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authorPaolo Bonzini <pbonzini@redhat.com>2012-08-02 18:04:11 +0200
committerAnthony Liguori <aliguori@us.ibm.com>2012-09-10 13:52:28 -0500
commit00cf57747db98c6a9e4219cea39ac3113dde6993 (patch)
tree7245e946c73e2989f2d8bad3af1d93b12ecc94b8 /hw/mc146818rtc.c
parent41a9b8b24d59acec462b0d8e0d2a7ffce6031d55 (diff)
RTC: Do not fire timer periodically to catch next alarm
This patch limits further the usage of a periodic timer. It computes the time of the next alarm, and uses it to skip all intermediate occurrences of the timer. Cc: Yang Zhang <yang.z.zhang@intel.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com> Signed-off-by: Anthony Liguori <aliguori@us.ibm.com>
Diffstat (limited to 'hw/mc146818rtc.c')
-rw-r--r--hw/mc146818rtc.c117
1 files changed, 103 insertions, 14 deletions
diff --git a/hw/mc146818rtc.c b/hw/mc146818rtc.c
index cb65c4f9ea..9d530a8a12 100644
--- a/hw/mc146818rtc.c
+++ b/hw/mc146818rtc.c
@@ -46,6 +46,11 @@
#endif
#define NSEC_PER_SEC 1000000000LL
+#define SEC_PER_MIN 60
+#define MIN_PER_HOUR 60
+#define SEC_PER_HOUR 3600
+#define HOUR_PER_DAY 24
+#define SEC_PER_DAY 86400
#define RTC_REINJECT_ON_ACK_COUNT 20
#define RTC_CLOCK_RATE 32768
@@ -69,6 +74,7 @@ typedef struct RTCState {
int64_t next_periodic_time;
/* update-ended timer */
QEMUTimer *update_timer;
+ uint64_t next_alarm_time;
uint16_t irq_reinject_on_ack_count;
uint32_t irq_coalesced;
uint32_t period;
@@ -82,6 +88,7 @@ static void rtc_set_time(RTCState *s);
static void rtc_update_time(RTCState *s);
static void rtc_set_cmos(RTCState *s);
static inline int rtc_from_bcd(RTCState *s, int a);
+static uint64_t get_next_alarm(RTCState *s);
static inline bool rtc_running(RTCState *s)
{
@@ -204,6 +211,7 @@ static void check_update_timer(RTCState *s)
{
uint64_t next_update_time;
uint64_t guest_nsec;
+ int next_alarm_sec;
/* From the data sheet: "Holding the dividers in reset prevents
* interrupts from operating, while setting the SET bit allows"
@@ -226,9 +234,21 @@ static void check_update_timer(RTCState *s)
}
guest_nsec = get_guest_rtc_ns(s) % NSEC_PER_SEC;
- /* reprogram to next second */
+ /* if UF is clear, reprogram to next second */
next_update_time = qemu_get_clock_ns(rtc_clock)
+ NSEC_PER_SEC - guest_nsec;
+
+ /* Compute time of next alarm. One second is already accounted
+ * for in next_update_time.
+ */
+ next_alarm_sec = get_next_alarm(s);
+ s->next_alarm_time = next_update_time + (next_alarm_sec - 1) * NSEC_PER_SEC;
+
+ if (s->cmos_data[RTC_REG_C] & REG_C_UF) {
+ /* UF is set, but AF is clear. Program the timer to target
+ * the alarm time. */
+ next_update_time = s->next_alarm_time;
+ }
if (next_update_time != qemu_timer_expire_time_ns(s->update_timer)) {
qemu_mod_timer(s->update_timer, next_update_time);
}
@@ -245,31 +265,95 @@ static inline uint8_t convert_hour(RTCState *s, uint8_t hour)
return hour;
}
-static uint32_t check_alarm(RTCState *s)
+static uint64_t get_next_alarm(RTCState *s)
{
- uint8_t alarm_hour, alarm_min, alarm_sec;
- uint8_t cur_hour, cur_min, cur_sec;
+ int32_t alarm_sec, alarm_min, alarm_hour, cur_hour, cur_min, cur_sec;
+ int32_t hour, min, sec;
+
+ rtc_update_time(s);
alarm_sec = rtc_from_bcd(s, s->cmos_data[RTC_SECONDS_ALARM]);
alarm_min = rtc_from_bcd(s, s->cmos_data[RTC_MINUTES_ALARM]);
alarm_hour = rtc_from_bcd(s, s->cmos_data[RTC_HOURS_ALARM]);
- alarm_hour = convert_hour(s, alarm_hour);
+ alarm_hour = alarm_hour == -1 ? -1 : convert_hour(s, alarm_hour);
cur_sec = rtc_from_bcd(s, s->cmos_data[RTC_SECONDS]);
cur_min = rtc_from_bcd(s, s->cmos_data[RTC_MINUTES]);
cur_hour = rtc_from_bcd(s, s->cmos_data[RTC_HOURS]);
cur_hour = convert_hour(s, cur_hour);
- if (((s->cmos_data[RTC_SECONDS_ALARM] & 0xc0) == 0xc0
- || alarm_sec == cur_sec) &&
- ((s->cmos_data[RTC_MINUTES_ALARM] & 0xc0) == 0xc0
- || alarm_min == cur_min) &&
- ((s->cmos_data[RTC_HOURS_ALARM] & 0xc0) == 0xc0
- || alarm_hour == cur_hour)) {
- return 1;
+ if (alarm_hour == -1) {
+ alarm_hour = cur_hour;
+ if (alarm_min == -1) {
+ alarm_min = cur_min;
+ if (alarm_sec == -1) {
+ alarm_sec = cur_sec + 1;
+ } else if (cur_sec > alarm_sec) {
+ alarm_min++;
+ }
+ } else if (cur_min == alarm_min) {
+ if (alarm_sec == -1) {
+ alarm_sec = cur_sec + 1;
+ } else {
+ if (cur_sec > alarm_sec) {
+ alarm_hour++;
+ }
+ }
+ if (alarm_sec == SEC_PER_MIN) {
+ /* wrap to next hour, minutes is not in don't care mode */
+ alarm_sec = 0;
+ alarm_hour++;
+ }
+ } else if (cur_min > alarm_min) {
+ alarm_hour++;
+ }
+ } else if (cur_hour == alarm_hour) {
+ if (alarm_min == -1) {
+ alarm_min = cur_min;
+ if (alarm_sec == -1) {
+ alarm_sec = cur_sec + 1;
+ } else if (cur_sec > alarm_sec) {
+ alarm_min++;
+ }
+
+ if (alarm_sec == SEC_PER_MIN) {
+ alarm_sec = 0;
+ alarm_min++;
+ }
+ /* wrap to next day, hour is not in don't care mode */
+ alarm_min %= MIN_PER_HOUR;
+ } else if (cur_min == alarm_min) {
+ if (alarm_sec == -1) {
+ alarm_sec = cur_sec + 1;
+ }
+ /* wrap to next day, hours+minutes not in don't care mode */
+ alarm_sec %= SEC_PER_MIN;
+ }
}
- return 0;
+ /* values that are still don't care fire at the next min/sec */
+ if (alarm_min == -1) {
+ alarm_min = 0;
+ }
+ if (alarm_sec == -1) {
+ alarm_sec = 0;
+ }
+
+ /* keep values in range */
+ if (alarm_sec == SEC_PER_MIN) {
+ alarm_sec = 0;
+ alarm_min++;
+ }
+ if (alarm_min == MIN_PER_HOUR) {
+ alarm_min = 0;
+ alarm_hour++;
+ }
+ alarm_hour %= HOUR_PER_DAY;
+
+ hour = alarm_hour - cur_hour;
+ min = hour * MIN_PER_HOUR + alarm_min - cur_min;
+ sec = min * SEC_PER_MIN + alarm_sec - cur_sec;
+ return sec <= 0 ? sec + SEC_PER_DAY : sec;
}
static void rtc_update_timer(void *opaque)
@@ -284,12 +368,13 @@ static void rtc_update_timer(void *opaque)
rtc_update_time(s);
s->cmos_data[RTC_REG_A] &= ~REG_A_UIP;
- if (check_alarm(s)) {
+ if (qemu_get_clock_ns(rtc_clock) >= s->next_alarm_time) {
irqs |= REG_C_AF;
if (s->cmos_data[RTC_REG_B] & REG_B_AIE) {
qemu_system_wakeup_request(QEMU_WAKEUP_REASON_RTC);
}
}
+
new_irqs = irqs & ~s->cmos_data[RTC_REG_C];
s->cmos_data[RTC_REG_C] |= irqs;
if ((new_irqs & s->cmos_data[RTC_REG_B]) != 0) {
@@ -407,6 +492,9 @@ static inline int rtc_to_bcd(RTCState *s, int a)
static inline int rtc_from_bcd(RTCState *s, int a)
{
+ if ((a & 0xc0) == 0xc0) {
+ return -1;
+ }
if (s->cmos_data[RTC_REG_B] & REG_B_DM) {
return a;
} else {
@@ -642,6 +730,7 @@ static const VMStateDescription vmstate_rtc = {
VMSTATE_UINT64_V(last_update, RTCState, 3),
VMSTATE_INT64_V(offset, RTCState, 3),
VMSTATE_TIMER_V(update_timer, RTCState, 3),
+ VMSTATE_UINT64_V(next_alarm_time, RTCState, 3),
VMSTATE_END_OF_LIST()
}
};