#include <rte_branch_prediction.h>
#include <rte_spinlock.h>
#include <rte_random.h>
+#include <rte_pause.h>
#include "rte_timer.h"
unsigned prev_lcore; /**< used for lcore round robin */
+ /** running timer on this lcore now */
+ struct rte_timer *running_tim;
+
#ifdef RTE_LIBRTE_TIMER_DEBUG
/** per-lcore statistics */
struct rte_timer_debug_stats stats;
while (success == 0) {
prev_status.u32 = tim->status.u32;
- /* timer is running on another core, exit */
+ /* timer is running on another core
+ * or ready to run on local core, exit
+ */
if (prev_status.state == RTE_TIMER_RUNNING &&
- prev_status.owner != (uint16_t)lcore_id)
+ (prev_status.owner != (uint16_t)lcore_id ||
+ tim != priv_timer[lcore_id].running_tim))
return -1;
/* timer is being configured on another core */
return -1;
/* here, we know that timer is stopped or pending,
- * mark it atomically as beeing configured */
+ * mark it atomically as being configured */
status.state = RTE_TIMER_RUNNING;
status.owner = (int16_t)lcore_id;
success = rte_atomic32_cmpset(&tim->status.u32,
for (tim = run_first_tim; tim != NULL; tim = next_tim) {
next_tim = tim->sl_next[0];
priv_timer[lcore_id].updated = 0;
+ priv_timer[lcore_id].running_tim = tim;
/* execute callback function with list unlocked */
tim->f(tim, tim->arg);
status.owner = (int16_t)lcore_id;
rte_wmb();
tim->status.u32 = status.u32;
- __rte_timer_reset(tim, cur_time + tim->period,
+ __rte_timer_reset(tim, tim->expire + tim->period,
tim->period, lcore_id, tim->f, tim->arg, 1);
rte_spinlock_unlock(&priv_timer[lcore_id].list_lock);
}
}
+ priv_timer[lcore_id].running_tim = NULL;
}
/* dump statistics about timers */