#include <stdio.h>
#include <string.h>
#include <sys/mman.h>
-#include <sys/fcntl.h>
+#include <fcntl.h>
#include <rte_common.h>
#include <rte_config.h>
#include <rte_dev.h>
#include <rte_errno.h>
#include <rte_eventdev.h>
-#include <rte_eventdev_pmd.h>
+#include <eventdev_pmd.h>
#include <rte_io.h>
#include <rte_kvargs.h>
#include <rte_log.h>
.max_event_port_enqueue_depth = DLB2_MAX_ENQUEUE_DEPTH,
.max_event_port_links = DLB2_MAX_NUM_QIDS_PER_LDB_CQ,
.max_num_events = DLB2_MAX_NUM_LDB_CREDITS,
- .max_single_link_event_port_queue_pairs = DLB2_MAX_NUM_DIR_PORTS,
+ .max_single_link_event_port_queue_pairs =
+ DLB2_MAX_NUM_DIR_PORTS(DLB2_HW_V2),
.event_dev_cap = (RTE_EVENT_DEV_CAP_QUEUE_QOS |
RTE_EVENT_DEV_CAP_EVENT_QOS |
RTE_EVENT_DEV_CAP_BURST_MODE |
};
struct process_local_port_data
-dlb2_port[DLB2_MAX_NUM_PORTS][DLB2_NUM_PORT_TYPES];
+dlb2_port[DLB2_MAX_NUM_PORTS_ALL][DLB2_NUM_PORT_TYPES];
static void
dlb2_free_qe_mem(struct dlb2_port *qm_port)
{
int q;
- for (q = 0; q < DLB2_MAX_NUM_QUEUES; q++) {
+ for (q = 0; q < DLB2_MAX_NUM_QUEUES(dlb2->version); q++) {
if (qid_depth_thresholds[q] != 0)
dlb2->ev_queues[q].depth_threshold =
qid_depth_thresholds[q];
evdev_dlb2_default_info.max_event_ports =
dlb2->hw_rsrc_query_results.num_ldb_ports;
- evdev_dlb2_default_info.max_num_events =
- dlb2->hw_rsrc_query_results.num_ldb_credits;
-
+ if (dlb2->version == DLB2_HW_V2_5) {
+ evdev_dlb2_default_info.max_num_events =
+ dlb2->hw_rsrc_query_results.num_credits;
+ } else {
+ evdev_dlb2_default_info.max_num_events =
+ dlb2->hw_rsrc_query_results.num_ldb_credits;
+ }
/* Save off values used when creating the scheduling domain. */
handle->info.num_sched_domains =
dlb2->hw_rsrc_query_results.num_sched_domains;
- handle->info.hw_rsrc_max.nb_events_limit =
- dlb2->hw_rsrc_query_results.num_ldb_credits;
-
+ if (dlb2->version == DLB2_HW_V2_5) {
+ handle->info.hw_rsrc_max.nb_events_limit =
+ dlb2->hw_rsrc_query_results.num_credits;
+ } else {
+ handle->info.hw_rsrc_max.nb_events_limit =
+ dlb2->hw_rsrc_query_results.num_ldb_credits;
+ }
handle->info.hw_rsrc_max.num_queues =
dlb2->hw_rsrc_query_results.num_ldb_queues +
dlb2->hw_rsrc_query_results.num_dir_ports;
return ret;
if (*num_dir_credits < 0 ||
- *num_dir_credits > DLB2_MAX_NUM_DIR_CREDITS) {
+ *num_dir_credits > DLB2_MAX_NUM_DIR_CREDITS(DLB2_HW_V2)) {
DLB2_LOG_ERR("dlb2: num_dir_credits must be between 0 and %d\n",
- DLB2_MAX_NUM_DIR_CREDITS);
+ DLB2_MAX_NUM_DIR_CREDITS(DLB2_HW_V2));
return -EINVAL;
}
return 0;
}
+static int
+set_poll_interval(const char *key __rte_unused,
+ const char *value,
+ void *opaque)
+{
+ int *poll_interval = opaque;
+ int ret;
+
+ if (value == NULL || opaque == NULL) {
+ DLB2_LOG_ERR("NULL pointer\n");
+ return -EINVAL;
+ }
+
+ ret = dlb2_string_to_int(poll_interval, value);
+ if (ret < 0)
+ return ret;
+
+ return 0;
+}
+
+static int
+set_sw_credit_quanta(const char *key __rte_unused,
+ const char *value,
+ void *opaque)
+{
+ int *sw_credit_quanta = opaque;
+ int ret;
+
+ if (value == NULL || opaque == NULL) {
+ DLB2_LOG_ERR("NULL pointer\n");
+ return -EINVAL;
+ }
+
+ ret = dlb2_string_to_int(sw_credit_quanta, value);
+ if (ret < 0)
+ return ret;
+
+ return 0;
+}
+
+static int
+set_hw_credit_quanta(const char *key __rte_unused,
+ const char *value,
+ void *opaque)
+{
+ int *hw_credit_quanta = opaque;
+ int ret;
+
+ if (value == NULL || opaque == NULL) {
+ DLB2_LOG_ERR("NULL pointer\n");
+ return -EINVAL;
+ }
+
+ ret = dlb2_string_to_int(hw_credit_quanta, value);
+ if (ret < 0)
+ return ret;
+
+ return 0;
+}
+
+static int
+set_default_depth_thresh(const char *key __rte_unused,
+ const char *value,
+ void *opaque)
+{
+ int *default_depth_thresh = opaque;
+ int ret;
+
+ if (value == NULL || opaque == NULL) {
+ DLB2_LOG_ERR("NULL pointer\n");
+ return -EINVAL;
+ }
+
+ ret = dlb2_string_to_int(default_depth_thresh, value);
+ if (ret < 0)
+ return ret;
+
+ return 0;
+}
+
+static int
+set_vector_opts_enab(const char *key __rte_unused,
+ const char *value,
+ void *opaque)
+{
+ bool *dlb2_vector_opts_enabled = opaque;
+
+ if (value == NULL || opaque == NULL) {
+ DLB2_LOG_ERR("NULL pointer\n");
+ return -EINVAL;
+ }
+
+ if ((*value == 'y') || (*value == 'Y'))
+ *dlb2_vector_opts_enabled = true;
+ else
+ *dlb2_vector_opts_enabled = false;
+
+ return 0;
+}
static int
set_qid_depth_thresh(const char *key __rte_unused,
*/
if (sscanf(value, "all:%d", &thresh) == 1) {
first = 0;
- last = DLB2_MAX_NUM_QUEUES - 1;
+ last = DLB2_MAX_NUM_QUEUES(DLB2_HW_V2) - 1;
} else if (sscanf(value, "%d-%d:%d", &first, &last, &thresh) == 3) {
/* we have everything we need */
} else if (sscanf(value, "%d:%d", &first, &thresh) == 2) {
return -EINVAL;
}
- if (first > last || first < 0 || last >= DLB2_MAX_NUM_QUEUES) {
+ if (first > last || first < 0 ||
+ last >= DLB2_MAX_NUM_QUEUES(DLB2_HW_V2)) {
+ DLB2_LOG_ERR("Error parsing qid depth devarg, invalid qid value\n");
+ return -EINVAL;
+ }
+
+ if (thresh < 0 || thresh > DLB2_MAX_QUEUE_DEPTH_THRESHOLD) {
+ DLB2_LOG_ERR("Error parsing qid depth devarg, threshold > %d\n",
+ DLB2_MAX_QUEUE_DEPTH_THRESHOLD);
+ return -EINVAL;
+ }
+
+ for (i = first; i <= last; i++)
+ qid_thresh->val[i] = thresh; /* indexed by qid */
+
+ return 0;
+}
+
+static int
+set_qid_depth_thresh_v2_5(const char *key __rte_unused,
+ const char *value,
+ void *opaque)
+{
+ struct dlb2_qid_depth_thresholds *qid_thresh = opaque;
+ int first, last, thresh, i;
+
+ if (value == NULL || opaque == NULL) {
+ DLB2_LOG_ERR("NULL pointer\n");
+ return -EINVAL;
+ }
+
+ /* command line override may take one of the following 3 forms:
+ * qid_depth_thresh=all:<threshold_value> ... all queues
+ * qid_depth_thresh=qidA-qidB:<threshold_value> ... a range of queues
+ * qid_depth_thresh=qid:<threshold_value> ... just one queue
+ */
+ if (sscanf(value, "all:%d", &thresh) == 1) {
+ first = 0;
+ last = DLB2_MAX_NUM_QUEUES(DLB2_HW_V2_5) - 1;
+ } else if (sscanf(value, "%d-%d:%d", &first, &last, &thresh) == 3) {
+ /* we have everything we need */
+ } else if (sscanf(value, "%d:%d", &first, &thresh) == 2) {
+ last = first;
+ } else {
+ DLB2_LOG_ERR("Error parsing qid depth devarg. Should be all:val, qid-qid:val, or qid:val\n");
+ return -EINVAL;
+ }
+
+ if (first > last || first < 0 ||
+ last >= DLB2_MAX_NUM_QUEUES(DLB2_HW_V2_5)) {
DLB2_LOG_ERR("Error parsing qid depth devarg, invalid qid value\n");
return -EINVAL;
}
*/
evdev_dlb2_default_info.max_event_ports += dlb2->num_ldb_ports;
evdev_dlb2_default_info.max_event_queues += dlb2->num_ldb_queues;
- evdev_dlb2_default_info.max_num_events += dlb2->max_ldb_credits;
-
+ if (dlb2->version == DLB2_HW_V2_5) {
+ evdev_dlb2_default_info.max_num_events +=
+ dlb2->max_credits;
+ } else {
+ evdev_dlb2_default_info.max_num_events +=
+ dlb2->max_ldb_credits;
+ }
evdev_dlb2_default_info.max_event_queues =
RTE_MIN(evdev_dlb2_default_info.max_event_queues,
RTE_EVENT_MAX_QUEUES_PER_DEV);
static int
dlb2_hw_create_sched_domain(struct dlb2_hw_dev *handle,
- const struct dlb2_hw_rsrcs *resources_asked)
+ const struct dlb2_hw_rsrcs *resources_asked,
+ uint8_t device_version)
{
int ret = 0;
struct dlb2_create_sched_domain_args *cfg;
/* DIR ports and queues */
cfg->num_dir_ports = resources_asked->num_dir_ports;
-
- cfg->num_dir_credits = resources_asked->num_dir_credits;
+ if (device_version == DLB2_HW_V2_5)
+ cfg->num_credits = resources_asked->num_credits;
+ else
+ cfg->num_dir_credits = resources_asked->num_dir_credits;
/* LDB queues */
break;
}
- cfg->num_ldb_credits =
- resources_asked->num_ldb_credits;
+ if (device_version == DLB2_HW_V2)
+ cfg->num_ldb_credits = resources_asked->num_ldb_credits;
cfg->num_atomic_inflights =
DLB2_NUM_ATOMIC_INFLIGHTS_PER_QUEUE *
cfg->num_hist_list_entries = resources_asked->num_ldb_ports *
DLB2_NUM_HIST_LIST_ENTRIES_PER_LDB_PORT;
- DLB2_LOG_DBG("sched domain create - ldb_qs=%d, ldb_ports=%d, dir_ports=%d, atomic_inflights=%d, hist_list_entries=%d, ldb_credits=%d, dir_credits=%d\n",
- cfg->num_ldb_queues,
- resources_asked->num_ldb_ports,
- cfg->num_dir_ports,
- cfg->num_atomic_inflights,
- cfg->num_hist_list_entries,
- cfg->num_ldb_credits,
- cfg->num_dir_credits);
+ if (device_version == DLB2_HW_V2_5) {
+ DLB2_LOG_DBG("sched domain create - ldb_qs=%d, ldb_ports=%d, dir_ports=%d, atomic_inflights=%d, hist_list_entries=%d, credits=%d\n",
+ cfg->num_ldb_queues,
+ resources_asked->num_ldb_ports,
+ cfg->num_dir_ports,
+ cfg->num_atomic_inflights,
+ cfg->num_hist_list_entries,
+ cfg->num_credits);
+ } else {
+ DLB2_LOG_DBG("sched domain create - ldb_qs=%d, ldb_ports=%d, dir_ports=%d, atomic_inflights=%d, hist_list_entries=%d, ldb_credits=%d, dir_credits=%d\n",
+ cfg->num_ldb_queues,
+ resources_asked->num_ldb_ports,
+ cfg->num_dir_ports,
+ cfg->num_atomic_inflights,
+ cfg->num_hist_list_entries,
+ cfg->num_ldb_credits,
+ cfg->num_dir_credits);
+ }
/* Configure the QM */
for (i = 0; i < dlb2->num_queues; i++)
dlb2->ev_queues[i].qm_queue.config_state = config_state;
- for (i = 0; i < DLB2_MAX_NUM_QUEUES; i++)
+ for (i = 0; i < DLB2_MAX_NUM_QUEUES(DLB2_HW_V2_5); i++)
dlb2->ev_queues[i].setup_done = false;
dlb2->num_ports = 0;
*/
if (dlb2->configured) {
dlb2_hw_reset_sched_domain(dev, true);
-
ret = dlb2_hw_query_resources(dlb2);
if (ret) {
DLB2_LOG_ERR("get resources err=%d, devid=%d\n",
}
/* Does this platform support umonitor/umwait? */
- if (rte_cpu_get_flag_enabled(RTE_CPUFLAG_WAITPKG)) {
- if (RTE_LIBRTE_PMD_DLB2_UMWAIT_CTL_STATE != 0 &&
- RTE_LIBRTE_PMD_DLB2_UMWAIT_CTL_STATE != 1) {
- DLB2_LOG_ERR("invalid value (%d) for RTE_LIBRTE_PMD_DLB2_UMWAIT_CTL_STATE, must be 0 or 1.\n",
- RTE_LIBRTE_PMD_DLB2_UMWAIT_CTL_STATE);
- return -EINVAL;
- }
+ if (rte_cpu_get_flag_enabled(RTE_CPUFLAG_WAITPKG))
dlb2->umwait_allowed = true;
- }
rsrcs->num_dir_ports = config->nb_single_link_event_port_queues;
rsrcs->num_ldb_ports = config->nb_event_ports - rsrcs->num_dir_ports;
/* 1 dir queue per dir port */
rsrcs->num_ldb_queues = config->nb_event_queues - rsrcs->num_dir_ports;
- /* Scale down nb_events_limit by 4 for directed credits, since there
- * are 4x as many load-balanced credits.
- */
- rsrcs->num_ldb_credits = 0;
- rsrcs->num_dir_credits = 0;
+ if (dlb2->version == DLB2_HW_V2_5) {
+ rsrcs->num_credits = 0;
+ if (rsrcs->num_ldb_queues || rsrcs->num_dir_ports)
+ rsrcs->num_credits = config->nb_events_limit;
+ } else {
+ /* Scale down nb_events_limit by 4 for directed credits,
+ * since there are 4x as many load-balanced credits.
+ */
+ rsrcs->num_ldb_credits = 0;
+ rsrcs->num_dir_credits = 0;
- if (rsrcs->num_ldb_queues)
- rsrcs->num_ldb_credits = config->nb_events_limit;
- if (rsrcs->num_dir_ports)
- rsrcs->num_dir_credits = config->nb_events_limit / 4;
- if (dlb2->num_dir_credits_override != -1)
- rsrcs->num_dir_credits = dlb2->num_dir_credits_override;
+ if (rsrcs->num_ldb_queues)
+ rsrcs->num_ldb_credits = config->nb_events_limit;
+ if (rsrcs->num_dir_ports)
+ rsrcs->num_dir_credits = config->nb_events_limit / 2;
+ if (dlb2->num_dir_credits_override != -1)
+ rsrcs->num_dir_credits = dlb2->num_dir_credits_override;
+ }
- if (dlb2_hw_create_sched_domain(handle, rsrcs) < 0) {
+ if (dlb2_hw_create_sched_domain(handle, rsrcs, dlb2->version) < 0) {
DLB2_LOG_ERR("dlb2_hw_create_sched_domain failed\n");
return -ENODEV;
}
dlb2->num_ldb_ports = dlb2->num_ports - dlb2->num_dir_ports;
dlb2->num_ldb_queues = dlb2->num_queues - dlb2->num_dir_ports;
dlb2->num_dir_queues = dlb2->num_dir_ports;
- dlb2->ldb_credit_pool = rsrcs->num_ldb_credits;
- dlb2->max_ldb_credits = rsrcs->num_ldb_credits;
- dlb2->dir_credit_pool = rsrcs->num_dir_credits;
- dlb2->max_dir_credits = rsrcs->num_dir_credits;
+ if (dlb2->version == DLB2_HW_V2_5) {
+ dlb2->credit_pool = rsrcs->num_credits;
+ dlb2->max_credits = rsrcs->num_credits;
+ } else {
+ dlb2->ldb_credit_pool = rsrcs->num_ldb_credits;
+ dlb2->max_ldb_credits = rsrcs->num_ldb_credits;
+ dlb2->dir_credit_pool = rsrcs->num_dir_credits;
+ dlb2->max_dir_credits = rsrcs->num_dir_credits;
+ }
dlb2->configured = true;
}
if (ev_queue->depth_threshold == 0) {
- cfg.depth_threshold = RTE_PMD_DLB2_DEFAULT_DEPTH_THRESH;
- ev_queue->depth_threshold = RTE_PMD_DLB2_DEFAULT_DEPTH_THRESH;
+ cfg.depth_threshold = dlb2->default_depth_thresh;
+ ev_queue->depth_threshold =
+ dlb2->default_depth_thresh;
} else
cfg.depth_threshold = ev_queue->depth_threshold;
const struct rte_event events[],
uint16_t num);
+/* Generate the required bitmask for rotate-style expected QE gen bits.
+ * This requires a pattern of 1's and zeros, starting with expected as
+ * 1 bits, so when hardware writes 0's they're "new". This requires the
+ * ring size to be powers of 2 to wrap correctly.
+ */
+static void
+dlb2_hw_cq_bitmask_init(struct dlb2_port *qm_port, uint32_t cq_depth)
+{
+ uint64_t cq_build_mask = 0;
+ uint32_t i;
+
+ if (cq_depth > 64)
+ return; /* need to fall back to scalar code */
+
+ /*
+ * all 1's in first u64, all zeros in second is correct bit pattern to
+ * start. Special casing == 64 easier than adapting complex loop logic.
+ */
+ if (cq_depth == 64) {
+ qm_port->cq_rolling_mask = 0;
+ qm_port->cq_rolling_mask_2 = -1;
+ return;
+ }
+
+ for (i = 0; i < 64; i += (cq_depth * 2))
+ cq_build_mask |= ((1ULL << cq_depth) - 1) << (i + cq_depth);
+
+ qm_port->cq_rolling_mask = cq_build_mask;
+ qm_port->cq_rolling_mask_2 = cq_build_mask;
+}
+
static int
dlb2_hw_create_ldb_port(struct dlb2_eventdev *dlb2,
struct dlb2_eventdev_port *ev_port,
struct dlb2_port *qm_port = NULL;
char mz_name[RTE_MEMZONE_NAMESIZE];
uint32_t qm_port_id;
- uint16_t ldb_credit_high_watermark;
- uint16_t dir_credit_high_watermark;
+ uint16_t ldb_credit_high_watermark = 0;
+ uint16_t dir_credit_high_watermark = 0;
+ uint16_t credit_high_watermark = 0;
if (handle == NULL)
return -EINVAL;
/* User controls the LDB high watermark via enqueue depth. The DIR high
* watermark is equal, unless the directed credit pool is too small.
*/
- ldb_credit_high_watermark = enqueue_depth;
-
- /* If there are no directed ports, the kernel driver will ignore this
- * port's directed credit settings. Don't use enqueue_depth if it would
- * require more directed credits than are available.
- */
- dir_credit_high_watermark =
- RTE_MIN(enqueue_depth,
- handle->cfg.num_dir_credits / dlb2->num_ports);
+ if (dlb2->version == DLB2_HW_V2) {
+ ldb_credit_high_watermark = enqueue_depth;
+ /* If there are no directed ports, the kernel driver will
+ * ignore this port's directed credit settings. Don't use
+ * enqueue_depth if it would require more directed credits
+ * than are available.
+ */
+ dir_credit_high_watermark =
+ RTE_MIN(enqueue_depth,
+ handle->cfg.num_dir_credits / dlb2->num_ports);
+ } else
+ credit_high_watermark = enqueue_depth;
/* Per QM values */
qm_port->id = qm_port_id;
- qm_port->cached_ldb_credits = 0;
- qm_port->cached_dir_credits = 0;
+ if (dlb2->version == DLB2_HW_V2) {
+ qm_port->cached_ldb_credits = 0;
+ qm_port->cached_dir_credits = 0;
+ } else
+ qm_port->cached_credits = 0;
+
/* CQs with depth < 8 use an 8-entry queue, but withhold credits so
* the effective depth is smaller.
*/
/* starting value of gen bit - it toggles at wrap time */
qm_port->gen_bit = 1;
+ dlb2_hw_cq_bitmask_init(qm_port, qm_port->cq_depth);
+
qm_port->int_armed = false;
/* Save off for later use in info and lookup APIs. */
qm_port->state = PORT_STARTED; /* enabled at create time */
qm_port->config_state = DLB2_CONFIGURED;
- qm_port->dir_credits = dir_credit_high_watermark;
- qm_port->ldb_credits = ldb_credit_high_watermark;
- qm_port->credit_pool[DLB2_DIR_QUEUE] = &dlb2->dir_credit_pool;
- qm_port->credit_pool[DLB2_LDB_QUEUE] = &dlb2->ldb_credit_pool;
+ if (dlb2->version == DLB2_HW_V2) {
+ qm_port->dir_credits = dir_credit_high_watermark;
+ qm_port->ldb_credits = ldb_credit_high_watermark;
+ qm_port->credit_pool[DLB2_DIR_QUEUE] = &dlb2->dir_credit_pool;
+ qm_port->credit_pool[DLB2_LDB_QUEUE] = &dlb2->ldb_credit_pool;
+
+ DLB2_LOG_DBG("dlb2: created ldb port %d, depth = %d, ldb credits=%d, dir credits=%d\n",
+ qm_port_id,
+ dequeue_depth,
+ qm_port->ldb_credits,
+ qm_port->dir_credits);
+ } else {
+ qm_port->credits = credit_high_watermark;
+ qm_port->credit_pool[DLB2_COMBINED_POOL] = &dlb2->credit_pool;
+
+ DLB2_LOG_DBG("dlb2: created ldb port %d, depth = %d, credits=%d\n",
+ qm_port_id,
+ dequeue_depth,
+ qm_port->credits);
+ }
+
+ qm_port->use_scalar = false;
- DLB2_LOG_DBG("dlb2: created ldb port %d, depth = %d, ldb credits=%d, dir credits=%d\n",
- qm_port_id,
- dequeue_depth,
- qm_port->ldb_credits,
- qm_port->dir_credits);
+#if (!defined RTE_ARCH_X86_64)
+ qm_port->use_scalar = true;
+#else
+ if ((qm_port->cq_depth > 64) ||
+ (!rte_is_power_of_2(qm_port->cq_depth)) ||
+ (dlb2->vector_opts_enabled == false))
+ qm_port->use_scalar = true;
+#endif
rte_spinlock_unlock(&handle->resource_lock);
struct dlb2_port *qm_port = NULL;
char mz_name[RTE_MEMZONE_NAMESIZE];
uint32_t qm_port_id;
- uint16_t ldb_credit_high_watermark;
- uint16_t dir_credit_high_watermark;
+ uint16_t ldb_credit_high_watermark = 0;
+ uint16_t dir_credit_high_watermark = 0;
+ uint16_t credit_high_watermark = 0;
if (dlb2 == NULL || handle == NULL)
return -EINVAL;
/* User controls the LDB high watermark via enqueue depth. The DIR high
* watermark is equal, unless the directed credit pool is too small.
*/
- ldb_credit_high_watermark = enqueue_depth;
-
- /* Don't use enqueue_depth if it would require more directed credits
- * than are available.
- */
- dir_credit_high_watermark =
- RTE_MIN(enqueue_depth,
- handle->cfg.num_dir_credits / dlb2->num_ports);
+ if (dlb2->version == DLB2_HW_V2) {
+ ldb_credit_high_watermark = enqueue_depth;
+ /* Don't use enqueue_depth if it would require more directed
+ * credits than are available.
+ */
+ dir_credit_high_watermark =
+ RTE_MIN(enqueue_depth,
+ handle->cfg.num_dir_credits / dlb2->num_ports);
+ } else
+ credit_high_watermark = enqueue_depth;
/* Per QM values */
qm_port->id = qm_port_id;
- qm_port->cached_ldb_credits = 0;
- qm_port->cached_dir_credits = 0;
+ if (dlb2->version == DLB2_HW_V2) {
+ qm_port->cached_ldb_credits = 0;
+ qm_port->cached_dir_credits = 0;
+ } else
+ qm_port->cached_credits = 0;
+
/* CQs with depth < 8 use an 8-entry queue, but withhold credits so
* the effective depth is smaller.
*/
qm_port->gen_bit_shift = __builtin_popcount(qm_port->cq_depth_mask);
/* starting value of gen bit - it toggles at wrap time */
qm_port->gen_bit = 1;
+ dlb2_hw_cq_bitmask_init(qm_port, qm_port->cq_depth);
qm_port->int_armed = false;
qm_port->state = PORT_STARTED; /* enabled at create time */
qm_port->config_state = DLB2_CONFIGURED;
- qm_port->dir_credits = dir_credit_high_watermark;
- qm_port->ldb_credits = ldb_credit_high_watermark;
- qm_port->credit_pool[DLB2_DIR_QUEUE] = &dlb2->dir_credit_pool;
- qm_port->credit_pool[DLB2_LDB_QUEUE] = &dlb2->ldb_credit_pool;
+ if (dlb2->version == DLB2_HW_V2) {
+ qm_port->dir_credits = dir_credit_high_watermark;
+ qm_port->ldb_credits = ldb_credit_high_watermark;
+ qm_port->credit_pool[DLB2_DIR_QUEUE] = &dlb2->dir_credit_pool;
+ qm_port->credit_pool[DLB2_LDB_QUEUE] = &dlb2->ldb_credit_pool;
+
+ DLB2_LOG_DBG("dlb2: created dir port %d, depth = %d cr=%d,%d\n",
+ qm_port_id,
+ dequeue_depth,
+ dir_credit_high_watermark,
+ ldb_credit_high_watermark);
+ } else {
+ qm_port->credits = credit_high_watermark;
+ qm_port->credit_pool[DLB2_COMBINED_POOL] = &dlb2->credit_pool;
- DLB2_LOG_DBG("dlb2: created dir port %d, depth = %d cr=%d,%d\n",
- qm_port_id,
- dequeue_depth,
- dir_credit_high_watermark,
- ldb_credit_high_watermark);
+ DLB2_LOG_DBG("dlb2: created dir port %d, depth = %d cr=%d\n",
+ qm_port_id,
+ dequeue_depth,
+ credit_high_watermark);
+ }
+
+#if (!defined RTE_ARCH_X86_64)
+ qm_port->use_scalar = true;
+#else
+ if ((qm_port->cq_depth > 64) ||
+ (!rte_is_power_of_2(qm_port->cq_depth)) ||
+ (dlb2->vector_opts_enabled == false))
+ qm_port->use_scalar = true;
+#endif
rte_spinlock_unlock(&handle->resource_lock);
struct dlb2_eventdev *dlb2;
struct dlb2_eventdev_port *ev_port;
int ret;
+ uint32_t hw_credit_quanta, sw_credit_quanta;
if (dev == NULL || port_conf == NULL) {
DLB2_LOG_ERR("Null parameter\n");
dlb2 = dlb2_pmd_priv(dev);
- if (ev_port_id >= DLB2_MAX_NUM_PORTS)
+ if (ev_port_id >= DLB2_MAX_NUM_PORTS(dlb2->version))
return -EINVAL;
if (port_conf->dequeue_depth >
RTE_EVENT_PORT_CFG_DISABLE_IMPL_REL);
ev_port->outstanding_releases = 0;
ev_port->inflight_credits = 0;
- ev_port->credit_update_quanta = RTE_LIBRTE_PMD_DLB2_SW_CREDIT_QUANTA;
ev_port->dlb2 = dlb2; /* reverse link */
+ /* Default for worker ports */
+ sw_credit_quanta = dlb2->sw_credit_quanta;
+ hw_credit_quanta = dlb2->hw_credit_quanta;
+
+ if (port_conf->event_port_cfg & RTE_EVENT_PORT_CFG_HINT_PRODUCER) {
+ /* Producer type ports. Mostly enqueue */
+ sw_credit_quanta = DLB2_SW_CREDIT_P_QUANTA_DEFAULT;
+ hw_credit_quanta = DLB2_SW_CREDIT_P_BATCH_SZ;
+ }
+ if (port_conf->event_port_cfg & RTE_EVENT_PORT_CFG_HINT_CONSUMER) {
+ /* Consumer type ports. Mostly dequeue */
+ sw_credit_quanta = DLB2_SW_CREDIT_C_QUANTA_DEFAULT;
+ hw_credit_quanta = DLB2_SW_CREDIT_C_BATCH_SZ;
+ }
+ ev_port->credit_update_quanta = sw_credit_quanta;
+ ev_port->qm_port.hw_credit_quanta = hw_credit_quanta;
+
/* Tear down pre-existing port->queue links */
if (dlb2->run_state == DLB2_RUN_STATE_STOPPED)
dlb2_port_link_teardown(dlb2, &dlb2->ev_ports[ev_port_id]);
cfg.port_id = qm_port_id;
if (ev_queue->depth_threshold == 0) {
- cfg.depth_threshold = RTE_PMD_DLB2_DEFAULT_DEPTH_THRESH;
- ev_queue->depth_threshold = RTE_PMD_DLB2_DEFAULT_DEPTH_THRESH;
+ cfg.depth_threshold = dlb2->default_depth_thresh;
+ ev_queue->depth_threshold =
+ dlb2->default_depth_thresh;
} else
cfg.depth_threshold = ev_queue->depth_threshold;
enum dlb2_hw_queue_types type)
{
uint32_t credits = *qm_port->credit_pool[type];
- uint32_t batch_size = DLB2_SW_CREDIT_BATCH_SZ;
+ /* By default hw_credit_quanta is DLB2_SW_CREDIT_BATCH_SZ */
+ uint32_t batch_size = qm_port->hw_credit_quanta;
if (unlikely(credits < batch_size))
batch_size = credits;
return 0;
}
+static inline int
+dlb2_check_enqueue_hw_credits(struct dlb2_port *qm_port)
+{
+ if (unlikely(qm_port->cached_credits == 0)) {
+ qm_port->cached_credits =
+ dlb2_port_credits_get(qm_port,
+ DLB2_COMBINED_POOL);
+ if (unlikely(qm_port->cached_credits == 0)) {
+ DLB2_INC_STAT(
+ qm_port->ev_port->stats.traffic.tx_nospc_hw_credits, 1);
+ DLB2_LOG_DBG("credits exhausted\n");
+ return 1; /* credits exhausted */
+ }
+ }
+
+ return 0;
+}
+
static __rte_always_inline void
dlb2_pp_write(struct dlb2_enqueue_qe *qe4,
struct process_local_port_data *port_data)
if (!qm_queue->is_directed) {
/* Load balanced destination queue */
- if (dlb2_check_enqueue_hw_ldb_credits(qm_port)) {
- rte_errno = -ENOSPC;
- return 1;
+ if (dlb2->version == DLB2_HW_V2) {
+ if (dlb2_check_enqueue_hw_ldb_credits(qm_port)) {
+ rte_errno = -ENOSPC;
+ return 1;
+ }
+ cached_credits = &qm_port->cached_ldb_credits;
+ } else {
+ if (dlb2_check_enqueue_hw_credits(qm_port)) {
+ rte_errno = -ENOSPC;
+ return 1;
+ }
+ cached_credits = &qm_port->cached_credits;
}
- cached_credits = &qm_port->cached_ldb_credits;
-
switch (ev->sched_type) {
case RTE_SCHED_TYPE_ORDERED:
DLB2_LOG_DBG("dlb2: put_qe: RTE_SCHED_TYPE_ORDERED\n");
} else {
/* Directed destination queue */
- if (dlb2_check_enqueue_hw_dir_credits(qm_port)) {
- rte_errno = -ENOSPC;
- return 1;
+ if (dlb2->version == DLB2_HW_V2) {
+ if (dlb2_check_enqueue_hw_dir_credits(qm_port)) {
+ rte_errno = -ENOSPC;
+ return 1;
+ }
+ cached_credits = &qm_port->cached_dir_credits;
+ } else {
+ if (dlb2_check_enqueue_hw_credits(qm_port)) {
+ rte_errno = -ENOSPC;
+ return 1;
+ }
+ cached_credits = &qm_port->cached_credits;
}
- cached_credits = &qm_port->cached_dir_credits;
-
DLB2_LOG_DBG("dlb2: put_qe: RTE_SCHED_TYPE_DIRECTED\n");
*sched_type = DLB2_SCHED_DIRECTED;
DLB2_INC_STAT(ev_port->stats.tx_op_cnt[ev->op], 1);
DLB2_INC_STAT(ev_port->stats.traffic.tx_ok, 1);
-#ifndef RTE_LIBRTE_PMD_DLB2_QUELL_STATS
+#ifndef RTE_LIBRTE_PMD_DLB_QUELL_STATS
if (ev->op != RTE_EVENT_OP_RELEASE) {
DLB2_INC_STAT(ev_port->stats.queue[ev->queue_id].enq_ok, 1);
DLB2_INC_STAT(ev_port->stats.tx_sched_cnt[*sched_type], 1);
int j = 0;
/* Zero-out QEs */
- qm_port->qe4[0].cmd_byte = 0;
- qm_port->qe4[1].cmd_byte = 0;
- qm_port->qe4[2].cmd_byte = 0;
- qm_port->qe4[3].cmd_byte = 0;
+ _mm_storeu_si128((void *)&qm_port->qe4[0], _mm_setzero_si128());
+ _mm_storeu_si128((void *)&qm_port->qe4[1], _mm_setzero_si128());
+ _mm_storeu_si128((void *)&qm_port->qe4[2], _mm_setzero_si128());
+ _mm_storeu_si128((void *)&qm_port->qe4[3], _mm_setzero_si128());
+
for (; j < DLB2_NUM_QES_PER_CACHE_LINE && (i + j) < n; j++) {
int16_t thresh = qm_port->token_pop_thresh;
sw_credit_update:
/* each release returns one credit */
- if (!ev_port->outstanding_releases) {
+ if (unlikely(!ev_port->outstanding_releases)) {
DLB2_LOG_ERR("%s: Outstanding releases underflowed.\n",
__func__);
return;
static inline void
dlb2_port_credits_inc(struct dlb2_port *qm_port, int num)
{
- uint32_t batch_size = DLB2_SW_CREDIT_BATCH_SZ;
+ uint32_t batch_size = qm_port->hw_credit_quanta;
/* increment port credits, and return to pool if exceeds threshold */
if (!qm_port->is_directed) {
- qm_port->cached_ldb_credits += num;
- if (qm_port->cached_ldb_credits >= 2 * batch_size) {
- __atomic_fetch_add(
- qm_port->credit_pool[DLB2_LDB_QUEUE],
- batch_size, __ATOMIC_SEQ_CST);
- qm_port->cached_ldb_credits -= batch_size;
+ if (qm_port->dlb2->version == DLB2_HW_V2) {
+ qm_port->cached_ldb_credits += num;
+ if (qm_port->cached_ldb_credits >= 2 * batch_size) {
+ __atomic_fetch_add(
+ qm_port->credit_pool[DLB2_LDB_QUEUE],
+ batch_size, __ATOMIC_SEQ_CST);
+ qm_port->cached_ldb_credits -= batch_size;
+ }
+ } else {
+ qm_port->cached_credits += num;
+ if (qm_port->cached_credits >= 2 * batch_size) {
+ __atomic_fetch_add(
+ qm_port->credit_pool[DLB2_COMBINED_POOL],
+ batch_size, __ATOMIC_SEQ_CST);
+ qm_port->cached_credits -= batch_size;
+ }
}
} else {
- qm_port->cached_dir_credits += num;
- if (qm_port->cached_dir_credits >= 2 * batch_size) {
- __atomic_fetch_add(
- qm_port->credit_pool[DLB2_DIR_QUEUE],
- batch_size, __ATOMIC_SEQ_CST);
- qm_port->cached_dir_credits -= batch_size;
+ if (qm_port->dlb2->version == DLB2_HW_V2) {
+ qm_port->cached_dir_credits += num;
+ if (qm_port->cached_dir_credits >= 2 * batch_size) {
+ __atomic_fetch_add(
+ qm_port->credit_pool[DLB2_DIR_QUEUE],
+ batch_size, __ATOMIC_SEQ_CST);
+ qm_port->cached_dir_credits -= batch_size;
+ }
+ } else {
+ qm_port->cached_credits += num;
+ if (qm_port->cached_credits >= 2 * batch_size) {
+ __atomic_fetch_add(
+ qm_port->credit_pool[DLB2_COMBINED_POOL],
+ batch_size, __ATOMIC_SEQ_CST);
+ qm_port->cached_credits -= batch_size;
+ }
}
}
}
+#define CLB_MASK_IDX 0
+#define CLB_VAL_IDX 1
+static int
+dlb2_monitor_callback(const uint64_t val,
+ const uint64_t opaque[RTE_POWER_MONITOR_OPAQUE_SZ])
+{
+ /* abort if the value matches */
+ return (val & opaque[CLB_MASK_IDX]) == opaque[CLB_VAL_IDX] ? -1 : 0;
+}
+
static inline int
dlb2_dequeue_wait(struct dlb2_eventdev *dlb2,
struct dlb2_eventdev_port *ev_port,
expected_value = 0;
pmc.addr = monitor_addr;
- pmc.val = expected_value;
- pmc.mask = qe_mask.raw_qe[1];
- pmc.data_sz = sizeof(uint64_t);
+ /* store expected value and comparison mask in opaque data */
+ pmc.opaque[CLB_VAL_IDX] = expected_value;
+ pmc.opaque[CLB_MASK_IDX] = qe_mask.raw_qe[1];
+ /* set up callback */
+ pmc.fn = dlb2_monitor_callback;
+ pmc.size = sizeof(uint64_t);
rte_power_monitor(&pmc, timeout + start_ticks);
DLB2_INC_STAT(ev_port->stats.traffic.rx_umonitor_umwait, 1);
} else {
- uint64_t poll_interval = RTE_LIBRTE_PMD_DLB2_POLL_INTERVAL;
+ uint64_t poll_interval = dlb2->poll_interval;
uint64_t curr_ticks = rte_get_timer_cycles();
uint64_t init_ticks = curr_ticks;
return 0;
}
-static inline int
+static __rte_noinline int
dlb2_process_dequeue_qes(struct dlb2_eventdev_port *ev_port,
struct dlb2_port *qm_port,
struct rte_event *events,
cq_addr = dlb2_port[qm_port->id][PORT_TYPE(qm_port)].cq_base;
- idx = qm_port->cq_idx;
-
+ idx = qm_port->cq_idx_unmasked & qm_port->cq_depth_mask;
/* Load the next 4 QEs */
addr[0] = (uintptr_t)&cq_addr[idx];
addr[1] = (uintptr_t)&cq_addr[(idx + 4) & qm_port->cq_depth_mask];
return __builtin_popcount(gen_bits);
}
+static inline void
+_process_deq_qes_vec_impl(struct dlb2_port *qm_port,
+ struct rte_event *events,
+ __m128i v_qe_3,
+ __m128i v_qe_2,
+ __m128i v_qe_1,
+ __m128i v_qe_0,
+ __m128i v_qe_meta,
+ __m128i v_qe_status,
+ uint32_t valid_events)
+{
+ /* Look up the event QIDs, using the hardware QIDs to index the
+ * port's QID mapping.
+ *
+ * Each v_qe_[0-4] is just a 16-byte load of the whole QE. It is
+ * passed along in registers as the QE data is required later.
+ *
+ * v_qe_meta is an u32 unpack of all 4x QEs. A.k.a, it contains one
+ * 32-bit slice of each QE, so makes up a full SSE register. This
+ * allows parallel processing of 4x QEs in a single register.
+ */
+
+ __m128i v_qid_done = {0};
+ int hw_qid0 = _mm_extract_epi8(v_qe_meta, 2);
+ int hw_qid1 = _mm_extract_epi8(v_qe_meta, 6);
+ int hw_qid2 = _mm_extract_epi8(v_qe_meta, 10);
+ int hw_qid3 = _mm_extract_epi8(v_qe_meta, 14);
+
+ int ev_qid0 = qm_port->qid_mappings[hw_qid0];
+ int ev_qid1 = qm_port->qid_mappings[hw_qid1];
+ int ev_qid2 = qm_port->qid_mappings[hw_qid2];
+ int ev_qid3 = qm_port->qid_mappings[hw_qid3];
+
+ int hw_sched0 = _mm_extract_epi8(v_qe_meta, 3) & 3ul;
+ int hw_sched1 = _mm_extract_epi8(v_qe_meta, 7) & 3ul;
+ int hw_sched2 = _mm_extract_epi8(v_qe_meta, 11) & 3ul;
+ int hw_sched3 = _mm_extract_epi8(v_qe_meta, 15) & 3ul;
+
+ v_qid_done = _mm_insert_epi8(v_qid_done, ev_qid0, 2);
+ v_qid_done = _mm_insert_epi8(v_qid_done, ev_qid1, 6);
+ v_qid_done = _mm_insert_epi8(v_qid_done, ev_qid2, 10);
+ v_qid_done = _mm_insert_epi8(v_qid_done, ev_qid3, 14);
+
+ /* Schedule field remapping using byte shuffle
+ * - Full byte containing sched field handled here (op, rsvd are zero)
+ * - Note sanitizing the register requires two masking ANDs:
+ * 1) to strip prio/msg_type from byte for correct shuffle lookup
+ * 2) to strip any non-sched-field lanes from any results to OR later
+ * - Final byte result is >> 10 to another byte-lane inside the u32.
+ * This makes the final combination OR easier to make the rte_event.
+ */
+ __m128i v_sched_done;
+ __m128i v_sched_bits;
+ {
+ static const uint8_t sched_type_map[16] = {
+ [DLB2_SCHED_ATOMIC] = RTE_SCHED_TYPE_ATOMIC,
+ [DLB2_SCHED_UNORDERED] = RTE_SCHED_TYPE_PARALLEL,
+ [DLB2_SCHED_ORDERED] = RTE_SCHED_TYPE_ORDERED,
+ [DLB2_SCHED_DIRECTED] = RTE_SCHED_TYPE_ATOMIC,
+ };
+ static const uint8_t sched_and_mask[16] = {
+ 0x00, 0x00, 0x00, 0x03,
+ 0x00, 0x00, 0x00, 0x03,
+ 0x00, 0x00, 0x00, 0x03,
+ 0x00, 0x00, 0x00, 0x03,
+ };
+ const __m128i v_sched_map = _mm_loadu_si128(
+ (const __m128i *)sched_type_map);
+ __m128i v_sched_mask = _mm_loadu_si128(
+ (const __m128i *)&sched_and_mask);
+ v_sched_bits = _mm_and_si128(v_qe_meta, v_sched_mask);
+ __m128i v_sched_remapped = _mm_shuffle_epi8(v_sched_map,
+ v_sched_bits);
+ __m128i v_preshift = _mm_and_si128(v_sched_remapped,
+ v_sched_mask);
+ v_sched_done = _mm_srli_epi32(v_preshift, 10);
+ }
+
+ /* Priority handling
+ * - QE provides 3 bits of priority
+ * - Shift << 3 to move to MSBs for byte-prio in rte_event
+ * - Mask bits to avoid pollution, leaving only 3 prio MSBs in reg
+ */
+ __m128i v_prio_done;
+ {
+ static const uint8_t prio_mask[16] = {
+ 0x00, 0x00, 0x00, 0x07 << 5,
+ 0x00, 0x00, 0x00, 0x07 << 5,
+ 0x00, 0x00, 0x00, 0x07 << 5,
+ 0x00, 0x00, 0x00, 0x07 << 5,
+ };
+ __m128i v_prio_mask = _mm_loadu_si128(
+ (const __m128i *)prio_mask);
+ __m128i v_prio_shifted = _mm_slli_epi32(v_qe_meta, 3);
+ v_prio_done = _mm_and_si128(v_prio_shifted, v_prio_mask);
+ }
+
+ /* Event Sub/Type handling:
+ * we want to keep the lower 12 bits of each QE. Shift up by 20 bits
+ * to get the sub/ev type data into rte_event location, clearing the
+ * lower 20 bits in the process.
+ */
+ __m128i v_types_done;
+ {
+ static const uint8_t event_mask[16] = {
+ 0x0f, 0x00, 0x00, 0x00,
+ 0x0f, 0x00, 0x00, 0x00,
+ 0x0f, 0x00, 0x00, 0x00,
+ 0x0f, 0x00, 0x00, 0x00,
+ };
+ static const uint8_t sub_event_mask[16] = {
+ 0xff, 0x00, 0x00, 0x00,
+ 0xff, 0x00, 0x00, 0x00,
+ 0xff, 0x00, 0x00, 0x00,
+ 0xff, 0x00, 0x00, 0x00,
+ };
+ static const uint8_t flow_mask[16] = {
+ 0xff, 0xff, 0x00, 0x00,
+ 0xff, 0xff, 0x00, 0x00,
+ 0xff, 0xff, 0x00, 0x00,
+ 0xff, 0xff, 0x00, 0x00,
+ };
+ __m128i v_event_mask = _mm_loadu_si128(
+ (const __m128i *)event_mask);
+ __m128i v_sub_event_mask = _mm_loadu_si128(
+ (const __m128i *)sub_event_mask);
+ __m128i v_flow_mask = _mm_loadu_si128(
+ (const __m128i *)flow_mask);
+ __m128i v_sub = _mm_srli_epi32(v_qe_meta, 8);
+ v_sub = _mm_and_si128(v_sub, v_sub_event_mask);
+ __m128i v_type = _mm_and_si128(v_qe_meta, v_event_mask);
+ v_type = _mm_slli_epi32(v_type, 8);
+ v_types_done = _mm_or_si128(v_type, v_sub);
+ v_types_done = _mm_slli_epi32(v_types_done, 20);
+ __m128i v_flow = _mm_and_si128(v_qe_status, v_flow_mask);
+ v_types_done = _mm_or_si128(v_types_done, v_flow);
+ }
+
+ /* Combine QID, Sched and Prio fields, then Shift >> 8 bits to align
+ * with the rte_event, allowing unpacks to move/blend with payload.
+ */
+ __m128i v_q_s_p_done;
+ {
+ __m128i v_qid_sched = _mm_or_si128(v_qid_done, v_sched_done);
+ __m128i v_q_s_prio = _mm_or_si128(v_qid_sched, v_prio_done);
+ v_q_s_p_done = _mm_srli_epi32(v_q_s_prio, 8);
+ }
+
+ __m128i v_unpk_ev_23, v_unpk_ev_01, v_ev_2, v_ev_3, v_ev_0, v_ev_1;
+
+ /* Unpack evs into u64 metadata, then indiv events */
+ v_unpk_ev_23 = _mm_unpackhi_epi32(v_types_done, v_q_s_p_done);
+ v_unpk_ev_01 = _mm_unpacklo_epi32(v_types_done, v_q_s_p_done);
+
+ switch (valid_events) {
+ case 4:
+ v_ev_3 = _mm_blend_epi16(v_unpk_ev_23, v_qe_3, 0x0F);
+ v_ev_3 = _mm_alignr_epi8(v_ev_3, v_ev_3, 8);
+ _mm_storeu_si128((__m128i *)&events[3], v_ev_3);
+ DLB2_INC_STAT(qm_port->ev_port->stats.rx_sched_cnt[hw_sched3],
+ 1);
+ /* fallthrough */
+ case 3:
+ v_ev_2 = _mm_unpacklo_epi64(v_unpk_ev_23, v_qe_2);
+ _mm_storeu_si128((__m128i *)&events[2], v_ev_2);
+ DLB2_INC_STAT(qm_port->ev_port->stats.rx_sched_cnt[hw_sched2],
+ 1);
+ /* fallthrough */
+ case 2:
+ v_ev_1 = _mm_blend_epi16(v_unpk_ev_01, v_qe_1, 0x0F);
+ v_ev_1 = _mm_alignr_epi8(v_ev_1, v_ev_1, 8);
+ _mm_storeu_si128((__m128i *)&events[1], v_ev_1);
+ DLB2_INC_STAT(qm_port->ev_port->stats.rx_sched_cnt[hw_sched1],
+ 1);
+ /* fallthrough */
+ case 1:
+ v_ev_0 = _mm_unpacklo_epi64(v_unpk_ev_01, v_qe_0);
+ _mm_storeu_si128((__m128i *)&events[0], v_ev_0);
+ DLB2_INC_STAT(qm_port->ev_port->stats.rx_sched_cnt[hw_sched0],
+ 1);
+ }
+}
+
+static __rte_always_inline int
+dlb2_recv_qe_sparse_vec(struct dlb2_port *qm_port, void *events,
+ uint32_t max_events)
+{
+ /* Using unmasked idx for perf, and masking manually */
+ uint16_t idx = qm_port->cq_idx_unmasked;
+ volatile struct dlb2_dequeue_qe *cq_addr;
+
+ cq_addr = dlb2_port[qm_port->id][PORT_TYPE(qm_port)].cq_base;
+
+ uintptr_t qe_ptr_3 = (uintptr_t)&cq_addr[(idx + 12) &
+ qm_port->cq_depth_mask];
+ uintptr_t qe_ptr_2 = (uintptr_t)&cq_addr[(idx + 8) &
+ qm_port->cq_depth_mask];
+ uintptr_t qe_ptr_1 = (uintptr_t)&cq_addr[(idx + 4) &
+ qm_port->cq_depth_mask];
+ uintptr_t qe_ptr_0 = (uintptr_t)&cq_addr[(idx + 0) &
+ qm_port->cq_depth_mask];
+
+ /* Load QEs from CQ: use compiler barriers to avoid load reordering */
+ __m128i v_qe_3 = _mm_loadu_si128((const __m128i *)qe_ptr_3);
+ rte_compiler_barrier();
+ __m128i v_qe_2 = _mm_loadu_si128((const __m128i *)qe_ptr_2);
+ rte_compiler_barrier();
+ __m128i v_qe_1 = _mm_loadu_si128((const __m128i *)qe_ptr_1);
+ rte_compiler_barrier();
+ __m128i v_qe_0 = _mm_loadu_si128((const __m128i *)qe_ptr_0);
+
+ /* Generate the pkt_shuffle mask;
+ * - Avoids load in otherwise load-heavy section of code
+ * - Moves bytes 3,7,11,15 (gen bit bytes) to LSB bytes in XMM
+ */
+ const uint32_t stat_shuf_bytes = (15 << 24) | (11 << 16) | (7 << 8) | 3;
+ __m128i v_zeros = _mm_setzero_si128();
+ __m128i v_ffff = _mm_cmpeq_epi8(v_zeros, v_zeros);
+ __m128i v_stat_shuf_mask = _mm_insert_epi32(v_ffff, stat_shuf_bytes, 0);
+
+ /* Extract u32 components required from the QE
+ * - QE[64 to 95 ] for metadata (qid, sched, prio, event type, ...)
+ * - QE[96 to 127] for status (cq gen bit, error)
+ *
+ * Note that stage 1 of the unpacking is re-used for both u32 extracts
+ */
+ __m128i v_qe_02 = _mm_unpackhi_epi32(v_qe_0, v_qe_2);
+ __m128i v_qe_13 = _mm_unpackhi_epi32(v_qe_1, v_qe_3);
+ __m128i v_qe_status = _mm_unpackhi_epi32(v_qe_02, v_qe_13);
+ __m128i v_qe_meta = _mm_unpacklo_epi32(v_qe_02, v_qe_13);
+
+ /* Status byte (gen_bit, error) handling:
+ * - Shuffle to lanes 0,1,2,3, clear all others
+ * - Shift right by 7 for gen bit to MSB, movemask to scalar
+ * - Shift right by 2 for error bit to MSB, movemask to scalar
+ */
+ __m128i v_qe_shuffled = _mm_shuffle_epi8(v_qe_status, v_stat_shuf_mask);
+ __m128i v_qes_shift_gen_bit = _mm_slli_epi32(v_qe_shuffled, 7);
+ int32_t qe_gen_bits = _mm_movemask_epi8(v_qes_shift_gen_bit) & 0xf;
+
+ /* Expected vs Reality of QE Gen bits
+ * - cq_rolling_mask provides expected bits
+ * - QE loads, unpacks/shuffle and movemask provides reality
+ * - XOR of the two gives bitmask of new packets
+ * - POPCNT to get the number of new events
+ */
+ uint64_t rolling = qm_port->cq_rolling_mask & 0xF;
+ uint64_t qe_xor_bits = (qe_gen_bits ^ rolling);
+ uint32_t count_new = __builtin_popcount(qe_xor_bits);
+ count_new = RTE_MIN(count_new, max_events);
+ if (!count_new)
+ return 0;
+
+ /* emulate a 128 bit rotate using 2x 64-bit numbers and bit-shifts */
+
+ uint64_t m_rshift = qm_port->cq_rolling_mask >> count_new;
+ uint64_t m_lshift = qm_port->cq_rolling_mask << (64 - count_new);
+ uint64_t m2_rshift = qm_port->cq_rolling_mask_2 >> count_new;
+ uint64_t m2_lshift = qm_port->cq_rolling_mask_2 << (64 - count_new);
+
+ /* shifted out of m2 into MSB of m */
+ qm_port->cq_rolling_mask = (m_rshift | m2_lshift);
+
+ /* shifted out of m "looped back" into MSB of m2 */
+ qm_port->cq_rolling_mask_2 = (m2_rshift | m_lshift);
+
+ /* Prefetch the next QEs - should run as IPC instead of cycles */
+ rte_prefetch0(&cq_addr[(idx + 16) & qm_port->cq_depth_mask]);
+ rte_prefetch0(&cq_addr[(idx + 20) & qm_port->cq_depth_mask]);
+ rte_prefetch0(&cq_addr[(idx + 24) & qm_port->cq_depth_mask]);
+ rte_prefetch0(&cq_addr[(idx + 28) & qm_port->cq_depth_mask]);
+
+ /* Convert QEs from XMM regs to events and store events directly */
+ _process_deq_qes_vec_impl(qm_port, events, v_qe_3, v_qe_2, v_qe_1,
+ v_qe_0, v_qe_meta, v_qe_status, count_new);
+
+ return count_new;
+}
+
static inline void
dlb2_inc_cq_idx(struct dlb2_port *qm_port, int cnt)
{
uint16_t max_num,
uint64_t dequeue_timeout_ticks)
{
- uint64_t timeout;
uint64_t start_ticks = 0ULL;
struct dlb2_port *qm_port;
int num = 0;
+ bool use_scalar;
+ uint64_t timeout;
qm_port = &ev_port->qm_port;
+ use_scalar = qm_port->use_scalar;
- /* We have a special implementation for waiting. Wait can be:
- * 1) no waiting at all
- * 2) busy poll only
- * 3) wait for interrupt. If wakeup and poll time
- * has expired, then return to caller
- * 4) umonitor/umwait repeatedly up to poll time
- */
-
- /* If configured for per dequeue wait, then use wait value provided
- * to this API. Otherwise we must use the global
- * value from eventdev config time.
- */
if (!dlb2->global_dequeue_wait)
timeout = dequeue_timeout_ticks;
else
start_ticks = rte_get_timer_cycles();
+ use_scalar = use_scalar || (max_num & 0x3);
+
while (num < max_num) {
struct dlb2_dequeue_qe qes[DLB2_NUM_QES_PER_CACHE_LINE];
int num_avail;
-
- /* Copy up to 4 QEs from the current cache line into qes */
- num_avail = dlb2_recv_qe_sparse(qm_port, qes);
-
- /* But don't process more than the user requested */
- num_avail = RTE_MIN(num_avail, max_num - num);
-
- dlb2_inc_cq_idx(qm_port, num_avail << 2);
-
- if (num_avail == DLB2_NUM_QES_PER_CACHE_LINE)
- num += dlb2_process_dequeue_four_qes(ev_port,
- qm_port,
- &events[num],
- &qes[0]);
- else if (num_avail)
- num += dlb2_process_dequeue_qes(ev_port,
- qm_port,
- &events[num],
- &qes[0],
- num_avail);
- else if ((timeout == 0) || (num > 0))
- /* Not waiting in any form, or 1+ events received? */
- break;
- else if (dlb2_dequeue_wait(dlb2, ev_port, qm_port,
- timeout, start_ticks))
- break;
+ if (use_scalar) {
+ num_avail = dlb2_recv_qe_sparse(qm_port, qes);
+ num_avail = RTE_MIN(num_avail, max_num - num);
+ dlb2_inc_cq_idx(qm_port, num_avail << 2);
+ if (num_avail == DLB2_NUM_QES_PER_CACHE_LINE)
+ num += dlb2_process_dequeue_four_qes(ev_port,
+ qm_port,
+ &events[num],
+ &qes[0]);
+ else if (num_avail)
+ num += dlb2_process_dequeue_qes(ev_port,
+ qm_port,
+ &events[num],
+ &qes[0],
+ num_avail);
+ } else { /* !use_scalar */
+ num_avail = dlb2_recv_qe_sparse_vec(qm_port,
+ &events[num],
+ max_num - num);
+ num += num_avail;
+ dlb2_inc_cq_idx(qm_port, num_avail << 2);
+ DLB2_INC_STAT(ev_port->stats.traffic.rx_ok, num_avail);
+ }
+ if (!num_avail) {
+ if (num > 0)
+ break;
+ else if (dlb2_dequeue_wait(dlb2, ev_port, qm_port,
+ timeout, start_ticks))
+ break;
+ }
}
qm_port->owed_tokens += num;
struct dlb2_eventdev *dlb2;
/* Expose PMD's eventdev interface */
- static struct rte_eventdev_ops dlb2_eventdev_entry_ops = {
+ static struct eventdev_ops dlb2_eventdev_entry_ops = {
.dev_infos_get = dlb2_eventdev_info_get,
.dev_configure = dlb2_eventdev_configure,
.dev_start = dlb2_eventdev_start,
dlb2->max_num_events_override = dlb2_args->max_num_events;
dlb2->num_dir_credits_override = dlb2_args->num_dir_credits_override;
dlb2->qm_instance.cos_id = dlb2_args->cos_id;
+ dlb2->poll_interval = dlb2_args->poll_interval;
+ dlb2->sw_credit_quanta = dlb2_args->sw_credit_quanta;
+ dlb2->hw_credit_quanta = dlb2_args->hw_credit_quanta;
+ dlb2->default_depth_thresh = dlb2_args->default_depth_thresh;
+ dlb2->vector_opts_enabled = dlb2_args->vector_opts_enabled;
err = dlb2_iface_open(&dlb2->qm_instance, name);
if (err < 0) {
}
/* Initialize each port's token pop mode */
- for (i = 0; i < DLB2_MAX_NUM_PORTS; i++)
+ for (i = 0; i < DLB2_MAX_NUM_PORTS(dlb2->version); i++)
dlb2->ev_ports[i].qm_port.token_pop_mode = AUTO_POP;
rte_spinlock_init(&dlb2->qm_instance.resource_lock);
int
dlb2_parse_params(const char *params,
const char *name,
- struct dlb2_devargs *dlb2_args)
+ struct dlb2_devargs *dlb2_args,
+ uint8_t version)
{
int ret = 0;
static const char * const args[] = { NUMA_NODE_ARG,
DEV_ID_ARG,
DLB2_QID_DEPTH_THRESH_ARG,
DLB2_COS_ARG,
+ DLB2_POLL_INTERVAL_ARG,
+ DLB2_SW_CREDIT_QUANTA_ARG,
+ DLB2_HW_CREDIT_QUANTA_ARG,
+ DLB2_DEPTH_THRESH_ARG,
+ DLB2_VECTOR_OPTS_ENAB_ARG,
NULL };
if (params != NULL && params[0] != '\0') {
return ret;
}
- ret = rte_kvargs_process(kvlist,
+ if (version == DLB2_HW_V2) {
+ ret = rte_kvargs_process(kvlist,
DLB2_NUM_DIR_CREDITS,
set_num_dir_credits,
&dlb2_args->num_dir_credits_override);
- if (ret != 0) {
- DLB2_LOG_ERR("%s: Error parsing num_dir_credits parameter",
- name);
- rte_kvargs_free(kvlist);
- return ret;
+ if (ret != 0) {
+ DLB2_LOG_ERR("%s: Error parsing num_dir_credits parameter",
+ name);
+ rte_kvargs_free(kvlist);
+ return ret;
+ }
}
-
ret = rte_kvargs_process(kvlist, DEV_ID_ARG,
set_dev_id,
&dlb2_args->dev_id);
return ret;
}
- ret = rte_kvargs_process(
+ if (version == DLB2_HW_V2) {
+ ret = rte_kvargs_process(
kvlist,
DLB2_QID_DEPTH_THRESH_ARG,
set_qid_depth_thresh,
&dlb2_args->qid_depth_thresholds);
+ } else {
+ ret = rte_kvargs_process(
+ kvlist,
+ DLB2_QID_DEPTH_THRESH_ARG,
+ set_qid_depth_thresh_v2_5,
+ &dlb2_args->qid_depth_thresholds);
+ }
if (ret != 0) {
DLB2_LOG_ERR("%s: Error parsing qid_depth_thresh parameter",
name);
return ret;
}
+ ret = rte_kvargs_process(kvlist, DLB2_POLL_INTERVAL_ARG,
+ set_poll_interval,
+ &dlb2_args->poll_interval);
+ if (ret != 0) {
+ DLB2_LOG_ERR("%s: Error parsing poll interval parameter",
+ name);
+ rte_kvargs_free(kvlist);
+ return ret;
+ }
+
+ ret = rte_kvargs_process(kvlist,
+ DLB2_SW_CREDIT_QUANTA_ARG,
+ set_sw_credit_quanta,
+ &dlb2_args->sw_credit_quanta);
+ if (ret != 0) {
+ DLB2_LOG_ERR("%s: Error parsing sw credit quanta parameter",
+ name);
+ rte_kvargs_free(kvlist);
+ return ret;
+ }
+
+ ret = rte_kvargs_process(kvlist,
+ DLB2_HW_CREDIT_QUANTA_ARG,
+ set_hw_credit_quanta,
+ &dlb2_args->hw_credit_quanta);
+ if (ret != 0) {
+ DLB2_LOG_ERR("%s: Error parsing hw credit quanta parameter",
+ name);
+ rte_kvargs_free(kvlist);
+ return ret;
+ }
+
+ ret = rte_kvargs_process(kvlist, DLB2_DEPTH_THRESH_ARG,
+ set_default_depth_thresh,
+ &dlb2_args->default_depth_thresh);
+ if (ret != 0) {
+ DLB2_LOG_ERR("%s: Error parsing set depth thresh parameter",
+ name);
+ rte_kvargs_free(kvlist);
+ return ret;
+ }
+
+ ret = rte_kvargs_process(kvlist,
+ DLB2_VECTOR_OPTS_ENAB_ARG,
+ set_vector_opts_enab,
+ &dlb2_args->vector_opts_enabled);
+ if (ret != 0) {
+ DLB2_LOG_ERR("%s: Error parsing vector opts enabled",
+ name);
+ rte_kvargs_free(kvlist);
+ return ret;
+ }
+
rte_kvargs_free(kvlist);
}
}
return ret;
}
-RTE_LOG_REGISTER(eventdev_dlb2_log_level, pmd.event.dlb2, NOTICE);
+RTE_LOG_REGISTER_DEFAULT(eventdev_dlb2_log_level, NOTICE);