 jruoho static int 795 1.27 jruoho acpicpu_pstate_min(struct acpicpu_softc *sc) 796 1.27 jruoho { 797 1.27 jruoho ACPI_INTEGER val; 798 1.27 jruoho ACPI_STATUS rv; 799 1.1 jruoho 800 1.27 jruoho /* 801 1.27 jruoho * The _PDL object defines the minimum when passive cooling 802 1.27 jruoho * is being performed. If available, we can use the returned 803 1.27 jruoho * state or any higher power (i.e. lower numbered) state. 804 1.27 jruoho */ 805 1.27 jruoho rv = acpi_eval_integer(sc->sc_node->ad_handle, "_PDL", &val); 806 1.1 jruoho 807 1.27 jruoho if (ACPI_SUCCESS(rv) && val < sc->sc_pstate_count) { 808 1.1 jruoho 809 1.27 jruoho if (sc->sc_pstate[val].ps_freq == 0) 810 1.27 jruoho return 1; 811 1.1 jruoho 812 1.27 jruoho if (val >= sc->sc_pstate_max) { 813 1.27 jruoho sc->sc_pstate_min = val; 814 1.27 jruoho return 0; 815 1.27 jruoho } 816 1.27 jruoho } 817 1.1 jruoho 818 1.27 jruoho return 1; 819 1.1 jruoho } 820 1.1 jruoho 821 1.1 jruoho static void 822 1.1 jruoho acpicpu_pstate_change(struct acpicpu_softc *sc) 823 1.1 jruoho { 824 1.27 jruoho static ACPI_STATUS rv = AE_OK; 825 1.1 jruoho ACPI_OBJECT_LIST arg; 826 1.1 jruoho ACPI_OBJECT obj[2]; 827 1.36 jruoho static int val = 0; 828 1.1 jruoho 829 1.28 jruoho acpicpu_pstate_reset(sc); 830 1.27 jruoho 831 1.36 jruoho /* 832 1.36 jruoho * Cache the checks as the optional 833 1.36 jruoho * _PDL and _OST are rarely present. 834 1.36 jruoho */ 835 1.36 jruoho if (val == 0) 836 1.36 jruoho val = acpicpu_pstate_min(sc); 837 1.36 jruoho 838 1.1 jruoho arg.Count = 2; 839 1.1 jruoho arg.Pointer = obj; 840 1.1 jruoho 841 1.1 jruoho obj[0].Type = ACPI_TYPE_INTEGER; 842 1.1 jruoho obj[1].Type = ACPI_TYPE_INTEGER; 843 1.1 jruoho 844 1.1 jruoho obj[0].Integer.Value = ACPICPU_P_NOTIFY; 845 1.1 jruoho obj[1].Integer.Value = acpicpu_pstate_max(sc); 846 1.1 jruoho 847 1.27 jruoho if (ACPI_FAILURE(rv)) 848 1.27 jruoho return; 849 1.27 jruoho 850 1.27 jruoho rv = AcpiEvaluateObject(sc->sc_node->ad_handle, "_OST", &arg, NULL); 851 1.1 jruoho } 852 1.1 jruoho 853 1.1 jruoho static void 854 1.28 jruoho acpicpu_pstate_reset(struct acpicpu_softc *sc) 855 1.28 jruoho { 856 1.28 jruoho 857 1.28 jruoho sc->sc_pstate_max = 0; 858 1.28 jruoho sc->sc_pstate_min = sc->sc_pstate_count - 1; 859 1.28 jruoho 860 1.28 jruoho } 861 1.28 jruoho 862 1.28 jruoho static void 863 1.1 jruoho acpicpu_pstate_bios(void) 864 1.1 jruoho { 865 1.1 jruoho const uint8_t val = AcpiGbl_FADT.PstateControl; 866 1.1 jruoho const uint32_t addr = AcpiGbl_FADT.SmiCommand; 867 1.1 jruoho 868 1.19 jruoho if (addr == 0 || val == 0) 869 1.1 jruoho return; 870 1.1 jruoho 871 1.1 jruoho (void)AcpiOsWritePort(addr, val, 8); 872 1.1 jruoho } 873 1.1 jruoho 874 1.1 jruoho int 875 1.42 jruoho acpicpu_pstate_get(struct cpu_info *ci, uint32_t *freq) 876 1.1 jruoho { 877 1.1 jruoho struct acpicpu_pstate *ps = NULL; 878 1.42 jruoho struct acpicpu_softc *sc; 879 1.1 jruoho uint32_t i, val = 0; 880 1.1 jruoho uint64_t addr; 881 1.1 jruoho uint8_t width; 882 1.1 jruoho int rv; 883 1.1 jruoho 884 1.42 jruoho sc = acpicpu_sc[ci->ci_acpiid]; 885 1.42 jruoho 886 1.42 jruoho if (__predict_false(sc == NULL)) { 887 1.42 jruoho rv = ENXIO; 888 1.42 jruoho goto fail; 889 1.42 jruoho } 890 1.42 jruoho 891 1.35 jruoho if (__predict_false(sc->sc_cold != false)) { 892 1.11 jruoho rv = EBUSY; 893 1.11 jruoho goto fail; 894 1.11 jruoho } 895 1.11 jruoho 896 1.35 jruoho if (__predict_false((sc->sc_flags & ACPICPU_FLAG_P) == 0)) { 897 1.1 jruoho rv = ENODEV; 898 1.1 jruoho goto fail; 899 1.1 jruoho } 900 1.1 jruoho 901 1.14 jruoho mutex_enter(&sc->sc_mtx); 902 1.14 jruoho 903 1.35 jruoho /* 904 1.35 jruoho * Use the cached value, if available. 905 1.35 jruoho */ 906 1.1 jruoho if (sc->sc_pstate_current != ACPICPU_P_STATE_UNKNOWN) { 907 1.1 jruoho *freq = sc->sc_pstate_current; 908 1.14 jruoho mutex_exit(&sc->sc_mtx); 909 1.1 jruoho return 0; 910 1.1 jruoho } 911 1.1 jruoho 912 1.14 jruoho mutex_exit(&sc->sc_mtx); 913 1.14 jruoho 914 1.42 jruoho switch (sc->sc_pstate_status.reg_spaceid) { 915 1.1 jruoho 916 1.1 jruoho case ACPI_ADR_SPACE_FIXED_HARDWARE: 917 1.1 jruoho 918 1.1 jruoho rv = acpicpu_md_pstate_get(sc, freq); 919 1.1 jruoho 920 1.35 jruoho if (__predict_false(rv != 0)) 921 1.1 jruoho goto fail; 922 1.1 jruoho 923 1.1 jruoho break; 924 1.1 jruoho 925 1.1 jruoho case ACPI_ADR_SPACE_SYSTEM_IO: 926 1.1 jruoho 927 1.1 jruoho addr = sc->sc_pstate_status.reg_addr; 928 1.1 jruoho width = sc->sc_pstate_status.reg_bitwidth; 929 1.1 jruoho 930 1.1 jruoho (void)AcpiOsReadPort(addr, &val, width); 931 1.1 jruoho 932 1.1 jruoho if (val == 0) { 933 1.1 jruoho rv = EIO; 934 1.1 jruoho goto fail; 935 1.1 jruoho } 936 1.1 jruoho 937 1.5 jruoho for (i = 0; i < sc->sc_pstate_count; i++) { 938 1.1 jruoho 939 1.1 jruoho if (sc->sc_pstate[i].ps_freq == 0) 940 1.1 jruoho continue; 941 1.1 jruoho 942 1.1 jruoho if (val == sc->sc_pstate[i].ps_status) { 943 1.1 jruoho ps = &sc->sc_pstate[i]; 944 1.1 jruoho break; 945 1.1 jruoho } 946 1.1 jruoho } 947 1.1 jruoho 948 1.35 jruoho if (ps == NULL) { 949 1.1 jruoho rv = EIO; 950 1.1 jruoho goto fail; 951 1.1 jruoho } 952 1.1 jruoho 953 1.1 jruoho *freq = ps->ps_freq; 954 1.1 jruoho break; 955 1.1 jruoho 956 1.1 jruoho default: 957 1.1 jruoho rv = ENOTTY; 958 1.1 jruoho goto fail; 959 1.1 jruoho } 960 1.1 jruoho 961 1.14 jruoho mutex_enter(&sc->sc_mtx); 962 1.1 jruoho sc->sc_pstate_current = *freq; 963 1.14 jruoho mutex_exit(&sc->sc_mtx); 964 1.1 jruoho 965 1.1 jruoho return 0; 966 1.1 jruoho 967 1.1 jruoho fail: 968 1.50 jruoho aprint_error_dev(sc->sc_dev, "failed " 969 1.1 jruoho "to get frequency (err %d)\n", rv); 970 1.1 jruoho 971 1.14 jruoho mutex_enter(&sc->sc_mtx); 972 1.1 jruoho *freq = sc->sc_pstate_current = ACPICPU_P_STATE_UNKNOWN; 973 1.14 jruoho mutex_exit(&sc->sc_mtx); 974 1.1 jruoho 975 1.1 jruoho return rv; 976 1.1 jruoho } 977 1.1 jruoho 978 1.42 jruoho void 979 1.42 jruoho acpicpu_pstate_set(struct cpu_info *ci, uint32_t freq) 980 1.42 jruoho { 981 1.42 jruoho uint64_t xc; 982 1.42 jruoho 983 1.42 jruoho xc = xc_broadcast(0, acpicpu_pstate_set_xcall, &freq, NULL); 984 1.42 jruoho xc_wait(xc); 985 1.42 jruoho } 986 1.42 jruoho 987 1.42 jruoho static void 988 1.42 jruoho acpicpu_pstate_set_xcall(void *arg1, void *arg2) 989 1.1 jruoho { 990 1.1 jruoho struct acpicpu_pstate *ps = NULL; 991 1.42 jruoho struct cpu_info *ci = curcpu(); 992 1.42 jruoho struct acpicpu_softc *sc; 993 1.42 jruoho uint32_t freq, i, val; 994 1.1 jruoho uint64_t addr; 995 1.1 jruoho uint8_t width; 996 1.1 jruoho int rv; 997 1.1 jruoho 998 1.42 jruoho freq = *(uint32_t *)arg1; 999 1.42 jruoho sc = acpicpu_sc[ci->ci_acpiid]; 1000 1.42 jruoho 1001 1.42 jruoho if (__predict_false(sc == NULL)) { 1002 1.42 jruoho rv = ENXIO; 1003 1.42 jruoho goto fail; 1004 1.42 jruoho } 1005 1.42 jruoho 1006 1.35 jruoho if (__predict_false(sc->sc_cold != false)) { 1007 1.11 jruoho rv = EBUSY; 1008 1.11 jruoho goto fail; 1009 1.11 jruoho } 1010 1.11 jruoho 1011 1.35 jruoho if (__predict_false((sc->sc_flags & ACPICPU_FLAG_P) == 0)) { 1012 1.1 jruoho rv = ENODEV; 1013 1.1 jruoho goto fail; 1014 1.1 jruoho } 1015 1.1 jruoho 1016 1.1 jruoho mutex_enter(&sc->sc_mtx); 1017 1.1 jruoho 1018 1.31 jruoho if (sc->sc_pstate_current == freq) { 1019 1.31 jruoho mutex_exit(&sc->sc_mtx); 1020 1.42 jruoho return; 1021 1.31 jruoho } 1022 1.31 jruoho 1023 1.35 jruoho /* 1024 1.35 jruoho * Verify that the requested frequency is available. 1025 1.35 jruoho * 1026 1.35 jruoho * The access needs to be protected since the currently 1027 1.35 jruoho * available maximum and minimum may change dynamically. 1028 1.35 jruoho */ 1029 1.27 jruoho for (i = sc->sc_pstate_max; i <= sc->sc_pstate_min; i++) { 1030 1.1 jruoho 1031 1.35 jruoho if (__predict_false(sc->sc_pstate[i].ps_freq == 0)) 1032 1.1 jruoho continue; 1033 1.1 jruoho 1034 1.1 jruoho if (sc->sc_pstate[i].ps_freq == freq) { 1035 1.1 jruoho ps = &sc->sc_pstate[i]; 1036 1.1 jruoho break; 1037 1.1 jruoho } 1038 1.1 jruoho } 1039 1.1 jruoho 1040 1.1 jruoho mutex_exit(&sc->sc_mtx); 1041 1.1 jruoho 1042 1.15 jruoho if (__predict_false(ps == NULL)) { 1043 1.1 jruoho rv = EINVAL; 1044 1.1 jruoho goto fail; 1045 1.1 jruoho } 1046 1.1 jruoho 1047 1.42 jruoho switch (sc->sc_pstate_control.reg_spaceid) { 1048 1.1 jruoho 1049 1.1 jruoho case ACPI_ADR_SPACE_FIXED_HARDWARE: 1050 1.1 jruoho 1051 1.1 jruoho rv = acpicpu_md_pstate_set(ps); 1052 1.1 jruoho 1053 1.35 jruoho if (__predict_false(rv != 0)) 1054 1.1 jruoho goto fail; 1055 1.1 jruoho 1056 1.1 jruoho break; 1057 1.1 jruoho 1058 1.1 jruoho case ACPI_ADR_SPACE_SYSTEM_IO: 1059 1.1 jruoho 1060 1.1 jruoho addr = sc->sc_pstate_control.reg_addr; 1061 1.1 jruoho width = sc->sc_pstate_control.reg_bitwidth; 1062 1.1 jruoho 1063 1.1 jruoho (void)AcpiOsWritePort(addr, ps->ps_control, width); 1064 1.1 jruoho 1065 1.1 jruoho addr = sc->sc_pstate_status.reg_addr; 1066 1.1 jruoho width = sc->sc_pstate_status.reg_bitwidth; 1067 1.1 jruoho 1068 1.1 jruoho /* 1069 1.1 jruoho * Some systems take longer to respond 1070 1.1 jruoho * than the reported worst-case latency. 1071 1.1 jruoho */ 1072 1.1 jruoho for (i = val = 0; i < ACPICPU_P_STATE_RETRY; i++) { 1073 1.1 jruoho 1074 1.1 jruoho (void)AcpiOsReadPort(addr, &val, width); 1075 1.1 jruoho 1076 1.1 jruoho if (val == ps->ps_status) 1077 1.1 jruoho break; 1078 1.1 jruoho 1079 1.1 jruoho DELAY(ps->ps_latency); 1080 1.1 jruoho } 1081 1.1 jruoho 1082 1.1 jruoho if (i == ACPICPU_P_STATE_RETRY) { 1083 1.1 jruoho rv = EAGAIN; 1084 1.1 jruoho goto fail; 1085 1.1 jruoho } 1086 1.1 jruoho 1087 1.1 jruoho break; 1088 1.1 jruoho 1089 1.1 jruoho default: 1090 1.1 jruoho rv = ENOTTY; 1091 1.1 jruoho goto fail; 1092 1.1 jruoho } 1093 1.1 jruoho 1094 1.16 jruoho mutex_enter(&sc->sc_mtx); 1095 1.7 jruoho ps->ps_evcnt.ev_count++; 1096 1.1 jruoho sc->sc_pstate_current = freq; 1097 1.14 jruoho mutex_exit(&sc->sc_mtx); 1098 1.1 jruoho 1099 1.42 jruoho return; 1100 1.1 jruoho 1101 1.1 jruoho fail: 1102 1.50 jruoho if (rv != EINVAL) 1103 1.50 jruoho aprint_error_dev(sc->sc_dev, "failed to set " 1104 1.50 jruoho "frequency to %u (err %d)\n", freq, rv); 1105 1.1 jruoho 1106 1.14 jruoho mutex_enter(&sc->sc_mtx); 1107 1.1 jruoho sc->sc_pstate_current = ACPICPU_P_STATE_UNKNOWN; 1108 1.14 jruoho mutex_exit(&sc->sc_mtx); 1109 1.1 jruoho } 1110
Indexes created Tue Sep 30 20:09:53 GMT 2025