1423f0742Spbrook /*
2423f0742Spbrook * General purpose implementation of a simple periodic countdown timer.
3423f0742Spbrook *
4423f0742Spbrook * Copyright (c) 2007 CodeSourcery.
5423f0742Spbrook *
68e31bf38SMatthew Fernandez * This code is licensed under the GNU LGPL.
7423f0742Spbrook */
8d6454270SMarkus Armbruster
918c86e2bSPeter Maydell #include "qemu/osdep.h"
1083c9f4caSPaolo Bonzini #include "hw/ptimer.h"
11d6454270SMarkus Armbruster #include "migration/vmstate.h"
121de7afc9SPaolo Bonzini #include "qemu/host-utils.h"
135b5968c4SPhilippe Mathieu-Daudé #include "exec/replay-core.h"
14*161f5bc8SRichard Henderson #include "exec/icount.h"
1532cad1ffSPhilippe Mathieu-Daudé #include "system/qtest.h"
16072bdb07SMarc-André Lureau #include "block/aio.h"
17ad140dadSPeter Maydell #include "hw/clock.h"
18423f0742Spbrook
192b5c0322SDmitry Osipenko #define DELTA_ADJUST 1
2022471b8aSDmitry Osipenko #define DELTA_NO_ADJUST -1
212b5c0322SDmitry Osipenko
22423f0742Spbrook struct ptimer_state
23423f0742Spbrook {
24852f771eSJuan Quintela uint8_t enabled; /* 0 = disabled, 1 = periodic, 2 = oneshot. */
258d05ea8aSblueswir1 uint64_t limit;
268d05ea8aSblueswir1 uint64_t delta;
27423f0742Spbrook uint32_t period_frac;
28423f0742Spbrook int64_t period;
29423f0742Spbrook int64_t last_event;
30423f0742Spbrook int64_t next_event;
31e7ea81c3SDmitry Osipenko uint8_t policy_mask;
32423f0742Spbrook QEMUTimer *timer;
3378b6eaa6SPeter Maydell ptimer_cb callback;
3478b6eaa6SPeter Maydell void *callback_opaque;
3578b6eaa6SPeter Maydell /*
3678b6eaa6SPeter Maydell * These track whether we're in a transaction block, and if we
3778b6eaa6SPeter Maydell * need to do a timer reload when the block finishes. They don't
3878b6eaa6SPeter Maydell * need to be migrated because migration can never happen in the
3978b6eaa6SPeter Maydell * middle of a transaction block.
4078b6eaa6SPeter Maydell */
4178b6eaa6SPeter Maydell bool in_transaction;
4278b6eaa6SPeter Maydell bool need_reload;
43423f0742Spbrook };
44423f0742Spbrook
45423f0742Spbrook /* Use a bottom-half routine to avoid reentrancy issues. */
ptimer_trigger(ptimer_state * s)46423f0742Spbrook static void ptimer_trigger(ptimer_state *s)
47423f0742Spbrook {
4878b6eaa6SPeter Maydell s->callback(s->callback_opaque);
4978b6eaa6SPeter Maydell }
50423f0742Spbrook
ptimer_reload(ptimer_state * s,int delta_adjust)512b5c0322SDmitry Osipenko static void ptimer_reload(ptimer_state *s, int delta_adjust)
52423f0742Spbrook {
5378b6eaa6SPeter Maydell uint32_t period_frac;
5478b6eaa6SPeter Maydell uint64_t period;
5578b6eaa6SPeter Maydell uint64_t delta;
56086ede32SPeter Maydell bool suppress_trigger = false;
57e91171e3SDmitry Osipenko
58086ede32SPeter Maydell /*
59086ede32SPeter Maydell * Note that if delta_adjust is 0 then we must be here because of
60086ede32SPeter Maydell * a count register write or timer start, not because of timer expiry.
61086ede32SPeter Maydell * In that case the policy might require us to suppress the timer trigger
62086ede32SPeter Maydell * that we would otherwise generate for a zero delta.
63086ede32SPeter Maydell */
64086ede32SPeter Maydell if (delta_adjust == 0 &&
65086ede32SPeter Maydell (s->policy_mask & PTIMER_POLICY_TRIGGER_ONLY_ON_DECREMENT)) {
66086ede32SPeter Maydell suppress_trigger = true;
67086ede32SPeter Maydell }
6878b6eaa6SPeter Maydell if (s->delta == 0 && !(s->policy_mask & PTIMER_POLICY_NO_IMMEDIATE_TRIGGER)
69086ede32SPeter Maydell && !suppress_trigger) {
70423f0742Spbrook ptimer_trigger(s);
7122471b8aSDmitry Osipenko }
7222471b8aSDmitry Osipenko
7378b6eaa6SPeter Maydell /*
7478b6eaa6SPeter Maydell * Note that ptimer_trigger() might call the device callback function,
7578b6eaa6SPeter Maydell * which can then modify timer state, so we must not cache any fields
7678b6eaa6SPeter Maydell * from ptimer_state until after we have called it.
7778b6eaa6SPeter Maydell */
7878b6eaa6SPeter Maydell delta = s->delta;
7978b6eaa6SPeter Maydell period = s->period;
8078b6eaa6SPeter Maydell period_frac = s->period_frac;
8178b6eaa6SPeter Maydell
823f6e6a13SDmitry Osipenko if (delta == 0 && !(s->policy_mask & PTIMER_POLICY_NO_IMMEDIATE_RELOAD)) {
832b5c0322SDmitry Osipenko delta = s->delta = s->limit;
84423f0742Spbrook }
85ef0a9984SDmitry Osipenko
86446e5e8bSJianzhou Yue if (s->period == 0 && s->period_frac == 0) {
872a8b5870SDmitry Osipenko if (!qtest_enabled()) {
88423f0742Spbrook fprintf(stderr, "Timer with period zero, disabling\n");
892a8b5870SDmitry Osipenko }
90780d23e5SDmitry Osipenko timer_del(s->timer);
91423f0742Spbrook s->enabled = 0;
92423f0742Spbrook return;
93423f0742Spbrook }
94423f0742Spbrook
952b5c0322SDmitry Osipenko if (s->policy_mask & PTIMER_POLICY_WRAP_AFTER_ONE_PERIOD) {
9622471b8aSDmitry Osipenko if (delta_adjust != DELTA_NO_ADJUST) {
972b5c0322SDmitry Osipenko delta += delta_adjust;
982b5c0322SDmitry Osipenko }
9922471b8aSDmitry Osipenko }
1002b5c0322SDmitry Osipenko
101ef0a9984SDmitry Osipenko if (delta == 0 && (s->policy_mask & PTIMER_POLICY_CONTINUOUS_TRIGGER)) {
102ef0a9984SDmitry Osipenko if (s->enabled == 1 && s->limit == 0) {
103ef0a9984SDmitry Osipenko delta = 1;
104ef0a9984SDmitry Osipenko }
105ef0a9984SDmitry Osipenko }
106ef0a9984SDmitry Osipenko
10722471b8aSDmitry Osipenko if (delta == 0 && (s->policy_mask & PTIMER_POLICY_NO_IMMEDIATE_TRIGGER)) {
10822471b8aSDmitry Osipenko if (delta_adjust != DELTA_NO_ADJUST) {
10922471b8aSDmitry Osipenko delta = 1;
11022471b8aSDmitry Osipenko }
11122471b8aSDmitry Osipenko }
11222471b8aSDmitry Osipenko
1133f6e6a13SDmitry Osipenko if (delta == 0 && (s->policy_mask & PTIMER_POLICY_NO_IMMEDIATE_RELOAD)) {
1143f6e6a13SDmitry Osipenko if (s->enabled == 1 && s->limit != 0) {
1153f6e6a13SDmitry Osipenko delta = 1;
1163f6e6a13SDmitry Osipenko }
1173f6e6a13SDmitry Osipenko }
1183f6e6a13SDmitry Osipenko
119ef0a9984SDmitry Osipenko if (delta == 0) {
12068d59c6dSPeter Maydell if (s->enabled == 0) {
12168d59c6dSPeter Maydell /* trigger callback disabled the timer already */
12268d59c6dSPeter Maydell return;
12368d59c6dSPeter Maydell }
124ef0a9984SDmitry Osipenko if (!qtest_enabled()) {
125ef0a9984SDmitry Osipenko fprintf(stderr, "Timer with delta zero, disabling\n");
126ef0a9984SDmitry Osipenko }
127ef0a9984SDmitry Osipenko timer_del(s->timer);
128ef0a9984SDmitry Osipenko s->enabled = 0;
129ef0a9984SDmitry Osipenko return;
130ef0a9984SDmitry Osipenko }
131ef0a9984SDmitry Osipenko
132e91171e3SDmitry Osipenko /*
133e91171e3SDmitry Osipenko * Artificially limit timeout rate to something
134e91171e3SDmitry Osipenko * achievable under QEMU. Otherwise, QEMU spends all
135e91171e3SDmitry Osipenko * its time generating timer interrupts, and there
136e91171e3SDmitry Osipenko * is no forward progress.
137e91171e3SDmitry Osipenko * About ten microseconds is the fastest that really works
138e91171e3SDmitry Osipenko * on the current generation of host machines.
139e91171e3SDmitry Osipenko */
140e91171e3SDmitry Osipenko
141740b1759SClaudio Fontana if (s->enabled == 1 && (delta * period < 10000) &&
142740b1759SClaudio Fontana !icount_enabled() && !qtest_enabled()) {
1432b5c0322SDmitry Osipenko period = 10000 / delta;
144e91171e3SDmitry Osipenko period_frac = 0;
145e91171e3SDmitry Osipenko }
146e91171e3SDmitry Osipenko
147423f0742Spbrook s->last_event = s->next_event;
1482b5c0322SDmitry Osipenko s->next_event = s->last_event + delta * period;
149e91171e3SDmitry Osipenko if (period_frac) {
1502b5c0322SDmitry Osipenko s->next_event += ((int64_t)period_frac * delta) >> 32;
151423f0742Spbrook }
152bc72ad67SAlex Bligh timer_mod(s->timer, s->next_event);
153423f0742Spbrook }
154423f0742Spbrook
ptimer_tick(void * opaque)155423f0742Spbrook static void ptimer_tick(void *opaque)
156423f0742Spbrook {
157423f0742Spbrook ptimer_state *s = (ptimer_state *)opaque;
1583f6e6a13SDmitry Osipenko bool trigger = true;
1593f6e6a13SDmitry Osipenko
16078b6eaa6SPeter Maydell /*
16178b6eaa6SPeter Maydell * We perform all the tick actions within a begin/commit block
16278b6eaa6SPeter Maydell * because the callback function that ptimer_trigger() calls
16378b6eaa6SPeter Maydell * might make calls into the ptimer APIs that provoke another
16478b6eaa6SPeter Maydell * trigger, and we want that to cause the callback function
16578b6eaa6SPeter Maydell * to be called iteratively, not recursively.
16678b6eaa6SPeter Maydell */
16778b6eaa6SPeter Maydell ptimer_transaction_begin(s);
16878b6eaa6SPeter Maydell
169423f0742Spbrook if (s->enabled == 2) {
1703f6e6a13SDmitry Osipenko s->delta = 0;
171423f0742Spbrook s->enabled = 0;
172423f0742Spbrook } else {
173ef0a9984SDmitry Osipenko int delta_adjust = DELTA_ADJUST;
174ef0a9984SDmitry Osipenko
1753f6e6a13SDmitry Osipenko if (s->delta == 0 || s->limit == 0) {
176ef0a9984SDmitry Osipenko /* If a "continuous trigger" policy is not used and limit == 0,
1773f6e6a13SDmitry Osipenko we should error out. delta == 0 means that this tick is
1783f6e6a13SDmitry Osipenko caused by a "no immediate reload" policy, so it shouldn't
1793f6e6a13SDmitry Osipenko be adjusted. */
18022471b8aSDmitry Osipenko delta_adjust = DELTA_NO_ADJUST;
181ef0a9984SDmitry Osipenko }
182ef0a9984SDmitry Osipenko
1833f6e6a13SDmitry Osipenko if (!(s->policy_mask & PTIMER_POLICY_NO_IMMEDIATE_TRIGGER)) {
1843f6e6a13SDmitry Osipenko /* Avoid re-trigger on deferred reload if "no immediate trigger"
1853f6e6a13SDmitry Osipenko policy isn't used. */
1863f6e6a13SDmitry Osipenko trigger = (delta_adjust == DELTA_ADJUST);
1873f6e6a13SDmitry Osipenko }
1883f6e6a13SDmitry Osipenko
1893f6e6a13SDmitry Osipenko s->delta = s->limit;
1903f6e6a13SDmitry Osipenko
191ef0a9984SDmitry Osipenko ptimer_reload(s, delta_adjust);
192423f0742Spbrook }
1933f6e6a13SDmitry Osipenko
1943f6e6a13SDmitry Osipenko if (trigger) {
1953f6e6a13SDmitry Osipenko ptimer_trigger(s);
1963f6e6a13SDmitry Osipenko }
19778b6eaa6SPeter Maydell
19878b6eaa6SPeter Maydell ptimer_transaction_commit(s);
199423f0742Spbrook }
200423f0742Spbrook
ptimer_get_count(ptimer_state * s)2018d05ea8aSblueswir1 uint64_t ptimer_get_count(ptimer_state *s)
202423f0742Spbrook {
2038d05ea8aSblueswir1 uint64_t counter;
204423f0742Spbrook
205ef0a9984SDmitry Osipenko if (s->enabled && s->delta != 0) {
2065a50307bSDmitry Osipenko int64_t now = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL);
2075a50307bSDmitry Osipenko int64_t next = s->next_event;
2082b5c0322SDmitry Osipenko int64_t last = s->last_event;
2095a50307bSDmitry Osipenko bool expired = (now - next >= 0);
2105a50307bSDmitry Osipenko bool oneshot = (s->enabled == 2);
2115a50307bSDmitry Osipenko
212423f0742Spbrook /* Figure out the current counter value. */
21356215da3SDmitry Osipenko if (expired) {
214423f0742Spbrook /* Prevent timer underflowing if it should already have
215423f0742Spbrook triggered. */
216423f0742Spbrook counter = 0;
217423f0742Spbrook } else {
2188d05ea8aSblueswir1 uint64_t rem;
2198d05ea8aSblueswir1 uint64_t div;
220d0a981b2Spbrook int clz1, clz2;
221d0a981b2Spbrook int shift;
222e91171e3SDmitry Osipenko uint32_t period_frac = s->period_frac;
223e91171e3SDmitry Osipenko uint64_t period = s->period;
224e91171e3SDmitry Osipenko
225740b1759SClaudio Fontana if (!oneshot && (s->delta * period < 10000) &&
226740b1759SClaudio Fontana !icount_enabled() && !qtest_enabled()) {
227e91171e3SDmitry Osipenko period = 10000 / s->delta;
228e91171e3SDmitry Osipenko period_frac = 0;
229e91171e3SDmitry Osipenko }
230d0a981b2Spbrook
231d0a981b2Spbrook /* We need to divide time by period, where time is stored in
232d0a981b2Spbrook rem (64-bit integer) and period is stored in period/period_frac
233d0a981b2Spbrook (64.32 fixed point).
234d0a981b2Spbrook
235d0a981b2Spbrook Doing full precision division is hard, so scale values and
236d0a981b2Spbrook do a 64-bit division. The result should be rounded down,
237d0a981b2Spbrook so that the rounding error never causes the timer to go
238d0a981b2Spbrook backwards.
239d0a981b2Spbrook */
240423f0742Spbrook
24156215da3SDmitry Osipenko rem = next - now;
242e91171e3SDmitry Osipenko div = period;
243d0a981b2Spbrook
244d0a981b2Spbrook clz1 = clz64(rem);
245d0a981b2Spbrook clz2 = clz64(div);
246d0a981b2Spbrook shift = clz1 < clz2 ? clz1 : clz2;
247d0a981b2Spbrook
248d0a981b2Spbrook rem <<= shift;
249d0a981b2Spbrook div <<= shift;
250d0a981b2Spbrook if (shift >= 32) {
251e91171e3SDmitry Osipenko div |= ((uint64_t)period_frac << (shift - 32));
252d0a981b2Spbrook } else {
253d0a981b2Spbrook if (shift != 0)
254e91171e3SDmitry Osipenko div |= (period_frac >> (32 - shift));
255d0a981b2Spbrook /* Look at remaining bits of period_frac and round div up if
256d0a981b2Spbrook necessary. */
257e91171e3SDmitry Osipenko if ((uint32_t)(period_frac << shift))
258d0a981b2Spbrook div += 1;
259d0a981b2Spbrook }
260423f0742Spbrook counter = rem / div;
2612b5c0322SDmitry Osipenko
2622b5c0322SDmitry Osipenko if (s->policy_mask & PTIMER_POLICY_WRAP_AFTER_ONE_PERIOD) {
2632b5c0322SDmitry Osipenko /* Before wrapping around, timer should stay with counter = 0
2642b5c0322SDmitry Osipenko for a one period. */
2652b5c0322SDmitry Osipenko if (!oneshot && s->delta == s->limit) {
2662b5c0322SDmitry Osipenko if (now == last) {
2672b5c0322SDmitry Osipenko /* Counter == delta here, check whether it was
2682b5c0322SDmitry Osipenko adjusted and if it was, then right now it is
2692b5c0322SDmitry Osipenko that "one period". */
2702b5c0322SDmitry Osipenko if (counter == s->limit + DELTA_ADJUST) {
2712b5c0322SDmitry Osipenko return 0;
2722b5c0322SDmitry Osipenko }
2732b5c0322SDmitry Osipenko } else if (counter == s->limit) {
2742b5c0322SDmitry Osipenko /* Since the counter is rounded down and now != last,
2752b5c0322SDmitry Osipenko the counter == limit means that delta was adjusted
2762b5c0322SDmitry Osipenko by +1 and right now it is that adjusted period. */
2772b5c0322SDmitry Osipenko return 0;
2782b5c0322SDmitry Osipenko }
2792b5c0322SDmitry Osipenko }
2802b5c0322SDmitry Osipenko }
281423f0742Spbrook }
2825580ea45SDmitry Osipenko
2835580ea45SDmitry Osipenko if (s->policy_mask & PTIMER_POLICY_NO_COUNTER_ROUND_DOWN) {
2845580ea45SDmitry Osipenko /* If now == last then delta == limit, i.e. the counter already
2855580ea45SDmitry Osipenko represents the correct value. It would be rounded down a 1ns
2865580ea45SDmitry Osipenko later. */
2875580ea45SDmitry Osipenko if (now != last) {
2885580ea45SDmitry Osipenko counter += 1;
2895580ea45SDmitry Osipenko }
2905580ea45SDmitry Osipenko }
291423f0742Spbrook } else {
292423f0742Spbrook counter = s->delta;
293423f0742Spbrook }
294423f0742Spbrook return counter;
295423f0742Spbrook }
296423f0742Spbrook
ptimer_set_count(ptimer_state * s,uint64_t count)2978d05ea8aSblueswir1 void ptimer_set_count(ptimer_state *s, uint64_t count)
298423f0742Spbrook {
299af2a580fSPeter Maydell assert(s->in_transaction);
300423f0742Spbrook s->delta = count;
301423f0742Spbrook if (s->enabled) {
30278b6eaa6SPeter Maydell s->need_reload = true;
30378b6eaa6SPeter Maydell }
304423f0742Spbrook }
305423f0742Spbrook
ptimer_run(ptimer_state * s,int oneshot)306423f0742Spbrook void ptimer_run(ptimer_state *s, int oneshot)
307423f0742Spbrook {
308869e92b5SDmitry Osipenko bool was_disabled = !s->enabled;
309869e92b5SDmitry Osipenko
310af2a580fSPeter Maydell assert(s->in_transaction);
31178b6eaa6SPeter Maydell
312446e5e8bSJianzhou Yue if (was_disabled && s->period == 0 && s->period_frac == 0) {
3132a8b5870SDmitry Osipenko if (!qtest_enabled()) {
314423f0742Spbrook fprintf(stderr, "Timer with period zero, disabling\n");
3152a8b5870SDmitry Osipenko }
316423f0742Spbrook return;
317423f0742Spbrook }
318423f0742Spbrook s->enabled = oneshot ? 2 : 1;
319869e92b5SDmitry Osipenko if (was_disabled) {
32078b6eaa6SPeter Maydell s->need_reload = true;
32178b6eaa6SPeter Maydell }
322423f0742Spbrook }
323423f0742Spbrook
3248d05ea8aSblueswir1 /* Pause a timer. Note that this may cause it to "lose" time, even if it
325423f0742Spbrook is immediately restarted. */
ptimer_stop(ptimer_state * s)326423f0742Spbrook void ptimer_stop(ptimer_state *s)
327423f0742Spbrook {
328af2a580fSPeter Maydell assert(s->in_transaction);
32978b6eaa6SPeter Maydell
330423f0742Spbrook if (!s->enabled)
331423f0742Spbrook return;
332423f0742Spbrook
333423f0742Spbrook s->delta = ptimer_get_count(s);
334bc72ad67SAlex Bligh timer_del(s->timer);
335423f0742Spbrook s->enabled = 0;
33678b6eaa6SPeter Maydell s->need_reload = false;
33778b6eaa6SPeter Maydell }
338423f0742Spbrook
339423f0742Spbrook /* Set counter increment interval in nanoseconds. */
ptimer_set_period(ptimer_state * s,int64_t period)340423f0742Spbrook void ptimer_set_period(ptimer_state *s, int64_t period)
341423f0742Spbrook {
342af2a580fSPeter Maydell assert(s->in_transaction);
3437ef6e3cfSDmitry Osipenko s->delta = ptimer_get_count(s);
344423f0742Spbrook s->period = period;
345423f0742Spbrook s->period_frac = 0;
3468d05ea8aSblueswir1 if (s->enabled) {
34778b6eaa6SPeter Maydell s->need_reload = true;
34878b6eaa6SPeter Maydell }
3498d05ea8aSblueswir1 }
350423f0742Spbrook
351ad140dadSPeter Maydell /* Set counter increment interval from a Clock */
ptimer_set_period_from_clock(ptimer_state * s,const Clock * clk,unsigned int divisor)352ad140dadSPeter Maydell void ptimer_set_period_from_clock(ptimer_state *s, const Clock *clk,
353ad140dadSPeter Maydell unsigned int divisor)
354ad140dadSPeter Maydell {
355ad140dadSPeter Maydell /*
356ad140dadSPeter Maydell * The raw clock period is a 64-bit value in units of 2^-32 ns;
357ad140dadSPeter Maydell * put another way it's a 32.32 fixed-point ns value. Our internal
358ad140dadSPeter Maydell * representation of the period is 64.32 fixed point ns, so
359ad140dadSPeter Maydell * the conversion is simple.
360ad140dadSPeter Maydell */
361ad140dadSPeter Maydell uint64_t raw_period = clock_get(clk);
362ad140dadSPeter Maydell uint64_t period_frac;
363ad140dadSPeter Maydell
364ad140dadSPeter Maydell assert(s->in_transaction);
365ad140dadSPeter Maydell s->delta = ptimer_get_count(s);
366ad140dadSPeter Maydell s->period = extract64(raw_period, 32, 32);
367ad140dadSPeter Maydell period_frac = extract64(raw_period, 0, 32);
368ad140dadSPeter Maydell /*
369ad140dadSPeter Maydell * divisor specifies a possible frequency divisor between the
370ad140dadSPeter Maydell * clock and the timer, so it is a multiplier on the period.
371ad140dadSPeter Maydell * We do the multiply after splitting the raw period out into
372ad140dadSPeter Maydell * period and frac to avoid having to do a 32*64->96 multiply.
373ad140dadSPeter Maydell */
374ad140dadSPeter Maydell s->period *= divisor;
375ad140dadSPeter Maydell period_frac *= divisor;
376ad140dadSPeter Maydell s->period += extract64(period_frac, 32, 32);
377ad140dadSPeter Maydell s->period_frac = (uint32_t)period_frac;
378ad140dadSPeter Maydell
379ad140dadSPeter Maydell if (s->enabled) {
380ad140dadSPeter Maydell s->need_reload = true;
381ad140dadSPeter Maydell }
382ad140dadSPeter Maydell }
383ad140dadSPeter Maydell
384423f0742Spbrook /* Set counter frequency in Hz. */
ptimer_set_freq(ptimer_state * s,uint32_t freq)385423f0742Spbrook void ptimer_set_freq(ptimer_state *s, uint32_t freq)
386423f0742Spbrook {
387af2a580fSPeter Maydell assert(s->in_transaction);
3887ef6e3cfSDmitry Osipenko s->delta = ptimer_get_count(s);
389423f0742Spbrook s->period = 1000000000ll / freq;
390423f0742Spbrook s->period_frac = (1000000000ll << 32) / freq;
3918d05ea8aSblueswir1 if (s->enabled) {
39278b6eaa6SPeter Maydell s->need_reload = true;
39378b6eaa6SPeter Maydell }
3948d05ea8aSblueswir1 }
395423f0742Spbrook
396423f0742Spbrook /* Set the initial countdown value. If reload is nonzero then also set
397423f0742Spbrook count = limit. */
ptimer_set_limit(ptimer_state * s,uint64_t limit,int reload)3988d05ea8aSblueswir1 void ptimer_set_limit(ptimer_state *s, uint64_t limit, int reload)
399423f0742Spbrook {
400af2a580fSPeter Maydell assert(s->in_transaction);
401423f0742Spbrook s->limit = limit;
402423f0742Spbrook if (reload)
403423f0742Spbrook s->delta = limit;
40462ea5b0bSpbrook if (s->enabled && reload) {
40578b6eaa6SPeter Maydell s->need_reload = true;
40678b6eaa6SPeter Maydell }
4078d05ea8aSblueswir1 }
4088d05ea8aSblueswir1
ptimer_get_limit(ptimer_state * s)409578c4b2fSDmitry Osipenko uint64_t ptimer_get_limit(ptimer_state *s)
410578c4b2fSDmitry Osipenko {
411578c4b2fSDmitry Osipenko return s->limit;
412578c4b2fSDmitry Osipenko }
413578c4b2fSDmitry Osipenko
ptimer_transaction_begin(ptimer_state * s)41478b6eaa6SPeter Maydell void ptimer_transaction_begin(ptimer_state *s)
41578b6eaa6SPeter Maydell {
416af2a580fSPeter Maydell assert(!s->in_transaction);
41778b6eaa6SPeter Maydell s->in_transaction = true;
41878b6eaa6SPeter Maydell s->need_reload = false;
41978b6eaa6SPeter Maydell }
42078b6eaa6SPeter Maydell
ptimer_transaction_commit(ptimer_state * s)42178b6eaa6SPeter Maydell void ptimer_transaction_commit(ptimer_state *s)
42278b6eaa6SPeter Maydell {
42378b6eaa6SPeter Maydell assert(s->in_transaction);
42478b6eaa6SPeter Maydell /*
42578b6eaa6SPeter Maydell * We must loop here because ptimer_reload() can call the callback
42678b6eaa6SPeter Maydell * function, which might then update ptimer state in a way that
42778b6eaa6SPeter Maydell * means we need to do another reload and possibly another callback.
42878b6eaa6SPeter Maydell * A disabled timer never needs reloading (and if we don't check
42978b6eaa6SPeter Maydell * this then we loop forever if ptimer_reload() disables the timer).
43078b6eaa6SPeter Maydell */
43178b6eaa6SPeter Maydell while (s->need_reload && s->enabled) {
43278b6eaa6SPeter Maydell s->need_reload = false;
43378b6eaa6SPeter Maydell s->next_event = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL);
43478b6eaa6SPeter Maydell ptimer_reload(s, 0);
43578b6eaa6SPeter Maydell }
43678b6eaa6SPeter Maydell /* Now we've finished reload we can leave the transaction block. */
43778b6eaa6SPeter Maydell s->in_transaction = false;
43878b6eaa6SPeter Maydell }
43978b6eaa6SPeter Maydell
440852f771eSJuan Quintela const VMStateDescription vmstate_ptimer = {
44155a6e51fSBlue Swirl .name = "ptimer",
442852f771eSJuan Quintela .version_id = 1,
443852f771eSJuan Quintela .minimum_version_id = 1,
444f55f1a49SRichard Henderson .fields = (const VMStateField[]) {
445852f771eSJuan Quintela VMSTATE_UINT8(enabled, ptimer_state),
446852f771eSJuan Quintela VMSTATE_UINT64(limit, ptimer_state),
447852f771eSJuan Quintela VMSTATE_UINT64(delta, ptimer_state),
448852f771eSJuan Quintela VMSTATE_UINT32(period_frac, ptimer_state),
449852f771eSJuan Quintela VMSTATE_INT64(period, ptimer_state),
450852f771eSJuan Quintela VMSTATE_INT64(last_event, ptimer_state),
451852f771eSJuan Quintela VMSTATE_INT64(next_event, ptimer_state),
452e720677eSPaolo Bonzini VMSTATE_TIMER_PTR(timer, ptimer_state),
453852f771eSJuan Quintela VMSTATE_END_OF_LIST()
454852f771eSJuan Quintela }
45555a6e51fSBlue Swirl };
45655a6e51fSBlue Swirl
ptimer_init(ptimer_cb callback,void * callback_opaque,uint8_t policy_mask)45778b6eaa6SPeter Maydell ptimer_state *ptimer_init(ptimer_cb callback, void *callback_opaque,
45878b6eaa6SPeter Maydell uint8_t policy_mask)
45978b6eaa6SPeter Maydell {
46078b6eaa6SPeter Maydell ptimer_state *s;
46178b6eaa6SPeter Maydell
462af2a580fSPeter Maydell /* The callback function is mandatory. */
46378b6eaa6SPeter Maydell assert(callback);
46478b6eaa6SPeter Maydell
46578b6eaa6SPeter Maydell s = g_new0(ptimer_state, 1);
46678b6eaa6SPeter Maydell s->timer = timer_new_ns(QEMU_CLOCK_VIRTUAL, ptimer_tick, s);
46778b6eaa6SPeter Maydell s->policy_mask = policy_mask;
46878b6eaa6SPeter Maydell s->callback = callback;
46978b6eaa6SPeter Maydell s->callback_opaque = callback_opaque;
47078b6eaa6SPeter Maydell
47178b6eaa6SPeter Maydell /*
47278b6eaa6SPeter Maydell * These two policies are incompatible -- trigger-on-decrement implies
47378b6eaa6SPeter Maydell * a timer trigger when the count becomes 0, but no-immediate-trigger
47478b6eaa6SPeter Maydell * implies a trigger when the count stops being 0.
47578b6eaa6SPeter Maydell */
47678b6eaa6SPeter Maydell assert(!((policy_mask & PTIMER_POLICY_TRIGGER_ONLY_ON_DECREMENT) &&
47778b6eaa6SPeter Maydell (policy_mask & PTIMER_POLICY_NO_IMMEDIATE_TRIGGER)));
47878b6eaa6SPeter Maydell return s;
47978b6eaa6SPeter Maydell }
48078b6eaa6SPeter Maydell
ptimer_free(ptimer_state * s)481072bdb07SMarc-André Lureau void ptimer_free(ptimer_state *s)
482072bdb07SMarc-André Lureau {
483072bdb07SMarc-André Lureau timer_free(s->timer);
484072bdb07SMarc-André Lureau g_free(s);
485072bdb07SMarc-André Lureau }
486