1	// SPDX-License-Identifier: GPL-2.0-or-later
2	/* -*- linux-c -*-
3	* APM BIOS driver for Linux
4	* Copyright 1994-2001 Stephen Rothwell (sfr@canb.auug.org.au)
5	*
6	* Initial development of this driver was funded by NEC Australia P/L
7	* and NEC Corporation
8	*
9	* October 1995, Rik Faith (faith@cs.unc.edu):
10	* Minor enhancements and updates (to the patch set) for 1.3.x
11	* Documentation
12	* January 1996, Rik Faith (faith@cs.unc.edu):
13	* Make /proc/apm easy to format (bump driver version)
14	* March 1996, Rik Faith (faith@cs.unc.edu):
15	* Prohibit APM BIOS calls unless apm_enabled.
16	* (Thanks to Ulrich Windl <Ulrich.Windl@rz.uni-regensburg.de>)
17	* April 1996, Stephen Rothwell (sfr@canb.auug.org.au)
18	* Version 1.0 and 1.1
19	* May 1996, Version 1.2
20	* Feb 1998, Version 1.3
21	* Feb 1998, Version 1.4
22	* Aug 1998, Version 1.5
23	* Sep 1998, Version 1.6
24	* Nov 1998, Version 1.7
25	* Jan 1999, Version 1.8
26	* Jan 1999, Version 1.9
27	* Oct 1999, Version 1.10
28	* Nov 1999, Version 1.11
29	* Jan 2000, Version 1.12
30	* Feb 2000, Version 1.13
31	* Nov 2000, Version 1.14
32	* Oct 2001, Version 1.15
33	* Jan 2002, Version 1.16
34	* Oct 2002, Version 1.16ac
35	*
36	* History:
37	* 0.6b: first version in official kernel, Linux 1.3.46
38	* 0.7: changed /proc/apm format, Linux 1.3.58
39	* 0.8: fixed gcc 2.7.[12] compilation problems, Linux 1.3.59
40	* 0.9: only call bios if bios is present, Linux 1.3.72
41	* 1.0: use fixed device number, consolidate /proc/apm into this file,
42	* Linux 1.3.85
43	* 1.1: support user-space standby and suspend, power off after system
44	* halted, Linux 1.3.98
45	* 1.2: When resetting RTC after resume, take care so that the time
46	* is only incorrect by 30-60mS (vs. 1S previously) (Gabor J. Toth
47	* <jtoth@princeton.edu>); improve interaction between
48	* screen-blanking and gpm (Stephen Rothwell); Linux 1.99.4
49	* 1.2a:Simple change to stop mysterious bug reports with SMP also added
50	* levels to the printk calls. APM is not defined for SMP machines.
51	* The new replacement for it is, but Linux doesn't yet support this.
52	* Alan Cox Linux 2.1.55
53	* 1.3: Set up a valid data descriptor 0x40 for buggy BIOS's
54	* 1.4: Upgraded to support APM 1.2. Integrated ThinkPad suspend patch by
55	* Dean Gaudet <dgaudet@arctic.org>.
56	* C. Scott Ananian <cananian@alumni.princeton.edu> Linux 2.1.87
57	* 1.5: Fix segment register reloading (in case of bad segments saved
58	* across BIOS call).
59	* Stephen Rothwell
60	* 1.6: Cope with compiler/assembler differences.
61	* Only try to turn off the first display device.
62	* Fix OOPS at power off with no APM BIOS by Jan Echternach
63	* <echter@informatik.uni-rostock.de>
64	* Stephen Rothwell
65	* 1.7: Modify driver's cached copy of the disabled/disengaged flags
66	* to reflect current state of APM BIOS.
67	* Chris Rankin <rankinc@bellsouth.net>
68	* Reset interrupt 0 timer to 100Hz after suspend
69	* Chad Miller <cmiller@surfsouth.com>
70	* Add CONFIG_APM_IGNORE_SUSPEND_BOUNCE
71	* Richard Gooch <rgooch@atnf.csiro.au>
72	* Allow boot time disabling of APM
73	* Make boot messages far less verbose by default
74	* Make asm safer
75	* Stephen Rothwell
76	* 1.8: Add CONFIG_APM_RTC_IS_GMT
77	* Richard Gooch <rgooch@atnf.csiro.au>
78	* change APM_NOINTS to CONFIG_APM_ALLOW_INTS
79	* remove dependency on CONFIG_PROC_FS
80	* Stephen Rothwell
81	* 1.9: Fix small typo. <laslo@wodip.opole.pl>
82	* Try to cope with BIOS's that need to have all display
83	* devices blanked and not just the first one.
84	* Ross Paterson <ross@soi.city.ac.uk>
85	* Fix segment limit setting it has always been wrong as
86	* the segments needed to have byte granularity.
87	* Mark a few things __init.
88	* Add hack to allow power off of SMP systems by popular request.
89	* Use CONFIG_SMP instead of __SMP__
90	* Ignore BOUNCES for three seconds.
91	* Stephen Rothwell
92	* 1.10: Fix for Thinkpad return code.
93	* Merge 2.2 and 2.3 drivers.
94	* Remove APM dependencies in arch/i386/kernel/process.c
95	* Remove APM dependencies in drivers/char/sysrq.c
96	* Reset time across standby.
97	* Allow more initialisation on SMP.
98	* Remove CONFIG_APM_POWER_OFF and make it boot time
99	* configurable (default on).
100	* Make debug only a boot time parameter (remove APM_DEBUG).
101	* Try to blank all devices on any error.
102	* 1.11: Remove APM dependencies in drivers/char/console.c
103	* Check nr_running to detect if we are idle (from
104	* Borislav Deianov <borislav@lix.polytechnique.fr>)
105	* Fix for bioses that don't zero the top part of the
106	* entrypoint offset (Mario Sitta <sitta@al.unipmn.it>)
107	* (reported by Panos Katsaloulis <teras@writeme.com>).
108	* Real mode power off patch (Walter Hofmann
109	* <Walter.Hofmann@physik.stud.uni-erlangen.de>).
110	* 1.12: Remove CONFIG_SMP as the compiler will optimize
111	* the code away anyway (smp_num_cpus == 1 in UP)
112	* noted by Artur Skawina <skawina@geocities.com>.
113	* Make power off under SMP work again.
114	* Fix thinko with initial engaging of BIOS.
115	* Make sure power off only happens on CPU 0
116	* (Paul "Rusty" Russell <rusty@rustcorp.com.au>).
117	* Do error notification to user mode if BIOS calls fail.
118	* Move entrypoint offset fix to ...boot/setup.S
119	* where it belongs (Cosmos <gis88564@cis.nctu.edu.tw>).
120	* Remove smp-power-off. SMP users must now specify
121	* "apm=power-off" on the kernel command line. Suggested
122	* by Jim Avera <jima@hal.com>, modified by Alan Cox
123	* <alan@lxorguk.ukuu.org.uk>.
124	* Register the /proc/apm entry even on SMP so that
125	* scripts that check for it before doing power off
126	* work (Jim Avera <jima@hal.com>).
127	* 1.13: Changes for new pm_ interfaces (Andy Henroid
128	* <andy_henroid@yahoo.com>).
129	* Modularize the code.
130	* Fix the Thinkpad (again) :-( (CONFIG_APM_IGNORE_MULTIPLE_SUSPENDS
131	* is now the way life works).
132	* Fix thinko in suspend() (wrong return).
133	* Notify drivers on critical suspend.
134	* Make kapmd absorb more idle time (Pavel Machek <pavel@ucw.cz>
135	* modified by sfr).
136	* Disable interrupts while we are suspended (Andy Henroid
137	* <andy_henroid@yahoo.com> fixed by sfr).
138	* Make power off work on SMP again (Tony Hoyle
139	* <tmh@magenta-logic.com> and <zlatko@iskon.hr>) modified by sfr.
140	* Remove CONFIG_APM_SUSPEND_BOUNCE. The bounce ignore
141	* interval is now configurable.
142	* 1.14: Make connection version persist across module unload/load.
143	* Enable and engage power management earlier.
144	* Disengage power management on module unload.
145	* Changed to use the sysrq-register hack for registering the
146	* power off function called by magic sysrq based upon discussions
147	* in irc://irc.openprojects.net/#kernelnewbies
148	* (Crutcher Dunnavant <crutcher+kernel@datastacks.com>).
149	* Make CONFIG_APM_REAL_MODE_POWER_OFF run time configurable.
150	* (Arjan van de Ven <arjanv@redhat.com>) modified by sfr.
151	* Work around byte swap bug in one of the Vaio's BIOS's
152	* (Marc Boucher <marc@mbsi.ca>).
153	* Exposed the disable flag to dmi so that we can handle known
154	* broken APM (Alan Cox <alan@lxorguk.ukuu.org.uk>).
155	* 1.14ac: If the BIOS says "I slowed the CPU down" then don't spin
156	* calling it - instead idle. (Alan Cox <alan@lxorguk.ukuu.org.uk>)
157	* If an APM idle fails log it and idle sensibly
158	* 1.15: Don't queue events to clients who open the device O_WRONLY.
159	* Don't expect replies from clients who open the device O_RDONLY.
160	* (Idea from Thomas Hood)
161	* Minor waitqueue cleanups. (John Fremlin <chief@bandits.org>)
162	* 1.16: Fix idle calling. (Andreas Steinmetz <ast@domdv.de> et al.)
163	* Notify listeners of standby or suspend events before notifying
164	* drivers. Return EBUSY to ioctl() if suspend is rejected.
165	* (Russell King <rmk@arm.linux.org.uk> and Thomas Hood)
166	* Ignore first resume after we generate our own resume event
167	* after a suspend (Thomas Hood)
168	* Daemonize now gets rid of our controlling terminal (sfr).
169	* CONFIG_APM_CPU_IDLE now just affects the default value of
170	* idle_threshold (sfr).
171	* Change name of kernel apm daemon (as it no longer idles) (sfr).
172	* 1.16ac: Fix up SMP support somewhat. You can now force SMP on and we
173	* make _all_ APM calls on the CPU#0. Fix unsafe sign bug.
174	* TODO: determine if its "boot CPU" or "CPU0" we want to lock to.
175	*
176	* APM 1.1 Reference:
177	*
178	* Intel Corporation, Microsoft Corporation. Advanced Power Management
179	* (APM) BIOS Interface Specification, Revision 1.1, September 1993.
180	* Intel Order Number 241704-001. Microsoft Part Number 781-110-X01.
181	*
182	* [This document is available free from Intel by calling 800.628.8686 (fax
183	* 916.356.6100) or 800.548.4725; or from
184	* http://www.microsoft.com/whdc/archive/amp_12.mspx It is also
185	* available from Microsoft by calling 206.882.8080.]
186	*
187	* APM 1.2 Reference:
188	* Intel Corporation, Microsoft Corporation. Advanced Power Management
189	* (APM) BIOS Interface Specification, Revision 1.2, February 1996.
190	*
191	* [This document is available from Microsoft at:
192	* http://www.microsoft.com/whdc/archive/amp_12.mspx]
193	*/
194
195	#define pr_fmt(fmt) "apm: " fmt
196
197	#include <linux/module.h>
198
199	#include <linux/poll.h>
200	#include <linux/types.h>
201	#include <linux/stddef.h>
202	#include <linux/timer.h>
203	#include <linux/fcntl.h>
204	#include <linux/slab.h>
205	#include <linux/stat.h>
206	#include <linux/proc_fs.h>
207	#include <linux/seq_file.h>
208	#include <linux/miscdevice.h>
209	#include <linux/apm_bios.h>
210	#include <linux/init.h>
211	#include <linux/time.h>
212	#include <linux/sched/signal.h>
213	#include <linux/sched/cputime.h>
214	#include <linux/pm.h>
215	#include <linux/capability.h>
216	#include <linux/device.h>
217	#include <linux/kernel.h>
218	#include <linux/freezer.h>
219	#include <linux/smp.h>
220	#include <linux/dmi.h>
221	#include <linux/suspend.h>
222	#include <linux/kthread.h>
223	#include <linux/jiffies.h>
224	#include <linux/acpi.h>
225	#include <linux/syscore_ops.h>
226	#include <linux/i8253.h>
227	#include <linux/cpuidle.h>
228
229	#include <linux/uaccess.h>
230	#include <asm/desc.h>
231	#include <asm/olpc.h>
232	#include <asm/paravirt.h>
233	#include <asm/reboot.h>
234	#include <asm/nospec-branch.h>
235	#include <asm/ibt.h>
236
237	#if defined(CONFIG_APM_DISPLAY_BLANK) && defined(CONFIG_VT)
238	extern int (*console_blank_hook)(int);
239	#endif
240
241	/*
242	* Various options can be changed at boot time as follows:
243	* (We allow underscores for compatibility with the modules code)
244	* apm=on/off enable/disable APM
245	* [no-]allow[-_]ints allow interrupts during BIOS calls
246	* [no-]broken[-_]psr BIOS has a broken GetPowerStatus call
247	* [no-]realmode[-_]power[-_]off switch to real mode before
248	* powering off
249	* [no-]debug log some debugging messages
250	* [no-]power[-_]off power off on shutdown
251	* [no-]smp Use apm even on an SMP box
252	* bounce[-_]interval=<n> number of ticks to ignore suspend
253	* bounces
254	* idle[-_]threshold=<n> System idle percentage above which to
255	* make APM BIOS idle calls. Set it to
256	* 100 to disable.
257	* idle[-_]period=<n> Period (in 1/100s of a second) over
258	* which the idle percentage is
259	* calculated.
260	*/
261
262	/* KNOWN PROBLEM MACHINES:
263	*
264	* U: TI 4000M TravelMate: BIOS is *NOT* APM compliant
265	* [Confirmed by TI representative]
266	* ?: ACER 486DX4/75: uses dseg 0040, in violation of APM specification
267	* [Confirmed by BIOS disassembly]
268	* [This may work now ...]
269	* P: Toshiba 1950S: battery life information only gets updated after resume
270	* P: Midwest Micro Soundbook Elite DX2/66 monochrome: screen blanking
271	* broken in BIOS [Reported by Garst R. Reese <reese@isn.net>]
272	* ?: AcerNote-950: oops on reading /proc/apm - workaround is a WIP
273	* Neale Banks <neale@lowendale.com.au> December 2000
274	*
275	* Legend: U = unusable with APM patches
276	* P = partially usable with APM patches
277	*/
278
279	/*
280	* Define as 1 to make the driver always call the APM BIOS busy
281	* routine even if the clock was not reported as slowed by the
282	* idle routine. Otherwise, define as 0.
283	*/
284	#define ALWAYS_CALL_BUSY 1
285
286	/*
287	* Define to make the APM BIOS calls zero all data segment registers (so
288	* that an incorrect BIOS implementation will cause a kernel panic if it
289	* tries to write to arbitrary memory).
290	*/
291	#define APM_ZERO_SEGS
292
293	#include <asm/apm.h>
294
295	/*
296	* Define to re-initialize the interrupt 0 timer to 100 Hz after a suspend.
297	* This patched by Chad Miller <cmiller@surfsouth.com>, original code by
298	* David Chen <chen@ctpa04.mit.edu>
299	*/
300	#undef INIT_TIMER_AFTER_SUSPEND
301
302	#ifdef INIT_TIMER_AFTER_SUSPEND
303	#include <linux/timex.h>
304	#include <asm/io.h>
305	#include <linux/delay.h>
306	#endif
307
308	/*
309	* Need to poll the APM BIOS every second
310	*/
311	#define APM_CHECK_TIMEOUT (HZ)
312
313	/*
314	* Ignore suspend events for this amount of time after a resume
315	*/
316	#define DEFAULT_BOUNCE_INTERVAL (3 * HZ)
317
318	/*
319	* Maximum number of events stored
320	*/
321	#define APM_MAX_EVENTS 20
322
323	/*
324	* The per-file APM data
325	*/
326	struct apm_user {
327	int magic;
328	struct apm_user *next;
329	unsigned int suser: 1;
330	unsigned int writer: 1;
331	unsigned int reader: 1;
332	unsigned int suspend_wait: 1;
333	int suspend_result;
334	int suspends_pending;
335	int standbys_pending;
336	int suspends_read;
337	int standbys_read;
338	int event_head;
339	int event_tail;
340	apm_event_t events[APM_MAX_EVENTS];
341	};
342
343	/*
344	* The magic number in apm_user
345	*/
346	#define APM_BIOS_MAGIC 0x4101
347
348	/*
349	* idle percentage above which bios idle calls are done
350	*/
351	#ifdef CONFIG_APM_CPU_IDLE
352	#define DEFAULT_IDLE_THRESHOLD 95
353	#else
354	#define DEFAULT_IDLE_THRESHOLD 100
355	#endif
356	#define DEFAULT_IDLE_PERIOD (100 / 3)
357
358	static int apm_cpu_idle(struct cpuidle_device *dev,
359	struct cpuidle_driver *drv, int index);
360
361	static struct cpuidle_driver apm_idle_driver = {
362	.name = "apm_idle",
363	.owner = THIS_MODULE,
364	.states = {
365	{ /* entry 0 is for polling */ },
366	{ /* entry 1 is for APM idle */
367	.name = "APM",
368	.desc = "APM idle",
369	.exit_latency = 250, /* WAG */
370	.target_residency = 500, /* WAG */
371	.enter = &apm_cpu_idle
372	},
373	},
374	.state_count = 2,
375	};
376
377	static struct cpuidle_device apm_cpuidle_device;
378
379	/*
380	* Local variables
381	*/
382	__visible struct {
383	unsigned long offset;
384	unsigned short segment;
385	} apm_bios_entry;
386	static int clock_slowed;
387	static int idle_threshold __read_mostly = DEFAULT_IDLE_THRESHOLD;
388	static int idle_period __read_mostly = DEFAULT_IDLE_PERIOD;
389	static int suspends_pending;
390	static int standbys_pending;
391	static int ignore_sys_suspend;
392	static int ignore_normal_resume;
393	static int bounce_interval __read_mostly = DEFAULT_BOUNCE_INTERVAL;
394
395	static bool debug __read_mostly;
396	static bool smp __read_mostly;
397	static int apm_disabled = -1;
398	#ifdef CONFIG_SMP
399	static bool power_off;
400	#else
401	static bool power_off = 1;
402	#endif
403	static bool realmode_power_off;
404	#ifdef CONFIG_APM_ALLOW_INTS
405	static bool allow_ints = 1;
406	#else
407	static bool allow_ints;
408	#endif
409	static bool broken_psr;
410
411	static DECLARE_WAIT_QUEUE_HEAD(apm_waitqueue);
412	static DECLARE_WAIT_QUEUE_HEAD(apm_suspend_waitqueue);
413	static struct apm_user *user_list;
414	static DEFINE_SPINLOCK(user_list_lock);
415	static DEFINE_MUTEX(apm_mutex);
416
417	/*
418	* Set up a segment that references the real mode segment 0x40
419	* that extends up to the end of page zero (that we have reserved).
420	* This is for buggy BIOS's that refer to (real mode) segment 0x40
421	* even though they are called in protected mode.
422	*/
423	static struct desc_struct bad_bios_desc = GDT_ENTRY_INIT(0x4092,
424	(unsigned long)__va(0x400UL), PAGE_SIZE - 0x400 - 1);
425
426	static const char driver_version[] = "1.16ac"; /* no spaces */
427
428	static struct task_struct *kapmd_task;
429
430	/*
431	* APM event names taken from the APM 1.2 specification. These are
432	* the message codes that the BIOS uses to tell us about events
433	*/
434	static const char * const apm_event_name[] = {
435	"system standby",
436	"system suspend",
437	"normal resume",
438	"critical resume",
439	"low battery",
440	"power status change",
441	"update time",
442	"critical suspend",
443	"user standby",
444	"user suspend",
445	"system standby resume",
446	"capabilities change"
447	};
448	#define NR_APM_EVENT_NAME ARRAY_SIZE(apm_event_name)
449
450	typedef struct lookup_t {
451	int key;
452	char *msg;
453	} lookup_t;
454
455	/*
456	* The BIOS returns a set of standard error codes in AX when the
457	* carry flag is set.
458	*/
459
460	static const lookup_t error_table[] = {
461	/* N/A { APM_SUCCESS, "Operation succeeded" }, */
462	{ APM_DISABLED, "Power management disabled" },
463	{ APM_CONNECTED, "Real mode interface already connected" },
464	{ APM_NOT_CONNECTED, "Interface not connected" },
465	{ APM_16_CONNECTED, "16 bit interface already connected" },
466	/* N/A { APM_16_UNSUPPORTED, "16 bit interface not supported" }, */
467	{ APM_32_CONNECTED, "32 bit interface already connected" },
468	{ APM_32_UNSUPPORTED, "32 bit interface not supported" },
469	{ APM_BAD_DEVICE, "Unrecognized device ID" },
470	{ APM_BAD_PARAM, "Parameter out of range" },
471	{ APM_NOT_ENGAGED, "Interface not engaged" },
472	{ APM_BAD_FUNCTION, "Function not supported" },
473	{ APM_RESUME_DISABLED, "Resume timer disabled" },
474	{ APM_BAD_STATE, "Unable to enter requested state" },
475	/* N/A { APM_NO_EVENTS, "No events pending" }, */
476	{ APM_NO_ERROR, "BIOS did not set a return code" },
477	{ APM_NOT_PRESENT, "No APM present" }
478	};
479	#define ERROR_COUNT ARRAY_SIZE(error_table)
480
481	/**
482	* apm_error - display an APM error
483	* @str: information string
484	* @err: APM BIOS return code
485	*
486	* Write a meaningful log entry to the kernel log in the event of
487	* an APM error. Note that this also handles (negative) kernel errors.
488	*/
489
490	static void apm_error(char *str, int err)
491	{
492	int i;
493
494	for (i = 0; i < ERROR_COUNT; i++)
495	if (error_table[i].key == err)
496	break;
497	if (i < ERROR_COUNT)
498	pr_notice("%s: %s\n", str, error_table[i].msg);
499	else if (err < 0)
500	pr_notice("%s: linux error code %i\n", str, err);
501	else
502	pr_notice("%s: unknown error code %#2.2x\n",
503	str, err);
504	}
505
506	/*
507	* These are the actual BIOS calls. Depending on APM_ZERO_SEGS and
508	* apm_info.allow_ints, we are being really paranoid here! Not only
509	* are interrupts disabled, but all the segment registers (except SS)
510	* are saved and zeroed this means that if the BIOS tries to reference
511	* any data without explicitly loading the segment registers, the kernel
512	* will fault immediately rather than have some unforeseen circumstances
513	* for the rest of the kernel. And it will be very obvious! :-) Doing
514	* this depends on CS referring to the same physical memory as DS so that
515	* DS can be zeroed before the call. Unfortunately, we can't do anything
516	* about the stack segment/pointer. Also, we tell the compiler that
517	* everything could change.
518	*
519	* Also, we KNOW that for the non error case of apm_bios_call, there
520	* is no useful data returned in the low order 8 bits of eax.
521	*/
522
523	static inline unsigned long __apm_irq_save(void)
524	{
525	unsigned long flags;
526	local_save_flags(flags);
527	if (apm_info.allow_ints) {
528	if (irqs_disabled_flags(flags))
529	local_irq_enable();
530	} else
531	local_irq_disable();
532
533	return flags;
534	}
535
536	#define apm_irq_save(flags) \
537	do { flags = __apm_irq_save(); } while (0)
538
539	static inline void apm_irq_restore(unsigned long flags)
540	{
541	if (irqs_disabled_flags(flags))
542	local_irq_disable();
543	else if (irqs_disabled())
544	local_irq_enable();
545	}
546
547	#ifdef APM_ZERO_SEGS
548	# define APM_DECL_SEGS \
549	unsigned int saved_fs; unsigned int saved_gs;
550	# define APM_DO_SAVE_SEGS \
551	savesegment(fs, saved_fs); savesegment(gs, saved_gs)
552	# define APM_DO_RESTORE_SEGS \
553	loadsegment(fs, saved_fs); loadsegment(gs, saved_gs)
554	#else
555	# define APM_DECL_SEGS
556	# define APM_DO_SAVE_SEGS
557	# define APM_DO_RESTORE_SEGS
558	#endif
559
560	struct apm_bios_call {
561	u32 func;
562	/* In and out */
563	u32 ebx;
564	u32 ecx;
565	/* Out only */
566	u32 eax;
567	u32 edx;
568	u32 esi;
569
570	/* Error: -ENOMEM, or bits 8-15 of eax */
571	int err;
572	};
573
574	/**
575	* __apm_bios_call - Make an APM BIOS 32bit call
576	* @_call: pointer to struct apm_bios_call.
577	*
578	* Make an APM call using the 32bit protected mode interface. The
579	* caller is responsible for knowing if APM BIOS is configured and
580	* enabled. This call can disable interrupts for a long period of
581	* time on some laptops. The return value is in AH and the carry
582	* flag is loaded into AL. If there is an error, then the error
583	* code is returned in AH (bits 8-15 of eax) and this function
584	* returns non-zero.
585	*
586	* Note: this makes the call on the current CPU.
587	*/
588	static long __apm_bios_call(void *_call)
589	{
590	APM_DECL_SEGS
591	unsigned long flags;
592	int cpu;
593	struct desc_struct save_desc_40;
594	struct desc_struct *gdt;
595	struct apm_bios_call *call = _call;
596	u64 ibt;
597
598	cpu = get_cpu();
599	BUG_ON(cpu != 0);
600	gdt = get_cpu_gdt_rw(cpu);
601	save_desc_40 = gdt[0x40 / 8];
602	gdt[0x40 / 8] = bad_bios_desc;
603
604	apm_irq_save(flags);
605	firmware_restrict_branch_speculation_start();
606	ibt = ibt_save(disable: true);
607	APM_DO_SAVE_SEGS;
608	apm_bios_call_asm(func: call->func, ebx_in: call->ebx, ecx_in: call->ecx,
609	eax: &call->eax, ebx: &call->ebx, ecx: &call->ecx, edx: &call->edx,
610	esi: &call->esi);
611	APM_DO_RESTORE_SEGS;
612	ibt_restore(save: ibt);
613	firmware_restrict_branch_speculation_end();
614	apm_irq_restore(flags);
615	gdt[0x40 / 8] = save_desc_40;
616	put_cpu();
617
618	return call->eax & 0xff;
619	}
620
621	/* Run __apm_bios_call or __apm_bios_call_simple on CPU 0 */
622	static int on_cpu0(long (*fn)(void *), struct apm_bios_call *call)
623	{
624	int ret;
625
626	/* Don't bother with work_on_cpu in the common case, so we don't
627	* have to worry about OOM or overhead. */
628	if (get_cpu() == 0) {
629	ret = fn(call);
630	put_cpu();
631	} else {
632	put_cpu();
633	ret = work_on_cpu(0, fn, call);
634	}
635
636	/* work_on_cpu can fail with -ENOMEM */
637	if (ret < 0)
638	call->err = ret;
639	else
640	call->err = (call->eax >> 8) & 0xff;
641
642	return ret;
643	}
644
645	/**
646	* apm_bios_call - Make an APM BIOS 32bit call (on CPU 0)
647	* @call: the apm_bios_call registers.
648	*
649	* If there is an error, it is returned in @call.err.
650	*/
651	static int apm_bios_call(struct apm_bios_call *call)
652	{
653	return on_cpu0(fn: __apm_bios_call, call);
654	}
655
656	/**
657	* __apm_bios_call_simple - Make an APM BIOS 32bit call (on CPU 0)
658	* @_call: pointer to struct apm_bios_call.
659	*
660	* Make a BIOS call that returns one value only, or just status.
661	* If there is an error, then the error code is returned in AH
662	* (bits 8-15 of eax) and this function returns non-zero (it can
663	* also return -ENOMEM). This is used for simpler BIOS operations.
664	* This call may hold interrupts off for a long time on some laptops.
665	*
666	* Note: this makes the call on the current CPU.
667	*/
668	static long __apm_bios_call_simple(void *_call)
669	{
670	u8 error;
671	APM_DECL_SEGS
672	unsigned long flags;
673	int cpu;
674	struct desc_struct save_desc_40;
675	struct desc_struct *gdt;
676	struct apm_bios_call *call = _call;
677	u64 ibt;
678
679	cpu = get_cpu();
680	BUG_ON(cpu != 0);
681	gdt = get_cpu_gdt_rw(cpu);
682	save_desc_40 = gdt[0x40 / 8];
683	gdt[0x40 / 8] = bad_bios_desc;
684
685	apm_irq_save(flags);
686	firmware_restrict_branch_speculation_start();
687	ibt = ibt_save(disable: true);
688	APM_DO_SAVE_SEGS;
689	error = apm_bios_call_simple_asm(func: call->func, ebx_in: call->ebx, ecx_in: call->ecx,
690	eax: &call->eax);
691	APM_DO_RESTORE_SEGS;
692	ibt_restore(save: ibt);
693	firmware_restrict_branch_speculation_end();
694	apm_irq_restore(flags);
695	gdt[0x40 / 8] = save_desc_40;
696	put_cpu();
697	return error;
698	}
699
700	/**
701	* apm_bios_call_simple - make a simple APM BIOS 32bit call
702	* @func: APM function to invoke
703	* @ebx_in: EBX register value for BIOS call
704	* @ecx_in: ECX register value for BIOS call
705	* @eax: EAX register on return from the BIOS call
706	* @err: bits
707	*
708	* Make a BIOS call that returns one value only, or just status.
709	* If there is an error, then the error code is returned in @err
710	* and this function returns non-zero. This is used for simpler
711	* BIOS operations. This call may hold interrupts off for a long
712	* time on some laptops.
713	*/
714	static int apm_bios_call_simple(u32 func, u32 ebx_in, u32 ecx_in, u32 *eax,
715	int *err)
716	{
717	struct apm_bios_call call;
718	int ret;
719
720	call.func = func;
721	call.ebx = ebx_in;
722	call.ecx = ecx_in;
723
724	ret = on_cpu0(fn: __apm_bios_call_simple, call: &call);
725	*eax = call.eax;
726	*err = call.err;
727	return ret;
728	}
729
730	/**
731	* apm_driver_version - APM driver version
732	* @val: loaded with the APM version on return
733	*
734	* Retrieve the APM version supported by the BIOS. This is only
735	* supported for APM 1.1 or higher. An error indicates APM 1.0 is
736	* probably present.
737	*
738	* On entry val should point to a value indicating the APM driver
739	* version with the high byte being the major and the low byte the
740	* minor number both in BCD
741	*
742	* On return it will hold the BIOS revision supported in the
743	* same format.
744	*/
745
746	static int apm_driver_version(u_short *val)
747	{
748	u32 eax;
749	int err;
750
751	if (apm_bios_call_simple(APM_FUNC_VERSION, ebx_in: 0, ecx_in: *val, eax: &eax, err: &err))
752	return err;
753	*val = eax;
754	return APM_SUCCESS;
755	}
756
757	/**
758	* apm_get_event - get an APM event from the BIOS
759	* @event: pointer to the event
760	* @info: point to the event information
761	*
762	* The APM BIOS provides a polled information for event
763	* reporting. The BIOS expects to be polled at least every second
764	* when events are pending. When a message is found the caller should
765	* poll until no more messages are present. However, this causes
766	* problems on some laptops where a suspend event notification is
767	* not cleared until it is acknowledged.
768	*
769	* Additional information is returned in the info pointer, providing
770	* that APM 1.2 is in use. If no messages are pending the value 0x80
771	* is returned (No power management events pending).
772	*/
773	static int apm_get_event(apm_event_t *event, apm_eventinfo_t *info)
774	{
775	struct apm_bios_call call;
776
777	call.func = APM_FUNC_GET_EVENT;
778	call.ebx = call.ecx = 0;
779
780	if (apm_bios_call(call: &call))
781	return call.err;
782
783	*event = call.ebx;
784	if (apm_info.connection_version < 0x0102)
785	*info = ~0; /* indicate info not valid */
786	else
787	*info = call.ecx;
788	return APM_SUCCESS;
789	}
790
791	/**
792	* set_power_state - set the power management state
793	* @what: which items to transition
794	* @state: state to transition to
795	*
796	* Request an APM change of state for one or more system devices. The
797	* processor state must be transitioned last of all. what holds the
798	* class of device in the upper byte and the device number (0xFF for
799	* all) for the object to be transitioned.
800	*
801	* The state holds the state to transition to, which may in fact
802	* be an acceptance of a BIOS requested state change.
803	*/
804
805	static int set_power_state(u_short what, u_short state)
806	{
807	u32 eax;
808	int err;
809
810	if (apm_bios_call_simple(APM_FUNC_SET_STATE, ebx_in: what, ecx_in: state, eax: &eax, err: &err))
811	return err;
812	return APM_SUCCESS;
813	}
814
815	/**
816	* set_system_power_state - set system wide power state
817	* @state: which state to enter
818	*
819	* Transition the entire system into a new APM power state.
820	*/
821
822	static int set_system_power_state(u_short state)
823	{
824	return set_power_state(APM_DEVICE_ALL, state);
825	}
826
827	/**
828	* apm_do_idle - perform power saving
829	*
830	* This function notifies the BIOS that the processor is (in the view
831	* of the OS) idle. It returns -1 in the event that the BIOS refuses
832	* to handle the idle request. On a success the function returns 1
833	* if the BIOS did clock slowing or 0 otherwise.
834	*/
835
836	static int apm_do_idle(void)
837	{
838	u32 eax;
839	u8 ret = 0;
840	int idled = 0;
841	int err = 0;
842
843	if (!need_resched()) {
844	idled = 1;
845	ret = apm_bios_call_simple(APM_FUNC_IDLE, ebx_in: 0, ecx_in: 0, eax: &eax, err: &err);
846	}
847
848	if (!idled)
849	return 0;
850
851	if (ret) {
852	static unsigned long t;
853
854	/* This always fails on some SMP boards running UP kernels.
855	* Only report the failure the first 5 times.
856	*/
857	if (++t < 5) {
858	printk(KERN_DEBUG "apm_do_idle failed (%d)\n", err);
859	t = jiffies;
860	}
861	return -1;
862	}
863	clock_slowed = (apm_info.bios.flags & APM_IDLE_SLOWS_CLOCK) != 0;
864	return clock_slowed;
865	}
866
867	/**
868	* apm_do_busy - inform the BIOS the CPU is busy
869	*
870	* Request that the BIOS brings the CPU back to full performance.
871	*/
872
873	static void apm_do_busy(void)
874	{
875	u32 dummy;
876	int err;
877
878	if (clock_slowed || ALWAYS_CALL_BUSY) {
879	(void)apm_bios_call_simple(APM_FUNC_BUSY, ebx_in: 0, ecx_in: 0, eax: &dummy, err: &err);
880	clock_slowed = 0;
881	}
882	}
883
884	/*
885	* If no process has really been interested in
886	* the CPU for some time, we want to call BIOS
887	* power management - we probably want
888	* to conserve power.
889	*/
890	#define IDLE_CALC_LIMIT (HZ * 100)
891	#define IDLE_LEAKY_MAX 16
892
893	/**
894	* apm_cpu_idle - cpu idling for APM capable Linux
895	*
896	* This is the idling function the kernel executes when APM is available. It
897	* tries to do BIOS powermanagement based on the average system idle time.
898	* Furthermore it calls the system default idle routine.
899	*/
900
901	static int apm_cpu_idle(struct cpuidle_device *dev,
902	struct cpuidle_driver *drv, int index)
903	{
904	static int use_apm_idle; /* = 0 */
905	static unsigned int last_jiffies; /* = 0 */
906	static u64 last_stime; /* = 0 */
907	u64 stime, utime;
908
909	int apm_idle_done = 0;
910	unsigned int jiffies_since_last_check = jiffies - last_jiffies;
911	unsigned int bucket;
912
913	recalc:
914	task_cputime(current, utime: &utime, stime: &stime);
915	if (jiffies_since_last_check > IDLE_CALC_LIMIT) {
916	use_apm_idle = 0;
917	} else if (jiffies_since_last_check > idle_period) {
918	unsigned int idle_percentage;
919
920	idle_percentage = nsecs_to_jiffies(n: stime - last_stime);
921	idle_percentage *= 100;
922	idle_percentage /= jiffies_since_last_check;
923	use_apm_idle = (idle_percentage > idle_threshold);
924	if (apm_info.forbid_idle)
925	use_apm_idle = 0;
926	}
927
928	last_jiffies = jiffies;
929	last_stime = stime;
930
931	bucket = IDLE_LEAKY_MAX;
932
933	while (!need_resched()) {
934	if (use_apm_idle) {
935	unsigned int t;
936
937	t = jiffies;
938	switch (apm_do_idle()) {
939	case 0:
940	apm_idle_done = 1;
941	if (t != jiffies) {
942	if (bucket) {
943	bucket = IDLE_LEAKY_MAX;
944	continue;
945	}
946	} else if (bucket) {
947	bucket--;
948	continue;
949	}
950	break;
951	case 1:
952	apm_idle_done = 1;
953	break;
954	default: /* BIOS refused */
955	break;
956	}
957	}
958	default_idle();
959	local_irq_disable();
960	jiffies_since_last_check = jiffies - last_jiffies;
961	if (jiffies_since_last_check > idle_period)
962	goto recalc;
963	}
964
965	if (apm_idle_done)
966	apm_do_busy();
967
968	return index;
969	}
970
971	/**
972	* apm_power_off - ask the BIOS to power off
973	*
974	* Handle the power off sequence. This is the one piece of code we
975	* will execute even on SMP machines. In order to deal with BIOS
976	* bugs we support real mode APM BIOS power off calls. We also make
977	* the SMP call on CPU0 as some systems will only honour this call
978	* on their first cpu.
979	*/
980
981	static void apm_power_off(void)
982	{
983	/* Some bioses don't like being called from CPU != 0 */
984	if (apm_info.realmode_power_off) {
985	set_cpus_allowed_ptr(current, cpumask_of(0));
986	machine_real_restart(MRR_APM);
987	} else {
988	(void)set_system_power_state(APM_STATE_OFF);
989	}
990	}
991
992	#ifdef CONFIG_APM_DO_ENABLE
993
994	/**
995	* apm_enable_power_management - enable BIOS APM power management
996	* @enable: enable yes/no
997	*
998	* Enable or disable the APM BIOS power services.
999	*/
1000
1001	static int apm_enable_power_management(int enable)
1002	{
1003	u32 eax;
1004	int err;
1005
1006	if ((enable == 0) && (apm_info.bios.flags & APM_BIOS_DISENGAGED))
1007	return APM_NOT_ENGAGED;
1008	if (apm_bios_call_simple(APM_FUNC_ENABLE_PM, APM_DEVICE_BALL,
1009	enable, &eax, &err))
1010	return err;
1011	if (enable)
1012	apm_info.bios.flags &= ~APM_BIOS_DISABLED;
1013	else
1014	apm_info.bios.flags |= APM_BIOS_DISABLED;
1015	return APM_SUCCESS;
1016	}
1017	#endif
1018
1019	/**
1020	* apm_get_power_status - get current power state
1021	* @status: returned status
1022	* @bat: battery info
1023	* @life: estimated life
1024	*
1025	* Obtain the current power status from the APM BIOS. We return a
1026	* status which gives the rough battery status, and current power
1027	* source. The bat value returned give an estimate as a percentage
1028	* of life and a status value for the battery. The estimated life
1029	* if reported is a lifetime in seconds/minutes at current power
1030	* consumption.
1031	*/
1032
1033	static int apm_get_power_status(u_short *status, u_short *bat, u_short *life)
1034	{
1035	struct apm_bios_call call;
1036
1037	call.func = APM_FUNC_GET_STATUS;
1038	call.ebx = APM_DEVICE_ALL;
1039	call.ecx = 0;
1040
1041	if (apm_info.get_power_status_broken)
1042	return APM_32_UNSUPPORTED;
1043	if (apm_bios_call(call: &call)) {
1044	if (!call.err)
1045	return APM_NO_ERROR;
1046	return call.err;
1047	}
1048	*status = call.ebx;
1049	*bat = call.ecx;
1050	if (apm_info.get_power_status_swabinminutes) {
1051	*life = swab16((u16)call.edx);
1052	*life |= 0x8000;
1053	} else
1054	*life = call.edx;
1055	return APM_SUCCESS;
1056	}
1057
1058	#if 0
1059	static int apm_get_battery_status(u_short which, u_short *status,
1060	u_short *bat, u_short *life, u_short *nbat)
1061	{
1062	u32 eax;
1063	u32 ebx;
1064	u32 ecx;
1065	u32 edx;
1066	u32 esi;
1067
1068	if (apm_info.connection_version < 0x0102) {
1069	/* pretend we only have one battery. */
1070	if (which != 1)
1071	return APM_BAD_DEVICE;
1072	*nbat = 1;
1073	return apm_get_power_status(status, bat, life);
1074	}
1075
1076	if (apm_bios_call(APM_FUNC_GET_STATUS, (0x8000 | (which)), 0, &eax,
1077	&ebx, &ecx, &edx, &esi))
1078	return (eax >> 8) & 0xff;
1079	*status = ebx;
1080	*bat = ecx;
1081	*life = edx;
1082	*nbat = esi;
1083	return APM_SUCCESS;
1084	}
1085	#endif
1086
1087	/**
1088	* apm_engage_power_management - enable PM on a device
1089	* @device: identity of device
1090	* @enable: on/off
1091	*
1092	* Activate or deactivate power management on either a specific device
1093	* or the entire system (%APM_DEVICE_ALL).
1094	*/
1095
1096	static int apm_engage_power_management(u_short device, int enable)
1097	{
1098	u32 eax;
1099	int err;
1100
1101	if ((enable == 0) && (device == APM_DEVICE_ALL)
1102	&& (apm_info.bios.flags & APM_BIOS_DISABLED))
1103	return APM_DISABLED;
1104	if (apm_bios_call_simple(APM_FUNC_ENGAGE_PM, ebx_in: device, ecx_in: enable,
1105	eax: &eax, err: &err))
1106	return err;
1107	if (device == APM_DEVICE_ALL) {
1108	if (enable)
1109	apm_info.bios.flags &= ~APM_BIOS_DISENGAGED;
1110	else
1111	apm_info.bios.flags |= APM_BIOS_DISENGAGED;
1112	}
1113	return APM_SUCCESS;
1114	}
1115
1116	#if defined(CONFIG_APM_DISPLAY_BLANK) && defined(CONFIG_VT)
1117
1118	/**
1119	* apm_console_blank - blank the display
1120	* @blank: on/off
1121	*
1122	* Attempt to blank the console, firstly by blanking just video device
1123	* zero, and if that fails (some BIOSes don't support it) then it blanks
1124	* all video devices. Typically the BIOS will do laptop backlight and
1125	* monitor powerdown for us.
1126	*/
1127
1128	static int apm_console_blank(int blank)
1129	{
1130	int error = APM_NOT_ENGAGED; /* silence gcc */
1131	int i;
1132	u_short state;
1133	static const u_short dev[3] = { 0x100, 0x1FF, 0x101 };
1134
1135	state = blank ? APM_STATE_STANDBY : APM_STATE_READY;
1136
1137	for (i = 0; i < ARRAY_SIZE(dev); i++) {
1138	error = set_power_state(dev[i], state);
1139
1140	if ((error == APM_SUCCESS) || (error == APM_NO_ERROR))
1141	return 1;
1142
1143	if (error == APM_NOT_ENGAGED)
1144	break;
1145	}
1146
1147	if (error == APM_NOT_ENGAGED) {
1148	static int tried;
1149	int eng_error;
1150	if (tried++ == 0) {
1151	eng_error = apm_engage_power_management(APM_DEVICE_ALL, 1);
1152	if (eng_error) {
1153	apm_error("set display", error);
1154	apm_error("engage interface", eng_error);
1155	return 0;
1156	} else
1157	return apm_console_blank(blank);
1158	}
1159	}
1160	apm_error("set display", error);
1161	return 0;
1162	}
1163	#endif
1164
1165	static int queue_empty(struct apm_user *as)
1166	{
1167	return as->event_head == as->event_tail;
1168	}
1169
1170	static apm_event_t get_queued_event(struct apm_user *as)
1171	{
1172	if (++as->event_tail >= APM_MAX_EVENTS)
1173	as->event_tail = 0;
1174	return as->events[as->event_tail];
1175	}
1176
1177	static void queue_event(apm_event_t event, struct apm_user *sender)
1178	{
1179	struct apm_user *as;
1180
1181	spin_lock(lock: &user_list_lock);
1182	if (user_list == NULL)
1183	goto out;
1184	for (as = user_list; as != NULL; as = as->next) {
1185	if ((as == sender) || (!as->reader))
1186	continue;
1187	if (++as->event_head >= APM_MAX_EVENTS)
1188	as->event_head = 0;
1189
1190	if (as->event_head == as->event_tail) {
1191	static int notified;
1192
1193	if (notified++ == 0)
1194	pr_err("an event queue overflowed\n");
1195	if (++as->event_tail >= APM_MAX_EVENTS)
1196	as->event_tail = 0;
1197	}
1198	as->events[as->event_head] = event;
1199	if (!as->suser || !as->writer)
1200	continue;
1201	switch (event) {
1202	case APM_SYS_SUSPEND:
1203	case APM_USER_SUSPEND:
1204	as->suspends_pending++;
1205	suspends_pending++;
1206	break;
1207
1208	case APM_SYS_STANDBY:
1209	case APM_USER_STANDBY:
1210	as->standbys_pending++;
1211	standbys_pending++;
1212	break;
1213	}
1214	}
1215	wake_up_interruptible(&apm_waitqueue);
1216	out:
1217	spin_unlock(lock: &user_list_lock);
1218	}
1219
1220	static void reinit_timer(void)
1221	{
1222	#ifdef INIT_TIMER_AFTER_SUSPEND
1223	unsigned long flags;
1224
1225	raw_spin_lock_irqsave(&i8253_lock, flags);
1226	/* set the clock to HZ */
1227	outb_p(0x34, PIT_MODE); /* binary, mode 2, LSB/MSB, ch 0 */
1228	udelay(10);
1229	outb_p(LATCH & 0xff, PIT_CH0); /* LSB */
1230	udelay(10);
1231	outb_p(LATCH >> 8, PIT_CH0); /* MSB */
1232	udelay(10);
1233	raw_spin_unlock_irqrestore(&i8253_lock, flags);
1234	#endif
1235	}
1236
1237	static int suspend(int vetoable)
1238	{
1239	int err;
1240	struct apm_user *as;
1241
1242	dpm_suspend_start(PMSG_SUSPEND);
1243	dpm_suspend_end(PMSG_SUSPEND);
1244
1245	local_irq_disable();
1246	syscore_suspend();
1247
1248	local_irq_enable();
1249
1250	save_processor_state();
1251	err = set_system_power_state(APM_STATE_SUSPEND);
1252	ignore_normal_resume = 1;
1253	restore_processor_state();
1254
1255	local_irq_disable();
1256	reinit_timer();
1257
1258	if (err == APM_NO_ERROR)
1259	err = APM_SUCCESS;
1260	if (err != APM_SUCCESS)
1261	apm_error(str: "suspend", err);
1262	err = (err == APM_SUCCESS) ? 0 : -EIO;
1263
1264	syscore_resume();
1265	local_irq_enable();
1266
1267	dpm_resume_start(PMSG_RESUME);
1268	dpm_resume_end(PMSG_RESUME);
1269
1270	queue_event(APM_NORMAL_RESUME, NULL);
1271	spin_lock(lock: &user_list_lock);
1272	for (as = user_list; as != NULL; as = as->next) {
1273	as->suspend_wait = 0;
1274	as->suspend_result = err;
1275	}
1276	spin_unlock(lock: &user_list_lock);
1277	wake_up_interruptible(&apm_suspend_waitqueue);
1278	return err;
1279	}
1280
1281	static void standby(void)
1282	{
1283	int err;
1284
1285	dpm_suspend_end(PMSG_SUSPEND);
1286
1287	local_irq_disable();
1288	syscore_suspend();
1289	local_irq_enable();
1290
1291	err = set_system_power_state(APM_STATE_STANDBY);
1292	if ((err != APM_SUCCESS) && (err != APM_NO_ERROR))
1293	apm_error(str: "standby", err);
1294
1295	local_irq_disable();
1296	syscore_resume();
1297	local_irq_enable();
1298
1299	dpm_resume_start(PMSG_RESUME);
1300	}
1301
1302	static apm_event_t get_event(void)
1303	{
1304	int error;
1305	apm_event_t event = APM_NO_EVENTS; /* silence gcc */
1306	apm_eventinfo_t info;
1307
1308	static int notified;
1309
1310	/* we don't use the eventinfo */
1311	error = apm_get_event(event: &event, info: &info);
1312	if (error == APM_SUCCESS)
1313	return event;
1314
1315	if ((error != APM_NO_EVENTS) && (notified++ == 0))
1316	apm_error(str: "get_event", err: error);
1317
1318	return 0;
1319	}
1320
1321	static void check_events(void)
1322	{
1323	apm_event_t event;
1324	static unsigned long last_resume;
1325	static int ignore_bounce;
1326
1327	while ((event = get_event()) != 0) {
1328	if (debug) {
1329	if (event <= NR_APM_EVENT_NAME)
1330	printk(KERN_DEBUG "apm: received %s notify\n",
1331	apm_event_name[event - 1]);
1332	else
1333	printk(KERN_DEBUG "apm: received unknown "
1334	"event 0x%02x\n", event);
1335	}
1336	if (ignore_bounce
1337	&& (time_after(jiffies, last_resume + bounce_interval)))
1338	ignore_bounce = 0;
1339
1340	switch (event) {
1341	case APM_SYS_STANDBY:
1342	case APM_USER_STANDBY:
1343	queue_event(event, NULL);
1344	if (standbys_pending <= 0)
1345	standby();
1346	break;
1347
1348	case APM_USER_SUSPEND:
1349	#ifdef CONFIG_APM_IGNORE_USER_SUSPEND
1350	if (apm_info.connection_version > 0x100)
1351	set_system_power_state(APM_STATE_REJECT);
1352	break;
1353	#endif
1354	case APM_SYS_SUSPEND:
1355	if (ignore_bounce) {
1356	if (apm_info.connection_version > 0x100)
1357	set_system_power_state(APM_STATE_REJECT);
1358	break;
1359	}
1360	/*
1361	* If we are already processing a SUSPEND,
1362	* then further SUSPEND events from the BIOS
1363	* will be ignored. We also return here to
1364	* cope with the fact that the Thinkpads keep
1365	* sending a SUSPEND event until something else
1366	* happens!
1367	*/
1368	if (ignore_sys_suspend)
1369	return;
1370	ignore_sys_suspend = 1;
1371	queue_event(event, NULL);
1372	if (suspends_pending <= 0)
1373	(void) suspend(vetoable: 1);
1374	break;
1375
1376	case APM_NORMAL_RESUME:
1377	case APM_CRITICAL_RESUME:
1378	case APM_STANDBY_RESUME:
1379	ignore_sys_suspend = 0;
1380	last_resume = jiffies;
1381	ignore_bounce = 1;
1382	if ((event != APM_NORMAL_RESUME)
1383	|| (ignore_normal_resume == 0)) {
1384	dpm_resume_end(PMSG_RESUME);
1385	queue_event(event, NULL);
1386	}
1387	ignore_normal_resume = 0;
1388	break;
1389
1390	case APM_CAPABILITY_CHANGE:
1391	case APM_LOW_BATTERY:
1392	case APM_POWER_STATUS_CHANGE:
1393	queue_event(event, NULL);
1394	/* If needed, notify drivers here */
1395	break;
1396
1397	case APM_UPDATE_TIME:
1398	break;
1399
1400	case APM_CRITICAL_SUSPEND:
1401	/*
1402	* We are not allowed to reject a critical suspend.
1403	*/
1404	(void)suspend(vetoable: 0);
1405	break;
1406	}
1407	}
1408	}
1409
1410	static void apm_event_handler(void)
1411	{
1412	static int pending_count = 4;
1413	int err;
1414
1415	if ((standbys_pending > 0) || (suspends_pending > 0)) {
1416	if ((apm_info.connection_version > 0x100) &&
1417	(pending_count-- <= 0)) {
1418	pending_count = 4;
1419	if (debug)
1420	printk(KERN_DEBUG "apm: setting state busy\n");
1421	err = set_system_power_state(APM_STATE_BUSY);
1422	if (err)
1423	apm_error(str: "busy", err);
1424	}
1425	} else
1426	pending_count = 4;
1427	check_events();
1428	}
1429
1430	/*
1431	* This is the APM thread main loop.
1432	*/
1433
1434	static void apm_mainloop(void)
1435	{
1436	DECLARE_WAITQUEUE(wait, current);
1437
1438	add_wait_queue(wq_head: &apm_waitqueue, wq_entry: &wait);
1439	set_current_state(TASK_INTERRUPTIBLE);
1440	for (;;) {
1441	schedule_timeout(APM_CHECK_TIMEOUT);
1442	if (kthread_should_stop())
1443	break;
1444	/*
1445	* Ok, check all events, check for idle (and mark us sleeping
1446	* so as not to count towards the load average)..
1447	*/
1448	set_current_state(TASK_INTERRUPTIBLE);
1449	apm_event_handler();
1450	}
1451	remove_wait_queue(wq_head: &apm_waitqueue, wq_entry: &wait);
1452	}
1453
1454	static int check_apm_user(struct apm_user *as, const char *func)
1455	{
1456	if (as == NULL || as->magic != APM_BIOS_MAGIC) {
1457	pr_err("%s passed bad filp\n", func);
1458	return 1;
1459	}
1460	return 0;
1461	}
1462
1463	static ssize_t do_read(struct file *fp, char __user *buf, size_t count, loff_t *ppos)
1464	{
1465	struct apm_user *as;
1466	int i;
1467	apm_event_t event;
1468
1469	as = fp->private_data;
1470	if (check_apm_user(as, func: "read"))
1471	return -EIO;
1472	if ((int)count < sizeof(apm_event_t))
1473	return -EINVAL;
1474	if ((queue_empty(as)) && (fp->f_flags & O_NONBLOCK))
1475	return -EAGAIN;
1476	wait_event_interruptible(apm_waitqueue, !queue_empty(as));
1477	i = count;
1478	while ((i >= sizeof(event)) && !queue_empty(as)) {
1479	event = get_queued_event(as);
1480	if (copy_to_user(to: buf, from: &event, n: sizeof(event))) {
1481	if (i < count)
1482	break;
1483	return -EFAULT;
1484	}
1485	switch (event) {
1486	case APM_SYS_SUSPEND:
1487	case APM_USER_SUSPEND:
1488	as->suspends_read++;
1489	break;
1490
1491	case APM_SYS_STANDBY:
1492	case APM_USER_STANDBY:
1493	as->standbys_read++;
1494	break;
1495	}
1496	buf += sizeof(event);
1497	i -= sizeof(event);
1498	}
1499	if (i < count)
1500	return count - i;
1501	if (signal_pending(current))
1502	return -ERESTARTSYS;
1503	return 0;
1504	}
1505
1506	static __poll_t do_poll(struct file *fp, poll_table *wait)
1507	{
1508	struct apm_user *as;
1509
1510	as = fp->private_data;
1511	if (check_apm_user(as, func: "poll"))
1512	return 0;
1513	poll_wait(filp: fp, wait_address: &apm_waitqueue, p: wait);
1514	if (!queue_empty(as))
1515	return EPOLLIN | EPOLLRDNORM;
1516	return 0;
1517	}
1518
1519	static long do_ioctl(struct file *filp, u_int cmd, u_long arg)
1520	{
1521	struct apm_user *as;
1522	int ret;
1523
1524	as = filp->private_data;
1525	if (check_apm_user(as, func: "ioctl"))
1526	return -EIO;
1527	if (!as->suser || !as->writer)
1528	return -EPERM;
1529	switch (cmd) {
1530	case APM_IOC_STANDBY:
1531	mutex_lock(&apm_mutex);
1532	if (as->standbys_read > 0) {
1533	as->standbys_read--;
1534	as->standbys_pending--;
1535	standbys_pending--;
1536	} else
1537	queue_event(APM_USER_STANDBY, sender: as);
1538	if (standbys_pending <= 0)
1539	standby();
1540	mutex_unlock(lock: &apm_mutex);
1541	break;
1542	case APM_IOC_SUSPEND:
1543	mutex_lock(&apm_mutex);
1544	if (as->suspends_read > 0) {
1545	as->suspends_read--;
1546	as->suspends_pending--;
1547	suspends_pending--;
1548	} else
1549	queue_event(APM_USER_SUSPEND, sender: as);
1550	if (suspends_pending <= 0) {
1551	ret = suspend(vetoable: 1);
1552	mutex_unlock(lock: &apm_mutex);
1553	} else {
1554	as->suspend_wait = 1;
1555	mutex_unlock(lock: &apm_mutex);
1556	wait_event_interruptible(apm_suspend_waitqueue,
1557	as->suspend_wait == 0);
1558	ret = as->suspend_result;
1559	}
1560	return ret;
1561	default:
1562	return -ENOTTY;
1563	}
1564	return 0;
1565	}
1566
1567	static int do_release(struct inode *inode, struct file *filp)
1568	{
1569	struct apm_user *as;
1570
1571	as = filp->private_data;
1572	if (check_apm_user(as, func: "release"))
1573	return 0;
1574	filp->private_data = NULL;
1575	if (as->standbys_pending > 0) {
1576	standbys_pending -= as->standbys_pending;
1577	if (standbys_pending <= 0)
1578	standby();
1579	}
1580	if (as->suspends_pending > 0) {
1581	suspends_pending -= as->suspends_pending;
1582	if (suspends_pending <= 0)
1583	(void) suspend(vetoable: 1);
1584	}
1585	spin_lock(lock: &user_list_lock);
1586	if (user_list == as)
1587	user_list = as->next;
1588	else {
1589	struct apm_user *as1;
1590
1591	for (as1 = user_list;
1592	(as1 != NULL) && (as1->next != as);
1593	as1 = as1->next)
1594	;
1595	if (as1 == NULL)
1596	pr_err("filp not in user list\n");
1597	else
1598	as1->next = as->next;
1599	}
1600	spin_unlock(lock: &user_list_lock);
1601	kfree(objp: as);
1602	return 0;
1603	}
1604
1605	static int do_open(struct inode *inode, struct file *filp)
1606	{
1607	struct apm_user *as;
1608
1609	as = kmalloc(size: sizeof(*as), GFP_KERNEL);
1610	if (as == NULL)
1611	return -ENOMEM;
1612
1613	as->magic = APM_BIOS_MAGIC;
1614	as->event_tail = as->event_head = 0;
1615	as->suspends_pending = as->standbys_pending = 0;
1616	as->suspends_read = as->standbys_read = 0;
1617	/*
1618	* XXX - this is a tiny bit broken, when we consider BSD
1619	* process accounting. If the device is opened by root, we
1620	* instantly flag that we used superuser privs. Who knows,
1621	* we might close the device immediately without doing a
1622	* privileged operation -- cevans
1623	*/
1624	as->suser = capable(CAP_SYS_ADMIN);
1625	as->writer = (filp->f_mode & FMODE_WRITE) == FMODE_WRITE;
1626	as->reader = (filp->f_mode & FMODE_READ) == FMODE_READ;
1627	spin_lock(lock: &user_list_lock);
1628	as->next = user_list;
1629	user_list = as;
1630	spin_unlock(lock: &user_list_lock);
1631	filp->private_data = as;
1632	return 0;
1633	}
1634
1635	#ifdef CONFIG_PROC_FS
1636	static int proc_apm_show(struct seq_file *m, void *v)
1637	{
1638	unsigned short bx;
1639	unsigned short cx;
1640	unsigned short dx;
1641	int error;
1642	unsigned short ac_line_status = 0xff;
1643	unsigned short battery_status = 0xff;
1644	unsigned short battery_flag = 0xff;
1645	int percentage = -1;
1646	int time_units = -1;
1647	char *units = "?";
1648
1649	if ((num_online_cpus() == 1) &&
1650	!(error = apm_get_power_status(status: &bx, bat: &cx, life: &dx))) {
1651	ac_line_status = (bx >> 8) & 0xff;
1652	battery_status = bx & 0xff;
1653	if ((cx & 0xff) != 0xff)
1654	percentage = cx & 0xff;
1655
1656	if (apm_info.connection_version > 0x100) {
1657	battery_flag = (cx >> 8) & 0xff;
1658	if (dx != 0xffff) {
1659	units = (dx & 0x8000) ? "min" : "sec";
1660	time_units = dx & 0x7fff;
1661	}
1662	}
1663	}
1664	/* Arguments, with symbols from linux/apm_bios.h. Information is
1665	from the Get Power Status (0x0a) call unless otherwise noted.
1666
1667	0) Linux driver version (this will change if format changes)
1668	1) APM BIOS Version. Usually 1.0, 1.1 or 1.2.
1669	2) APM flags from APM Installation Check (0x00):
1670	bit 0: APM_16_BIT_SUPPORT
1671	bit 1: APM_32_BIT_SUPPORT
1672	bit 2: APM_IDLE_SLOWS_CLOCK
1673	bit 3: APM_BIOS_DISABLED
1674	bit 4: APM_BIOS_DISENGAGED
1675	3) AC line status
1676	0x00: Off-line
1677	0x01: On-line
1678	0x02: On backup power (BIOS >= 1.1 only)
1679	0xff: Unknown
1680	4) Battery status
1681	0x00: High
1682	0x01: Low
1683	0x02: Critical
1684	0x03: Charging
1685	0x04: Selected battery not present (BIOS >= 1.2 only)
1686	0xff: Unknown
1687	5) Battery flag
1688	bit 0: High
1689	bit 1: Low
1690	bit 2: Critical
1691	bit 3: Charging
1692	bit 7: No system battery
1693	0xff: Unknown
1694	6) Remaining battery life (percentage of charge):
1695	0-100: valid
1696	-1: Unknown
1697	7) Remaining battery life (time units):
1698	Number of remaining minutes or seconds
1699	-1: Unknown
1700	8) min = minutes; sec = seconds */
1701
1702	seq_printf(m, fmt: "%s %d.%d 0x%02x 0x%02x 0x%02x 0x%02x %d%% %d %s\n",
1703	driver_version,
1704	(apm_info.bios.version >> 8) & 0xff,
1705	apm_info.bios.version & 0xff,
1706	apm_info.bios.flags,
1707	ac_line_status,
1708	battery_status,
1709	battery_flag,
1710	percentage,
1711	time_units,
1712	units);
1713	return 0;
1714	}
1715	#endif
1716
1717	static int apm(void *unused)
1718	{
1719	unsigned short bx;
1720	unsigned short cx;
1721	unsigned short dx;
1722	int error;
1723	char *power_stat;
1724	char *bat_stat;
1725
1726	/* 2002/08/01 - WT
1727	* This is to avoid random crashes at boot time during initialization
1728	* on SMP systems in case of "apm=power-off" mode. Seen on ASUS A7M266D.
1729	* Some bioses don't like being called from CPU != 0.
1730	* Method suggested by Ingo Molnar.
1731	*/
1732	set_cpus_allowed_ptr(current, cpumask_of(0));
1733	BUG_ON(smp_processor_id() != 0);
1734
1735	if (apm_info.connection_version == 0) {
1736	apm_info.connection_version = apm_info.bios.version;
1737	if (apm_info.connection_version > 0x100) {
1738	/*
1739	* We only support BIOSs up to version 1.2
1740	*/
1741	if (apm_info.connection_version > 0x0102)
1742	apm_info.connection_version = 0x0102;
1743	error = apm_driver_version(val: &apm_info.connection_version);
1744	if (error != APM_SUCCESS) {
1745	apm_error(str: "driver version", err: error);
1746	/* Fall back to an APM 1.0 connection. */
1747	apm_info.connection_version = 0x100;
1748	}
1749	}
1750	}
1751
1752	if (debug)
1753	printk(KERN_INFO "apm: Connection version %d.%d\n",
1754	(apm_info.connection_version >> 8) & 0xff,
1755	apm_info.connection_version & 0xff);
1756
1757	#ifdef CONFIG_APM_DO_ENABLE
1758	if (apm_info.bios.flags & APM_BIOS_DISABLED) {
1759	/*
1760	* This call causes my NEC UltraLite Versa 33/C to hang if it
1761	* is booted with PM disabled but not in the docking station.
1762	* Unfortunate ...
1763	*/
1764	error = apm_enable_power_management(1);
1765	if (error) {
1766	apm_error("enable power management", error);
1767	return -1;
1768	}
1769	}
1770	#endif
1771
1772	if ((apm_info.bios.flags & APM_BIOS_DISENGAGED)
1773	&& (apm_info.connection_version > 0x0100)) {
1774	error = apm_engage_power_management(APM_DEVICE_ALL, enable: 1);
1775	if (error) {
1776	apm_error(str: "engage power management", err: error);
1777	return -1;
1778	}
1779	}
1780
1781	if (debug && (num_online_cpus() == 1 || smp)) {
1782	error = apm_get_power_status(status: &bx, bat: &cx, life: &dx);
1783	if (error)
1784	printk(KERN_INFO "apm: power status not available\n");
1785	else {
1786	switch ((bx >> 8) & 0xff) {
1787	case 0:
1788	power_stat = "off line";
1789	break;
1790	case 1:
1791	power_stat = "on line";
1792	break;
1793	case 2:
1794	power_stat = "on backup power";
1795	break;
1796	default:
1797	power_stat = "unknown";
1798	break;
1799	}
1800	switch (bx & 0xff) {
1801	case 0:
1802	bat_stat = "high";
1803	break;
1804	case 1:
1805	bat_stat = "low";
1806	break;
1807	case 2:
1808	bat_stat = "critical";
1809	break;
1810	case 3:
1811	bat_stat = "charging";
1812	break;
1813	default:
1814	bat_stat = "unknown";
1815	break;
1816	}
1817	printk(KERN_INFO
1818	"apm: AC %s, battery status %s, battery life ",
1819	power_stat, bat_stat);
1820	if ((cx & 0xff) == 0xff)
1821	printk("unknown\n");
1822	else
1823	printk("%d%%\n", cx & 0xff);
1824	if (apm_info.connection_version > 0x100) {
1825	printk(KERN_INFO
1826	"apm: battery flag 0x%02x, battery life ",
1827	(cx >> 8) & 0xff);
1828	if (dx == 0xffff)
1829	printk("unknown\n");
1830	else
1831	printk("%d %s\n", dx & 0x7fff,
1832	(dx & 0x8000) ?
1833	"minutes" : "seconds");
1834	}
1835	}
1836	}
1837
1838	/* Install our power off handler.. */
1839	if (power_off)
1840	pm_power_off = apm_power_off;
1841
1842	if (num_online_cpus() == 1 || smp) {
1843	#if defined(CONFIG_APM_DISPLAY_BLANK) && defined(CONFIG_VT)
1844	console_blank_hook = apm_console_blank;
1845	#endif
1846	apm_mainloop();
1847	#if defined(CONFIG_APM_DISPLAY_BLANK) && defined(CONFIG_VT)
1848	console_blank_hook = NULL;
1849	#endif
1850	}
1851
1852	return 0;
1853	}
1854
1855	#ifndef MODULE
1856	static int __init apm_setup(char *str)
1857	{
1858	int invert;
1859
1860	while ((str != NULL) && (*str != '\0')) {
1861	if (strncmp(str, "off", 3) == 0)
1862	apm_disabled = 1;
1863	if (strncmp(str, "on", 2) == 0)
1864	apm_disabled = 0;
1865	if ((strncmp(str, "bounce-interval=", 16) == 0) ||
1866	(strncmp(str, "bounce_interval=", 16) == 0))
1867	bounce_interval = simple_strtol(str + 16, NULL, 0);
1868	if ((strncmp(str, "idle-threshold=", 15) == 0) ||
1869	(strncmp(str, "idle_threshold=", 15) == 0))
1870	idle_threshold = simple_strtol(str + 15, NULL, 0);
1871	if ((strncmp(str, "idle-period=", 12) == 0) ||
1872	(strncmp(str, "idle_period=", 12) == 0))
1873	idle_period = simple_strtol(str + 12, NULL, 0);
1874	invert = (strncmp(str, "no-", 3) == 0) ||
1875	(strncmp(str, "no_", 3) == 0);
1876	if (invert)
1877	str += 3;
1878	if (strncmp(str, "debug", 5) == 0)
1879	debug = !invert;
1880	if ((strncmp(str, "power-off", 9) == 0) ||
1881	(strncmp(str, "power_off", 9) == 0))
1882	power_off = !invert;
1883	if (strncmp(str, "smp", 3) == 0) {
1884	smp = !invert;
1885	idle_threshold = 100;
1886	}
1887	if ((strncmp(str, "allow-ints", 10) == 0) ||
1888	(strncmp(str, "allow_ints", 10) == 0))
1889	apm_info.allow_ints = !invert;
1890	if ((strncmp(str, "broken-psr", 10) == 0) ||
1891	(strncmp(str, "broken_psr", 10) == 0))
1892	apm_info.get_power_status_broken = !invert;
1893	if ((strncmp(str, "realmode-power-off", 18) == 0) ||
1894	(strncmp(str, "realmode_power_off", 18) == 0))
1895	apm_info.realmode_power_off = !invert;
1896	str = strchr(str, ',');
1897	if (str != NULL)
1898	str += strspn(str, ", \t");
1899	}
1900	return 1;
1901	}
1902
1903	__setup("apm=", apm_setup);
1904	#endif
1905
1906	static const struct file_operations apm_bios_fops = {
1907	.owner = THIS_MODULE,
1908	.read = do_read,
1909	.poll = do_poll,
1910	.unlocked_ioctl = do_ioctl,
1911	.open = do_open,
1912	.release = do_release,
1913	.llseek = noop_llseek,
1914	};
1915
1916	static struct miscdevice apm_device = {
1917	APM_MINOR_DEV,
1918	"apm_bios",
1919	&apm_bios_fops
1920	};
1921
1922
1923	/* Simple "print if true" callback */
1924	static int __init print_if_true(const struct dmi_system_id *d)
1925	{
1926	printk("%s\n", d->ident);
1927	return 0;
1928	}
1929
1930	/*
1931	* Some Bioses enable the PS/2 mouse (touchpad) at resume, even if it was
1932	* disabled before the suspend. Linux used to get terribly confused by that.
1933	*/
1934	static int __init broken_ps2_resume(const struct dmi_system_id *d)
1935	{
1936	printk(KERN_INFO "%s machine detected. Mousepad Resume Bug "
1937	"workaround hopefully not needed.\n", d->ident);
1938	return 0;
1939	}
1940
1941	/* Some bioses have a broken protected mode poweroff and need to use realmode */
1942	static int __init set_realmode_power_off(const struct dmi_system_id *d)
1943	{
1944	if (apm_info.realmode_power_off == 0) {
1945	apm_info.realmode_power_off = 1;
1946	printk(KERN_INFO "%s bios detected. "
1947	"Using realmode poweroff only.\n", d->ident);
1948	}
1949	return 0;
1950	}
1951
1952	/* Some laptops require interrupts to be enabled during APM calls */
1953	static int __init set_apm_ints(const struct dmi_system_id *d)
1954	{
1955	if (apm_info.allow_ints == 0) {
1956	apm_info.allow_ints = 1;
1957	printk(KERN_INFO "%s machine detected. "
1958	"Enabling interrupts during APM calls.\n", d->ident);
1959	}
1960	return 0;
1961	}
1962
1963	/* Some APM bioses corrupt memory or just plain do not work */
1964	static int __init apm_is_horked(const struct dmi_system_id *d)
1965	{
1966	if (apm_info.disabled == 0) {
1967	apm_info.disabled = 1;
1968	printk(KERN_INFO "%s machine detected. "
1969	"Disabling APM.\n", d->ident);
1970	}
1971	return 0;
1972	}
1973
1974	static int __init apm_is_horked_d850md(const struct dmi_system_id *d)
1975	{
1976	if (apm_info.disabled == 0) {
1977	apm_info.disabled = 1;
1978	printk(KERN_INFO "%s machine detected. "
1979	"Disabling APM.\n", d->ident);
1980	printk(KERN_INFO "This bug is fixed in bios P15 which is available for\n");
1981	printk(KERN_INFO "download from support.intel.com\n");
1982	}
1983	return 0;
1984	}
1985
1986	/* Some APM bioses hang on APM idle calls */
1987	static int __init apm_likes_to_melt(const struct dmi_system_id *d)
1988	{
1989	if (apm_info.forbid_idle == 0) {
1990	apm_info.forbid_idle = 1;
1991	printk(KERN_INFO "%s machine detected. "
1992	"Disabling APM idle calls.\n", d->ident);
1993	}
1994	return 0;
1995	}
1996
1997	/*
1998	* Check for clue free BIOS implementations who use
1999	* the following QA technique
2000	*
2001	* [ Write BIOS Code ]<------
2002	* | ^
2003	* < Does it Compile >----N--
2004	* |Y ^
2005	* < Does it Boot Win98 >-N--
2006	* |Y
2007	* [Ship It]
2008	*
2009	* Phoenix A04 08/24/2000 is known bad (Dell Inspiron 5000e)
2010	* Phoenix A07 09/29/2000 is known good (Dell Inspiron 5000)
2011	*/
2012	static int __init broken_apm_power(const struct dmi_system_id *d)
2013	{
2014	apm_info.get_power_status_broken = 1;
2015	printk(KERN_WARNING "BIOS strings suggest APM bugs, "
2016	"disabling power status reporting.\n");
2017	return 0;
2018	}
2019
2020	/*
2021	* This bios swaps the APM minute reporting bytes over (Many sony laptops
2022	* have this problem).
2023	*/
2024	static int __init swab_apm_power_in_minutes(const struct dmi_system_id *d)
2025	{
2026	apm_info.get_power_status_swabinminutes = 1;
2027	printk(KERN_WARNING "BIOS strings suggest APM reports battery life "
2028	"in minutes and wrong byte order.\n");
2029	return 0;
2030	}
2031
2032	static const struct dmi_system_id apm_dmi_table[] __initconst = {
2033	{
2034	print_if_true,
2035	KERN_WARNING "IBM T23 - BIOS 1.03b+ and controller firmware 1.02+ may be needed for Linux APM.",
2036	{ DMI_MATCH(DMI_SYS_VENDOR, "IBM"),
2037	DMI_MATCH(DMI_BIOS_VERSION, "1AET38WW (1.01b)"), },
2038	},
2039	{ /* Handle problems with APM on the C600 */
2040	broken_ps2_resume, "Dell Latitude C600",
2041	{ DMI_MATCH(DMI_SYS_VENDOR, "Dell"),
2042	DMI_MATCH(DMI_PRODUCT_NAME, "Latitude C600"), },
2043	},
2044	{ /* Allow interrupts during suspend on Dell Latitude laptops*/
2045	set_apm_ints, "Dell Latitude",
2046	{ DMI_MATCH(DMI_SYS_VENDOR, "Dell Computer Corporation"),
2047	DMI_MATCH(DMI_PRODUCT_NAME, "Latitude C510"), }
2048	},
2049	{ /* APM crashes */
2050	apm_is_horked, "Dell Inspiron 2500",
2051	{ DMI_MATCH(DMI_SYS_VENDOR, "Dell Computer Corporation"),
2052	DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 2500"),
2053	DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2054	DMI_MATCH(DMI_BIOS_VERSION, "A11"), },
2055	},
2056	{ /* Allow interrupts during suspend on Dell Inspiron laptops*/
2057	set_apm_ints, "Dell Inspiron", {
2058	DMI_MATCH(DMI_SYS_VENDOR, "Dell Computer Corporation"),
2059	DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 4000"), },
2060	},
2061	{ /* Handle problems with APM on Inspiron 5000e */
2062	broken_apm_power, "Dell Inspiron 5000e",
2063	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2064	DMI_MATCH(DMI_BIOS_VERSION, "A04"),
2065	DMI_MATCH(DMI_BIOS_DATE, "08/24/2000"), },
2066	},
2067	{ /* Handle problems with APM on Inspiron 2500 */
2068	broken_apm_power, "Dell Inspiron 2500",
2069	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2070	DMI_MATCH(DMI_BIOS_VERSION, "A12"),
2071	DMI_MATCH(DMI_BIOS_DATE, "02/04/2002"), },
2072	},
2073	{ /* APM crashes */
2074	apm_is_horked, "Dell Dimension 4100",
2075	{ DMI_MATCH(DMI_SYS_VENDOR, "Dell Computer Corporation"),
2076	DMI_MATCH(DMI_PRODUCT_NAME, "XPS-Z"),
2077	DMI_MATCH(DMI_BIOS_VENDOR, "Intel Corp."),
2078	DMI_MATCH(DMI_BIOS_VERSION, "A11"), },
2079	},
2080	{ /* Allow interrupts during suspend on Compaq Laptops*/
2081	set_apm_ints, "Compaq 12XL125",
2082	{ DMI_MATCH(DMI_SYS_VENDOR, "Compaq"),
2083	DMI_MATCH(DMI_PRODUCT_NAME, "Compaq PC"),
2084	DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2085	DMI_MATCH(DMI_BIOS_VERSION, "4.06"), },
2086	},
2087	{ /* Allow interrupts during APM or the clock goes slow */
2088	set_apm_ints, "ASUSTeK",
2089	{ DMI_MATCH(DMI_SYS_VENDOR, "ASUSTeK Computer Inc."),
2090	DMI_MATCH(DMI_PRODUCT_NAME, "L8400K series Notebook PC"), },
2091	},
2092	{ /* APM blows on shutdown */
2093	apm_is_horked, "ABIT KX7-333[R]",
2094	{ DMI_MATCH(DMI_BOARD_VENDOR, "ABIT"),
2095	DMI_MATCH(DMI_BOARD_NAME, "VT8367-8233A (KX7-333[R])"), },
2096	},
2097	{ /* APM crashes */
2098	apm_is_horked, "Trigem Delhi3",
2099	{ DMI_MATCH(DMI_SYS_VENDOR, "TriGem Computer, Inc"),
2100	DMI_MATCH(DMI_PRODUCT_NAME, "Delhi3"), },
2101	},
2102	{ /* APM crashes */
2103	apm_is_horked, "Fujitsu-Siemens",
2104	{ DMI_MATCH(DMI_BIOS_VENDOR, "hoenix/FUJITSU SIEMENS"),
2105	DMI_MATCH(DMI_BIOS_VERSION, "Version1.01"), },
2106	},
2107	{ /* APM crashes */
2108	apm_is_horked_d850md, "Intel D850MD",
2109	{ DMI_MATCH(DMI_BIOS_VENDOR, "Intel Corp."),
2110	DMI_MATCH(DMI_BIOS_VERSION, "MV85010A.86A.0016.P07.0201251536"), },
2111	},
2112	{ /* APM crashes */
2113	apm_is_horked, "Intel D810EMO",
2114	{ DMI_MATCH(DMI_BIOS_VENDOR, "Intel Corp."),
2115	DMI_MATCH(DMI_BIOS_VERSION, "MO81010A.86A.0008.P04.0004170800"), },
2116	},
2117	{ /* APM crashes */
2118	apm_is_horked, "Dell XPS-Z",
2119	{ DMI_MATCH(DMI_BIOS_VENDOR, "Intel Corp."),
2120	DMI_MATCH(DMI_BIOS_VERSION, "A11"),
2121	DMI_MATCH(DMI_PRODUCT_NAME, "XPS-Z"), },
2122	},
2123	{ /* APM crashes */
2124	apm_is_horked, "Sharp PC-PJ/AX",
2125	{ DMI_MATCH(DMI_SYS_VENDOR, "SHARP"),
2126	DMI_MATCH(DMI_PRODUCT_NAME, "PC-PJ/AX"),
2127	DMI_MATCH(DMI_BIOS_VENDOR, "SystemSoft"),
2128	DMI_MATCH(DMI_BIOS_VERSION, "Version R2.08"), },
2129	},
2130	{ /* APM crashes */
2131	apm_is_horked, "Dell Inspiron 2500",
2132	{ DMI_MATCH(DMI_SYS_VENDOR, "Dell Computer Corporation"),
2133	DMI_MATCH(DMI_PRODUCT_NAME, "Inspiron 2500"),
2134	DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2135	DMI_MATCH(DMI_BIOS_VERSION, "A11"), },
2136	},
2137	{ /* APM idle hangs */
2138	apm_likes_to_melt, "Jabil AMD",
2139	{ DMI_MATCH(DMI_BIOS_VENDOR, "American Megatrends Inc."),
2140	DMI_MATCH(DMI_BIOS_VERSION, "0AASNP06"), },
2141	},
2142	{ /* APM idle hangs */
2143	apm_likes_to_melt, "AMI Bios",
2144	{ DMI_MATCH(DMI_BIOS_VENDOR, "American Megatrends Inc."),
2145	DMI_MATCH(DMI_BIOS_VERSION, "0AASNP05"), },
2146	},
2147	{ /* Handle problems with APM on Sony Vaio PCG-N505X(DE) */
2148	swab_apm_power_in_minutes, "Sony VAIO",
2149	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2150	DMI_MATCH(DMI_BIOS_VERSION, "R0206H"),
2151	DMI_MATCH(DMI_BIOS_DATE, "08/23/99"), },
2152	},
2153	{ /* Handle problems with APM on Sony Vaio PCG-N505VX */
2154	swab_apm_power_in_minutes, "Sony VAIO",
2155	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2156	DMI_MATCH(DMI_BIOS_VERSION, "W2K06H0"),
2157	DMI_MATCH(DMI_BIOS_DATE, "02/03/00"), },
2158	},
2159	{ /* Handle problems with APM on Sony Vaio PCG-XG29 */
2160	swab_apm_power_in_minutes, "Sony VAIO",
2161	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2162	DMI_MATCH(DMI_BIOS_VERSION, "R0117A0"),
2163	DMI_MATCH(DMI_BIOS_DATE, "04/25/00"), },
2164	},
2165	{ /* Handle problems with APM on Sony Vaio PCG-Z600NE */
2166	swab_apm_power_in_minutes, "Sony VAIO",
2167	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2168	DMI_MATCH(DMI_BIOS_VERSION, "R0121Z1"),
2169	DMI_MATCH(DMI_BIOS_DATE, "05/11/00"), },
2170	},
2171	{ /* Handle problems with APM on Sony Vaio PCG-Z600NE */
2172	swab_apm_power_in_minutes, "Sony VAIO",
2173	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2174	DMI_MATCH(DMI_BIOS_VERSION, "WME01Z1"),
2175	DMI_MATCH(DMI_BIOS_DATE, "08/11/00"), },
2176	},
2177	{ /* Handle problems with APM on Sony Vaio PCG-Z600LEK(DE) */
2178	swab_apm_power_in_minutes, "Sony VAIO",
2179	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2180	DMI_MATCH(DMI_BIOS_VERSION, "R0206Z3"),
2181	DMI_MATCH(DMI_BIOS_DATE, "12/25/00"), },
2182	},
2183	{ /* Handle problems with APM on Sony Vaio PCG-Z505LS */
2184	swab_apm_power_in_minutes, "Sony VAIO",
2185	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2186	DMI_MATCH(DMI_BIOS_VERSION, "R0203D0"),
2187	DMI_MATCH(DMI_BIOS_DATE, "05/12/00"), },
2188	},
2189	{ /* Handle problems with APM on Sony Vaio PCG-Z505LS */
2190	swab_apm_power_in_minutes, "Sony VAIO",
2191	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2192	DMI_MATCH(DMI_BIOS_VERSION, "R0203Z3"),
2193	DMI_MATCH(DMI_BIOS_DATE, "08/25/00"), },
2194	},
2195	{ /* Handle problems with APM on Sony Vaio PCG-Z505LS (with updated BIOS) */
2196	swab_apm_power_in_minutes, "Sony VAIO",
2197	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2198	DMI_MATCH(DMI_BIOS_VERSION, "R0209Z3"),
2199	DMI_MATCH(DMI_BIOS_DATE, "05/12/01"), },
2200	},
2201	{ /* Handle problems with APM on Sony Vaio PCG-F104K */
2202	swab_apm_power_in_minutes, "Sony VAIO",
2203	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2204	DMI_MATCH(DMI_BIOS_VERSION, "R0204K2"),
2205	DMI_MATCH(DMI_BIOS_DATE, "08/28/00"), },
2206	},
2207
2208	{ /* Handle problems with APM on Sony Vaio PCG-C1VN/C1VE */
2209	swab_apm_power_in_minutes, "Sony VAIO",
2210	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2211	DMI_MATCH(DMI_BIOS_VERSION, "R0208P1"),
2212	DMI_MATCH(DMI_BIOS_DATE, "11/09/00"), },
2213	},
2214	{ /* Handle problems with APM on Sony Vaio PCG-C1VE */
2215	swab_apm_power_in_minutes, "Sony VAIO",
2216	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2217	DMI_MATCH(DMI_BIOS_VERSION, "R0204P1"),
2218	DMI_MATCH(DMI_BIOS_DATE, "09/12/00"), },
2219	},
2220	{ /* Handle problems with APM on Sony Vaio PCG-C1VE */
2221	swab_apm_power_in_minutes, "Sony VAIO",
2222	{ DMI_MATCH(DMI_BIOS_VENDOR, "Phoenix Technologies LTD"),
2223	DMI_MATCH(DMI_BIOS_VERSION, "WXPO1Z3"),
2224	DMI_MATCH(DMI_BIOS_DATE, "10/26/01"), },
2225	},
2226	{ /* broken PM poweroff bios */
2227	set_realmode_power_off, "Award Software v4.60 PGMA",
2228	{ DMI_MATCH(DMI_BIOS_VENDOR, "Award Software International, Inc."),
2229	DMI_MATCH(DMI_BIOS_VERSION, "4.60 PGMA"),
2230	DMI_MATCH(DMI_BIOS_DATE, "134526184"), },
2231	},
2232
2233	/* Generic per vendor APM settings */
2234
2235	{ /* Allow interrupts during suspend on IBM laptops */
2236	set_apm_ints, "IBM",
2237	{ DMI_MATCH(DMI_SYS_VENDOR, "IBM"), },
2238	},
2239
2240	{ }
2241	};
2242
2243	/*
2244	* Just start the APM thread. We do NOT want to do APM BIOS
2245	* calls from anything but the APM thread, if for no other reason
2246	* than the fact that we don't trust the APM BIOS. This way,
2247	* most common APM BIOS problems that lead to protection errors
2248	* etc will have at least some level of being contained...
2249	*
2250	* In short, if something bad happens, at least we have a choice
2251	* of just killing the apm thread..
2252	*/
2253	static int __init apm_init(void)
2254	{
2255	struct desc_struct *gdt;
2256	int err;
2257
2258	dmi_check_system(list: apm_dmi_table);
2259
2260	if (apm_info.bios.version == 0 || machine_is_olpc()) {
2261	printk(KERN_INFO "apm: BIOS not found.\n");
2262	return -ENODEV;
2263	}
2264	printk(KERN_INFO
2265	"apm: BIOS version %d.%d Flags 0x%02x (Driver version %s)\n",
2266	((apm_info.bios.version >> 8) & 0xff),
2267	(apm_info.bios.version & 0xff),
2268	apm_info.bios.flags,
2269	driver_version);
2270	if ((apm_info.bios.flags & APM_32_BIT_SUPPORT) == 0) {
2271	printk(KERN_INFO "apm: no 32 bit BIOS support\n");
2272	return -ENODEV;
2273	}
2274
2275	if (allow_ints)
2276	apm_info.allow_ints = 1;
2277	if (broken_psr)
2278	apm_info.get_power_status_broken = 1;
2279	if (realmode_power_off)
2280	apm_info.realmode_power_off = 1;
2281	/* User can override, but default is to trust DMI */
2282	if (apm_disabled != -1)
2283	apm_info.disabled = apm_disabled;
2284
2285	/*
2286	* Fix for the Compaq Contura 3/25c which reports BIOS version 0.1
2287	* but is reportedly a 1.0 BIOS.
2288	*/
2289	if (apm_info.bios.version == 0x001)
2290	apm_info.bios.version = 0x100;
2291
2292	/* BIOS < 1.2 doesn't set cseg_16_len */
2293	if (apm_info.bios.version < 0x102)
2294	apm_info.bios.cseg_16_len = 0; /* 64k */
2295
2296	if (debug) {
2297	printk(KERN_INFO "apm: entry %x:%x cseg16 %x dseg %x",
2298	apm_info.bios.cseg, apm_info.bios.offset,
2299	apm_info.bios.cseg_16, apm_info.bios.dseg);
2300	if (apm_info.bios.version > 0x100)
2301	printk(" cseg len %x, dseg len %x",
2302	apm_info.bios.cseg_len,
2303	apm_info.bios.dseg_len);
2304	if (apm_info.bios.version > 0x101)
2305	printk(" cseg16 len %x", apm_info.bios.cseg_16_len);
2306	printk("\n");
2307	}
2308
2309	if (apm_info.disabled) {
2310	pr_notice("disabled on user request.\n");
2311	return -ENODEV;
2312	}
2313	if ((num_online_cpus() > 1) && !power_off && !smp) {
2314	pr_notice("disabled - APM is not SMP safe.\n");
2315	apm_info.disabled = 1;
2316	return -ENODEV;
2317	}
2318	if (!acpi_disabled) {
2319	pr_notice("overridden by ACPI.\n");
2320	apm_info.disabled = 1;
2321	return -ENODEV;
2322	}
2323
2324	/*
2325	* Set up the long jump entry point to the APM BIOS, which is called
2326	* from inline assembly.
2327	*/
2328	apm_bios_entry.offset = apm_info.bios.offset;
2329	apm_bios_entry.segment = APM_CS;
2330
2331	/*
2332	* The APM 1.1 BIOS is supposed to provide limit information that it
2333	* recognizes. Many machines do this correctly, but many others do
2334	* not restrict themselves to their claimed limit. When this happens,
2335	* they will cause a segmentation violation in the kernel at boot time.
2336	* Most BIOS's, however, will respect a 64k limit, so we use that.
2337	*
2338	* Note we only set APM segments on CPU zero, since we pin the APM
2339	* code to that CPU.
2340	*/
2341	gdt = get_cpu_gdt_rw(cpu: 0);
2342	set_desc_base(&gdt[APM_CS >> 3],
2343	(unsigned long)__va((unsigned long)apm_info.bios.cseg << 4));
2344	set_desc_base(&gdt[APM_CS_16 >> 3],
2345	(unsigned long)__va((unsigned long)apm_info.bios.cseg_16 << 4));
2346	set_desc_base(&gdt[APM_DS >> 3],
2347	(unsigned long)__va((unsigned long)apm_info.bios.dseg << 4));
2348
2349	proc_create_single("apm", 0, NULL, proc_apm_show);
2350
2351	kapmd_task = kthread_create(apm, NULL, "kapmd");
2352	if (IS_ERR(ptr: kapmd_task)) {
2353	pr_err("disabled - Unable to start kernel thread\n");
2354	err = PTR_ERR(ptr: kapmd_task);
2355	kapmd_task = NULL;
2356	remove_proc_entry("apm", NULL);
2357	return err;
2358	}
2359	wake_up_process(tsk: kapmd_task);
2360
2361	if (num_online_cpus() > 1 && !smp) {
2362	printk(KERN_NOTICE
2363	"apm: disabled - APM is not SMP safe (power off active).\n");
2364	return 0;
2365	}
2366
2367	/*
2368	* Note we don't actually care if the misc_device cannot be registered.
2369	* this driver can do its job without it, even if userspace can't
2370	* control it. just log the error
2371	*/
2372	if (misc_register(misc: &apm_device))
2373	printk(KERN_WARNING "apm: Could not register misc device.\n");
2374
2375	if (HZ != 100)
2376	idle_period = (idle_period * HZ) / 100;
2377	if (idle_threshold < 100) {
2378	cpuidle_poll_state_init(drv: &apm_idle_driver);
2379	if (!cpuidle_register_driver(drv: &apm_idle_driver))
2380	if (cpuidle_register_device(dev: &apm_cpuidle_device))
2381	cpuidle_unregister_driver(drv: &apm_idle_driver);
2382	}
2383
2384	return 0;
2385	}
2386
2387	static void __exit apm_exit(void)
2388	{
2389	int error;
2390
2391	cpuidle_unregister_device(dev: &apm_cpuidle_device);
2392	cpuidle_unregister_driver(drv: &apm_idle_driver);
2393
2394	if (((apm_info.bios.flags & APM_BIOS_DISENGAGED) == 0)
2395	&& (apm_info.connection_version > 0x0100)) {
2396	error = apm_engage_power_management(APM_DEVICE_ALL, enable: 0);
2397	if (error)
2398	apm_error(str: "disengage power management", err: error);
2399	}
2400	misc_deregister(misc: &apm_device);
2401	remove_proc_entry("apm", NULL);
2402	if (power_off)
2403	pm_power_off = NULL;
2404	if (kapmd_task) {
2405	kthread_stop(k: kapmd_task);
2406	kapmd_task = NULL;
2407	}
2408	}
2409
2410	module_init(apm_init);
2411	module_exit(apm_exit);
2412
2413	MODULE_AUTHOR("Stephen Rothwell");
2414	MODULE_DESCRIPTION("Advanced Power Management");
2415	MODULE_LICENSE("GPL");
2416	module_param(debug, bool, 0644);
2417	MODULE_PARM_DESC(debug, "Enable debug mode");
2418	module_param(power_off, bool, 0444);
2419	MODULE_PARM_DESC(power_off, "Enable power off");
2420	module_param(bounce_interval, int, 0444);
2421	MODULE_PARM_DESC(bounce_interval,
2422	"Set the number of ticks to ignore suspend bounces");
2423	module_param(allow_ints, bool, 0444);
2424	MODULE_PARM_DESC(allow_ints, "Allow interrupts during BIOS calls");
2425	module_param(broken_psr, bool, 0444);
2426	MODULE_PARM_DESC(broken_psr, "BIOS has a broken GetPowerStatus call");
2427	module_param(realmode_power_off, bool, 0444);
2428	MODULE_PARM_DESC(realmode_power_off,
2429	"Switch to real mode before powering off");
2430	module_param(idle_threshold, int, 0444);
2431	MODULE_PARM_DESC(idle_threshold,
2432	"System idle percentage above which to make APM BIOS idle calls");
2433	module_param(idle_period, int, 0444);
2434	MODULE_PARM_DESC(idle_period,
2435	"Period (in sec/100) over which to calculate the idle percentage");
2436	module_param(smp, bool, 0444);
2437	MODULE_PARM_DESC(smp,
2438	"Set this to enable APM use on an SMP platform. Use with caution on older systems");
2439	MODULE_ALIAS_MISCDEV(APM_MINOR_DEV);
2440