dev/acpi/acpi.c

1.291   thorpej /*	$NetBSD: acpi.c,v 1.291 2021/04/24 23:36:52 thorpej Exp $	*/
 1.50   mycroft
 1.50   mycroft /*-
1.101        ad  * Copyright (c) 2003, 2007 The NetBSD Foundation, Inc.
 1.50   mycroft  * All rights reserved.
 1.50   mycroft  *
 1.50   mycroft  * This code is derived from software contributed to The NetBSD Foundation
 1.50   mycroft  * by Charles M. Hannum of By Noon Software, Inc.
 1.50   mycroft  *
 1.50   mycroft  * Redistribution and use in source and binary forms, with or without
 1.50   mycroft  * modification, are permitted provided that the following conditions
 1.50   mycroft  * are met:
 1.50   mycroft  * 1. Redistributions of source code must retain the above copyright
 1.50   mycroft  *    notice, this list of conditions and the following disclaimer.
 1.50   mycroft  * 2. Redistributions in binary form must reproduce the above copyright
 1.50   mycroft  *    notice, this list of conditions and the following disclaimer in the
 1.50   mycroft  *    documentation and/or other materials provided with the distribution.
 1.50   mycroft  *
 1.50   mycroft  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.50   mycroft  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.50   mycroft  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.50   mycroft  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.50   mycroft  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.50   mycroft  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.50   mycroft  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.50   mycroft  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.50   mycroft  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.50   mycroft  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.50   mycroft  * POSSIBILITY OF SUCH DAMAGE.
 1.50   mycroft  */
  1.1   thorpej
  1.1   thorpej /*
1.212    jruoho  * Copyright (c) 2003 Wasabi Systems, Inc.
1.212    jruoho  * All rights reserved.
1.212    jruoho  *
1.212    jruoho  * Written by Frank van der Linden for Wasabi Systems, Inc.
1.212    jruoho  *
1.212    jruoho  * Redistribution and use in source and binary forms, with or without
1.212    jruoho  * modification, are permitted provided that the following conditions
1.212    jruoho  * are met:
1.212    jruoho  * 1. Redistributions of source code must retain the above copyright
1.212    jruoho  *    notice, this list of conditions and the following disclaimer.
1.212    jruoho  * 2. Redistributions in binary form must reproduce the above copyright
1.212    jruoho  *    notice, this list of conditions and the following disclaimer in the
1.212    jruoho  *    documentation and/or other materials provided with the distribution.
1.212    jruoho  * 3. All advertising materials mentioning features or use of this software
1.212    jruoho  *    must display the following acknowledgement:
1.212    jruoho  *      This product includes software developed for the NetBSD Project by
1.212    jruoho  *      Wasabi Systems, Inc.
1.212    jruoho  * 4. The name of Wasabi Systems, Inc. may not be used to endorse
1.212    jruoho  *    or promote products derived from this software without specific prior
1.212    jruoho  *    written permission.
1.212    jruoho  *
1.212    jruoho  * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
1.212    jruoho  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.212    jruoho  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.212    jruoho  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
1.212    jruoho  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.212    jruoho  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.212    jruoho  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.212    jruoho  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.212    jruoho  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.212    jruoho  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.212    jruoho  * POSSIBILITY OF SUCH DAMAGE.
1.212    jruoho  */
1.212    jruoho
1.212    jruoho /*
 1.34   thorpej  * Copyright 2001, 2003 Wasabi Systems, Inc.
  1.1   thorpej  * All rights reserved.
  1.1   thorpej  *
  1.1   thorpej  * Written by Jason R. Thorpe for Wasabi Systems, Inc.
  1.1   thorpej  *
  1.1   thorpej  * Redistribution and use in source and binary forms, with or without
  1.1   thorpej  * modification, are permitted provided that the following conditions
  1.1   thorpej  * are met:
  1.1   thorpej  * 1. Redistributions of source code must retain the above copyright
  1.1   thorpej  *    notice, this list of conditions and the following disclaimer.
  1.1   thorpej  * 2. Redistributions in binary form must reproduce the above copyright
  1.1   thorpej  *    notice, this list of conditions and the following disclaimer in the
  1.1   thorpej  *    documentation and/or other materials provided with the distribution.
  1.1   thorpej  * 3. All advertising materials mentioning features or use of this software
  1.1   thorpej  *    must display the following acknowledgement:
  1.1   thorpej  *	This product includes software developed for the NetBSD Project by
  1.1   thorpej  *	Wasabi Systems, Inc.
  1.1   thorpej  * 4. The name of Wasabi Systems, Inc. may not be used to endorse
  1.1   thorpej  *    or promote products derived from this software without specific prior
  1.1   thorpej  *    written permission.
  1.1   thorpej  *
  1.1   thorpej  * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
  1.1   thorpej  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
  1.1   thorpej  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  1.1   thorpej  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
  1.1   thorpej  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  1.1   thorpej  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  1.1   thorpej  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  1.1   thorpej  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  1.1   thorpej  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  1.1   thorpej  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
  1.1   thorpej  * POSSIBILITY OF SUCH DAMAGE.
  1.1   thorpej  */
  1.1   thorpej
  1.5     lukem #include <sys/cdefs.h>
1.291   thorpej __KERNEL_RCSID(0, "$NetBSD: acpi.c,v 1.291 2021/04/24 23:36:52 thorpej Exp $");
 1.27  christos
1.267      maya #include "pci.h"
 1.27  christos #include "opt_acpi.h"
 1.73    sekiya #include "opt_pcifixup.h"
  1.1   thorpej
  1.1   thorpej #include <sys/param.h>
  1.1   thorpej #include <sys/device.h>
1.155    jruoho #include <sys/kernel.h>
1.239    jruoho #include <sys/kmem.h>
  1.1   thorpej #include <sys/malloc.h>
1.197  pgoyette #include <sys/module.h>
1.100   xtraeme #include <sys/mutex.h>
 1.78      cube #include <sys/sysctl.h>
1.155    jruoho #include <sys/systm.h>
1.206    jruoho #include <sys/timetc.h>
  1.1   thorpej
  1.1   thorpej #include <dev/acpi/acpireg.h>
  1.1   thorpej #include <dev/acpi/acpivar.h>
1.261   msaitoh #include <dev/acpi/acpi_mcfg.h>
  1.1   thorpej #include <dev/acpi/acpi_osd.h>
1.155    jruoho #include <dev/acpi/acpi_pci.h>
1.181    jruoho #include <dev/acpi/acpi_power.h>
 1.90  drochner #include <dev/acpi/acpi_timer.h>
1.127  jmcneill #include <dev/acpi/acpi_wakedev.h>
1.155    jruoho
1.239    jruoho #include <machine/acpi_machdep.h>
1.239    jruoho
1.264  riastrad #include "ioconf.h"
1.264  riastrad
1.169    jruoho #define _COMPONENT	ACPI_BUS_COMPONENT
1.169    jruoho ACPI_MODULE_NAME	("acpi")
1.132   mlelstv
  1.1   thorpej /*
1.231    jruoho  * The acpi_active variable is set when the ACPI subsystem is active.
1.231    jruoho  * Machine-dependent code may wish to skip other steps (such as attaching
  1.1   thorpej  * subsystems that ACPI supercedes) when ACPI is active.
  1.1   thorpej  */
1.231    jruoho int		acpi_active = 0;
1.231    jruoho int		acpi_suspended = 0;
1.231    jruoho int		acpi_force_load = 0;
1.231    jruoho int		acpi_verbose_loaded = 0;
  1.1   thorpej
1.238    jruoho struct acpi_softc	*acpi_softc = NULL;
1.211    jruoho static uint64_t		 acpi_root_pointer;
1.211    jruoho extern kmutex_t		 acpi_interrupt_list_mtx;
1.211    jruoho static ACPI_HANDLE	 acpi_scopes[4];
1.213    jruoho ACPI_TABLE_HEADER	*madt_header;
1.273  jmcneill ACPI_TABLE_HEADER	*gtdt_header;
 1.32  tshiozak
 1.79      cube /*
1.176    jruoho  * This structure provides a context for the ACPI
1.176    jruoho  * namespace walk performed in acpi_build_tree().
1.176    jruoho  */
1.176    jruoho struct acpi_walkcontext {
1.176    jruoho 	struct acpi_softc	*aw_sc;
1.176    jruoho 	struct acpi_devnode	*aw_parent;
1.176    jruoho };
1.176    jruoho
1.176    jruoho /*
1.147    jruoho  * Ignored HIDs.
1.116  jmcneill  */
1.116  jmcneill static const char * const acpi_ignored_ids[] = {
1.116  jmcneill #if defined(i386) || defined(x86_64)
1.240    jruoho 	"ACPI0007",	/* ACPI CPUs do not attach to acpi(4) */
1.116  jmcneill 	"PNP0000",	/* AT interrupt controller is handled internally */
1.286  jmcneill 	"PNP0001",	/* EISA interrupt controller is handled internally */
1.116  jmcneill 	"PNP0200",	/* AT DMA controller is handled internally */
1.137    cegger 	"PNP0A??",	/* PCI Busses are handled internally */
1.116  jmcneill 	"PNP0B00",	/* AT RTC is handled internally */
1.286  jmcneill 	"PNP0C02",	/* PnP motherboard resources */
1.116  jmcneill 	"PNP0C0F",	/* ACPI PCI link devices are handled internally */
1.116  jmcneill #endif
1.116  jmcneill #if defined(x86_64)
1.116  jmcneill 	"PNP0C04",	/* FPU is handled internally */
1.116  jmcneill #endif
1.274  jmcneill #if defined(__aarch64__)
1.281  jmcneill 	"ACPI0004",	/* ACPI module devices are handled internally */
1.278  jmcneill 	"PNP0C0F",	/* ACPI PCI link devices are handled internally */
1.274  jmcneill #endif
1.116  jmcneill 	NULL
1.116  jmcneill };
1.116  jmcneill
1.226    jruoho /*
1.226    jruoho  * Devices that should be attached early.
1.226    jruoho  */
1.226    jruoho static const char * const acpi_early_ids[] = {
1.226    jruoho 	"PNP0C09",	/* acpiec(4) */
1.226    jruoho 	NULL
1.226    jruoho };
1.226    jruoho
1.169    jruoho static int		acpi_match(device_t, cfdata_t, void *);
1.169    jruoho static int		acpi_submatch(device_t, cfdata_t, const int *, void *);
1.169    jruoho static void		acpi_attach(device_t, device_t, void *);
1.169    jruoho static int		acpi_detach(device_t, int);
1.169    jruoho static void		acpi_childdet(device_t, device_t);
1.169    jruoho static bool		acpi_suspend(device_t, const pmf_qual_t *);
1.169    jruoho static bool		acpi_resume(device_t, const pmf_qual_t *);
1.169    jruoho
 1.64     kochi static void		acpi_build_tree(struct acpi_softc *);
1.255       chs static void		acpi_config_tree(struct acpi_softc *);
1.282  jmcneill static void		acpi_config_dma(struct acpi_softc *);
1.151    jruoho static ACPI_STATUS	acpi_make_devnode(ACPI_HANDLE, uint32_t,
1.151    jruoho 					  void *, void **);
1.176    jruoho static ACPI_STATUS	acpi_make_devnode_post(ACPI_HANDLE, uint32_t,
1.176    jruoho 					       void *, void **);
1.229    jruoho static void		acpi_make_name(struct acpi_devnode *, uint32_t);
  1.1   thorpej
1.169    jruoho static int		acpi_rescan(device_t, const char *, const int *);
1.226    jruoho static void		acpi_rescan_early(struct acpi_softc *);
1.169    jruoho static void		acpi_rescan_nodes(struct acpi_softc *);
1.224    jruoho static void		acpi_rescan_capabilities(device_t);
1.169    jruoho static int		acpi_print(void *aux, const char *);
1.169    jruoho
1.175    jruoho static void		acpi_notify_handler(ACPI_HANDLE, uint32_t, void *);
1.175    jruoho
1.168    jruoho static void		acpi_register_fixed_button(struct acpi_softc *, int);
1.168    jruoho static void		acpi_deregister_fixed_button(struct acpi_softc *, int);
1.168    jruoho static uint32_t		acpi_fixed_button_handler(void *);
1.168    jruoho static void		acpi_fixed_button_pressed(void *);
1.168    jruoho
1.166    jruoho static void		acpi_sleep_init(struct acpi_softc *);
  1.1   thorpej
1.209    jruoho static int		sysctl_hw_acpi_fixedstats(SYSCTLFN_PROTO);
1.209    jruoho static int		sysctl_hw_acpi_sleepstate(SYSCTLFN_PROTO);
1.209    jruoho static int		sysctl_hw_acpi_sleepstates(SYSCTLFN_PROTO);
1.169    jruoho
1.185    jruoho static bool		  acpi_is_scope(struct acpi_devnode *);
1.108  jmcneill static ACPI_TABLE_HEADER *acpi_map_rsdt(void);
1.185    jruoho static void		  acpi_unmap_rsdt(ACPI_TABLE_HEADER *);
1.108  jmcneill
1.211    jruoho void			acpi_print_verbose_stub(struct acpi_softc *);
1.211    jruoho void			acpi_print_dev_stub(const char *);
1.123  jmcneill
1.228    jruoho static void		acpi_activate_device(ACPI_HANDLE, ACPI_DEVICE_INFO **);
1.228    jruoho ACPI_STATUS		acpi_allocate_resources(ACPI_HANDLE);
1.228    jruoho
1.211    jruoho void (*acpi_print_verbose)(struct acpi_softc *) = acpi_print_verbose_stub;
1.200  pgoyette void (*acpi_print_dev)(const char *) = acpi_print_dev_stub;
1.197  pgoyette
1.279  jmcneill bus_dma_tag_t		acpi_default_dma_tag(struct acpi_softc *, struct acpi_devnode *);
1.279  jmcneill bus_dma_tag_t		acpi_default_dma64_tag(struct acpi_softc *, struct acpi_devnode *);
1.283  jmcneill pci_chipset_tag_t	acpi_default_pci_chipset_tag(struct acpi_softc *, int, int);
1.279  jmcneill
1.169    jruoho CFATTACH_DECL2_NEW(acpi, sizeof(struct acpi_softc),
1.169    jruoho     acpi_match, acpi_attach, acpi_detach, NULL, acpi_rescan, acpi_childdet);
1.159    jruoho
  1.1   thorpej /*
1.169    jruoho  * Probe for ACPI support.
  1.1   thorpej  *
1.169    jruoho  * This is called by the machine-dependent ACPI front-end.
1.169    jruoho  * Note: this is not an autoconfiguration interface function.
  1.1   thorpej  */
  1.1   thorpej int
  1.1   thorpej acpi_probe(void)
  1.1   thorpej {
1.108  jmcneill 	ACPI_TABLE_HEADER *rsdt;
  1.1   thorpej 	ACPI_STATUS rv;
1.238    jruoho 	int quirks;
1.169    jruoho
1.238    jruoho 	if (acpi_softc != NULL)
1.169    jruoho 		panic("%s: already probed", __func__);
  1.1   thorpej
1.103        ad 	mutex_init(&acpi_interrupt_list_mtx, MUTEX_DEFAULT, IPL_NONE);
 1.32  tshiozak
  1.1   thorpej 	/*
  1.1   thorpej 	 * Start up ACPICA.
  1.1   thorpej 	 */
1.172    jruoho 	AcpiGbl_EnableInterpreterSlack = true;
1.104  jmcneill
  1.1   thorpej 	rv = AcpiInitializeSubsystem();
1.172    jruoho
1.238    jruoho 	if (ACPI_FAILURE(rv)) {
1.238    jruoho 		aprint_error("%s: failed to initialize subsystem\n", __func__);
1.238    jruoho 		return 0;
  1.1   thorpej 	}
  1.1   thorpej
1.178    jruoho 	/*
1.178    jruoho 	 * Allocate space for RSDT/XSDT and DSDT,
1.178    jruoho 	 * but allow resizing if more tables exist.
1.178    jruoho 	 */
1.178    jruoho 	rv = AcpiInitializeTables(NULL, 2, true);
1.172    jruoho
1.104  jmcneill 	if (ACPI_FAILURE(rv)) {
1.238    jruoho 		aprint_error("%s: failed to initialize tables\n", __func__);
1.172    jruoho 		goto fail;
1.104  jmcneill 	}
1.104  jmcneill
  1.1   thorpej 	rv = AcpiLoadTables();
1.172    jruoho
 1.56   mycroft 	if (ACPI_FAILURE(rv)) {
1.238    jruoho 		aprint_error("%s: failed to load tables\n", __func__);
1.172    jruoho 		goto fail;
  1.1   thorpej 	}
  1.1   thorpej
1.108  jmcneill 	rsdt = acpi_map_rsdt();
1.172    jruoho
1.108  jmcneill 	if (rsdt == NULL) {
1.238    jruoho 		aprint_error("%s: failed to map RSDT\n", __func__);
1.172    jruoho 		goto fail;
1.108  jmcneill 	}
1.107  jmcneill
1.238    jruoho 	quirks = acpi_find_quirks();
1.238    jruoho
1.238    jruoho 	if (acpi_force_load == 0 && (quirks & ACPI_QUIRK_BROKEN) != 0) {
1.238    jruoho
1.172    jruoho 		aprint_normal("ACPI: BIOS is listed as broken:\n");
1.172    jruoho 		aprint_normal("ACPI: X/RSDT: OemId <%6.6s,%8.8s,%08x>, "
1.238    jruoho 		       "AslId <%4.4s,%08x>\n", rsdt->OemId, rsdt->OemTableId,
1.238    jruoho 		        rsdt->OemRevision, rsdt->AslCompilerId,
1.108  jmcneill 		        rsdt->AslCompilerRevision);
1.172    jruoho 		aprint_normal("ACPI: Not used. Set acpi_force_load to use.\n");
1.238    jruoho
1.108  jmcneill 		acpi_unmap_rsdt(rsdt);
1.238    jruoho 		goto fail;
 1.93  christos 	}
1.238    jruoho
1.238    jruoho 	if (acpi_force_load == 0 && (quirks & ACPI_QUIRK_OLDBIOS) != 0) {
1.238    jruoho
1.238    jruoho 		aprint_normal("ACPI: BIOS is too old (%s). "
1.238    jruoho 		    "Set acpi_force_load to use.\n",
1.252  jmcneill 		    pmf_get_platform("bios-date"));
1.238    jruoho
1.219  jmcneill 		acpi_unmap_rsdt(rsdt);
1.238    jruoho 		goto fail;
1.219  jmcneill 	}
 1.93  christos
1.108  jmcneill 	acpi_unmap_rsdt(rsdt);
1.108  jmcneill
1.104  jmcneill 	rv = AcpiEnableSubsystem(~(ACPI_NO_HARDWARE_INIT|ACPI_NO_ACPI_ENABLE));
1.172    jruoho
1.104  jmcneill 	if (ACPI_FAILURE(rv)) {
1.238    jruoho 		aprint_error("%s: failed to enable subsystem\n", __func__);
1.172    jruoho 		goto fail;
1.104  jmcneill 	}
1.104  jmcneill
 1.63     kochi 	return 1;
1.172    jruoho
1.172    jruoho fail:
1.238    jruoho 	(void)AcpiTerminate();
1.172    jruoho
1.172    jruoho 	return 0;
  1.1   thorpej }
  1.1   thorpej
1.214    jruoho void
1.214    jruoho acpi_disable(void)
1.214    jruoho {
1.214    jruoho
1.222    jruoho 	if (acpi_softc == NULL)
1.222    jruoho 		return;
1.222    jruoho
1.222    jruoho 	KASSERT(acpi_active != 0);
1.222    jruoho
1.214    jruoho 	if (AcpiGbl_FADT.SmiCommand != 0)
1.214    jruoho 		AcpiDisable();
1.214    jruoho }
1.214    jruoho
 1.98      cube int
 1.98      cube acpi_check(device_t parent, const char *ifattr)
 1.98      cube {
1.291   thorpej 	return config_search(parent, NULL,
1.291   thorpej 			     CFARG_SUBMATCH, acpi_submatch,
1.291   thorpej 			     CFARG_IATTR, ifattr,
1.291   thorpej 			     CFARG_EOL) != NULL;
 1.98      cube }
 1.98      cube
1.248  jmcneill int
1.248  jmcneill acpi_reset(void)
1.248  jmcneill {
1.248  jmcneill 	struct acpi_softc *sc = acpi_softc;
1.248  jmcneill 	ACPI_GENERIC_ADDRESS *ResetReg;
1.248  jmcneill 	ACPI_PCI_ID PciId;
1.248  jmcneill 	ACPI_STATUS status;
1.248  jmcneill
1.248  jmcneill 	if (sc == NULL)
1.248  jmcneill 		return ENXIO;
1.248  jmcneill
1.248  jmcneill 	ResetReg = &AcpiGbl_FADT.ResetRegister;
1.248  jmcneill
1.248  jmcneill 	/* Check if the reset register is supported */
1.248  jmcneill 	if (!(AcpiGbl_FADT.Flags & ACPI_FADT_RESET_REGISTER) ||
1.248  jmcneill 	    !ResetReg->Address) {
1.248  jmcneill 		return ENOENT;
1.248  jmcneill 	}
1.248  jmcneill
1.248  jmcneill 	switch (ResetReg->SpaceId) {
1.248  jmcneill 	case ACPI_ADR_SPACE_PCI_CONFIG:
1.248  jmcneill 		PciId.Segment = PciId.Bus = 0;
1.248  jmcneill 		PciId.Device = ACPI_GAS_PCI_DEV(ResetReg->Address);
1.248  jmcneill 		PciId.Function = ACPI_GAS_PCI_FUNC(ResetReg->Address);
1.248  jmcneill 		status = AcpiOsWritePciConfiguration(&PciId,
1.248  jmcneill 		    ACPI_GAS_PCI_REGOFF(ResetReg->Address),
1.248  jmcneill 		    AcpiGbl_FADT.ResetValue, ResetReg->BitWidth);
1.248  jmcneill 		break;
1.248  jmcneill 	case ACPI_ADR_SPACE_SYSTEM_IO:
1.248  jmcneill 	case ACPI_ADR_SPACE_SYSTEM_MEMORY:
1.248  jmcneill 		status = AcpiReset();
1.248  jmcneill 		break;
1.248  jmcneill 	default:
1.248  jmcneill 		status = AE_TYPE;
1.248  jmcneill 		break;
1.248  jmcneill 	}
1.248  jmcneill
1.248  jmcneill 	return ACPI_FAILURE(status) ? EIO : 0;
1.248  jmcneill }
1.248  jmcneill
1.174    jruoho /*
1.174    jruoho  * Autoconfiguration.
1.174    jruoho  */
 1.64     kochi static int
1.126    cegger acpi_match(device_t parent, cfdata_t match, void *aux)
  1.1   thorpej {
  1.1   thorpej 	/*
1.169    jruoho 	 * XXX: Nada; MD code has called acpi_probe().
  1.1   thorpej 	 */
 1.63     kochi 	return 1;
  1.1   thorpej }
  1.1   thorpej
1.169    jruoho static int
1.169    jruoho acpi_submatch(device_t parent, cfdata_t cf, const int *locs, void *aux)
1.111    dyoung {
1.169    jruoho 	struct cfattach *ca;
1.111    dyoung
1.169    jruoho 	ca = config_cfattach_lookup(cf->cf_name, cf->cf_atname);
1.124    dyoung
1.169    jruoho 	return (ca == &acpi_ca);
1.111    dyoung }
1.111    dyoung
 1.64     kochi static void
1.111    dyoung acpi_attach(device_t parent, device_t self, void *aux)
  1.1   thorpej {
1.111    dyoung 	struct acpi_softc *sc = device_private(self);
  1.1   thorpej 	struct acpibus_attach_args *aa = aux;
1.288  jmcneill 	ACPI_TABLE_HEADER *rsdt, *hdr;
  1.1   thorpej 	ACPI_STATUS rv;
1.288  jmcneill 	int i;
  1.1   thorpej
1.116  jmcneill 	aprint_naive("\n");
1.116  jmcneill 	aprint_normal(": Intel ACPICA %08x\n", ACPI_CA_VERSION);
  1.1   thorpej
  1.1   thorpej 	if (acpi_softc != NULL)
1.172    jruoho 		panic("%s: already attached", __func__);
 1.29      fvdl
1.172    jruoho 	rsdt = acpi_map_rsdt();
 1.37     kochi
1.172    jruoho 	if (rsdt == NULL)
1.172    jruoho 		aprint_error_dev(self, "X/RSDT: Not found\n");
1.172    jruoho 	else {
1.172    jruoho 		aprint_verbose_dev(self,
1.111    dyoung 		    "X/RSDT: OemId <%6.6s,%8.8s,%08x>, AslId <%4.4s,%08x>\n",
1.108  jmcneill 		    rsdt->OemId, rsdt->OemTableId,
1.108  jmcneill 		    rsdt->OemRevision,
1.108  jmcneill 		    rsdt->AslCompilerId, rsdt->AslCompilerRevision);
1.172    jruoho 	}
1.157    jruoho
1.108  jmcneill 	acpi_unmap_rsdt(rsdt);
  1.1   thorpej
1.113  jmcneill 	sc->sc_dev = self;
1.176    jruoho 	sc->sc_root = NULL;
1.176    jruoho
1.176    jruoho 	sc->sc_sleepstate = ACPI_STATE_S0;
 1.36      fvdl 	sc->sc_quirks = acpi_find_quirks();
 1.36      fvdl
1.172    jruoho 	sysmon_power_settype("acpi");
1.172    jruoho
  1.1   thorpej 	sc->sc_iot = aa->aa_iot;
  1.1   thorpej 	sc->sc_memt = aa->aa_memt;
  1.1   thorpej 	sc->sc_pciflags = aa->aa_pciflags;
 1.19  jmcneill 	sc->sc_ic = aa->aa_ic;
1.262    nonaka 	sc->sc_dmat = aa->aa_dmat;
1.262    nonaka 	sc->sc_dmat64 = aa->aa_dmat64;
  1.1   thorpej
1.176    jruoho 	SIMPLEQ_INIT(&sc->ad_head);
1.157    jruoho
  1.1   thorpej 	acpi_softc = sc;
  1.1   thorpej
1.172    jruoho 	if (pmf_device_register(self, acpi_suspend, acpi_resume) != true)
1.104  jmcneill 		aprint_error_dev(self, "couldn't establish power handler\n");
1.104  jmcneill
1.104  jmcneill 	/*
1.238    jruoho 	 * Bring ACPICA on-line.
  1.1   thorpej 	 */
1.104  jmcneill
1.255       chs 	rv = AcpiEnableSubsystem(ACPI_FULL_INITIALIZATION);
1.172    jruoho
1.172    jruoho 	if (ACPI_FAILURE(rv))
1.172    jruoho 		goto fail;
 1.60     kochi
1.174    jruoho 	/*
1.243    jruoho 	 * Early initialization of acpiec(4) via ECDT.
1.243    jruoho 	 */
1.291   thorpej 	config_found(self, aa, NULL,
1.291   thorpej 	    CFARG_IATTR, "acpiecdtbus",
1.291   thorpej 	    CFARG_EOL);
 1.60     kochi
1.104  jmcneill 	rv = AcpiInitializeObjects(ACPI_FULL_INITIALIZATION);
1.172    jruoho
1.172    jruoho 	if (ACPI_FAILURE(rv))
1.172    jruoho 		goto fail;
1.172    jruoho
1.175    jruoho 	/*
1.255       chs 	 * Scan the namespace and build our device tree.
1.255       chs 	 */
1.255       chs 	acpi_build_tree(sc);
1.255       chs
1.268     scole #if NPCI > 0
1.261   msaitoh 	/*
1.261   msaitoh 	 * Probe MCFG table
1.261   msaitoh 	 */
1.261   msaitoh 	acpimcfg_probe(sc);
1.266      maya #endif
1.261   msaitoh
1.255       chs 	acpi_md_callback(sc);
1.255       chs
1.255       chs 	/*
1.244    jruoho 	 * Early initialization of the _PDC control method
1.244    jruoho 	 * that may load additional SSDT tables dynamically.
1.244    jruoho 	 */
1.244    jruoho 	(void)acpi_md_pdc();
1.244    jruoho
1.244    jruoho 	/*
1.175    jruoho 	 * Install global notify handlers.
1.175    jruoho 	 */
1.175    jruoho 	rv = AcpiInstallNotifyHandler(ACPI_ROOT_OBJECT,
1.175    jruoho 	    ACPI_SYSTEM_NOTIFY, acpi_notify_handler, NULL);
1.175    jruoho
1.175    jruoho 	if (ACPI_FAILURE(rv))
1.175    jruoho 		goto fail;
1.175    jruoho
1.175    jruoho 	rv = AcpiInstallNotifyHandler(ACPI_ROOT_OBJECT,
1.175    jruoho 	    ACPI_DEVICE_NOTIFY, acpi_notify_handler, NULL);
1.175    jruoho
1.175    jruoho 	if (ACPI_FAILURE(rv))
1.175    jruoho 		goto fail;
1.175    jruoho
  1.1   thorpej 	acpi_active = 1;
  1.1   thorpej
1.277  jmcneill 	if (!AcpiGbl_ReducedHardware) {
1.277  jmcneill 		/* Show SCI interrupt. */
1.275  jmcneill 		aprint_verbose_dev(self, "SCI interrupting at int %u\n",
1.275  jmcneill 		    AcpiGbl_FADT.SciInterrupt);
1.104  jmcneill
1.277  jmcneill 		/*
1.277  jmcneill 		 * Install fixed-event handlers.
1.277  jmcneill 		 */
1.277  jmcneill 		acpi_register_fixed_button(sc, ACPI_EVENT_POWER_BUTTON);
1.277  jmcneill 		acpi_register_fixed_button(sc, ACPI_EVENT_SLEEP_BUTTON);
1.277  jmcneill 	}
1.168    jruoho
1.288  jmcneill 	/*
1.288  jmcneill 	 * Load drivers that operate on System Description Tables.
1.288  jmcneill 	 */
1.288  jmcneill 	for (i = 0; i < AcpiGbl_RootTableList.CurrentTableCount; ++i) {
1.288  jmcneill 		rv = AcpiGetTableByIndex(i, &hdr);
1.288  jmcneill 		if (ACPI_FAILURE(rv)) {
1.288  jmcneill 			continue;
1.288  jmcneill 		}
1.291   thorpej 		config_found(sc->sc_dev, hdr, NULL,
1.291   thorpej 		    CFARG_IATTR, "acpisdtbus",
1.291   thorpej 		    CFARG_EOL);
1.288  jmcneill 		AcpiPutTable(hdr);
1.288  jmcneill 	}
1.288  jmcneill
1.206    jruoho 	acpitimer_init(sc);
1.255       chs 	acpi_config_tree(sc);
1.166    jruoho 	acpi_sleep_init(sc);
 1.78      cube
1.148    jruoho #ifdef ACPI_DEBUG
1.148    jruoho 	acpi_debug_init();
1.148    jruoho #endif
1.172    jruoho
1.211    jruoho 	/*
1.211    jruoho 	 * Print debug information.
1.211    jruoho 	 */
1.211    jruoho 	acpi_print_verbose(sc);
1.211    jruoho
1.172    jruoho 	return;
1.172    jruoho
1.172    jruoho fail:
1.172    jruoho 	aprint_error("%s: failed to initialize ACPI: %s\n",
1.172    jruoho 	    __func__, AcpiFormatException(rv));
  1.1   thorpej }
  1.1   thorpej
1.171    jruoho /*
1.171    jruoho  * XXX: This is incomplete.
1.171    jruoho  */
1.124    dyoung static int
1.124    dyoung acpi_detach(device_t self, int flags)
1.124    dyoung {
1.168    jruoho 	struct acpi_softc *sc = device_private(self);
1.175    jruoho 	ACPI_STATUS rv;
1.124    dyoung 	int rc;
1.124    dyoung
1.175    jruoho 	rv = AcpiRemoveNotifyHandler(ACPI_ROOT_OBJECT,
1.175    jruoho 	    ACPI_SYSTEM_NOTIFY, acpi_notify_handler);
1.175    jruoho
1.175    jruoho 	if (ACPI_FAILURE(rv))
1.175    jruoho 		return EBUSY;
1.175    jruoho
1.175    jruoho 	rv = AcpiRemoveNotifyHandler(ACPI_ROOT_OBJECT,
1.175    jruoho 	    ACPI_DEVICE_NOTIFY, acpi_notify_handler);
1.175    jruoho
1.175    jruoho 	if (ACPI_FAILURE(rv))
1.175    jruoho 		return EBUSY;
1.175    jruoho
1.124    dyoung 	if ((rc = config_detach_children(self, flags)) != 0)
1.124    dyoung 		return rc;
1.124    dyoung
1.124    dyoung 	if ((rc = acpitimer_detach()) != 0)
1.124    dyoung 		return rc;
1.124    dyoung
1.277  jmcneill 	if (!AcpiGbl_ReducedHardware) {
1.277  jmcneill 		acpi_deregister_fixed_button(sc, ACPI_EVENT_POWER_BUTTON);
1.277  jmcneill 		acpi_deregister_fixed_button(sc, ACPI_EVENT_SLEEP_BUTTON);
1.277  jmcneill 	}
1.124    dyoung
1.124    dyoung 	pmf_device_deregister(self);
1.124    dyoung
1.124    dyoung 	acpi_softc = NULL;
1.124    dyoung
1.124    dyoung 	return 0;
1.124    dyoung }
1.124    dyoung
1.169    jruoho static void
1.169    jruoho acpi_childdet(device_t self, device_t child)
1.169    jruoho {
1.169    jruoho 	struct acpi_softc *sc = device_private(self);
1.169    jruoho 	struct acpi_devnode *ad;
1.169    jruoho
1.169    jruoho 	if (sc->sc_apmbus == child)
1.169    jruoho 		sc->sc_apmbus = NULL;
1.239    jruoho
1.245    jruoho 	if (sc->sc_hpet == child)
1.245    jruoho 		sc->sc_hpet = NULL;
1.245    jruoho
1.239    jruoho 	if (sc->sc_wdrt == child)
1.234  jmcneill 		sc->sc_wdrt = NULL;
1.169    jruoho
1.176    jruoho 	SIMPLEQ_FOREACH(ad, &sc->ad_head, ad_list) {
1.169    jruoho
1.169    jruoho 		if (ad->ad_device == child)
1.169    jruoho 			ad->ad_device = NULL;
1.169    jruoho 	}
1.169    jruoho }
1.169    jruoho
1.123  jmcneill static bool
1.149    dyoung acpi_suspend(device_t dv, const pmf_qual_t *qual)
1.123  jmcneill {
1.169    jruoho
1.123  jmcneill 	acpi_suspended = 1;
1.169    jruoho
1.123  jmcneill 	return true;
1.123  jmcneill }
1.123  jmcneill
1.123  jmcneill static bool
1.149    dyoung acpi_resume(device_t dv, const pmf_qual_t *qual)
1.123  jmcneill {
1.169    jruoho
1.123  jmcneill 	acpi_suspended = 0;
1.169    jruoho
1.123  jmcneill 	return true;
1.123  jmcneill }
1.123  jmcneill
  1.1   thorpej /*
1.169    jruoho  * Namespace scan.
  1.1   thorpej  */
 1.64     kochi static void
  1.1   thorpej acpi_build_tree(struct acpi_softc *sc)
  1.1   thorpej {
1.176    jruoho 	struct acpi_walkcontext awc;
1.157    jruoho
1.185    jruoho 	/*
1.185    jruoho 	 * Get the root scope handles.
1.185    jruoho 	 */
1.185    jruoho 	KASSERT(__arraycount(acpi_scopes) == 4);
1.185    jruoho
1.185    jruoho 	(void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_PR_", &acpi_scopes[0]);
1.187    jruoho 	(void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_SB_", &acpi_scopes[1]);
1.187    jruoho 	(void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_SI_", &acpi_scopes[2]);
1.185    jruoho 	(void)AcpiGetHandle(ACPI_ROOT_OBJECT, "\\_TZ_", &acpi_scopes[3]);
1.185    jruoho
1.185    jruoho 	/*
1.185    jruoho 	 * Make the root node.
1.185    jruoho 	 */
1.176    jruoho 	awc.aw_sc = sc;
1.176    jruoho 	awc.aw_parent = NULL;
1.176    jruoho
1.176    jruoho 	(void)acpi_make_devnode(ACPI_ROOT_OBJECT, 0, &awc, NULL);
1.176    jruoho
1.176    jruoho 	KASSERT(sc->sc_root == NULL);
1.176    jruoho 	KASSERT(awc.aw_parent != NULL);
1.176    jruoho
1.176    jruoho 	sc->sc_root = awc.aw_parent;
1.176    jruoho
1.185    jruoho 	/*
1.185    jruoho 	 * Build the internal namespace.
1.185    jruoho 	 */
1.176    jruoho 	(void)AcpiWalkNamespace(ACPI_TYPE_ANY, ACPI_ROOT_OBJECT, UINT32_MAX,
1.176    jruoho 	    acpi_make_devnode, acpi_make_devnode_post, &awc, NULL);
1.176    jruoho
1.185    jruoho 	/*
1.185    jruoho 	 * Scan the internal namespace.
1.185    jruoho 	 */
1.221    gsutre 	(void)acpi_pcidev_scan(sc->sc_root);
1.255       chs }
1.255       chs
1.255       chs static void
1.255       chs acpi_config_tree(struct acpi_softc *sc)
1.255       chs {
1.282  jmcneill 	/*
1.282  jmcneill 	 * Assign bus_dma resources
1.282  jmcneill 	 */
1.282  jmcneill 	acpi_config_dma(sc);
1.255       chs
1.255       chs 	/*
1.255       chs 	 * Configure all everything found "at acpi?".
1.255       chs 	 */
1.204    jruoho 	(void)acpi_rescan(sc->sc_dev, NULL, NULL);
1.204    jruoho
1.224    jruoho 	/*
1.236    jruoho 	 * Update GPE information.
1.236    jruoho 	 *
1.236    jruoho 	 * Note that this must be called after
1.236    jruoho 	 * all GPE handlers have been installed.
1.236    jruoho 	 */
1.236    jruoho 	(void)AcpiUpdateAllGpes();
1.236    jruoho
1.236    jruoho 	/*
1.224    jruoho 	 * Defer rest of the configuration.
1.224    jruoho 	 */
1.224    jruoho 	(void)config_defer(sc->sc_dev, acpi_rescan_capabilities);
1.124    dyoung }
  1.1   thorpej
1.282  jmcneill static void
1.282  jmcneill acpi_config_dma(struct acpi_softc *sc)
1.282  jmcneill {
1.282  jmcneill 	struct acpi_devnode *ad;
1.282  jmcneill
1.282  jmcneill 	SIMPLEQ_FOREACH(ad, &sc->ad_head, ad_list) {
1.282  jmcneill
1.282  jmcneill 		if (ad->ad_device != NULL)
1.282  jmcneill 			continue;
1.282  jmcneill
1.282  jmcneill 		if (ad->ad_devinfo->Type != ACPI_TYPE_DEVICE)
1.282  jmcneill 			continue;
1.282  jmcneill
1.282  jmcneill 		ad->ad_dmat = acpi_get_dma_tag(sc, ad);
1.282  jmcneill 		ad->ad_dmat64 = acpi_get_dma64_tag(sc, ad);
1.282  jmcneill 	}
1.282  jmcneill }
1.282  jmcneill
1.169    jruoho static ACPI_STATUS
1.169    jruoho acpi_make_devnode(ACPI_HANDLE handle, uint32_t level,
1.169    jruoho     void *context, void **status)
1.124    dyoung {
1.176    jruoho 	struct acpi_walkcontext *awc = context;
1.176    jruoho 	struct acpi_softc *sc = awc->aw_sc;
1.169    jruoho 	struct acpi_devnode *ad;
1.169    jruoho 	ACPI_DEVICE_INFO *devinfo;
1.169    jruoho 	ACPI_OBJECT_TYPE type;
1.169    jruoho 	ACPI_STATUS rv;
1.169    jruoho
1.169    jruoho 	rv = AcpiGetObjectInfo(handle, &devinfo);
1.124    dyoung
1.169    jruoho 	if (ACPI_FAILURE(rv))
1.169    jruoho 		return AE_OK;	/* Do not terminate the walk. */
1.124    dyoung
1.169    jruoho 	type = devinfo->Type;
1.124    dyoung
1.169    jruoho 	switch (type) {
1.124    dyoung
1.169    jruoho 	case ACPI_TYPE_DEVICE:
1.169    jruoho 		acpi_activate_device(handle, &devinfo);
1.265  jmcneill 		/* FALLTHROUGH */
1.265  jmcneill
1.169    jruoho 	case ACPI_TYPE_PROCESSOR:
1.169    jruoho 	case ACPI_TYPE_THERMAL:
1.169    jruoho 	case ACPI_TYPE_POWER:
1.124    dyoung
1.254    jruoho 		ad = kmem_zalloc(sizeof(*ad), KM_SLEEP);
 1.25  jmcneill
1.175    jruoho 		ad->ad_device = NULL;
1.176    jruoho 		ad->ad_notify = NULL;
1.180    jruoho 		ad->ad_pciinfo = NULL;
1.236    jruoho 		ad->ad_wakedev = NULL;
1.175    jruoho
1.175    jruoho 		ad->ad_type = type;
1.175    jruoho 		ad->ad_handle = handle;
1.169    jruoho 		ad->ad_devinfo = devinfo;
1.157    jruoho
1.176    jruoho 		ad->ad_root = sc->sc_dev;
1.176    jruoho 		ad->ad_parent = awc->aw_parent;
1.176    jruoho
1.246    jruoho 		acpi_match_node_init(ad);
1.229    jruoho 		acpi_make_name(ad, devinfo->Name);
1.160    jruoho
1.236    jruoho 		/*
1.236    jruoho 		 * Identify wake GPEs from the _PRW. Note that
1.236    jruoho 		 * AcpiUpdateAllGpes() must be called afterwards.
1.236    jruoho 		 */
1.236    jruoho 		if (ad->ad_devinfo->Type == ACPI_TYPE_DEVICE)
1.236    jruoho 			acpi_wakedev_init(ad);
1.236    jruoho
1.176    jruoho 		SIMPLEQ_INIT(&ad->ad_child_head);
1.176    jruoho 		SIMPLEQ_INSERT_TAIL(&sc->ad_head, ad, ad_list);
1.176    jruoho
1.176    jruoho 		if (ad->ad_parent != NULL) {
1.176    jruoho
1.176    jruoho 			SIMPLEQ_INSERT_TAIL(&ad->ad_parent->ad_child_head,
1.176    jruoho 			    ad, ad_child_list);
1.176    jruoho 		}
1.176    jruoho
1.176    jruoho 		awc->aw_parent = ad;
1.285      maxv 		break;
1.285      maxv
1.285      maxv 	default:
1.285      maxv 		ACPI_FREE(devinfo);
1.285      maxv 		break;
1.169    jruoho 	}
1.169    jruoho
1.169    jruoho 	return AE_OK;
1.169    jruoho }
1.169    jruoho
1.176    jruoho static ACPI_STATUS
1.176    jruoho acpi_make_devnode_post(ACPI_HANDLE handle, uint32_t level,
1.176    jruoho     void *context, void **status)
1.176    jruoho {
1.176    jruoho 	struct acpi_walkcontext *awc = context;
1.176    jruoho
1.176    jruoho 	KASSERT(awc != NULL);
1.176    jruoho 	KASSERT(awc->aw_parent != NULL);
1.176    jruoho
1.176    jruoho 	if (handle == awc->aw_parent->ad_handle)
1.176    jruoho 		awc->aw_parent = awc->aw_parent->ad_parent;
1.176    jruoho
1.176    jruoho 	return AE_OK;
1.176    jruoho }
1.176    jruoho
1.229    jruoho static void
1.229    jruoho acpi_make_name(struct acpi_devnode *ad, uint32_t name)
1.229    jruoho {
1.229    jruoho 	ACPI_NAME_UNION *anu;
1.229    jruoho 	int clear, i;
1.229    jruoho
1.229    jruoho 	anu = (ACPI_NAME_UNION *)&name;
1.229    jruoho 	ad->ad_name[4] = '\0';
1.229    jruoho
1.229    jruoho 	for (i = 3, clear = 0; i >= 0; i--) {
1.229    jruoho
1.229    jruoho 		if (clear == 0 && anu->Ascii[i] == '_')
1.229    jruoho 			ad->ad_name[i] = '\0';
1.229    jruoho 		else {
1.229    jruoho 			ad->ad_name[i] = anu->Ascii[i];
1.229    jruoho 			clear = 1;
1.229    jruoho 		}
1.229    jruoho 	}
1.229    jruoho
1.229    jruoho 	if (ad->ad_name[0] == '\0')
1.229    jruoho 		ad->ad_name[0] = '_';
1.229    jruoho }
1.229    jruoho
1.279  jmcneill bus_dma_tag_t
1.279  jmcneill acpi_default_dma_tag(struct acpi_softc *sc, struct acpi_devnode *ad)
1.279  jmcneill {
1.279  jmcneill 	return sc->sc_dmat;
1.279  jmcneill }
1.279  jmcneill __weak_alias(acpi_get_dma_tag,acpi_default_dma_tag);
1.279  jmcneill
1.279  jmcneill bus_dma_tag_t
1.279  jmcneill acpi_default_dma64_tag(struct acpi_softc *sc, struct acpi_devnode *ad)
1.279  jmcneill {
1.279  jmcneill 	return sc->sc_dmat64;
1.279  jmcneill }
1.279  jmcneill __weak_alias(acpi_get_dma64_tag,acpi_default_dma64_tag);
1.279  jmcneill
1.283  jmcneill pci_chipset_tag_t
1.283  jmcneill acpi_default_pci_chipset_tag(struct acpi_softc *sc, int seg, int bbn)
1.283  jmcneill {
1.283  jmcneill 	return NULL;
1.283  jmcneill }
1.283  jmcneill __weak_alias(acpi_get_pci_chipset_tag,acpi_default_pci_chipset_tag);
1.283  jmcneill
  1.1   thorpej /*
1.169    jruoho  * Device attachment.
  1.1   thorpej  */
1.169    jruoho static int
1.169    jruoho acpi_rescan(device_t self, const char *ifattr, const int *locators)
1.169    jruoho {
1.169    jruoho 	struct acpi_softc *sc = device_private(self);
1.245    jruoho 	struct acpi_attach_args aa;
1.245    jruoho
1.245    jruoho 	/*
1.245    jruoho 	 * Try to attach hpet(4) first via a specific table.
1.245    jruoho 	 */
1.245    jruoho 	aa.aa_memt = sc->sc_memt;
1.245    jruoho
1.291   thorpej 	if (ifattr_match(ifattr, "acpihpetbus") && sc->sc_hpet == NULL) {
1.291   thorpej 		sc->sc_hpet = config_found(sc->sc_dev, &aa, NULL,
1.291   thorpej 					   CFARG_IATTR, "acpihpetbus",
1.291   thorpej 					   CFARG_EOL);
1.291   thorpej 	}
1.169    jruoho
1.226    jruoho 	/*
1.226    jruoho 	 * A two-pass scan for acpinodebus.
1.226    jruoho 	 */
1.226    jruoho 	if (ifattr_match(ifattr, "acpinodebus")) {
1.226    jruoho 		acpi_rescan_early(sc);
1.169    jruoho 		acpi_rescan_nodes(sc);
1.226    jruoho 	}
1.169    jruoho
1.245    jruoho 	/*
1.245    jruoho 	 * Attach APM emulation and acpiwdrt(4).
1.245    jruoho 	 */
1.291   thorpej 	if (ifattr_match(ifattr, "acpiapmbus") && sc->sc_apmbus == NULL) {
1.291   thorpej 		sc->sc_apmbus = config_found(sc->sc_dev, NULL, NULL,
1.291   thorpej 					     CFARG_IATTR, "acpiapmbus",
1.291   thorpej 					     CFARG_EOL);
1.291   thorpej 	}
1.291   thorpej
1.291   thorpej 	if (ifattr_match(ifattr, "acpiwdrtbus") && sc->sc_wdrt == NULL) {
1.291   thorpej 		sc->sc_wdrt = config_found(sc->sc_dev, NULL, NULL,
1.291   thorpej 					   CFARG_IATTR, "acpiwdrtbus",
1.291   thorpej 					   CFARG_EOL);
1.291   thorpej 	}
1.234  jmcneill
1.204    jruoho 	return 0;
1.169    jruoho }
1.169    jruoho
1.169    jruoho static void
1.226    jruoho acpi_rescan_early(struct acpi_softc *sc)
1.226    jruoho {
1.226    jruoho 	struct acpi_attach_args aa;
1.226    jruoho 	struct acpi_devnode *ad;
1.226    jruoho
1.226    jruoho 	/*
1.226    jruoho 	 * First scan for devices such as acpiec(4) that
1.226    jruoho 	 * should be always attached before anything else.
1.226    jruoho 	 * We want these devices to attach regardless of
1.226    jruoho 	 * the device status and other restrictions.
1.226    jruoho 	 */
1.226    jruoho 	SIMPLEQ_FOREACH(ad, &sc->ad_head, ad_list) {
1.226    jruoho
1.226    jruoho 		if (ad->ad_device != NULL)
1.226    jruoho 			continue;
1.226    jruoho
1.226    jruoho 		if (ad->ad_devinfo->Type != ACPI_TYPE_DEVICE)
1.226    jruoho 			continue;
1.226    jruoho
1.226    jruoho 		if (acpi_match_hid(ad->ad_devinfo, acpi_early_ids) == 0)
1.226    jruoho 			continue;
1.226    jruoho
1.291   thorpej 		KASSERT(ad->ad_handle != NULL);
1.291   thorpej
1.226    jruoho 		aa.aa_node = ad;
1.226    jruoho 		aa.aa_iot = sc->sc_iot;
1.226    jruoho 		aa.aa_memt = sc->sc_memt;
1.283  jmcneill 		if (ad->ad_pciinfo != NULL) {
1.283  jmcneill 			aa.aa_pc = ad->ad_pciinfo->ap_pc;
1.283  jmcneill 			aa.aa_pciflags = sc->sc_pciflags;
1.283  jmcneill 		}
1.226    jruoho 		aa.aa_ic = sc->sc_ic;
1.282  jmcneill 		aa.aa_dmat = ad->ad_dmat;
1.282  jmcneill 		aa.aa_dmat64 = ad->ad_dmat64;
1.226    jruoho
1.291   thorpej 		ad->ad_device = config_found(sc->sc_dev, &aa, acpi_print,
1.291   thorpej 		    CFARG_IATTR, "acpinodebus",
1.291   thorpej 		    CFARG_DEVHANDLE, devhandle_from_acpi(ad->ad_handle),
1.291   thorpej 		    CFARG_EOL);
1.226    jruoho 	}
1.226    jruoho }
1.226    jruoho
1.226    jruoho static void
1.169    jruoho acpi_rescan_nodes(struct acpi_softc *sc)
  1.1   thorpej {
1.245    jruoho 	const char * const hpet_ids[] = { "PNP0103", NULL };
1.169    jruoho 	struct acpi_attach_args aa;
  1.1   thorpej 	struct acpi_devnode *ad;
1.193    jruoho 	ACPI_DEVICE_INFO *di;
  1.1   thorpej
1.176    jruoho 	SIMPLEQ_FOREACH(ad, &sc->ad_head, ad_list) {
 1.15  augustss
1.169    jruoho 		if (ad->ad_device != NULL)
1.169    jruoho 			continue;
1.151    jruoho
1.185    jruoho 		/*
1.185    jruoho 		 * There is a bug in ACPICA: it defines the type
1.185    jruoho 		 * of the scopes incorrectly for its own reasons.
1.185    jruoho 		 */
1.185    jruoho 		if (acpi_is_scope(ad) != false)
1.185    jruoho 			continue;
1.151    jruoho
1.193    jruoho 		di = ad->ad_devinfo;
1.193    jruoho
1.270  christos 		/*
1.270  christos 		 * We only attach devices which are present, enabled, and
1.270  christos 		 * functioning properly. However, if a device is enabled,
1.270  christos 		 * it is decoding resources and we should claim these,
1.270  christos 		 * if possible. This requires changes to bus_space(9).
1.270  christos 		 */
1.270  christos 		if (di->Type == ACPI_TYPE_DEVICE &&
1.270  christos 		    !acpi_device_present(ad->ad_handle)) {
1.270  christos 			continue;
1.270  christos 		}
1.270  christos
1.207    jruoho 		if (di->Type == ACPI_TYPE_POWER)
1.169    jruoho 			continue;
 1.15  augustss
1.240    jruoho 		if (di->Type == ACPI_TYPE_PROCESSOR)
1.231    jruoho 			continue;
1.231    jruoho
1.227    jruoho 		if (acpi_match_hid(di, acpi_early_ids) != 0)
1.227    jruoho 			continue;
1.227    jruoho
1.227    jruoho 		if (acpi_match_hid(di, acpi_ignored_ids) != 0)
1.169    jruoho 			continue;
1.151    jruoho
1.245    jruoho 		if (acpi_match_hid(di, hpet_ids) != 0 && sc->sc_hpet != NULL)
1.245    jruoho 			continue;
1.245    jruoho
1.291   thorpej 		KASSERT(ad->ad_handle != NULL);
1.291   thorpej
1.185    jruoho 		aa.aa_node = ad;
1.185    jruoho 		aa.aa_iot = sc->sc_iot;
1.185    jruoho 		aa.aa_memt = sc->sc_memt;
1.283  jmcneill 		if (ad->ad_pciinfo != NULL) {
1.283  jmcneill 			aa.aa_pc = ad->ad_pciinfo->ap_pc;
1.283  jmcneill 			aa.aa_pciflags = sc->sc_pciflags;
1.283  jmcneill 		}
1.185    jruoho 		aa.aa_ic = sc->sc_ic;
1.282  jmcneill 		aa.aa_dmat = ad->ad_dmat;
1.282  jmcneill 		aa.aa_dmat64 = ad->ad_dmat64;
1.185    jruoho
1.291   thorpej 		ad->ad_device = config_found(sc->sc_dev, &aa, acpi_print,
1.291   thorpej 		    CFARG_IATTR, "acpinodebus",
1.291   thorpej 		    CFARG_DEVHANDLE, devhandle_from_acpi(ad->ad_handle),
1.291   thorpej 		    CFARG_EOL);
1.169    jruoho 	}
1.169    jruoho }
1.151    jruoho
1.169    jruoho static void
1.224    jruoho acpi_rescan_capabilities(device_t self)
1.169    jruoho {
1.224    jruoho 	struct acpi_softc *sc = device_private(self);
1.169    jruoho 	struct acpi_devnode *ad;
1.169    jruoho 	ACPI_HANDLE tmp;
1.169    jruoho 	ACPI_STATUS rv;
1.151    jruoho
1.176    jruoho 	SIMPLEQ_FOREACH(ad, &sc->ad_head, ad_list) {
1.151    jruoho
1.195    jruoho 		if (ad->ad_devinfo->Type != ACPI_TYPE_DEVICE)
1.169    jruoho 			continue;
1.151    jruoho
1.169    jruoho 		/*
1.169    jruoho 		 * Scan power resource capabilities.
1.181    jruoho 		 *
1.181    jruoho 		 * If any power states are supported,
1.181    jruoho 		 * at least _PR0 and _PR3 must be present.
1.169    jruoho 		 */
1.169    jruoho 		rv = AcpiGetHandle(ad->ad_handle, "_PR0", &tmp);
1.102      cube
1.181    jruoho 		if (ACPI_SUCCESS(rv)) {
1.169    jruoho 			ad->ad_flags |= ACPI_DEVICE_POWER;
1.184    jruoho 			acpi_power_add(ad);
1.181    jruoho 		}
  1.1   thorpej
1.169    jruoho 		/*
1.169    jruoho 		 * Scan wake-up capabilities.
1.169    jruoho 		 */
1.236    jruoho 		if (ad->ad_wakedev != NULL) {
1.169    jruoho 			ad->ad_flags |= ACPI_DEVICE_WAKEUP;
1.169    jruoho 			acpi_wakedev_add(ad);
1.169    jruoho 		}
1.225    jruoho
1.225    jruoho 		/*
1.232    jruoho 		 * Scan docking stations.
1.232    jruoho 		 */
1.232    jruoho 		rv = AcpiGetHandle(ad->ad_handle, "_DCK", &tmp);
1.232    jruoho
1.232    jruoho 		if (ACPI_SUCCESS(rv))
1.232    jruoho 			ad->ad_flags |= ACPI_DEVICE_DOCK;
1.232    jruoho
1.232    jruoho 		/*
1.225    jruoho 		 * Scan devices that are ejectable.
1.225    jruoho 		 */
1.225    jruoho 		rv = AcpiGetHandle(ad->ad_handle, "_EJ0", &tmp);
1.225    jruoho
1.225    jruoho 		if (ACPI_SUCCESS(rv))
1.225    jruoho 			ad->ad_flags |= ACPI_DEVICE_EJECT;
  1.1   thorpej 	}
1.169    jruoho }
1.151    jruoho
 1.64     kochi static int
  1.1   thorpej acpi_print(void *aux, const char *pnp)
  1.1   thorpej {
  1.1   thorpej 	struct acpi_attach_args *aa = aux;
1.233    jruoho 	struct acpi_devnode *ad;
1.233    jruoho 	const char *hid, *uid;
1.233    jruoho 	ACPI_DEVICE_INFO *di;
1.233    jruoho
1.233    jruoho 	ad = aa->aa_node;
1.233    jruoho 	di = ad->ad_devinfo;
1.233    jruoho
1.233    jruoho 	hid = di->HardwareId.String;
1.233    jruoho 	uid = di->UniqueId.String;
1.233    jruoho
1.233    jruoho 	if (pnp != NULL) {
1.233    jruoho
1.233    jruoho 		if (di->Type != ACPI_TYPE_DEVICE) {
1.233    jruoho
1.233    jruoho 			aprint_normal("%s (ACPI Object Type '%s') at %s",
1.233    jruoho 			    ad->ad_name, AcpiUtGetTypeName(ad->ad_type), pnp);
1.233    jruoho
1.233    jruoho 			return UNCONF;
1.233    jruoho 		}
  1.1   thorpej
1.233    jruoho 		if ((di->Valid & ACPI_VALID_HID) == 0 || hid == NULL)
1.104  jmcneill 			return 0;
1.233    jruoho
1.233    jruoho 		aprint_normal("%s (%s) ", ad->ad_name, hid);
1.233    jruoho 		acpi_print_dev(hid);
1.233    jruoho 		aprint_normal("at %s", pnp);
1.233    jruoho
1.233    jruoho 		return UNCONF;
1.233    jruoho 	}
1.233    jruoho
1.233    jruoho 	aprint_normal(" (%s", ad->ad_name);
1.233    jruoho
1.233    jruoho 	if ((di->Valid & ACPI_VALID_HID) != 0 && hid != NULL) {
1.233    jruoho
1.233    jruoho 		aprint_normal(", %s", hid);
1.233    jruoho
1.233    jruoho 		if ((di->Valid & ACPI_VALID_UID) != 0 && uid != NULL) {
1.233    jruoho
1.233    jruoho 			if (uid[0] == '\0')
1.233    jruoho 				uid = "<null>";
1.233    jruoho
1.233    jruoho 			aprint_normal("-%s", uid);
 1.22  jmcneill 		}
  1.4   thorpej 	}
  1.1   thorpej
1.233    jruoho 	aprint_normal(")");
1.233    jruoho
 1.63     kochi 	return UNCONF;
  1.1   thorpej }
  1.1   thorpej
1.168    jruoho /*
1.289   thorpej  * acpi_device_register --
1.289   thorpej  *	Called by the platform device_register() routine when
1.289   thorpej  *	attaching devices.
1.289   thorpej  */
1.289   thorpej void
1.290   thorpej acpi_device_register(device_t dev, void *v)
1.289   thorpej {
1.290   thorpej 	/* All we do here is set the devhandle in the device_t. */
1.290   thorpej 	device_t parent = device_parent(dev);
1.290   thorpej 	ACPI_HANDLE hdl = NULL;
1.290   thorpej
1.291   thorpej 	if (device_is_a(parent, "pci")) {
1.290   thorpej 		const struct pci_attach_args *pa = v;
1.290   thorpej 		struct acpi_devnode *ad;
1.290   thorpej 		u_int segment;
1.290   thorpej
1.290   thorpej #ifdef __HAVE_PCI_GET_SEGMENT
1.290   thorpej 		segment = pci_get_segment(pa->pa_pc);
1.290   thorpej #else
1.290   thorpej 		segment = 0;
1.290   thorpej #endif /* __HAVE_PCI_GET_SEGMENT */
1.290   thorpej
1.290   thorpej 		ad = acpi_pcidev_find(segment,
1.290   thorpej 		    pa->pa_bus, pa->pa_device, pa->pa_function);
1.290   thorpej 		if (ad == NULL || (hdl = ad->ad_handle) == NULL) {
1.290   thorpej 			aprint_debug_dev(dev, "no matching ACPI node\n");
1.290   thorpej 			return;
1.290   thorpej 		}
1.290   thorpej 	} else {
1.290   thorpej 		return;
1.290   thorpej 	}
1.290   thorpej 	KASSERT(hdl != NULL);
1.290   thorpej
1.290   thorpej 	device_set_handle(dev, devhandle_from_acpi(hdl));
1.289   thorpej }
1.289   thorpej
1.289   thorpej /*
1.175    jruoho  * Notify.
1.175    jruoho  */
1.175    jruoho static void
1.175    jruoho acpi_notify_handler(ACPI_HANDLE handle, uint32_t event, void *aux)
1.175    jruoho {
1.175    jruoho 	struct acpi_softc *sc = acpi_softc;
1.175    jruoho 	struct acpi_devnode *ad;
1.175    jruoho
1.175    jruoho 	KASSERT(sc != NULL);
1.175    jruoho 	KASSERT(aux == NULL);
1.175    jruoho 	KASSERT(acpi_active != 0);
1.175    jruoho
1.175    jruoho 	if (acpi_suspended != 0)
1.175    jruoho 		return;
1.175    jruoho
1.175    jruoho 	/*
1.175    jruoho 	 *  System: 0x00 - 0x7F.
1.175    jruoho 	 *  Device: 0x80 - 0xFF.
1.175    jruoho 	 */
1.175    jruoho 	switch (event) {
1.175    jruoho
1.175    jruoho 	case ACPI_NOTIFY_BUS_CHECK:
1.175    jruoho 	case ACPI_NOTIFY_DEVICE_CHECK:
1.175    jruoho 	case ACPI_NOTIFY_DEVICE_WAKE:
1.175    jruoho 	case ACPI_NOTIFY_EJECT_REQUEST:
1.175    jruoho 	case ACPI_NOTIFY_DEVICE_CHECK_LIGHT:
1.175    jruoho 	case ACPI_NOTIFY_FREQUENCY_MISMATCH:
1.175    jruoho 	case ACPI_NOTIFY_BUS_MODE_MISMATCH:
1.175    jruoho 	case ACPI_NOTIFY_POWER_FAULT:
1.175    jruoho 	case ACPI_NOTIFY_CAPABILITIES_CHECK:
1.175    jruoho 	case ACPI_NOTIFY_DEVICE_PLD_CHECK:
1.175    jruoho 	case ACPI_NOTIFY_RESERVED:
1.175    jruoho 	case ACPI_NOTIFY_LOCALITY_UPDATE:
1.175    jruoho 		break;
1.175    jruoho 	}
1.175    jruoho
1.175    jruoho 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "notification 0x%02X for "
1.175    jruoho 		"%s (%p)\n", event, acpi_name(handle), handle));
1.175    jruoho
1.175    jruoho 	/*
1.175    jruoho 	 * We deliver notifications only to drivers
1.247  jakllsch 	 * that have been successfully attached and
1.175    jruoho 	 * that have registered a handler with us.
1.175    jruoho 	 * The opaque pointer is always the device_t.
1.175    jruoho 	 */
1.176    jruoho 	SIMPLEQ_FOREACH(ad, &sc->ad_head, ad_list) {
1.175    jruoho
1.175    jruoho 		if (ad->ad_device == NULL)
1.175    jruoho 			continue;
1.175    jruoho
1.175    jruoho 		if (ad->ad_notify == NULL)
1.175    jruoho 			continue;
1.175    jruoho
1.175    jruoho 		if (ad->ad_handle != handle)
1.175    jruoho 			continue;
1.175    jruoho
1.175    jruoho 		(*ad->ad_notify)(ad->ad_handle, event, ad->ad_device);
1.175    jruoho
1.175    jruoho 		return;
1.175    jruoho 	}
1.175    jruoho
1.175    jruoho 	aprint_debug_dev(sc->sc_dev, "unhandled notify 0x%02X "
1.175    jruoho 	    "for %s (%p)\n", event, acpi_name(handle), handle);
1.175    jruoho }
1.175    jruoho
1.175    jruoho bool
1.175    jruoho acpi_register_notify(struct acpi_devnode *ad, ACPI_NOTIFY_HANDLER notify)
1.175    jruoho {
1.175    jruoho 	struct acpi_softc *sc = acpi_softc;
1.175    jruoho
1.175    jruoho 	KASSERT(sc != NULL);
1.175    jruoho 	KASSERT(acpi_active != 0);
1.175    jruoho
1.175    jruoho 	if (acpi_suspended != 0)
1.175    jruoho 		goto fail;
1.175    jruoho
1.175    jruoho 	if (ad == NULL || notify == NULL)
1.175    jruoho 		goto fail;
1.175    jruoho
1.175    jruoho 	ad->ad_notify = notify;
1.175    jruoho
1.175    jruoho 	return true;
1.175    jruoho
1.175    jruoho fail:
1.175    jruoho 	aprint_error_dev(sc->sc_dev, "failed to register notify "
1.175    jruoho 	    "handler for %s (%p)\n", ad->ad_name, ad->ad_handle);
1.175    jruoho
1.175    jruoho 	return false;
1.175    jruoho }
1.175    jruoho
1.175    jruoho void
1.175    jruoho acpi_deregister_notify(struct acpi_devnode *ad)
1.175    jruoho {
1.175    jruoho
1.175    jruoho 	ad->ad_notify = NULL;
1.175    jruoho }
1.175    jruoho
1.175    jruoho /*
1.168    jruoho  * Fixed buttons.
1.168    jruoho  */
1.168    jruoho static void
1.168    jruoho acpi_register_fixed_button(struct acpi_softc *sc, int event)
1.168    jruoho {
1.168    jruoho 	struct sysmon_pswitch *smpsw;
1.168    jruoho 	ACPI_STATUS rv;
1.168    jruoho 	int type;
1.168    jruoho
1.168    jruoho 	switch (event) {
1.168    jruoho
1.168    jruoho 	case ACPI_EVENT_POWER_BUTTON:
1.168    jruoho
1.168    jruoho 		if ((AcpiGbl_FADT.Flags & ACPI_FADT_POWER_BUTTON) != 0)
1.168    jruoho 			return;
1.168    jruoho
1.168    jruoho 		type = PSWITCH_TYPE_POWER;
1.168    jruoho 		smpsw = &sc->sc_smpsw_power;
1.168    jruoho 		break;
1.168    jruoho
1.168    jruoho 	case ACPI_EVENT_SLEEP_BUTTON:
1.168    jruoho
1.168    jruoho 		if ((AcpiGbl_FADT.Flags & ACPI_FADT_SLEEP_BUTTON) != 0)
1.168    jruoho 			return;
1.168    jruoho
1.168    jruoho 		type = PSWITCH_TYPE_SLEEP;
1.168    jruoho 		smpsw = &sc->sc_smpsw_sleep;
1.168    jruoho 		break;
1.168    jruoho
1.168    jruoho 	default:
1.168    jruoho 		rv = AE_TYPE;
1.168    jruoho 		goto fail;
1.168    jruoho 	}
1.168    jruoho
1.168    jruoho 	smpsw->smpsw_type = type;
1.168    jruoho 	smpsw->smpsw_name = device_xname(sc->sc_dev);
1.168    jruoho
1.168    jruoho 	if (sysmon_pswitch_register(smpsw) != 0) {
1.168    jruoho 		rv = AE_ERROR;
1.168    jruoho 		goto fail;
1.168    jruoho 	}
1.168    jruoho
1.250  jakllsch 	AcpiClearEvent(event);
1.250  jakllsch
1.168    jruoho 	rv = AcpiInstallFixedEventHandler(event,
1.168    jruoho 	    acpi_fixed_button_handler, smpsw);
1.168    jruoho
1.199    jruoho 	if (ACPI_FAILURE(rv)) {
1.199    jruoho 		sysmon_pswitch_unregister(smpsw);
1.168    jruoho 		goto fail;
1.199    jruoho 	}
1.168    jruoho
1.271     ryoon 	aprint_normal_dev(sc->sc_dev, "fixed %s button present\n",
1.272  jmcneill 	    (type != PSWITCH_TYPE_SLEEP) ? "power" : "sleep");
1.168    jruoho
1.168    jruoho 	return;
  1.1   thorpej
1.168    jruoho fail:
1.168    jruoho 	aprint_error_dev(sc->sc_dev, "failed to register "
1.249  jakllsch 	    "fixed event %d: %s\n", event, AcpiFormatException(rv));
1.168    jruoho }
  1.1   thorpej
 1.64     kochi static void
1.169    jruoho acpi_deregister_fixed_button(struct acpi_softc *sc, int event)
 1.69     kochi {
1.169    jruoho 	struct sysmon_pswitch *smpsw;
 1.69     kochi 	ACPI_STATUS rv;
 1.69     kochi
1.169    jruoho 	switch (event) {
1.144    jruoho
1.169    jruoho 	case ACPI_EVENT_POWER_BUTTON:
1.169    jruoho 		smpsw = &sc->sc_smpsw_power;
1.144    jruoho
1.169    jruoho 		if ((AcpiGbl_FADT.Flags & ACPI_FADT_POWER_BUTTON) != 0) {
1.169    jruoho 			KASSERT(smpsw->smpsw_type != PSWITCH_TYPE_POWER);
1.169    jruoho 			return;
1.169    jruoho 		}
1.144    jruoho
1.144    jruoho 		break;
1.144    jruoho
1.169    jruoho 	case ACPI_EVENT_SLEEP_BUTTON:
1.169    jruoho 		smpsw = &sc->sc_smpsw_sleep;
1.144    jruoho
1.169    jruoho 		if ((AcpiGbl_FADT.Flags & ACPI_FADT_SLEEP_BUTTON) != 0) {
1.169    jruoho 			KASSERT(smpsw->smpsw_type != PSWITCH_TYPE_SLEEP);
1.169    jruoho 			return;
1.169    jruoho 		}
1.144    jruoho
1.144    jruoho 		break;
 1.69     kochi
1.144    jruoho 	default:
1.169    jruoho 		rv = AE_TYPE;
1.169    jruoho 		goto fail;
1.144    jruoho 	}
 1.69     kochi
1.169    jruoho 	rv = AcpiRemoveFixedEventHandler(event, acpi_fixed_button_handler);
1.169    jruoho
1.169    jruoho 	if (ACPI_SUCCESS(rv)) {
1.169    jruoho 		sysmon_pswitch_unregister(smpsw);
1.169    jruoho 		return;
1.169    jruoho 	}
 1.69     kochi
1.169    jruoho fail:
1.169    jruoho 	aprint_error_dev(sc->sc_dev, "failed to deregister "
1.169    jruoho 	    "fixed event: %s\n", AcpiFormatException(rv));
 1.69     kochi }
 1.69     kochi
1.169    jruoho static uint32_t
1.169    jruoho acpi_fixed_button_handler(void *context)
1.118    dyoung {
1.169    jruoho 	static const int handler = OSL_NOTIFY_HANDLER;
1.169    jruoho 	struct sysmon_pswitch *smpsw = context;
1.169    jruoho
1.169    jruoho 	(void)AcpiOsExecute(handler, acpi_fixed_button_pressed, smpsw);
1.169    jruoho
1.169    jruoho 	return ACPI_INTERRUPT_HANDLED;
1.118    dyoung }
1.118    dyoung
1.169    jruoho static void
1.169    jruoho acpi_fixed_button_pressed(void *context)
1.118    dyoung {
1.169    jruoho 	struct sysmon_pswitch *smpsw = context;
1.118    dyoung
1.199    jruoho 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s fixed button pressed\n",
1.199    jruoho 		(smpsw->smpsw_type != ACPI_EVENT_SLEEP_BUTTON) ?
1.199    jruoho 		"power" : "sleep"));
 1.10  tshiozak
1.169    jruoho 	sysmon_pswitch_event(smpsw, PSWITCH_EVENT_PRESSED);
1.169    jruoho }
 1.10  tshiozak
1.166    jruoho /*
1.169    jruoho  * Sleep.
1.166    jruoho  */
1.166    jruoho static void
1.166    jruoho acpi_sleep_init(struct acpi_softc *sc)
 1.10  tshiozak {
1.166    jruoho 	uint8_t a, b, i;
1.166    jruoho 	ACPI_STATUS rv;
 1.10  tshiozak
1.166    jruoho 	CTASSERT(ACPI_STATE_S0 == 0 && ACPI_STATE_S1 == 1);
1.166    jruoho 	CTASSERT(ACPI_STATE_S2 == 2 && ACPI_STATE_S3 == 3);
1.166    jruoho 	CTASSERT(ACPI_STATE_S4 == 4 && ACPI_STATE_S5 == 5);
1.166    jruoho
1.169    jruoho 	/*
1.169    jruoho 	 * Evaluate supported sleep states.
1.169    jruoho 	 */
1.166    jruoho 	for (i = ACPI_STATE_S0; i <= ACPI_STATE_S5; i++) {
1.166    jruoho
1.166    jruoho 		rv = AcpiGetSleepTypeData(i, &a, &b);
1.166    jruoho
1.166    jruoho 		if (ACPI_SUCCESS(rv))
1.166    jruoho 			sc->sc_sleepstates |= __BIT(i);
1.166    jruoho 	}
 1.10  tshiozak }
 1.10  tshiozak
1.230    jruoho /*
1.230    jruoho  * Must be called with interrupts enabled.
1.230    jruoho  */
1.194    jruoho void
1.222    jruoho acpi_enter_sleep_state(int state)
 1.10  tshiozak {
1.222    jruoho 	struct acpi_softc *sc = acpi_softc;
1.194    jruoho 	ACPI_STATUS rv;
 1.10  tshiozak
1.222    jruoho 	if (acpi_softc == NULL)
1.222    jruoho 		return;
1.222    jruoho
1.166    jruoho 	if (state == sc->sc_sleepstate)
1.194    jruoho 		return;
 1.92  christos
1.222    jruoho 	if (state < ACPI_STATE_S0 || state > ACPI_STATE_S5)
1.222    jruoho 		return;
1.222    jruoho
1.166    jruoho 	aprint_normal_dev(sc->sc_dev, "entering state S%d\n", state);
 1.92  christos
 1.10  tshiozak 	switch (state) {
1.166    jruoho
 1.10  tshiozak 	case ACPI_STATE_S0:
1.194    jruoho 		sc->sc_sleepstate = ACPI_STATE_S0;
1.194    jruoho 		return;
1.166    jruoho
 1.10  tshiozak 	case ACPI_STATE_S1:
 1.10  tshiozak 	case ACPI_STATE_S2:
 1.10  tshiozak 	case ACPI_STATE_S3:
 1.10  tshiozak 	case ACPI_STATE_S4:
1.166    jruoho
1.166    jruoho 		if ((sc->sc_sleepstates & __BIT(state)) == 0) {
1.166    jruoho 			aprint_error_dev(sc->sc_dev, "sleep state "
1.166    jruoho 			    "S%d is not available\n", state);
1.194    jruoho 			return;
 1.10  tshiozak 		}
1.104  jmcneill
1.188    jruoho 		/*
1.190    jruoho 		 * Evaluate the _TTS method. This should be done before
1.190    jruoho 		 * pmf_system_suspend(9) and the evaluation of _PTS.
1.190    jruoho 		 * We should also re-evaluate this once we return to
1.190    jruoho 		 * S0 or if we abort the sleep state transition in the
1.190    jruoho 		 * middle (see ACPI 3.0, section 7.3.6). In reality,
1.190    jruoho 		 * however, the _TTS method is seldom seen in the field.
1.189    jruoho 		 */
1.189    jruoho 		rv = acpi_eval_set_integer(NULL, "\\_TTS", state);
1.189    jruoho
1.189    jruoho 		if (ACPI_SUCCESS(rv))
1.189    jruoho 			aprint_debug_dev(sc->sc_dev, "evaluated _TTS\n");
1.189    jruoho
1.190    jruoho 		if (state != ACPI_STATE_S1 &&
1.190    jruoho 		    pmf_system_suspend(PMF_Q_NONE) != true) {
1.190    jruoho 			aprint_error_dev(sc->sc_dev, "aborting suspend\n");
1.190    jruoho 			break;
1.190    jruoho 		}
1.190    jruoho
1.189    jruoho 		/*
1.188    jruoho 		 * This will evaluate the  _PTS and _SST methods,
1.188    jruoho 		 * but unlike the documentation claims, not _GTS,
1.188    jruoho 		 * which is evaluated in AcpiEnterSleepState().
1.188    jruoho 		 * This must be called with interrupts enabled.
1.188    jruoho 		 */
1.166    jruoho 		rv = AcpiEnterSleepStatePrep(state);
1.166    jruoho
1.166    jruoho 		if (ACPI_FAILURE(rv)) {
1.166    jruoho 			aprint_error_dev(sc->sc_dev, "failed to prepare "
1.166    jruoho 			    "S%d: %s\n", state, AcpiFormatException(rv));
 1.10  tshiozak 			break;
 1.10  tshiozak 		}
1.104  jmcneill
1.203    jruoho 		/*
1.203    jruoho 		 * After the _PTS method has been evaluated, we can
1.203    jruoho 		 * enable wake and evaluate _PSW (ACPI 4.0, p. 284).
1.203    jruoho 		 */
1.203    jruoho 		acpi_wakedev_commit(sc, state);
1.203    jruoho
1.166    jruoho 		sc->sc_sleepstate = state;
1.166    jruoho
 1.92  christos 		if (state == ACPI_STATE_S1) {
1.166    jruoho
1.241    jruoho 			/*
1.242    jruoho 			 * Before the transition to S1, CPU caches
1.242    jruoho 			 * must be flushed (see ACPI 4.0, 7.3.4.2).
1.242    jruoho 			 *
1.242    jruoho 			 * Note that interrupts must be off before
1.242    jruoho 			 * calling AcpiEnterSleepState(). Conversely,
1.242    jruoho 			 * AcpiLeaveSleepState() should always be
1.242    jruoho 			 * called with interrupts enabled.
1.241    jruoho 			 */
 1.12   kanaoka 			acpi_md_OsDisableInterrupt();
1.242    jruoho
1.242    jruoho 			ACPI_FLUSH_CPU_CACHE();
1.166    jruoho 			rv = AcpiEnterSleepState(state);
1.166    jruoho
1.166    jruoho 			if (ACPI_FAILURE(rv))
1.166    jruoho 				aprint_error_dev(sc->sc_dev, "failed to "
1.166    jruoho 				    "enter S1: %s\n", AcpiFormatException(rv));
1.166    jruoho
1.251  jmcneill 			/*
1.251  jmcneill 			 * Clear fixed events and disable all GPEs before
1.251  jmcneill 			 * interrupts are enabled.
1.251  jmcneill 			 */
1.251  jmcneill 			AcpiClearEvent(ACPI_EVENT_PMTIMER);
1.251  jmcneill 			AcpiClearEvent(ACPI_EVENT_GLOBAL);
1.251  jmcneill 			AcpiClearEvent(ACPI_EVENT_POWER_BUTTON);
1.251  jmcneill 			AcpiClearEvent(ACPI_EVENT_SLEEP_BUTTON);
1.251  jmcneill 			AcpiClearEvent(ACPI_EVENT_RTC);
1.276  jmcneill #if (!ACPI_REDUCED_HARDWARE)
1.251  jmcneill 			AcpiHwDisableAllGpes();
1.275  jmcneill #endif
1.251  jmcneill
1.241    jruoho 			acpi_md_OsEnableInterrupt();
1.241    jruoho 			rv = AcpiLeaveSleepState(state);
1.166    jruoho
 1.10  tshiozak 		} else {
1.166    jruoho
1.256  christos 			(void)acpi_md_sleep(state);
1.166    jruoho
1.104  jmcneill 			if (state == ACPI_STATE_S4)
 1.10  tshiozak 				AcpiEnable();
1.166    jruoho
1.235    jruoho 			(void)pmf_system_bus_resume(PMF_Q_NONE);
1.166    jruoho 			(void)AcpiLeaveSleepState(state);
1.260  christos 			(void)AcpiSetFirmwareWakingVector(0, 0);
1.235    jruoho 			(void)pmf_system_resume(PMF_Q_NONE);
 1.10  tshiozak 		}
1.104  jmcneill
1.241    jruoho 		/*
1.241    jruoho 		 * No wake GPEs should be enabled at runtime.
1.241    jruoho 		 */
1.237    jruoho 		acpi_wakedev_commit(sc, ACPI_STATE_S0);
 1.10  tshiozak 		break;
1.189    jruoho
 1.10  tshiozak 	case ACPI_STATE_S5:
1.166    jruoho
1.190    jruoho 		(void)acpi_eval_set_integer(NULL, "\\_TTS", ACPI_STATE_S5);
1.189    jruoho
1.166    jruoho 		rv = AcpiEnterSleepStatePrep(ACPI_STATE_S5);
1.166    jruoho
1.166    jruoho 		if (ACPI_FAILURE(rv)) {
1.166    jruoho 			aprint_error_dev(sc->sc_dev, "failed to prepare "
1.166    jruoho 			    "S%d: %s\n", state, AcpiFormatException(rv));
 1.42     kochi 			break;
 1.42     kochi 		}
1.166    jruoho
1.230    jruoho 		(void)AcpiDisableAllGpes();
1.230    jruoho
1.104  jmcneill 		DELAY(1000000);
1.166    jruoho
1.166    jruoho 		sc->sc_sleepstate = state;
 1.12   kanaoka 		acpi_md_OsDisableInterrupt();
1.166    jruoho
1.166    jruoho 		(void)AcpiEnterSleepState(ACPI_STATE_S5);
1.166    jruoho
1.166    jruoho 		aprint_error_dev(sc->sc_dev, "WARNING: powerdown failed!\n");
1.189    jruoho
 1.10  tshiozak 		break;
 1.10  tshiozak 	}
 1.10  tshiozak
1.166    jruoho 	sc->sc_sleepstate = ACPI_STATE_S0;
1.166    jruoho
1.189    jruoho 	(void)acpi_eval_set_integer(NULL, "\\_TTS", ACPI_STATE_S0);
  1.1   thorpej }
 1.13  augustss
1.159    jruoho /*
1.169    jruoho  * Sysctl.
1.159    jruoho  */
 1.79      cube SYSCTL_SETUP(sysctl_acpi_setup, "sysctl hw.acpi subtree setup")
 1.79      cube {
1.253    jruoho 	const struct sysctlnode *rnode, *snode;
1.165    jruoho 	int err;
1.165    jruoho
1.165    jruoho 	err = sysctl_createv(clog, 0, NULL, &rnode,
1.165    jruoho 	    CTLFLAG_PERMANENT, CTLTYPE_NODE,
1.165    jruoho 	    "acpi", SYSCTL_DESCR("ACPI subsystem parameters"),
 1.79      cube 	    NULL, 0, NULL, 0,
1.258     pooka 	    CTL_HW, CTL_CREATE, CTL_EOL);
1.165    jruoho
1.165    jruoho 	if (err != 0)
 1.79      cube 		return;
 1.79      cube
1.165    jruoho 	(void)sysctl_createv(NULL, 0, &rnode, NULL,
1.165    jruoho 	    CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD,
1.165    jruoho 	    "root", SYSCTL_DESCR("ACPI root pointer"),
1.109  jmcneill 	    NULL, 0, &acpi_root_pointer, sizeof(acpi_root_pointer),
1.165    jruoho 	    CTL_CREATE, CTL_EOL);
1.165    jruoho
1.223    jruoho 	err = sysctl_createv(clog, 0, &rnode, &snode,
1.223    jruoho 	    CTLFLAG_PERMANENT, CTLTYPE_NODE,
1.223    jruoho 	    "sleep", SYSCTL_DESCR("ACPI sleep"),
1.223    jruoho 	    NULL, 0, NULL, 0,
1.223    jruoho 	    CTL_CREATE, CTL_EOL);
1.223    jruoho
1.223    jruoho 	if (err != 0)
1.223    jruoho 		return;
1.223    jruoho
1.223    jruoho 	(void)sysctl_createv(NULL, 0, &snode, NULL,
1.223    jruoho 	    CTLFLAG_PERMANENT | CTLFLAG_READWRITE, CTLTYPE_INT,
1.223    jruoho 	    "state", SYSCTL_DESCR("System sleep state"),
1.223    jruoho 	    sysctl_hw_acpi_sleepstate, 0, NULL, 0,
1.223    jruoho 	    CTL_CREATE, CTL_EOL);
1.223    jruoho
1.223    jruoho 	(void)sysctl_createv(NULL, 0, &snode, NULL,
1.165    jruoho 	    CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_STRING,
1.223    jruoho 	    "states", SYSCTL_DESCR("Supported sleep states"),
1.166    jruoho 	    sysctl_hw_acpi_sleepstates, 0, NULL, 0,
1.165    jruoho 	    CTL_CREATE, CTL_EOL);
1.165    jruoho
1.165    jruoho 	err = sysctl_createv(clog, 0, &rnode, &rnode,
1.165    jruoho 	    CTLFLAG_PERMANENT, CTLTYPE_NODE,
1.165    jruoho 	    "stat", SYSCTL_DESCR("ACPI statistics"),
1.165    jruoho 	    NULL, 0, NULL, 0,
1.165    jruoho 	    CTL_CREATE, CTL_EOL);
1.165    jruoho
1.165    jruoho 	if (err != 0)
 1.86  jmcneill 		return;
1.165    jruoho
1.165    jruoho 	(void)sysctl_createv(clog, 0, &rnode, NULL,
1.165    jruoho 	    CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD,
1.165    jruoho 	    "gpe", SYSCTL_DESCR("Number of dispatched GPEs"),
1.165    jruoho 	    NULL, 0, &AcpiGpeCount, sizeof(AcpiGpeCount),
1.165    jruoho 	    CTL_CREATE, CTL_EOL);
1.165    jruoho
1.165    jruoho 	(void)sysctl_createv(clog, 0, &rnode, NULL,
1.165    jruoho 	    CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD,
1.165    jruoho 	    "sci", SYSCTL_DESCR("Number of SCI interrupts"),
1.165    jruoho 	    NULL, 0, &AcpiSciCount, sizeof(AcpiSciCount),
1.165    jruoho 	    CTL_CREATE, CTL_EOL);
1.165    jruoho
1.165    jruoho 	(void)sysctl_createv(clog, 0, &rnode, NULL,
1.165    jruoho 	    CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD,
1.165    jruoho 	    "fixed", SYSCTL_DESCR("Number of fixed events"),
1.165    jruoho 	    sysctl_hw_acpi_fixedstats, 0, NULL, 0,
1.165    jruoho 	    CTL_CREATE, CTL_EOL);
1.165    jruoho
1.165    jruoho 	(void)sysctl_createv(clog, 0, &rnode, NULL,
1.165    jruoho 	    CTLFLAG_PERMANENT | CTLFLAG_READONLY, CTLTYPE_QUAD,
1.165    jruoho 	    "method", SYSCTL_DESCR("Number of methods executed"),
1.165    jruoho 	    NULL, 0, &AcpiMethodCount, sizeof(AcpiMethodCount),
1.165    jruoho 	    CTL_CREATE, CTL_EOL);
1.165    jruoho
1.165    jruoho 	CTASSERT(sizeof(AcpiGpeCount) == sizeof(uint64_t));
1.165    jruoho 	CTASSERT(sizeof(AcpiSciCount) == sizeof(uint64_t));
1.165    jruoho }
1.165    jruoho
1.165    jruoho static int
1.165    jruoho sysctl_hw_acpi_fixedstats(SYSCTLFN_ARGS)
1.165    jruoho {
1.165    jruoho 	struct sysctlnode node;
1.165    jruoho 	uint64_t t;
1.165    jruoho 	int err, i;
1.165    jruoho
1.165    jruoho 	for (i = t = 0; i < __arraycount(AcpiFixedEventCount); i++)
1.165    jruoho 		t += AcpiFixedEventCount[i];
1.165    jruoho
1.165    jruoho 	node = *rnode;
1.165    jruoho 	node.sysctl_data = &t;
1.165    jruoho
1.165    jruoho 	err = sysctl_lookup(SYSCTLFN_CALL(&node));
1.165    jruoho
1.165    jruoho 	if (err || newp == NULL)
1.165    jruoho 		return err;
1.165    jruoho
1.165    jruoho 	return 0;
 1.86  jmcneill }
 1.86  jmcneill
 1.86  jmcneill static int
 1.86  jmcneill sysctl_hw_acpi_sleepstate(SYSCTLFN_ARGS)
 1.86  jmcneill {
1.166    jruoho 	struct acpi_softc *sc = acpi_softc;
 1.86  jmcneill 	struct sysctlnode node;
1.165    jruoho 	int err, t;
 1.86  jmcneill
1.166    jruoho 	if (acpi_softc == NULL)
1.166    jruoho 		return ENOSYS;
1.166    jruoho
 1.86  jmcneill 	node = *rnode;
1.166    jruoho 	t = sc->sc_sleepstate;
 1.86  jmcneill 	node.sysctl_data = &t;
1.165    jruoho
1.165    jruoho 	err = sysctl_lookup(SYSCTLFN_CALL(&node));
1.165    jruoho
1.165    jruoho 	if (err || newp == NULL)
1.165    jruoho 		return err;
 1.86  jmcneill
1.166    jruoho 	if (t < ACPI_STATE_S0 || t > ACPI_STATE_S5)
1.166    jruoho 		return EINVAL;
1.166    jruoho
1.222    jruoho 	acpi_enter_sleep_state(t);
1.166    jruoho
1.166    jruoho 	return 0;
1.166    jruoho }
1.166    jruoho
1.166    jruoho static int
1.166    jruoho sysctl_hw_acpi_sleepstates(SYSCTLFN_ARGS)
1.166    jruoho {
1.166    jruoho 	struct acpi_softc *sc = acpi_softc;
1.166    jruoho 	struct sysctlnode node;
1.166    jruoho 	char t[3 * 6 + 1];
1.166    jruoho 	int err;
1.166    jruoho
 1.92  christos 	if (acpi_softc == NULL)
 1.92  christos 		return ENOSYS;
 1.86  jmcneill
1.166    jruoho 	(void)memset(t, '\0', sizeof(t));
1.166    jruoho
1.166    jruoho 	(void)snprintf(t, sizeof(t), "%s%s%s%s%s%s",
1.166    jruoho 	    ((sc->sc_sleepstates & __BIT(0)) != 0) ? "S0 " : "",
1.166    jruoho 	    ((sc->sc_sleepstates & __BIT(1)) != 0) ? "S1 " : "",
1.166    jruoho 	    ((sc->sc_sleepstates & __BIT(2)) != 0) ? "S2 " : "",
1.166    jruoho 	    ((sc->sc_sleepstates & __BIT(3)) != 0) ? "S3 " : "",
1.166    jruoho 	    ((sc->sc_sleepstates & __BIT(4)) != 0) ? "S4 " : "",
1.166    jruoho 	    ((sc->sc_sleepstates & __BIT(5)) != 0) ? "S5 " : "");
1.166    jruoho
1.166    jruoho 	node = *rnode;
1.166    jruoho 	node.sysctl_data = &t;
1.166    jruoho
1.166    jruoho 	err = sysctl_lookup(SYSCTLFN_CALL(&node));
1.165    jruoho
1.166    jruoho 	if (err || newp == NULL)
1.166    jruoho 		return err;
 1.86  jmcneill
 1.86  jmcneill 	return 0;
 1.79      cube }
1.108  jmcneill
1.169    jruoho /*
1.212    jruoho  * Tables.
1.169    jruoho  */
1.169    jruoho ACPI_PHYSICAL_ADDRESS
1.169    jruoho acpi_OsGetRootPointer(void)
1.169    jruoho {
1.169    jruoho 	ACPI_PHYSICAL_ADDRESS PhysicalAddress;
1.169    jruoho
1.169    jruoho 	/*
1.172    jruoho 	 * We let MD code handle this since there are multiple ways to do it:
1.169    jruoho 	 *
1.172    jruoho 	 *	IA-32: Use AcpiFindRootPointer() to locate the RSDP.
1.169    jruoho 	 *
1.172    jruoho 	 *	IA-64: Use the EFI.
1.169    jruoho 	 */
1.169    jruoho 	PhysicalAddress = acpi_md_OsGetRootPointer();
1.169    jruoho
1.169    jruoho 	if (acpi_root_pointer == 0)
1.169    jruoho 		acpi_root_pointer = PhysicalAddress;
1.169    jruoho
1.169    jruoho 	return PhysicalAddress;
1.169    jruoho }
1.169    jruoho
1.108  jmcneill static ACPI_TABLE_HEADER *
1.108  jmcneill acpi_map_rsdt(void)
1.108  jmcneill {
1.108  jmcneill 	ACPI_PHYSICAL_ADDRESS paddr;
1.108  jmcneill 	ACPI_TABLE_RSDP *rsdp;
1.108  jmcneill
1.108  jmcneill 	paddr = AcpiOsGetRootPointer();
1.172    jruoho
1.172    jruoho 	if (paddr == 0)
1.108  jmcneill 		return NULL;
1.172    jruoho
1.108  jmcneill 	rsdp = AcpiOsMapMemory(paddr, sizeof(ACPI_TABLE_RSDP));
1.172    jruoho
1.172    jruoho 	if (rsdp == NULL)
1.108  jmcneill 		return NULL;
1.172    jruoho
1.108  jmcneill 	if (rsdp->Revision > 1 && rsdp->XsdtPhysicalAddress)
1.172    jruoho 		paddr = rsdp->XsdtPhysicalAddress;
1.108  jmcneill 	else
1.172    jruoho 		paddr = rsdp->RsdtPhysicalAddress;
1.172    jruoho
1.108  jmcneill 	AcpiOsUnmapMemory(rsdp, sizeof(ACPI_TABLE_RSDP));
1.108  jmcneill
1.108  jmcneill 	return AcpiOsMapMemory(paddr, sizeof(ACPI_TABLE_HEADER));
1.108  jmcneill }
1.108  jmcneill
1.238    jruoho /*
1.238    jruoho  * XXX: Refactor to be a generic function that unmaps tables.
1.238    jruoho  */
1.108  jmcneill static void
1.108  jmcneill acpi_unmap_rsdt(ACPI_TABLE_HEADER *rsdt)
1.108  jmcneill {
1.172    jruoho
1.108  jmcneill 	if (rsdt == NULL)
1.108  jmcneill 		return;
1.108  jmcneill
1.108  jmcneill 	AcpiOsUnmapMemory(rsdt, sizeof(ACPI_TABLE_HEADER));
1.108  jmcneill }
1.211    jruoho
1.211    jruoho /*
1.212    jruoho  * XXX: Refactor to be a generic function that maps tables.
1.212    jruoho  */
1.212    jruoho ACPI_STATUS
1.212    jruoho acpi_madt_map(void)
1.212    jruoho {
1.212    jruoho 	ACPI_STATUS  rv;
1.212    jruoho
1.212    jruoho 	if (madt_header != NULL)
1.212    jruoho 		return AE_ALREADY_EXISTS;
1.212    jruoho
1.212    jruoho 	rv = AcpiGetTable(ACPI_SIG_MADT, 1, &madt_header);
1.212    jruoho
1.212    jruoho 	if (ACPI_FAILURE(rv))
1.212    jruoho 		return rv;
1.212    jruoho
1.212    jruoho 	return AE_OK;
1.212    jruoho }
1.212    jruoho
1.212    jruoho void
1.212    jruoho acpi_madt_unmap(void)
1.212    jruoho {
1.212    jruoho 	madt_header = NULL;
1.212    jruoho }
1.212    jruoho
1.273  jmcneill ACPI_STATUS
1.273  jmcneill acpi_gtdt_map(void)
1.273  jmcneill {
1.273  jmcneill 	ACPI_STATUS  rv;
1.273  jmcneill
1.273  jmcneill 	if (gtdt_header != NULL)
1.273  jmcneill 		return AE_ALREADY_EXISTS;
1.273  jmcneill
1.273  jmcneill 	rv = AcpiGetTable(ACPI_SIG_GTDT, 1, &gtdt_header);
1.273  jmcneill
1.273  jmcneill 	if (ACPI_FAILURE(rv))
1.273  jmcneill 		return rv;
1.273  jmcneill
1.273  jmcneill 	return AE_OK;
1.273  jmcneill }
1.273  jmcneill
1.273  jmcneill void
1.273  jmcneill acpi_gtdt_unmap(void)
1.273  jmcneill {
1.273  jmcneill 	gtdt_header = NULL;
1.273  jmcneill }
1.273  jmcneill
1.212    jruoho /*
1.212    jruoho  * XXX: Refactor to be a generic function that walks tables.
1.212    jruoho  */
1.212    jruoho void
1.212    jruoho acpi_madt_walk(ACPI_STATUS (*func)(ACPI_SUBTABLE_HEADER *, void *), void *aux)
1.212    jruoho {
1.212    jruoho 	ACPI_SUBTABLE_HEADER *hdrp;
1.212    jruoho 	char *madtend, *where;
1.212    jruoho
1.212    jruoho 	madtend = (char *)madt_header + madt_header->Length;
1.212    jruoho 	where = (char *)madt_header + sizeof (ACPI_TABLE_MADT);
1.212    jruoho
1.212    jruoho 	while (where < madtend) {
1.212    jruoho
1.212    jruoho 		hdrp = (ACPI_SUBTABLE_HEADER *)where;
1.212    jruoho
1.284  jmcneill 		if (hdrp->Length == 0 || ACPI_FAILURE(func(hdrp, aux)))
1.212    jruoho 			break;
1.212    jruoho
1.212    jruoho 		where += hdrp->Length;
1.212    jruoho 	}
1.212    jruoho }
1.212    jruoho
1.273  jmcneill void
1.273  jmcneill acpi_gtdt_walk(ACPI_STATUS (*func)(ACPI_GTDT_HEADER *, void *), void *aux)
1.273  jmcneill {
1.273  jmcneill 	ACPI_GTDT_HEADER *hdrp;
1.273  jmcneill 	char *gtdtend, *where;
1.273  jmcneill
1.273  jmcneill 	gtdtend = (char *)gtdt_header + gtdt_header->Length;
1.273  jmcneill 	where = (char *)gtdt_header + sizeof (ACPI_TABLE_GTDT);
1.273  jmcneill
1.273  jmcneill 	while (where < gtdtend) {
1.273  jmcneill
1.273  jmcneill 		hdrp = (ACPI_GTDT_HEADER *)where;
1.273  jmcneill
1.284  jmcneill 		if (hdrp->Length == 0 || ACPI_FAILURE(func(hdrp, aux)))
1.273  jmcneill 			break;
1.273  jmcneill
1.273  jmcneill 		where += hdrp->Length;
1.273  jmcneill 	}
1.273  jmcneill }
1.273  jmcneill
1.212    jruoho /*
1.212    jruoho  * Miscellaneous.
1.212    jruoho  */
1.212    jruoho static bool
1.212    jruoho acpi_is_scope(struct acpi_devnode *ad)
1.212    jruoho {
1.212    jruoho 	int i;
1.212    jruoho
1.212    jruoho 	/*
1.212    jruoho 	 * Return true if the node is a root scope.
1.212    jruoho 	 */
1.212    jruoho 	if (ad->ad_parent == NULL)
1.212    jruoho 		return false;
1.212    jruoho
1.212    jruoho 	if (ad->ad_parent->ad_handle != ACPI_ROOT_OBJECT)
1.212    jruoho 		return false;
1.212    jruoho
1.212    jruoho 	for (i = 0; i < __arraycount(acpi_scopes); i++) {
1.212    jruoho
1.212    jruoho 		if (acpi_scopes[i] == NULL)
1.212    jruoho 			continue;
1.212    jruoho
1.212    jruoho 		if (ad->ad_handle == acpi_scopes[i])
1.212    jruoho 			return true;
1.212    jruoho 	}
1.212    jruoho
1.212    jruoho 	return false;
1.212    jruoho }
1.212    jruoho
1.270  christos bool
1.270  christos acpi_device_present(ACPI_HANDLE handle)
1.270  christos {
1.270  christos 	ACPI_STATUS rv;
1.270  christos 	ACPI_INTEGER sta;
1.270  christos
1.270  christos 	rv = acpi_eval_integer(handle, "_STA", &sta);
1.270  christos
1.270  christos 	if (ACPI_FAILURE(rv)) {
1.270  christos 		/* No _STA method -> must be there */
1.270  christos 		return rv == AE_NOT_FOUND;
1.270  christos 	}
1.270  christos
1.270  christos 	return (sta & ACPI_STA_OK) == ACPI_STA_OK;
1.270  christos }
1.270  christos
1.212    jruoho /*
1.211    jruoho  * ACPIVERBOSE.
1.211    jruoho  */
1.211    jruoho void
1.211    jruoho acpi_load_verbose(void)
1.211    jruoho {
1.211    jruoho
1.216  pgoyette 	if (acpi_verbose_loaded == 0)
1.211    jruoho 		module_autoload("acpiverbose", MODULE_CLASS_MISC);
1.211    jruoho }
1.211    jruoho
1.211    jruoho void
1.211    jruoho acpi_print_verbose_stub(struct acpi_softc *sc)
1.211    jruoho {
1.211    jruoho
1.211    jruoho 	acpi_load_verbose();
1.211    jruoho
1.211    jruoho 	if (acpi_verbose_loaded != 0)
1.211    jruoho 		acpi_print_verbose(sc);
1.211    jruoho }
1.211    jruoho
1.211    jruoho void
1.211    jruoho acpi_print_dev_stub(const char *pnpstr)
1.211    jruoho {
1.211    jruoho
1.211    jruoho 	acpi_load_verbose();
1.211    jruoho
1.211    jruoho 	if (acpi_verbose_loaded != 0)
1.211    jruoho 		acpi_print_dev(pnpstr);
1.211    jruoho }
1.228    jruoho
1.239    jruoho MALLOC_DECLARE(M_ACPI); /* XXX: ACPI_ACTIVATE_DEV should use kmem(9). */
1.239    jruoho
1.228    jruoho /*
1.228    jruoho  * ACPI_ACTIVATE_DEV.
1.228    jruoho  */
1.228    jruoho static void
1.228    jruoho acpi_activate_device(ACPI_HANDLE handle, ACPI_DEVICE_INFO **di)
1.228    jruoho {
1.228    jruoho
1.228    jruoho #ifndef ACPI_ACTIVATE_DEV
1.228    jruoho 	return;
1.228    jruoho }
1.228    jruoho #else
1.269  christos 	static const int valid = ACPI_VALID_HID;
1.228    jruoho 	ACPI_DEVICE_INFO *newdi;
1.228    jruoho 	ACPI_STATUS rv;
1.228    jruoho
1.270  christos
1.228    jruoho 	/*
1.228    jruoho 	 * If the device is valid and present,
1.228    jruoho 	 * but not enabled, try to activate it.
1.228    jruoho 	 */
1.228    jruoho 	if (((*di)->Valid & valid) != valid)
1.228    jruoho 		return;
1.228    jruoho
1.270  christos 	if (!acpi_device_present(handle))
1.270  christos 		return;
1.270  christos
1.228    jruoho 	rv = acpi_allocate_resources(handle);
1.228    jruoho
1.228    jruoho 	if (ACPI_FAILURE(rv))
1.228    jruoho 		goto fail;
1.228    jruoho
1.228    jruoho 	rv = AcpiGetObjectInfo(handle, &newdi);
1.228    jruoho
1.228    jruoho 	if (ACPI_FAILURE(rv))
1.228    jruoho 		goto fail;
1.228    jruoho
1.228    jruoho 	ACPI_FREE(*di);
1.228    jruoho 	*di = newdi;
1.228    jruoho
1.228    jruoho 	aprint_verbose_dev(acpi_softc->sc_dev,
1.269  christos 	    "%s activated\n", (*di)->HardwareId.String);
1.228    jruoho
1.228    jruoho 	return;
1.228    jruoho
1.228    jruoho fail:
1.228    jruoho 	aprint_error_dev(acpi_softc->sc_dev, "failed to "
1.228    jruoho 	    "activate %s\n", (*di)->HardwareId.String);
1.228    jruoho }
1.228    jruoho
1.228    jruoho /*
1.228    jruoho  * XXX: This very incomplete.
1.228    jruoho  */
1.228    jruoho ACPI_STATUS
1.228    jruoho acpi_allocate_resources(ACPI_HANDLE handle)
1.228    jruoho {
1.228    jruoho 	ACPI_BUFFER bufp, bufc, bufn;
1.228    jruoho 	ACPI_RESOURCE *resp, *resc, *resn;
1.228    jruoho 	ACPI_RESOURCE_IRQ *irq;
1.257  christos #if 0
1.228    jruoho 	ACPI_RESOURCE_EXTENDED_IRQ *xirq;
1.257  christos #endif
1.228    jruoho 	ACPI_STATUS rv;
1.228    jruoho 	uint delta;
1.228    jruoho
1.228    jruoho 	rv = acpi_get(handle, &bufp, AcpiGetPossibleResources);
1.228    jruoho 	if (ACPI_FAILURE(rv))
1.228    jruoho 		goto out;
1.228    jruoho 	rv = acpi_get(handle, &bufc, AcpiGetCurrentResources);
1.228    jruoho 	if (ACPI_FAILURE(rv)) {
1.228    jruoho 		goto out1;
1.228    jruoho 	}
1.228    jruoho
1.228    jruoho 	bufn.Length = 1000;
1.228    jruoho 	bufn.Pointer = resn = malloc(bufn.Length, M_ACPI, M_WAITOK);
1.228    jruoho 	resp = bufp.Pointer;
1.228    jruoho 	resc = bufc.Pointer;
1.228    jruoho 	while (resc->Type != ACPI_RESOURCE_TYPE_END_TAG &&
1.228    jruoho 	       resp->Type != ACPI_RESOURCE_TYPE_END_TAG) {
1.228    jruoho 		while (resc->Type != resp->Type && resp->Type != ACPI_RESOURCE_TYPE_END_TAG)
1.228    jruoho 			resp = ACPI_NEXT_RESOURCE(resp);
1.228    jruoho 		if (resp->Type == ACPI_RESOURCE_TYPE_END_TAG)
1.228    jruoho 			break;
1.228    jruoho 		/* Found identical Id */
1.228    jruoho 		resn->Type = resc->Type;
1.228    jruoho 		switch (resc->Type) {
1.228    jruoho 		case ACPI_RESOURCE_TYPE_IRQ:
1.228    jruoho 			memcpy(&resn->Data, &resp->Data,
1.228    jruoho 			       sizeof(ACPI_RESOURCE_IRQ));
1.228    jruoho 			irq = (ACPI_RESOURCE_IRQ *)&resn->Data;
1.228    jruoho 			irq->Interrupts[0] =
1.228    jruoho 			    ((ACPI_RESOURCE_IRQ *)&resp->Data)->
1.228    jruoho 			        Interrupts[irq->InterruptCount-1];
1.228    jruoho 			irq->InterruptCount = 1;
1.228    jruoho 			resn->Length = ACPI_RS_SIZE(ACPI_RESOURCE_IRQ);
1.228    jruoho 			break;
1.228    jruoho 		case ACPI_RESOURCE_TYPE_EXTENDED_IRQ:
1.228    jruoho 			memcpy(&resn->Data, &resp->Data,
1.228    jruoho 			       sizeof(ACPI_RESOURCE_EXTENDED_IRQ));
1.257  christos #if 0
1.228    jruoho 			xirq = (ACPI_RESOURCE_EXTENDED_IRQ *)&resn->Data;
1.228    jruoho 			/*
1.228    jruoho 			 * XXX:	Not duplicating the interrupt logic above
1.228    jruoho 			 *	because its not clear what it accomplishes.
1.228    jruoho 			 */
1.228    jruoho 			xirq->Interrupts[0] =
1.228    jruoho 			    ((ACPI_RESOURCE_EXT_IRQ *)&resp->Data)->
1.228    jruoho 			    Interrupts[irq->NumberOfInterrupts-1];
1.228    jruoho 			xirq->NumberOfInterrupts = 1;
1.228    jruoho #endif
1.228    jruoho 			resn->Length = ACPI_RS_SIZE(ACPI_RESOURCE_EXTENDED_IRQ);
1.228    jruoho 			break;
1.228    jruoho 		case ACPI_RESOURCE_TYPE_IO:
1.228    jruoho 			memcpy(&resn->Data, &resp->Data,
1.228    jruoho 			       sizeof(ACPI_RESOURCE_IO));
1.228    jruoho 			resn->Length = resp->Length;
1.228    jruoho 			break;
1.228    jruoho 		default:
1.228    jruoho 			aprint_error_dev(acpi_softc->sc_dev,
1.228    jruoho 			    "%s: invalid type %u\n", __func__, resc->Type);
1.228    jruoho 			rv = AE_BAD_DATA;
1.228    jruoho 			goto out2;
1.228    jruoho 		}
1.228    jruoho 		resc = ACPI_NEXT_RESOURCE(resc);
1.228    jruoho 		resn = ACPI_NEXT_RESOURCE(resn);
1.228    jruoho 		resp = ACPI_NEXT_RESOURCE(resp);
1.228    jruoho 		delta = (uint8_t *)resn - (uint8_t *)bufn.Pointer;
1.228    jruoho 		if (delta >=
1.228    jruoho 		    bufn.Length-ACPI_RS_SIZE(ACPI_RESOURCE_DATA)) {
1.228    jruoho 			bufn.Length *= 2;
1.228    jruoho 			bufn.Pointer = realloc(bufn.Pointer, bufn.Length,
1.228    jruoho 					       M_ACPI, M_WAITOK);
1.228    jruoho 			resn = (ACPI_RESOURCE *)((uint8_t *)bufn.Pointer +
1.228    jruoho 			    delta);
1.228    jruoho 		}
1.228    jruoho 	}
1.228    jruoho
1.228    jruoho 	if (resc->Type != ACPI_RESOURCE_TYPE_END_TAG) {
1.228    jruoho 		aprint_error_dev(acpi_softc->sc_dev,
1.228    jruoho 		    "%s: resc not exhausted\n", __func__);
1.228    jruoho 		rv = AE_BAD_DATA;
1.228    jruoho 		goto out3;
1.228    jruoho 	}
1.228    jruoho
1.228    jruoho 	resn->Type = ACPI_RESOURCE_TYPE_END_TAG;
1.228    jruoho 	rv = AcpiSetCurrentResources(handle, &bufn);
1.228    jruoho
1.228    jruoho 	if (ACPI_FAILURE(rv))
1.228    jruoho 		aprint_error_dev(acpi_softc->sc_dev, "%s: failed to set "
1.228    jruoho 		    "resources: %s\n", __func__, AcpiFormatException(rv));
1.228    jruoho
1.228    jruoho out3:
1.228    jruoho 	free(bufn.Pointer, M_ACPI);
1.228    jruoho out2:
1.228    jruoho 	ACPI_FREE(bufc.Pointer);
1.228    jruoho out1:
1.228    jruoho 	ACPI_FREE(bufp.Pointer);
1.228    jruoho out:
1.228    jruoho 	return rv;
1.228    jruoho }
1.228    jruoho
1.228    jruoho #endif	/* ACPI_ACTIVATE_DEV */