510ac6f4f0
This commit enables dynamic logging with the SW pmd. The string "pmd.event.sw" is used to change the verbosity of the logging output, as per the newly defined log naming. Signed-off-by: Harry van Haaren <harry.van.haaren@intel.com>
293 lines
9.0 KiB
C
293 lines
9.0 KiB
C
/* SPDX-License-Identifier: BSD-3-Clause
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* Copyright(c) 2016-2017 Intel Corporation
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*/
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#ifndef _SW_EVDEV_H_
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#define _SW_EVDEV_H_
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#include "sw_evdev_log.h"
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#include <rte_eventdev.h>
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#include <rte_eventdev_pmd_vdev.h>
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#include <rte_atomic.h>
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#define SW_DEFAULT_CREDIT_QUANTA 32
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#define SW_DEFAULT_SCHED_QUANTA 128
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#define SW_QID_NUM_FIDS 16384
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#define SW_IQS_MAX 4
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#define SW_Q_PRIORITY_MAX 255
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#define SW_PORTS_MAX 64
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#define MAX_SW_CONS_Q_DEPTH 128
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#define SW_INFLIGHT_EVENTS_TOTAL 4096
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/* allow for lots of over-provisioning */
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#define MAX_SW_PROD_Q_DEPTH 4096
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#define SW_FRAGMENTS_MAX 16
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/* Should be power-of-two minus one, to leave room for the next pointer */
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#define SW_EVS_PER_Q_CHUNK 255
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#define SW_Q_CHUNK_SIZE ((SW_EVS_PER_Q_CHUNK + 1) * sizeof(struct rte_event))
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/* report dequeue burst sizes in buckets */
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#define SW_DEQ_STAT_BUCKET_SHIFT 2
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/* how many packets pulled from port by sched */
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#define SCHED_DEQUEUE_BURST_SIZE 32
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#define SW_PORT_HIST_LIST (MAX_SW_PROD_Q_DEPTH) /* size of our history list */
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#define NUM_SAMPLES 64 /* how many data points use for average stats */
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#define EVENTDEV_NAME_SW_PMD event_sw
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#define SW_PMD_NAME RTE_STR(event_sw)
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#define SW_PMD_NAME_MAX 64
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#define SW_SCHED_TYPE_DIRECT (RTE_SCHED_TYPE_PARALLEL + 1)
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#define SW_NUM_POLL_BUCKETS (MAX_SW_CONS_Q_DEPTH >> SW_DEQ_STAT_BUCKET_SHIFT)
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enum {
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QE_FLAG_VALID_SHIFT = 0,
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QE_FLAG_COMPLETE_SHIFT,
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QE_FLAG_NOT_EOP_SHIFT,
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_QE_FLAG_COUNT
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};
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#define QE_FLAG_VALID (1 << QE_FLAG_VALID_SHIFT) /* for NEW FWD, FRAG */
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#define QE_FLAG_COMPLETE (1 << QE_FLAG_COMPLETE_SHIFT) /* set for FWD, DROP */
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#define QE_FLAG_NOT_EOP (1 << QE_FLAG_NOT_EOP_SHIFT) /* set for FRAG only */
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static const uint8_t sw_qe_flag_map[] = {
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QE_FLAG_VALID /* NEW Event */,
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QE_FLAG_VALID | QE_FLAG_COMPLETE /* FWD Event */,
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QE_FLAG_COMPLETE /* RELEASE Event */,
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/* Values which can be used for future support for partial
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* events, i.e. where one event comes back to the scheduler
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* as multiple which need to be tracked together
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*/
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QE_FLAG_VALID | QE_FLAG_COMPLETE | QE_FLAG_NOT_EOP,
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};
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/* Records basic event stats at a given point. Used in port and qid structs */
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struct sw_point_stats {
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uint64_t rx_pkts;
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uint64_t rx_dropped;
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uint64_t tx_pkts;
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};
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/* structure used to track what port a flow (FID) is pinned to */
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struct sw_fid_t {
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/* which CQ this FID is currently pinned to */
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int32_t cq;
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/* number of packets gone to the CQ with this FID */
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uint32_t pcount;
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};
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struct reorder_buffer_entry {
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uint16_t num_fragments; /**< Number of packet fragments */
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uint16_t fragment_index; /**< Points to the oldest valid frag */
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uint8_t ready; /**< Entry is ready to be reordered */
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struct rte_event fragments[SW_FRAGMENTS_MAX];
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};
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struct sw_iq {
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struct sw_queue_chunk *head;
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struct sw_queue_chunk *tail;
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uint16_t head_idx;
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uint16_t tail_idx;
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uint16_t count;
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};
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struct sw_qid {
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/* set when the QID has been initialized */
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uint8_t initialized;
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/* The type of this QID */
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int8_t type;
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/* Integer ID representing the queue. This is used in history lists,
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* to identify the stage of processing.
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*/
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uint32_t id;
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struct sw_point_stats stats;
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/* Internal priority rings for packets */
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struct sw_iq iq[SW_IQS_MAX];
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uint32_t iq_pkt_mask; /* A mask to indicate packets in an IQ */
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uint64_t iq_pkt_count[SW_IQS_MAX];
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/* Information on what CQs are polling this IQ */
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uint32_t cq_num_mapped_cqs;
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uint32_t cq_next_tx; /* cq to write next (non-atomic) packet */
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uint32_t cq_map[SW_PORTS_MAX];
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uint64_t to_port[SW_PORTS_MAX];
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/* Track flow ids for atomic load balancing */
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struct sw_fid_t fids[SW_QID_NUM_FIDS];
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/* Track packet order for reordering when needed */
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struct reorder_buffer_entry *reorder_buffer; /*< pkts await reorder */
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struct rte_ring *reorder_buffer_freelist; /* available reorder slots */
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uint32_t reorder_buffer_index; /* oldest valid reorder buffer entry */
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uint32_t window_size; /* Used to wrap reorder_buffer_index */
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uint8_t priority;
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};
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struct sw_hist_list_entry {
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int32_t qid;
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int32_t fid;
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struct reorder_buffer_entry *rob_entry;
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};
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struct sw_evdev;
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struct sw_port {
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/* new enqueue / dequeue API doesn't have an instance pointer, only the
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* pointer to the port being enqueue/dequeued from
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*/
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struct sw_evdev *sw;
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/* set when the port is initialized */
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uint8_t initialized;
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/* A numeric ID for the port */
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uint8_t id;
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int16_t is_directed; /** Takes from a single directed QID */
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/**
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* For loadbalanced we can optimise pulling packets from
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* producers if there is no reordering involved
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*/
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int16_t num_ordered_qids;
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/** Ring and buffer for pulling events from workers for scheduling */
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struct rte_event_ring *rx_worker_ring __rte_cache_aligned;
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/** Ring and buffer for pushing packets to workers after scheduling */
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struct rte_event_ring *cq_worker_ring;
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/* hole */
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/* num releases yet to be completed on this port */
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uint16_t outstanding_releases __rte_cache_aligned;
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uint16_t inflight_max; /* app requested max inflights for this port */
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uint16_t inflight_credits; /* num credits this port has right now */
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uint8_t implicit_release; /* release events before dequeueing */
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uint16_t last_dequeue_burst_sz; /* how big the burst was */
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uint64_t last_dequeue_ticks; /* used to track burst processing time */
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uint64_t avg_pkt_ticks; /* tracks average over NUM_SAMPLES burst */
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uint64_t total_polls; /* how many polls were counted in stats */
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uint64_t zero_polls; /* tracks polls returning nothing */
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uint32_t poll_buckets[SW_NUM_POLL_BUCKETS];
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/* bucket values in 4s for shorter reporting */
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/* History list structs, containing info on pkts egressed to worker */
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uint16_t hist_head __rte_cache_aligned;
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uint16_t hist_tail;
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uint16_t inflights;
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struct sw_hist_list_entry hist_list[SW_PORT_HIST_LIST];
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/* track packets in and out of this port */
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struct sw_point_stats stats;
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uint32_t pp_buf_start;
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uint32_t pp_buf_count;
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uint16_t cq_buf_count;
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struct rte_event pp_buf[SCHED_DEQUEUE_BURST_SIZE];
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struct rte_event cq_buf[MAX_SW_CONS_Q_DEPTH];
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uint8_t num_qids_mapped;
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};
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struct sw_evdev {
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struct rte_eventdev_data *data;
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uint32_t port_count;
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uint32_t qid_count;
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uint32_t xstats_count;
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struct sw_xstats_entry *xstats;
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uint32_t xstats_count_mode_dev;
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uint32_t xstats_count_mode_port;
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uint32_t xstats_count_mode_queue;
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/* Contains all ports - load balanced and directed */
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struct sw_port ports[SW_PORTS_MAX] __rte_cache_aligned;
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rte_atomic32_t inflights __rte_cache_aligned;
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/*
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* max events in this instance. Cached here for performance.
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* (also available in data->conf.nb_events_limit)
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*/
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uint32_t nb_events_limit;
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/* Internal queues - one per logical queue */
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struct sw_qid qids[RTE_EVENT_MAX_QUEUES_PER_DEV] __rte_cache_aligned;
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struct sw_queue_chunk *chunk_list_head;
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struct sw_queue_chunk *chunks;
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/* Cache how many packets are in each cq */
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uint16_t cq_ring_space[SW_PORTS_MAX] __rte_cache_aligned;
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/* Array of pointers to load-balanced QIDs sorted by priority level */
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struct sw_qid *qids_prioritized[RTE_EVENT_MAX_QUEUES_PER_DEV];
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/* Stats */
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struct sw_point_stats stats __rte_cache_aligned;
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uint64_t sched_called;
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int32_t sched_quanta;
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uint64_t sched_no_iq_enqueues;
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uint64_t sched_no_cq_enqueues;
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uint64_t sched_cq_qid_called;
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uint8_t started;
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uint32_t credit_update_quanta;
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/* store num stats and offset of the stats for each port */
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uint16_t xstats_count_per_port[SW_PORTS_MAX];
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uint16_t xstats_offset_for_port[SW_PORTS_MAX];
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/* store num stats and offset of the stats for each queue */
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uint16_t xstats_count_per_qid[RTE_EVENT_MAX_QUEUES_PER_DEV];
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uint16_t xstats_offset_for_qid[RTE_EVENT_MAX_QUEUES_PER_DEV];
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uint32_t service_id;
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char service_name[SW_PMD_NAME_MAX];
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};
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static inline struct sw_evdev *
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sw_pmd_priv(const struct rte_eventdev *eventdev)
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{
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return eventdev->data->dev_private;
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}
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static inline const struct sw_evdev *
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sw_pmd_priv_const(const struct rte_eventdev *eventdev)
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{
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return eventdev->data->dev_private;
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}
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uint16_t sw_event_enqueue(void *port, const struct rte_event *ev);
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uint16_t sw_event_enqueue_burst(void *port, const struct rte_event ev[],
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uint16_t num);
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uint16_t sw_event_dequeue(void *port, struct rte_event *ev, uint64_t wait);
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uint16_t sw_event_dequeue_burst(void *port, struct rte_event *ev, uint16_t num,
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uint64_t wait);
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void sw_event_schedule(struct rte_eventdev *dev);
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int sw_xstats_init(struct sw_evdev *dev);
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int sw_xstats_uninit(struct sw_evdev *dev);
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int sw_xstats_get_names(const struct rte_eventdev *dev,
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enum rte_event_dev_xstats_mode mode, uint8_t queue_port_id,
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struct rte_event_dev_xstats_name *xstats_names,
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unsigned int *ids, unsigned int size);
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int sw_xstats_get(const struct rte_eventdev *dev,
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enum rte_event_dev_xstats_mode mode, uint8_t queue_port_id,
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const unsigned int ids[], uint64_t values[], unsigned int n);
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uint64_t sw_xstats_get_by_name(const struct rte_eventdev *dev,
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const char *name, unsigned int *id);
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int sw_xstats_reset(struct rte_eventdev *dev,
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enum rte_event_dev_xstats_mode mode,
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int16_t queue_port_id,
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const uint32_t ids[],
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uint32_t nb_ids);
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int test_sw_eventdev(void);
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#endif /* _SW_EVDEV_H_ */
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