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/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2015-2016 Intel Corporation
*/
#include <inttypes.h>
#include <rte_common.h>
#include <rte_cycles.h>
#include <rte_lcore.h>
#include <rte_log.h>
#include <rte_keepalive.h>
#include <rte_malloc.h>
struct rte_keepalive {
/** Core Liveness. */
struct {
/*
* Each element must be cache aligned to prevent false sharing.
*/
enum rte_keepalive_state core_state __rte_cache_aligned;
} live_data[RTE_KEEPALIVE_MAXCORES];
/** Last-seen-alive timestamps */
uint64_t last_alive[RTE_KEEPALIVE_MAXCORES];
/**
* Cores to check.
* Indexed by core id, non-zero if the core should be checked.
*/
uint8_t active_cores[RTE_KEEPALIVE_MAXCORES];
/** Dead core handler. */
rte_keepalive_failure_callback_t callback;
/**
* Dead core handler app data.
* Pointer is passed to dead core handler.
*/
void *callback_data;
uint64_t tsc_initial;
uint64_t tsc_mhz;
/** Core state relay handler. */
rte_keepalive_relay_callback_t relay_callback;
/**
* Core state relay handler app data.
* Pointer is passed to live core handler.
*/
void *relay_callback_data;
};
static void
print_trace(const char *msg, struct rte_keepalive *keepcfg, int idx_core)
{
RTE_LOG(INFO, EAL, "%sLast seen %" PRId64 "ms ago.\n",
msg,
((rte_rdtsc() - keepcfg->last_alive[idx_core])*1000)
/ rte_get_tsc_hz()
);
}
void
rte_keepalive_dispatch_pings(__rte_unused void *ptr_timer,
void *ptr_data)
{
struct rte_keepalive *keepcfg = ptr_data;
int idx_core;
for (idx_core = 0; idx_core < RTE_KEEPALIVE_MAXCORES; idx_core++) {
if (keepcfg->active_cores[idx_core] == 0)
continue;
switch (keepcfg->live_data[idx_core].core_state) {
case RTE_KA_STATE_UNUSED:
break;
case RTE_KA_STATE_ALIVE: /* Alive */
keepcfg->live_data[idx_core].core_state =
RTE_KA_STATE_MISSING;
keepcfg->last_alive[idx_core] = rte_rdtsc();
break;
case RTE_KA_STATE_MISSING: /* MIA */
print_trace("Core MIA. ", keepcfg, idx_core);
keepcfg->live_data[idx_core].core_state =
RTE_KA_STATE_DEAD;
break;
case RTE_KA_STATE_DEAD: /* Dead */
keepcfg->live_data[idx_core].core_state =
RTE_KA_STATE_GONE;
print_trace("Core died. ", keepcfg, idx_core);
if (keepcfg->callback)
keepcfg->callback(
keepcfg->callback_data,
idx_core
);
break;
case RTE_KA_STATE_GONE: /* Buried */
break;
case RTE_KA_STATE_DOZING: /* Core going idle */
keepcfg->live_data[idx_core].core_state =
RTE_KA_STATE_SLEEP;
keepcfg->last_alive[idx_core] = rte_rdtsc();
break;
case RTE_KA_STATE_SLEEP: /* Idled core */
break;
}
if (keepcfg->relay_callback)
keepcfg->relay_callback(
keepcfg->relay_callback_data,
idx_core,
keepcfg->live_data[idx_core].core_state,
keepcfg->last_alive[idx_core]
);
}
}
struct rte_keepalive *
rte_keepalive_create(rte_keepalive_failure_callback_t callback,
void *data)
{
struct rte_keepalive *keepcfg;
keepcfg = rte_zmalloc("RTE_EAL_KEEPALIVE",
sizeof(struct rte_keepalive),
RTE_CACHE_LINE_SIZE);
if (keepcfg != NULL) {
keepcfg->callback = callback;
keepcfg->callback_data = data;
keepcfg->tsc_initial = rte_rdtsc();
keepcfg->tsc_mhz = rte_get_tsc_hz() / 1000;
}
return keepcfg;
}
void rte_keepalive_register_relay_callback(struct rte_keepalive *keepcfg,
rte_keepalive_relay_callback_t callback,
void *data)
{
keepcfg->relay_callback = callback;
keepcfg->relay_callback_data = data;
}
void
rte_keepalive_register_core(struct rte_keepalive *keepcfg, const int id_core)
{
if (id_core < RTE_KEEPALIVE_MAXCORES) {
keepcfg->active_cores[id_core] = RTE_KA_STATE_ALIVE;
keepcfg->last_alive[id_core] = rte_rdtsc();
}
}
void
rte_keepalive_mark_alive(struct rte_keepalive *keepcfg)
{
keepcfg->live_data[rte_lcore_id()].core_state = RTE_KA_STATE_ALIVE;
}
void
rte_keepalive_mark_sleep(struct rte_keepalive *keepcfg)
{
keepcfg->live_data[rte_lcore_id()].core_state = RTE_KA_STATE_DOZING;
}
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