1428b7ca2SJustin T. Gibbs /*-
2718cf2ccSPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD
3718cf2ccSPedro F. Giffuni *
49f40021fSJustin T. Gibbs * Copyright (c) 2009 Adrian Chadd
59f40021fSJustin T. Gibbs * Copyright (c) 2012 Spectra Logic Corporation
69f40021fSJustin T. Gibbs * All rights reserved.
79f40021fSJustin T. Gibbs *
89f40021fSJustin T. Gibbs * Redistribution and use in source and binary forms, with or without
99f40021fSJustin T. Gibbs * modification, are permitted provided that the following conditions
109f40021fSJustin T. Gibbs * are met:
119f40021fSJustin T. Gibbs * 1. Redistributions of source code must retain the above copyright
129f40021fSJustin T. Gibbs * notice, this list of conditions and the following disclaimer.
139f40021fSJustin T. Gibbs * 2. Redistributions in binary form must reproduce the above copyright
149f40021fSJustin T. Gibbs * notice, this list of conditions and the following disclaimer in the
159f40021fSJustin T. Gibbs * documentation and/or other materials provided with the distribution.
169f40021fSJustin T. Gibbs *
179f40021fSJustin T. Gibbs * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
189f40021fSJustin T. Gibbs * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
199f40021fSJustin T. Gibbs * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
209f40021fSJustin T. Gibbs * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
219f40021fSJustin T. Gibbs * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
229f40021fSJustin T. Gibbs * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
239f40021fSJustin T. Gibbs * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
249f40021fSJustin T. Gibbs * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
259f40021fSJustin T. Gibbs * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
269f40021fSJustin T. Gibbs * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
279f40021fSJustin T. Gibbs * SUCH DAMAGE.
289f40021fSJustin T. Gibbs *
299f40021fSJustin T. Gibbs */
309f40021fSJustin T. Gibbs
319f40021fSJustin T. Gibbs /**
329f40021fSJustin T. Gibbs * \file dev/xen/timer/timer.c
339f40021fSJustin T. Gibbs * \brief A timer driver for the Xen hypervisor's PV clock.
349f40021fSJustin T. Gibbs */
359f40021fSJustin T. Gibbs
369f40021fSJustin T. Gibbs #include <sys/cdefs.h>
379f40021fSJustin T. Gibbs __FBSDID("$FreeBSD$");
389f40021fSJustin T. Gibbs
399f40021fSJustin T. Gibbs #include <sys/param.h>
409f40021fSJustin T. Gibbs #include <sys/systm.h>
419f40021fSJustin T. Gibbs #include <sys/bus.h>
429f40021fSJustin T. Gibbs #include <sys/kernel.h>
439f40021fSJustin T. Gibbs #include <sys/module.h>
449f40021fSJustin T. Gibbs #include <sys/time.h>
459f40021fSJustin T. Gibbs #include <sys/timetc.h>
469f40021fSJustin T. Gibbs #include <sys/timeet.h>
479f40021fSJustin T. Gibbs #include <sys/smp.h>
489f40021fSJustin T. Gibbs #include <sys/limits.h>
499f40021fSJustin T. Gibbs #include <sys/clock.h>
5009982c99SRoger Pau Monné #include <sys/proc.h>
519f40021fSJustin T. Gibbs
529f40021fSJustin T. Gibbs #include <xen/xen-os.h>
539f40021fSJustin T. Gibbs #include <xen/features.h>
549f40021fSJustin T. Gibbs #include <xen/xen_intr.h>
559f40021fSJustin T. Gibbs #include <xen/hypervisor.h>
569f40021fSJustin T. Gibbs #include <xen/interface/io/xenbus.h>
579f40021fSJustin T. Gibbs #include <xen/interface/vcpu.h>
58eac636b0SRoger Pau Monné #include <xen/error.h>
599f40021fSJustin T. Gibbs
609f40021fSJustin T. Gibbs #include <machine/cpu.h>
619f40021fSJustin T. Gibbs #include <machine/cpufunc.h>
629f40021fSJustin T. Gibbs #include <machine/clock.h>
639f40021fSJustin T. Gibbs #include <machine/_inttypes.h>
64428b7ca2SJustin T. Gibbs #include <machine/smp.h>
65d3ccddf3SBryan Venteicher #include <machine/pvclock.h>
669f40021fSJustin T. Gibbs
675f05c794SRoger Pau Monné #include <dev/xen/timer/timer.h>
685f05c794SRoger Pau Monné
699f40021fSJustin T. Gibbs #include "clock_if.h"
709f40021fSJustin T. Gibbs
719f40021fSJustin T. Gibbs static devclass_t xentimer_devclass;
729f40021fSJustin T. Gibbs
739f40021fSJustin T. Gibbs #define NSEC_IN_SEC 1000000000ULL
749f40021fSJustin T. Gibbs #define NSEC_IN_USEC 1000ULL
759f40021fSJustin T. Gibbs /* 18446744073 = int(2^64 / NSEC_IN_SC) = 1 ns in 64-bit fractions */
769f40021fSJustin T. Gibbs #define FRAC_IN_NSEC 18446744073LL
779f40021fSJustin T. Gibbs
789f40021fSJustin T. Gibbs /* Xen timers may fire up to 100us off */
799f40021fSJustin T. Gibbs #define XENTIMER_MIN_PERIOD_IN_NSEC 100*NSEC_IN_USEC
802ed46a6fSRoger Pau Monné
812ed46a6fSRoger Pau Monné /*
822ed46a6fSRoger Pau Monné * The real resolution of the PV clock is 1ns, but the highest
832ed46a6fSRoger Pau Monné * resolution that FreeBSD supports is 1us, so just use that.
842ed46a6fSRoger Pau Monné */
852ed46a6fSRoger Pau Monné #define XENCLOCK_RESOLUTION 1
869f40021fSJustin T. Gibbs
879f40021fSJustin T. Gibbs #define XENTIMER_QUALITY 950
889f40021fSJustin T. Gibbs
899f40021fSJustin T. Gibbs struct xentimer_pcpu_data {
909f40021fSJustin T. Gibbs uint64_t timer;
919f40021fSJustin T. Gibbs uint64_t last_processed;
929f40021fSJustin T. Gibbs void *irq_handle;
939f40021fSJustin T. Gibbs };
949f40021fSJustin T. Gibbs
959f40021fSJustin T. Gibbs DPCPU_DEFINE(struct xentimer_pcpu_data, xentimer_pcpu);
969f40021fSJustin T. Gibbs
979f40021fSJustin T. Gibbs DPCPU_DECLARE(struct vcpu_info *, vcpu_info);
989f40021fSJustin T. Gibbs
999f40021fSJustin T. Gibbs struct xentimer_softc {
1009f40021fSJustin T. Gibbs device_t dev;
1019f40021fSJustin T. Gibbs struct timecounter tc;
1029f40021fSJustin T. Gibbs struct eventtimer et;
1039f40021fSJustin T. Gibbs };
1049f40021fSJustin T. Gibbs
1059f40021fSJustin T. Gibbs static void
xentimer_identify(driver_t * driver,device_t parent)1069f40021fSJustin T. Gibbs xentimer_identify(driver_t *driver, device_t parent)
1079f40021fSJustin T. Gibbs {
1089f40021fSJustin T. Gibbs if (!xen_domain())
1099f40021fSJustin T. Gibbs return;
1109f40021fSJustin T. Gibbs
1119f40021fSJustin T. Gibbs /* Handle all Xen PV timers in one device instance. */
1129f40021fSJustin T. Gibbs if (devclass_get_device(xentimer_devclass, 0))
1139f40021fSJustin T. Gibbs return;
1149f40021fSJustin T. Gibbs
1159f40021fSJustin T. Gibbs BUS_ADD_CHILD(parent, 0, "xen_et", 0);
1169f40021fSJustin T. Gibbs }
1179f40021fSJustin T. Gibbs
1189f40021fSJustin T. Gibbs static int
xentimer_probe(device_t dev)1199f40021fSJustin T. Gibbs xentimer_probe(device_t dev)
1209f40021fSJustin T. Gibbs {
1219f40021fSJustin T. Gibbs KASSERT((xen_domain()), ("Trying to use Xen timer on bare metal"));
1229f40021fSJustin T. Gibbs /*
1239f40021fSJustin T. Gibbs * In order to attach, this driver requires the following:
1249f40021fSJustin T. Gibbs * - Vector callback support by the hypervisor, in order to deliver
1259f40021fSJustin T. Gibbs * timer interrupts to the correct CPU for CPUs other than 0.
1269f40021fSJustin T. Gibbs * - Access to the hypervisor shared info page, in order to look up
1279f40021fSJustin T. Gibbs * each VCPU's timer information and the Xen wallclock time.
1289f40021fSJustin T. Gibbs * - The hypervisor must say its PV clock is "safe" to use.
1299f40021fSJustin T. Gibbs * - The hypervisor must support VCPUOP hypercalls.
1309f40021fSJustin T. Gibbs * - The maximum number of CPUs supported by FreeBSD must not exceed
1319f40021fSJustin T. Gibbs * the number of VCPUs supported by the hypervisor.
1329f40021fSJustin T. Gibbs */
1339f40021fSJustin T. Gibbs #define XTREQUIRES(condition, reason...) \
1349f40021fSJustin T. Gibbs if (!(condition)) { \
1359f40021fSJustin T. Gibbs device_printf(dev, ## reason); \
1369f40021fSJustin T. Gibbs device_detach(dev); \
1379f40021fSJustin T. Gibbs return (ENXIO); \
1389f40021fSJustin T. Gibbs }
1399f40021fSJustin T. Gibbs
1409f40021fSJustin T. Gibbs if (xen_hvm_domain()) {
1419f40021fSJustin T. Gibbs XTREQUIRES(xen_vector_callback_enabled,
1429f40021fSJustin T. Gibbs "vector callbacks unavailable\n");
1439f40021fSJustin T. Gibbs XTREQUIRES(xen_feature(XENFEAT_hvm_safe_pvclock),
1449f40021fSJustin T. Gibbs "HVM safe pvclock unavailable\n");
1459f40021fSJustin T. Gibbs }
1469f40021fSJustin T. Gibbs XTREQUIRES(HYPERVISOR_shared_info != NULL,
1479f40021fSJustin T. Gibbs "shared info page unavailable\n");
1489f40021fSJustin T. Gibbs XTREQUIRES(HYPERVISOR_vcpu_op(VCPUOP_stop_periodic_timer, 0, NULL) == 0,
1499f40021fSJustin T. Gibbs "VCPUOPs interface unavailable\n");
1509f40021fSJustin T. Gibbs #undef XTREQUIRES
1519f40021fSJustin T. Gibbs device_set_desc(dev, "Xen PV Clock");
152feeec74dSNathan Whitehorn return (BUS_PROBE_NOWILDCARD);
1539f40021fSJustin T. Gibbs }
1549f40021fSJustin T. Gibbs
1559f40021fSJustin T. Gibbs /**
1569f40021fSJustin T. Gibbs * \brief Get the current time, in nanoseconds, since the hypervisor booted.
1579f40021fSJustin T. Gibbs *
15809982c99SRoger Pau Monné * \param vcpu vcpu_info structure to fetch the time from.
15909982c99SRoger Pau Monné *
1609f40021fSJustin T. Gibbs */
1619f40021fSJustin T. Gibbs static uint64_t
xen_fetch_vcpu_time(struct vcpu_info * vcpu)16209982c99SRoger Pau Monné xen_fetch_vcpu_time(struct vcpu_info *vcpu)
1639f40021fSJustin T. Gibbs {
164d3ccddf3SBryan Venteicher struct pvclock_vcpu_time_info *time;
1659f40021fSJustin T. Gibbs
166d3ccddf3SBryan Venteicher time = (struct pvclock_vcpu_time_info *) &vcpu->time;
1679f40021fSJustin T. Gibbs
168d3ccddf3SBryan Venteicher return (pvclock_get_timecount(time));
1699f40021fSJustin T. Gibbs }
1709f40021fSJustin T. Gibbs
1719f40021fSJustin T. Gibbs static uint32_t
xentimer_get_timecount(struct timecounter * tc)1729f40021fSJustin T. Gibbs xentimer_get_timecount(struct timecounter *tc)
1739f40021fSJustin T. Gibbs {
17409982c99SRoger Pau Monné uint64_t vcpu_time;
1759f40021fSJustin T. Gibbs
17609982c99SRoger Pau Monné /*
17709982c99SRoger Pau Monné * We don't disable preemption here because the worst that can
17809982c99SRoger Pau Monné * happen is reading the vcpu_info area of a different CPU than
17909982c99SRoger Pau Monné * the one we are currently running on, but that would also
18009982c99SRoger Pau Monné * return a valid tc (and we avoid the overhead of
18109982c99SRoger Pau Monné * critical_{enter/exit} calls).
18209982c99SRoger Pau Monné */
18309982c99SRoger Pau Monné vcpu_time = xen_fetch_vcpu_time(DPCPU_GET(vcpu_info));
18409982c99SRoger Pau Monné
18509982c99SRoger Pau Monné return (vcpu_time & UINT32_MAX);
1869f40021fSJustin T. Gibbs }
1879f40021fSJustin T. Gibbs
1889f40021fSJustin T. Gibbs /**
1899f40021fSJustin T. Gibbs * \brief Fetch the hypervisor boot time, known as the "Xen wallclock".
1909f40021fSJustin T. Gibbs *
1919f40021fSJustin T. Gibbs * \param ts Timespec to store the current stable value.
1929f40021fSJustin T. Gibbs * \param version Pointer to store the corresponding wallclock version.
1939f40021fSJustin T. Gibbs *
1949f40021fSJustin T. Gibbs * \note This value is updated when Domain-0 shifts its clock to follow
1959f40021fSJustin T. Gibbs * clock drift, e.g. as detected by NTP.
1969f40021fSJustin T. Gibbs */
1979f40021fSJustin T. Gibbs static void
xen_fetch_wallclock(struct timespec * ts)1989f40021fSJustin T. Gibbs xen_fetch_wallclock(struct timespec *ts)
1999f40021fSJustin T. Gibbs {
2009f40021fSJustin T. Gibbs shared_info_t *src = HYPERVISOR_shared_info;
201d3ccddf3SBryan Venteicher struct pvclock_wall_clock *wc;
2029f40021fSJustin T. Gibbs
203d3ccddf3SBryan Venteicher wc = (struct pvclock_wall_clock *) &src->wc_version;
204d3ccddf3SBryan Venteicher
205d3ccddf3SBryan Venteicher pvclock_get_wallclock(wc, ts);
2069f40021fSJustin T. Gibbs }
2079f40021fSJustin T. Gibbs
2089f40021fSJustin T. Gibbs static void
xen_fetch_uptime(struct timespec * ts)2099f40021fSJustin T. Gibbs xen_fetch_uptime(struct timespec *ts)
2109f40021fSJustin T. Gibbs {
21109982c99SRoger Pau Monné uint64_t uptime;
21209982c99SRoger Pau Monné
21309982c99SRoger Pau Monné uptime = xen_fetch_vcpu_time(DPCPU_GET(vcpu_info));
21409982c99SRoger Pau Monné
2159f40021fSJustin T. Gibbs ts->tv_sec = uptime / NSEC_IN_SEC;
2169f40021fSJustin T. Gibbs ts->tv_nsec = uptime % NSEC_IN_SEC;
2179f40021fSJustin T. Gibbs }
2189f40021fSJustin T. Gibbs
2199f40021fSJustin T. Gibbs static int
xentimer_settime(device_t dev __unused,struct timespec * ts)2209f40021fSJustin T. Gibbs xentimer_settime(device_t dev __unused, struct timespec *ts)
2219f40021fSJustin T. Gibbs {
222eac636b0SRoger Pau Monné struct xen_platform_op settime;
223eac636b0SRoger Pau Monné int ret;
224eac636b0SRoger Pau Monné
2259f40021fSJustin T. Gibbs /*
2269f40021fSJustin T. Gibbs * Don't return EINVAL here; just silently fail if the domain isn't
2279f40021fSJustin T. Gibbs * privileged enough to set the TOD.
2289f40021fSJustin T. Gibbs */
229eac636b0SRoger Pau Monné if (!xen_initial_domain())
2309f40021fSJustin T. Gibbs return (0);
231eac636b0SRoger Pau Monné
232eac636b0SRoger Pau Monné settime.cmd = XENPF_settime64;
233eac636b0SRoger Pau Monné settime.u.settime64.mbz = 0;
234eac636b0SRoger Pau Monné settime.u.settime64.secs = ts->tv_sec;
235eac636b0SRoger Pau Monné settime.u.settime64.nsecs = ts->tv_nsec;
236eac636b0SRoger Pau Monné settime.u.settime64.system_time =
237eac636b0SRoger Pau Monné xen_fetch_vcpu_time(DPCPU_GET(vcpu_info));
238eac636b0SRoger Pau Monné
239eac636b0SRoger Pau Monné ret = HYPERVISOR_platform_op(&settime);
240eac636b0SRoger Pau Monné ret = ret != 0 ? xen_translate_error(ret) : 0;
241eac636b0SRoger Pau Monné if (ret != 0 && bootverbose)
242eac636b0SRoger Pau Monné device_printf(dev, "failed to set Xen PV clock: %d\n", ret);
243eac636b0SRoger Pau Monné
244eac636b0SRoger Pau Monné return (ret);
2459f40021fSJustin T. Gibbs }
2469f40021fSJustin T. Gibbs
2479f40021fSJustin T. Gibbs /**
2489f40021fSJustin T. Gibbs * \brief Return current time according to the Xen Hypervisor wallclock.
2499f40021fSJustin T. Gibbs *
2509f40021fSJustin T. Gibbs * \param dev Xentimer device.
2519f40021fSJustin T. Gibbs * \param ts Pointer to store the wallclock time.
2529f40021fSJustin T. Gibbs *
2539f40021fSJustin T. Gibbs * \note The Xen time structures document the hypervisor start time and the
2549f40021fSJustin T. Gibbs * uptime-since-hypervisor-start (in nsec.) They need to be combined
2559f40021fSJustin T. Gibbs * in order to calculate a TOD clock.
2569f40021fSJustin T. Gibbs */
2579f40021fSJustin T. Gibbs static int
xentimer_gettime(device_t dev,struct timespec * ts)2589f40021fSJustin T. Gibbs xentimer_gettime(device_t dev, struct timespec *ts)
2599f40021fSJustin T. Gibbs {
2609f40021fSJustin T. Gibbs struct timespec u_ts;
2619f40021fSJustin T. Gibbs
2629f40021fSJustin T. Gibbs timespecclear(ts);
2639f40021fSJustin T. Gibbs xen_fetch_wallclock(ts);
2649f40021fSJustin T. Gibbs xen_fetch_uptime(&u_ts);
265*6040822cSAlan Somers timespecadd(ts, &u_ts, ts);
2669f40021fSJustin T. Gibbs
2679f40021fSJustin T. Gibbs return (0);
2689f40021fSJustin T. Gibbs }
2699f40021fSJustin T. Gibbs
2709f40021fSJustin T. Gibbs /**
2719f40021fSJustin T. Gibbs * \brief Handle a timer interrupt for the Xen PV timer driver.
2729f40021fSJustin T. Gibbs *
2739f40021fSJustin T. Gibbs * \param arg Xen timer driver softc that is expecting the interrupt.
2749f40021fSJustin T. Gibbs */
2759f40021fSJustin T. Gibbs static int
xentimer_intr(void * arg)2769f40021fSJustin T. Gibbs xentimer_intr(void *arg)
2779f40021fSJustin T. Gibbs {
2789f40021fSJustin T. Gibbs struct xentimer_softc *sc = (struct xentimer_softc *)arg;
2799f40021fSJustin T. Gibbs struct xentimer_pcpu_data *pcpu = DPCPU_PTR(xentimer_pcpu);
2809f40021fSJustin T. Gibbs
28109982c99SRoger Pau Monné pcpu->last_processed = xen_fetch_vcpu_time(DPCPU_GET(vcpu_info));
2829f40021fSJustin T. Gibbs if (pcpu->timer != 0 && sc->et.et_active)
2839f40021fSJustin T. Gibbs sc->et.et_event_cb(&sc->et, sc->et.et_arg);
2849f40021fSJustin T. Gibbs
2859f40021fSJustin T. Gibbs return (FILTER_HANDLED);
2869f40021fSJustin T. Gibbs }
2879f40021fSJustin T. Gibbs
2889f40021fSJustin T. Gibbs static int
xentimer_vcpu_start_timer(int vcpu,uint64_t next_time)2899f40021fSJustin T. Gibbs xentimer_vcpu_start_timer(int vcpu, uint64_t next_time)
2909f40021fSJustin T. Gibbs {
2919f40021fSJustin T. Gibbs struct vcpu_set_singleshot_timer single;
2929f40021fSJustin T. Gibbs
2939f40021fSJustin T. Gibbs single.timeout_abs_ns = next_time;
29404423b62SRoger Pau Monné /* Get an event anyway, even if the timeout is already expired */
29504423b62SRoger Pau Monné single.flags = 0;
2969f40021fSJustin T. Gibbs return (HYPERVISOR_vcpu_op(VCPUOP_set_singleshot_timer, vcpu, &single));
2979f40021fSJustin T. Gibbs }
2989f40021fSJustin T. Gibbs
2999f40021fSJustin T. Gibbs static int
xentimer_vcpu_stop_timer(int vcpu)3009f40021fSJustin T. Gibbs xentimer_vcpu_stop_timer(int vcpu)
3019f40021fSJustin T. Gibbs {
3029f40021fSJustin T. Gibbs
3039f40021fSJustin T. Gibbs return (HYPERVISOR_vcpu_op(VCPUOP_stop_singleshot_timer, vcpu, NULL));
3049f40021fSJustin T. Gibbs }
3059f40021fSJustin T. Gibbs
3069f40021fSJustin T. Gibbs /**
3079f40021fSJustin T. Gibbs * \brief Set the next oneshot time for the current CPU.
3089f40021fSJustin T. Gibbs *
3099f40021fSJustin T. Gibbs * \param et Xen timer driver event timer to schedule on.
3109f40021fSJustin T. Gibbs * \param first Delta to the next time to schedule the interrupt for.
3119f40021fSJustin T. Gibbs * \param period Not used.
3129f40021fSJustin T. Gibbs *
3139f40021fSJustin T. Gibbs * \note See eventtimers(9) for more information.
3149f40021fSJustin T. Gibbs * \note
3159f40021fSJustin T. Gibbs *
3169f40021fSJustin T. Gibbs * \returns 0
3179f40021fSJustin T. Gibbs */
3189f40021fSJustin T. Gibbs static int
xentimer_et_start(struct eventtimer * et,sbintime_t first,sbintime_t period)3199f40021fSJustin T. Gibbs xentimer_et_start(struct eventtimer *et,
3209f40021fSJustin T. Gibbs sbintime_t first, sbintime_t period)
3219f40021fSJustin T. Gibbs {
322af5bb69cSRoger Pau Monné int error;
3239f40021fSJustin T. Gibbs struct xentimer_softc *sc = et->et_priv;
3245fdd34eeSJustin T. Gibbs int cpu = PCPU_GET(vcpu_id);
3259f40021fSJustin T. Gibbs struct xentimer_pcpu_data *pcpu = DPCPU_PTR(xentimer_pcpu);
32609982c99SRoger Pau Monné struct vcpu_info *vcpu = DPCPU_GET(vcpu_info);
3279f40021fSJustin T. Gibbs uint64_t first_in_ns, next_time;
32809982c99SRoger Pau Monné #ifdef INVARIANTS
32909982c99SRoger Pau Monné struct thread *td = curthread;
33009982c99SRoger Pau Monné #endif
33109982c99SRoger Pau Monné
33209982c99SRoger Pau Monné KASSERT(td->td_critnest != 0,
33309982c99SRoger Pau Monné ("xentimer_et_start called without preemption disabled"));
3349f40021fSJustin T. Gibbs
3359f40021fSJustin T. Gibbs /* See sbttots() for this formula. */
3369f40021fSJustin T. Gibbs first_in_ns = (((first >> 32) * NSEC_IN_SEC) +
3379f40021fSJustin T. Gibbs (((uint64_t)NSEC_IN_SEC * (uint32_t)first) >> 32));
3389f40021fSJustin T. Gibbs
33909982c99SRoger Pau Monné next_time = xen_fetch_vcpu_time(vcpu) + first_in_ns;
3409f40021fSJustin T. Gibbs error = xentimer_vcpu_start_timer(cpu, next_time);
3419f40021fSJustin T. Gibbs if (error)
3429f40021fSJustin T. Gibbs panic("%s: Error %d setting singleshot timer to %"PRIu64"\n",
3439f40021fSJustin T. Gibbs device_get_nameunit(sc->dev), error, next_time);
3449f40021fSJustin T. Gibbs
3459f40021fSJustin T. Gibbs pcpu->timer = next_time;
3469f40021fSJustin T. Gibbs return (error);
3479f40021fSJustin T. Gibbs }
3489f40021fSJustin T. Gibbs
3499f40021fSJustin T. Gibbs /**
3509f40021fSJustin T. Gibbs * \brief Cancel the event timer's currently running timer, if any.
3519f40021fSJustin T. Gibbs */
3529f40021fSJustin T. Gibbs static int
xentimer_et_stop(struct eventtimer * et)3539f40021fSJustin T. Gibbs xentimer_et_stop(struct eventtimer *et)
3549f40021fSJustin T. Gibbs {
3555fdd34eeSJustin T. Gibbs int cpu = PCPU_GET(vcpu_id);
3569f40021fSJustin T. Gibbs struct xentimer_pcpu_data *pcpu = DPCPU_PTR(xentimer_pcpu);
3579f40021fSJustin T. Gibbs
3589f40021fSJustin T. Gibbs pcpu->timer = 0;
3599f40021fSJustin T. Gibbs return (xentimer_vcpu_stop_timer(cpu));
3609f40021fSJustin T. Gibbs }
3619f40021fSJustin T. Gibbs
3629f40021fSJustin T. Gibbs /**
3639f40021fSJustin T. Gibbs * \brief Attach a Xen PV timer driver instance.
3649f40021fSJustin T. Gibbs *
3659f40021fSJustin T. Gibbs * \param dev Bus device object to attach.
3669f40021fSJustin T. Gibbs *
3679f40021fSJustin T. Gibbs * \note
3689f40021fSJustin T. Gibbs * \returns EINVAL
3699f40021fSJustin T. Gibbs */
3709f40021fSJustin T. Gibbs static int
xentimer_attach(device_t dev)3719f40021fSJustin T. Gibbs xentimer_attach(device_t dev)
3729f40021fSJustin T. Gibbs {
3739f40021fSJustin T. Gibbs struct xentimer_softc *sc = device_get_softc(dev);
3749f40021fSJustin T. Gibbs int error, i;
3759f40021fSJustin T. Gibbs
3769f40021fSJustin T. Gibbs sc->dev = dev;
3779f40021fSJustin T. Gibbs
3789f40021fSJustin T. Gibbs /* Bind an event channel to a VIRQ on each VCPU. */
3799f40021fSJustin T. Gibbs CPU_FOREACH(i) {
380428b7ca2SJustin T. Gibbs struct xentimer_pcpu_data *pcpu;
3819f40021fSJustin T. Gibbs
382428b7ca2SJustin T. Gibbs pcpu = DPCPU_ID_PTR(i, xentimer_pcpu);
3839f40021fSJustin T. Gibbs error = HYPERVISOR_vcpu_op(VCPUOP_stop_periodic_timer, i, NULL);
3849f40021fSJustin T. Gibbs if (error) {
3859f40021fSJustin T. Gibbs device_printf(dev, "Error disabling Xen periodic timer "
3869f40021fSJustin T. Gibbs "on CPU %d\n", i);
3879f40021fSJustin T. Gibbs return (error);
3889f40021fSJustin T. Gibbs }
3899f40021fSJustin T. Gibbs
3909f40021fSJustin T. Gibbs error = xen_intr_bind_virq(dev, VIRQ_TIMER, i, xentimer_intr,
3919f40021fSJustin T. Gibbs NULL, sc, INTR_TYPE_CLK, &pcpu->irq_handle);
3929f40021fSJustin T. Gibbs if (error) {
3939f40021fSJustin T. Gibbs device_printf(dev, "Error %d binding VIRQ_TIMER "
3949f40021fSJustin T. Gibbs "to VCPU %d\n", error, i);
3959f40021fSJustin T. Gibbs return (error);
3969f40021fSJustin T. Gibbs }
3979f40021fSJustin T. Gibbs xen_intr_describe(pcpu->irq_handle, "c%d", i);
3989f40021fSJustin T. Gibbs }
3999f40021fSJustin T. Gibbs
4009f40021fSJustin T. Gibbs /* Register the event timer. */
4019f40021fSJustin T. Gibbs sc->et.et_name = "XENTIMER";
4029f40021fSJustin T. Gibbs sc->et.et_quality = XENTIMER_QUALITY;
4039f40021fSJustin T. Gibbs sc->et.et_flags = ET_FLAGS_ONESHOT | ET_FLAGS_PERCPU;
4049f40021fSJustin T. Gibbs sc->et.et_frequency = NSEC_IN_SEC;
4059f40021fSJustin T. Gibbs /* See tstosbt() for this formula */
4069f40021fSJustin T. Gibbs sc->et.et_min_period = (XENTIMER_MIN_PERIOD_IN_NSEC *
4079f40021fSJustin T. Gibbs (((uint64_t)1 << 63) / 500000000) >> 32);
4089f40021fSJustin T. Gibbs sc->et.et_max_period = ((sbintime_t)4 << 32);
4099f40021fSJustin T. Gibbs sc->et.et_start = xentimer_et_start;
4109f40021fSJustin T. Gibbs sc->et.et_stop = xentimer_et_stop;
4119f40021fSJustin T. Gibbs sc->et.et_priv = sc;
4129f40021fSJustin T. Gibbs et_register(&sc->et);
4139f40021fSJustin T. Gibbs
4149f40021fSJustin T. Gibbs /* Register the timecounter. */
4159f40021fSJustin T. Gibbs sc->tc.tc_name = "XENTIMER";
4169f40021fSJustin T. Gibbs sc->tc.tc_quality = XENTIMER_QUALITY;
417de7d5ac6SRoger Pau Monné /*
418de7d5ac6SRoger Pau Monné * FIXME: due to the lack of ordering during resume, FreeBSD cannot
419de7d5ac6SRoger Pau Monné * guarantee that the Xen PV timer is resumed before any other device
420de7d5ac6SRoger Pau Monné * attempts to make use of it, so mark it as not safe for suspension
421de7d5ac6SRoger Pau Monné * (ie: remove the TC_FLAGS_SUSPEND_SAFE flag).
422de7d5ac6SRoger Pau Monné *
423de7d5ac6SRoger Pau Monné * NB: This was not a problem in previous FreeBSD versions because the
424de7d5ac6SRoger Pau Monné * timer was directly attached to the nexus, but it is an issue now
425de7d5ac6SRoger Pau Monné * that the timer is attached to the xenpv bus, and thus resumed
426de7d5ac6SRoger Pau Monné * later.
427de7d5ac6SRoger Pau Monné *
428de7d5ac6SRoger Pau Monné * sc->tc.tc_flags = TC_FLAGS_SUSPEND_SAFE;
429de7d5ac6SRoger Pau Monné */
4309f40021fSJustin T. Gibbs /*
4319f40021fSJustin T. Gibbs * The underlying resolution is in nanoseconds, since the timer info
4329f40021fSJustin T. Gibbs * scales TSC frequencies using a fraction that represents time in
4339f40021fSJustin T. Gibbs * terms of nanoseconds.
4349f40021fSJustin T. Gibbs */
4359f40021fSJustin T. Gibbs sc->tc.tc_frequency = NSEC_IN_SEC;
4369f40021fSJustin T. Gibbs sc->tc.tc_counter_mask = ~0u;
4379f40021fSJustin T. Gibbs sc->tc.tc_get_timecount = xentimer_get_timecount;
4389f40021fSJustin T. Gibbs sc->tc.tc_priv = sc;
4399f40021fSJustin T. Gibbs tc_init(&sc->tc);
4409f40021fSJustin T. Gibbs
4419f40021fSJustin T. Gibbs /* Register the Hypervisor wall clock */
4429f40021fSJustin T. Gibbs clock_register(dev, XENCLOCK_RESOLUTION);
4439f40021fSJustin T. Gibbs
4449f40021fSJustin T. Gibbs return (0);
4459f40021fSJustin T. Gibbs }
4469f40021fSJustin T. Gibbs
4479f40021fSJustin T. Gibbs static int
xentimer_detach(device_t dev)4489f40021fSJustin T. Gibbs xentimer_detach(device_t dev)
4499f40021fSJustin T. Gibbs {
4509f40021fSJustin T. Gibbs
4519f40021fSJustin T. Gibbs /* Implement Xen PV clock teardown - XXX see hpet_detach ? */
4529f40021fSJustin T. Gibbs /* If possible:
4539f40021fSJustin T. Gibbs * 1. need to deregister timecounter
4549f40021fSJustin T. Gibbs * 2. need to deregister event timer
4559f40021fSJustin T. Gibbs * 3. need to deregister virtual IRQ event channels
4569f40021fSJustin T. Gibbs */
4579f40021fSJustin T. Gibbs return (EBUSY);
4589f40021fSJustin T. Gibbs }
4599f40021fSJustin T. Gibbs
460428b7ca2SJustin T. Gibbs static void
xentimer_percpu_resume(void * arg)461428b7ca2SJustin T. Gibbs xentimer_percpu_resume(void *arg)
462428b7ca2SJustin T. Gibbs {
463428b7ca2SJustin T. Gibbs device_t dev = (device_t) arg;
464428b7ca2SJustin T. Gibbs struct xentimer_softc *sc = device_get_softc(dev);
465428b7ca2SJustin T. Gibbs
466428b7ca2SJustin T. Gibbs xentimer_et_start(&sc->et, sc->et.et_min_period, 0);
467428b7ca2SJustin T. Gibbs }
468428b7ca2SJustin T. Gibbs
4699f40021fSJustin T. Gibbs static int
xentimer_resume(device_t dev)4709f40021fSJustin T. Gibbs xentimer_resume(device_t dev)
4719f40021fSJustin T. Gibbs {
472428b7ca2SJustin T. Gibbs int error;
4739f40021fSJustin T. Gibbs int i;
4749f40021fSJustin T. Gibbs
475428b7ca2SJustin T. Gibbs /* Disable the periodic timer */
4769f40021fSJustin T. Gibbs CPU_FOREACH(i) {
477428b7ca2SJustin T. Gibbs error = HYPERVISOR_vcpu_op(VCPUOP_stop_periodic_timer, i, NULL);
478428b7ca2SJustin T. Gibbs if (error != 0) {
479428b7ca2SJustin T. Gibbs device_printf(dev,
480428b7ca2SJustin T. Gibbs "Error disabling Xen periodic timer on CPU %d\n",
481428b7ca2SJustin T. Gibbs i);
4829f40021fSJustin T. Gibbs return (error);
4839f40021fSJustin T. Gibbs }
484428b7ca2SJustin T. Gibbs }
485428b7ca2SJustin T. Gibbs
486428b7ca2SJustin T. Gibbs /* Reset the last uptime value */
487d3ccddf3SBryan Venteicher pvclock_resume();
488428b7ca2SJustin T. Gibbs
489b8d1a376SRoger Pau Monné /* Reset the RTC clock */
490b8d1a376SRoger Pau Monné inittodr(time_second);
491b8d1a376SRoger Pau Monné
492428b7ca2SJustin T. Gibbs /* Kick the timers on all CPUs */
493428b7ca2SJustin T. Gibbs smp_rendezvous(NULL, xentimer_percpu_resume, NULL, dev);
494428b7ca2SJustin T. Gibbs
495428b7ca2SJustin T. Gibbs if (bootverbose)
496428b7ca2SJustin T. Gibbs device_printf(dev, "resumed operation after suspension\n");
497428b7ca2SJustin T. Gibbs
498428b7ca2SJustin T. Gibbs return (0);
499428b7ca2SJustin T. Gibbs }
5009f40021fSJustin T. Gibbs
5019f40021fSJustin T. Gibbs static int
xentimer_suspend(device_t dev)5029f40021fSJustin T. Gibbs xentimer_suspend(device_t dev)
5039f40021fSJustin T. Gibbs {
504428b7ca2SJustin T. Gibbs return (0);
5059f40021fSJustin T. Gibbs }
5069f40021fSJustin T. Gibbs
5075f05c794SRoger Pau Monné /*
5085f05c794SRoger Pau Monné * Xen early clock init
5095f05c794SRoger Pau Monné */
5105f05c794SRoger Pau Monné void
xen_clock_init(void)5115f05c794SRoger Pau Monné xen_clock_init(void)
5125f05c794SRoger Pau Monné {
5135f05c794SRoger Pau Monné }
5145f05c794SRoger Pau Monné
5155f05c794SRoger Pau Monné /*
5165f05c794SRoger Pau Monné * Xen PV DELAY function
5175f05c794SRoger Pau Monné *
5185f05c794SRoger Pau Monné * When running on PVH mode we don't have an emulated i8524, so
5195f05c794SRoger Pau Monné * make use of the Xen time info in order to code a simple DELAY
5205f05c794SRoger Pau Monné * function that can be used during early boot.
5215f05c794SRoger Pau Monné */
5225f05c794SRoger Pau Monné void
xen_delay(int n)5235f05c794SRoger Pau Monné xen_delay(int n)
5245f05c794SRoger Pau Monné {
5255f05c794SRoger Pau Monné struct vcpu_info *vcpu = &HYPERVISOR_shared_info->vcpu_info[0];
5265f05c794SRoger Pau Monné uint64_t end_ns;
5275f05c794SRoger Pau Monné uint64_t current;
5285f05c794SRoger Pau Monné
5295f05c794SRoger Pau Monné end_ns = xen_fetch_vcpu_time(vcpu);
5305f05c794SRoger Pau Monné end_ns += n * NSEC_IN_USEC;
5315f05c794SRoger Pau Monné
5325f05c794SRoger Pau Monné for (;;) {
5335f05c794SRoger Pau Monné current = xen_fetch_vcpu_time(vcpu);
5345f05c794SRoger Pau Monné if (current >= end_ns)
5355f05c794SRoger Pau Monné break;
5365f05c794SRoger Pau Monné }
5375f05c794SRoger Pau Monné }
5385f05c794SRoger Pau Monné
5399f40021fSJustin T. Gibbs static device_method_t xentimer_methods[] = {
5409f40021fSJustin T. Gibbs DEVMETHOD(device_identify, xentimer_identify),
5419f40021fSJustin T. Gibbs DEVMETHOD(device_probe, xentimer_probe),
5429f40021fSJustin T. Gibbs DEVMETHOD(device_attach, xentimer_attach),
5439f40021fSJustin T. Gibbs DEVMETHOD(device_detach, xentimer_detach),
5449f40021fSJustin T. Gibbs DEVMETHOD(device_suspend, xentimer_suspend),
5459f40021fSJustin T. Gibbs DEVMETHOD(device_resume, xentimer_resume),
5469f40021fSJustin T. Gibbs /* clock interface */
5479f40021fSJustin T. Gibbs DEVMETHOD(clock_gettime, xentimer_gettime),
5489f40021fSJustin T. Gibbs DEVMETHOD(clock_settime, xentimer_settime),
5499f40021fSJustin T. Gibbs DEVMETHOD_END
5509f40021fSJustin T. Gibbs };
5519f40021fSJustin T. Gibbs
5529f40021fSJustin T. Gibbs static driver_t xentimer_driver = {
5539f40021fSJustin T. Gibbs "xen_et",
5549f40021fSJustin T. Gibbs xentimer_methods,
5559f40021fSJustin T. Gibbs sizeof(struct xentimer_softc),
5569f40021fSJustin T. Gibbs };
5579f40021fSJustin T. Gibbs
558aa64d12bSRoger Pau Monné DRIVER_MODULE(xentimer, xenpv, xentimer_driver, xentimer_devclass, 0, 0);
559aa64d12bSRoger Pau Monné MODULE_DEPEND(xentimer, xenpv, 1, 1, 1);
560