acpi.c revision 1.298
1 1.298 mrg /* $NetBSD: acpi.c,v 1.298 2022/05/31 20:28:57 mrg Exp $ */ 2 1.50 mycroft 3 1.50 mycroft /*- 4 1.101 ad * Copyright (c) 2003, 2007 The NetBSD Foundation, Inc. 5 1.50 mycroft * All rights reserved. 6 1.50 mycroft * 7 1.50 mycroft * This code is derived from software contributed to The NetBSD Foundation 8 1.50 mycroft * by Charles M. Hannum of By Noon Software, Inc. 9 1.50 mycroft * 10 1.50 mycroft * Redistribution and use in source and binary forms, with or without 11 1.50 mycroft * modification, are permitted provided that the following conditions 12 1.50 mycroft * are met: 13 1.50 mycroft * 1. Redistributions of source code must retain the above copyright 14 1.50 mycroft * notice, this list of conditions and the following disclaimer. 15 1.50 mycroft * 2. Redistributions in binary form must reproduce the above copyright 16 1.50 mycroft * notice, this list of conditions and the following disclaimer in the 17 1.50 mycroft * documentation and/or other materials provided with the distribution. 18 1.50 mycroft * 19 1.50 mycroft * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.50 mycroft * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.50 mycroft * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.50 mycroft * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.50 mycroft * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.50 mycroft * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.50 mycroft * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.50 mycroft * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.50 mycroft * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.50 mycroft * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.50 mycroft * POSSIBILITY OF SUCH DAMAGE. 30 1.50 mycroft */ 31 1.1 thorpej 32 1.1 thorpej /* 33 1.212 jruoho * Copyright (c) 2003 Wasabi Systems, Inc. 34 1.212 jruoho * All rights reserved. 35 1.212 jruoho * 36 1.212 jruoho * Written by Frank van der Linden for Wasabi Systems, Inc. 37 1.212 jruoho * 38 1.212 jruoho * Redistribution and use in source and binary forms, with or without 39 1.212 jruoho * modification, are permitted provided that the following conditions 40 1.212 jruoho * are met: 41 1.212 jruoho * 1. Redistributions of source code must retain the above copyright 42 1.212 jruoho * notice, this list of conditions and the following disclaimer. 43 1.212 jruoho * 2. Redistributions in binary form must reproduce the above copyright 44 1.212 jruoho * notice, this list of conditions and the following disclaimer in the 45 1.212 jruoho * documentation and/or other materials provided with the distribution. 46 1.212 jruoho * 3. All advertising materials mentioning features or use of this software 47 1.212 jruoho * must display the following acknowledgement: 48 1.212 jruoho * This product includes software developed for the NetBSD Project by 49 1.212 jruoho * Wasabi Systems, Inc. 50 1.212 jruoho * 4. The name of Wasabi Systems, Inc. may not be used to endorse 51 1.212 jruoho * or promote products derived from this software without specific prior 52 1.212 jruoho * written permission. 53 1.212 jruoho * 54 1.212 jruoho * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 55 1.212 jruoho * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 56 1.212 jruoho * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 57 1.212 jruoho * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 58 1.212 jruoho * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 59 1.212 jruoho * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 60 1.212 jruoho * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 61 1.212 jruoho * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 62 1.212 jruoho * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 63 1.212 jruoho * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 64 1.212 jruoho * POSSIBILITY OF SUCH DAMAGE. 65 1.212 jruoho */ 66 1.212 jruoho 67 1.212 jruoho /* 68 1.34 thorpej * Copyright 2001, 2003 Wasabi Systems, Inc. 69 1.1 thorpej * All rights reserved. 70 1.1 thorpej * 71 1.1 thorpej * Written by Jason R. Thorpe for Wasabi Systems, Inc. 72 1.1 thorpej * 73 1.1 thorpej * Redistribution and use in source and binary forms, with or without 74 1.1 thorpej * modification, are permitted provided that the following conditions 75 1.1 thorpej * are met: 76 1.1 thorpej * 1. Redistributions of source code must retain the above copyright 77 1.1 thorpej * notice, this list of conditions and the following disclaimer. 78 1.1 thorpej * 2. Redistributions in binary form must reproduce the above copyright 79 1.1 thorpej * notice, this list of conditions and the following disclaimer in the 80 1.1 thorpej * documentation and/or other materials provided with the distribution. 81 1.1 thorpej * 3. All advertising materials mentioning features or use of this software 82 1.1 thorpej * must display the following acknowledgement: 83 1.1 thorpej * This product includes software developed for the NetBSD Project by 84 1.1 thorpej * Wasabi Systems, Inc. 85 1.1 thorpej * 4. The name of Wasabi Systems, Inc. may not be used to endorse 86 1.1 thorpej * or promote products derived from this software without specific prior 87 1.1 thorpej * written permission. 88 1.1 thorpej * 89 1.1 thorpej * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND 90 1.1 thorpej * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 91 1.1 thorpej * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 92 1.1 thorpej * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL WASABI SYSTEMS, INC 93 1.1 thorpej * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 94 1.1 thorpej * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 95 1.1 thorpej * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 96 1.1 thorpej * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 97 1.1 thorpej * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 98 1.1 thorpej * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 99 1.1 thorpej * POSSIBILITY OF SUCH DAMAGE. 100 1.1 thorpej */ 101 1.1 thorpej 102 1.5 lukem #include <sys/cdefs.h> 103 1.298 mrg __KERNEL_RCSID(0, "$NetBSD: acpi.c,v 1.298 2022/05/31 20:28:57 mrg Exp $"); 104 1.27 christos 105 1.267 maya #include "pci.h" 106 1.27 christos #include "opt_acpi.h" 107 1.73 sekiya #include "opt_pcifixup.h" 108 1.1 thorpej 109 1.1 thorpej #include <sys/param.h> 110 1.295 riastrad #include <sys/atomic.h> 111 1.1 thorpej #include <sys/device.h> 112 1.155 jruoho #include <sys/kernel.h> 113 1.239 jruoho #include <sys/kmem.h> 114 1.1 thorpej #include <sys/malloc.h> 115 1.197 pgoyette #include <sys/module.h> 116 1.100 xtraeme #include <sys/mutex.h> 117 1.78 cube #include <sys/sysctl.h> 118 1.155 jruoho #include <sys/systm.h> 119 1.206 jruoho #include <sys/timetc.h> 120 1.1 thorpej 121 1.1 thorpej #include <dev/acpi/acpireg.h> 122 1.1 thorpej #include <dev/acpi/acpivar.h> 123 1.261 msaitoh #include <dev/acpi/acpi_mcfg.h> 124 1.1 thorpej #include <dev/acpi/acpi_osd.h> 125 1.155 jruoho #include <dev/acpi/acpi_pci.h> 126 1.181 jruoho #include <dev/acpi/acpi_power.h> 127 1.90 drochner #include <dev/acpi/acpi_timer.h> 128 1.127 jmcneill #include <dev/acpi/acpi_wakedev.h> 129 1.155 jruoho 130 1.239 jruoho #include <machine/acpi_machdep.h> 131 1.239 jruoho 132 1.264 riastrad #include "ioconf.h" 133 1.264 riastrad 134 1.169 jruoho #define _COMPONENT ACPI_BUS_COMPONENT 135 1.169 jruoho ACPI_MODULE_NAME ("acpi") 136 1.132 mlelstv 137 1.1 thorpej /* 138 1.231 jruoho * The acpi_active variable is set when the ACPI subsystem is active. 139 1.231 jruoho * Machine-dependent code may wish to skip other steps (such as attaching 140 1.1 thorpej * subsystems that ACPI supercedes) when ACPI is active. 141 1.1 thorpej */ 142 1.231 jruoho int acpi_active = 0; 143 1.231 jruoho int acpi_suspended = 0; 144 1.231 jruoho int acpi_force_load = 0; 145 1.231 jruoho int acpi_verbose_loaded = 0; 146 1.1 thorpej 147 1.238 jruoho struct acpi_softc *acpi_softc = NULL; 148 1.211 jruoho static uint64_t acpi_root_pointer; 149 1.211 jruoho extern kmutex_t acpi_interrupt_list_mtx; 150 1.211 jruoho static ACPI_HANDLE acpi_scopes[4]; 151 1.213 jruoho ACPI_TABLE_HEADER *madt_header; 152 1.273 jmcneill ACPI_TABLE_HEADER *gtdt_header; 153 1.32 tshiozak 154 1.79 cube /* 155 1.176 jruoho * This structure provides a context for the ACPI 156 1.176 jruoho * namespace walk performed in acpi_build_tree(). 157 1.176 jruoho */ 158 1.176 jruoho struct acpi_walkcontext { 159 1.176 jruoho struct acpi_softc *aw_sc; 160 1.176 jruoho struct acpi_devnode *aw_parent; 161 1.176 jruoho }; 162 1.176 jruoho 163 1.176 jruoho /* 164 1.147 jruoho * Ignored HIDs. 165 1.116 jmcneill */ 166 1.116 jmcneill static const char * const acpi_ignored_ids[] = { 167 1.116 jmcneill #if defined(i386) || defined(x86_64) 168 1.240 jruoho "ACPI0007", /* ACPI CPUs do not attach to acpi(4) */ 169 1.116 jmcneill "PNP0000", /* AT interrupt controller is handled internally */ 170 1.286 jmcneill "PNP0001", /* EISA interrupt controller is handled internally */ 171 1.116 jmcneill "PNP0200", /* AT DMA controller is handled internally */ 172 1.137 cegger "PNP0A??", /* PCI Busses are handled internally */ 173 1.116 jmcneill "PNP0B00", /* AT RTC is handled internally */ 174 1.286 jmcneill "PNP0C02", /* PnP motherboard resources */ 175 1.116 jmcneill "PNP0C0F", /* ACPI PCI link devices are handled internally */ 176 1.116 jmcneill #endif 177 1.116 jmcneill #if defined(x86_64) 178 1.116 jmcneill "PNP0C04", /* FPU is handled internally */ 179 1.116 jmcneill #endif 180 1.274 jmcneill #if defined(__aarch64__) 181 1.281 jmcneill "ACPI0004", /* ACPI module devices are handled internally */ 182 1.278 jmcneill "PNP0C0F", /* ACPI PCI link devices are handled internally */ 183 1.274 jmcneill #endif 184 1.116 jmcneill NULL 185 1.116 jmcneill }; 186 1.116 jmcneill 187 1.226 jruoho /* 188 1.226 jruoho * Devices that should be attached early. 189 1.226 jruoho */ 190 1.226 jruoho static const char * const acpi_early_ids[] = { 191 1.226 jruoho "PNP0C09", /* acpiec(4) */ 192 1.226 jruoho NULL 193 1.226 jruoho }; 194 1.226 jruoho 195 1.169 jruoho static int acpi_match(device_t, cfdata_t, void *); 196 1.169 jruoho static int acpi_submatch(device_t, cfdata_t, const int *, void *); 197 1.169 jruoho static void acpi_attach(device_t, device_t, void *); 198 1.169 jruoho static int acpi_detach(device_t, int); 199 1.169 jruoho static void acpi_childdet(device_t, device_t); 200 1.169 jruoho static bool acpi_suspend(device_t, const pmf_qual_t *); 201 1.169 jruoho static bool acpi_resume(device_t, const pmf_qual_t *); 202 1.169 jruoho 203 1.64 kochi static void acpi_build_tree(struct acpi_softc *); 204 1.255 chs static void acpi_config_tree(struct acpi_softc *); 205 1.282 jmcneill static void acpi_config_dma(struct acpi_softc *); 206 1.151 jruoho static ACPI_STATUS acpi_make_devnode(ACPI_HANDLE, uint32_t, 207 1.151 jruoho void *, void **); 208 1.176 jruoho static ACPI_STATUS acpi_make_devnode_post(ACPI_HANDLE, uint32_t, 209 1.176 jruoho void *, void **); 210 1.229 jruoho static void acpi_make_name(struct acpi_devnode *, uint32_t); 211 1.1 thorpej 212 1.169 jruoho static int acpi_rescan(device_t, const char *, const int *); 213 1.226 jruoho static void acpi_rescan_early(struct acpi_softc *); 214 1.169 jruoho static void acpi_rescan_nodes(struct acpi_softc *); 215 1.224 jruoho static void acpi_rescan_capabilities(device_t); 216 1.169 jruoho static int acpi_print(void *aux, const char *); 217 1.169 jruoho 218 1.175 jruoho static void acpi_notify_handler(ACPI_HANDLE, uint32_t, void *); 219 1.175 jruoho 220 1.168 jruoho static void acpi_register_fixed_button(struct acpi_softc *, int); 221 1.168 jruoho static void acpi_deregister_fixed_button(struct acpi_softc *, int); 222 1.168 jruoho static uint32_t acpi_fixed_button_handler(void *); 223 1.168 jruoho static void acpi_fixed_button_pressed(void *); 224 1.168 jruoho 225 1.166 jruoho static void acpi_sleep_init(struct acpi_softc *); 226 1.1 thorpej 227 1.209 jruoho static int sysctl_hw_acpi_fixedstats(SYSCTLFN_PROTO); 228 1.209 jruoho static int sysctl_hw_acpi_sleepstate(SYSCTLFN_PROTO); 229 1.209 jruoho static int sysctl_hw_acpi_sleepstates(SYSCTLFN_PROTO); 230 1.169 jruoho 231 1.185 jruoho static bool acpi_is_scope(struct acpi_devnode *); 232 1.108 jmcneill static ACPI_TABLE_HEADER *acpi_map_rsdt(void); 233 1.185 jruoho static void acpi_unmap_rsdt(ACPI_TABLE_HEADER *); 234 1.108 jmcneill 235 1.211 jruoho void acpi_print_verbose_stub(struct acpi_softc *); 236 1.211 jruoho void acpi_print_dev_stub(const char *); 237 1.123 jmcneill 238 1.228 jruoho static void acpi_activate_device(ACPI_HANDLE, ACPI_DEVICE_INFO **); 239 1.228 jruoho ACPI_STATUS acpi_allocate_resources(ACPI_HANDLE); 240 1.228 jruoho 241 1.211 jruoho void (*acpi_print_verbose)(struct acpi_softc *) = acpi_print_verbose_stub; 242 1.200 pgoyette void (*acpi_print_dev)(const char *) = acpi_print_dev_stub; 243 1.197 pgoyette 244 1.279 jmcneill bus_dma_tag_t acpi_default_dma_tag(struct acpi_softc *, struct acpi_devnode *); 245 1.279 jmcneill bus_dma_tag_t acpi_default_dma64_tag(struct acpi_softc *, struct acpi_devnode *); 246 1.283 jmcneill pci_chipset_tag_t acpi_default_pci_chipset_tag(struct acpi_softc *, int, int); 247 1.279 jmcneill 248 1.169 jruoho CFATTACH_DECL2_NEW(acpi, sizeof(struct acpi_softc), 249 1.169 jruoho acpi_match, acpi_attach, acpi_detach, NULL, acpi_rescan, acpi_childdet); 250 1.159 jruoho 251 1.1 thorpej /* 252 1.169 jruoho * Probe for ACPI support. 253 1.1 thorpej * 254 1.169 jruoho * This is called by the machine-dependent ACPI front-end. 255 1.169 jruoho * Note: this is not an autoconfiguration interface function. 256 1.1 thorpej */ 257 1.1 thorpej int 258 1.1 thorpej acpi_probe(void) 259 1.1 thorpej { 260 1.108 jmcneill ACPI_TABLE_HEADER *rsdt; 261 1.1 thorpej ACPI_STATUS rv; 262 1.238 jruoho int quirks; 263 1.169 jruoho 264 1.238 jruoho if (acpi_softc != NULL) 265 1.169 jruoho panic("%s: already probed", __func__); 266 1.1 thorpej 267 1.103 ad mutex_init(&acpi_interrupt_list_mtx, MUTEX_DEFAULT, IPL_NONE); 268 1.32 tshiozak 269 1.1 thorpej /* 270 1.1 thorpej * Start up ACPICA. 271 1.1 thorpej */ 272 1.172 jruoho AcpiGbl_EnableInterpreterSlack = true; 273 1.104 jmcneill 274 1.1 thorpej rv = AcpiInitializeSubsystem(); 275 1.172 jruoho 276 1.238 jruoho if (ACPI_FAILURE(rv)) { 277 1.238 jruoho aprint_error("%s: failed to initialize subsystem\n", __func__); 278 1.238 jruoho return 0; 279 1.1 thorpej } 280 1.1 thorpej 281 1.178 jruoho /* 282 1.178 jruoho * Allocate space for RSDT/XSDT and DSDT, 283 1.178 jruoho * but allow resizing if more tables exist. 284 1.178 jruoho */ 285 1.178 jruoho rv = AcpiInitializeTables(NULL, 2, true); 286 1.172 jruoho 287 1.104 jmcneill if (ACPI_FAILURE(rv)) { 288 1.238 jruoho aprint_error("%s: failed to initialize tables\n", __func__); 289 1.172 jruoho goto fail; 290 1.104 jmcneill } 291 1.104 jmcneill 292 1.1 thorpej rv = AcpiLoadTables(); 293 1.172 jruoho 294 1.56 mycroft if (ACPI_FAILURE(rv)) { 295 1.238 jruoho aprint_error("%s: failed to load tables\n", __func__); 296 1.172 jruoho goto fail; 297 1.1 thorpej } 298 1.1 thorpej 299 1.108 jmcneill rsdt = acpi_map_rsdt(); 300 1.172 jruoho 301 1.108 jmcneill if (rsdt == NULL) { 302 1.238 jruoho aprint_error("%s: failed to map RSDT\n", __func__); 303 1.172 jruoho goto fail; 304 1.108 jmcneill } 305 1.107 jmcneill 306 1.238 jruoho quirks = acpi_find_quirks(); 307 1.238 jruoho 308 1.238 jruoho if (acpi_force_load == 0 && (quirks & ACPI_QUIRK_BROKEN) != 0) { 309 1.238 jruoho 310 1.172 jruoho aprint_normal("ACPI: BIOS is listed as broken:\n"); 311 1.172 jruoho aprint_normal("ACPI: X/RSDT: OemId <%6.6s,%8.8s,%08x>, " 312 1.238 jruoho "AslId <%4.4s,%08x>\n", rsdt->OemId, rsdt->OemTableId, 313 1.238 jruoho rsdt->OemRevision, rsdt->AslCompilerId, 314 1.108 jmcneill rsdt->AslCompilerRevision); 315 1.172 jruoho aprint_normal("ACPI: Not used. Set acpi_force_load to use.\n"); 316 1.238 jruoho 317 1.108 jmcneill acpi_unmap_rsdt(rsdt); 318 1.238 jruoho goto fail; 319 1.93 christos } 320 1.238 jruoho 321 1.238 jruoho if (acpi_force_load == 0 && (quirks & ACPI_QUIRK_OLDBIOS) != 0) { 322 1.238 jruoho 323 1.238 jruoho aprint_normal("ACPI: BIOS is too old (%s). " 324 1.238 jruoho "Set acpi_force_load to use.\n", 325 1.252 jmcneill pmf_get_platform("bios-date")); 326 1.238 jruoho 327 1.219 jmcneill acpi_unmap_rsdt(rsdt); 328 1.238 jruoho goto fail; 329 1.219 jmcneill } 330 1.93 christos 331 1.108 jmcneill acpi_unmap_rsdt(rsdt); 332 1.108 jmcneill 333 1.104 jmcneill rv = AcpiEnableSubsystem(~(ACPI_NO_HARDWARE_INIT|ACPI_NO_ACPI_ENABLE)); 334 1.172 jruoho 335 1.104 jmcneill if (ACPI_FAILURE(rv)) { 336 1.238 jruoho aprint_error("%s: failed to enable subsystem\n", __func__); 337 1.172 jruoho goto fail; 338 1.104 jmcneill } 339 1.104 jmcneill 340 1.63 kochi return 1; 341 1.172 jruoho 342 1.172 jruoho fail: 343 1.238 jruoho (void)AcpiTerminate(); 344 1.172 jruoho 345 1.172 jruoho return 0; 346 1.1 thorpej } 347 1.1 thorpej 348 1.214 jruoho void 349 1.214 jruoho acpi_disable(void) 350 1.214 jruoho { 351 1.214 jruoho 352 1.222 jruoho if (acpi_softc == NULL) 353 1.222 jruoho return; 354 1.222 jruoho 355 1.222 jruoho KASSERT(acpi_active != 0); 356 1.222 jruoho 357 1.214 jruoho if (AcpiGbl_FADT.SmiCommand != 0) 358 1.214 jruoho AcpiDisable(); 359 1.214 jruoho } 360 1.214 jruoho 361 1.98 cube int 362 1.98 cube acpi_check(device_t parent, const char *ifattr) 363 1.98 cube { 364 1.291 thorpej return config_search(parent, NULL, 365 1.293 thorpej CFARGS(.submatch = acpi_submatch, 366 1.293 thorpej .iattr = ifattr)) != NULL; 367 1.98 cube } 368 1.98 cube 369 1.248 jmcneill int 370 1.248 jmcneill acpi_reset(void) 371 1.248 jmcneill { 372 1.248 jmcneill struct acpi_softc *sc = acpi_softc; 373 1.248 jmcneill ACPI_GENERIC_ADDRESS *ResetReg; 374 1.248 jmcneill ACPI_PCI_ID PciId; 375 1.248 jmcneill ACPI_STATUS status; 376 1.248 jmcneill 377 1.248 jmcneill if (sc == NULL) 378 1.248 jmcneill return ENXIO; 379 1.248 jmcneill 380 1.248 jmcneill ResetReg = &AcpiGbl_FADT.ResetRegister; 381 1.248 jmcneill 382 1.248 jmcneill /* Check if the reset register is supported */ 383 1.248 jmcneill if (!(AcpiGbl_FADT.Flags & ACPI_FADT_RESET_REGISTER) || 384 1.248 jmcneill !ResetReg->Address) { 385 1.248 jmcneill return ENOENT; 386 1.248 jmcneill } 387 1.248 jmcneill 388 1.248 jmcneill switch (ResetReg->SpaceId) { 389 1.248 jmcneill case ACPI_ADR_SPACE_PCI_CONFIG: 390 1.248 jmcneill PciId.Segment = PciId.Bus = 0; 391 1.248 jmcneill PciId.Device = ACPI_GAS_PCI_DEV(ResetReg->Address); 392 1.248 jmcneill PciId.Function = ACPI_GAS_PCI_FUNC(ResetReg->Address); 393 1.248 jmcneill status = AcpiOsWritePciConfiguration(&PciId, 394 1.248 jmcneill ACPI_GAS_PCI_REGOFF(ResetReg->Address), 395 1.248 jmcneill AcpiGbl_FADT.ResetValue, ResetReg->BitWidth); 396 1.248 jmcneill break; 397 1.248 jmcneill case ACPI_ADR_SPACE_SYSTEM_IO: 398 1.248 jmcneill case ACPI_ADR_SPACE_SYSTEM_MEMORY: 399 1.248 jmcneill status = AcpiReset(); 400 1.248 jmcneill break; 401 1.248 jmcneill default: 402 1.248 jmcneill status = AE_TYPE; 403 1.248 jmcneill break; 404 1.248 jmcneill } 405 1.248 jmcneill 406 1.248 jmcneill return ACPI_FAILURE(status) ? EIO : 0; 407 1.248 jmcneill } 408 1.248 jmcneill 409 1.174 jruoho /* 410 1.174 jruoho * Autoconfiguration. 411 1.174 jruoho */ 412 1.64 kochi static int 413 1.126 cegger acpi_match(device_t parent, cfdata_t match, void *aux) 414 1.1 thorpej { 415 1.1 thorpej /* 416 1.169 jruoho * XXX: Nada; MD code has called acpi_probe(). 417 1.1 thorpej */ 418 1.63 kochi return 1; 419 1.1 thorpej } 420 1.1 thorpej 421 1.169 jruoho static int 422 1.169 jruoho acpi_submatch(device_t parent, cfdata_t cf, const int *locs, void *aux) 423 1.111 dyoung { 424 1.169 jruoho struct cfattach *ca; 425 1.111 dyoung 426 1.169 jruoho ca = config_cfattach_lookup(cf->cf_name, cf->cf_atname); 427 1.124 dyoung 428 1.169 jruoho return (ca == &acpi_ca); 429 1.111 dyoung } 430 1.111 dyoung 431 1.64 kochi static void 432 1.111 dyoung acpi_attach(device_t parent, device_t self, void *aux) 433 1.1 thorpej { 434 1.111 dyoung struct acpi_softc *sc = device_private(self); 435 1.1 thorpej struct acpibus_attach_args *aa = aux; 436 1.288 jmcneill ACPI_TABLE_HEADER *rsdt, *hdr; 437 1.1 thorpej ACPI_STATUS rv; 438 1.288 jmcneill int i; 439 1.1 thorpej 440 1.116 jmcneill aprint_naive("\n"); 441 1.116 jmcneill aprint_normal(": Intel ACPICA %08x\n", ACPI_CA_VERSION); 442 1.1 thorpej 443 1.1 thorpej if (acpi_softc != NULL) 444 1.172 jruoho panic("%s: already attached", __func__); 445 1.29 fvdl 446 1.172 jruoho rsdt = acpi_map_rsdt(); 447 1.37 kochi 448 1.172 jruoho if (rsdt == NULL) 449 1.172 jruoho aprint_error_dev(self, "X/RSDT: Not found\n"); 450 1.172 jruoho else { 451 1.172 jruoho aprint_verbose_dev(self, 452 1.111 dyoung "X/RSDT: OemId <%6.6s,%8.8s,%08x>, AslId <%4.4s,%08x>\n", 453 1.108 jmcneill rsdt->OemId, rsdt->OemTableId, 454 1.108 jmcneill rsdt->OemRevision, 455 1.108 jmcneill rsdt->AslCompilerId, rsdt->AslCompilerRevision); 456 1.172 jruoho } 457 1.157 jruoho 458 1.108 jmcneill acpi_unmap_rsdt(rsdt); 459 1.1 thorpej 460 1.113 jmcneill sc->sc_dev = self; 461 1.176 jruoho sc->sc_root = NULL; 462 1.176 jruoho 463 1.176 jruoho sc->sc_sleepstate = ACPI_STATE_S0; 464 1.36 fvdl sc->sc_quirks = acpi_find_quirks(); 465 1.36 fvdl 466 1.172 jruoho sysmon_power_settype("acpi"); 467 1.172 jruoho 468 1.1 thorpej sc->sc_iot = aa->aa_iot; 469 1.1 thorpej sc->sc_memt = aa->aa_memt; 470 1.1 thorpej sc->sc_pciflags = aa->aa_pciflags; 471 1.19 jmcneill sc->sc_ic = aa->aa_ic; 472 1.262 nonaka sc->sc_dmat = aa->aa_dmat; 473 1.262 nonaka sc->sc_dmat64 = aa->aa_dmat64; 474 1.1 thorpej 475 1.294 skrll SIMPLEQ_INIT(&sc->sc_head); 476 1.157 jruoho 477 1.1 thorpej acpi_softc = sc; 478 1.1 thorpej 479 1.172 jruoho if (pmf_device_register(self, acpi_suspend, acpi_resume) != true) 480 1.104 jmcneill aprint_error_dev(self, "couldn't establish power handler\n"); 481 1.104 jmcneill 482 1.104 jmcneill /* 483 1.238 jruoho * Bring ACPICA on-line. 484 1.1 thorpej */ 485 1.104 jmcneill 486 1.255 chs rv = AcpiEnableSubsystem(ACPI_FULL_INITIALIZATION); 487 1.172 jruoho 488 1.172 jruoho if (ACPI_FAILURE(rv)) 489 1.172 jruoho goto fail; 490 1.60 kochi 491 1.174 jruoho /* 492 1.243 jruoho * Early initialization of acpiec(4) via ECDT. 493 1.243 jruoho */ 494 1.291 thorpej config_found(self, aa, NULL, 495 1.293 thorpej CFARGS(.iattr = "acpiecdtbus")); 496 1.60 kochi 497 1.104 jmcneill rv = AcpiInitializeObjects(ACPI_FULL_INITIALIZATION); 498 1.172 jruoho 499 1.172 jruoho if (ACPI_FAILURE(rv)) 500 1.172 jruoho goto fail; 501 1.172 jruoho 502 1.175 jruoho /* 503 1.255 chs * Scan the namespace and build our device tree. 504 1.255 chs */ 505 1.255 chs acpi_build_tree(sc); 506 1.255 chs 507 1.268 scole #if NPCI > 0 508 1.261 msaitoh /* 509 1.261 msaitoh * Probe MCFG table 510 1.261 msaitoh */ 511 1.261 msaitoh acpimcfg_probe(sc); 512 1.266 maya #endif 513 1.261 msaitoh 514 1.255 chs acpi_md_callback(sc); 515 1.255 chs 516 1.255 chs /* 517 1.244 jruoho * Early initialization of the _PDC control method 518 1.244 jruoho * that may load additional SSDT tables dynamically. 519 1.244 jruoho */ 520 1.244 jruoho (void)acpi_md_pdc(); 521 1.244 jruoho 522 1.244 jruoho /* 523 1.175 jruoho * Install global notify handlers. 524 1.175 jruoho */ 525 1.175 jruoho rv = AcpiInstallNotifyHandler(ACPI_ROOT_OBJECT, 526 1.175 jruoho ACPI_SYSTEM_NOTIFY, acpi_notify_handler, NULL); 527 1.175 jruoho 528 1.175 jruoho if (ACPI_FAILURE(rv)) 529 1.175 jruoho goto fail; 530 1.175 jruoho 531 1.175 jruoho rv = AcpiInstallNotifyHandler(ACPI_ROOT_OBJECT, 532 1.175 jruoho ACPI_DEVICE_NOTIFY, acpi_notify_handler, NULL); 533 1.175 jruoho 534 1.175 jruoho if (ACPI_FAILURE(rv)) 535 1.175 jruoho goto fail; 536 1.175 jruoho 537 1.1 thorpej acpi_active = 1; 538 1.1 thorpej 539 1.277 jmcneill if (!AcpiGbl_ReducedHardware) { 540 1.277 jmcneill /* Show SCI interrupt. */ 541 1.275 jmcneill aprint_verbose_dev(self, "SCI interrupting at int %u\n", 542 1.275 jmcneill AcpiGbl_FADT.SciInterrupt); 543 1.104 jmcneill 544 1.277 jmcneill /* 545 1.277 jmcneill * Install fixed-event handlers. 546 1.277 jmcneill */ 547 1.277 jmcneill acpi_register_fixed_button(sc, ACPI_EVENT_POWER_BUTTON); 548 1.277 jmcneill acpi_register_fixed_button(sc, ACPI_EVENT_SLEEP_BUTTON); 549 1.277 jmcneill } 550 1.168 jruoho 551 1.288 jmcneill /* 552 1.288 jmcneill * Load drivers that operate on System Description Tables. 553 1.288 jmcneill */ 554 1.288 jmcneill for (i = 0; i < AcpiGbl_RootTableList.CurrentTableCount; ++i) { 555 1.288 jmcneill rv = AcpiGetTableByIndex(i, &hdr); 556 1.288 jmcneill if (ACPI_FAILURE(rv)) { 557 1.288 jmcneill continue; 558 1.288 jmcneill } 559 1.291 thorpej config_found(sc->sc_dev, hdr, NULL, 560 1.293 thorpej CFARGS(.iattr = "acpisdtbus")); 561 1.288 jmcneill AcpiPutTable(hdr); 562 1.288 jmcneill } 563 1.288 jmcneill 564 1.206 jruoho acpitimer_init(sc); 565 1.255 chs acpi_config_tree(sc); 566 1.166 jruoho acpi_sleep_init(sc); 567 1.78 cube 568 1.148 jruoho #ifdef ACPI_DEBUG 569 1.148 jruoho acpi_debug_init(); 570 1.148 jruoho #endif 571 1.172 jruoho 572 1.211 jruoho /* 573 1.211 jruoho * Print debug information. 574 1.211 jruoho */ 575 1.211 jruoho acpi_print_verbose(sc); 576 1.211 jruoho 577 1.172 jruoho return; 578 1.172 jruoho 579 1.172 jruoho fail: 580 1.172 jruoho aprint_error("%s: failed to initialize ACPI: %s\n", 581 1.172 jruoho __func__, AcpiFormatException(rv)); 582 1.1 thorpej } 583 1.1 thorpej 584 1.171 jruoho /* 585 1.171 jruoho * XXX: This is incomplete. 586 1.171 jruoho */ 587 1.124 dyoung static int 588 1.124 dyoung acpi_detach(device_t self, int flags) 589 1.124 dyoung { 590 1.168 jruoho struct acpi_softc *sc = device_private(self); 591 1.175 jruoho ACPI_STATUS rv; 592 1.124 dyoung int rc; 593 1.124 dyoung 594 1.175 jruoho rv = AcpiRemoveNotifyHandler(ACPI_ROOT_OBJECT, 595 1.175 jruoho ACPI_SYSTEM_NOTIFY, acpi_notify_handler); 596 1.175 jruoho 597 1.175 jruoho if (ACPI_FAILURE(rv)) 598 1.175 jruoho return EBUSY; 599 1.175 jruoho 600 1.175 jruoho rv = AcpiRemoveNotifyHandler(ACPI_ROOT_OBJECT, 601 1.175 jruoho ACPI_DEVICE_NOTIFY, acpi_notify_handler); 602 1.175 jruoho 603 1.175 jruoho if (ACPI_FAILURE(rv)) 604 1.175 jruoho return EBUSY; 605 1.175 jruoho 606 1.124 dyoung if ((rc = config_detach_children(self, flags)) != 0) 607 1.124 dyoung return rc; 608 1.124 dyoung 609 1.124 dyoung if ((rc = acpitimer_detach()) != 0) 610 1.124 dyoung return rc; 611 1.124 dyoung 612 1.277 jmcneill if (!AcpiGbl_ReducedHardware) { 613 1.277 jmcneill acpi_deregister_fixed_button(sc, ACPI_EVENT_POWER_BUTTON); 614 1.277 jmcneill acpi_deregister_fixed_button(sc, ACPI_EVENT_SLEEP_BUTTON); 615 1.277 jmcneill } 616 1.124 dyoung 617 1.124 dyoung pmf_device_deregister(self); 618 1.124 dyoung 619 1.124 dyoung acpi_softc = NULL; 620 1.124 dyoung 621 1.124 dyoung return 0; 622 1.124 dyoung } 623 1.124 dyoung 624 1.169 jruoho static void 625 1.169 jruoho acpi_childdet(device_t self, device_t child) 626 1.169 jruoho { 627 1.169 jruoho struct acpi_softc *sc = device_private(self); 628 1.169 jruoho struct acpi_devnode *ad; 629 1.169 jruoho 630 1.169 jruoho if (sc->sc_apmbus == child) 631 1.169 jruoho sc->sc_apmbus = NULL; 632 1.239 jruoho 633 1.245 jruoho if (sc->sc_hpet == child) 634 1.245 jruoho sc->sc_hpet = NULL; 635 1.245 jruoho 636 1.239 jruoho if (sc->sc_wdrt == child) 637 1.234 jmcneill sc->sc_wdrt = NULL; 638 1.169 jruoho 639 1.294 skrll SIMPLEQ_FOREACH(ad, &sc->sc_head, ad_list) { 640 1.169 jruoho 641 1.169 jruoho if (ad->ad_device == child) 642 1.169 jruoho ad->ad_device = NULL; 643 1.169 jruoho } 644 1.169 jruoho } 645 1.169 jruoho 646 1.123 jmcneill static bool 647 1.149 dyoung acpi_suspend(device_t dv, const pmf_qual_t *qual) 648 1.123 jmcneill { 649 1.169 jruoho 650 1.123 jmcneill acpi_suspended = 1; 651 1.169 jruoho 652 1.123 jmcneill return true; 653 1.123 jmcneill } 654 1.123 jmcneill 655 1.123 jmcneill static bool 656 1.149 dyoung acpi_resume(device_t dv, const pmf_qual_t *qual) 657 1.123 jmcneill { 658 1.169 jruoho 659 1.123 jmcneill acpi_suspended = 0; 660 1.169 jruoho 661 1.123 jmcneill return true; 662 1.123 jmcneill } 663 1.123 jmcneill 664 1.1 thorpej /* 665 1.169 jruoho * Namespace scan. 666 1.1 thorpej */ 667 1.64 kochi static void 668 1.1 thorpej acpi_build_tree(struct acpi_softc *sc) 669 1.1 thorpej { 670 1.176 jruoho struct acpi_walkcontext awc; 671 1.157 jruoho 672 1.185 jruoho /* 673 1.185 jruoho * Get the root scope handles. 674 1.185 jruoho */ 675 1.185 jruoho KASSERT(__arraycount(acpi_scopes) == 4); 676 1.185 jruoho 677 1.185 jruoho (void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_PR_", &acpi_scopes[0]); 678 1.187 jruoho (void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_SB_", &acpi_scopes[1]); 679 1.187 jruoho (void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_SI_", &acpi_scopes[2]); 680 1.185 jruoho (void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_TZ_", &acpi_scopes[3]); 681 1.185 jruoho 682 1.185 jruoho /* 683 1.185 jruoho * Make the root node. 684 1.185 jruoho */ 685 1.176 jruoho awc.aw_sc = sc; 686 1.176 jruoho awc.aw_parent = NULL; 687 1.176 jruoho 688 1.176 jruoho (void)acpi_make_devnode(ACPI_ROOT_OBJECT, 0, &awc, NULL); 689 1.176 jruoho 690 1.176 jruoho KASSERT(sc->sc_root == NULL); 691 1.176 jruoho KASSERT(awc.aw_parent != NULL); 692 1.176 jruoho 693 1.176 jruoho sc->sc_root = awc.aw_parent; 694 1.176 jruoho 695 1.185 jruoho /* 696 1.185 jruoho * Build the internal namespace. 697 1.185 jruoho */ 698 1.176 jruoho (void)AcpiWalkNamespace(ACPI_TYPE_ANY, ACPI_ROOT_OBJECT, UINT32_MAX, 699 1.176 jruoho acpi_make_devnode, acpi_make_devnode_post, &awc, NULL); 700 1.176 jruoho 701 1.298 mrg #if NPCI > 0 702 1.185 jruoho /* 703 1.185 jruoho * Scan the internal namespace. 704 1.185 jruoho */ 705 1.221 gsutre (void)acpi_pcidev_scan(sc->sc_root); 706 1.298 mrg #endif 707 1.255 chs } 708 1.255 chs 709 1.255 chs static void 710 1.255 chs acpi_config_tree(struct acpi_softc *sc) 711 1.255 chs { 712 1.282 jmcneill /* 713 1.282 jmcneill * Assign bus_dma resources 714 1.282 jmcneill */ 715 1.282 jmcneill acpi_config_dma(sc); 716 1.255 chs 717 1.255 chs /* 718 1.255 chs * Configure all everything found "at acpi?". 719 1.255 chs */ 720 1.204 jruoho (void)acpi_rescan(sc->sc_dev, NULL, NULL); 721 1.204 jruoho 722 1.224 jruoho /* 723 1.236 jruoho * Update GPE information. 724 1.236 jruoho * 725 1.236 jruoho * Note that this must be called after 726 1.236 jruoho * all GPE handlers have been installed. 727 1.236 jruoho */ 728 1.236 jruoho (void)AcpiUpdateAllGpes(); 729 1.236 jruoho 730 1.236 jruoho /* 731 1.224 jruoho * Defer rest of the configuration. 732 1.224 jruoho */ 733 1.224 jruoho (void)config_defer(sc->sc_dev, acpi_rescan_capabilities); 734 1.124 dyoung } 735 1.1 thorpej 736 1.294 skrll // XXXNH? 737 1.282 jmcneill static void 738 1.282 jmcneill acpi_config_dma(struct acpi_softc *sc) 739 1.282 jmcneill { 740 1.282 jmcneill struct acpi_devnode *ad; 741 1.282 jmcneill 742 1.294 skrll SIMPLEQ_FOREACH(ad, &sc->sc_head, ad_list) { 743 1.282 jmcneill 744 1.282 jmcneill if (ad->ad_device != NULL) 745 1.282 jmcneill continue; 746 1.282 jmcneill 747 1.282 jmcneill if (ad->ad_devinfo->Type != ACPI_TYPE_DEVICE) 748 1.282 jmcneill continue; 749 1.282 jmcneill 750 1.282 jmcneill ad->ad_dmat = acpi_get_dma_tag(sc, ad); 751 1.282 jmcneill ad->ad_dmat64 = acpi_get_dma64_tag(sc, ad); 752 1.282 jmcneill } 753 1.282 jmcneill } 754 1.282 jmcneill 755 1.169 jruoho static ACPI_STATUS 756 1.169 jruoho acpi_make_devnode(ACPI_HANDLE handle, uint32_t level, 757 1.169 jruoho void *context, void **status) 758 1.124 dyoung { 759 1.176 jruoho struct acpi_walkcontext *awc = context; 760 1.176 jruoho struct acpi_softc *sc = awc->aw_sc; 761 1.169 jruoho struct acpi_devnode *ad; 762 1.169 jruoho ACPI_DEVICE_INFO *devinfo; 763 1.169 jruoho ACPI_OBJECT_TYPE type; 764 1.169 jruoho ACPI_STATUS rv; 765 1.169 jruoho 766 1.169 jruoho rv = AcpiGetObjectInfo(handle, &devinfo); 767 1.124 dyoung 768 1.169 jruoho if (ACPI_FAILURE(rv)) 769 1.169 jruoho return AE_OK; /* Do not terminate the walk. */ 770 1.124 dyoung 771 1.169 jruoho type = devinfo->Type; 772 1.124 dyoung 773 1.169 jruoho switch (type) { 774 1.124 dyoung 775 1.169 jruoho case ACPI_TYPE_DEVICE: 776 1.169 jruoho acpi_activate_device(handle, &devinfo); 777 1.265 jmcneill /* FALLTHROUGH */ 778 1.265 jmcneill 779 1.169 jruoho case ACPI_TYPE_PROCESSOR: 780 1.169 jruoho case ACPI_TYPE_THERMAL: 781 1.169 jruoho case ACPI_TYPE_POWER: 782 1.124 dyoung 783 1.254 jruoho ad = kmem_zalloc(sizeof(*ad), KM_SLEEP); 784 1.25 jmcneill 785 1.175 jruoho ad->ad_device = NULL; 786 1.176 jruoho ad->ad_notify = NULL; 787 1.180 jruoho ad->ad_pciinfo = NULL; 788 1.236 jruoho ad->ad_wakedev = NULL; 789 1.175 jruoho 790 1.175 jruoho ad->ad_type = type; 791 1.175 jruoho ad->ad_handle = handle; 792 1.169 jruoho ad->ad_devinfo = devinfo; 793 1.157 jruoho 794 1.176 jruoho ad->ad_root = sc->sc_dev; 795 1.176 jruoho ad->ad_parent = awc->aw_parent; 796 1.176 jruoho 797 1.246 jruoho acpi_match_node_init(ad); 798 1.229 jruoho acpi_make_name(ad, devinfo->Name); 799 1.160 jruoho 800 1.236 jruoho /* 801 1.236 jruoho * Identify wake GPEs from the _PRW. Note that 802 1.236 jruoho * AcpiUpdateAllGpes() must be called afterwards. 803 1.236 jruoho */ 804 1.236 jruoho if (ad->ad_devinfo->Type == ACPI_TYPE_DEVICE) 805 1.236 jruoho acpi_wakedev_init(ad); 806 1.236 jruoho 807 1.176 jruoho SIMPLEQ_INIT(&ad->ad_child_head); 808 1.294 skrll SIMPLEQ_INSERT_TAIL(&sc->sc_head, ad, ad_list); 809 1.176 jruoho 810 1.176 jruoho if (ad->ad_parent != NULL) { 811 1.176 jruoho 812 1.176 jruoho SIMPLEQ_INSERT_TAIL(&ad->ad_parent->ad_child_head, 813 1.176 jruoho ad, ad_child_list); 814 1.176 jruoho } 815 1.176 jruoho 816 1.176 jruoho awc->aw_parent = ad; 817 1.285 maxv break; 818 1.285 maxv 819 1.285 maxv default: 820 1.285 maxv ACPI_FREE(devinfo); 821 1.285 maxv break; 822 1.169 jruoho } 823 1.169 jruoho 824 1.169 jruoho return AE_OK; 825 1.169 jruoho } 826 1.169 jruoho 827 1.176 jruoho static ACPI_STATUS 828 1.176 jruoho acpi_make_devnode_post(ACPI_HANDLE handle, uint32_t level, 829 1.176 jruoho void *context, void **status) 830 1.176 jruoho { 831 1.176 jruoho struct acpi_walkcontext *awc = context; 832 1.176 jruoho 833 1.176 jruoho KASSERT(awc != NULL); 834 1.176 jruoho KASSERT(awc->aw_parent != NULL); 835 1.176 jruoho 836 1.176 jruoho if (handle == awc->aw_parent->ad_handle) 837 1.176 jruoho awc->aw_parent = awc->aw_parent->ad_parent; 838 1.176 jruoho 839 1.176 jruoho return AE_OK; 840 1.176 jruoho } 841 1.176 jruoho 842 1.229 jruoho static void 843 1.229 jruoho acpi_make_name(struct acpi_devnode *ad, uint32_t name) 844 1.229 jruoho { 845 1.229 jruoho ACPI_NAME_UNION *anu; 846 1.229 jruoho int clear, i; 847 1.229 jruoho 848 1.229 jruoho anu = (ACPI_NAME_UNION *)&name; 849 1.229 jruoho ad->ad_name[4] = '\0'; 850 1.229 jruoho 851 1.229 jruoho for (i = 3, clear = 0; i >= 0; i--) { 852 1.229 jruoho 853 1.229 jruoho if (clear == 0 && anu->Ascii[i] == '_') 854 1.229 jruoho ad->ad_name[i] = '\0'; 855 1.229 jruoho else { 856 1.229 jruoho ad->ad_name[i] = anu->Ascii[i]; 857 1.229 jruoho clear = 1; 858 1.229 jruoho } 859 1.229 jruoho } 860 1.229 jruoho 861 1.229 jruoho if (ad->ad_name[0] == '\0') 862 1.229 jruoho ad->ad_name[0] = '_'; 863 1.229 jruoho } 864 1.229 jruoho 865 1.279 jmcneill bus_dma_tag_t 866 1.279 jmcneill acpi_default_dma_tag(struct acpi_softc *sc, struct acpi_devnode *ad) 867 1.279 jmcneill { 868 1.279 jmcneill return sc->sc_dmat; 869 1.279 jmcneill } 870 1.279 jmcneill __weak_alias(acpi_get_dma_tag,acpi_default_dma_tag); 871 1.279 jmcneill 872 1.279 jmcneill bus_dma_tag_t 873 1.279 jmcneill acpi_default_dma64_tag(struct acpi_softc *sc, struct acpi_devnode *ad) 874 1.279 jmcneill { 875 1.279 jmcneill return sc->sc_dmat64; 876 1.279 jmcneill } 877 1.279 jmcneill __weak_alias(acpi_get_dma64_tag,acpi_default_dma64_tag); 878 1.279 jmcneill 879 1.283 jmcneill pci_chipset_tag_t 880 1.283 jmcneill acpi_default_pci_chipset_tag(struct acpi_softc *sc, int seg, int bbn) 881 1.283 jmcneill { 882 1.283 jmcneill return NULL; 883 1.283 jmcneill } 884 1.283 jmcneill __weak_alias(acpi_get_pci_chipset_tag,acpi_default_pci_chipset_tag); 885 1.283 jmcneill 886 1.1 thorpej /* 887 1.169 jruoho * Device attachment. 888 1.1 thorpej */ 889 1.169 jruoho static int 890 1.169 jruoho acpi_rescan(device_t self, const char *ifattr, const int *locators) 891 1.169 jruoho { 892 1.169 jruoho struct acpi_softc *sc = device_private(self); 893 1.245 jruoho struct acpi_attach_args aa; 894 1.245 jruoho 895 1.245 jruoho /* 896 1.245 jruoho * Try to attach hpet(4) first via a specific table. 897 1.245 jruoho */ 898 1.245 jruoho aa.aa_memt = sc->sc_memt; 899 1.245 jruoho 900 1.291 thorpej if (ifattr_match(ifattr, "acpihpetbus") && sc->sc_hpet == NULL) { 901 1.291 thorpej sc->sc_hpet = config_found(sc->sc_dev, &aa, NULL, 902 1.293 thorpej CFARGS(.iattr = "acpihpetbus")); 903 1.291 thorpej } 904 1.169 jruoho 905 1.226 jruoho /* 906 1.226 jruoho * A two-pass scan for acpinodebus. 907 1.226 jruoho */ 908 1.226 jruoho if (ifattr_match(ifattr, "acpinodebus")) { 909 1.226 jruoho acpi_rescan_early(sc); 910 1.169 jruoho acpi_rescan_nodes(sc); 911 1.226 jruoho } 912 1.169 jruoho 913 1.245 jruoho /* 914 1.245 jruoho * Attach APM emulation and acpiwdrt(4). 915 1.245 jruoho */ 916 1.291 thorpej if (ifattr_match(ifattr, "acpiapmbus") && sc->sc_apmbus == NULL) { 917 1.291 thorpej sc->sc_apmbus = config_found(sc->sc_dev, NULL, NULL, 918 1.293 thorpej CFARGS(.iattr = "acpiapmbus")); 919 1.291 thorpej } 920 1.291 thorpej 921 1.291 thorpej if (ifattr_match(ifattr, "acpiwdrtbus") && sc->sc_wdrt == NULL) { 922 1.291 thorpej sc->sc_wdrt = config_found(sc->sc_dev, NULL, NULL, 923 1.293 thorpej CFARGS(.iattr = "acpiwdrtbus")); 924 1.291 thorpej } 925 1.234 jmcneill 926 1.204 jruoho return 0; 927 1.169 jruoho } 928 1.169 jruoho 929 1.169 jruoho static void 930 1.226 jruoho acpi_rescan_early(struct acpi_softc *sc) 931 1.226 jruoho { 932 1.226 jruoho struct acpi_attach_args aa; 933 1.226 jruoho struct acpi_devnode *ad; 934 1.226 jruoho 935 1.226 jruoho /* 936 1.226 jruoho * First scan for devices such as acpiec(4) that 937 1.226 jruoho * should be always attached before anything else. 938 1.226 jruoho * We want these devices to attach regardless of 939 1.226 jruoho * the device status and other restrictions. 940 1.226 jruoho */ 941 1.294 skrll SIMPLEQ_FOREACH(ad, &sc->sc_head, ad_list) { 942 1.226 jruoho 943 1.226 jruoho if (ad->ad_device != NULL) 944 1.226 jruoho continue; 945 1.226 jruoho 946 1.226 jruoho if (ad->ad_devinfo->Type != ACPI_TYPE_DEVICE) 947 1.226 jruoho continue; 948 1.226 jruoho 949 1.226 jruoho if (acpi_match_hid(ad->ad_devinfo, acpi_early_ids) == 0) 950 1.226 jruoho continue; 951 1.226 jruoho 952 1.291 thorpej KASSERT(ad->ad_handle != NULL); 953 1.291 thorpej 954 1.226 jruoho aa.aa_node = ad; 955 1.226 jruoho aa.aa_iot = sc->sc_iot; 956 1.226 jruoho aa.aa_memt = sc->sc_memt; 957 1.283 jmcneill if (ad->ad_pciinfo != NULL) { 958 1.283 jmcneill aa.aa_pc = ad->ad_pciinfo->ap_pc; 959 1.283 jmcneill aa.aa_pciflags = sc->sc_pciflags; 960 1.283 jmcneill } 961 1.226 jruoho aa.aa_ic = sc->sc_ic; 962 1.282 jmcneill aa.aa_dmat = ad->ad_dmat; 963 1.282 jmcneill aa.aa_dmat64 = ad->ad_dmat64; 964 1.226 jruoho 965 1.291 thorpej ad->ad_device = config_found(sc->sc_dev, &aa, acpi_print, 966 1.293 thorpej CFARGS(.iattr = "acpinodebus", 967 1.296 thorpej .devhandle = devhandle_from_acpi(devhandle_invalid(), 968 1.296 thorpej ad->ad_handle))); 969 1.226 jruoho } 970 1.226 jruoho } 971 1.226 jruoho 972 1.226 jruoho static void 973 1.169 jruoho acpi_rescan_nodes(struct acpi_softc *sc) 974 1.1 thorpej { 975 1.245 jruoho const char * const hpet_ids[] = { "PNP0103", NULL }; 976 1.169 jruoho struct acpi_attach_args aa; 977 1.1 thorpej struct acpi_devnode *ad; 978 1.193 jruoho ACPI_DEVICE_INFO *di; 979 1.1 thorpej 980 1.294 skrll SIMPLEQ_FOREACH(ad, &sc->sc_head, ad_list) { 981 1.15 augustss 982 1.169 jruoho if (ad->ad_device != NULL) 983 1.169 jruoho continue; 984 1.151 jruoho 985 1.185 jruoho /* 986 1.185 jruoho * There is a bug in ACPICA: it defines the type 987 1.185 jruoho * of the scopes incorrectly for its own reasons. 988 1.185 jruoho */ 989 1.185 jruoho if (acpi_is_scope(ad) != false) 990 1.185 jruoho continue; 991 1.151 jruoho 992 1.193 jruoho di = ad->ad_devinfo; 993 1.193 jruoho 994 1.270 christos /* 995 1.270 christos * We only attach devices which are present, enabled, and 996 1.270 christos * functioning properly. However, if a device is enabled, 997 1.270 christos * it is decoding resources and we should claim these, 998 1.270 christos * if possible. This requires changes to bus_space(9). 999 1.270 christos */ 1000 1.270 christos if (di->Type == ACPI_TYPE_DEVICE && 1001 1.270 christos !acpi_device_present(ad->ad_handle)) { 1002 1.270 christos continue; 1003 1.270 christos } 1004 1.270 christos 1005 1.207 jruoho if (di->Type == ACPI_TYPE_POWER) 1006 1.169 jruoho continue; 1007 1.15 augustss 1008 1.240 jruoho if (di->Type == ACPI_TYPE_PROCESSOR) 1009 1.231 jruoho continue; 1010 1.231 jruoho 1011 1.227 jruoho if (acpi_match_hid(di, acpi_early_ids) != 0) 1012 1.227 jruoho continue; 1013 1.227 jruoho 1014 1.227 jruoho if (acpi_match_hid(di, acpi_ignored_ids) != 0) 1015 1.169 jruoho continue; 1016 1.151 jruoho 1017 1.245 jruoho if (acpi_match_hid(di, hpet_ids) != 0 && sc->sc_hpet != NULL) 1018 1.245 jruoho continue; 1019 1.245 jruoho 1020 1.291 thorpej KASSERT(ad->ad_handle != NULL); 1021 1.291 thorpej 1022 1.185 jruoho aa.aa_node = ad; 1023 1.185 jruoho aa.aa_iot = sc->sc_iot; 1024 1.185 jruoho aa.aa_memt = sc->sc_memt; 1025 1.283 jmcneill if (ad->ad_pciinfo != NULL) { 1026 1.283 jmcneill aa.aa_pc = ad->ad_pciinfo->ap_pc; 1027 1.283 jmcneill aa.aa_pciflags = sc->sc_pciflags; 1028 1.283 jmcneill } 1029 1.185 jruoho aa.aa_ic = sc->sc_ic; 1030 1.282 jmcneill aa.aa_dmat = ad->ad_dmat; 1031 1.282 jmcneill aa.aa_dmat64 = ad->ad_dmat64; 1032 1.185 jruoho 1033 1.291 thorpej ad->ad_device = config_found(sc->sc_dev, &aa, acpi_print, 1034 1.293 thorpej CFARGS(.iattr = "acpinodebus", 1035 1.296 thorpej .devhandle = devhandle_from_acpi(devhandle_invalid(), 1036 1.296 thorpej ad->ad_handle))); 1037 1.169 jruoho } 1038 1.169 jruoho } 1039 1.151 jruoho 1040 1.169 jruoho static void 1041 1.224 jruoho acpi_rescan_capabilities(device_t self) 1042 1.169 jruoho { 1043 1.224 jruoho struct acpi_softc *sc = device_private(self); 1044 1.169 jruoho struct acpi_devnode *ad; 1045 1.169 jruoho ACPI_HANDLE tmp; 1046 1.169 jruoho ACPI_STATUS rv; 1047 1.151 jruoho 1048 1.294 skrll SIMPLEQ_FOREACH(ad, &sc->sc_head, ad_list) { 1049 1.151 jruoho 1050 1.195 jruoho if (ad->ad_devinfo->Type != ACPI_TYPE_DEVICE) 1051 1.169 jruoho continue; 1052 1.151 jruoho 1053 1.169 jruoho /* 1054 1.169 jruoho * Scan power resource capabilities. 1055 1.181 jruoho * 1056 1.181 jruoho * If any power states are supported, 1057 1.181 jruoho * at least _PR0 and _PR3 must be present. 1058 1.169 jruoho */ 1059 1.169 jruoho rv = AcpiGetHandle(ad->ad_handle, "_PR0", &tmp); 1060 1.102 cube 1061 1.181 jruoho if (ACPI_SUCCESS(rv)) { 1062 1.169 jruoho ad->ad_flags |= ACPI_DEVICE_POWER; 1063 1.184 jruoho acpi_power_add(ad); 1064 1.181 jruoho } 1065 1.1 thorpej 1066 1.169 jruoho /* 1067 1.169 jruoho * Scan wake-up capabilities. 1068 1.169 jruoho */ 1069 1.236 jruoho if (ad->ad_wakedev != NULL) { 1070 1.169 jruoho ad->ad_flags |= ACPI_DEVICE_WAKEUP; 1071 1.169 jruoho acpi_wakedev_add(ad); 1072 1.169 jruoho } 1073 1.225 jruoho 1074 1.225 jruoho /* 1075 1.232 jruoho * Scan docking stations. 1076 1.232 jruoho */ 1077 1.232 jruoho rv = AcpiGetHandle(ad->ad_handle, "_DCK", &tmp); 1078 1.232 jruoho 1079 1.232 jruoho if (ACPI_SUCCESS(rv)) 1080 1.232 jruoho ad->ad_flags |= ACPI_DEVICE_DOCK; 1081 1.232 jruoho 1082 1.232 jruoho /* 1083 1.225 jruoho * Scan devices that are ejectable. 1084 1.225 jruoho */ 1085 1.225 jruoho rv = AcpiGetHandle(ad->ad_handle, "_EJ0", &tmp); 1086 1.225 jruoho 1087 1.225 jruoho if (ACPI_SUCCESS(rv)) 1088 1.225 jruoho ad->ad_flags |= ACPI_DEVICE_EJECT; 1089 1.1 thorpej } 1090 1.169 jruoho } 1091 1.151 jruoho 1092 1.64 kochi static int 1093 1.1 thorpej acpi_print(void *aux, const char *pnp) 1094 1.1 thorpej { 1095 1.1 thorpej struct acpi_attach_args *aa = aux; 1096 1.233 jruoho struct acpi_devnode *ad; 1097 1.233 jruoho const char *hid, *uid; 1098 1.233 jruoho ACPI_DEVICE_INFO *di; 1099 1.233 jruoho 1100 1.233 jruoho ad = aa->aa_node; 1101 1.233 jruoho di = ad->ad_devinfo; 1102 1.233 jruoho 1103 1.233 jruoho hid = di->HardwareId.String; 1104 1.233 jruoho uid = di->UniqueId.String; 1105 1.233 jruoho 1106 1.233 jruoho if (pnp != NULL) { 1107 1.233 jruoho 1108 1.233 jruoho if (di->Type != ACPI_TYPE_DEVICE) { 1109 1.233 jruoho 1110 1.233 jruoho aprint_normal("%s (ACPI Object Type '%s') at %s", 1111 1.233 jruoho ad->ad_name, AcpiUtGetTypeName(ad->ad_type), pnp); 1112 1.233 jruoho 1113 1.233 jruoho return UNCONF; 1114 1.233 jruoho } 1115 1.1 thorpej 1116 1.233 jruoho if ((di->Valid & ACPI_VALID_HID) == 0 || hid == NULL) 1117 1.104 jmcneill return 0; 1118 1.233 jruoho 1119 1.233 jruoho aprint_normal("%s (%s) ", ad->ad_name, hid); 1120 1.233 jruoho acpi_print_dev(hid); 1121 1.233 jruoho aprint_normal("at %s", pnp); 1122 1.233 jruoho 1123 1.233 jruoho return UNCONF; 1124 1.233 jruoho } 1125 1.233 jruoho 1126 1.233 jruoho aprint_normal(" (%s", ad->ad_name); 1127 1.233 jruoho 1128 1.233 jruoho if ((di->Valid & ACPI_VALID_HID) != 0 && hid != NULL) { 1129 1.233 jruoho 1130 1.233 jruoho aprint_normal(", %s", hid); 1131 1.233 jruoho 1132 1.233 jruoho if ((di->Valid & ACPI_VALID_UID) != 0 && uid != NULL) { 1133 1.233 jruoho 1134 1.233 jruoho if (uid[0] == '\0') 1135 1.233 jruoho uid = "<null>"; 1136 1.233 jruoho 1137 1.233 jruoho aprint_normal("-%s", uid); 1138 1.22 jmcneill } 1139 1.4 thorpej } 1140 1.1 thorpej 1141 1.233 jruoho aprint_normal(")"); 1142 1.233 jruoho 1143 1.63 kochi return UNCONF; 1144 1.1 thorpej } 1145 1.1 thorpej 1146 1.168 jruoho /* 1147 1.175 jruoho * Notify. 1148 1.175 jruoho */ 1149 1.175 jruoho static void 1150 1.175 jruoho acpi_notify_handler(ACPI_HANDLE handle, uint32_t event, void *aux) 1151 1.175 jruoho { 1152 1.175 jruoho struct acpi_softc *sc = acpi_softc; 1153 1.175 jruoho struct acpi_devnode *ad; 1154 1.295 riastrad ACPI_NOTIFY_HANDLER notify; 1155 1.175 jruoho 1156 1.175 jruoho KASSERT(sc != NULL); 1157 1.175 jruoho KASSERT(aux == NULL); 1158 1.175 jruoho KASSERT(acpi_active != 0); 1159 1.175 jruoho 1160 1.175 jruoho if (acpi_suspended != 0) 1161 1.175 jruoho return; 1162 1.175 jruoho 1163 1.175 jruoho /* 1164 1.175 jruoho * System: 0x00 - 0x7F. 1165 1.175 jruoho * Device: 0x80 - 0xFF. 1166 1.175 jruoho */ 1167 1.175 jruoho switch (event) { 1168 1.175 jruoho 1169 1.175 jruoho case ACPI_NOTIFY_BUS_CHECK: 1170 1.175 jruoho case ACPI_NOTIFY_DEVICE_CHECK: 1171 1.175 jruoho case ACPI_NOTIFY_DEVICE_WAKE: 1172 1.175 jruoho case ACPI_NOTIFY_EJECT_REQUEST: 1173 1.175 jruoho case ACPI_NOTIFY_DEVICE_CHECK_LIGHT: 1174 1.175 jruoho case ACPI_NOTIFY_FREQUENCY_MISMATCH: 1175 1.175 jruoho case ACPI_NOTIFY_BUS_MODE_MISMATCH: 1176 1.175 jruoho case ACPI_NOTIFY_POWER_FAULT: 1177 1.175 jruoho case ACPI_NOTIFY_CAPABILITIES_CHECK: 1178 1.175 jruoho case ACPI_NOTIFY_DEVICE_PLD_CHECK: 1179 1.175 jruoho case ACPI_NOTIFY_RESERVED: 1180 1.175 jruoho case ACPI_NOTIFY_LOCALITY_UPDATE: 1181 1.175 jruoho break; 1182 1.175 jruoho } 1183 1.175 jruoho 1184 1.175 jruoho ACPI_DEBUG_PRINT((ACPI_DB_INFO, "notification 0x%02X for " 1185 1.175 jruoho "%s (%p)\n", event, acpi_name(handle), handle)); 1186 1.175 jruoho 1187 1.175 jruoho /* 1188 1.175 jruoho * We deliver notifications only to drivers 1189 1.247 jakllsch * that have been successfully attached and 1190 1.175 jruoho * that have registered a handler with us. 1191 1.175 jruoho * The opaque pointer is always the device_t. 1192 1.175 jruoho */ 1193 1.294 skrll SIMPLEQ_FOREACH(ad, &sc->sc_head, ad_list) { 1194 1.175 jruoho 1195 1.175 jruoho if (ad->ad_device == NULL) 1196 1.175 jruoho continue; 1197 1.175 jruoho 1198 1.295 riastrad if ((notify = atomic_load_acquire(&ad->ad_notify)) == NULL) 1199 1.175 jruoho continue; 1200 1.175 jruoho 1201 1.175 jruoho if (ad->ad_handle != handle) 1202 1.175 jruoho continue; 1203 1.175 jruoho 1204 1.295 riastrad (*notify)(ad->ad_handle, event, ad->ad_device); 1205 1.175 jruoho 1206 1.175 jruoho return; 1207 1.175 jruoho } 1208 1.175 jruoho 1209 1.175 jruoho aprint_debug_dev(sc->sc_dev, "unhandled notify 0x%02X " 1210 1.175 jruoho "for %s (%p)\n", event, acpi_name(handle), handle); 1211 1.175 jruoho } 1212 1.175 jruoho 1213 1.175 jruoho bool 1214 1.175 jruoho acpi_register_notify(struct acpi_devnode *ad, ACPI_NOTIFY_HANDLER notify) 1215 1.175 jruoho { 1216 1.175 jruoho struct acpi_softc *sc = acpi_softc; 1217 1.175 jruoho 1218 1.175 jruoho KASSERT(sc != NULL); 1219 1.175 jruoho KASSERT(acpi_active != 0); 1220 1.175 jruoho 1221 1.175 jruoho if (acpi_suspended != 0) 1222 1.175 jruoho goto fail; 1223 1.175 jruoho 1224 1.175 jruoho if (ad == NULL || notify == NULL) 1225 1.175 jruoho goto fail; 1226 1.175 jruoho 1227 1.297 riastrad KASSERTMSG(ad->ad_notify == NULL, 1228 1.297 riastrad "%s: ACPI node %s already has notify handler: %p", 1229 1.297 riastrad ad->ad_device ? device_xname(ad->ad_device) : "(unknown)", 1230 1.297 riastrad ad->ad_name, 1231 1.297 riastrad ad->ad_notify); 1232 1.295 riastrad atomic_store_release(&ad->ad_notify, notify); 1233 1.175 jruoho 1234 1.175 jruoho return true; 1235 1.175 jruoho 1236 1.175 jruoho fail: 1237 1.175 jruoho aprint_error_dev(sc->sc_dev, "failed to register notify " 1238 1.175 jruoho "handler for %s (%p)\n", ad->ad_name, ad->ad_handle); 1239 1.175 jruoho 1240 1.175 jruoho return false; 1241 1.175 jruoho } 1242 1.175 jruoho 1243 1.175 jruoho void 1244 1.175 jruoho acpi_deregister_notify(struct acpi_devnode *ad) 1245 1.175 jruoho { 1246 1.175 jruoho 1247 1.295 riastrad atomic_store_relaxed(&ad->ad_notify, NULL); 1248 1.295 riastrad 1249 1.295 riastrad /* Wait for any in-flight calls to the notifier to complete. */ 1250 1.295 riastrad AcpiOsWaitEventsComplete(); 1251 1.175 jruoho } 1252 1.175 jruoho 1253 1.175 jruoho /* 1254 1.168 jruoho * Fixed buttons. 1255 1.168 jruoho */ 1256 1.168 jruoho static void 1257 1.168 jruoho acpi_register_fixed_button(struct acpi_softc *sc, int event) 1258 1.168 jruoho { 1259 1.168 jruoho struct sysmon_pswitch *smpsw; 1260 1.168 jruoho ACPI_STATUS rv; 1261 1.168 jruoho int type; 1262 1.168 jruoho 1263 1.168 jruoho switch (event) { 1264 1.168 jruoho 1265 1.168 jruoho case ACPI_EVENT_POWER_BUTTON: 1266 1.168 jruoho 1267 1.168 jruoho if ((AcpiGbl_FADT.Flags & ACPI_FADT_POWER_BUTTON) != 0) 1268 1.168 jruoho return; 1269 1.168 jruoho 1270 1.168 jruoho type = PSWITCH_TYPE_POWER; 1271 1.168 jruoho smpsw = &sc->sc_smpsw_power; 1272 1.168 jruoho break; 1273 1.168 jruoho 1274 1.168 jruoho case ACPI_EVENT_SLEEP_BUTTON: 1275 1.168 jruoho 1276 1.168 jruoho if ((AcpiGbl_FADT.Flags & ACPI_FADT_SLEEP_BUTTON) != 0) 1277 1.168 jruoho return; 1278 1.168 jruoho 1279 1.168 jruoho type = PSWITCH_TYPE_SLEEP; 1280 1.168 jruoho smpsw = &sc->sc_smpsw_sleep; 1281 1.168 jruoho break; 1282 1.168 jruoho 1283 1.168 jruoho default: 1284 1.168 jruoho rv = AE_TYPE; 1285 1.168 jruoho goto fail; 1286 1.168 jruoho } 1287 1.168 jruoho 1288 1.168 jruoho smpsw->smpsw_type = type; 1289 1.168 jruoho smpsw->smpsw_name = device_xname(sc->sc_dev); 1290 1.168 jruoho 1291 1.168 jruoho if (sysmon_pswitch_register(smpsw) != 0) { 1292 1.168 jruoho rv = AE_ERROR; 1293 1.168 jruoho goto fail; 1294 1.168 jruoho } 1295 1.168 jruoho 1296 1.250 jakllsch AcpiClearEvent(event); 1297 1.250 jakllsch 1298 1.168 jruoho rv = AcpiInstallFixedEventHandler(event, 1299 1.168 jruoho acpi_fixed_button_handler, smpsw); 1300 1.168 jruoho 1301 1.199 jruoho if (ACPI_FAILURE(rv)) { 1302 1.199 jruoho sysmon_pswitch_unregister(smpsw); 1303 1.168 jruoho goto fail; 1304 1.199 jruoho } 1305 1.168 jruoho 1306 1.271 ryoon aprint_normal_dev(sc->sc_dev, "fixed %s button present\n", 1307 1.272 jmcneill (type != PSWITCH_TYPE_SLEEP) ? "power" : "sleep"); 1308 1.168 jruoho 1309 1.168 jruoho return; 1310 1.1 thorpej 1311 1.168 jruoho fail: 1312 1.168 jruoho aprint_error_dev(sc->sc_dev, "failed to register " 1313 1.249 jakllsch "fixed event %d: %s\n", event, AcpiFormatException(rv)); 1314 1.168 jruoho } 1315 1.1 thorpej 1316 1.64 kochi static void 1317 1.169 jruoho acpi_deregister_fixed_button(struct acpi_softc *sc, int event) 1318 1.69 kochi { 1319 1.169 jruoho struct sysmon_pswitch *smpsw; 1320 1.69 kochi ACPI_STATUS rv; 1321 1.69 kochi 1322 1.169 jruoho switch (event) { 1323 1.144 jruoho 1324 1.169 jruoho case ACPI_EVENT_POWER_BUTTON: 1325 1.169 jruoho smpsw = &sc->sc_smpsw_power; 1326 1.144 jruoho 1327 1.169 jruoho if ((AcpiGbl_FADT.Flags & ACPI_FADT_POWER_BUTTON) != 0) { 1328 1.169 jruoho KASSERT(smpsw->smpsw_type != PSWITCH_TYPE_POWER); 1329 1.169 jruoho return; 1330 1.169 jruoho } 1331 1.144 jruoho 1332 1.144 jruoho break; 1333 1.144 jruoho 1334 1.169 jruoho case ACPI_EVENT_SLEEP_BUTTON: 1335 1.169 jruoho smpsw = &sc->sc_smpsw_sleep; 1336 1.144 jruoho 1337 1.169 jruoho if ((AcpiGbl_FADT.Flags & ACPI_FADT_SLEEP_BUTTON) != 0) { 1338 1.169 jruoho KASSERT(smpsw->smpsw_type != PSWITCH_TYPE_SLEEP); 1339 1.169 jruoho return; 1340 1.169 jruoho } 1341 1.144 jruoho 1342 1.144 jruoho break; 1343 1.69 kochi 1344 1.144 jruoho default: 1345 1.169 jruoho rv = AE_TYPE; 1346 1.169 jruoho goto fail; 1347 1.144 jruoho } 1348 1.69 kochi 1349 1.169 jruoho rv = AcpiRemoveFixedEventHandler(event, acpi_fixed_button_handler); 1350 1.169 jruoho 1351 1.169 jruoho if (ACPI_SUCCESS(rv)) { 1352 1.169 jruoho sysmon_pswitch_unregister(smpsw); 1353 1.169 jruoho return; 1354 1.169 jruoho } 1355 1.69 kochi 1356 1.169 jruoho fail: 1357 1.169 jruoho aprint_error_dev(sc->sc_dev, "failed to deregister " 1358 1.169 jruoho "fixed event: %s\n", AcpiFormatException(rv)); 1359 1.69 kochi } 1360 1.69 kochi 1361 1.169 jruoho static uint32_t 1362 1.169 jruoho acpi_fixed_button_handler(void *context) 1363 1.118 dyoung { 1364 1.169 jruoho static const int handler = OSL_NOTIFY_HANDLER; 1365 1.169 jruoho struct sysmon_pswitch *smpsw = context; 1366 1.169 jruoho 1367 1.169 jruoho (void)AcpiOsExecute(handler, acpi_fixed_button_pressed, smpsw); 1368 1.169 jruoho 1369 1.169 jruoho return ACPI_INTERRUPT_HANDLED; 1370 1.118 dyoung } 1371 1.118 dyoung 1372 1.169 jruoho static void 1373 1.169 jruoho acpi_fixed_button_pressed(void *context) 1374 1.118 dyoung { 1375 1.169 jruoho struct sysmon_pswitch *smpsw = context; 1376 1.118 dyoung 1377 1.199 jruoho ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s fixed button pressed\n", 1378 1.199 jruoho (smpsw->smpsw_type != ACPI_EVENT_SLEEP_BUTTON) ? 1379 1.199 jruoho "power" : "sleep")); 1380 1.10 tshiozak 1381 1.169 jruoho sysmon_pswitch_event(smpsw, PSWITCH_EVENT_PRESSED); 1382 1.169 jruoho } 1383 1.10 tshiozak 1384 1.166 jruoho /* 1385 1.169 jruoho * Sleep. 1386 1.166 jruoho */ 1387 1.166 jruoho static void 1388 1.166 jruoho acpi_sleep_init(struct acpi_softc *sc) 1389 1.10 tshiozak { 1390 1.166 jruoho uint8_t a, b, i; 1391 1.166 jruoho ACPI_STATUS rv; 1392 1.10 tshiozak 1393 1.166 jruoho CTASSERT(ACPI_STATE_S0 == 0 && ACPI_STATE_S1 == 1); 1394 1.166 jruoho CTASSERT(ACPI_STATE_S2 == 2 && ACPI_STATE_S3 == 3); 1395 1.166 jruoho CTASSERT(ACPI_STATE_S4 == 4 && ACPI_STATE_S5 == 5); 1396 1.166 jruoho 1397 1.169 jruoho /* 1398 1.169 jruoho * Evaluate supported sleep states. 1399 1.169 jruoho */ 1400 1.166 jruoho for (i = ACPI_STATE_S0; i <= ACPI_STATE_S5; i++) { 1401 1.166 jruoho 1402 1.166 jruoho rv = AcpiGetSleepTypeData(i, &a, &b); 1403 1.166 jruoho 1404 1.166 jruoho if (ACPI_SUCCESS(rv)) 1405 1.166 jruoho sc->sc_sleepstates |= __BIT(i); 1406 1.166 jruoho } 1407 1.10 tshiozak } 1408 1.10 tshiozak 1409 1.230 jruoho /* 1410 1.230 jruoho * Must be called with interrupts enabled. 1411 1.230 jruoho */ 1412 1.194 jruoho void 1413 1.222 jruoho acpi_enter_sleep_state(int state) 1414 1.10 tshiozak { 1415 1.222 jruoho struct acpi_softc *sc = acpi_softc; 1416 1.194 jruoho ACPI_STATUS rv; 1417 1.10 tshiozak 1418 1.222 jruoho if (acpi_softc == NULL) 1419 1.222 jruoho return; 1420 1.222 jruoho 1421 1.166 jruoho if (state == sc->sc_sleepstate) 1422 1.194 jruoho return; 1423 1.92 christos 1424 1.222 jruoho if (state < ACPI_STATE_S0 || state > ACPI_STATE_S5) 1425 1.222 jruoho return; 1426 1.222 jruoho 1427 1.166 jruoho aprint_normal_dev(sc->sc_dev, "entering state S%d\n", state); 1428 1.92 christos 1429 1.10 tshiozak switch (state) { 1430 1.166 jruoho 1431 1.10 tshiozak case ACPI_STATE_S0: 1432 1.194 jruoho sc->sc_sleepstate = ACPI_STATE_S0; 1433 1.194 jruoho return; 1434 1.166 jruoho 1435 1.10 tshiozak case ACPI_STATE_S1: 1436 1.10 tshiozak case ACPI_STATE_S2: 1437 1.10 tshiozak case ACPI_STATE_S3: 1438 1.10 tshiozak case ACPI_STATE_S4: 1439 1.166 jruoho 1440 1.166 jruoho if ((sc->sc_sleepstates & __BIT(state)) == 0) { 1441 1.166 jruoho aprint_error_dev(sc->sc_dev, "sleep state " 1442 1.166 jruoho "S%d is not available\n", state); 1443 1.194 jruoho return; 1444 1.10 tshiozak } 1445 1.104 jmcneill 1446 1.188 jruoho /* 1447 1.190 jruoho * Evaluate the _TTS method. This should be done before 1448 1.190 jruoho * pmf_system_suspend(9) and the evaluation of _PTS. 1449 1.190 jruoho * We should also re-evaluate this once we return to 1450 1.190 jruoho * S0 or if we abort the sleep state transition in the 1451 1.190 jruoho * middle (see ACPI 3.0, section 7.3.6). In reality, 1452 1.190 jruoho * however, the _TTS method is seldom seen in the field. 1453 1.189 jruoho */ 1454 1.189 jruoho rv = acpi_eval_set_integer(NULL, "\\_TTS", state); 1455 1.189 jruoho 1456 1.189 jruoho if (ACPI_SUCCESS(rv)) 1457 1.189 jruoho aprint_debug_dev(sc->sc_dev, "evaluated _TTS\n"); 1458 1.189 jruoho 1459 1.190 jruoho if (state != ACPI_STATE_S1 && 1460 1.190 jruoho pmf_system_suspend(PMF_Q_NONE) != true) { 1461 1.190 jruoho aprint_error_dev(sc->sc_dev, "aborting suspend\n"); 1462 1.190 jruoho break; 1463 1.190 jruoho } 1464 1.190 jruoho 1465 1.189 jruoho /* 1466 1.188 jruoho * This will evaluate the _PTS and _SST methods, 1467 1.188 jruoho * but unlike the documentation claims, not _GTS, 1468 1.188 jruoho * which is evaluated in AcpiEnterSleepState(). 1469 1.188 jruoho * This must be called with interrupts enabled. 1470 1.188 jruoho */ 1471 1.166 jruoho rv = AcpiEnterSleepStatePrep(state); 1472 1.166 jruoho 1473 1.166 jruoho if (ACPI_FAILURE(rv)) { 1474 1.166 jruoho aprint_error_dev(sc->sc_dev, "failed to prepare " 1475 1.166 jruoho "S%d: %s\n", state, AcpiFormatException(rv)); 1476 1.10 tshiozak break; 1477 1.10 tshiozak } 1478 1.104 jmcneill 1479 1.203 jruoho /* 1480 1.203 jruoho * After the _PTS method has been evaluated, we can 1481 1.203 jruoho * enable wake and evaluate _PSW (ACPI 4.0, p. 284). 1482 1.203 jruoho */ 1483 1.203 jruoho acpi_wakedev_commit(sc, state); 1484 1.203 jruoho 1485 1.166 jruoho sc->sc_sleepstate = state; 1486 1.166 jruoho 1487 1.92 christos if (state == ACPI_STATE_S1) { 1488 1.166 jruoho 1489 1.241 jruoho /* 1490 1.242 jruoho * Before the transition to S1, CPU caches 1491 1.242 jruoho * must be flushed (see ACPI 4.0, 7.3.4.2). 1492 1.242 jruoho * 1493 1.242 jruoho * Note that interrupts must be off before 1494 1.242 jruoho * calling AcpiEnterSleepState(). Conversely, 1495 1.242 jruoho * AcpiLeaveSleepState() should always be 1496 1.242 jruoho * called with interrupts enabled. 1497 1.241 jruoho */ 1498 1.12 kanaoka acpi_md_OsDisableInterrupt(); 1499 1.242 jruoho 1500 1.242 jruoho ACPI_FLUSH_CPU_CACHE(); 1501 1.166 jruoho rv = AcpiEnterSleepState(state); 1502 1.166 jruoho 1503 1.166 jruoho if (ACPI_FAILURE(rv)) 1504 1.166 jruoho aprint_error_dev(sc->sc_dev, "failed to " 1505 1.166 jruoho "enter S1: %s\n", AcpiFormatException(rv)); 1506 1.166 jruoho 1507 1.251 jmcneill /* 1508 1.251 jmcneill * Clear fixed events and disable all GPEs before 1509 1.251 jmcneill * interrupts are enabled. 1510 1.251 jmcneill */ 1511 1.251 jmcneill AcpiClearEvent(ACPI_EVENT_PMTIMER); 1512 1.251 jmcneill AcpiClearEvent(ACPI_EVENT_GLOBAL); 1513 1.251 jmcneill AcpiClearEvent(ACPI_EVENT_POWER_BUTTON); 1514 1.251 jmcneill AcpiClearEvent(ACPI_EVENT_SLEEP_BUTTON); 1515 1.251 jmcneill AcpiClearEvent(ACPI_EVENT_RTC); 1516 1.276 jmcneill #if (!ACPI_REDUCED_HARDWARE) 1517 1.251 jmcneill AcpiHwDisableAllGpes(); 1518 1.275 jmcneill #endif 1519 1.251 jmcneill 1520 1.241 jruoho acpi_md_OsEnableInterrupt(); 1521 1.241 jruoho rv = AcpiLeaveSleepState(state); 1522 1.166 jruoho 1523 1.10 tshiozak } else { 1524 1.166 jruoho 1525 1.256 christos (void)acpi_md_sleep(state); 1526 1.166 jruoho 1527 1.104 jmcneill if (state == ACPI_STATE_S4) 1528 1.10 tshiozak AcpiEnable(); 1529 1.166 jruoho 1530 1.235 jruoho (void)pmf_system_bus_resume(PMF_Q_NONE); 1531 1.166 jruoho (void)AcpiLeaveSleepState(state); 1532 1.260 christos (void)AcpiSetFirmwareWakingVector(0, 0); 1533 1.235 jruoho (void)pmf_system_resume(PMF_Q_NONE); 1534 1.10 tshiozak } 1535 1.104 jmcneill 1536 1.241 jruoho /* 1537 1.241 jruoho * No wake GPEs should be enabled at runtime. 1538 1.241 jruoho */ 1539 1.237 jruoho acpi_wakedev_commit(sc, ACPI_STATE_S0); 1540 1.10 tshiozak break; 1541 1.189 jruoho 1542 1.10 tshiozak case ACPI_STATE_S5: 1543 1.166 jruoho 1544 1.190 jruoho (void)acpi_eval_set_integer(NULL, "\\_TTS", ACPI_STATE_S5); 1545 1.189 jruoho 1546 1.166 jruoho rv = AcpiEnterSleepStatePrep(ACPI_STATE_S5); 1547 1.166 jruoho 1548 1.166 jruoho if (ACPI_FAILURE(rv)) { 1549 1.166 jruoho aprint_error_dev(sc->sc_dev, "failed to prepare " 1550 1.166 jruoho "S%d: %s\n", state, AcpiFormatException(rv)); 1551 1.42 kochi break; 1552 1.42 kochi } 1553 1.166 jruoho 1554 1.230 jruoho (void)AcpiDisableAllGpes(); 1555 1.230 jruoho 1556 1.104 jmcneill DELAY(1000000); 1557 1.166 jruoho 1558 1.166 jruoho sc->sc_sleepstate = state; 1559 1.12 kanaoka acpi_md_OsDisableInterrupt(); 1560 1.166 jruoho 1561 1.166 jruoho (void)AcpiEnterSleepState(ACPI_STATE_S5); 1562 1.166 jruoho 1563 1.166 jruoho aprint_error_dev(sc->sc_dev, "WARNING: powerdown failed!\n"); 1564 1.189 jruoho 1565 1.10 tshiozak break; 1566 1.10 tshiozak } 1567 1.10 tshiozak 1568 1.166 jruoho sc->sc_sleepstate = ACPI_STATE_S0; 1569 1.166 jruoho 1570 1.189 jruoho (void)acpi_eval_set_integer(NULL, "\\_TTS", ACPI_STATE_S0); 1571 1.1 thorpej } 1572 1.13 augustss 1573 1.159 jruoho /* 1574 1.169 jruoho * Sysctl. 1575 1.159 jruoho */ 1576 1.79 cube SYSCTL_SETUP(sysctl_acpi_setup, "sysctl hw.acpi subtree setup") 1577 1.79 cube { 1578 1.253 jruoho const struct sysctlnode *rnode, *snode; 1579 1.165 jruoho int err; 1580 1.165 jruoho 1581 1.165 jruoho err = sysctl_createv(clog, 0, NULL, &rnode, 1582 1.165 jruoho CTLFLAG_PERMANENT, CTLTYPE_NODE, 1583 1.165 jruoho "acpi", SYSCTL_DESCR("ACPI subsystem parameters"), 1584 1.79 cube NULL, 0, NULL, 0, 1585 1.258 pooka CTL_HW, CTL_CREATE, CTL_EOL); 1586 1.165 jruoho 1587 1.165 jruoho if (err != 0) 1588 1.79 cube return; 1589 1.79 cube 1590 1.165 jruoho (void)sysctl_createv(NULL, 0, &rnode, NULL, 1591 1.165 jruoho CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD, 1592 1.165 jruoho "root", SYSCTL_DESCR("ACPI root pointer"), 1593 1.109 jmcneill NULL, 0, &acpi_root_pointer, sizeof(acpi_root_pointer), 1594 1.165 jruoho CTL_CREATE, CTL_EOL); 1595 1.165 jruoho 1596 1.223 jruoho err = sysctl_createv(clog, 0, &rnode, &snode, 1597 1.223 jruoho CTLFLAG_PERMANENT, CTLTYPE_NODE, 1598 1.223 jruoho "sleep", SYSCTL_DESCR("ACPI sleep"), 1599 1.223 jruoho NULL, 0, NULL, 0, 1600 1.223 jruoho CTL_CREATE, CTL_EOL); 1601 1.223 jruoho 1602 1.223 jruoho if (err != 0) 1603 1.223 jruoho return; 1604 1.223 jruoho 1605 1.223 jruoho (void)sysctl_createv(NULL, 0, &snode, NULL, 1606 1.223 jruoho CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT, 1607 1.223 jruoho "state", SYSCTL_DESCR("System sleep state"), 1608 1.223 jruoho sysctl_hw_acpi_sleepstate, 0, NULL, 0, 1609 1.223 jruoho CTL_CREATE, CTL_EOL); 1610 1.223 jruoho 1611 1.223 jruoho (void)sysctl_createv(NULL, 0, &snode, NULL, 1612 1.165 jruoho CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_STRING, 1613 1.223 jruoho "states", SYSCTL_DESCR("Supported sleep states"), 1614 1.166 jruoho sysctl_hw_acpi_sleepstates, 0, NULL, 0, 1615 1.165 jruoho CTL_CREATE, CTL_EOL); 1616 1.165 jruoho 1617 1.165 jruoho err = sysctl_createv(clog, 0, &rnode, &rnode, 1618 1.165 jruoho CTLFLAG_PERMANENT, CTLTYPE_NODE, 1619 1.165 jruoho "stat", SYSCTL_DESCR("ACPI statistics"), 1620 1.165 jruoho NULL, 0, NULL, 0, 1621 1.165 jruoho CTL_CREATE, CTL_EOL); 1622 1.165 jruoho 1623 1.165 jruoho if (err != 0) 1624 1.86 jmcneill return; 1625 1.165 jruoho 1626 1.165 jruoho (void)sysctl_createv(clog, 0, &rnode, NULL, 1627 1.165 jruoho CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD, 1628 1.165 jruoho "gpe", SYSCTL_DESCR("Number of dispatched GPEs"), 1629 1.165 jruoho NULL, 0, &AcpiGpeCount, sizeof(AcpiGpeCount), 1630 1.165 jruoho CTL_CREATE, CTL_EOL); 1631 1.165 jruoho 1632 1.165 jruoho (void)sysctl_createv(clog, 0, &rnode, NULL, 1633 1.165 jruoho CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD, 1634 1.165 jruoho "sci", SYSCTL_DESCR("Number of SCI interrupts"), 1635 1.165 jruoho NULL, 0, &AcpiSciCount, sizeof(AcpiSciCount), 1636 1.165 jruoho CTL_CREATE, CTL_EOL); 1637 1.165 jruoho 1638 1.165 jruoho (void)sysctl_createv(clog, 0, &rnode, NULL, 1639 1.165 jruoho CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD, 1640 1.165 jruoho "fixed", SYSCTL_DESCR("Number of fixed events"), 1641 1.165 jruoho sysctl_hw_acpi_fixedstats, 0, NULL, 0, 1642 1.165 jruoho CTL_CREATE, CTL_EOL); 1643 1.165 jruoho 1644 1.165 jruoho (void)sysctl_createv(clog, 0, &rnode, NULL, 1645 1.165 jruoho CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD, 1646 1.165 jruoho "method", SYSCTL_DESCR("Number of methods executed"), 1647 1.165 jruoho NULL, 0, &AcpiMethodCount, sizeof(AcpiMethodCount), 1648 1.165 jruoho CTL_CREATE, CTL_EOL); 1649 1.165 jruoho 1650 1.165 jruoho CTASSERT(sizeof(AcpiGpeCount) == sizeof(uint64_t)); 1651 1.165 jruoho CTASSERT(sizeof(AcpiSciCount) == sizeof(uint64_t)); 1652 1.165 jruoho } 1653 1.165 jruoho 1654 1.165 jruoho static int 1655 1.165 jruoho sysctl_hw_acpi_fixedstats(SYSCTLFN_ARGS) 1656 1.165 jruoho { 1657 1.165 jruoho struct sysctlnode node; 1658 1.165 jruoho uint64_t t; 1659 1.165 jruoho int err, i; 1660 1.165 jruoho 1661 1.165 jruoho for (i = t = 0; i < __arraycount(AcpiFixedEventCount); i++) 1662 1.165 jruoho t += AcpiFixedEventCount[i]; 1663 1.165 jruoho 1664 1.165 jruoho node = *rnode; 1665 1.165 jruoho node.sysctl_data = &t; 1666 1.165 jruoho 1667 1.165 jruoho err = sysctl_lookup(SYSCTLFN_CALL(&node)); 1668 1.165 jruoho 1669 1.165 jruoho if (err || newp == NULL) 1670 1.165 jruoho return err; 1671 1.165 jruoho 1672 1.165 jruoho return 0; 1673 1.86 jmcneill } 1674 1.86 jmcneill 1675 1.86 jmcneill static int 1676 1.86 jmcneill sysctl_hw_acpi_sleepstate(SYSCTLFN_ARGS) 1677 1.86 jmcneill { 1678 1.166 jruoho struct acpi_softc *sc = acpi_softc; 1679 1.86 jmcneill struct sysctlnode node; 1680 1.165 jruoho int err, t; 1681 1.86 jmcneill 1682 1.166 jruoho if (acpi_softc == NULL) 1683 1.166 jruoho return ENOSYS; 1684 1.166 jruoho 1685 1.86 jmcneill node = *rnode; 1686 1.166 jruoho t = sc->sc_sleepstate; 1687 1.86 jmcneill node.sysctl_data = &t; 1688 1.165 jruoho 1689 1.165 jruoho err = sysctl_lookup(SYSCTLFN_CALL(&node)); 1690 1.165 jruoho 1691 1.165 jruoho if (err || newp == NULL) 1692 1.165 jruoho return err; 1693 1.86 jmcneill 1694 1.166 jruoho if (t < ACPI_STATE_S0 || t > ACPI_STATE_S5) 1695 1.166 jruoho return EINVAL; 1696 1.166 jruoho 1697 1.222 jruoho acpi_enter_sleep_state(t); 1698 1.166 jruoho 1699 1.166 jruoho return 0; 1700 1.166 jruoho } 1701 1.166 jruoho 1702 1.166 jruoho static int 1703 1.166 jruoho sysctl_hw_acpi_sleepstates(SYSCTLFN_ARGS) 1704 1.166 jruoho { 1705 1.166 jruoho struct acpi_softc *sc = acpi_softc; 1706 1.166 jruoho struct sysctlnode node; 1707 1.166 jruoho char t[3 * 6 + 1]; 1708 1.166 jruoho int err; 1709 1.166 jruoho 1710 1.92 christos if (acpi_softc == NULL) 1711 1.92 christos return ENOSYS; 1712 1.86 jmcneill 1713 1.166 jruoho (void)memset(t, '\0', sizeof(t)); 1714 1.166 jruoho 1715 1.166 jruoho (void)snprintf(t, sizeof(t), "%s%s%s%s%s%s", 1716 1.166 jruoho ((sc->sc_sleepstates & __BIT(0)) != 0) ? "S0 " : "", 1717 1.166 jruoho ((sc->sc_sleepstates & __BIT(1)) != 0) ? "S1 " : "", 1718 1.166 jruoho ((sc->sc_sleepstates & __BIT(2)) != 0) ? "S2 " : "", 1719 1.166 jruoho ((sc->sc_sleepstates & __BIT(3)) != 0) ? "S3 " : "", 1720 1.166 jruoho ((sc->sc_sleepstates & __BIT(4)) != 0) ? "S4 " : "", 1721 1.166 jruoho ((sc->sc_sleepstates & __BIT(5)) != 0) ? "S5 " : ""); 1722 1.166 jruoho 1723 1.166 jruoho node = *rnode; 1724 1.166 jruoho node.sysctl_data = &t; 1725 1.166 jruoho 1726 1.166 jruoho err = sysctl_lookup(SYSCTLFN_CALL(&node)); 1727 1.165 jruoho 1728 1.166 jruoho if (err || newp == NULL) 1729 1.166 jruoho return err; 1730 1.86 jmcneill 1731 1.86 jmcneill return 0; 1732 1.79 cube } 1733 1.108 jmcneill 1734 1.169 jruoho /* 1735 1.212 jruoho * Tables. 1736 1.169 jruoho */ 1737 1.169 jruoho ACPI_PHYSICAL_ADDRESS 1738 1.169 jruoho acpi_OsGetRootPointer(void) 1739 1.169 jruoho { 1740 1.169 jruoho ACPI_PHYSICAL_ADDRESS PhysicalAddress; 1741 1.169 jruoho 1742 1.169 jruoho /* 1743 1.172 jruoho * We let MD code handle this since there are multiple ways to do it: 1744 1.169 jruoho * 1745 1.172 jruoho * IA-32: Use AcpiFindRootPointer() to locate the RSDP. 1746 1.169 jruoho * 1747 1.172 jruoho * IA-64: Use the EFI. 1748 1.169 jruoho */ 1749 1.169 jruoho PhysicalAddress = acpi_md_OsGetRootPointer(); 1750 1.169 jruoho 1751 1.169 jruoho if (acpi_root_pointer == 0) 1752 1.169 jruoho acpi_root_pointer = PhysicalAddress; 1753 1.169 jruoho 1754 1.169 jruoho return PhysicalAddress; 1755 1.169 jruoho } 1756 1.169 jruoho 1757 1.108 jmcneill static ACPI_TABLE_HEADER * 1758 1.108 jmcneill acpi_map_rsdt(void) 1759 1.108 jmcneill { 1760 1.108 jmcneill ACPI_PHYSICAL_ADDRESS paddr; 1761 1.108 jmcneill ACPI_TABLE_RSDP *rsdp; 1762 1.108 jmcneill 1763 1.108 jmcneill paddr = AcpiOsGetRootPointer(); 1764 1.172 jruoho 1765 1.172 jruoho if (paddr == 0) 1766 1.108 jmcneill return NULL; 1767 1.172 jruoho 1768 1.108 jmcneill rsdp = AcpiOsMapMemory(paddr, sizeof(ACPI_TABLE_RSDP)); 1769 1.172 jruoho 1770 1.172 jruoho if (rsdp == NULL) 1771 1.108 jmcneill return NULL; 1772 1.172 jruoho 1773 1.108 jmcneill if (rsdp->Revision > 1 && rsdp->XsdtPhysicalAddress) 1774 1.172 jruoho paddr = rsdp->XsdtPhysicalAddress; 1775 1.108 jmcneill else 1776 1.172 jruoho paddr = rsdp->RsdtPhysicalAddress; 1777 1.172 jruoho 1778 1.108 jmcneill AcpiOsUnmapMemory(rsdp, sizeof(ACPI_TABLE_RSDP)); 1779 1.108 jmcneill 1780 1.108 jmcneill return AcpiOsMapMemory(paddr, sizeof(ACPI_TABLE_HEADER)); 1781 1.108 jmcneill } 1782 1.108 jmcneill 1783 1.238 jruoho /* 1784 1.238 jruoho * XXX: Refactor to be a generic function that unmaps tables. 1785 1.238 jruoho */ 1786 1.108 jmcneill static void 1787 1.108 jmcneill acpi_unmap_rsdt(ACPI_TABLE_HEADER *rsdt) 1788 1.108 jmcneill { 1789 1.172 jruoho 1790 1.108 jmcneill if (rsdt == NULL) 1791 1.108 jmcneill return; 1792 1.108 jmcneill 1793 1.108 jmcneill AcpiOsUnmapMemory(rsdt, sizeof(ACPI_TABLE_HEADER)); 1794 1.108 jmcneill } 1795 1.211 jruoho 1796 1.211 jruoho /* 1797 1.212 jruoho * XXX: Refactor to be a generic function that maps tables. 1798 1.212 jruoho */ 1799 1.212 jruoho ACPI_STATUS 1800 1.212 jruoho acpi_madt_map(void) 1801 1.212 jruoho { 1802 1.212 jruoho ACPI_STATUS rv; 1803 1.212 jruoho 1804 1.212 jruoho if (madt_header != NULL) 1805 1.212 jruoho return AE_ALREADY_EXISTS; 1806 1.212 jruoho 1807 1.212 jruoho rv = AcpiGetTable(ACPI_SIG_MADT, 1, &madt_header); 1808 1.212 jruoho 1809 1.212 jruoho if (ACPI_FAILURE(rv)) 1810 1.212 jruoho return rv; 1811 1.212 jruoho 1812 1.212 jruoho return AE_OK; 1813 1.212 jruoho } 1814 1.212 jruoho 1815 1.212 jruoho void 1816 1.212 jruoho acpi_madt_unmap(void) 1817 1.212 jruoho { 1818 1.212 jruoho madt_header = NULL; 1819 1.212 jruoho } 1820 1.212 jruoho 1821 1.273 jmcneill ACPI_STATUS 1822 1.273 jmcneill acpi_gtdt_map(void) 1823 1.273 jmcneill { 1824 1.273 jmcneill ACPI_STATUS rv; 1825 1.273 jmcneill 1826 1.273 jmcneill if (gtdt_header != NULL) 1827 1.273 jmcneill return AE_ALREADY_EXISTS; 1828 1.273 jmcneill 1829 1.273 jmcneill rv = AcpiGetTable(ACPI_SIG_GTDT, 1, >dt_header); 1830 1.273 jmcneill 1831 1.273 jmcneill if (ACPI_FAILURE(rv)) 1832 1.273 jmcneill return rv; 1833 1.273 jmcneill 1834 1.273 jmcneill return AE_OK; 1835 1.273 jmcneill } 1836 1.273 jmcneill 1837 1.273 jmcneill void 1838 1.273 jmcneill acpi_gtdt_unmap(void) 1839 1.273 jmcneill { 1840 1.273 jmcneill gtdt_header = NULL; 1841 1.273 jmcneill } 1842 1.273 jmcneill 1843 1.212 jruoho /* 1844 1.212 jruoho * XXX: Refactor to be a generic function that walks tables. 1845 1.212 jruoho */ 1846 1.212 jruoho void 1847 1.212 jruoho acpi_madt_walk(ACPI_STATUS (*func)(ACPI_SUBTABLE_HEADER *, void *), void *aux) 1848 1.212 jruoho { 1849 1.212 jruoho ACPI_SUBTABLE_HEADER *hdrp; 1850 1.212 jruoho char *madtend, *where; 1851 1.212 jruoho 1852 1.212 jruoho madtend = (char *)madt_header + madt_header->Length; 1853 1.212 jruoho where = (char *)madt_header + sizeof (ACPI_TABLE_MADT); 1854 1.212 jruoho 1855 1.212 jruoho while (where < madtend) { 1856 1.212 jruoho 1857 1.212 jruoho hdrp = (ACPI_SUBTABLE_HEADER *)where; 1858 1.212 jruoho 1859 1.284 jmcneill if (hdrp->Length == 0 || ACPI_FAILURE(func(hdrp, aux))) 1860 1.212 jruoho break; 1861 1.212 jruoho 1862 1.212 jruoho where += hdrp->Length; 1863 1.212 jruoho } 1864 1.212 jruoho } 1865 1.212 jruoho 1866 1.273 jmcneill void 1867 1.273 jmcneill acpi_gtdt_walk(ACPI_STATUS (*func)(ACPI_GTDT_HEADER *, void *), void *aux) 1868 1.273 jmcneill { 1869 1.273 jmcneill ACPI_GTDT_HEADER *hdrp; 1870 1.273 jmcneill char *gtdtend, *where; 1871 1.273 jmcneill 1872 1.273 jmcneill gtdtend = (char *)gtdt_header + gtdt_header->Length; 1873 1.273 jmcneill where = (char *)gtdt_header + sizeof (ACPI_TABLE_GTDT); 1874 1.273 jmcneill 1875 1.273 jmcneill while (where < gtdtend) { 1876 1.273 jmcneill 1877 1.273 jmcneill hdrp = (ACPI_GTDT_HEADER *)where; 1878 1.273 jmcneill 1879 1.284 jmcneill if (hdrp->Length == 0 || ACPI_FAILURE(func(hdrp, aux))) 1880 1.273 jmcneill break; 1881 1.273 jmcneill 1882 1.273 jmcneill where += hdrp->Length; 1883 1.273 jmcneill } 1884 1.273 jmcneill } 1885 1.273 jmcneill 1886 1.212 jruoho /* 1887 1.212 jruoho * Miscellaneous. 1888 1.212 jruoho */ 1889 1.212 jruoho static bool 1890 1.212 jruoho acpi_is_scope(struct acpi_devnode *ad) 1891 1.212 jruoho { 1892 1.212 jruoho int i; 1893 1.212 jruoho 1894 1.212 jruoho /* 1895 1.212 jruoho * Return true if the node is a root scope. 1896 1.212 jruoho */ 1897 1.212 jruoho if (ad->ad_parent == NULL) 1898 1.212 jruoho return false; 1899 1.212 jruoho 1900 1.212 jruoho if (ad->ad_parent->ad_handle != ACPI_ROOT_OBJECT) 1901 1.212 jruoho return false; 1902 1.212 jruoho 1903 1.212 jruoho for (i = 0; i < __arraycount(acpi_scopes); i++) { 1904 1.212 jruoho 1905 1.212 jruoho if (acpi_scopes[i] == NULL) 1906 1.212 jruoho continue; 1907 1.212 jruoho 1908 1.212 jruoho if (ad->ad_handle == acpi_scopes[i]) 1909 1.212 jruoho return true; 1910 1.212 jruoho } 1911 1.212 jruoho 1912 1.212 jruoho return false; 1913 1.212 jruoho } 1914 1.212 jruoho 1915 1.270 christos bool 1916 1.270 christos acpi_device_present(ACPI_HANDLE handle) 1917 1.270 christos { 1918 1.270 christos ACPI_STATUS rv; 1919 1.270 christos ACPI_INTEGER sta; 1920 1.270 christos 1921 1.270 christos rv = acpi_eval_integer(handle, "_STA", &sta); 1922 1.270 christos 1923 1.270 christos if (ACPI_FAILURE(rv)) { 1924 1.270 christos /* No _STA method -> must be there */ 1925 1.270 christos return rv == AE_NOT_FOUND; 1926 1.270 christos } 1927 1.270 christos 1928 1.270 christos return (sta & ACPI_STA_OK) == ACPI_STA_OK; 1929 1.270 christos } 1930 1.270 christos 1931 1.212 jruoho /* 1932 1.211 jruoho * ACPIVERBOSE. 1933 1.211 jruoho */ 1934 1.211 jruoho void 1935 1.211 jruoho acpi_load_verbose(void) 1936 1.211 jruoho { 1937 1.211 jruoho 1938 1.216 pgoyette if (acpi_verbose_loaded == 0) 1939 1.211 jruoho module_autoload("acpiverbose", MODULE_CLASS_MISC); 1940 1.211 jruoho } 1941 1.211 jruoho 1942 1.211 jruoho void 1943 1.211 jruoho acpi_print_verbose_stub(struct acpi_softc *sc) 1944 1.211 jruoho { 1945 1.211 jruoho 1946 1.211 jruoho acpi_load_verbose(); 1947 1.211 jruoho 1948 1.211 jruoho if (acpi_verbose_loaded != 0) 1949 1.211 jruoho acpi_print_verbose(sc); 1950 1.211 jruoho } 1951 1.211 jruoho 1952 1.211 jruoho void 1953 1.211 jruoho acpi_print_dev_stub(const char *pnpstr) 1954 1.211 jruoho { 1955 1.211 jruoho 1956 1.211 jruoho acpi_load_verbose(); 1957 1.211 jruoho 1958 1.211 jruoho if (acpi_verbose_loaded != 0) 1959 1.211 jruoho acpi_print_dev(pnpstr); 1960 1.211 jruoho } 1961 1.228 jruoho 1962 1.239 jruoho MALLOC_DECLARE(M_ACPI); /* XXX: ACPI_ACTIVATE_DEV should use kmem(9). */ 1963 1.239 jruoho 1964 1.228 jruoho /* 1965 1.228 jruoho * ACPI_ACTIVATE_DEV. 1966 1.228 jruoho */ 1967 1.228 jruoho static void 1968 1.228 jruoho acpi_activate_device(ACPI_HANDLE handle, ACPI_DEVICE_INFO **di) 1969 1.228 jruoho { 1970 1.228 jruoho 1971 1.228 jruoho #ifndef ACPI_ACTIVATE_DEV 1972 1.228 jruoho return; 1973 1.228 jruoho } 1974 1.228 jruoho #else 1975 1.269 christos static const int valid = ACPI_VALID_HID; 1976 1.228 jruoho ACPI_DEVICE_INFO *newdi; 1977 1.228 jruoho ACPI_STATUS rv; 1978 1.228 jruoho 1979 1.270 christos 1980 1.228 jruoho /* 1981 1.228 jruoho * If the device is valid and present, 1982 1.228 jruoho * but not enabled, try to activate it. 1983 1.228 jruoho */ 1984 1.228 jruoho if (((*di)->Valid & valid) != valid) 1985 1.228 jruoho return; 1986 1.228 jruoho 1987 1.270 christos if (!acpi_device_present(handle)) 1988 1.270 christos return; 1989 1.270 christos 1990 1.228 jruoho rv = acpi_allocate_resources(handle); 1991 1.228 jruoho 1992 1.228 jruoho if (ACPI_FAILURE(rv)) 1993 1.228 jruoho goto fail; 1994 1.228 jruoho 1995 1.228 jruoho rv = AcpiGetObjectInfo(handle, &newdi); 1996 1.228 jruoho 1997 1.228 jruoho if (ACPI_FAILURE(rv)) 1998 1.228 jruoho goto fail; 1999 1.228 jruoho 2000 1.228 jruoho ACPI_FREE(*di); 2001 1.228 jruoho *di = newdi; 2002 1.228 jruoho 2003 1.228 jruoho aprint_verbose_dev(acpi_softc->sc_dev, 2004 1.269 christos "%s activated\n", (*di)->HardwareId.String); 2005 1.228 jruoho 2006 1.228 jruoho return; 2007 1.228 jruoho 2008 1.228 jruoho fail: 2009 1.228 jruoho aprint_error_dev(acpi_softc->sc_dev, "failed to " 2010 1.228 jruoho "activate %s\n", (*di)->HardwareId.String); 2011 1.228 jruoho } 2012 1.228 jruoho 2013 1.228 jruoho /* 2014 1.228 jruoho * XXX: This very incomplete. 2015 1.228 jruoho */ 2016 1.228 jruoho ACPI_STATUS 2017 1.228 jruoho acpi_allocate_resources(ACPI_HANDLE handle) 2018 1.228 jruoho { 2019 1.228 jruoho ACPI_BUFFER bufp, bufc, bufn; 2020 1.228 jruoho ACPI_RESOURCE *resp, *resc, *resn; 2021 1.228 jruoho ACPI_RESOURCE_IRQ *irq; 2022 1.257 christos #if 0 2023 1.228 jruoho ACPI_RESOURCE_EXTENDED_IRQ *xirq; 2024 1.257 christos #endif 2025 1.228 jruoho ACPI_STATUS rv; 2026 1.228 jruoho uint delta; 2027 1.228 jruoho 2028 1.228 jruoho rv = acpi_get(handle, &bufp, AcpiGetPossibleResources); 2029 1.228 jruoho if (ACPI_FAILURE(rv)) 2030 1.228 jruoho goto out; 2031 1.228 jruoho rv = acpi_get(handle, &bufc, AcpiGetCurrentResources); 2032 1.228 jruoho if (ACPI_FAILURE(rv)) { 2033 1.228 jruoho goto out1; 2034 1.228 jruoho } 2035 1.228 jruoho 2036 1.228 jruoho bufn.Length = 1000; 2037 1.228 jruoho bufn.Pointer = resn = malloc(bufn.Length, M_ACPI, M_WAITOK); 2038 1.228 jruoho resp = bufp.Pointer; 2039 1.228 jruoho resc = bufc.Pointer; 2040 1.228 jruoho while (resc->Type != ACPI_RESOURCE_TYPE_END_TAG && 2041 1.228 jruoho resp->Type != ACPI_RESOURCE_TYPE_END_TAG) { 2042 1.228 jruoho while (resc->Type != resp->Type && resp->Type != ACPI_RESOURCE_TYPE_END_TAG) 2043 1.228 jruoho resp = ACPI_NEXT_RESOURCE(resp); 2044 1.228 jruoho if (resp->Type == ACPI_RESOURCE_TYPE_END_TAG) 2045 1.228 jruoho break; 2046 1.228 jruoho /* Found identical Id */ 2047 1.228 jruoho resn->Type = resc->Type; 2048 1.228 jruoho switch (resc->Type) { 2049 1.228 jruoho case ACPI_RESOURCE_TYPE_IRQ: 2050 1.228 jruoho memcpy(&resn->Data, &resp->Data, 2051 1.228 jruoho sizeof(ACPI_RESOURCE_IRQ)); 2052 1.228 jruoho irq = (ACPI_RESOURCE_IRQ *)&resn->Data; 2053 1.228 jruoho irq->Interrupts[0] = 2054 1.228 jruoho ((ACPI_RESOURCE_IRQ *)&resp->Data)-> 2055 1.228 jruoho Interrupts[irq->InterruptCount-1]; 2056 1.228 jruoho irq->InterruptCount = 1; 2057 1.228 jruoho resn->Length = ACPI_RS_SIZE(ACPI_RESOURCE_IRQ); 2058 1.228 jruoho break; 2059 1.228 jruoho case ACPI_RESOURCE_TYPE_EXTENDED_IRQ: 2060 1.228 jruoho memcpy(&resn->Data, &resp->Data, 2061 1.228 jruoho sizeof(ACPI_RESOURCE_EXTENDED_IRQ)); 2062 1.257 christos #if 0 2063 1.228 jruoho xirq = (ACPI_RESOURCE_EXTENDED_IRQ *)&resn->Data; 2064 1.228 jruoho /* 2065 1.228 jruoho * XXX: Not duplicating the interrupt logic above 2066 1.228 jruoho * because its not clear what it accomplishes. 2067 1.228 jruoho */ 2068 1.228 jruoho xirq->Interrupts[0] = 2069 1.228 jruoho ((ACPI_RESOURCE_EXT_IRQ *)&resp->Data)-> 2070 1.228 jruoho Interrupts[irq->NumberOfInterrupts-1]; 2071 1.228 jruoho xirq->NumberOfInterrupts = 1; 2072 1.228 jruoho #endif 2073 1.228 jruoho resn->Length = ACPI_RS_SIZE(ACPI_RESOURCE_EXTENDED_IRQ); 2074 1.228 jruoho break; 2075 1.228 jruoho case ACPI_RESOURCE_TYPE_IO: 2076 1.228 jruoho memcpy(&resn->Data, &resp->Data, 2077 1.228 jruoho sizeof(ACPI_RESOURCE_IO)); 2078 1.228 jruoho resn->Length = resp->Length; 2079 1.228 jruoho break; 2080 1.228 jruoho default: 2081 1.228 jruoho aprint_error_dev(acpi_softc->sc_dev, 2082 1.228 jruoho "%s: invalid type %u\n", __func__, resc->Type); 2083 1.228 jruoho rv = AE_BAD_DATA; 2084 1.228 jruoho goto out2; 2085 1.228 jruoho } 2086 1.228 jruoho resc = ACPI_NEXT_RESOURCE(resc); 2087 1.228 jruoho resn = ACPI_NEXT_RESOURCE(resn); 2088 1.228 jruoho resp = ACPI_NEXT_RESOURCE(resp); 2089 1.228 jruoho delta = (uint8_t *)resn - (uint8_t *)bufn.Pointer; 2090 1.228 jruoho if (delta >= 2091 1.228 jruoho bufn.Length-ACPI_RS_SIZE(ACPI_RESOURCE_DATA)) { 2092 1.228 jruoho bufn.Length *= 2; 2093 1.228 jruoho bufn.Pointer = realloc(bufn.Pointer, bufn.Length, 2094 1.228 jruoho M_ACPI, M_WAITOK); 2095 1.228 jruoho resn = (ACPI_RESOURCE *)((uint8_t *)bufn.Pointer + 2096 1.228 jruoho delta); 2097 1.228 jruoho } 2098 1.228 jruoho } 2099 1.228 jruoho 2100 1.228 jruoho if (resc->Type != ACPI_RESOURCE_TYPE_END_TAG) { 2101 1.228 jruoho aprint_error_dev(acpi_softc->sc_dev, 2102 1.228 jruoho "%s: resc not exhausted\n", __func__); 2103 1.228 jruoho rv = AE_BAD_DATA; 2104 1.228 jruoho goto out3; 2105 1.228 jruoho } 2106 1.228 jruoho 2107 1.228 jruoho resn->Type = ACPI_RESOURCE_TYPE_END_TAG; 2108 1.228 jruoho rv = AcpiSetCurrentResources(handle, &bufn); 2109 1.228 jruoho 2110 1.228 jruoho if (ACPI_FAILURE(rv)) 2111 1.228 jruoho aprint_error_dev(acpi_softc->sc_dev, "%s: failed to set " 2112 1.228 jruoho "resources: %s\n", __func__, AcpiFormatException(rv)); 2113 1.228 jruoho 2114 1.228 jruoho out3: 2115 1.228 jruoho free(bufn.Pointer, M_ACPI); 2116 1.228 jruoho out2: 2117 1.228 jruoho ACPI_FREE(bufc.Pointer); 2118 1.228 jruoho out1: 2119 1.228 jruoho ACPI_FREE(bufp.Pointer); 2120 1.228 jruoho out: 2121 1.228 jruoho return rv; 2122 1.228 jruoho } 2123 1.228 jruoho 2124 1.228 jruoho #endif /* ACPI_ACTIVATE_DEV */ 2125
Indexes created Sun Sep 21 19:09:51 GMT 2025