DPDK  22.11.7
rte_eventdev.h
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1 /* SPDX-License-Identifier: BSD-3-Clause
2  * Copyright(c) 2016 Cavium, Inc.
3  * Copyright(c) 2016-2018 Intel Corporation.
4  * Copyright 2016 NXP
5  * All rights reserved.
6  */
7 
8 #ifndef _RTE_EVENTDEV_H_
9 #define _RTE_EVENTDEV_H_
10 
209 #ifdef __cplusplus
210 extern "C" {
211 #endif
212 
213 #include <rte_compat.h>
214 #include <rte_common.h>
215 #include <rte_errno.h>
216 #include <rte_mbuf_pool_ops.h>
217 #include <rte_mempool.h>
218 
219 #include "rte_eventdev_trace_fp.h"
220 
221 struct rte_mbuf; /* we just use mbuf pointers; no need to include rte_mbuf.h */
222 struct rte_event;
223 
224 /* Event device capability bitmap flags */
225 #define RTE_EVENT_DEV_CAP_QUEUE_QOS (1ULL << 0)
226 
237 #define RTE_EVENT_DEV_CAP_EVENT_QOS (1ULL << 1)
238 
244 #define RTE_EVENT_DEV_CAP_DISTRIBUTED_SCHED (1ULL << 2)
245 
253 #define RTE_EVENT_DEV_CAP_QUEUE_ALL_TYPES (1ULL << 3)
254 
260 #define RTE_EVENT_DEV_CAP_BURST_MODE (1ULL << 4)
261 
268 #define RTE_EVENT_DEV_CAP_IMPLICIT_RELEASE_DISABLE (1ULL << 5)
269 
279 #define RTE_EVENT_DEV_CAP_NONSEQ_MODE (1ULL << 6)
280 
289 #define RTE_EVENT_DEV_CAP_RUNTIME_PORT_LINK (1ULL << 7)
290 
295 #define RTE_EVENT_DEV_CAP_MULTIPLE_QUEUE_PORT (1ULL << 8)
296 
301 #define RTE_EVENT_DEV_CAP_CARRY_FLOW_ID (1ULL << 9)
302 
307 #define RTE_EVENT_DEV_CAP_MAINTENANCE_FREE (1ULL << 10)
308 
317 #define RTE_EVENT_DEV_CAP_RUNTIME_QUEUE_ATTR (1ULL << 11)
318 
324 /* Event device priority levels */
325 #define RTE_EVENT_DEV_PRIORITY_HIGHEST 0
326 
330 #define RTE_EVENT_DEV_PRIORITY_NORMAL 128
331 
335 #define RTE_EVENT_DEV_PRIORITY_LOWEST 255
336 
341 /* Event queue scheduling weights */
342 #define RTE_EVENT_QUEUE_WEIGHT_HIGHEST 255
343 
346 #define RTE_EVENT_QUEUE_WEIGHT_LOWEST 0
347 
351 /* Event queue scheduling affinity */
352 #define RTE_EVENT_QUEUE_AFFINITY_HIGHEST 255
353 
356 #define RTE_EVENT_QUEUE_AFFINITY_LOWEST 0
357 
368 uint8_t
369 rte_event_dev_count(void);
370 
381 int
382 rte_event_dev_get_dev_id(const char *name);
383 
394 int
395 rte_event_dev_socket_id(uint8_t dev_id);
396 
400 struct rte_event_dev_info {
401  const char *driver_name;
402  struct rte_device *dev;
403  uint32_t min_dequeue_timeout_ns;
405  uint32_t max_dequeue_timeout_ns;
407  uint32_t dequeue_timeout_ns;
409  uint8_t max_event_queues;
411  uint32_t max_event_queue_flows;
413  uint8_t max_event_queue_priority_levels;
417  uint8_t max_event_priority_levels;
421  uint8_t max_event_ports;
423  uint8_t max_event_port_dequeue_depth;
428  uint32_t max_event_port_enqueue_depth;
433  uint8_t max_event_port_links;
437  int32_t max_num_events;
442  uint32_t event_dev_cap;
444  uint8_t max_single_link_event_port_queue_pairs;
450 };
451 
467 int
468 rte_event_dev_info_get(uint8_t dev_id, struct rte_event_dev_info *dev_info);
469 
473 #define RTE_EVENT_DEV_ATTR_PORT_COUNT 0
474 
477 #define RTE_EVENT_DEV_ATTR_QUEUE_COUNT 1
478 
481 #define RTE_EVENT_DEV_ATTR_STARTED 2
482 
495 int
496 rte_event_dev_attr_get(uint8_t dev_id, uint32_t attr_id,
497  uint32_t *attr_value);
498 
499 
500 /* Event device configuration bitmap flags */
501 #define RTE_EVENT_DEV_CFG_PER_DEQUEUE_TIMEOUT (1ULL << 0)
502 
507 struct rte_event_dev_config {
508  uint32_t dequeue_timeout_ns;
516  int32_t nb_events_limit;
529  uint8_t nb_event_queues;
539  uint8_t nb_event_ports;
549  uint32_t nb_event_queue_flows;
554  uint32_t nb_event_port_dequeue_depth;
561  uint32_t nb_event_port_enqueue_depth;
568  uint32_t event_dev_cfg;
570  uint8_t nb_single_link_event_port_queues;
578 };
579 
599 int
600 rte_event_dev_configure(uint8_t dev_id,
601  const struct rte_event_dev_config *dev_conf);
602 
603 /* Event queue specific APIs */
604 
605 /* Event queue configuration bitmap flags */
606 #define RTE_EVENT_QUEUE_CFG_ALL_TYPES (1ULL << 0)
607 
612 #define RTE_EVENT_QUEUE_CFG_SINGLE_LINK (1ULL << 1)
613 
619 struct rte_event_queue_conf {
620  uint32_t nb_atomic_flows;
628  uint32_t nb_atomic_order_sequences;
642  uint32_t event_queue_cfg;
644  uint8_t schedule_type;
649  uint8_t priority;
657  uint8_t weight;
665  uint8_t affinity;
673 };
674 
697 int
698 rte_event_queue_default_conf_get(uint8_t dev_id, uint8_t queue_id,
699  struct rte_event_queue_conf *queue_conf);
700 
719 int
720 rte_event_queue_setup(uint8_t dev_id, uint8_t queue_id,
721  const struct rte_event_queue_conf *queue_conf);
722 
726 #define RTE_EVENT_QUEUE_ATTR_PRIORITY 0
727 
730 #define RTE_EVENT_QUEUE_ATTR_NB_ATOMIC_FLOWS 1
731 
734 #define RTE_EVENT_QUEUE_ATTR_NB_ATOMIC_ORDER_SEQUENCES 2
735 
738 #define RTE_EVENT_QUEUE_ATTR_EVENT_QUEUE_CFG 3
739 
742 #define RTE_EVENT_QUEUE_ATTR_SCHEDULE_TYPE 4
743 
746 #define RTE_EVENT_QUEUE_ATTR_WEIGHT 5
747 
750 #define RTE_EVENT_QUEUE_ATTR_AFFINITY 6
751 
772 int
773 rte_event_queue_attr_get(uint8_t dev_id, uint8_t queue_id, uint32_t attr_id,
774  uint32_t *attr_value);
775 
794 __rte_experimental
795 int
796 rte_event_queue_attr_set(uint8_t dev_id, uint8_t queue_id, uint32_t attr_id,
797  uint64_t attr_value);
798 
799 /* Event port specific APIs */
800 
801 /* Event port configuration bitmap flags */
802 #define RTE_EVENT_PORT_CFG_DISABLE_IMPL_REL (1ULL << 0)
803 
809 #define RTE_EVENT_PORT_CFG_SINGLE_LINK (1ULL << 1)
810 
814 #define RTE_EVENT_PORT_CFG_HINT_PRODUCER (1ULL << 2)
815 
824 #define RTE_EVENT_PORT_CFG_HINT_CONSUMER (1ULL << 3)
825 
835 #define RTE_EVENT_PORT_CFG_HINT_WORKER (1ULL << 4)
836 
848 struct rte_event_port_conf {
849  int32_t new_event_threshold;
862  uint16_t dequeue_depth;
868  uint16_t enqueue_depth;
874  uint32_t event_port_cfg;
875 };
876 
899 int
900 rte_event_port_default_conf_get(uint8_t dev_id, uint8_t port_id,
901  struct rte_event_port_conf *port_conf);
902 
923 int
924 rte_event_port_setup(uint8_t dev_id, uint8_t port_id,
925  const struct rte_event_port_conf *port_conf);
926 
927 typedef void (*rte_eventdev_port_flush_t)(uint8_t dev_id,
928  struct rte_event event, void *arg);
958 __rte_experimental
959 void
960 rte_event_port_quiesce(uint8_t dev_id, uint8_t port_id,
961  rte_eventdev_port_flush_t release_cb, void *args);
962 
966 #define RTE_EVENT_PORT_ATTR_ENQ_DEPTH 0
967 
970 #define RTE_EVENT_PORT_ATTR_DEQ_DEPTH 1
971 
974 #define RTE_EVENT_PORT_ATTR_NEW_EVENT_THRESHOLD 2
975 
978 #define RTE_EVENT_PORT_ATTR_IMPLICIT_RELEASE_DISABLE 3
979 
996 int
997 rte_event_port_attr_get(uint8_t dev_id, uint8_t port_id, uint32_t attr_id,
998  uint32_t *attr_value);
999 
1016 int
1017 rte_event_dev_start(uint8_t dev_id);
1018 
1037 void
1038 rte_event_dev_stop(uint8_t dev_id);
1039 
1040 typedef void (*rte_eventdev_stop_flush_t)(uint8_t dev_id,
1041  struct rte_event event, void *arg);
1070 int rte_event_dev_stop_flush_callback_register(uint8_t dev_id,
1071  rte_eventdev_stop_flush_t callback, void *userdata);
1072 
1084 int
1085 rte_event_dev_close(uint8_t dev_id);
1086 
1090 struct rte_event_vector {
1091  uint16_t nb_elem;
1093  uint16_t elem_offset : 12;
1095  uint16_t rsvd : 3;
1097  uint16_t attr_valid : 1;
1100  union {
1101  /* Used by Rx/Tx adapter.
1102  * Indicates that all the elements in this vector belong to the
1103  * same port and queue pair when originating from Rx adapter,
1104  * valid only when event type is ETHDEV_VECTOR or
1105  * ETH_RX_ADAPTER_VECTOR.
1106  * Can also be used to indicate the Tx adapter the destination
1107  * port and queue of the mbufs in the vector
1108  */
1109  struct {
1110  uint16_t port;
1111  uint16_t queue;
1112  };
1113  };
1115  uint64_t impl_opaque;
1116 
1117 /* empty structures do not have zero size in C++ leading to compilation errors
1118  * with clang about structure having different sizes in C and C++.
1119  * Since these are all zero-sized arrays, we can omit the "union" wrapper for
1120  * C++ builds, removing the warning.
1121  */
1122 #ifndef __cplusplus
1123 
1128  union {
1129 #endif
1130  struct rte_mbuf *mbufs[0];
1131  void *ptrs[0];
1132  uint64_t u64s[0];
1133 #ifndef __cplusplus
1134  } __rte_aligned(16);
1135 #endif
1136 
1140 #ifndef __DOXYGEN__
1141 } __rte_aligned(16);
1142 #else
1143 };
1144 #endif
1145 
1146 /* Scheduler type definitions */
1147 #define RTE_SCHED_TYPE_ORDERED 0
1148 
1174 #define RTE_SCHED_TYPE_ATOMIC 1
1175 
1193 #define RTE_SCHED_TYPE_PARALLEL 2
1194 
1206 /* Event types to classify the event source */
1207 #define RTE_EVENT_TYPE_ETHDEV 0x0
1208 
1209 #define RTE_EVENT_TYPE_CRYPTODEV 0x1
1210 
1211 #define RTE_EVENT_TYPE_TIMER 0x2
1212 
1213 #define RTE_EVENT_TYPE_CPU 0x3
1214 
1217 #define RTE_EVENT_TYPE_ETH_RX_ADAPTER 0x4
1218 
1219 #define RTE_EVENT_TYPE_VECTOR 0x8
1220 
1231 #define RTE_EVENT_TYPE_ETHDEV_VECTOR \
1232  (RTE_EVENT_TYPE_VECTOR | RTE_EVENT_TYPE_ETHDEV)
1233 
1234 #define RTE_EVENT_TYPE_CPU_VECTOR (RTE_EVENT_TYPE_VECTOR | RTE_EVENT_TYPE_CPU)
1235 
1236 #define RTE_EVENT_TYPE_ETH_RX_ADAPTER_VECTOR \
1237  (RTE_EVENT_TYPE_VECTOR | RTE_EVENT_TYPE_ETH_RX_ADAPTER)
1238 
1239 #define RTE_EVENT_TYPE_CRYPTODEV_VECTOR \
1240  (RTE_EVENT_TYPE_VECTOR | RTE_EVENT_TYPE_CRYPTODEV)
1241 
1243 #define RTE_EVENT_TYPE_MAX 0x10
1244 
1246 /* Event enqueue operations */
1247 #define RTE_EVENT_OP_NEW 0
1248 
1251 #define RTE_EVENT_OP_FORWARD 1
1252 
1259 #define RTE_EVENT_OP_RELEASE 2
1260 
1296 RTE_STD_C11
1297 struct rte_event {
1299  union {
1300  uint64_t event;
1302  struct {
1303  uint32_t flow_id:20;
1310  uint32_t sub_event_type:8;
1314  uint32_t event_type:4;
1318  uint8_t op:2;
1324  uint8_t rsvd:4;
1326  uint8_t sched_type:2;
1331  uint8_t queue_id;
1338  uint8_t priority;
1348  uint8_t impl_opaque;
1355  };
1356  };
1358  union {
1359  uint64_t u64;
1361  void *event_ptr;
1363  struct rte_mbuf *mbuf;
1365  struct rte_event_vector *vec;
1367  };
1368 };
1369 
1370 /* Ethdev Rx adapter capability bitmap flags */
1371 #define RTE_EVENT_ETH_RX_ADAPTER_CAP_INTERNAL_PORT 0x1
1372 
1375 #define RTE_EVENT_ETH_RX_ADAPTER_CAP_MULTI_EVENTQ 0x2
1376 
1379 #define RTE_EVENT_ETH_RX_ADAPTER_CAP_OVERRIDE_FLOW_ID 0x4
1380 
1386 #define RTE_EVENT_ETH_RX_ADAPTER_CAP_EVENT_VECTOR 0x8
1387 
1408 int
1409 rte_event_eth_rx_adapter_caps_get(uint8_t dev_id, uint16_t eth_port_id,
1410  uint32_t *caps);
1411 
1412 #define RTE_EVENT_TIMER_ADAPTER_CAP_INTERNAL_PORT (1ULL << 0)
1413 
1415 #define RTE_EVENT_TIMER_ADAPTER_CAP_PERIODIC (1ULL << 1)
1416 
1431 int
1432 rte_event_timer_adapter_caps_get(uint8_t dev_id, uint32_t *caps);
1433 
1434 /* Crypto adapter capability bitmap flag */
1435 #define RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_NEW 0x1
1436 
1442 #define RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_OP_FWD 0x2
1443 
1449 #define RTE_EVENT_CRYPTO_ADAPTER_CAP_INTERNAL_PORT_QP_EV_BIND 0x4
1450 
1454 #define RTE_EVENT_CRYPTO_ADAPTER_CAP_SESSION_PRIVATE_DATA 0x8
1455 
1459 #define RTE_EVENT_CRYPTO_ADAPTER_CAP_EVENT_VECTOR 0x10
1460 
1484 int
1485 rte_event_crypto_adapter_caps_get(uint8_t dev_id, uint8_t cdev_id,
1486  uint32_t *caps);
1487 
1488 /* Ethdev Tx adapter capability bitmap flags */
1489 #define RTE_EVENT_ETH_TX_ADAPTER_CAP_INTERNAL_PORT 0x1
1490 
1492 #define RTE_EVENT_ETH_TX_ADAPTER_CAP_EVENT_VECTOR 0x2
1493 
1514 int
1515 rte_event_eth_tx_adapter_caps_get(uint8_t dev_id, uint16_t eth_port_id,
1516  uint32_t *caps);
1517 
1543 int
1544 rte_event_dequeue_timeout_ticks(uint8_t dev_id, uint64_t ns,
1545  uint64_t *timeout_ticks);
1546 
1607 int
1608 rte_event_port_link(uint8_t dev_id, uint8_t port_id,
1609  const uint8_t queues[], const uint8_t priorities[],
1610  uint16_t nb_links);
1611 
1651 int
1652 rte_event_port_unlink(uint8_t dev_id, uint8_t port_id,
1653  uint8_t queues[], uint16_t nb_unlinks);
1654 
1676 int
1677 rte_event_port_unlinks_in_progress(uint8_t dev_id, uint8_t port_id);
1678 
1706 int
1707 rte_event_port_links_get(uint8_t dev_id, uint8_t port_id,
1708  uint8_t queues[], uint8_t priorities[]);
1709 
1725 int
1726 rte_event_dev_service_id_get(uint8_t dev_id, uint32_t *service_id);
1727 
1741 int
1742 rte_event_dev_dump(uint8_t dev_id, FILE *f);
1743 
1745 #define RTE_EVENT_DEV_XSTATS_NAME_SIZE 64
1746 
1750 enum rte_event_dev_xstats_mode {
1751  RTE_EVENT_DEV_XSTATS_DEVICE,
1752  RTE_EVENT_DEV_XSTATS_PORT,
1753  RTE_EVENT_DEV_XSTATS_QUEUE,
1754 };
1755 
1762 struct rte_event_dev_xstats_name {
1763  char name[RTE_EVENT_DEV_XSTATS_NAME_SIZE];
1764 };
1765 
1798 int
1799 rte_event_dev_xstats_names_get(uint8_t dev_id,
1800  enum rte_event_dev_xstats_mode mode,
1801  uint8_t queue_port_id,
1802  struct rte_event_dev_xstats_name *xstats_names,
1803  uint64_t *ids,
1804  unsigned int size);
1805 
1832 int
1833 rte_event_dev_xstats_get(uint8_t dev_id,
1834  enum rte_event_dev_xstats_mode mode,
1835  uint8_t queue_port_id,
1836  const uint64_t ids[],
1837  uint64_t values[], unsigned int n);
1838 
1855 uint64_t
1856 rte_event_dev_xstats_by_name_get(uint8_t dev_id, const char *name,
1857  uint64_t *id);
1858 
1879 int
1880 rte_event_dev_xstats_reset(uint8_t dev_id,
1881  enum rte_event_dev_xstats_mode mode,
1882  int16_t queue_port_id,
1883  const uint64_t ids[],
1884  uint32_t nb_ids);
1885 
1896 int rte_event_dev_selftest(uint8_t dev_id);
1897 
1928 struct rte_mempool *
1929 rte_event_vector_pool_create(const char *name, unsigned int n,
1930  unsigned int cache_size, uint16_t nb_elem,
1931  int socket_id);
1932 
1933 #include <rte_eventdev_core.h>
1934 
1935 static __rte_always_inline uint16_t
1936 __rte_event_enqueue_burst(uint8_t dev_id, uint8_t port_id,
1937  const struct rte_event ev[], uint16_t nb_events,
1938  const event_enqueue_burst_t fn)
1939 {
1940  const struct rte_event_fp_ops *fp_ops;
1941  void *port;
1942 
1943  fp_ops = &rte_event_fp_ops[dev_id];
1944  port = fp_ops->data[port_id];
1945 #ifdef RTE_LIBRTE_EVENTDEV_DEBUG
1946  if (dev_id >= RTE_EVENT_MAX_DEVS ||
1947  port_id >= RTE_EVENT_MAX_PORTS_PER_DEV) {
1948  rte_errno = EINVAL;
1949  return 0;
1950  }
1951 
1952  if (port == NULL) {
1953  rte_errno = EINVAL;
1954  return 0;
1955  }
1956 #endif
1957  rte_eventdev_trace_enq_burst(dev_id, port_id, ev, nb_events, (void *)fn);
1958  /*
1959  * Allow zero cost non burst mode routine invocation if application
1960  * requests nb_events as const one
1961  */
1962  if (nb_events == 1)
1963  return (fp_ops->enqueue)(port, ev);
1964  else
1965  return fn(port, ev, nb_events);
1966 }
1967 
2011 static inline uint16_t
2012 rte_event_enqueue_burst(uint8_t dev_id, uint8_t port_id,
2013  const struct rte_event ev[], uint16_t nb_events)
2014 {
2015  const struct rte_event_fp_ops *fp_ops;
2016 
2017  fp_ops = &rte_event_fp_ops[dev_id];
2018  return __rte_event_enqueue_burst(dev_id, port_id, ev, nb_events,
2019  fp_ops->enqueue_burst);
2020 }
2021 
2063 static inline uint16_t
2064 rte_event_enqueue_new_burst(uint8_t dev_id, uint8_t port_id,
2065  const struct rte_event ev[], uint16_t nb_events)
2066 {
2067  const struct rte_event_fp_ops *fp_ops;
2068 
2069  fp_ops = &rte_event_fp_ops[dev_id];
2070  return __rte_event_enqueue_burst(dev_id, port_id, ev, nb_events,
2071  fp_ops->enqueue_new_burst);
2072 }
2073 
2115 static inline uint16_t
2116 rte_event_enqueue_forward_burst(uint8_t dev_id, uint8_t port_id,
2117  const struct rte_event ev[], uint16_t nb_events)
2118 {
2119  const struct rte_event_fp_ops *fp_ops;
2120 
2121  fp_ops = &rte_event_fp_ops[dev_id];
2122  return __rte_event_enqueue_burst(dev_id, port_id, ev, nb_events,
2123  fp_ops->enqueue_forward_burst);
2124 }
2125 
2192 static inline uint16_t
2193 rte_event_dequeue_burst(uint8_t dev_id, uint8_t port_id, struct rte_event ev[],
2194  uint16_t nb_events, uint64_t timeout_ticks)
2195 {
2196  const struct rte_event_fp_ops *fp_ops;
2197  void *port;
2198 
2199  fp_ops = &rte_event_fp_ops[dev_id];
2200  port = fp_ops->data[port_id];
2201 #ifdef RTE_LIBRTE_EVENTDEV_DEBUG
2202  if (dev_id >= RTE_EVENT_MAX_DEVS ||
2203  port_id >= RTE_EVENT_MAX_PORTS_PER_DEV) {
2204  rte_errno = EINVAL;
2205  return 0;
2206  }
2207 
2208  if (port == NULL) {
2209  rte_errno = EINVAL;
2210  return 0;
2211  }
2212 #endif
2213  rte_eventdev_trace_deq_burst(dev_id, port_id, ev, nb_events);
2214  /*
2215  * Allow zero cost non burst mode routine invocation if application
2216  * requests nb_events as const one
2217  */
2218  if (nb_events == 1)
2219  return (fp_ops->dequeue)(port, ev, timeout_ticks);
2220  else
2221  return (fp_ops->dequeue_burst)(port, ev, nb_events,
2222  timeout_ticks);
2223 }
2224 
2225 #define RTE_EVENT_DEV_MAINT_OP_FLUSH (1 << 0)
2226 
2267 __rte_experimental
2268 static inline int
2269 rte_event_maintain(uint8_t dev_id, uint8_t port_id, int op)
2270 {
2271  const struct rte_event_fp_ops *fp_ops;
2272  void *port;
2273 
2274  fp_ops = &rte_event_fp_ops[dev_id];
2275  port = fp_ops->data[port_id];
2276 #ifdef RTE_LIBRTE_EVENTDEV_DEBUG
2277  if (dev_id >= RTE_EVENT_MAX_DEVS ||
2278  port_id >= RTE_EVENT_MAX_PORTS_PER_DEV)
2279  return -EINVAL;
2280 
2281  if (port == NULL)
2282  return -EINVAL;
2283 
2284  if (op & (~RTE_EVENT_DEV_MAINT_OP_FLUSH))
2285  return -EINVAL;
2286 #endif
2287  rte_eventdev_trace_maintain(dev_id, port_id, op);
2288 
2289  if (fp_ops->maintain != NULL)
2290  fp_ops->maintain(port, op);
2291 
2292  return 0;
2293 }
2294 
2295 #ifdef __cplusplus
2296 }
2297 #endif
2298 
2299 #endif /* _RTE_EVENTDEV_H_ */
rte_event_dev_info::dequeue_timeout_ns
uint32_t dequeue_timeout_ns
Definition: rte_eventdev.h:407
rte_event_dev_info::event_dev_cap
uint32_t event_dev_cap
Definition: rte_eventdev.h:442
rte_event_dev_config::nb_event_port_dequeue_depth
uint32_t nb_event_port_dequeue_depth
Definition: rte_eventdev.h:554
rte_event_port_default_conf_get
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