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/*
// Copyright (c) 2010-2017 Intel Corporation
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
*/

#include <stddef.h>

#include "stats_task.h"
#include "prox_cfg.h"
#include "prox_globals.h"
#include "lconf.h"

struct lcore_task_stats {
	struct task_stats task_stats[MAX_TASKS_PER_CORE];
};

#define TASK_STATS_RX 0x01
#define TASK_STATS_TX 0x02

extern int last_stat;
static struct lcore_task_stats  lcore_task_stats_all[RTE_MAX_LCORE];
static struct task_stats   *task_stats_set[RTE_MAX_LCORE * MAX_TASKS_PER_CORE];
static uint8_t nb_tasks_tot;
int stats_get_n_tasks_tot(void)
{
	return nb_tasks_tot;
}

struct task_stats *stats_get_task_stats(uint32_t lcore_id, uint32_t task_id)
{
	return &lcore_task_stats_all[lcore_id].task_stats[task_id];
}

struct task_stats_sample *stats_get_task_stats_sample(uint32_t lcore_id, uint32_t task_id, int l)
{
	return &lcore_task_stats_all[lcore_id].task_stats[task_id].sample[l == last_stat];
}

void stats_task_reset(void)
{
	struct task_stats *cur_task_stats;

	for (uint8_t task_id = 0; task_id < nb_tasks_tot; ++task_id) {
		cur_task_stats = task_stats_set[task_id];
		cur_task_stats->tot_rx_pkt_count = 0;
		cur_task_stats->tot_tx_pkt_count = 0;
		cur_task_stats->tot_drop_tx_fail = 0;
		cur_task_stats->tot_drop_discard = 0;
		cur_task_stats->tot_drop_handled = 0;
	}
}

uint64_t stats_core_task_tot_rx(uint8_t lcore_id, uint8_t task_id)
{
	return lcore_task_stats_all[lcore_id].task_stats[task_id].tot_rx_pkt_count;
}

uint64_t stats_core_task_tot_tx(uint8_t lcore_id, uint8_t task_id)
{
	return lcore_task_stats_all[lcore_id].task_stats[task_id].tot_tx_pkt_count;
}

uint64_t stats_core_task_tot_drop(uint8_t lcore_id, uint8_t task_id)
{
	return lcore_task_stats_all[lcore_id].task_stats[task_id].tot_drop_tx_fail +
		lcore_task_stats_all[lcore_id].task_stats[task_id].tot_drop_discard +
		lcore_task_stats_all[lcore_id].task_stats[task_id].tot_drop_handled;
}

uint64_t stats_core_task_last_tsc(uint8_t lcore_id, uint8_t task_id)
{
	return lcore_task_stats_all[lcore_id].task_stats[task_id].sample[last_stat].tsc;
}

static void init_core_port(struct task_stats *ts, struct task_rt_stats *stats, uint8_t flags)
{
	ts->stats = stats;
	ts->flags |= flags;
}

void stats_task_post_proc(void)
{
	for (uint8_t task_id = 0; task_id < nb_tasks_tot; ++task_id) {
		struct task_stats *cur_task_stats = task_stats_set[task_id];
		const struct task_stats_sample *last = &cur_task_stats->sample[last_stat];
		const struct task_stats_sample *prev = &cur_task_stats->sample[!last_stat];

		/* no total stats for empty loops */
		cur_task_stats->tot_rx_pkt_count += last->rx_pkt_count - prev->rx_pkt_count;
		cur_task_stats->tot_tx_pkt_count += last->tx_pkt_count - prev->tx_pkt_count;
		cur_task_stats->tot_drop_tx_fail += last->drop_tx_fail - prev->drop_tx_fail;
		cur_task_stats->tot_drop_discard += last->drop_discard - prev->drop_discard;
		cur_task_stats->tot_drop_handled += last->drop_handled - prev->drop_handled;
	}
}

void stats_task_update(void)
{
	uint64_t before, after;

	for (uint8_t task_id = 0; task_id < nb_tasks_tot; ++task_id) {
		struct task_stats *cur_task_stats = task_stats_set[task_id];
		struct task_rt_stats *stats = cur_task_stats->stats;
		struct task_stats_sample *last = &cur_task_stats->sample[last_stat];

		/* Read TX first and RX second, in order to prevent displaying
		   a negative packet loss. Depending on the configuration
		   (when forwarding, for example), TX might be bigger than RX. */
		before = rte_rdtsc();
		last->tx_pkt_count = stats->tx_pkt_count;
		last->drop_tx_fail = stats->drop_tx_fail;
		last->drop_discard = stats->drop_discard;
		last->drop_handled = stats->drop_handled;
		last->rx_pkt_count = stats->rx_pkt_count;
		last->empty_cycles = stats->idle_cycles;
		last->tx_bytes     = stats->tx_bytes;
		last->rx_bytes     = stats->rx_bytes;
		last->drop_bytes   = stats->drop_bytes;
		after = rte_rdtsc();
		last->tsc = (before >> 1) + (after >> 1);
	}
}

void stats_task_get_host_rx_tx_packets(uint64_t *rx, uint64_t *tx, uint64_t *tsc)
{
	const struct task_stats *t;

	*rx = 0;
	*tx = 0;

	for (uint8_t task_id = 0; task_id < nb_tasks_tot; ++task_id) {
		t = task_stats_set[task_id];

		if (t->flags & TASK_STATS_RX)
			*rx += t->tot_rx_pkt_count;

		if (t->flags & TASK_STATS_TX)
			*tx += t->tot_tx_pkt_count;
	}
	if (nb_tasks_tot)
		*tsc = task_stats_set[nb_tasks_tot - 1]->sample[last_stat].tsc;
}

/* Populate active_stats_set for stats reporting, the order of the
   cores is important for gathering the most accurate statistics. TX
   cores should be updated before RX cores (to prevent negative Loss
   stats). The total number of tasks are saved in nb_tasks_tot. */
void stats_task_init(void)
{
	struct lcore_cfg *lconf;
	uint32_t lcore_id;

	/* add cores that are receiving from and sending to physical ports first */
	lcore_id = -1;
	while(prox_core_next(&lcore_id, 0) == 0) {
		lconf = &lcore_cfg[lcore_id];
		for (uint8_t task_id = 0; task_id < lconf->n_tasks_all; ++task_id) {
			struct task_args *targ = &lconf->targs[task_id];
			struct task_rt_stats *stats = &lconf->tasks_all[task_id]->aux->stats;
			if (targ->nb_rxrings == 0 && targ->nb_txrings == 0) {
				struct task_stats *ts = &lcore_task_stats_all[lcore_id].task_stats[task_id];

				init_core_port(ts, stats, TASK_STATS_RX | TASK_STATS_TX);
				task_stats_set[nb_tasks_tot++] = ts;
			}
		}
	}

	/* add cores that are sending to physical ports second */
	lcore_id = -1;
	while(prox_core_next(&lcore_id, 0) == 0) {
		lconf = &lcore_cfg[lcore_id];
		for (uint8_t task_id = 0; task_id < lconf->n_tasks_all; ++task_id) {
			struct task_args *targ = &lconf->targs[task_id];
			struct task_rt_stats *stats = &lconf->tasks_all[task_id]->aux->stats;
			if (targ->nb_rxrings != 0 && targ->nb_txrings == 0) {
				struct task_stats *ts = &lcore_task_stats_all[lcore_id].task_stats[task_id];

				init_core_port(ts, stats, TASK_STATS_TX);
				task_stats_set[nb_tasks_tot++] = ts;
			}
		}
	}

	/* add cores that are receiving from physical ports third */
	lcore_id = -1;
	while(prox_core_next(&lcore_id, 0) == 0) {
		lconf = &lcore_cfg[lcore_id];
		for (uint8_t task_id = 0; task_id < lconf->n_tasks_all; ++task_id) {
			struct task_args *targ = &lconf->targs[task_id];
			struct task_rt_stats *stats = &lconf->tasks_all[task_id]->aux->stats;
			if (targ->nb_rxrings == 0 && targ->nb_txrings != 0) {
				struct task_stats *ts = &lcore_task_stats_all[lcore_id].task_stats[task_id];

				init_core_port(ts, stats, TASK_STATS_RX);
				task_stats_set[nb_tasks_tot++] = ts;
			}
		}
	}

	/* add cores that are working internally (no physical ports attached) */
	lcore_id = -1;
	while(prox_core_next(&lcore_id, 0) == 0) {
		lconf = &lcore_cfg[lcore_id];
		for (uint8_t task_id = 0; task_id < lconf->n_tasks_all; ++task_id) {
			struct task_args *targ = &lconf->targs[task_id];
			struct task_rt_stats *stats = &lconf->tasks_all[task_id]->aux->stats;
			if (targ->nb_rxrings != 0 && targ->nb_txrings != 0) {
				struct task_stats *ts = &lcore_task_stats_all[lcore_id].task_stats[task_id];

				init_core_port(ts, stats, 0);
				task_stats_set[nb_tasks_tot++] = ts;
			}
		}
	}
}