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|
/* SPDX-License-Identifier: BSD-3-Clause
* Copyright(c) 2017-2018 Intel Corporation.
* All rights reserved.
*/
#include <string.h>
#include <inttypes.h>
#include <stdbool.h>
#include <sys/queue.h>
#include <rte_memzone.h>
#include <rte_memory.h>
#include <rte_dev.h>
#include <rte_errno.h>
#include <rte_malloc.h>
#include <rte_ring.h>
#include <rte_mempool.h>
#include <rte_common.h>
#include <rte_timer.h>
#include <rte_service_component.h>
#include <rte_cycles.h>
#include "rte_eventdev.h"
#include "rte_eventdev_pmd.h"
#include "rte_event_timer_adapter.h"
#include "rte_event_timer_adapter_pmd.h"
#define DATA_MZ_NAME_MAX_LEN 64
#define DATA_MZ_NAME_FORMAT "rte_event_timer_adapter_data_%d"
static int evtim_logtype;
static int evtim_svc_logtype;
static int evtim_buffer_logtype;
static struct rte_event_timer_adapter adapters[RTE_EVENT_TIMER_ADAPTER_NUM_MAX];
static const struct rte_event_timer_adapter_ops sw_event_adapter_timer_ops;
#define EVTIM_LOG(level, logtype, ...) \
rte_log(RTE_LOG_ ## level, logtype, \
RTE_FMT("EVTIMER: %s() line %u: " RTE_FMT_HEAD(__VA_ARGS__,) \
"\n", __func__, __LINE__, RTE_FMT_TAIL(__VA_ARGS__,)))
#define EVTIM_LOG_ERR(...) EVTIM_LOG(ERR, evtim_logtype, __VA_ARGS__)
#ifdef RTE_LIBRTE_EVENTDEV_DEBUG
#define EVTIM_LOG_DBG(...) \
EVTIM_LOG(DEBUG, evtim_logtype, __VA_ARGS__)
#define EVTIM_BUF_LOG_DBG(...) \
EVTIM_LOG(DEBUG, evtim_buffer_logtype, __VA_ARGS__)
#define EVTIM_SVC_LOG_DBG(...) \
EVTIM_LOG(DEBUG, evtim_svc_logtype, __VA_ARGS__)
#else
#define EVTIM_LOG_DBG(...) (void)0
#define EVTIM_BUF_LOG_DBG(...) (void)0
#define EVTIM_SVC_LOG_DBG(...) (void)0
#endif
static int
default_port_conf_cb(uint16_t id, uint8_t event_dev_id, uint8_t *event_port_id,
void *conf_arg)
{
struct rte_event_timer_adapter *adapter;
struct rte_eventdev *dev;
struct rte_event_dev_config dev_conf;
struct rte_event_port_conf *port_conf, def_port_conf = {0};
int started;
uint8_t port_id;
uint8_t dev_id;
int ret;
RTE_SET_USED(event_dev_id);
adapter = &adapters[id];
dev = &rte_eventdevs[adapter->data->event_dev_id];
dev_id = dev->data->dev_id;
dev_conf = dev->data->dev_conf;
started = dev->data->dev_started;
if (started)
rte_event_dev_stop(dev_id);
port_id = dev_conf.nb_event_ports;
dev_conf.nb_event_ports += 1;
ret = rte_event_dev_configure(dev_id, &dev_conf);
if (ret < 0) {
EVTIM_LOG_ERR("failed to configure event dev %u\n", dev_id);
if (started)
if (rte_event_dev_start(dev_id))
return -EIO;
return ret;
}
if (conf_arg != NULL)
port_conf = conf_arg;
else {
port_conf = &def_port_conf;
ret = rte_event_port_default_conf_get(dev_id, port_id,
port_conf);
if (ret < 0)
return ret;
}
ret = rte_event_port_setup(dev_id, port_id, port_conf);
if (ret < 0) {
EVTIM_LOG_ERR("failed to setup event port %u on event dev %u\n",
port_id, dev_id);
return ret;
}
*event_port_id = port_id;
if (started)
ret = rte_event_dev_start(dev_id);
return ret;
}
struct rte_event_timer_adapter * __rte_experimental
rte_event_timer_adapter_create(const struct rte_event_timer_adapter_conf *conf)
{
return rte_event_timer_adapter_create_ext(conf, default_port_conf_cb,
NULL);
}
struct rte_event_timer_adapter * __rte_experimental
rte_event_timer_adapter_create_ext(
const struct rte_event_timer_adapter_conf *conf,
rte_event_timer_adapter_port_conf_cb_t conf_cb,
void *conf_arg)
{
uint16_t adapter_id;
struct rte_event_timer_adapter *adapter;
const struct rte_memzone *mz;
char mz_name[DATA_MZ_NAME_MAX_LEN];
int n, ret;
struct rte_eventdev *dev;
if (conf == NULL) {
rte_errno = EINVAL;
return NULL;
}
/* Check eventdev ID */
if (!rte_event_pmd_is_valid_dev(conf->event_dev_id)) {
rte_errno = EINVAL;
return NULL;
}
dev = &rte_eventdevs[conf->event_dev_id];
adapter_id = conf->timer_adapter_id;
/* Check that adapter_id is in range */
if (adapter_id >= RTE_EVENT_TIMER_ADAPTER_NUM_MAX) {
rte_errno = EINVAL;
return NULL;
}
/* Check adapter ID not already allocated */
adapter = &adapters[adapter_id];
if (adapter->allocated) {
rte_errno = EEXIST;
return NULL;
}
/* Create shared data area. */
n = snprintf(mz_name, sizeof(mz_name), DATA_MZ_NAME_FORMAT, adapter_id);
if (n >= (int)sizeof(mz_name)) {
rte_errno = EINVAL;
return NULL;
}
mz = rte_memzone_reserve(mz_name,
sizeof(struct rte_event_timer_adapter_data),
conf->socket_id, 0);
if (mz == NULL)
/* rte_errno set by rte_memzone_reserve */
return NULL;
adapter->data = mz->addr;
memset(adapter->data, 0, sizeof(struct rte_event_timer_adapter_data));
adapter->data->mz = mz;
adapter->data->event_dev_id = conf->event_dev_id;
adapter->data->id = adapter_id;
adapter->data->socket_id = conf->socket_id;
adapter->data->conf = *conf; /* copy conf structure */
/* Query eventdev PMD for timer adapter capabilities and ops */
ret = dev->dev_ops->timer_adapter_caps_get(dev,
adapter->data->conf.flags,
&adapter->data->caps,
&adapter->ops);
if (ret < 0) {
rte_errno = ret;
goto free_memzone;
}
if (!(adapter->data->caps &
RTE_EVENT_TIMER_ADAPTER_CAP_INTERNAL_PORT)) {
FUNC_PTR_OR_NULL_RET_WITH_ERRNO(conf_cb, -EINVAL);
ret = conf_cb(adapter->data->id, adapter->data->event_dev_id,
&adapter->data->event_port_id, conf_arg);
if (ret < 0) {
rte_errno = ret;
goto free_memzone;
}
}
/* If eventdev PMD did not provide ops, use default software
* implementation.
*/
if (adapter->ops == NULL)
adapter->ops = &sw_event_adapter_timer_ops;
/* Allow driver to do some setup */
FUNC_PTR_OR_NULL_RET_WITH_ERRNO(adapter->ops->init, -ENOTSUP);
ret = adapter->ops->init(adapter);
if (ret < 0) {
rte_errno = ret;
goto free_memzone;
}
/* Set fast-path function pointers */
adapter->arm_burst = adapter->ops->arm_burst;
adapter->arm_tmo_tick_burst = adapter->ops->arm_tmo_tick_burst;
adapter->cancel_burst = adapter->ops->cancel_burst;
adapter->allocated = 1;
return adapter;
free_memzone:
rte_memzone_free(adapter->data->mz);
return NULL;
}
int __rte_experimental
rte_event_timer_adapter_get_info(const struct rte_event_timer_adapter *adapter,
struct rte_event_timer_adapter_info *adapter_info)
{
ADAPTER_VALID_OR_ERR_RET(adapter, -EINVAL);
if (adapter->ops->get_info)
/* let driver set values it knows */
adapter->ops->get_info(adapter, adapter_info);
/* Set common values */
adapter_info->conf = adapter->data->conf;
adapter_info->event_dev_port_id = adapter->data->event_port_id;
adapter_info->caps = adapter->data->caps;
return 0;
}
int __rte_experimental
rte_event_timer_adapter_start(const struct rte_event_timer_adapter *adapter)
{
int ret;
ADAPTER_VALID_OR_ERR_RET(adapter, -EINVAL);
FUNC_PTR_OR_ERR_RET(adapter->ops->start, -EINVAL);
ret = adapter->ops->start(adapter);
if (ret < 0)
return ret;
adapter->data->started = 1;
return 0;
}
int __rte_experimental
rte_event_timer_adapter_stop(const struct rte_event_timer_adapter *adapter)
{
int ret;
ADAPTER_VALID_OR_ERR_RET(adapter, -EINVAL);
FUNC_PTR_OR_ERR_RET(adapter->ops->stop, -EINVAL);
if (adapter->data->started == 0) {
EVTIM_LOG_ERR("event timer adapter %"PRIu8" already stopped",
adapter->data->id);
return 0;
}
ret = adapter->ops->stop(adapter);
if (ret < 0)
return ret;
adapter->data->started = 0;
return 0;
}
struct rte_event_timer_adapter * __rte_experimental
rte_event_timer_adapter_lookup(uint16_t adapter_id)
{
char name[DATA_MZ_NAME_MAX_LEN];
const struct rte_memzone *mz;
struct rte_event_timer_adapter_data *data;
struct rte_event_timer_adapter *adapter;
int ret;
struct rte_eventdev *dev;
if (adapters[adapter_id].allocated)
return &adapters[adapter_id]; /* Adapter is already loaded */
snprintf(name, DATA_MZ_NAME_MAX_LEN, DATA_MZ_NAME_FORMAT, adapter_id);
mz = rte_memzone_lookup(name);
if (mz == NULL) {
rte_errno = ENOENT;
return NULL;
}
data = mz->addr;
adapter = &adapters[data->id];
adapter->data = data;
dev = &rte_eventdevs[adapter->data->event_dev_id];
/* Query eventdev PMD for timer adapter capabilities and ops */
ret = dev->dev_ops->timer_adapter_caps_get(dev,
adapter->data->conf.flags,
&adapter->data->caps,
&adapter->ops);
if (ret < 0) {
rte_errno = EINVAL;
return NULL;
}
/* If eventdev PMD did not provide ops, use default software
* implementation.
*/
if (adapter->ops == NULL)
adapter->ops = &sw_event_adapter_timer_ops;
/* Set fast-path function pointers */
adapter->arm_burst = adapter->ops->arm_burst;
adapter->arm_tmo_tick_burst = adapter->ops->arm_tmo_tick_burst;
adapter->cancel_burst = adapter->ops->cancel_burst;
adapter->allocated = 1;
return adapter;
}
int __rte_experimental
rte_event_timer_adapter_free(struct rte_event_timer_adapter *adapter)
{
int ret;
ADAPTER_VALID_OR_ERR_RET(adapter, -EINVAL);
FUNC_PTR_OR_ERR_RET(adapter->ops->uninit, -EINVAL);
if (adapter->data->started == 1) {
EVTIM_LOG_ERR("event timer adapter %"PRIu8" must be stopped "
"before freeing", adapter->data->id);
return -EBUSY;
}
/* free impl priv data */
ret = adapter->ops->uninit(adapter);
if (ret < 0)
return ret;
/* free shared data area */
ret = rte_memzone_free(adapter->data->mz);
if (ret < 0)
return ret;
adapter->data = NULL;
adapter->allocated = 0;
return 0;
}
int __rte_experimental
rte_event_timer_adapter_service_id_get(struct rte_event_timer_adapter *adapter,
uint32_t *service_id)
{
ADAPTER_VALID_OR_ERR_RET(adapter, -EINVAL);
if (adapter->data->service_inited && service_id != NULL)
*service_id = adapter->data->service_id;
return adapter->data->service_inited ? 0 : -ESRCH;
}
int __rte_experimental
rte_event_timer_adapter_stats_get(struct rte_event_timer_adapter *adapter,
struct rte_event_timer_adapter_stats *stats)
{
ADAPTER_VALID_OR_ERR_RET(adapter, -EINVAL);
FUNC_PTR_OR_ERR_RET(adapter->ops->stats_get, -EINVAL);
if (stats == NULL)
return -EINVAL;
return adapter->ops->stats_get(adapter, stats);
}
int __rte_experimental
rte_event_timer_adapter_stats_reset(struct rte_event_timer_adapter *adapter)
{
ADAPTER_VALID_OR_ERR_RET(adapter, -EINVAL);
FUNC_PTR_OR_ERR_RET(adapter->ops->stats_reset, -EINVAL);
return adapter->ops->stats_reset(adapter);
}
/*
* Software event timer adapter buffer helper functions
*/
#define NSECPERSEC 1E9
/* Optimizations used to index into the buffer require that the buffer size
* be a power of 2.
*/
#define EVENT_BUFFER_SZ 4096
#define EVENT_BUFFER_BATCHSZ 32
#define EVENT_BUFFER_MASK (EVENT_BUFFER_SZ - 1)
struct event_buffer {
uint16_t head;
uint16_t tail;
struct rte_event events[EVENT_BUFFER_SZ];
} __rte_cache_aligned;
static inline bool
event_buffer_full(struct event_buffer *bufp)
{
return (bufp->head - bufp->tail) == EVENT_BUFFER_SZ;
}
static inline bool
event_buffer_batch_ready(struct event_buffer *bufp)
{
return (bufp->head - bufp->tail) >= EVENT_BUFFER_BATCHSZ;
}
static void
event_buffer_init(struct event_buffer *bufp)
{
bufp->head = bufp->tail = 0;
memset(&bufp->events, 0, sizeof(struct rte_event) * EVENT_BUFFER_SZ);
}
static int
event_buffer_add(struct event_buffer *bufp, struct rte_event *eventp)
{
uint16_t head_idx;
struct rte_event *buf_eventp;
if (event_buffer_full(bufp))
return -1;
/* Instead of modulus, bitwise AND with mask to get head_idx. */
head_idx = bufp->head & EVENT_BUFFER_MASK;
buf_eventp = &bufp->events[head_idx];
rte_memcpy(buf_eventp, eventp, sizeof(struct rte_event));
/* Wrap automatically when overflow occurs. */
bufp->head++;
return 0;
}
static void
event_buffer_flush(struct event_buffer *bufp, uint8_t dev_id, uint8_t port_id,
uint16_t *nb_events_flushed,
uint16_t *nb_events_inv)
{
uint16_t head_idx, tail_idx, n = 0;
struct rte_event *events = bufp->events;
/* Instead of modulus, bitwise AND with mask to get index. */
head_idx = bufp->head & EVENT_BUFFER_MASK;
tail_idx = bufp->tail & EVENT_BUFFER_MASK;
/* Determine the largest contigous run we can attempt to enqueue to the
* event device.
*/
if (head_idx > tail_idx)
n = head_idx - tail_idx;
else if (head_idx < tail_idx)
n = EVENT_BUFFER_SZ - tail_idx;
else {
*nb_events_flushed = 0;
return;
}
*nb_events_inv = 0;
*nb_events_flushed = rte_event_enqueue_burst(dev_id, port_id,
&events[tail_idx], n);
if (*nb_events_flushed != n && rte_errno == -EINVAL) {
EVTIM_LOG_ERR("failed to enqueue invalid event - dropping it");
(*nb_events_inv)++;
}
bufp->tail = bufp->tail + *nb_events_flushed + *nb_events_inv;
}
/*
* Software event timer adapter implementation
*/
struct rte_event_timer_adapter_sw_data {
/* List of messages for outstanding timers */
TAILQ_HEAD(, msg) msgs_tailq_head;
/* Lock to guard tailq and armed count */
rte_spinlock_t msgs_tailq_sl;
/* Identifier of service executing timer management logic. */
uint32_t service_id;
/* The cycle count at which the adapter should next tick */
uint64_t next_tick_cycles;
/* Incremented as the service moves through phases of an iteration */
volatile int service_phase;
/* The tick resolution used by adapter instance. May have been
* adjusted from what user requested
*/
uint64_t timer_tick_ns;
/* Maximum timeout in nanoseconds allowed by adapter instance. */
uint64_t max_tmo_ns;
/* Ring containing messages to arm or cancel event timers */
struct rte_ring *msg_ring;
/* Mempool containing msg objects */
struct rte_mempool *msg_pool;
/* Buffered timer expiry events to be enqueued to an event device. */
struct event_buffer buffer;
/* Statistics */
struct rte_event_timer_adapter_stats stats;
/* The number of threads currently adding to the message ring */
rte_atomic16_t message_producer_count;
};
enum msg_type {MSG_TYPE_ARM, MSG_TYPE_CANCEL};
struct msg {
enum msg_type type;
struct rte_event_timer *evtim;
struct rte_timer tim;
TAILQ_ENTRY(msg) msgs;
};
static void
sw_event_timer_cb(struct rte_timer *tim, void *arg)
{
int ret;
uint16_t nb_evs_flushed = 0;
uint16_t nb_evs_invalid = 0;
uint64_t opaque;
struct rte_event_timer *evtim;
struct rte_event_timer_adapter *adapter;
struct rte_event_timer_adapter_sw_data *sw_data;
evtim = arg;
opaque = evtim->impl_opaque[1];
adapter = (struct rte_event_timer_adapter *)(uintptr_t)opaque;
sw_data = adapter->data->adapter_priv;
ret = event_buffer_add(&sw_data->buffer, &evtim->ev);
if (ret < 0) {
/* If event buffer is full, put timer back in list with
* immediate expiry value, so that we process it again on the
* next iteration.
*/
rte_timer_reset_sync(tim, 0, SINGLE, rte_lcore_id(),
sw_event_timer_cb, evtim);
sw_data->stats.evtim_retry_count++;
EVTIM_LOG_DBG("event buffer full, resetting rte_timer with "
"immediate expiry value");
} else {
struct msg *m = container_of(tim, struct msg, tim);
TAILQ_REMOVE(&sw_data->msgs_tailq_head, m, msgs);
EVTIM_BUF_LOG_DBG("buffered an event timer expiry event");
evtim->state = RTE_EVENT_TIMER_NOT_ARMED;
/* Free the msg object containing the rte_timer now that
* we've buffered its event successfully.
*/
rte_mempool_put(sw_data->msg_pool, m);
/* Bump the count when we successfully add an expiry event to
* the buffer.
*/
sw_data->stats.evtim_exp_count++;
}
if (event_buffer_batch_ready(&sw_data->buffer)) {
event_buffer_flush(&sw_data->buffer,
adapter->data->event_dev_id,
adapter->data->event_port_id,
&nb_evs_flushed,
&nb_evs_invalid);
sw_data->stats.ev_enq_count += nb_evs_flushed;
sw_data->stats.ev_inv_count += nb_evs_invalid;
}
}
static __rte_always_inline uint64_t
get_timeout_cycles(struct rte_event_timer *evtim,
struct rte_event_timer_adapter *adapter)
{
uint64_t timeout_ns;
struct rte_event_timer_adapter_sw_data *sw_data;
sw_data = adapter->data->adapter_priv;
timeout_ns = evtim->timeout_ticks * sw_data->timer_tick_ns;
return timeout_ns * rte_get_timer_hz() / NSECPERSEC;
}
/* This function returns true if one or more (adapter) ticks have occurred since
* the last time it was called.
*/
static inline bool
adapter_did_tick(struct rte_event_timer_adapter *adapter)
{
uint64_t cycles_per_adapter_tick, start_cycles;
uint64_t *next_tick_cyclesp;
struct rte_event_timer_adapter_sw_data *sw_data;
sw_data = adapter->data->adapter_priv;
next_tick_cyclesp = &sw_data->next_tick_cycles;
cycles_per_adapter_tick = sw_data->timer_tick_ns *
(rte_get_timer_hz() / NSECPERSEC);
start_cycles = rte_get_timer_cycles();
/* Note: initially, *next_tick_cyclesp == 0, so the clause below will
* execute, and set things going.
*/
if (start_cycles >= *next_tick_cyclesp) {
/* Snap the current cycle count to the preceding adapter tick
* boundary.
*/
start_cycles -= start_cycles % cycles_per_adapter_tick;
*next_tick_cyclesp = start_cycles + cycles_per_adapter_tick;
return true;
}
return false;
}
/* Check that event timer timeout value is in range */
static __rte_always_inline int
check_timeout(struct rte_event_timer *evtim,
const struct rte_event_timer_adapter *adapter)
{
uint64_t tmo_nsec;
struct rte_event_timer_adapter_sw_data *sw_data;
sw_data = adapter->data->adapter_priv;
tmo_nsec = evtim->timeout_ticks * sw_data->timer_tick_ns;
if (tmo_nsec > sw_data->max_tmo_ns)
return -1;
if (tmo_nsec < sw_data->timer_tick_ns)
return -2;
return 0;
}
/* Check that event timer event queue sched type matches destination event queue
* sched type
*/
static __rte_always_inline int
check_destination_event_queue(struct rte_event_timer *evtim,
const struct rte_event_timer_adapter *adapter)
{
int ret;
uint32_t sched_type;
ret = rte_event_queue_attr_get(adapter->data->event_dev_id,
evtim->ev.queue_id,
RTE_EVENT_QUEUE_ATTR_SCHEDULE_TYPE,
&sched_type);
if ((ret < 0 && ret != -EOVERFLOW) ||
evtim->ev.sched_type != sched_type)
return -1;
return 0;
}
#define NB_OBJS 32
static int
sw_event_timer_adapter_service_func(void *arg)
{
int i, num_msgs;
uint64_t cycles, opaque;
uint16_t nb_evs_flushed = 0;
uint16_t nb_evs_invalid = 0;
struct rte_event_timer_adapter *adapter;
struct rte_event_timer_adapter_sw_data *sw_data;
struct rte_event_timer *evtim = NULL;
struct rte_timer *tim = NULL;
struct msg *msg, *msgs[NB_OBJS];
adapter = arg;
sw_data = adapter->data->adapter_priv;
sw_data->service_phase = 1;
rte_smp_wmb();
while (rte_atomic16_read(&sw_data->message_producer_count) > 0 ||
!rte_ring_empty(sw_data->msg_ring)) {
num_msgs = rte_ring_dequeue_burst(sw_data->msg_ring,
(void **)msgs, NB_OBJS, NULL);
for (i = 0; i < num_msgs; i++) {
int ret = 0;
RTE_SET_USED(ret);
msg = msgs[i];
evtim = msg->evtim;
switch (msg->type) {
case MSG_TYPE_ARM:
EVTIM_SVC_LOG_DBG("dequeued ARM message from "
"ring");
tim = &msg->tim;
rte_timer_init(tim);
cycles = get_timeout_cycles(evtim,
adapter);
ret = rte_timer_reset(tim, cycles, SINGLE,
rte_lcore_id(),
sw_event_timer_cb,
evtim);
RTE_ASSERT(ret == 0);
evtim->impl_opaque[0] = (uintptr_t)tim;
evtim->impl_opaque[1] = (uintptr_t)adapter;
TAILQ_INSERT_TAIL(&sw_data->msgs_tailq_head,
msg,
msgs);
break;
case MSG_TYPE_CANCEL:
EVTIM_SVC_LOG_DBG("dequeued CANCEL message "
"from ring");
opaque = evtim->impl_opaque[0];
tim = (struct rte_timer *)(uintptr_t)opaque;
RTE_ASSERT(tim != NULL);
ret = rte_timer_stop(tim);
RTE_ASSERT(ret == 0);
/* Free the msg object for the original arm
* request.
*/
struct msg *m;
m = container_of(tim, struct msg, tim);
TAILQ_REMOVE(&sw_data->msgs_tailq_head, m,
msgs);
rte_mempool_put(sw_data->msg_pool, m);
/* Free the msg object for the current msg */
rte_mempool_put(sw_data->msg_pool, msg);
evtim->impl_opaque[0] = 0;
evtim->impl_opaque[1] = 0;
break;
}
}
}
sw_data->service_phase = 2;
rte_smp_wmb();
if (adapter_did_tick(adapter)) {
rte_timer_manage();
event_buffer_flush(&sw_data->buffer,
adapter->data->event_dev_id,
adapter->data->event_port_id,
&nb_evs_flushed, &nb_evs_invalid);
sw_data->stats.ev_enq_count += nb_evs_flushed;
sw_data->stats.ev_inv_count += nb_evs_invalid;
sw_data->stats.adapter_tick_count++;
}
sw_data->service_phase = 0;
rte_smp_wmb();
return 0;
}
/* The adapter initialization function rounds the mempool size up to the next
* power of 2, so we can take the difference between that value and what the
* user requested, and use the space for caches. This avoids a scenario where a
* user can't arm the number of timers the adapter was configured with because
* mempool objects have been lost to caches.
*
* nb_actual should always be a power of 2, so we can iterate over the powers
* of 2 to see what the largest cache size we can use is.
*/
static int
compute_msg_mempool_cache_size(uint64_t nb_requested, uint64_t nb_actual)
{
int i;
int size;
int cache_size = 0;
for (i = 0; ; i++) {
size = 1 << i;
if (RTE_MAX_LCORE * size < (int)(nb_actual - nb_requested) &&
size < RTE_MEMPOOL_CACHE_MAX_SIZE &&
size <= nb_actual / 1.5)
cache_size = size;
else
break;
}
return cache_size;
}
#define SW_MIN_INTERVAL 1E5
static int
sw_event_timer_adapter_init(struct rte_event_timer_adapter *adapter)
{
int ret;
struct rte_event_timer_adapter_sw_data *sw_data;
uint64_t nb_timers;
unsigned int flags;
struct rte_service_spec service;
static bool timer_subsystem_inited; // static initialized to false
/* Allocate storage for SW implementation data */
char priv_data_name[RTE_RING_NAMESIZE];
snprintf(priv_data_name, RTE_RING_NAMESIZE, "sw_evtim_adap_priv_%"PRIu8,
adapter->data->id);
adapter->data->adapter_priv = rte_zmalloc_socket(
priv_data_name,
sizeof(struct rte_event_timer_adapter_sw_data),
RTE_CACHE_LINE_SIZE,
adapter->data->socket_id);
if (adapter->data->adapter_priv == NULL) {
EVTIM_LOG_ERR("failed to allocate space for private data");
rte_errno = ENOMEM;
return -1;
}
if (adapter->data->conf.timer_tick_ns < SW_MIN_INTERVAL) {
EVTIM_LOG_ERR("failed to create adapter with requested tick "
"interval");
rte_errno = EINVAL;
return -1;
}
sw_data = adapter->data->adapter_priv;
sw_data->timer_tick_ns = adapter->data->conf.timer_tick_ns;
sw_data->max_tmo_ns = adapter->data->conf.max_tmo_ns;
TAILQ_INIT(&sw_data->msgs_tailq_head);
rte_spinlock_init(&sw_data->msgs_tailq_sl);
rte_atomic16_init(&sw_data->message_producer_count);
/* Rings require power of 2, so round up to next such value */
nb_timers = rte_align64pow2(adapter->data->conf.nb_timers);
char msg_ring_name[RTE_RING_NAMESIZE];
snprintf(msg_ring_name, RTE_RING_NAMESIZE,
"sw_evtim_adap_msg_ring_%"PRIu8, adapter->data->id);
flags = adapter->data->conf.flags & RTE_EVENT_TIMER_ADAPTER_F_SP_PUT ?
RING_F_SP_ENQ | RING_F_SC_DEQ :
RING_F_SC_DEQ;
sw_data->msg_ring = rte_ring_create(msg_ring_name, nb_timers,
adapter->data->socket_id, flags);
if (sw_data->msg_ring == NULL) {
EVTIM_LOG_ERR("failed to create message ring");
rte_errno = ENOMEM;
goto free_priv_data;
}
char pool_name[RTE_RING_NAMESIZE];
snprintf(pool_name, RTE_RING_NAMESIZE, "sw_evtim_adap_msg_pool_%"PRIu8,
adapter->data->id);
/* Both the arming/canceling thread and the service thread will do puts
* to the mempool, but if the SP_PUT flag is enabled, we can specify
* single-consumer get for the mempool.
*/
flags = adapter->data->conf.flags & RTE_EVENT_TIMER_ADAPTER_F_SP_PUT ?
MEMPOOL_F_SC_GET : 0;
/* The usable size of a ring is count - 1, so subtract one here to
* make the counts agree.
*/
int pool_size = nb_timers - 1;
int cache_size = compute_msg_mempool_cache_size(
adapter->data->conf.nb_timers, nb_timers);
sw_data->msg_pool = rte_mempool_create(pool_name, pool_size,
sizeof(struct msg), cache_size,
0, NULL, NULL, NULL, NULL,
adapter->data->socket_id, flags);
if (sw_data->msg_pool == NULL) {
EVTIM_LOG_ERR("failed to create message object mempool");
rte_errno = ENOMEM;
goto free_msg_ring;
}
event_buffer_init(&sw_data->buffer);
/* Register a service component to run adapter logic */
memset(&service, 0, sizeof(service));
snprintf(service.name, RTE_SERVICE_NAME_MAX,
"sw_evimer_adap_svc_%"PRIu8, adapter->data->id);
service.socket_id = adapter->data->socket_id;
service.callback = sw_event_timer_adapter_service_func;
service.callback_userdata = adapter;
service.capabilities &= ~(RTE_SERVICE_CAP_MT_SAFE);
ret = rte_service_component_register(&service, &sw_data->service_id);
if (ret < 0) {
EVTIM_LOG_ERR("failed to register service %s with id %"PRIu32
": err = %d", service.name, sw_data->service_id,
ret);
rte_errno = ENOSPC;
goto free_msg_pool;
}
EVTIM_LOG_DBG("registered service %s with id %"PRIu32, service.name,
sw_data->service_id);
adapter->data->service_id = sw_data->service_id;
adapter->data->service_inited = 1;
if (!timer_subsystem_inited) {
rte_timer_subsystem_init();
timer_subsystem_inited = true;
}
return 0;
free_msg_pool:
rte_mempool_free(sw_data->msg_pool);
free_msg_ring:
rte_ring_free(sw_data->msg_ring);
free_priv_data:
rte_free(sw_data);
return -1;
}
static int
sw_event_timer_adapter_uninit(struct rte_event_timer_adapter *adapter)
{
int ret;
struct msg *m1, *m2;
struct rte_event_timer_adapter_sw_data *sw_data =
adapter->data->adapter_priv;
rte_spinlock_lock(&sw_data->msgs_tailq_sl);
/* Cancel outstanding rte_timers and free msg objects */
m1 = TAILQ_FIRST(&sw_data->msgs_tailq_head);
while (m1 != NULL) {
EVTIM_LOG_DBG("freeing outstanding timer");
m2 = TAILQ_NEXT(m1, msgs);
rte_timer_stop_sync(&m1->tim);
rte_mempool_put(sw_data->msg_pool, m1);
m1 = m2;
}
rte_spinlock_unlock(&sw_data->msgs_tailq_sl);
ret = rte_service_component_unregister(sw_data->service_id);
if (ret < 0) {
EVTIM_LOG_ERR("failed to unregister service component");
return ret;
}
rte_ring_free(sw_data->msg_ring);
rte_mempool_free(sw_data->msg_pool);
rte_free(adapter->data->adapter_priv);
return 0;
}
static inline int32_t
get_mapped_count_for_service(uint32_t service_id)
{
int32_t core_count, i, mapped_count = 0;
uint32_t lcore_arr[RTE_MAX_LCORE];
core_count = rte_service_lcore_list(lcore_arr, RTE_MAX_LCORE);
for (i = 0; i < core_count; i++)
if (rte_service_map_lcore_get(service_id, lcore_arr[i]) == 1)
mapped_count++;
return mapped_count;
}
static int
sw_event_timer_adapter_start(const struct rte_event_timer_adapter *adapter)
{
int mapped_count;
struct rte_event_timer_adapter_sw_data *sw_data;
sw_data = adapter->data->adapter_priv;
/* Mapping the service to more than one service core can introduce
* delays while one thread is waiting to acquire a lock, so only allow
* one core to be mapped to the service.
*/
mapped_count = get_mapped_count_for_service(sw_data->service_id);
if (mapped_count == 1)
return rte_service_component_runstate_set(sw_data->service_id,
1);
return mapped_count < 1 ? -ENOENT : -ENOTSUP;
}
static int
sw_event_timer_adapter_stop(const struct rte_event_timer_adapter *adapter)
{
int ret;
struct rte_event_timer_adapter_sw_data *sw_data =
adapter->data->adapter_priv;
ret = rte_service_component_runstate_set(sw_data->service_id, 0);
if (ret < 0)
return ret;
/* Wait for the service to complete its final iteration before
* stopping.
*/
while (sw_data->service_phase != 0)
rte_pause();
rte_smp_rmb();
return 0;
}
static void
sw_event_timer_adapter_get_info(const struct rte_event_timer_adapter *adapter,
struct rte_event_timer_adapter_info *adapter_info)
{
struct rte_event_timer_adapter_sw_data *sw_data;
sw_data = adapter->data->adapter_priv;
adapter_info->min_resolution_ns = sw_data->timer_tick_ns;
adapter_info->max_tmo_ns = sw_data->max_tmo_ns;
}
static int
sw_event_timer_adapter_stats_get(const struct rte_event_timer_adapter *adapter,
struct rte_event_timer_adapter_stats *stats)
{
struct rte_event_timer_adapter_sw_data *sw_data;
sw_data = adapter->data->adapter_priv;
*stats = sw_data->stats;
return 0;
}
static int
sw_event_timer_adapter_stats_reset(
const struct rte_event_timer_adapter *adapter)
{
struct rte_event_timer_adapter_sw_data *sw_data;
sw_data = adapter->data->adapter_priv;
memset(&sw_data->stats, 0, sizeof(sw_data->stats));
return 0;
}
static __rte_always_inline uint16_t
__sw_event_timer_arm_burst(const struct rte_event_timer_adapter *adapter,
struct rte_event_timer **evtims,
uint16_t nb_evtims)
{
uint16_t i;
int ret;
struct rte_event_timer_adapter_sw_data *sw_data;
struct msg *msgs[nb_evtims];
#ifdef RTE_LIBRTE_EVENTDEV_DEBUG
/* Check that the service is running. */
if (rte_service_runstate_get(adapter->data->service_id) != 1) {
rte_errno = EINVAL;
return 0;
}
#endif
sw_data = adapter->data->adapter_priv;
ret = rte_mempool_get_bulk(sw_data->msg_pool, (void **)msgs, nb_evtims);
if (ret < 0) {
rte_errno = ENOSPC;
return 0;
}
/* Let the service know we're producing messages for it to process */
rte_atomic16_inc(&sw_data->message_producer_count);
/* If the service is managing timers, wait for it to finish */
while (sw_data->service_phase == 2)
rte_pause();
rte_smp_rmb();
for (i = 0; i < nb_evtims; i++) {
/* Don't modify the event timer state in these cases */
if (evtims[i]->state == RTE_EVENT_TIMER_ARMED) {
rte_errno = EALREADY;
break;
} else if (!(evtims[i]->state == RTE_EVENT_TIMER_NOT_ARMED ||
evtims[i]->state == RTE_EVENT_TIMER_CANCELED)) {
rte_errno = EINVAL;
break;
}
ret = check_timeout(evtims[i], adapter);
if (ret == -1) {
evtims[i]->state = RTE_EVENT_TIMER_ERROR_TOOLATE;
rte_errno = EINVAL;
break;
}
if (ret == -2) {
evtims[i]->state = RTE_EVENT_TIMER_ERROR_TOOEARLY;
rte_errno = EINVAL;
break;
}
if (check_destination_event_queue(evtims[i], adapter) < 0) {
evtims[i]->state = RTE_EVENT_TIMER_ERROR;
rte_errno = EINVAL;
break;
}
/* Checks passed, set up a message to enqueue */
msgs[i]->type = MSG_TYPE_ARM;
msgs[i]->evtim = evtims[i];
/* Set the payload pointer if not set. */
if (evtims[i]->ev.event_ptr == NULL)
evtims[i]->ev.event_ptr = evtims[i];
/* msg objects that get enqueued successfully will be freed
* either by a future cancel operation or by the timer
* expiration callback.
*/
if (rte_ring_enqueue(sw_data->msg_ring, msgs[i]) < 0) {
rte_errno = ENOSPC;
break;
}
EVTIM_LOG_DBG("enqueued ARM message to ring");
evtims[i]->state = RTE_EVENT_TIMER_ARMED;
}
/* Let the service know we're done producing messages */
rte_atomic16_dec(&sw_data->message_producer_count);
if (i < nb_evtims)
rte_mempool_put_bulk(sw_data->msg_pool, (void **)&msgs[i],
nb_evtims - i);
return i;
}
static uint16_t
sw_event_timer_arm_burst(const struct rte_event_timer_adapter *adapter,
struct rte_event_timer **evtims,
uint16_t nb_evtims)
{
return __sw_event_timer_arm_burst(adapter, evtims, nb_evtims);
}
static uint16_t
sw_event_timer_cancel_burst(const struct rte_event_timer_adapter *adapter,
struct rte_event_timer **evtims,
uint16_t nb_evtims)
{
uint16_t i;
int ret;
struct rte_event_timer_adapter_sw_data *sw_data;
struct msg *msgs[nb_evtims];
#ifdef RTE_LIBRTE_EVENTDEV_DEBUG
/* Check that the service is running. */
if (rte_service_runstate_get(adapter->data->service_id) != 1) {
rte_errno = EINVAL;
return 0;
}
#endif
sw_data = adapter->data->adapter_priv;
ret = rte_mempool_get_bulk(sw_data->msg_pool, (void **)msgs, nb_evtims);
if (ret < 0) {
rte_errno = ENOSPC;
return 0;
}
/* Let the service know we're producing messages for it to process */
rte_atomic16_inc(&sw_data->message_producer_count);
/* If the service could be modifying event timer states, wait */
while (sw_data->service_phase == 2)
rte_pause();
rte_smp_rmb();
for (i = 0; i < nb_evtims; i++) {
/* Don't modify the event timer state in these cases */
if (evtims[i]->state == RTE_EVENT_TIMER_CANCELED) {
rte_errno = EALREADY;
break;
} else if (evtims[i]->state != RTE_EVENT_TIMER_ARMED) {
rte_errno = EINVAL;
break;
}
msgs[i]->type = MSG_TYPE_CANCEL;
msgs[i]->evtim = evtims[i];
if (rte_ring_enqueue(sw_data->msg_ring, msgs[i]) < 0) {
rte_errno = ENOSPC;
break;
}
EVTIM_LOG_DBG("enqueued CANCEL message to ring");
evtims[i]->state = RTE_EVENT_TIMER_CANCELED;
}
/* Let the service know we're done producing messages */
rte_atomic16_dec(&sw_data->message_producer_count);
if (i < nb_evtims)
rte_mempool_put_bulk(sw_data->msg_pool, (void **)&msgs[i],
nb_evtims - i);
return i;
}
static uint16_t
sw_event_timer_arm_tmo_tick_burst(const struct rte_event_timer_adapter *adapter,
struct rte_event_timer **evtims,
uint64_t timeout_ticks,
uint16_t nb_evtims)
{
int i;
for (i = 0; i < nb_evtims; i++)
evtims[i]->timeout_ticks = timeout_ticks;
return __sw_event_timer_arm_burst(adapter, evtims, nb_evtims);
}
static const struct rte_event_timer_adapter_ops sw_event_adapter_timer_ops = {
.init = sw_event_timer_adapter_init,
.uninit = sw_event_timer_adapter_uninit,
.start = sw_event_timer_adapter_start,
.stop = sw_event_timer_adapter_stop,
.get_info = sw_event_timer_adapter_get_info,
.stats_get = sw_event_timer_adapter_stats_get,
.stats_reset = sw_event_timer_adapter_stats_reset,
.arm_burst = sw_event_timer_arm_burst,
.arm_tmo_tick_burst = sw_event_timer_arm_tmo_tick_burst,
.cancel_burst = sw_event_timer_cancel_burst,
};
RTE_INIT(event_timer_adapter_init_log)
{
evtim_logtype = rte_log_register("lib.eventdev.adapter.timer");
if (evtim_logtype >= 0)
rte_log_set_level(evtim_logtype, RTE_LOG_NOTICE);
evtim_buffer_logtype = rte_log_register("lib.eventdev.adapter.timer."
"buffer");
if (evtim_buffer_logtype >= 0)
rte_log_set_level(evtim_buffer_logtype, RTE_LOG_NOTICE);
evtim_svc_logtype = rte_log_register("lib.eventdev.adapter.timer.svc");
if (evtim_svc_logtype >= 0)
rte_log_set_level(evtim_svc_logtype, RTE_LOG_NOTICE);
}
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