15db2f26eSSascha Wildner /*-
25db2f26eSSascha Wildner * Copyright (c) 2000, 2001 Michael Smith
35db2f26eSSascha Wildner * Copyright (c) 2000 BSDi
45db2f26eSSascha Wildner * All rights reserved.
55db2f26eSSascha Wildner *
65db2f26eSSascha Wildner * Redistribution and use in source and binary forms, with or without
75db2f26eSSascha Wildner * modification, are permitted provided that the following conditions
85db2f26eSSascha Wildner * are met:
95db2f26eSSascha Wildner * 1. Redistributions of source code must retain the above copyright
105db2f26eSSascha Wildner * notice, this list of conditions and the following disclaimer.
115db2f26eSSascha Wildner * 2. Redistributions in binary form must reproduce the above copyright
125db2f26eSSascha Wildner * notice, this list of conditions and the following disclaimer in the
135db2f26eSSascha Wildner * documentation and/or other materials provided with the distribution.
145db2f26eSSascha Wildner *
155db2f26eSSascha Wildner * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
165db2f26eSSascha Wildner * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
175db2f26eSSascha Wildner * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
185db2f26eSSascha Wildner * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
195db2f26eSSascha Wildner * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
205db2f26eSSascha Wildner * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
215db2f26eSSascha Wildner * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
225db2f26eSSascha Wildner * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
235db2f26eSSascha Wildner * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
245db2f26eSSascha Wildner * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
255db2f26eSSascha Wildner * SUCH DAMAGE.
265db2f26eSSascha Wildner *
275db2f26eSSascha Wildner * $FreeBSD: src/sys/dev/acpica/acpi_timer.c,v 1.35 2004/07/22 05:42:14 njl Exp $
285db2f26eSSascha Wildner */
295db2f26eSSascha Wildner #include "opt_acpi.h"
305db2f26eSSascha Wildner #include <sys/param.h>
315db2f26eSSascha Wildner #include <sys/bus.h>
325db2f26eSSascha Wildner #include <sys/kernel.h>
335db2f26eSSascha Wildner #include <sys/module.h>
345db2f26eSSascha Wildner #include <sys/sysctl.h>
355db2f26eSSascha Wildner #include <sys/systimer.h>
365db2f26eSSascha Wildner #include <sys/rman.h>
375db2f26eSSascha Wildner
385db2f26eSSascha Wildner #include <machine/lock.h>
395db2f26eSSascha Wildner #include <bus/pci/pcivar.h>
405db2f26eSSascha Wildner
415db2f26eSSascha Wildner #include "acpi.h"
425db2f26eSSascha Wildner #include "accommon.h"
435db2f26eSSascha Wildner #include "acpivar.h"
445db2f26eSSascha Wildner
455db2f26eSSascha Wildner /*
465db2f26eSSascha Wildner * A timecounter based on the free-running ACPI timer.
475db2f26eSSascha Wildner *
485db2f26eSSascha Wildner * Based on the i386-only mp_clock.c by <phk@FreeBSD.ORG>.
495db2f26eSSascha Wildner */
505db2f26eSSascha Wildner
515db2f26eSSascha Wildner /* Hooks for the ACPICA debugging infrastructure */
525db2f26eSSascha Wildner #define _COMPONENT ACPI_TIMER
535db2f26eSSascha Wildner ACPI_MODULE_NAME("TIMER")
545db2f26eSSascha Wildner
555db2f26eSSascha Wildner static device_t acpi_timer_dev;
56afc8ff3cSSascha Wildner static UINT32 acpi_timer_resolution;
575db2f26eSSascha Wildner
585db2f26eSSascha Wildner static sysclock_t acpi_timer_get_timecount(void);
595db2f26eSSascha Wildner static sysclock_t acpi_timer_get_timecount24(void);
605db2f26eSSascha Wildner static sysclock_t acpi_timer_get_timecount_safe(void);
615db2f26eSSascha Wildner static void acpi_timer_construct(struct cputimer *timer, sysclock_t oldclock);
625db2f26eSSascha Wildner
635db2f26eSSascha Wildner static struct cputimer acpi_cputimer = {
640087561dSSepherosa Ziehau .next = SLIST_ENTRY_INITIALIZER,
650087561dSSepherosa Ziehau .name = "ACPI",
660087561dSSepherosa Ziehau .pri = CPUTIMER_PRI_ACPI,
670087561dSSepherosa Ziehau .type = CPUTIMER_ACPI,
680087561dSSepherosa Ziehau .count = acpi_timer_get_timecount_safe,
690087561dSSepherosa Ziehau .fromhz = cputimer_default_fromhz,
700087561dSSepherosa Ziehau .fromus = cputimer_default_fromus,
710087561dSSepherosa Ziehau .construct = acpi_timer_construct,
720087561dSSepherosa Ziehau .destruct = cputimer_default_destruct,
730087561dSSepherosa Ziehau .freq = ACPI_PM_TIMER_FREQUENCY
745db2f26eSSascha Wildner };
755db2f26eSSascha Wildner
765db2f26eSSascha Wildner static int acpi_timer_identify(driver_t *driver, device_t parent);
775db2f26eSSascha Wildner static int acpi_timer_probe(device_t dev);
785db2f26eSSascha Wildner static int acpi_timer_attach(device_t dev);
795db2f26eSSascha Wildner static int acpi_timer_sysctl_freq(SYSCTL_HANDLER_ARGS);
805db2f26eSSascha Wildner
815db2f26eSSascha Wildner static int acpi_timer_test(void);
825db2f26eSSascha Wildner
835db2f26eSSascha Wildner static device_method_t acpi_timer_methods[] = {
845db2f26eSSascha Wildner DEVMETHOD(device_identify, acpi_timer_identify),
855db2f26eSSascha Wildner DEVMETHOD(device_probe, acpi_timer_probe),
865db2f26eSSascha Wildner DEVMETHOD(device_attach, acpi_timer_attach),
875db2f26eSSascha Wildner
88d3c9c58eSSascha Wildner DEVMETHOD_END
895db2f26eSSascha Wildner };
905db2f26eSSascha Wildner
915db2f26eSSascha Wildner static driver_t acpi_timer_driver = {
925db2f26eSSascha Wildner "acpi_timer",
935db2f26eSSascha Wildner acpi_timer_methods,
945db2f26eSSascha Wildner 0,
95df21e16dSImre Vadász .gpri = KOBJ_GPRI_ACPI+2
965db2f26eSSascha Wildner };
975db2f26eSSascha Wildner
985db2f26eSSascha Wildner static devclass_t acpi_timer_devclass;
995db2f26eSSascha Wildner DRIVER_MODULE(acpi_timer, acpi, acpi_timer_driver, acpi_timer_devclass, NULL, NULL);
1005db2f26eSSascha Wildner MODULE_DEPEND(acpi_timer, acpi, 1, 1, 1);
1015db2f26eSSascha Wildner
1025db2f26eSSascha Wildner /*
1035db2f26eSSascha Wildner * Locate the ACPI timer using the FADT, set up and allocate the I/O resources
1045db2f26eSSascha Wildner * we will be using.
1055db2f26eSSascha Wildner */
1065db2f26eSSascha Wildner static int
acpi_timer_identify(driver_t * driver,device_t parent)1075db2f26eSSascha Wildner acpi_timer_identify(driver_t *driver, device_t parent)
1085db2f26eSSascha Wildner {
1095db2f26eSSascha Wildner device_t dev;
1105db2f26eSSascha Wildner
1115db2f26eSSascha Wildner /*
1125db2f26eSSascha Wildner * Just try once, do nothing if the 'acpi' bus is rescanned.
1135db2f26eSSascha Wildner */
1145db2f26eSSascha Wildner if (device_get_state(parent) == DS_ATTACHED)
1155db2f26eSSascha Wildner return (0);
1165db2f26eSSascha Wildner
1175db2f26eSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__);
1185db2f26eSSascha Wildner
119d2fa5f95SSascha Wildner if (acpi_disabled("timer") || (acpi_quirks & ACPI_Q_TIMER) ||
120d2fa5f95SSascha Wildner acpi_timer_dev)
1215db2f26eSSascha Wildner return (ENXIO);
1225db2f26eSSascha Wildner
1235db2f26eSSascha Wildner if ((dev = BUS_ADD_CHILD(parent, parent, 0, "acpi_timer", 0)) == NULL) {
1245db2f26eSSascha Wildner device_printf(parent, "could not add acpi_timer0\n");
1255db2f26eSSascha Wildner return (ENXIO);
1265db2f26eSSascha Wildner }
1275db2f26eSSascha Wildner acpi_timer_dev = dev;
1285db2f26eSSascha Wildner
1295db2f26eSSascha Wildner return (0);
1305db2f26eSSascha Wildner }
1315db2f26eSSascha Wildner
1325db2f26eSSascha Wildner static int
acpi_timer_probe(device_t dev)1335db2f26eSSascha Wildner acpi_timer_probe(device_t dev)
1345db2f26eSSascha Wildner {
1355db2f26eSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__);
1365db2f26eSSascha Wildner
1375db2f26eSSascha Wildner if (dev != acpi_timer_dev)
1385db2f26eSSascha Wildner return (ENXIO);
1395db2f26eSSascha Wildner
140afc8ff3cSSascha Wildner if (ACPI_FAILURE(AcpiGetTimerResolution(&acpi_timer_resolution)))
1415db2f26eSSascha Wildner return (ENXIO);
142afc8ff3cSSascha Wildner
143afc8ff3cSSascha Wildner return (0);
1445db2f26eSSascha Wildner }
145afc8ff3cSSascha Wildner
146afc8ff3cSSascha Wildner static int
acpi_timer_attach(device_t dev)147afc8ff3cSSascha Wildner acpi_timer_attach(device_t dev)
148afc8ff3cSSascha Wildner {
149afc8ff3cSSascha Wildner char desc[40];
150afc8ff3cSSascha Wildner int i, j;
151afc8ff3cSSascha Wildner
152afc8ff3cSSascha Wildner ACPI_FUNCTION_TRACE((char *)(uintptr_t)__func__);
1535db2f26eSSascha Wildner
1545db2f26eSSascha Wildner /*
1555db2f26eSSascha Wildner * If all tests of the counter succeed, use the ACPI-fast method. If
1565db2f26eSSascha Wildner * at least one failed, default to using the safe routine, which reads
1575db2f26eSSascha Wildner * the timer multiple times to get a consistent value before returning.
1585db2f26eSSascha Wildner */
1595db2f26eSSascha Wildner j = 0;
1605db2f26eSSascha Wildner for (i = 0; i < 10; i++)
1615db2f26eSSascha Wildner j += acpi_timer_test();
1625db2f26eSSascha Wildner if (j == 10) {
163afc8ff3cSSascha Wildner if (acpi_timer_resolution == 32) {
1645db2f26eSSascha Wildner acpi_cputimer.name = "ACPI-fast";
1655db2f26eSSascha Wildner acpi_cputimer.count = acpi_timer_get_timecount;
1665db2f26eSSascha Wildner } else {
1675db2f26eSSascha Wildner acpi_cputimer.name = "ACPI-fast24";
1685db2f26eSSascha Wildner acpi_cputimer.count = acpi_timer_get_timecount24;
1695db2f26eSSascha Wildner }
1705db2f26eSSascha Wildner } else {
171afc8ff3cSSascha Wildner if (acpi_timer_resolution == 32)
1725db2f26eSSascha Wildner acpi_cputimer.name = "ACPI-safe";
1735db2f26eSSascha Wildner else
1745db2f26eSSascha Wildner acpi_cputimer.name = "ACPI-safe24";
1755db2f26eSSascha Wildner acpi_cputimer.count = acpi_timer_get_timecount_safe;
1765db2f26eSSascha Wildner }
1775db2f26eSSascha Wildner
178afc8ff3cSSascha Wildner ksprintf(desc, "%u-bit timer at 3.579545MHz", acpi_timer_resolution);
1795db2f26eSSascha Wildner device_set_desc_copy(dev, desc);
1805db2f26eSSascha Wildner
1815db2f26eSSascha Wildner cputimer_register(&acpi_cputimer);
1825db2f26eSSascha Wildner cputimer_select(&acpi_cputimer, 0);
1835db2f26eSSascha Wildner
1845db2f26eSSascha Wildner return (0);
1855db2f26eSSascha Wildner }
1865db2f26eSSascha Wildner
1875db2f26eSSascha Wildner /*
1885db2f26eSSascha Wildner * Construct the timer. Adjust the base so the system clock does not
1895db2f26eSSascha Wildner * jump weirdly.
1905db2f26eSSascha Wildner */
1915db2f26eSSascha Wildner static void
acpi_timer_construct(struct cputimer * timer,sysclock_t oldclock)1925db2f26eSSascha Wildner acpi_timer_construct(struct cputimer *timer, sysclock_t oldclock)
1935db2f26eSSascha Wildner {
1945db2f26eSSascha Wildner timer->base = 0;
1955db2f26eSSascha Wildner timer->base = oldclock - acpi_timer_get_timecount_safe();
1965db2f26eSSascha Wildner }
1975db2f26eSSascha Wildner
1985db2f26eSSascha Wildner /*
1995db2f26eSSascha Wildner * Fetch current time value from reliable hardware.
2005db2f26eSSascha Wildner *
2015db2f26eSSascha Wildner * The cputimer interface requires a 32 bit return value. If the ACPI timer
2025db2f26eSSascha Wildner * is only 24 bits then we have to keep track of the upper 8 bits on our
2035db2f26eSSascha Wildner * own.
2045db2f26eSSascha Wildner *
205e3e00568SMatthew Dillon * per-cpu tracking fields can cause problems on VMs if one or more cpus
206e3e00568SMatthew Dillon * stalls long-enough for the timer to turn-over twice, so instead optimize
207e3e00568SMatthew Dillon * the locking case by not updating acpi_cputimer.base until the timer
208e3e00568SMatthew Dillon * has gone more than 1/16 its full range.
209e3e00568SMatthew Dillon *
210e3e00568SMatthew Dillon * These are horrible hacks, but at least the SMP interference is minimal
211e3e00568SMatthew Dillon * with them. Note that just reading the ACPI timer itself represents a
212e3e00568SMatthew Dillon * bottleneck due to the slow I/O.
2135db2f26eSSascha Wildner */
2145db2f26eSSascha Wildner static sysclock_t
acpi_timer_get_timecount24(void)2155db2f26eSSascha Wildner acpi_timer_get_timecount24(void)
2165db2f26eSSascha Wildner {
217e3e00568SMatthew Dillon sysclock_t last_counter;
218*8fbc264dSMatthew Dillon sysclock_t next_counter;
219*8fbc264dSMatthew Dillon uint32_t counter;
2205db2f26eSSascha Wildner
221*8fbc264dSMatthew Dillon last_counter = acpi_cputimer.base;
222*8fbc264dSMatthew Dillon for (;;) {
223*8fbc264dSMatthew Dillon cpu_ccfence();
224*8fbc264dSMatthew Dillon AcpiGetTimer(&counter);
225*8fbc264dSMatthew Dillon if (counter < (last_counter & 0x00FFFFFFU))
226*8fbc264dSMatthew Dillon next_counter = ((last_counter + 0x01000000U) &
227*8fbc264dSMatthew Dillon 0xFFFFFFFFFF000000LU) | counter;
228e3e00568SMatthew Dillon else
229*8fbc264dSMatthew Dillon next_counter = (last_counter &
230*8fbc264dSMatthew Dillon 0xFFFFFFFFFF000000LU) | counter;
231*8fbc264dSMatthew Dillon if (atomic_fcmpset_long(&acpi_cputimer.base, &last_counter,
232*8fbc264dSMatthew Dillon next_counter)) {
233*8fbc264dSMatthew Dillon break;
234*8fbc264dSMatthew Dillon }
235*8fbc264dSMatthew Dillon }
236*8fbc264dSMatthew Dillon return next_counter;
2375db2f26eSSascha Wildner }
2385db2f26eSSascha Wildner
2395db2f26eSSascha Wildner static sysclock_t
acpi_timer_get_timecount(void)2405db2f26eSSascha Wildner acpi_timer_get_timecount(void)
2415db2f26eSSascha Wildner {
242*8fbc264dSMatthew Dillon sysclock_t last_counter;
243*8fbc264dSMatthew Dillon sysclock_t next_counter;
244*8fbc264dSMatthew Dillon uint32_t counter;
245afc8ff3cSSascha Wildner
246*8fbc264dSMatthew Dillon last_counter = acpi_cputimer.base;
247*8fbc264dSMatthew Dillon for (;;) {
248*8fbc264dSMatthew Dillon cpu_ccfence();
249afc8ff3cSSascha Wildner AcpiGetTimer(&counter);
250*8fbc264dSMatthew Dillon if (counter < (last_counter & 0xFFFFFFFFU))
251*8fbc264dSMatthew Dillon next_counter = ((last_counter + 0x0100000000U) &
252*8fbc264dSMatthew Dillon 0xFFFFFFFF00000000LU) | counter;
253*8fbc264dSMatthew Dillon else
254*8fbc264dSMatthew Dillon next_counter = (last_counter &
255*8fbc264dSMatthew Dillon 0xFFFFFFFF00000000LU) | counter;
256*8fbc264dSMatthew Dillon if (atomic_fcmpset_long(&acpi_cputimer.base, &last_counter,
257*8fbc264dSMatthew Dillon next_counter)) {
258*8fbc264dSMatthew Dillon break;
259*8fbc264dSMatthew Dillon }
260*8fbc264dSMatthew Dillon }
261*8fbc264dSMatthew Dillon return next_counter;
2625db2f26eSSascha Wildner }
2635db2f26eSSascha Wildner
2645db2f26eSSascha Wildner /*
2655db2f26eSSascha Wildner * Fetch current time value from hardware that may not correctly
2665db2f26eSSascha Wildner * latch the counter. We need to read until we have three monotonic
2675db2f26eSSascha Wildner * samples and then use the middle one, otherwise we are not protected
2685db2f26eSSascha Wildner * against the fact that the bits can be wrong in two directions. If
2695db2f26eSSascha Wildner * we only cared about monosity, two reads would be enough.
2705db2f26eSSascha Wildner */
271e3e00568SMatthew Dillon static __inline sysclock_t
_acpi_timer_get_timecount_safe(void)272e3e00568SMatthew Dillon _acpi_timer_get_timecount_safe(void)
2735db2f26eSSascha Wildner {
2745db2f26eSSascha Wildner u_int u1, u2, u3;
2755db2f26eSSascha Wildner
276afc8ff3cSSascha Wildner AcpiGetTimer(&u2);
277afc8ff3cSSascha Wildner AcpiGetTimer(&u3);
2785db2f26eSSascha Wildner do {
2795db2f26eSSascha Wildner u1 = u2;
2805db2f26eSSascha Wildner u2 = u3;
281afc8ff3cSSascha Wildner AcpiGetTimer(&u3);
2825db2f26eSSascha Wildner } while (u1 > u2 || u2 > u3);
2835db2f26eSSascha Wildner
284e3e00568SMatthew Dillon return (u2);
2855db2f26eSSascha Wildner }
286e3e00568SMatthew Dillon
287e3e00568SMatthew Dillon static sysclock_t
acpi_timer_get_timecount_safe(void)288e3e00568SMatthew Dillon acpi_timer_get_timecount_safe(void)
289e3e00568SMatthew Dillon {
290e3e00568SMatthew Dillon sysclock_t last_counter;
291*8fbc264dSMatthew Dillon sysclock_t next_counter;
292*8fbc264dSMatthew Dillon uint32_t counter;
293e3e00568SMatthew Dillon
294*8fbc264dSMatthew Dillon last_counter = acpi_cputimer.base;
295*8fbc264dSMatthew Dillon for (;;) {
296*8fbc264dSMatthew Dillon cpu_ccfence();
297*8fbc264dSMatthew Dillon counter = _acpi_timer_get_timecount_safe();
298*8fbc264dSMatthew Dillon
299*8fbc264dSMatthew Dillon if (acpi_timer_resolution == 32) {
300*8fbc264dSMatthew Dillon if (counter < (last_counter & 0xFFFFFFFFU))
301*8fbc264dSMatthew Dillon next_counter = ((last_counter + 0x0100000000U) &
302*8fbc264dSMatthew Dillon 0xFFFFFFFF00000000LU) | counter;
303e3e00568SMatthew Dillon else
304*8fbc264dSMatthew Dillon next_counter = (last_counter &
305*8fbc264dSMatthew Dillon 0xFFFFFFFF00000000LU) | counter;
306*8fbc264dSMatthew Dillon } else {
307*8fbc264dSMatthew Dillon if (counter < (last_counter & 0x00FFFFFFU))
308*8fbc264dSMatthew Dillon next_counter = ((last_counter + 0x01000000U) &
309*8fbc264dSMatthew Dillon 0xFFFFFFFFFF000000LU) | counter;
310*8fbc264dSMatthew Dillon else
311*8fbc264dSMatthew Dillon next_counter = (last_counter &
312*8fbc264dSMatthew Dillon 0xFFFFFFFFFF000000LU) | counter;
313*8fbc264dSMatthew Dillon }
314*8fbc264dSMatthew Dillon if (atomic_fcmpset_long(&acpi_cputimer.base, &last_counter,
315*8fbc264dSMatthew Dillon next_counter)) {
316*8fbc264dSMatthew Dillon break;
317*8fbc264dSMatthew Dillon }
318*8fbc264dSMatthew Dillon }
319*8fbc264dSMatthew Dillon return next_counter;
3205db2f26eSSascha Wildner }
3215db2f26eSSascha Wildner
3225db2f26eSSascha Wildner /*
3235db2f26eSSascha Wildner * Timecounter freqency adjustment interface.
3245db2f26eSSascha Wildner */
3255db2f26eSSascha Wildner static int
acpi_timer_sysctl_freq(SYSCTL_HANDLER_ARGS)3265db2f26eSSascha Wildner acpi_timer_sysctl_freq(SYSCTL_HANDLER_ARGS)
3275db2f26eSSascha Wildner {
3285db2f26eSSascha Wildner int error;
3295db2f26eSSascha Wildner u_int freq;
3305db2f26eSSascha Wildner
3315db2f26eSSascha Wildner if (acpi_cputimer.freq == 0)
3325db2f26eSSascha Wildner return (EOPNOTSUPP);
3335db2f26eSSascha Wildner freq = acpi_cputimer.freq;
3344520cefcSSascha Wildner error = sysctl_handle_int(oidp, &freq, 0, req);
3355db2f26eSSascha Wildner if (error == 0 && req->newptr != NULL)
3365db2f26eSSascha Wildner cputimer_set_frequency(&acpi_cputimer, freq);
3375db2f26eSSascha Wildner
3385db2f26eSSascha Wildner return (error);
3395db2f26eSSascha Wildner }
3405db2f26eSSascha Wildner
3415db2f26eSSascha Wildner SYSCTL_PROC(_machdep, OID_AUTO, acpi_timer_freq, CTLTYPE_INT | CTLFLAG_RW,
3425db2f26eSSascha Wildner 0, sizeof(u_int), acpi_timer_sysctl_freq, "I", "ACPI timer frequency");
3435db2f26eSSascha Wildner
3445db2f26eSSascha Wildner /*
3455db2f26eSSascha Wildner * Some ACPI timers are known or believed to suffer from implementation
3465db2f26eSSascha Wildner * problems which can lead to erroneous values being read. This function
3475db2f26eSSascha Wildner * tests for consistent results from the timer and returns 1 if it believes
3485db2f26eSSascha Wildner * the timer is consistent, otherwise it returns 0.
3495db2f26eSSascha Wildner *
3505db2f26eSSascha Wildner * It appears the cause is that the counter is not latched to the PCI bus
3515db2f26eSSascha Wildner * clock when read:
3525db2f26eSSascha Wildner *
3535db2f26eSSascha Wildner * ] 20. ACPI Timer Errata
3545db2f26eSSascha Wildner * ]
3555db2f26eSSascha Wildner * ] Problem: The power management timer may return improper result when
3565db2f26eSSascha Wildner * ] read. Although the timer value settles properly after incrementing,
3575db2f26eSSascha Wildner * ] while incrementing there is a 3nS window every 69.8nS where the
3585db2f26eSSascha Wildner * ] timer value is indeterminate (a 4.2% chance that the data will be
3595db2f26eSSascha Wildner * ] incorrect when read). As a result, the ACPI free running count up
3605db2f26eSSascha Wildner * ] timer specification is violated due to erroneous reads. Implication:
3615db2f26eSSascha Wildner * ] System hangs due to the "inaccuracy" of the timer when used by
3625db2f26eSSascha Wildner * ] software for time critical events and delays.
3635db2f26eSSascha Wildner * ]
3645db2f26eSSascha Wildner * ] Workaround: Read the register twice and compare.
3655db2f26eSSascha Wildner * ] Status: This will not be fixed in the PIIX4 or PIIX4E, it is fixed
3665db2f26eSSascha Wildner * ] in the PIIX4M.
3675db2f26eSSascha Wildner */
3685db2f26eSSascha Wildner
3695db2f26eSSascha Wildner static int
acpi_timer_test(void)3705db2f26eSSascha Wildner acpi_timer_test(void)
3715db2f26eSSascha Wildner {
3725db2f26eSSascha Wildner uint32_t last, this;
373a6874b57SSascha Wildner int min, max, max2, n, delta;
3745db2f26eSSascha Wildner register_t s;
3755db2f26eSSascha Wildner
376a6874b57SSascha Wildner min = INT32_MAX;
377a6874b57SSascha Wildner max = max2 = 0;
3785db2f26eSSascha Wildner
3795db2f26eSSascha Wildner /* Test the timer with interrupts disabled to get accurate results. */
380ac8ea0adSSascha Wildner #if defined(__x86_64__)
3815db2f26eSSascha Wildner s = read_rflags();
3825db2f26eSSascha Wildner #else
383ac8ea0adSSascha Wildner #error "no read_*flags"
3845db2f26eSSascha Wildner #endif
3855db2f26eSSascha Wildner cpu_disable_intr();
386afc8ff3cSSascha Wildner AcpiGetTimer(&last);
3875db2f26eSSascha Wildner for (n = 0; n < 2000; n++) {
388afc8ff3cSSascha Wildner AcpiGetTimer(&this);
3895db2f26eSSascha Wildner delta = acpi_TimerDelta(this, last);
390a6874b57SSascha Wildner if (delta > max) {
391a6874b57SSascha Wildner max2 = max;
3925db2f26eSSascha Wildner max = delta;
393a6874b57SSascha Wildner } else if (delta > max2) {
394a6874b57SSascha Wildner max2 = delta;
395a6874b57SSascha Wildner }
396a6874b57SSascha Wildner if (delta < min)
3975db2f26eSSascha Wildner min = delta;
3985db2f26eSSascha Wildner last = this;
3995db2f26eSSascha Wildner }
400cd9b0844SMatthew Dillon /* cpu_enable_intr(); restored to original by write_rflags() */
401ac8ea0adSSascha Wildner #if defined(__x86_64__)
4025db2f26eSSascha Wildner write_rflags(s);
4035db2f26eSSascha Wildner #else
404ac8ea0adSSascha Wildner #error "no read_*flags"
4055db2f26eSSascha Wildner #endif
4065db2f26eSSascha Wildner
407a6874b57SSascha Wildner delta = max2 - min;
408a6874b57SSascha Wildner if ((max - min > 8 || delta > 3) && vmm_guest == VMM_GUEST_NONE)
4095db2f26eSSascha Wildner n = 0;
410a6874b57SSascha Wildner else if (min < 0 || max == 0 || max2 == 0)
4115db2f26eSSascha Wildner n = 0;
4125db2f26eSSascha Wildner else
4135db2f26eSSascha Wildner n = 1;
4145db2f26eSSascha Wildner if (bootverbose) {
4155db2f26eSSascha Wildner kprintf("ACPI timer looks %s min = %d, max = %d, width = %d\n",
4165db2f26eSSascha Wildner n ? "GOOD" : "BAD ",
4175db2f26eSSascha Wildner min, max, max - min);
4185db2f26eSSascha Wildner }
4195db2f26eSSascha Wildner
4205db2f26eSSascha Wildner return (n);
4215db2f26eSSascha Wildner }
422