#include <assert.h>
#include <sys/queue.h>
-#include <rte_atomic.h>
#include <rte_common.h>
#include <rte_cycles.h>
+#include <rte_eal_memconfig.h>
#include <rte_per_lcore.h>
#include <rte_memory.h>
#include <rte_launch.h>
#include <rte_pause.h>
#include <rte_memzone.h>
#include <rte_malloc.h>
-#include <rte_compat.h>
#include <rte_errno.h>
#include "rte_timer.h"
};
#define RTE_MAX_DATA_ELS 64
+static const struct rte_memzone *rte_timer_data_mz;
+static int *volatile rte_timer_mz_refcnt;
static struct rte_timer_data *rte_timer_data_arr;
static const uint32_t default_data_id;
static uint32_t rte_timer_subsystem_initialized;
-/* For maintaining older interfaces for a period */
-static struct rte_timer_data default_timer_data;
-
/* when debug is enabled, store some statistics */
#ifdef RTE_LIBRTE_TIMER_DEBUG
#define __TIMER_STAT_ADD(priv_timer, name, n) do { \
static inline int
timer_data_valid(uint32_t id)
{
- return !!(rte_timer_data_arr[id].internal_flags & FL_ALLOCATED);
+ return rte_timer_data_arr &&
+ (rte_timer_data_arr[id].internal_flags & FL_ALLOCATED);
}
/* validate ID and retrieve timer data pointer, or return error value */
return 0;
}
-void
-rte_timer_subsystem_init_v20(void)
-{
- unsigned lcore_id;
- struct priv_timer *priv_timer = default_timer_data.priv_timer;
-
- /* since priv_timer is static, it's zeroed by default, so only init some
- * fields.
- */
- for (lcore_id = 0; lcore_id < RTE_MAX_LCORE; lcore_id ++) {
- rte_spinlock_init(&priv_timer[lcore_id].list_lock);
- priv_timer[lcore_id].prev_lcore = lcore_id;
- }
-}
-VERSION_SYMBOL(rte_timer_subsystem_init, _v20, 2.0);
-
/* Init the timer library. Allocate an array of timer data structs in shared
* memory, and allocate the zeroth entry for use with original timer
* APIs. Since the intersection of the sets of lcore ids in primary and
* multiple processes.
*/
int
-rte_timer_subsystem_init_v1905(void)
+rte_timer_subsystem_init(void)
{
const struct rte_memzone *mz;
struct rte_timer_data *data;
int i, lcore_id;
static const char *mz_name = "rte_timer_mz";
const size_t data_arr_size =
- RTE_MAX_DATA_ELS * sizeof(*rte_timer_data_arr);
+ RTE_MAX_DATA_ELS * sizeof(*rte_timer_data_arr);
+ const size_t mem_size = data_arr_size + sizeof(*rte_timer_mz_refcnt);
bool do_full_init = true;
- if (rte_timer_subsystem_initialized)
+ rte_mcfg_timer_lock();
+
+ if (rte_timer_subsystem_initialized) {
+ rte_mcfg_timer_unlock();
return -EALREADY;
+ }
-reserve:
- rte_errno = 0;
- mz = rte_memzone_reserve_aligned(mz_name, data_arr_size, SOCKET_ID_ANY,
- 0, RTE_CACHE_LINE_SIZE);
+ mz = rte_memzone_lookup(mz_name);
if (mz == NULL) {
- if (rte_errno == EEXIST) {
- mz = rte_memzone_lookup(mz_name);
- if (mz == NULL)
- goto reserve;
-
- do_full_init = false;
- } else
+ mz = rte_memzone_reserve_aligned(mz_name, mem_size,
+ SOCKET_ID_ANY, 0, RTE_CACHE_LINE_SIZE);
+ if (mz == NULL) {
+ rte_mcfg_timer_unlock();
return -ENOMEM;
- }
+ }
+ do_full_init = true;
+ } else
+ do_full_init = false;
+ rte_timer_data_mz = mz;
rte_timer_data_arr = mz->addr;
+ rte_timer_mz_refcnt = (void *)((char *)mz->addr + data_arr_size);
if (do_full_init) {
for (i = 0; i < RTE_MAX_DATA_ELS; i++) {
}
rte_timer_data_arr[default_data_id].internal_flags |= FL_ALLOCATED;
+ (*rte_timer_mz_refcnt)++;
rte_timer_subsystem_initialized = 1;
+ rte_mcfg_timer_unlock();
+
return 0;
}
-MAP_STATIC_SYMBOL(int rte_timer_subsystem_init(void),
- rte_timer_subsystem_init_v1905);
-BIND_DEFAULT_SYMBOL(rte_timer_subsystem_init, _v1905, 19.05);
void
rte_timer_subsystem_finalize(void)
{
- if (!rte_timer_subsystem_initialized)
+ rte_mcfg_timer_lock();
+
+ if (!rte_timer_subsystem_initialized) {
+ rte_mcfg_timer_unlock();
return;
+ }
+
+ if (--(*rte_timer_mz_refcnt) == 0)
+ rte_memzone_free(rte_timer_data_mz);
rte_timer_subsystem_initialized = 0;
+
+ rte_mcfg_timer_unlock();
}
/* Initialize the timer handle tim for use */
status.state = RTE_TIMER_STOP;
status.owner = RTE_TIMER_NO_OWNER;
- tim->status.u32 = status.u32;
+ __atomic_store_n(&tim->status.u32, status.u32, __ATOMIC_RELAXED);
}
/*
/* wait that the timer is in correct status before update,
* and mark it as being configured */
- while (success == 0) {
- prev_status.u32 = tim->status.u32;
+ prev_status.u32 = __atomic_load_n(&tim->status.u32, __ATOMIC_RELAXED);
+ while (success == 0) {
/* timer is running on another core
* or ready to run on local core, exit
*/
* mark it atomically as being configured */
status.state = RTE_TIMER_CONFIG;
status.owner = (int16_t)lcore_id;
- success = rte_atomic32_cmpset(&tim->status.u32,
- prev_status.u32,
- status.u32);
+ /* CONFIG states are acting as locked states. If the
+ * timer is in CONFIG state, the state cannot be changed
+ * by other threads. So, we should use ACQUIRE here.
+ */
+ success = __atomic_compare_exchange_n(&tim->status.u32,
+ &prev_status.u32,
+ status.u32, 0,
+ __ATOMIC_ACQUIRE,
+ __ATOMIC_RELAXED);
}
ret_prev_status->u32 = prev_status.u32;
/* wait that the timer is in correct status before update,
* and mark it as running */
- while (success == 0) {
- prev_status.u32 = tim->status.u32;
+ prev_status.u32 = __atomic_load_n(&tim->status.u32, __ATOMIC_RELAXED);
+ while (success == 0) {
/* timer is not pending anymore */
if (prev_status.state != RTE_TIMER_PENDING)
return -1;
- /* here, we know that timer is stopped or pending,
- * mark it atomically as being configured */
+ /* we know that the timer will be pending at this point
+ * mark it atomically as being running
+ */
status.state = RTE_TIMER_RUNNING;
status.owner = (int16_t)lcore_id;
- success = rte_atomic32_cmpset(&tim->status.u32,
- prev_status.u32,
- status.u32);
+ /* RUNNING states are acting as locked states. If the
+ * timer is in RUNNING state, the state cannot be changed
+ * by other threads. So, we should use ACQUIRE here.
+ */
+ success = __atomic_compare_exchange_n(&tim->status.u32,
+ &prev_status.u32,
+ status.u32, 0,
+ __ATOMIC_ACQUIRE,
+ __ATOMIC_RELAXED);
}
return 0;
/* update state: as we are in CONFIG state, only us can modify
* the state so we don't need to use cmpset() here */
- rte_wmb();
status.state = RTE_TIMER_PENDING;
status.owner = (int16_t)tim_lcore;
- tim->status.u32 = status.u32;
+ /* The "RELEASE" ordering guarantees the memory operations above
+ * the status update are observed before the update by all threads
+ */
+ __atomic_store_n(&tim->status.u32, status.u32, __ATOMIC_RELEASE);
if (tim_lcore != lcore_id || !local_is_locked)
rte_spinlock_unlock(&priv_timer[tim_lcore].list_lock);
/* Reset and start the timer associated with the timer handle tim */
int
-rte_timer_reset_v20(struct rte_timer *tim, uint64_t ticks,
- enum rte_timer_type type, unsigned int tim_lcore,
- rte_timer_cb_t fct, void *arg)
-{
- uint64_t cur_time = rte_get_timer_cycles();
- uint64_t period;
-
- if (unlikely((tim_lcore != (unsigned)LCORE_ID_ANY) &&
- !(rte_lcore_is_enabled(tim_lcore) ||
- rte_lcore_has_role(tim_lcore, ROLE_SERVICE))))
- return -1;
-
- if (type == PERIODICAL)
- period = ticks;
- else
- period = 0;
-
- return __rte_timer_reset(tim, cur_time + ticks, period, tim_lcore,
- fct, arg, 0, &default_timer_data);
-}
-VERSION_SYMBOL(rte_timer_reset, _v20, 2.0);
-
-int
-rte_timer_reset_v1905(struct rte_timer *tim, uint64_t ticks,
+rte_timer_reset(struct rte_timer *tim, uint64_t ticks,
enum rte_timer_type type, unsigned int tim_lcore,
rte_timer_cb_t fct, void *arg)
{
return rte_timer_alt_reset(default_data_id, tim, ticks, type,
tim_lcore, fct, arg);
}
-MAP_STATIC_SYMBOL(int rte_timer_reset(struct rte_timer *tim, uint64_t ticks,
- enum rte_timer_type type,
- unsigned int tim_lcore,
- rte_timer_cb_t fct, void *arg),
- rte_timer_reset_v1905);
-BIND_DEFAULT_SYMBOL(rte_timer_reset, _v1905, 19.05);
int
rte_timer_alt_reset(uint32_t timer_data_id, struct rte_timer *tim,
}
/* mark timer as stopped */
- rte_wmb();
status.state = RTE_TIMER_STOP;
status.owner = RTE_TIMER_NO_OWNER;
- tim->status.u32 = status.u32;
+ /* The "RELEASE" ordering guarantees the memory operations above
+ * the status update are observed before the update by all threads
+ */
+ __atomic_store_n(&tim->status.u32, status.u32, __ATOMIC_RELEASE);
return 0;
}
/* Stop the timer associated with the timer handle tim */
int
-rte_timer_stop_v20(struct rte_timer *tim)
-{
- return __rte_timer_stop(tim, 0, &default_timer_data);
-}
-VERSION_SYMBOL(rte_timer_stop, _v20, 2.0);
-
-int
-rte_timer_stop_v1905(struct rte_timer *tim)
+rte_timer_stop(struct rte_timer *tim)
{
return rte_timer_alt_stop(default_data_id, tim);
}
-MAP_STATIC_SYMBOL(int rte_timer_stop(struct rte_timer *tim),
- rte_timer_stop_v1905);
-BIND_DEFAULT_SYMBOL(rte_timer_stop, _v1905, 19.05);
int
rte_timer_alt_stop(uint32_t timer_data_id, struct rte_timer *tim)
int
rte_timer_pending(struct rte_timer *tim)
{
- return tim->status.state == RTE_TIMER_PENDING;
+ return __atomic_load_n(&tim->status.state,
+ __ATOMIC_RELAXED) == RTE_TIMER_PENDING;
}
/* must be called periodically, run all timer that expired */
/* remove from done list and mark timer as stopped */
status.state = RTE_TIMER_STOP;
status.owner = RTE_TIMER_NO_OWNER;
- rte_wmb();
- tim->status.u32 = status.u32;
+ /* The "RELEASE" ordering guarantees the memory
+ * operations above the status update are observed
+ * before the update by all threads
+ */
+ __atomic_store_n(&tim->status.u32, status.u32,
+ __ATOMIC_RELEASE);
}
else {
/* keep it in list and mark timer as pending */
status.state = RTE_TIMER_PENDING;
__TIMER_STAT_ADD(priv_timer, pending, 1);
status.owner = (int16_t)lcore_id;
- rte_wmb();
- tim->status.u32 = status.u32;
+ /* The "RELEASE" ordering guarantees the memory
+ * operations above the status update are observed
+ * before the update by all threads
+ */
+ __atomic_store_n(&tim->status.u32, status.u32,
+ __ATOMIC_RELEASE);
__rte_timer_reset(tim, tim->expire + tim->period,
tim->period, lcore_id, tim->f, tim->arg, 1,
timer_data);
priv_timer[lcore_id].running_tim = NULL;
}
-void
-rte_timer_manage_v20(void)
-{
- __rte_timer_manage(&default_timer_data);
-}
-VERSION_SYMBOL(rte_timer_manage, _v20, 2.0);
-
int
-rte_timer_manage_v1905(void)
+rte_timer_manage(void)
{
struct rte_timer_data *timer_data;
return 0;
}
-MAP_STATIC_SYMBOL(int rte_timer_manage(void), rte_timer_manage_v1905);
-BIND_DEFAULT_SYMBOL(rte_timer_manage, _v1905, 19.05);
int
rte_timer_alt_manage(uint32_t timer_data_id,
/* remove from done list and mark timer as stopped */
status.state = RTE_TIMER_STOP;
status.owner = RTE_TIMER_NO_OWNER;
- rte_wmb();
- tim->status.u32 = status.u32;
+ /* The "RELEASE" ordering guarantees the memory
+ * operations above the status update are observed
+ * before the update by all threads
+ */
+ __atomic_store_n(&tim->status.u32, status.u32,
+ __ATOMIC_RELEASE);
} else {
/* keep it in list and mark timer as pending */
rte_spinlock_lock(
status.state = RTE_TIMER_PENDING;
__TIMER_STAT_ADD(data->priv_timer, pending, 1);
status.owner = (int16_t)this_lcore;
- rte_wmb();
- tim->status.u32 = status.u32;
+ /* The "RELEASE" ordering guarantees the memory
+ * operations above the status update are observed
+ * before the update by all threads
+ */
+ __atomic_store_n(&tim->status.u32, status.u32,
+ __ATOMIC_RELEASE);
__rte_timer_reset(tim, tim->expire + tim->period,
tim->period, this_lcore, tim->f, tim->arg, 1,
data);
return 0;
}
+int64_t
+rte_timer_next_ticks(void)
+{
+ unsigned int lcore_id = rte_lcore_id();
+ struct rte_timer_data *timer_data;
+ struct priv_timer *priv_timer;
+ const struct rte_timer *tm;
+ uint64_t cur_time;
+ int64_t left = -ENOENT;
+
+ TIMER_DATA_VALID_GET_OR_ERR_RET(default_data_id, timer_data, -EINVAL);
+
+ priv_timer = timer_data->priv_timer;
+ cur_time = rte_get_timer_cycles();
+
+ rte_spinlock_lock(&priv_timer[lcore_id].list_lock);
+ tm = priv_timer[lcore_id].pending_head.sl_next[0];
+ if (tm) {
+ left = tm->expire - cur_time;
+ if (left < 0)
+ left = 0;
+ }
+ rte_spinlock_unlock(&priv_timer[lcore_id].list_lock);
+
+ return left;
+}
+
/* dump statistics about timers */
static void
__rte_timer_dump_stats(struct rte_timer_data *timer_data __rte_unused, FILE *f)
#endif
}
-void
-rte_timer_dump_stats_v20(FILE *f)
-{
- __rte_timer_dump_stats(&default_timer_data, f);
-}
-VERSION_SYMBOL(rte_timer_dump_stats, _v20, 2.0);
-
int
-rte_timer_dump_stats_v1905(FILE *f)
+rte_timer_dump_stats(FILE *f)
{
return rte_timer_alt_dump_stats(default_data_id, f);
}
-MAP_STATIC_SYMBOL(int rte_timer_dump_stats(FILE *f),
- rte_timer_dump_stats_v1905);
-BIND_DEFAULT_SYMBOL(rte_timer_dump_stats, _v1905, 19.05);
int
rte_timer_alt_dump_stats(uint32_t timer_data_id __rte_unused, FILE *f)