dev/acpi/acpi_display.c

1.14  riastrad /*	$NetBSD: acpi_display.c,v 1.14 2016/02/18 15:42:44 riastradh Exp $	*/
 1.1    gsutre
 1.1    gsutre /*-
 1.1    gsutre  * Copyright (c) 2010 The NetBSD Foundation, Inc.
 1.1    gsutre  * All rights reserved.
 1.1    gsutre  *
 1.1    gsutre  * This code is derived from software contributed to The NetBSD Foundation
 1.1    gsutre  * by Gregoire Sutre.
 1.1    gsutre  *
 1.1    gsutre  * Redistribution and use in source and binary forms, with or without
 1.1    gsutre  * modification, are permitted provided that the following conditions
 1.1    gsutre  * are met:
 1.1    gsutre  * 1. Redistributions of source code must retain the above copyright
 1.1    gsutre  *    notice, this list of conditions and the following disclaimer.
 1.1    gsutre  * 2. Redistributions in binary form must reproduce the above copyright
 1.1    gsutre  *    notice, this list of conditions and the following disclaimer in the
 1.1    gsutre  *    documentation and/or other materials provided with the distribution.
 1.1    gsutre  *
 1.1    gsutre  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1    gsutre  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1    gsutre  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1    gsutre  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1    gsutre  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1    gsutre  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1    gsutre  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1    gsutre  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1    gsutre  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1    gsutre  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1    gsutre  * POSSIBILITY OF SUCH DAMAGE.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * ACPI Display Adapter Driver.
 1.1    gsutre  *
 1.1    gsutre  * Appendix B of the ACPI specification presents ACPI extensions for display
 1.1    gsutre  * adapters.  Systems containing a built-in display adapter are required to
 1.1    gsutre  * implement these extensions (in their ACPI BIOS).  This driver uses these
 1.1    gsutre  * extensions to provide generic support for brightness control and display
 1.1    gsutre  * switching.
 1.1    gsutre  *
 1.1    gsutre  * If brightness control methods are absent or non-functional, ACPI brightness
 1.1    gsutre  * notifications are relayed to the PMF framework.
 1.1    gsutre  *
 1.1    gsutre  * This driver sets the BIOS switch policy (_DOS method) as follows:
 1.1    gsutre  * - The BIOS should automatically switch the active display output, with no
 1.1    gsutre  *   interaction required on the OS part.
 1.1    gsutre  * - The BIOS should not automatically control the brightness levels.
 1.1    gsutre  *
 1.1    gsutre  * Brightness and BIOS switch policy can be adjusted from userland, via the
 1.1    gsutre  * sysctl variables acpivga<n>.policy and acpiout<n>.brightness under hw.acpi.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * The driver uses mutex(9) protection since changes to the hardware/software
 1.1    gsutre  * state may be initiated both by the BIOS (ACPI notifications) and by the user
 1.1    gsutre  * (sysctl).  The ACPI display adapter's mutex is shared with all ACPI display
 1.1    gsutre  * output devices attached to it.
 1.1    gsutre  *
 1.1    gsutre  * The mutex only prevents undesired interleavings of ACPI notify handlers,
 1.1    gsutre  * sysctl callbacks, and pmf(9) suspend/resume routines.  Race conditions with
 1.1    gsutre  * autoconf(9) detachment routines could, in theory, still occur.
 1.1    gsutre  *
 1.1    gsutre  * The array of connected output devices (sc_odinfo) is, after attachment, only
 1.1    gsutre  * used in ACPI notify handler callbacks.  Since two such callbacks cannot be
 1.1    gsutre  * running simultaneously, this information does not need protection.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre #include <sys/cdefs.h>
1.14  riastrad __KERNEL_RCSID(0, "$NetBSD: acpi_display.c,v 1.14 2016/02/18 15:42:44 riastradh Exp $");
 1.1    gsutre
 1.1    gsutre #include <sys/param.h>
 1.1    gsutre #include <sys/device.h>
 1.1    gsutre #include <sys/kmem.h>
 1.2    jruoho #include <sys/module.h>
 1.1    gsutre #include <sys/mutex.h>
 1.1    gsutre #include <sys/sysctl.h>
 1.1    gsutre #include <sys/systm.h>
 1.1    gsutre
 1.1    gsutre #include <dev/pci/pcireg.h>
 1.1    gsutre #include <dev/pci/pcidevs.h>
 1.1    gsutre
 1.1    gsutre #include <dev/acpi/acpireg.h>
 1.1    gsutre #include <dev/acpi/acpivar.h>
 1.1    gsutre
 1.1    gsutre #define _COMPONENT		ACPI_DISPLAY_COMPONENT
 1.1    gsutre ACPI_MODULE_NAME		("acpi_display")
 1.1    gsutre
 1.1    gsutre /* Notifications specific to display adapter devices (ACPI 4.0a, Sec. B.5). */
 1.1    gsutre #define ACPI_NOTIFY_CycleOutputDevice			0x80
 1.1    gsutre #define ACPI_NOTIFY_OutputDeviceStatusChange		0x81
 1.1    gsutre #define ACPI_NOTIFY_CycleDisplayOutputHotkeyPressed	0x82
 1.1    gsutre #define ACPI_NOTIFY_NextDisplayOutputHotkeyPressed	0x83
 1.1    gsutre #define ACPI_NOTIFY_PreviousDisplayOutputHotkeyPressed	0x84
 1.1    gsutre
 1.1    gsutre /* Notifications specific to display output devices (ACPI 4.0a, Sec. B.7). */
 1.1    gsutre #define ACPI_NOTIFY_CycleBrightness			0x85
 1.1    gsutre #define ACPI_NOTIFY_IncreaseBrightness			0x86
 1.1    gsutre #define ACPI_NOTIFY_DecreaseBrightness			0x87
 1.1    gsutre #define ACPI_NOTIFY_ZeroBrightness			0x88
 1.1    gsutre #define ACPI_NOTIFY_DisplayDeviceOff			0x89
 1.1    gsutre
 1.1    gsutre /* Format of the BIOS switch policy set by _DOS (ACPI 4.0a, Sec. B.4.1). */
 1.1    gsutre typedef union acpidisp_bios_policy_t {
 1.1    gsutre 	uint8_t			raw;
 1.1    gsutre 	struct {
 1.1    gsutre 		uint8_t		output:2;
 1.1    gsutre 		uint8_t		brightness:1;
 1.1    gsutre 		uint8_t		reserved:5;
 1.1    gsutre 	} __packed		fmt;
 1.1    gsutre } acpidisp_bios_policy_t;
 1.1    gsutre
 1.1    gsutre /* Default BIOS switch policy (ACPI 4.0a, Sec. B.4.1). */
 1.1    gsutre static const acpidisp_bios_policy_t acpidisp_default_bios_policy = {
 1.1    gsutre 	.raw = 0x1
 1.1    gsutre };
 1.1    gsutre
 1.1    gsutre /* BIOS output switch policies (ACPI 4.0a, Sec. B.4.1). */
 1.1    gsutre #define ACPI_DISP_POLICY_OUTPUT_NORMAL		0x0
 1.1    gsutre #define ACPI_DISP_POLICY_OUTPUT_AUTO		0x1
 1.1    gsutre #define ACPI_DISP_POLICY_OUTPUT_LOCKED		0x2
 1.1    gsutre #define ACPI_DISP_POLICY_OUTPUT_HOTKEY		0x3
 1.1    gsutre
 1.1    gsutre /* BIOS brightness switch policies (ACPI 4.0a, Sec. B.4.1). */
 1.1    gsutre #define ACPI_DISP_POLICY_BRIGHTNESS_AUTO	0x0
 1.1    gsutre #define ACPI_DISP_POLICY_BRIGHTNESS_NORMAL	0x1
 1.1    gsutre
 1.1    gsutre /* Format of output device attributes (ACPI 4.0a, Table B-2). */
 1.1    gsutre typedef union acpidisp_od_attrs_t {
 1.1    gsutre 	uint16_t		device_id;
 1.1    gsutre 	uint32_t		raw;
 1.1    gsutre 	struct {
 1.1    gsutre 		uint8_t		index:4;
 1.1    gsutre 		uint8_t		port:4;
 1.1    gsutre 		uint8_t		type:4;
 1.1    gsutre 		uint8_t		vendor_specific:4;
 1.1    gsutre 		uint8_t		bios_detect:1;
 1.1    gsutre 		uint8_t		non_vga:1;
 1.1    gsutre 		uint8_t		head_id:3;
 1.1    gsutre 		uint16_t	reserved:10;
 1.1    gsutre 		uint8_t		device_id_scheme:1;
 1.1    gsutre 	} __packed		fmt;
 1.1    gsutre } acpidisp_od_attrs_t;
 1.1    gsutre
 1.1    gsutre /* Common legacy output device IDs (ACPI 2.0c, Table B-3). */
 1.1    gsutre #define ACPI_DISP_OUT_LEGACY_DEVID_MONITOR	0x0100
 1.1    gsutre #define ACPI_DISP_OUT_LEGACY_DEVID_PANEL	0x0110
 1.1    gsutre #define ACPI_DISP_OUT_LEGACY_DEVID_TV		0x0200
 1.1    gsutre
 1.1    gsutre /* Output device display types (ACPI 4.0a, Table B-2). */
 1.1    gsutre #define ACPI_DISP_OUT_ATTR_TYPE_OTHER		0x0
 1.1    gsutre #define ACPI_DISP_OUT_ATTR_TYPE_VGA		0x1
 1.1    gsutre #define ACPI_DISP_OUT_ATTR_TYPE_TV		0x2
 1.1    gsutre #define ACPI_DISP_OUT_ATTR_TYPE_EXTDIG		0x3
 1.1    gsutre #define ACPI_DISP_OUT_ATTR_TYPE_INTDFP		0x4
 1.1    gsutre
 1.1    gsutre /* Format of output device status (ACPI 4.0a, Table B-4). */
 1.1    gsutre typedef union acpidisp_od_status_t {
 1.1    gsutre 	uint32_t		raw;
 1.1    gsutre 	struct {
 1.1    gsutre 		uint8_t		exists:1;
 1.1    gsutre 		uint8_t		activated:1;
 1.1    gsutre 		uint8_t		ready:1;
 1.1    gsutre 		uint8_t		not_defective:1;
 1.1    gsutre 		uint8_t		attached:1;
 1.1    gsutre 		uint32_t	reserved:27;
 1.1    gsutre 	} __packed		fmt;
 1.1    gsutre } acpidisp_od_status_t;
 1.1    gsutre
 1.1    gsutre /* Format of output device state (ACPI 4.0a, Table B-6). */
 1.1    gsutre typedef union acpidisp_od_state_t {
 1.1    gsutre 	uint32_t		raw;
 1.1    gsutre 	struct {
 1.1    gsutre 		uint8_t		active:1;
 1.1    gsutre 		uint32_t	reserved:29;
 1.1    gsutre 		uint8_t		no_switch:1;
 1.1    gsutre 		uint8_t		commit:1;
 1.1    gsutre 	} __packed		fmt;
 1.1    gsutre } acpidisp_od_state_t;
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_outdev:
 1.1    gsutre  *
 1.1    gsutre  *	Description of an ACPI display output device.  This structure groups
 1.1    gsutre  *	together:
 1.1    gsutre  *	- the output device attributes, given in the display adapter's _DOD
 1.1    gsutre  *	  method (ACPI 4.0a, Sec. B.4.2).
 1.1    gsutre  *	- the corresponding instance of the acpiout driver (if any).
 1.1    gsutre  */
 1.1    gsutre struct acpidisp_outdev {
 1.1    gsutre 	acpidisp_od_attrs_t	 od_attrs;	/* Attributes */
 1.1    gsutre 	device_t		 od_device;	/* Matching base device */
 1.1    gsutre };
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_odinfo:
 1.1    gsutre  *
 1.1    gsutre  *	Information on connected output devices (ACPI 4.0a, Sec. B.4.2).  This
 1.1    gsutre  *	structure enumerates all devices (_DOD package) connected to a display
 1.1    gsutre  *	adapter.  Currently, this information is only used for display output
 1.1    gsutre  *	switching via hotkey.
 1.1    gsutre  *
 1.1    gsutre  * Invariants (after initialization):
 1.1    gsutre  *
 1.1    gsutre  *	(oi_dev != NULL) && (oi_dev_count > 0)
 1.1    gsutre  */
 1.1    gsutre struct acpidisp_odinfo {
 1.1    gsutre 	struct acpidisp_outdev	*oi_dev;	/* Array of output devices */
 1.1    gsutre 	uint32_t		 oi_dev_count;	/* Number of output devices */
 1.1    gsutre };
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_vga_softc:
 1.1    gsutre  *
 1.1    gsutre  *	Software state of an ACPI display adapter.
 1.1    gsutre  *
 1.1    gsutre  * Invariants (after attachment):
 1.1    gsutre  *
 1.1    gsutre  *	((sc_caps & ACPI_DISP_VGA_CAP__DOD) == 0) => (sc_odinfo == NULL)
 1.1    gsutre  */
 1.1    gsutre struct acpidisp_vga_softc {
 1.1    gsutre 	device_t		 sc_dev;	/* Base device info */
 1.1    gsutre 	struct acpi_devnode	*sc_node;	/* ACPI device node */
 1.1    gsutre 	struct sysctllog	*sc_log;	/* Sysctl log */
 1.1    gsutre 	kmutex_t		 sc_mtx;	/* Mutex (shared w/ outputs) */
 1.1    gsutre 	uint16_t		 sc_caps;	/* Capabilities (methods) */
 1.1    gsutre 	acpidisp_bios_policy_t	 sc_policy;	/* BIOS switch policy (_DOS) */
 1.1    gsutre 	struct acpidisp_odinfo	*sc_odinfo;	/* Connected output devices */
 1.1    gsutre };
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * ACPI display adapter capabilities (methods).
 1.1    gsutre  */
 1.1    gsutre #define ACPI_DISP_VGA_CAP__DOS	__BIT(0)
 1.1    gsutre #define ACPI_DISP_VGA_CAP__DOD	__BIT(1)
 1.1    gsutre #define ACPI_DISP_VGA_CAP__ROM	__BIT(2)
 1.1    gsutre #define ACPI_DISP_VGA_CAP__GPD	__BIT(3)
 1.1    gsutre #define ACPI_DISP_VGA_CAP__SPD	__BIT(4)
 1.1    gsutre #define ACPI_DISP_VGA_CAP__VPO	__BIT(5)
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_acpivga_attach_args:
 1.1    gsutre  *
 1.1    gsutre  *	Attachment structure for the acpivga interface.  Used to attach display
 1.1    gsutre  *	output devices under a display adapter.
 1.1    gsutre  */
 1.1    gsutre struct acpidisp_acpivga_attach_args {
 1.1    gsutre 	struct acpi_devnode	*aa_node;	/* ACPI device node */
 1.1    gsutre 	kmutex_t		*aa_mtx;	/* Shared mutex */
 1.1    gsutre };
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_brctl:
 1.1    gsutre  *
 1.1    gsutre  *	Brightness control (ACPI 4.0a, Sec. B.6.2 to B.6.4).  This structure
 1.1    gsutre  *	contains the supported brightness levels (_BCL package) and the current
 1.1    gsutre  *	level.  Following Windows 7 brightness control, we ignore the fullpower
 1.1    gsutre  *	and battery levels (as it simplifies the code).
 1.1    gsutre  *
 1.1    gsutre  *	The array bc_level is sorted in strictly ascending order.
 1.1    gsutre  *
 1.1    gsutre  * Invariants (after initialization):
 1.1    gsutre  *
 1.1    gsutre  *	(bc_level != NULL) && (bc_level_count > 0)
 1.1    gsutre  */
 1.1    gsutre struct acpidisp_brctl {
 1.1    gsutre 	uint8_t		*bc_level;		/* Array of levels */
 1.1    gsutre 	uint16_t	 bc_level_count;	/* Number of levels */
 1.1    gsutre 	uint8_t		 bc_current;		/* Current level */
 1.1    gsutre };
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Minimum brightness increment/decrement in response to increase/decrease
 1.1    gsutre  * brightness hotkey notifications.  Must be strictly positive.
 1.1    gsutre  */
 1.1    gsutre #define ACPI_DISP_BRCTL_STEP	5
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_out_softc:
 1.1    gsutre  *
 1.1    gsutre  *	Software state of an ACPI display output device.
 1.1    gsutre  *
 1.1    gsutre  * Invariants (after attachment):
 1.1    gsutre  *
 1.1    gsutre  *	((sc_caps & ACPI_DISP_OUT_CAP__BCL) == 0) => (sc_brctl == NULL)
 1.1    gsutre  *	((sc_caps & ACPI_DISP_OUT_CAP__BCM) == 0) => (sc_brctl == NULL)
 1.1    gsutre  */
 1.1    gsutre struct acpidisp_out_softc {
 1.1    gsutre 	device_t		 sc_dev;	/* Base device info */
 1.1    gsutre 	struct acpi_devnode	*sc_node;	/* ACPI device node */
 1.1    gsutre 	struct sysctllog	*sc_log;	/* Sysctl log */
 1.1    gsutre 	kmutex_t		*sc_mtx;	/* Mutex (shared w/ adapter) */
 1.1    gsutre 	uint16_t		 sc_caps;	/* Capabilities (methods) */
 1.1    gsutre 	struct acpidisp_brctl	*sc_brctl;	/* Brightness control */
 1.1    gsutre };
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * ACPI display output device capabilities (methods).
 1.1    gsutre  */
 1.1    gsutre #define ACPI_DISP_OUT_CAP__BCL	__BIT(0)
 1.1    gsutre #define ACPI_DISP_OUT_CAP__BCM	__BIT(1)
 1.1    gsutre #define ACPI_DISP_OUT_CAP__BQC	__BIT(2)
 1.1    gsutre #define ACPI_DISP_OUT_CAP__DDC	__BIT(3)
 1.1    gsutre #define ACPI_DISP_OUT_CAP__DCS	__BIT(4)
 1.1    gsutre #define ACPI_DISP_OUT_CAP__DGS	__BIT(5)
 1.1    gsutre #define ACPI_DISP_OUT_CAP__DSS	__BIT(6)
 1.1    gsutre
 1.1    gsutre static int	acpidisp_vga_match(device_t, cfdata_t, void *);
 1.1    gsutre static void	acpidisp_vga_attach(device_t, device_t, void *);
 1.1    gsutre static int	acpidisp_vga_detach(device_t, int);
 1.1    gsutre static void	acpidisp_vga_childdetached(device_t, device_t);
 1.1    gsutre
 1.1    gsutre static void	acpidisp_vga_scan_outdevs(struct acpidisp_vga_softc *);
 1.1    gsutre static int	acpidisp_acpivga_print(void *, const char *);
 1.1    gsutre
 1.1    gsutre static int	acpidisp_out_match(device_t, cfdata_t, void *);
 1.1    gsutre static void	acpidisp_out_attach(device_t, device_t, void *);
 1.1    gsutre static int	acpidisp_out_detach(device_t, int);
 1.1    gsutre
 1.1    gsutre CFATTACH_DECL2_NEW(acpivga, sizeof(struct acpidisp_vga_softc),
 1.1    gsutre     acpidisp_vga_match, acpidisp_vga_attach, acpidisp_vga_detach, NULL,
 1.1    gsutre     NULL, acpidisp_vga_childdetached);
 1.1    gsutre
 1.1    gsutre CFATTACH_DECL_NEW(acpiout, sizeof(struct acpidisp_out_softc),
 1.1    gsutre     acpidisp_out_match, acpidisp_out_attach, acpidisp_out_detach, NULL);
 1.1    gsutre
 1.1    gsutre static bool	acpidisp_vga_resume(device_t, const pmf_qual_t *);
 1.1    gsutre static bool	acpidisp_out_suspend(device_t, const pmf_qual_t *);
 1.1    gsutre static bool	acpidisp_out_resume(device_t, const pmf_qual_t *);
 1.1    gsutre
 1.1    gsutre static uint16_t	acpidisp_vga_capabilities(const struct acpi_devnode *);
 1.1    gsutre static uint16_t	acpidisp_out_capabilities(const struct acpi_devnode *);
 1.1    gsutre static void	acpidisp_vga_print_capabilities(device_t, uint16_t);
 1.1    gsutre static void	acpidisp_out_print_capabilities(device_t, uint16_t);
 1.1    gsutre
 1.1    gsutre static void	acpidisp_vga_notify_handler(ACPI_HANDLE, uint32_t, void *);
 1.1    gsutre static void	acpidisp_out_notify_handler(ACPI_HANDLE, uint32_t, void *);
 1.1    gsutre
 1.1    gsutre static void	acpidisp_vga_cycle_output_device_callback(void *);
 1.1    gsutre static void	acpidisp_vga_output_device_change_callback(void *);
 1.1    gsutre static void	acpidisp_out_increase_brightness_callback(void *);
 1.1    gsutre static void	acpidisp_out_decrease_brightness_callback(void *);
 1.1    gsutre static void	acpidisp_out_cycle_brightness_callback(void *);
 1.1    gsutre static void	acpidisp_out_zero_brightness_callback(void *);
 1.1    gsutre
 1.1    gsutre static void	acpidisp_vga_sysctl_setup(struct acpidisp_vga_softc *);
 1.1    gsutre static void	acpidisp_out_sysctl_setup(struct acpidisp_out_softc *);
 1.4    gsutre #ifdef ACPI_DEBUG
 1.1    gsutre static int	acpidisp_vga_sysctl_policy(SYSCTLFN_PROTO);
 1.4    gsutre #endif
 1.4    gsutre static int	acpidisp_vga_sysctl_policy_output(SYSCTLFN_PROTO);
 1.1    gsutre #ifdef ACPI_DISP_SWITCH_SYSCTLS
 1.1    gsutre static int	acpidisp_out_sysctl_status(SYSCTLFN_PROTO);
 1.1    gsutre static int	acpidisp_out_sysctl_state(SYSCTLFN_PROTO);
 1.1    gsutre #endif
 1.1    gsutre static int	acpidisp_out_sysctl_brightness(SYSCTLFN_PROTO);
 1.1    gsutre
 1.1    gsutre static struct acpidisp_odinfo *
 1.1    gsutre 		acpidisp_init_odinfo(const struct acpidisp_vga_softc *);
 1.1    gsutre static void	acpidisp_vga_bind_outdevs(struct acpidisp_vga_softc *);
 1.1    gsutre static struct acpidisp_brctl *
 1.1    gsutre 		acpidisp_init_brctl(const struct acpidisp_out_softc *);
 1.1    gsutre
 1.1    gsutre static int	acpidisp_set_policy(const struct acpidisp_vga_softc *,
 1.1    gsutre 		    uint8_t);
 1.1    gsutre static int	acpidisp_get_status(const struct acpidisp_out_softc *,
 1.1    gsutre 		    uint32_t *);
 1.1    gsutre static int	acpidisp_get_state(const struct acpidisp_out_softc *,
 1.1    gsutre 		    uint32_t *);
 1.1    gsutre static int	acpidisp_set_state(const struct acpidisp_out_softc *,
 1.1    gsutre 		    uint32_t);
 1.1    gsutre static int	acpidisp_get_brightness(const struct acpidisp_out_softc *,
 1.1    gsutre 		    uint8_t *);
 1.1    gsutre static int	acpidisp_set_brightness(const struct acpidisp_out_softc *,
 1.1    gsutre 		    uint8_t);
 1.1    gsutre
 1.1    gsutre static void	acpidisp_print_odinfo(device_t, const struct acpidisp_odinfo *);
 1.1    gsutre static void	acpidisp_print_brctl(device_t, const struct acpidisp_brctl *);
 1.1    gsutre static void	acpidisp_print_od_attrs(acpidisp_od_attrs_t);
 1.1    gsutre
 1.1    gsutre static bool	acpidisp_has_method(ACPI_HANDLE, const char *,
 1.1    gsutre 		    ACPI_OBJECT_TYPE);
 1.1    gsutre static ACPI_STATUS
 1.1    gsutre 		acpidisp_eval_package(ACPI_HANDLE, const char *, ACPI_OBJECT **,
 1.1    gsutre 		    unsigned int);
 1.1    gsutre static void	acpidisp_array_search(const uint8_t *, uint16_t, int, uint8_t *,
 1.1    gsutre 		    uint8_t *);
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Autoconfiguration for the acpivga driver.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_vga_match(device_t parent, cfdata_t match, void *aux)
 1.1    gsutre {
 1.1    gsutre 	struct acpi_attach_args *aa = aux;
 1.1    gsutre 	struct acpi_devnode *ad = aa->aa_node;
 1.1    gsutre 	struct acpi_pci_info *ap;
 1.8    jruoho 	pcireg_t id, class;
 1.1    gsutre 	pcitag_t tag;
 1.1    gsutre
 1.1    gsutre 	if (ad->ad_type != ACPI_TYPE_DEVICE)
 1.1    gsutre 		return 0;
 1.1    gsutre
 1.1    gsutre 	ap = ad->ad_pciinfo;
 1.8    jruoho
 1.8    jruoho 	if (ap == NULL)
 1.8    jruoho 		return 0;
 1.8    jruoho
 1.8    jruoho 	if ((ap->ap_flags & ACPI_PCI_INFO_DEVICE) == 0)
 1.1    gsutre 		return 0;
 1.1    gsutre
 1.8    jruoho 	if (ap->ap_function == 0xffff)
 1.8    jruoho 		return 0;
 1.8    jruoho
 1.8    jruoho 	KASSERT(ap->ap_bus < 256);
 1.8    jruoho 	KASSERT(ap->ap_device < 32);
 1.8    jruoho 	KASSERT(ap->ap_function < 8);
 1.1    gsutre
 1.8    jruoho 	/*
 1.8    jruoho 	 * Check that the PCI device is present, verify
 1.8    jruoho 	 * the class of the PCI device, and finally see
 1.8    jruoho 	 * if the ACPI device is capable of something.
 1.8    jruoho 	 */
 1.8    jruoho 	tag = pci_make_tag(aa->aa_pc, ap->ap_bus,
 1.8    jruoho 	    ap->ap_device, ap->ap_function);
 1.1    gsutre
 1.8    jruoho 	id = pci_conf_read(aa->aa_pc, tag, PCI_ID_REG);
 1.8    jruoho
 1.8    jruoho 	if (PCI_VENDOR(id) == PCI_VENDOR_INVALID || PCI_VENDOR(id) == 0)
 1.1    gsutre 		return 0;
 1.1    gsutre
 1.8    jruoho 	class = pci_conf_read(aa->aa_pc, tag, PCI_CLASS_REG);
 1.8    jruoho
 1.1    gsutre 	if (PCI_CLASS(class) != PCI_CLASS_DISPLAY)
 1.1    gsutre 		return 0;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_vga_capabilities(ad) == 0)
 1.1    gsutre 		return 0;
 1.1    gsutre
 1.1    gsutre 	return 1;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_attach(device_t parent, device_t self, void *aux)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_vga_softc *asc = device_private(self);
 1.1    gsutre 	struct acpi_attach_args *aa = aux;
 1.1    gsutre 	struct acpi_devnode *ad = aa->aa_node;
 1.1    gsutre
 1.1    gsutre 	aprint_naive(": ACPI Display Adapter\n");
 1.1    gsutre 	aprint_normal(": ACPI Display Adapter\n");
 1.1    gsutre
 1.8    jruoho 	asc->sc_node = ad;
 1.1    gsutre 	asc->sc_dev = self;
 1.1    gsutre 	asc->sc_log = NULL;
 1.8    jruoho
 1.1    gsutre 	mutex_init(&asc->sc_mtx, MUTEX_DEFAULT, IPL_NONE);
 1.8    jruoho
 1.1    gsutre 	asc->sc_caps = acpidisp_vga_capabilities(ad);
 1.1    gsutre 	asc->sc_policy = acpidisp_default_bios_policy;
 1.1    gsutre 	asc->sc_odinfo = NULL;
 1.1    gsutre
 1.1    gsutre 	acpidisp_vga_print_capabilities(self, asc->sc_caps);
 1.1    gsutre
 1.8    jruoho 	/*
 1.8    jruoho 	 * Enumerate connected output devices, attach
 1.8    jruoho 	 * output display devices, and bind the attached
 1.8    jruoho 	 * output devices to the enumerated ones.
 1.8    jruoho 	 */
 1.1    gsutre 	asc->sc_odinfo = acpidisp_init_odinfo(asc);
 1.1    gsutre
 1.1    gsutre 	acpidisp_vga_scan_outdevs(asc);
 1.1    gsutre
 1.1    gsutre 	if (asc->sc_odinfo != NULL) {
 1.1    gsutre 		acpidisp_vga_bind_outdevs(asc);
 1.1    gsutre 		acpidisp_print_odinfo(self, asc->sc_odinfo);
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Set BIOS automatic switch policy.
 1.1    gsutre 	 *
 1.8    jruoho 	 * Many laptops do not support output device switching with
 1.8    jruoho 	 * the methods specified in the ACPI extensions for display
 1.8    jruoho 	 * adapters. Therefore, we leave the BIOS output switch policy
 1.8    jruoho 	 * on "auto" instead of setting it to "normal".
 1.1    gsutre 	 */
 1.1    gsutre 	asc->sc_policy.fmt.output = ACPI_DISP_POLICY_OUTPUT_AUTO;
 1.1    gsutre 	asc->sc_policy.fmt.brightness = ACPI_DISP_POLICY_BRIGHTNESS_NORMAL;
 1.8    jruoho
 1.1    gsutre 	if (acpidisp_set_policy(asc, asc->sc_policy.raw))
 1.1    gsutre 		asc->sc_policy = acpidisp_default_bios_policy;
 1.1    gsutre
 1.1    gsutre 	acpidisp_vga_sysctl_setup(asc);
 1.1    gsutre
 1.8    jruoho 	(void)pmf_device_register(self, NULL, acpidisp_vga_resume);
 1.8    jruoho 	(void)acpi_register_notify(asc->sc_node, acpidisp_vga_notify_handler);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_vga_detach(device_t self, int flags)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_vga_softc *asc = device_private(self);
 1.1    gsutre 	struct acpidisp_odinfo *oi = asc->sc_odinfo;
 1.1    gsutre 	int rc;
 1.1    gsutre
 1.1    gsutre 	pmf_device_deregister(self);
 1.1    gsutre
 1.1    gsutre 	if (asc->sc_log != NULL)
 1.1    gsutre 		sysctl_teardown(&asc->sc_log);
 1.1    gsutre
 1.1    gsutre 	asc->sc_policy = acpidisp_default_bios_policy;
 1.1    gsutre 	acpidisp_set_policy(asc, asc->sc_policy.raw);
 1.1    gsutre
 1.1    gsutre 	acpi_deregister_notify(asc->sc_node);
 1.1    gsutre
 1.1    gsutre 	if ((rc = config_detach_children(self, flags)) != 0)
 1.1    gsutre 		return rc;
 1.1    gsutre
 1.1    gsutre 	if (oi != NULL) {
 1.1    gsutre 		kmem_free(oi->oi_dev,
 1.1    gsutre 		    oi->oi_dev_count * sizeof(*oi->oi_dev));
 1.1    gsutre 		kmem_free(oi, sizeof(*oi));
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	mutex_destroy(&asc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre void
 1.1    gsutre acpidisp_vga_childdetached(device_t self, device_t child)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_vga_softc *asc = device_private(self);
 1.1    gsutre 	struct acpidisp_odinfo *oi = asc->sc_odinfo;
 1.1    gsutre 	struct acpidisp_outdev *od;
 1.1    gsutre 	struct acpi_devnode *ad;
 1.1    gsutre 	uint32_t i;
 1.1    gsutre
 1.1    gsutre 	SIMPLEQ_FOREACH(ad, &asc->sc_node->ad_child_head, ad_child_list) {
 1.1    gsutre
 1.1    gsutre 		if (ad->ad_device == child)
 1.1    gsutre 			ad->ad_device = NULL;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (oi == NULL)
 1.1    gsutre 		return;
 1.1    gsutre
 1.1    gsutre 	for (i = 0, od = oi->oi_dev; i < oi->oi_dev_count; i++, od++) {
 1.1    gsutre 		if (od->od_device == child)
 1.1    gsutre 			od->od_device = NULL;
 1.1    gsutre 	}
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Attachment of acpiout under acpivga.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_scan_outdevs(struct acpidisp_vga_softc *asc)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_acpivga_attach_args aa;
 1.1    gsutre 	struct acpi_devnode *ad;
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Display output devices are ACPI children of the display adapter.
 1.1    gsutre 	 */
 1.1    gsutre 	SIMPLEQ_FOREACH(ad, &asc->sc_node->ad_child_head, ad_child_list) {
 1.1    gsutre
 1.1    gsutre 		if (ad->ad_device != NULL)	/* This should not happen. */
 1.1    gsutre 			continue;
 1.1    gsutre
 1.1    gsutre 		aa.aa_node = ad;
 1.1    gsutre 		aa.aa_mtx = &asc->sc_mtx;
 1.1    gsutre
 1.1    gsutre 		ad->ad_device = config_found_ia(asc->sc_dev,
 1.1    gsutre 		    "acpivga", &aa, acpidisp_acpivga_print);
 1.1    gsutre 	}
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_acpivga_print(void *aux, const char *pnp)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_acpivga_attach_args *aa = aux;
 1.1    gsutre 	struct acpi_devnode *ad = aa->aa_node;
 1.1    gsutre
 1.1    gsutre 	if (pnp) {
 1.1    gsutre 		aprint_normal("%s at %s", ad->ad_name, pnp);
 1.1    gsutre 	} else {
 1.1    gsutre 		aprint_normal(" (%s", ad->ad_name);
 1.1    gsutre 		if (ad->ad_devinfo->Valid & ACPI_VALID_ADR)
 1.1    gsutre 			aprint_normal(", 0x%04"PRIx64, ad->ad_devinfo->Address);
 1.1    gsutre 		aprint_normal(")");
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return UNCONF;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Autoconfiguration for the acpiout driver.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_out_match(device_t parent, cfdata_t match, void *aux)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_acpivga_attach_args *aa = aux;
 1.1    gsutre 	struct acpi_devnode *ad = aa->aa_node;
 1.1    gsutre
 1.1    gsutre 	if (ad->ad_type != ACPI_TYPE_DEVICE)
 1.1    gsutre 		return 0;
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * The method _ADR is required for display output
 1.1    gsutre 	 * devices (ACPI 4.0a, Sec. B.6.1).
 1.1    gsutre 	 */
 1.1    gsutre 	if (!(acpidisp_has_method(ad->ad_handle, "_ADR", ACPI_TYPE_INTEGER)))
 1.1    gsutre 		return 0;
 1.1    gsutre
 1.1    gsutre 	return 1;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_attach(device_t parent, device_t self, void *aux)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = device_private(self);
 1.1    gsutre 	struct acpidisp_acpivga_attach_args *aa = aux;
 1.1    gsutre 	struct acpi_devnode *ad = aa->aa_node;
 1.1    gsutre 	struct acpidisp_brctl *bc;
 1.1    gsutre
 1.1    gsutre 	aprint_naive("\n");
 1.1    gsutre 	aprint_normal(": ACPI Display Output Device\n");
 1.1    gsutre
 1.1    gsutre 	osc->sc_dev = self;
 1.1    gsutre 	osc->sc_node = ad;
 1.1    gsutre 	osc->sc_log = NULL;
 1.1    gsutre 	osc->sc_mtx = aa->aa_mtx;
 1.1    gsutre 	osc->sc_caps = acpidisp_out_capabilities(ad);
 1.1    gsutre 	osc->sc_brctl = NULL;
 1.1    gsutre
 1.1    gsutre 	acpidisp_out_print_capabilities(self, osc->sc_caps);
 1.1    gsutre
 1.1    gsutre 	osc->sc_brctl = acpidisp_init_brctl(osc);
 1.1    gsutre 	bc = osc->sc_brctl;
 1.1    gsutre 	if (bc != NULL) {
 1.1    gsutre 		bc->bc_current = bc->bc_level[bc->bc_level_count - 1];
 1.1    gsutre
 1.1    gsutre 		/*
 1.1    gsutre 		 * Synchronize ACPI and driver brightness levels, and
 1.1    gsutre 		 * check that brightness control is working.
 1.1    gsutre 		 */
 1.1    gsutre 		(void)acpidisp_get_brightness(osc, &bc->bc_current);
 1.1    gsutre 		if (acpidisp_set_brightness(osc, bc->bc_current)) {
 1.1    gsutre 			kmem_free(bc->bc_level,
 1.1    gsutre 			    bc->bc_level_count * sizeof(*bc->bc_level));
 1.1    gsutre 			kmem_free(bc, sizeof(*bc));
 1.1    gsutre 			osc->sc_brctl = NULL;
 1.1    gsutre 		} else {
 1.1    gsutre 			acpidisp_print_brctl(self, osc->sc_brctl);
 1.1    gsutre 		}
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	/* Install ACPI notify handler. */
 1.1    gsutre 	(void)acpi_register_notify(osc->sc_node, acpidisp_out_notify_handler);
 1.1    gsutre
 1.1    gsutre 	/* Setup sysctl. */
 1.1    gsutre 	acpidisp_out_sysctl_setup(osc);
 1.1    gsutre
 1.1    gsutre 	/* Power management. */
 1.1    gsutre 	if (!pmf_device_register(self, acpidisp_out_suspend,
 1.1    gsutre 	    acpidisp_out_resume))
 1.1    gsutre 		aprint_error_dev(self, "couldn't establish power handler\n");
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_out_detach(device_t self, int flags)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = device_private(self);
 1.1    gsutre 	struct acpidisp_brctl *bc = osc->sc_brctl;
 1.1    gsutre
 1.1    gsutre 	pmf_device_deregister(self);
 1.1    gsutre
 1.1    gsutre 	if (osc->sc_log != NULL)
 1.1    gsutre 		sysctl_teardown(&osc->sc_log);
 1.1    gsutre
 1.1    gsutre 	acpi_deregister_notify(osc->sc_node);
 1.1    gsutre
 1.1    gsutre 	if (bc != NULL) {
 1.1    gsutre 		kmem_free(bc->bc_level,
 1.1    gsutre 		    bc->bc_level_count * sizeof(*bc->bc_level));
 1.1    gsutre 		kmem_free(bc, sizeof(*bc));
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Power management.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static bool
 1.1    gsutre acpidisp_vga_resume(device_t self, const pmf_qual_t *qual)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_vga_softc *asc = device_private(self);
 1.1    gsutre
 1.1    gsutre 	mutex_enter(&asc->sc_mtx);
 1.1    gsutre 	(void)acpidisp_set_policy(asc, asc->sc_policy.raw);
 1.1    gsutre 	mutex_exit(&asc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	return true;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static bool
 1.1    gsutre acpidisp_out_suspend(device_t self, const pmf_qual_t *qual)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = device_private(self);
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre 	if (osc->sc_brctl != NULL)
 1.1    gsutre 		(void)acpidisp_get_brightness(osc, &osc->sc_brctl->bc_current);
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	return true;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static bool
 1.1    gsutre acpidisp_out_resume(device_t self, const pmf_qual_t *qual)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = device_private(self);
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre 	if (osc->sc_brctl != NULL)
 1.1    gsutre 		(void)acpidisp_set_brightness(osc, osc->sc_brctl->bc_current);
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	return true;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Capabilities (available methods).
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static uint16_t
 1.1    gsutre acpidisp_vga_capabilities(const struct acpi_devnode *ad)
 1.1    gsutre {
 1.1    gsutre 	uint16_t cap;
 1.1    gsutre
 1.1    gsutre 	cap = 0;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_DOS", ACPI_TYPE_METHOD))
 1.1    gsutre 		cap |= ACPI_DISP_VGA_CAP__DOS;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_DOD", ACPI_TYPE_PACKAGE))
 1.1    gsutre 		cap |= ACPI_DISP_VGA_CAP__DOD;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_ROM", ACPI_TYPE_BUFFER))
 1.1    gsutre 		cap |= ACPI_DISP_VGA_CAP__ROM;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_GPD", ACPI_TYPE_INTEGER))
 1.1    gsutre 		cap |= ACPI_DISP_VGA_CAP__GPD;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_SPD", ACPI_TYPE_METHOD))
 1.1    gsutre 		cap |= ACPI_DISP_VGA_CAP__SPD;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_VPO", ACPI_TYPE_INTEGER))
 1.1    gsutre 		cap |= ACPI_DISP_VGA_CAP__VPO;
 1.1    gsutre
 1.1    gsutre 	return cap;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_print_capabilities(device_t self, uint16_t cap)
 1.1    gsutre {
 1.1    gsutre 	aprint_debug_dev(self, "capabilities:%s%s%s%s%s%s\n",
 1.1    gsutre 	    (cap & ACPI_DISP_VGA_CAP__DOS) ? " _DOS" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_VGA_CAP__DOD) ? " _DOD" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_VGA_CAP__ROM) ? " _ROM" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_VGA_CAP__GPD) ? " _GPD" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_VGA_CAP__SPD) ? " _SPD" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_VGA_CAP__VPO) ? " _VPO" : "");
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static uint16_t
 1.1    gsutre acpidisp_out_capabilities(const struct acpi_devnode *ad)
 1.1    gsutre {
 1.1    gsutre 	uint16_t cap;
 1.1    gsutre
 1.1    gsutre 	cap = 0;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_BCL", ACPI_TYPE_PACKAGE))
 1.1    gsutre 		cap |= ACPI_DISP_OUT_CAP__BCL;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_BCM", ACPI_TYPE_METHOD))
 1.1    gsutre 		cap |= ACPI_DISP_OUT_CAP__BCM;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_BQC", ACPI_TYPE_INTEGER))
 1.1    gsutre 		cap |= ACPI_DISP_OUT_CAP__BQC;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_DDC", ACPI_TYPE_METHOD))
 1.1    gsutre 		cap |= ACPI_DISP_OUT_CAP__DDC;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_DCS", ACPI_TYPE_INTEGER))
 1.1    gsutre 		cap |= ACPI_DISP_OUT_CAP__DCS;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_DGS", ACPI_TYPE_INTEGER))
 1.1    gsutre 		cap |= ACPI_DISP_OUT_CAP__DGS;
 1.1    gsutre
 1.1    gsutre 	if (acpidisp_has_method(ad->ad_handle, "_DSS", ACPI_TYPE_METHOD))
 1.1    gsutre 		cap |= ACPI_DISP_OUT_CAP__DSS;
 1.1    gsutre
 1.1    gsutre 	return cap;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_print_capabilities(device_t self, uint16_t cap)
 1.1    gsutre {
 1.1    gsutre 	aprint_debug_dev(self, "capabilities:%s%s%s%s%s%s%s\n",
 1.1    gsutre 	    (cap & ACPI_DISP_OUT_CAP__BCL) ? " _BCL" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_OUT_CAP__BCM) ? " _BCM" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_OUT_CAP__BQC) ? " _BQC" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_OUT_CAP__DDC) ? " _DDC" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_OUT_CAP__DCS) ? " _DCS" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_OUT_CAP__DGS) ? " _DGS" : "",
 1.1    gsutre 	    (cap & ACPI_DISP_OUT_CAP__DSS) ? " _DSS" : "");
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * ACPI notify handlers.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_notify_handler(ACPI_HANDLE handle, uint32_t notify,
 1.1    gsutre     void *context)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_vga_softc *asc = device_private(context);
 1.1    gsutre 	ACPI_OSD_EXEC_CALLBACK callback;
 1.1    gsutre
 1.1    gsutre 	callback = NULL;
 1.1    gsutre
 1.1    gsutre 	switch (notify) {
 1.1    gsutre 	case ACPI_NOTIFY_CycleOutputDevice:
 1.1    gsutre 		callback = acpidisp_vga_cycle_output_device_callback;
 1.1    gsutre 		break;
 1.1    gsutre 	case ACPI_NOTIFY_OutputDeviceStatusChange:
 1.1    gsutre 		callback = acpidisp_vga_output_device_change_callback;
 1.1    gsutre 		break;
 1.1    gsutre 	case ACPI_NOTIFY_CycleDisplayOutputHotkeyPressed:
 1.1    gsutre 	case ACPI_NOTIFY_NextDisplayOutputHotkeyPressed:
 1.1    gsutre 	case ACPI_NOTIFY_PreviousDisplayOutputHotkeyPressed:
 1.1    gsutre 		aprint_debug_dev(asc->sc_dev,
 1.1    gsutre 		    "unhandled notify: 0x%"PRIx32"\n", notify);
 1.1    gsutre 		return;
 1.1    gsutre 	default:
 1.1    gsutre 		aprint_error_dev(asc->sc_dev,
 1.1    gsutre 		    "unknown notify: 0x%"PRIx32"\n", notify);
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	KASSERT(callback != NULL);
 1.1    gsutre 	(void)AcpiOsExecute(OSL_NOTIFY_HANDLER, callback, asc);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_notify_handler(ACPI_HANDLE handle, uint32_t notify,
 1.1    gsutre     void *context)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = device_private(context);
 1.1    gsutre 	ACPI_OSD_EXEC_CALLBACK callback;
 1.1    gsutre
 1.1    gsutre 	callback = NULL;
 1.1    gsutre
 1.1    gsutre 	switch (notify) {
 1.1    gsutre 	case ACPI_NOTIFY_IncreaseBrightness:
 1.1    gsutre 		callback = acpidisp_out_increase_brightness_callback;
 1.1    gsutre 		break;
 1.1    gsutre 	case ACPI_NOTIFY_DecreaseBrightness:
 1.1    gsutre 		callback = acpidisp_out_decrease_brightness_callback;
 1.1    gsutre 		break;
 1.1    gsutre 	case ACPI_NOTIFY_CycleBrightness:
 1.1    gsutre 		callback = acpidisp_out_cycle_brightness_callback;
 1.1    gsutre 		break;
 1.1    gsutre 	case ACPI_NOTIFY_ZeroBrightness:
 1.1    gsutre 		callback = acpidisp_out_zero_brightness_callback;
 1.1    gsutre 		break;
 1.1    gsutre 	case ACPI_NOTIFY_DisplayDeviceOff:
 1.1    gsutre 		aprint_debug_dev(osc->sc_dev,
 1.1    gsutre 		    "unhandled notify: 0x%"PRIx32"\n", notify);
 1.1    gsutre 		return;
 1.1    gsutre 	default:
 1.1    gsutre 		aprint_error_dev(osc->sc_dev,
 1.1    gsutre 		    "unknown notify: 0x%"PRIx32"\n", notify);
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	KASSERT(callback != NULL);
 1.1    gsutre 	(void)AcpiOsExecute(OSL_NOTIFY_HANDLER, callback, osc);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * ACPI notify callbacks.
 1.1    gsutre  *
 1.1    gsutre  * Exclusive access to the sc_odinfo field of struct acpidisp_vga_softc is
 1.1    gsutre  * guaranteed since:
 1.1    gsutre  *
 1.1    gsutre  * (a) this field is only used in ACPI display notify callbacks,
 1.1    gsutre  * (b) ACPI display notify callbacks are scheduled with AcpiOsExecute,
 1.1    gsutre  * (c) callbacks scheduled with AcpiOsExecute are executed sequentially.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_cycle_output_device_callback(void *arg)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_vga_softc *asc = arg;
 1.1    gsutre 	struct acpidisp_odinfo *oi = asc->sc_odinfo;
 1.1    gsutre 	struct acpidisp_outdev *od;
 1.1    gsutre 	struct acpidisp_out_softc *osc, *last_osc;
 1.1    gsutre 	acpidisp_od_state_t state, last_state;
 1.1    gsutre 	acpidisp_od_status_t status;
 1.5    gsutre 	acpidisp_bios_policy_t lock_policy;
 1.1    gsutre 	uint32_t i;
 1.1    gsutre
 1.1    gsutre 	if (oi == NULL)
 1.1    gsutre 		return;
 1.1    gsutre
 1.1    gsutre 	/* Mutual exclusion with callbacks of connected output devices. */
 1.1    gsutre 	mutex_enter(&asc->sc_mtx);
 1.1    gsutre
 1.5    gsutre 	/* Lock the _DGS values. */
 1.5    gsutre 	lock_policy = asc->sc_policy;
 1.5    gsutre 	lock_policy.fmt.output = ACPI_DISP_POLICY_OUTPUT_LOCKED;
 1.5    gsutre 	(void)acpidisp_set_policy(asc, lock_policy.raw);
 1.5    gsutre
 1.1    gsutre 	last_osc = NULL;
 1.1    gsutre 	for (i = 0, od = oi->oi_dev; i < oi->oi_dev_count; i++, od++) {
 1.1    gsutre 		if (od->od_device == NULL)
 1.1    gsutre 			continue;
 1.1    gsutre 		osc = device_private(od->od_device);
 1.1    gsutre
 1.1    gsutre 		if (!(osc->sc_caps & ACPI_DISP_OUT_CAP__DSS))
 1.1    gsutre 			continue;
 1.1    gsutre 		if (acpidisp_get_state(osc, &state.raw))
 1.1    gsutre 			continue;
 1.1    gsutre
 1.1    gsutre 		if (acpidisp_get_status(osc, &status.raw)) {
 1.1    gsutre 			state.fmt.no_switch = 0;
 1.1    gsutre 		} else {
 1.1    gsutre 			state.fmt.active &= status.fmt.ready;
 1.1    gsutre
 1.1    gsutre 			if (state.fmt.active == status.fmt.activated)
 1.1    gsutre 				state.fmt.no_switch = 1;
 1.1    gsutre 			else
 1.1    gsutre 				state.fmt.no_switch = 0;
 1.1    gsutre 		}
 1.1    gsutre
 1.1    gsutre 		state.fmt.commit = 0;
 1.1    gsutre
 1.1    gsutre 		if (last_osc != NULL)
 1.1    gsutre 			(void)acpidisp_set_state(last_osc, last_state.raw);
 1.1    gsutre
 1.1    gsutre 		last_osc = osc;
 1.1    gsutre 		last_state = state;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (last_osc != NULL) {
 1.1    gsutre 		last_state.fmt.commit = 1;
 1.1    gsutre 		(void)acpidisp_set_state(last_osc, last_state.raw);
 1.1    gsutre 	}
 1.1    gsutre
 1.5    gsutre 	/* Restore the original BIOS policy. */
 1.5    gsutre 	(void)acpidisp_set_policy(asc, asc->sc_policy.raw);
 1.5    gsutre
 1.1    gsutre 	mutex_exit(&asc->sc_mtx);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_output_device_change_callback(void *arg)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_vga_softc *asc = arg;
 1.1    gsutre 	struct acpidisp_odinfo *oi = asc->sc_odinfo;
 1.1    gsutre 	bool switch_outputs;
 1.1    gsutre
 1.1    gsutre 	if (oi != NULL) {
 1.1    gsutre 		kmem_free(oi->oi_dev,
 1.1    gsutre 		    oi->oi_dev_count * sizeof(*oi->oi_dev));
 1.1    gsutre 		kmem_free(oi, sizeof(*oi));
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	asc->sc_odinfo = acpidisp_init_odinfo(asc);
 1.1    gsutre 	if (asc->sc_odinfo != NULL) {
 1.1    gsutre 		acpidisp_vga_bind_outdevs(asc);
 1.1    gsutre 		acpidisp_print_odinfo(asc->sc_dev, asc->sc_odinfo);
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	/* Perform display output switch if needed. */
 1.1    gsutre 	mutex_enter(&asc->sc_mtx);
 1.1    gsutre 	switch_outputs =
 1.1    gsutre 	    (asc->sc_policy.fmt.output == ACPI_DISP_POLICY_OUTPUT_NORMAL);
 1.1    gsutre 	mutex_exit(&asc->sc_mtx);
 1.1    gsutre 	if (switch_outputs)
 1.1    gsutre 		acpidisp_vga_cycle_output_device_callback(arg);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_increase_brightness_callback(void *arg)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = arg;
 1.1    gsutre 	struct acpidisp_brctl *bc = osc->sc_brctl;
 1.1    gsutre 	uint8_t lo, up;
 1.1    gsutre
 1.1    gsutre 	if (bc == NULL) {
 1.1    gsutre 		/* Fallback to pmf(9). */
 1.1    gsutre 		pmf_event_inject(NULL, PMFE_DISPLAY_BRIGHTNESS_UP);
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	(void)acpidisp_get_brightness(osc, &bc->bc_current);
 1.1    gsutre
 1.1    gsutre 	acpidisp_array_search(bc->bc_level, bc->bc_level_count,
 1.1    gsutre 	    bc->bc_current + ACPI_DISP_BRCTL_STEP, &lo, &up);
 1.1    gsutre
 1.1    gsutre 	bc->bc_current = up;
 1.1    gsutre 	(void)acpidisp_set_brightness(osc, bc->bc_current);
 1.1    gsutre
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_decrease_brightness_callback(void *arg)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = arg;
 1.1    gsutre 	struct acpidisp_brctl *bc = osc->sc_brctl;
 1.1    gsutre 	uint8_t lo, up;
 1.1    gsutre
 1.1    gsutre 	if (bc == NULL) {
 1.1    gsutre 		/* Fallback to pmf(9). */
 1.1    gsutre 		pmf_event_inject(NULL, PMFE_DISPLAY_BRIGHTNESS_DOWN);
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	(void)acpidisp_get_brightness(osc, &bc->bc_current);
 1.1    gsutre
 1.1    gsutre 	acpidisp_array_search(bc->bc_level, bc->bc_level_count,
 1.1    gsutre 	    bc->bc_current - ACPI_DISP_BRCTL_STEP, &lo, &up);
 1.1    gsutre
 1.1    gsutre 	bc->bc_current = lo;
 1.1    gsutre 	(void)acpidisp_set_brightness(osc, bc->bc_current);
 1.1    gsutre
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_cycle_brightness_callback(void *arg)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = arg;
 1.1    gsutre 	struct acpidisp_brctl *bc = osc->sc_brctl;
 1.1    gsutre 	uint8_t lo, up;
 1.1    gsutre
 1.1    gsutre 	if (bc == NULL) {
 1.1    gsutre 		/* No fallback. */
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	(void)acpidisp_get_brightness(osc, &bc->bc_current);
 1.1    gsutre
 1.1    gsutre 	if (bc->bc_current >= bc->bc_level[bc->bc_level_count - 1]) {
 1.1    gsutre 		bc->bc_current = bc->bc_level[0];
 1.1    gsutre 	} else {
 1.1    gsutre 		acpidisp_array_search(bc->bc_level, bc->bc_level_count,
 1.1    gsutre 		    bc->bc_current + 1, &lo, &up);
 1.1    gsutre 		bc->bc_current = up;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	(void)acpidisp_set_brightness(osc, bc->bc_current);
 1.1    gsutre
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_zero_brightness_callback(void *arg)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_out_softc *osc = arg;
 1.1    gsutre 	struct acpidisp_brctl *bc = osc->sc_brctl;
 1.1    gsutre
 1.1    gsutre 	if (bc == NULL) {
 1.1    gsutre 		/* Fallback to pmf(9). */
 1.1    gsutre 		/* XXX Is this the intended meaning of PMFE_DISPLAY_REDUCED? */
 1.1    gsutre 		pmf_event_inject(NULL, PMFE_DISPLAY_REDUCED);
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	bc->bc_current = bc->bc_level[0];
 1.1    gsutre 	(void)acpidisp_set_brightness(osc, bc->bc_current);
 1.1    gsutre
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Sysctl setup.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_sysctl_setup(struct acpidisp_vga_softc *asc)
 1.1    gsutre {
 1.1    gsutre 	const struct sysctlnode *rnode;
 1.1    gsutre
 1.1    gsutre 	if (asc->sc_caps & ACPI_DISP_VGA_CAP__DOS) {
 1.1    gsutre 		if ((sysctl_createv(&asc->sc_log, 0, NULL, &rnode,
 1.1    gsutre 		    0, CTLTYPE_NODE, "acpi", NULL,
 1.1    gsutre 		    NULL, 0, NULL, 0,
1.11     pooka 		    CTL_HW, CTL_CREATE, CTL_EOL)) != 0)
 1.1    gsutre 			goto fail;
 1.1    gsutre
 1.1    gsutre 		if ((sysctl_createv(&asc->sc_log, 0, &rnode, &rnode,
 1.1    gsutre 		    0, CTLTYPE_NODE, device_xname(asc->sc_dev),
 1.1    gsutre 		    SYSCTL_DESCR("ACPI display adapter controls"),
 1.1    gsutre 		    NULL, 0, NULL, 0,
 1.1    gsutre 		    CTL_CREATE, CTL_EOL)) != 0)
 1.1    gsutre 			goto fail;
 1.1    gsutre
 1.4    gsutre #ifdef ACPI_DEBUG
 1.1    gsutre 		(void)sysctl_createv(&asc->sc_log, 0, &rnode, NULL,
 1.4    gsutre 		    CTLFLAG_READWRITE | CTLFLAG_HEX, CTLTYPE_INT, "bios_policy",
 1.4    gsutre 		    SYSCTL_DESCR("Current BIOS switch policies (debug)"),
1.10       dsl 		    acpidisp_vga_sysctl_policy, 0, (void *)asc, 0,
 1.1    gsutre 		    CTL_CREATE, CTL_EOL);
 1.4    gsutre #endif
 1.4    gsutre
 1.4    gsutre 		(void)sysctl_createv(&asc->sc_log, 0, &rnode, NULL,
 1.4    gsutre 		    CTLFLAG_READWRITE, CTLTYPE_BOOL, "bios_switch",
 1.4    gsutre 		    SYSCTL_DESCR("Current BIOS output switching policy"),
1.10       dsl 		    acpidisp_vga_sysctl_policy_output, 0, (void *)asc, 0,
 1.4    gsutre 		    CTL_CREATE, CTL_EOL);
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return;
 1.1    gsutre
 1.1    gsutre  fail:
 1.1    gsutre 	aprint_error_dev(asc->sc_dev, "couldn't add sysctl nodes\n");
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_out_sysctl_setup(struct acpidisp_out_softc *osc)
 1.1    gsutre {
 1.1    gsutre 	const struct sysctlnode *rnode;
 1.1    gsutre
 1.1    gsutre #ifdef ACPI_DISP_SWITCH_SYSCTLS
 1.1    gsutre 	if ((osc->sc_brctl != NULL) ||
 1.1    gsutre 	    (osc->sc_caps & ACPI_DISP_OUT_CAP__DCS) ||
 1.1    gsutre 	    (osc->sc_caps & ACPI_DISP_OUT_CAP__DGS)) {
 1.1    gsutre #else
 1.1    gsutre 	if (osc->sc_brctl != NULL) {
 1.1    gsutre #endif
 1.1    gsutre 		if ((sysctl_createv(&osc->sc_log, 0, NULL, &rnode,
 1.1    gsutre 		    0, CTLTYPE_NODE, "acpi", NULL,
 1.1    gsutre 		    NULL, 0, NULL, 0,
1.11     pooka 		    CTL_HW, CTL_CREATE, CTL_EOL)) != 0)
 1.1    gsutre 			goto fail;
 1.1    gsutre
 1.1    gsutre 		if ((sysctl_createv(&osc->sc_log, 0, &rnode, &rnode,
 1.1    gsutre 		    0, CTLTYPE_NODE, device_xname(osc->sc_dev),
 1.1    gsutre 		    SYSCTL_DESCR("ACPI display output device controls"),
 1.1    gsutre 		    NULL, 0, NULL, 0,
 1.1    gsutre 		    CTL_CREATE, CTL_EOL)) != 0)
 1.1    gsutre 			goto fail;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (osc->sc_brctl != NULL) {
 1.1    gsutre 		(void)sysctl_createv(&osc->sc_log, 0, &rnode, NULL,
 1.1    gsutre 		    CTLFLAG_READWRITE, CTLTYPE_INT, "brightness",
 1.1    gsutre 		    SYSCTL_DESCR("Current brightness level"),
1.10       dsl 		    acpidisp_out_sysctl_brightness, 0, (void *)osc, 0,
 1.1    gsutre 		    CTL_CREATE, CTL_EOL);
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre #ifdef ACPI_DISP_SWITCH_SYSCTLS
 1.1    gsutre 	if (osc->sc_caps & ACPI_DISP_OUT_CAP__DCS) {
 1.1    gsutre 		(void)sysctl_createv(&osc->sc_log, 0, &rnode, NULL,
 1.1    gsutre 		    CTLFLAG_READONLY | CTLFLAG_HEX, CTLTYPE_INT, "status",
 1.1    gsutre 		    SYSCTL_DESCR("Current status"),
1.10       dsl 		    acpidisp_out_sysctl_status, 0, (void *)osc, 0,
 1.1    gsutre 		    CTL_CREATE, CTL_EOL);
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (osc->sc_caps & ACPI_DISP_OUT_CAP__DGS) {
 1.1    gsutre 		int access;
 1.1    gsutre
 1.1    gsutre 		if (osc->sc_caps & ACPI_DISP_OUT_CAP__DSS)
 1.1    gsutre 			access = CTLFLAG_READWRITE;
 1.1    gsutre 		else
 1.1    gsutre 			access = CTLFLAG_READONLY;
 1.1    gsutre
 1.1    gsutre 		(void)sysctl_createv(&osc->sc_log, 0, &rnode, NULL,
 1.1    gsutre 		    access | CTLFLAG_HEX, CTLTYPE_INT, "state",
 1.1    gsutre 		    SYSCTL_DESCR("Next state (active or inactive)"),
1.10       dsl 		    acpidisp_out_sysctl_state, 0, (void *)osc, 0,
 1.1    gsutre 		    CTL_CREATE, CTL_EOL);
 1.1    gsutre 	}
 1.1    gsutre #endif
 1.1    gsutre
 1.1    gsutre 	return;
 1.1    gsutre
 1.1    gsutre  fail:
 1.1    gsutre 	aprint_error_dev(osc->sc_dev, "couldn't add sysctl nodes\n");
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Sysctl callbacks.
 1.1    gsutre  */
 1.1    gsutre
 1.4    gsutre #ifdef ACPI_DEBUG
 1.1    gsutre static int
 1.1    gsutre acpidisp_vga_sysctl_policy(SYSCTLFN_ARGS)
 1.1    gsutre {
 1.1    gsutre 	struct sysctlnode node;
 1.1    gsutre 	struct acpidisp_vga_softc *asc;
 1.1    gsutre 	uint32_t val;
 1.1    gsutre 	int error;
 1.1    gsutre
 1.1    gsutre 	node = *rnode;
 1.7    gsutre 	asc = node.sysctl_data;
 1.1    gsutre
 1.1    gsutre 	mutex_enter(&asc->sc_mtx);
 1.1    gsutre 	val = (uint32_t)asc->sc_policy.raw;
 1.1    gsutre 	mutex_exit(&asc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	node.sysctl_data = &val;
 1.1    gsutre 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
 1.1    gsutre 	if (error || newp == NULL)
 1.1    gsutre 		return error;
 1.1    gsutre
 1.1    gsutre 	if (val > 0x7)
 1.1    gsutre 		return EINVAL;
 1.1    gsutre
 1.1    gsutre 	mutex_enter(&asc->sc_mtx);
 1.1    gsutre 	asc->sc_policy.raw = (uint8_t)val;
 1.1    gsutre 	error = acpidisp_set_policy(asc, asc->sc_policy.raw);
 1.1    gsutre 	mutex_exit(&asc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	return error;
 1.1    gsutre }
 1.4    gsutre #endif
 1.4    gsutre
 1.4    gsutre static int
 1.4    gsutre acpidisp_vga_sysctl_policy_output(SYSCTLFN_ARGS)
 1.4    gsutre {
 1.4    gsutre 	struct sysctlnode node;
 1.4    gsutre 	struct acpidisp_vga_softc *asc;
 1.4    gsutre 	bool val;
 1.4    gsutre 	int error;
 1.4    gsutre
 1.4    gsutre 	node = *rnode;
 1.7    gsutre 	asc = node.sysctl_data;
 1.4    gsutre
 1.4    gsutre 	mutex_enter(&asc->sc_mtx);
 1.4    gsutre 	val = (asc->sc_policy.fmt.output == ACPI_DISP_POLICY_OUTPUT_AUTO);
 1.4    gsutre 	mutex_exit(&asc->sc_mtx);
 1.4    gsutre
 1.4    gsutre 	node.sysctl_data = &val;
 1.4    gsutre 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
 1.4    gsutre 	if (error || newp == NULL)
 1.4    gsutre 		return error;
 1.4    gsutre
 1.4    gsutre 	mutex_enter(&asc->sc_mtx);
 1.4    gsutre 	if (val)
 1.4    gsutre 		asc->sc_policy.fmt.output = ACPI_DISP_POLICY_OUTPUT_AUTO;
 1.4    gsutre 	else
 1.4    gsutre 		asc->sc_policy.fmt.output = ACPI_DISP_POLICY_OUTPUT_NORMAL;
 1.4    gsutre 	error = acpidisp_set_policy(asc, asc->sc_policy.raw);
 1.4    gsutre 	mutex_exit(&asc->sc_mtx);
 1.4    gsutre
 1.4    gsutre 	return error;
 1.4    gsutre }
 1.1    gsutre
 1.1    gsutre #ifdef ACPI_DISP_SWITCH_SYSCTLS
 1.1    gsutre static int
 1.1    gsutre acpidisp_out_sysctl_status(SYSCTLFN_ARGS)
 1.1    gsutre {
 1.1    gsutre 	struct sysctlnode node;
 1.1    gsutre 	struct acpidisp_out_softc *osc;
 1.1    gsutre 	uint32_t val;
 1.1    gsutre 	int error;
 1.1    gsutre
 1.1    gsutre 	node = *rnode;
 1.7    gsutre 	osc = node.sysctl_data;
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre 	error = acpidisp_get_status(osc, &val);
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	if (error)
 1.1    gsutre 		return error;
 1.1    gsutre
 1.1    gsutre 	node.sysctl_data = &val;
 1.1    gsutre 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
 1.1    gsutre 	if (error || newp == NULL)
 1.1    gsutre 		return error;
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_out_sysctl_state(SYSCTLFN_ARGS)
 1.1    gsutre {
 1.1    gsutre 	struct sysctlnode node;
 1.1    gsutre 	struct acpidisp_out_softc *osc;
 1.1    gsutre 	uint32_t val;
 1.1    gsutre 	int error;
 1.1    gsutre
 1.1    gsutre 	node = *rnode;
 1.7    gsutre 	osc = node.sysctl_data;
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre 	error = acpidisp_get_state(osc, &val);
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	if (error)
 1.1    gsutre 		return error;
 1.1    gsutre
 1.1    gsutre 	node.sysctl_data = &val;
 1.1    gsutre 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
 1.1    gsutre 	if (error || newp == NULL)
 1.1    gsutre 		return error;
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre 	error = acpidisp_set_state(osc, val);
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	return error;
 1.1    gsutre }
 1.1    gsutre #endif
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_out_sysctl_brightness(SYSCTLFN_ARGS)
 1.1    gsutre {
 1.1    gsutre 	struct sysctlnode node;
 1.1    gsutre 	struct acpidisp_out_softc *osc;
 1.1    gsutre 	struct acpidisp_brctl *bc;
 1.1    gsutre 	int val, error;
 1.1    gsutre 	uint8_t lo, up, level;
 1.1    gsutre
 1.1    gsutre 	node = *rnode;
 1.7    gsutre 	osc = node.sysctl_data;
 1.1    gsutre 	bc = osc->sc_brctl;
 1.1    gsutre
 1.1    gsutre 	KASSERT(bc != NULL);
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre 	(void)acpidisp_get_brightness(osc, &bc->bc_current);
 1.1    gsutre 	val = (int)bc->bc_current;
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	node.sysctl_data = &val;
 1.1    gsutre 	error = sysctl_lookup(SYSCTLFN_CALL(&node));
 1.1    gsutre 	if (error || newp == NULL)
 1.1    gsutre 		return error;
 1.1    gsutre
 1.1    gsutre 	acpidisp_array_search(bc->bc_level, bc->bc_level_count, val, &lo, &up);
 1.1    gsutre 	if ((lo != up) && (val - lo) < (up - val))
 1.1    gsutre 		level = lo;
 1.1    gsutre 	else
 1.1    gsutre 		level = up;
 1.1    gsutre
 1.1    gsutre 	mutex_enter(osc->sc_mtx);
 1.1    gsutre 	bc->bc_current = level;
 1.1    gsutre 	error = acpidisp_set_brightness(osc, bc->bc_current);
 1.1    gsutre 	mutex_exit(osc->sc_mtx);
 1.1    gsutre
 1.1    gsutre 	return error;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Initialization of acpidisp_odinfo (_DOD) and acpidisp_brctl (_BCL).
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Regarding _DOD (ACPI 4.0a, Sec. B.4.2):
 1.1    gsutre  *
 1.1    gsutre  * "The _DOD method returns a list of devices attached to the graphics adapter,
 1.1    gsutre  *  along with device-specific configuration information."
 1.1    gsutre  *
 1.1    gsutre  * "Every child device enumerated in the ACPI namespace under the graphics
 1.1    gsutre  *  adapter must be specified in this list of devices.  Each display device
 1.1    gsutre  *  must have its own ID, which is unique with respect to any other attachable
 1.1    gsutre  *  devices enumerated."
 1.1    gsutre  *
 1.1    gsutre  * "Return value: a package containing a variable-length list of integers,
 1.1    gsutre  *  each of which contains the 32-bit device attribute of a child device."
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static struct acpidisp_odinfo *
 1.1    gsutre acpidisp_init_odinfo(const struct acpidisp_vga_softc *asc)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = asc->sc_node->ad_handle;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre 	ACPI_OBJECT *pkg;
 1.1    gsutre 	struct acpidisp_odinfo *oi;
 1.1    gsutre 	struct acpidisp_outdev *devp;
 1.1    gsutre 	uint32_t count, i;
 1.1    gsutre
 1.1    gsutre 	if (!(asc->sc_caps & ACPI_DISP_VGA_CAP__DOD))
 1.1    gsutre 		return NULL;
 1.1    gsutre
 1.1    gsutre 	oi = NULL;
 1.6    jruoho 	pkg = NULL;
 1.1    gsutre
 1.1    gsutre 	rv = acpidisp_eval_package(hdl, "_DOD", &pkg, 1);
 1.1    gsutre 	if (ACPI_FAILURE(rv))
 1.1    gsutre 		goto fail;
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Allocate and fill the struct acpidisp_odinfo to be returned.
 1.1    gsutre 	 */
 1.1    gsutre 	oi = kmem_zalloc(sizeof(*oi), KM_SLEEP);
 1.1    gsutre 	if (oi == NULL) {
 1.1    gsutre 		rv = AE_NO_MEMORY;
 1.1    gsutre 		goto fail;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	oi->oi_dev_count = pkg->Package.Count;
 1.1    gsutre
 1.1    gsutre 	oi->oi_dev = kmem_zalloc(oi->oi_dev_count * sizeof(*oi->oi_dev),
 1.1    gsutre 	    KM_SLEEP);
 1.1    gsutre 	if (oi->oi_dev == NULL) {
 1.1    gsutre 		rv = AE_NO_MEMORY;
 1.1    gsutre 		goto fail;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Fill the array oi->oi_dev.
 1.1    gsutre 	 */
 1.1    gsutre 	for (count = 0, i = 0; i < pkg->Package.Count; i++) {
 1.1    gsutre 		/* List of 32-bit integers (ACPI 4.0a, Sec. B.4.2). */
 1.1    gsutre 		if (pkg->Package.Elements[i].Type != ACPI_TYPE_INTEGER ||
 1.1    gsutre 		    pkg->Package.Elements[i].Integer.Value > UINT32_MAX)
 1.1    gsutre 			continue;
 1.1    gsutre
 1.1    gsutre 		oi->oi_dev[count].od_attrs.raw =
 1.1    gsutre 		    (uint32_t)pkg->Package.Elements[i].Integer.Value;
 1.1    gsutre 		count++;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (count == 0) {
 1.1    gsutre 		rv = AE_BAD_DATA;
 1.1    gsutre 		goto fail;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	ACPI_FREE(pkg);
 1.1    gsutre 	pkg = NULL;
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Resize the array oi->oi_dev if needed.
 1.1    gsutre 	 */
 1.1    gsutre 	if (count < oi->oi_dev_count) {
 1.1    gsutre 		devp = kmem_alloc(count * sizeof(*devp), KM_SLEEP);
 1.1    gsutre 		if (devp == NULL) {
 1.1    gsutre 			rv = AE_NO_MEMORY;
 1.1    gsutre 			goto fail;
 1.1    gsutre 		}
 1.1    gsutre
 1.1    gsutre 		(void)memcpy(devp, oi->oi_dev, count * sizeof(*devp));
 1.1    gsutre 		kmem_free(oi->oi_dev, oi->oi_dev_count * sizeof(*oi->oi_dev));
 1.1    gsutre
 1.1    gsutre 		oi->oi_dev = devp;
 1.1    gsutre 		oi->oi_dev_count = count;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return oi;
 1.1    gsutre
 1.1    gsutre  fail:
 1.1    gsutre 	aprint_error_dev(asc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 	    acpi_name(hdl), "_DOD", AcpiFormatException(rv));
 1.1    gsutre 	if (pkg != NULL)
 1.1    gsutre 		ACPI_FREE(pkg);
 1.1    gsutre 	if (oi != NULL) {
 1.1    gsutre 		if (oi->oi_dev != NULL)
 1.1    gsutre 			kmem_free(oi->oi_dev,
 1.1    gsutre 			    oi->oi_dev_count * sizeof(*oi->oi_dev));
 1.1    gsutre 		kmem_free(oi, sizeof(*oi));
 1.1    gsutre 	}
 1.1    gsutre 	return NULL;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_vga_bind_outdevs:
 1.1    gsutre  *
 1.1    gsutre  *	Bind each acpiout device attached under an acpivga device to the
 1.1    gsutre  *	corresponding (_DOD enumerated) connected output device.
 1.1    gsutre  */
 1.1    gsutre static void
 1.1    gsutre acpidisp_vga_bind_outdevs(struct acpidisp_vga_softc *asc)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_odinfo *oi = asc->sc_odinfo;
 1.1    gsutre 	struct acpidisp_out_softc *osc;
 1.1    gsutre 	struct acpidisp_outdev *od;
 1.1    gsutre 	struct acpi_devnode *ad;
 1.1    gsutre 	ACPI_HANDLE hdl;
 1.7    gsutre 	ACPI_INTEGER val;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre 	uint16_t devid;
 1.1    gsutre 	uint32_t i;
 1.1    gsutre
 1.1    gsutre 	KASSERT(oi != NULL);
 1.1    gsutre
 1.1    gsutre 	/* Reset all bindings. */
 1.1    gsutre 	for (i = 0, od = oi->oi_dev; i < oi->oi_dev_count; i++, od++)
 1.1    gsutre 		od->od_device = NULL;
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Iterate over all ACPI children that have been attached under this
 1.1    gsutre 	 * acpivga device (as acpiout devices).
 1.1    gsutre 	 */
 1.1    gsutre 	SIMPLEQ_FOREACH(ad, &asc->sc_node->ad_child_head, ad_child_list) {
 1.1    gsutre 		if ((ad->ad_device == NULL) ||
 1.1    gsutre 		    (device_parent(ad->ad_device) != asc->sc_dev))
 1.1    gsutre 			continue;
 1.1    gsutre
 1.1    gsutre 		KASSERT(device_is_a(ad->ad_device, "acpiout"));
 1.1    gsutre
 1.1    gsutre 		osc = device_private(ad->ad_device);
 1.1    gsutre
 1.1    gsutre 		/*
 1.1    gsutre 		 * For display output devices, the method _ADR returns
 1.1    gsutre 		 * the device's ID (ACPI 4.0a, Sec. B.6.1).  We do not
 1.1    gsutre 		 * cache the result of _ADR since it may vary.
 1.1    gsutre 		 */
 1.1    gsutre 		hdl = osc->sc_node->ad_handle;
 1.1    gsutre 		rv = acpi_eval_integer(hdl, "_ADR", &val);
 1.1    gsutre 		if (ACPI_FAILURE(rv)) {
 1.1    gsutre 			aprint_error_dev(asc->sc_dev,
 1.1    gsutre 			    "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 			    acpi_name(hdl), "_ADR", AcpiFormatException(rv));
 1.1    gsutre 			continue;
 1.1    gsutre 		}
 1.1    gsutre
 1.1    gsutre 		/* The device ID is a 16-bit integer (ACPI 4.0a, Table B-2). */
 1.1    gsutre 		devid = (uint16_t)val;
 1.1    gsutre
 1.1    gsutre 		/*
 1.1    gsutre 		 * The device ID must be unique (among output devices), and must
 1.1    gsutre 		 * appear in the list returned by _DOD (ACPI 4.0a, Sec. B.6.1).
 1.1    gsutre 		 */
 1.1    gsutre 		for (i = 0, od = oi->oi_dev; i < oi->oi_dev_count; i++, od++) {
 1.1    gsutre 			if (devid == od->od_attrs.device_id) {
 1.1    gsutre 				if (od->od_device != NULL)
 1.1    gsutre 					aprint_error_dev(asc->sc_dev,
 1.1    gsutre 					    "%s has same device ID as %s\n",
 1.1    gsutre 					    device_xname(osc->sc_dev),
 1.1    gsutre 					    device_xname(od->od_device));
 1.1    gsutre 				else
 1.1    gsutre 					od->od_device = osc->sc_dev;
 1.1    gsutre 				break;
 1.1    gsutre 			}
 1.1    gsutre 		}
 1.1    gsutre 		if (i == oi->oi_dev_count)
 1.1    gsutre 			aprint_error_dev(asc->sc_dev,
 1.1    gsutre 			    "unknown output device %s\n",
 1.1    gsutre 			    device_xname(osc->sc_dev));
 1.1    gsutre 	}
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Regarding _BCL (ACPI 4.0a, Sec. B.6.2):
 1.1    gsutre  *
 1.1    gsutre  * "This method allows the OS to query a list of brightness levels supported by
 1.1    gsutre  *  built-in display output devices."
 1.1    gsutre  *
 1.1    gsutre  * "Return value: a variable-length package containing a list of integers
 1.1    gsutre  *  representing the supported brightness levels.  Each integer has 8 bits of
 1.1    gsutre  *  significant data."
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static struct acpidisp_brctl *
 1.1    gsutre acpidisp_init_brctl(const struct acpidisp_out_softc *osc)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = osc->sc_node->ad_handle;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre 	ACPI_OBJECT *pkg;
 1.1    gsutre 	struct acpidisp_brctl *bc;
 1.1    gsutre 	uint8_t *levelp;
 1.1    gsutre 	uint32_t i;
 1.1    gsutre 	int32_t j;
 1.1    gsutre 	uint16_t count, k;
 1.1    gsutre 	uint8_t level;
 1.1    gsutre
 1.1    gsutre 	if (!(osc->sc_caps & ACPI_DISP_OUT_CAP__BCL))
 1.1    gsutre 		return NULL;
 1.1    gsutre
 1.1    gsutre 	bc = NULL;
 1.6    jruoho 	pkg = NULL;
 1.1    gsutre
 1.1    gsutre 	rv = acpidisp_eval_package(hdl, "_BCL", &pkg, 2);
 1.1    gsutre 	if (ACPI_FAILURE(rv))
 1.1    gsutre 		goto fail;
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Allocate and fill the struct acpidisp_brctl to be returned.
 1.1    gsutre 	 */
 1.1    gsutre 	bc = kmem_zalloc(sizeof(*bc), KM_SLEEP);
 1.1    gsutre 	if (bc == NULL) {
 1.1    gsutre 		rv = AE_NO_MEMORY;
 1.1    gsutre 		goto fail;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	/* At most 256 brightness levels (8-bit integers). */
 1.1    gsutre 	if (pkg->Package.Count > 256)
 1.1    gsutre 		bc->bc_level_count = 256;
 1.1    gsutre 	else
 1.1    gsutre 		bc->bc_level_count = (uint16_t)pkg->Package.Count;
 1.1    gsutre
 1.1    gsutre 	bc->bc_level = kmem_zalloc(bc->bc_level_count * sizeof(*bc->bc_level),
 1.1    gsutre 	    KM_SLEEP);
 1.1    gsutre 	if (bc->bc_level == NULL) {
 1.1    gsutre 		rv = AE_NO_MEMORY;
 1.1    gsutre 		goto fail;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Fill the array bc->bc_level with an insertion sort.
 1.1    gsutre 	 */
 1.1    gsutre 	for (count = 0, i = 0; i < pkg->Package.Count; i++) {
 1.1    gsutre 		/* List of 8-bit integers (ACPI 4.0a, Sec. B.6.2). */
 1.1    gsutre 		if (pkg->Package.Elements[i].Type != ACPI_TYPE_INTEGER ||
 1.1    gsutre 		    pkg->Package.Elements[i].Integer.Value > UINT8_MAX)
 1.1    gsutre 			continue;
 1.1    gsutre
 1.1    gsutre 		level = (uint8_t)pkg->Package.Elements[i].Integer.Value;
 1.1    gsutre
 1.1    gsutre 		/* Find the correct slot but do not modify the array yet. */
 1.1    gsutre 		for (j = count; --j >= 0 && bc->bc_level[j] > level; );
 1.1    gsutre 		if (j >= 0 && bc->bc_level[j] == level)
 1.1    gsutre 			continue;
 1.1    gsutre 		j++;
 1.1    gsutre
 1.1    gsutre 		/* Make room for the new level. */
 1.1    gsutre 		for (k = count; k > j; k--)
 1.1    gsutre 			bc->bc_level[k] = bc->bc_level[k-1];
 1.1    gsutre
 1.1    gsutre 		/* Insert the new level. */
 1.1    gsutre 		bc->bc_level[j] = level;
 1.1    gsutre 		count++;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (count == 0) {
 1.1    gsutre 		rv = AE_BAD_DATA;
 1.1    gsutre 		goto fail;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	ACPI_FREE(pkg);
 1.1    gsutre 	pkg = NULL;
 1.1    gsutre
 1.1    gsutre 	/*
 1.1    gsutre 	 * Resize the array bc->bc_level if needed.
 1.1    gsutre 	 */
 1.1    gsutre 	if (count < bc->bc_level_count) {
 1.1    gsutre 		levelp = kmem_alloc(count * sizeof(*levelp), KM_SLEEP);
 1.1    gsutre 		if (levelp == NULL) {
 1.1    gsutre 			rv = AE_NO_MEMORY;
 1.1    gsutre 			goto fail;
 1.1    gsutre 		}
 1.1    gsutre
 1.1    gsutre 		(void)memcpy(levelp, bc->bc_level, count * sizeof(*levelp));
 1.1    gsutre 		kmem_free(bc->bc_level,
 1.1    gsutre 		    bc->bc_level_count * sizeof(*bc->bc_level));
 1.1    gsutre
 1.1    gsutre 		bc->bc_level = levelp;
 1.1    gsutre 		bc->bc_level_count = count;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return bc;
 1.1    gsutre
 1.1    gsutre  fail:
 1.1    gsutre 	aprint_error_dev(osc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 	    acpi_name(hdl), "_BCL", AcpiFormatException(rv));
 1.1    gsutre 	if (pkg != NULL)
 1.1    gsutre 		ACPI_FREE(pkg);
 1.1    gsutre 	if (bc != NULL) {
 1.1    gsutre 		if (bc->bc_level != NULL)
 1.1    gsutre 			kmem_free(bc->bc_level,
 1.1    gsutre 			    bc->bc_level_count * sizeof(*bc->bc_level));
 1.1    gsutre 		kmem_free(bc, sizeof(*bc));
 1.1    gsutre 	}
 1.1    gsutre 	return NULL;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Evaluation of simple ACPI display methods.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_set_policy(const struct acpidisp_vga_softc *asc, uint8_t value)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = asc->sc_node->ad_handle;
 1.7    gsutre 	ACPI_INTEGER val;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre
 1.1    gsutre 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s: set %s: 0x%"PRIx8"\n",
 1.1    gsutre 	    device_xname(asc->sc_dev), "policy", value));
 1.1    gsutre
 1.1    gsutre 	if (!(asc->sc_caps & ACPI_DISP_VGA_CAP__DOS))
 1.1    gsutre 		return ENODEV;
 1.1    gsutre
 1.7    gsutre 	val = (ACPI_INTEGER)value;
 1.1    gsutre 	rv = acpi_eval_set_integer(hdl, "_DOS", val);
 1.1    gsutre 	if (ACPI_FAILURE(rv)) {
 1.1    gsutre 		aprint_error_dev(asc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 		    acpi_name(hdl), "_DOS", AcpiFormatException(rv));
 1.1    gsutre 		return EIO;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_get_status(const struct acpidisp_out_softc *osc, uint32_t *valuep)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = osc->sc_node->ad_handle;
 1.7    gsutre 	ACPI_INTEGER val;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre
 1.1    gsutre 	if (!(osc->sc_caps & ACPI_DISP_OUT_CAP__DCS))
 1.1    gsutre 		return ENODEV;
 1.1    gsutre
 1.1    gsutre 	rv = acpi_eval_integer(hdl, "_DCS", &val);
 1.1    gsutre 	if (ACPI_FAILURE(rv)) {
 1.1    gsutre 		aprint_error_dev(osc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 		    acpi_name(hdl), "_DCS", AcpiFormatException(rv));
 1.1    gsutre 		return EIO;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (val > UINT32_MAX)
 1.1    gsutre 		return ERANGE;
 1.1    gsutre
 1.1    gsutre 	*valuep = (uint32_t)val;
 1.1    gsutre
 1.1    gsutre 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s: get %s: 0x%"PRIx32"\n",
 1.1    gsutre 	    device_xname(osc->sc_dev), "status", *valuep));
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_get_state(const struct acpidisp_out_softc *osc, uint32_t *valuep)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = osc->sc_node->ad_handle;
 1.7    gsutre 	ACPI_INTEGER val;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre
 1.1    gsutre 	if (!(osc->sc_caps & ACPI_DISP_OUT_CAP__DGS))
 1.1    gsutre 		return ENODEV;
 1.1    gsutre
 1.1    gsutre 	rv = acpi_eval_integer(hdl, "_DGS", &val);
 1.1    gsutre 	if (ACPI_FAILURE(rv)) {
 1.1    gsutre 		aprint_error_dev(osc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 		    acpi_name(hdl), "_DGS", AcpiFormatException(rv));
 1.1    gsutre 		return EIO;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (val > UINT32_MAX)
 1.1    gsutre 		return ERANGE;
 1.1    gsutre
 1.1    gsutre 	*valuep = (uint32_t)val;
 1.1    gsutre
 1.1    gsutre 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s: get %s: 0x%"PRIx32"\n",
 1.1    gsutre 	    device_xname(osc->sc_dev), "state", *valuep));
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_set_state(const struct acpidisp_out_softc *osc, uint32_t value)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = osc->sc_node->ad_handle;
 1.7    gsutre 	ACPI_INTEGER val;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre
 1.1    gsutre 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s: set %s: 0x%"PRIx32"\n",
 1.1    gsutre 	    device_xname(osc->sc_dev), "state", value));
 1.1    gsutre
 1.1    gsutre 	if (!(osc->sc_caps & ACPI_DISP_OUT_CAP__DSS))
 1.1    gsutre 		return ENODEV;
 1.1    gsutre
 1.7    gsutre 	val = (ACPI_INTEGER)value;
 1.1    gsutre 	rv = acpi_eval_set_integer(hdl, "_DSS", val);
 1.1    gsutre 	if (ACPI_FAILURE(rv)) {
 1.1    gsutre 		aprint_error_dev(osc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 		    acpi_name(hdl), "_DSS", AcpiFormatException(rv));
 1.1    gsutre 		return EIO;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_get_brightness(const struct acpidisp_out_softc *osc, uint8_t *valuep)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = osc->sc_node->ad_handle;
 1.7    gsutre 	ACPI_INTEGER val;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre
 1.1    gsutre 	if (!(osc->sc_caps & ACPI_DISP_OUT_CAP__BQC))
 1.1    gsutre 		return ENODEV;
 1.1    gsutre
 1.1    gsutre 	rv = acpi_eval_integer(hdl, "_BQC", &val);
 1.1    gsutre 	if (ACPI_FAILURE(rv)) {
 1.1    gsutre 		aprint_error_dev(osc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 		    acpi_name(hdl), "_BQC", AcpiFormatException(rv));
 1.1    gsutre 		return EIO;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (val > UINT8_MAX)
 1.1    gsutre 		return ERANGE;
 1.1    gsutre
 1.1    gsutre 	*valuep = (uint8_t)val;
 1.1    gsutre
 1.1    gsutre 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s: get %s: %"PRIu8"\n",
 1.1    gsutre 	    device_xname(osc->sc_dev), "brightness", *valuep));
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static int
 1.1    gsutre acpidisp_set_brightness(const struct acpidisp_out_softc *osc, uint8_t value)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl = osc->sc_node->ad_handle;
 1.7    gsutre 	ACPI_INTEGER val;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre
 1.1    gsutre 	ACPI_DEBUG_PRINT((ACPI_DB_INFO, "%s: set %s: %"PRIu8"\n",
 1.1    gsutre 	    device_xname(osc->sc_dev), "brightness", value));
 1.1    gsutre
 1.1    gsutre 	if (!(osc->sc_caps & ACPI_DISP_OUT_CAP__BCM))
 1.1    gsutre 		return ENODEV;
 1.1    gsutre
 1.7    gsutre 	val = (ACPI_INTEGER)value;
 1.1    gsutre 	rv = acpi_eval_set_integer(hdl, "_BCM", val);
 1.1    gsutre 	if (ACPI_FAILURE(rv)) {
 1.1    gsutre 		aprint_error_dev(osc->sc_dev, "failed to evaluate %s.%s: %s\n",
 1.1    gsutre 		    acpi_name(hdl), "_BCM", AcpiFormatException(rv));
 1.1    gsutre 		return EIO;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	return 0;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * Pretty printing.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_print_odinfo(device_t self, const struct acpidisp_odinfo *oi)
 1.1    gsutre {
 1.1    gsutre 	struct acpidisp_outdev *od;
 1.1    gsutre 	uint32_t i;
 1.1    gsutre
 1.1    gsutre 	KASSERT(oi != NULL);
 1.1    gsutre
 1.1    gsutre 	aprint_verbose_dev(self, "connected output devices:\n");
 1.1    gsutre 	for (i = 0, od = oi->oi_dev; i < oi->oi_dev_count; i++, od++) {
 1.1    gsutre 		aprint_verbose_dev(self, "  0x%04"PRIx16, od->od_attrs.device_id);
 1.1    gsutre 		if (od->od_device != NULL)
 1.1    gsutre 			aprint_verbose(" (%s)", device_xname(od->od_device));
 1.1    gsutre 		aprint_verbose(": ");
 1.1    gsutre 		acpidisp_print_od_attrs(od->od_attrs);
 1.1    gsutre 		aprint_verbose("\n");
 1.1    gsutre 	}
 1.1    gsutre }
 1.1    gsutre
1.12  christos /*
1.12  christos  * general purpose range printing function
1.12  christos  * 1 -> 1
1.12  christos  * 1 2 4 6 7-> [1-2,4,6-7]
1.12  christos  */
1.12  christos static void
1.12  christos ranger(uint8_t *a, size_t l, void (*pr)(const char *, ...) __printflike(1, 2))
1.12  christos {
1.12  christos 	uint8_t b, e;
1.12  christos
1.12  christos 	if (l > 1)
1.12  christos 		(*pr)("[");
1.12  christos
1.12  christos 	for (size_t i = 0; i < l; i++) {
1.14  riastrad 		for (b = e = a[i]; i + 1 < l && a[i + 1] == e + 1; i++, e++)
1.12  christos 			continue;
1.12  christos 		(*pr)("%"PRIu8, b);
1.12  christos 		if (b != e)
1.12  christos 			(*pr)("-%"PRIu8, e);
1.12  christos 		if (i < l - 1)
1.12  christos 			(*pr)(",");
1.12  christos 	}
1.12  christos
1.12  christos 	if (l > 1)
1.13  christos 		(*pr)("]");
1.12  christos }
1.12  christos
 1.1    gsutre static void
 1.1    gsutre acpidisp_print_brctl(device_t self, const struct acpidisp_brctl *bc)
 1.1    gsutre {
 1.1    gsutre 	KASSERT(bc != NULL);
 1.1    gsutre
1.12  christos 	aprint_verbose_dev(self, "brightness levels: ");
1.12  christos 	ranger(bc->bc_level, bc->bc_level_count, aprint_verbose);
 1.1    gsutre 	aprint_verbose("\n");
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre static void
 1.1    gsutre acpidisp_print_od_attrs(acpidisp_od_attrs_t oda)
 1.1    gsutre {
 1.1    gsutre 	const char *type;
 1.1    gsutre
 1.1    gsutre 	if (oda.fmt.device_id_scheme == 1) {
 1.1    gsutre 		/* Uses the device ID scheme introduced in ACPI 3.0. */
 1.1    gsutre 		switch (oda.fmt.type) {
 1.1    gsutre 		case ACPI_DISP_OUT_ATTR_TYPE_OTHER:
 1.1    gsutre 			type = "Other";
 1.1    gsutre 			break;
 1.1    gsutre 		case ACPI_DISP_OUT_ATTR_TYPE_VGA:
 1.1    gsutre 			type = "VGA Analog Monitor";
 1.1    gsutre 			break;
 1.1    gsutre 		case ACPI_DISP_OUT_ATTR_TYPE_TV:
 1.1    gsutre 			type = "TV/HDTV Monitor";
 1.1    gsutre 			break;
 1.1    gsutre 		case ACPI_DISP_OUT_ATTR_TYPE_EXTDIG:
 1.1    gsutre 			type = "Ext. Digital Monitor";
 1.1    gsutre 			break;
 1.1    gsutre 		case ACPI_DISP_OUT_ATTR_TYPE_INTDFP:
 1.1    gsutre 			type = "Int. Digital Flat Panel";
 1.1    gsutre 			break;
 1.1    gsutre 		default:
 1.1    gsutre 			type = "Invalid";
 1.1    gsutre 			break;
 1.1    gsutre 		}
 1.1    gsutre
 1.1    gsutre 		aprint_verbose("%s, index %d, port %d",
 1.1    gsutre 		    type, oda.fmt.index, oda.fmt.port);
 1.1    gsutre 	} else {
 1.1    gsutre 		/* Uses vendor-specific device IDs. */
 1.1    gsutre 		switch (oda.device_id) {
 1.1    gsutre 		case ACPI_DISP_OUT_LEGACY_DEVID_MONITOR:
 1.1    gsutre 			type = "Ext. Monitor";
 1.1    gsutre 			break;
 1.1    gsutre 		case ACPI_DISP_OUT_LEGACY_DEVID_PANEL:
 1.1    gsutre 			type = "LCD Panel";
 1.1    gsutre 			break;
 1.1    gsutre 		case ACPI_DISP_OUT_LEGACY_DEVID_TV:
 1.1    gsutre 			type = "TV";
 1.1    gsutre 			break;
 1.1    gsutre 		default:
 1.1    gsutre 			type = "Unknown Output Device";
 1.1    gsutre 			break;
 1.1    gsutre 		}
 1.1    gsutre
 1.1    gsutre 		aprint_verbose("%s", type);
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	aprint_verbose(", head %d", oda.fmt.head_id);
 1.1    gsutre 	if (oda.fmt.bios_detect)
 1.1    gsutre 		aprint_verbose(", bios detect");
 1.1    gsutre 	if (oda.fmt.non_vga)
 1.1    gsutre 		aprint_verbose(", non vga");
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * General-purpose utility functions.
 1.1    gsutre  */
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_has_method:
 1.1    gsutre  *
 1.1    gsutre  *	Returns true if and only if (a) the object handle.path exists and
 1.1    gsutre  *	(b) this object is a method or has the given type.
 1.1    gsutre  */
 1.1    gsutre static bool
 1.1    gsutre acpidisp_has_method(ACPI_HANDLE handle, const char *path, ACPI_OBJECT_TYPE type)
 1.1    gsutre {
 1.1    gsutre 	ACPI_HANDLE hdl;
 1.1    gsutre 	ACPI_OBJECT_TYPE typ;
 1.1    gsutre
 1.1    gsutre 	KASSERT(handle != NULL);
 1.1    gsutre
 1.1    gsutre 	if (ACPI_FAILURE(AcpiGetHandle(handle, path, &hdl)))
 1.1    gsutre 		return false;
 1.1    gsutre
 1.1    gsutre 	if (ACPI_FAILURE(AcpiGetType(hdl, &typ)))
 1.1    gsutre 		return false;
 1.1    gsutre
 1.1    gsutre 	if (typ != ACPI_TYPE_METHOD && typ != type)
 1.1    gsutre 		return false;
 1.1    gsutre
 1.1    gsutre 	return true;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_eval_package:
 1.1    gsutre  *
 1.1    gsutre  *	Evaluate a package (with an expected minimum number of elements).
 1.1    gsutre  *	Caller must free *pkg by ACPI_FREE().
 1.1    gsutre  */
 1.1    gsutre static ACPI_STATUS
 1.1    gsutre acpidisp_eval_package(ACPI_HANDLE handle, const char *path, ACPI_OBJECT **pkg,
 1.1    gsutre     unsigned int mincount)
 1.1    gsutre {
 1.1    gsutre 	ACPI_BUFFER buf;
 1.1    gsutre 	ACPI_OBJECT *obj;
 1.1    gsutre 	ACPI_STATUS rv;
 1.1    gsutre
 1.1    gsutre 	rv = acpi_eval_struct(handle, path, &buf);
 1.1    gsutre 	if (ACPI_FAILURE(rv))
 1.1    gsutre 		return rv;
 1.1    gsutre
 1.1    gsutre 	if (buf.Length == 0 || buf.Pointer == NULL)
 1.1    gsutre 		return AE_NULL_OBJECT;
 1.1    gsutre
 1.1    gsutre 	obj = buf.Pointer;
 1.1    gsutre
 1.1    gsutre 	if (obj->Type != ACPI_TYPE_PACKAGE) {
 1.1    gsutre 		ACPI_FREE(obj);
 1.1    gsutre 		return AE_TYPE;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	if (obj->Package.Count < mincount) {
 1.1    gsutre 		ACPI_FREE(obj);
 1.1    gsutre 		return AE_BAD_DATA;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	*pkg = obj;
 1.1    gsutre 	return rv;
 1.1    gsutre }
 1.1    gsutre
 1.1    gsutre /*
 1.1    gsutre  * acpidisp_array_search:
 1.1    gsutre  *
 1.1    gsutre  *	Look for a value v in a sorted array a of n integers (n > 0).  Fill *l
 1.1    gsutre  *	and *u as follows:
 1.1    gsutre  *
 1.1    gsutre  *	   *l = Max {a[i] | a[i] <= v or i = 0}
 1.1    gsutre  *	   *u = Min {a[i] | a[i] >= v or i = n-1}
 1.1    gsutre  */
 1.1    gsutre static void
 1.1    gsutre acpidisp_array_search(const uint8_t *a, uint16_t n, int v, uint8_t *l, uint8_t *u)
 1.1    gsutre {
 1.1    gsutre 	uint16_t i, j, m;
 1.1    gsutre
 1.1    gsutre 	if (v <= a[0]) {
 1.1    gsutre 		*l = a[0];
 1.1    gsutre 		*u = a[0];
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre 	if (v >= a[n-1]) {
 1.1    gsutre 		*l = a[n-1];
 1.1    gsutre 		*u = a[n-1];
 1.1    gsutre 		return;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	for (i = 0, j = n - 1; j - i > 1; ) {
 1.1    gsutre 		m = (i + j) / 2;
 1.1    gsutre
 1.1    gsutre 		if (a[m] == v) {
 1.1    gsutre 			*l = v;
 1.1    gsutre 			*u = v;
 1.1    gsutre 			return;
 1.1    gsutre 		}
 1.1    gsutre
 1.1    gsutre 		if (a[m] < v)
 1.1    gsutre 			i = m;
 1.1    gsutre 		else
 1.1    gsutre 			j = m;
 1.1    gsutre 	}
 1.1    gsutre
 1.1    gsutre 	/* Here a[i] < v < a[j] and j = i + 1. */
 1.1    gsutre 	*l = a[i];
 1.1    gsutre 	*u = a[j];
 1.1    gsutre 	return;
 1.1    gsutre }
 1.2    jruoho
 1.2    jruoho MODULE(MODULE_CLASS_DRIVER, acpivga, NULL);
 1.2    jruoho
 1.9    jruoho #ifdef _MODULE
 1.2    jruoho #include "ioconf.c"
 1.9    jruoho #endif
 1.2    jruoho
 1.2    jruoho static int
 1.9    jruoho acpivga_modcmd(modcmd_t cmd, void *aux)
 1.2    jruoho {
 1.9    jruoho 	int rv = 0;
 1.2    jruoho
 1.2    jruoho 	switch (cmd) {
 1.2    jruoho
 1.2    jruoho 	case MODULE_CMD_INIT:
 1.9    jruoho
 1.9    jruoho #ifdef _MODULE
 1.9    jruoho 		rv = config_init_component(cfdriver_ioconf_acpivga,
 1.2    jruoho 		    cfattach_ioconf_acpivga, cfdata_ioconf_acpivga);
 1.9    jruoho #endif
 1.9    jruoho 		break;
 1.2    jruoho
 1.2    jruoho 	case MODULE_CMD_FINI:
 1.9    jruoho
 1.9    jruoho #ifdef _MODULE
 1.9    jruoho 		rv = config_fini_component(cfdriver_ioconf_acpivga,
 1.2    jruoho 		    cfattach_ioconf_acpivga, cfdata_ioconf_acpivga);
 1.9    jruoho #endif
 1.9    jruoho 		break;
 1.2    jruoho
 1.2    jruoho 	default:
 1.9    jruoho 		rv = ENOTTY;
 1.2    jruoho 	}
 1.9    jruoho
 1.9    jruoho 	return rv;
 1.2    jruoho }