/*
// 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 "display.h"
#include "display_latency.h"
#include "stats_latency.h"
#include "lconf.h"

static struct display_column *min_col;
static struct display_column *max_col;
static struct display_column *avg_col;
static struct display_column *stddev_col;
static struct display_column *accuracy_limit_col;
static struct display_column *used_col;
static struct display_column *lost_col;
static struct display_column *mis_ordered_col;
static struct display_column *extent_col;
static struct display_column *duplicate_col;
static struct display_page display_page_latency;

static void display_latency_draw_frame(struct screen_state *screen_state)
{
	const uint32_t n_latency = stats_get_n_latency();
	struct display_column *core_col;
	struct display_column *port_col;

	display_page_init(&display_page_latency);

	struct display_table *core = display_page_add_table(&display_page_latency);
	struct display_table *port = display_page_add_table(&display_page_latency);
	struct display_table *lat = display_page_add_table(&display_page_latency);
	struct display_table *acc = display_page_add_table(&display_page_latency);
	struct display_table *other = display_page_add_table(&display_page_latency);

	display_table_init(core, "Core");
	core_col = display_table_add_col(core);
	display_column_init(core_col, "Nb", 4);

	display_table_init(port, "Port Nb");
	port_col = display_table_add_col(port);
	display_column_init(port_col, "RX", 8);

	if (screen_state->toggle == 0)
		display_table_init(lat, "Measured Latency per interval");
	else
		display_table_init(lat, "Measured Latency since reset");

	min_col = display_table_add_col(lat);
	display_column_init(min_col, "Min (us)", 20);
	max_col = display_table_add_col(lat);
	display_column_init(max_col, "Max (us)", 20);
	avg_col = display_table_add_col(lat);
	display_column_init(avg_col, "Avg (us)", 20);
	stddev_col = display_table_add_col(lat);
	display_column_init(stddev_col, "Stddev (us)", 20);

	display_table_init(acc, "Accuracy ");
	used_col = display_table_add_col(acc);
	display_column_init(used_col, "Used Packets (%)", 16);
	accuracy_limit_col = display_table_add_col(acc);
	display_column_init(accuracy_limit_col, "limit (us)", 12);

	display_table_init(other, "Other");

	lost_col = display_table_add_col(other);
	display_column_init(lost_col, "Lost", 12);
	mis_ordered_col = display_table_add_col(other);
	display_column_init(mis_ordered_col, "mis-ordered", 12);
	extent_col = display_table_add_col(other);
	display_column_init(extent_col, "extent", 12);
	duplicate_col = display_table_add_col(other);
	display_column_init(duplicate_col, "duplicate", 12);

	display_page_draw_frame(&display_page_latency, n_latency);

	for (uint16_t i = 0; i < n_latency; ++i) {
		uint32_t lcore_id = stats_latency_get_core_id(i);
		uint32_t task_id = stats_latency_get_task_id(i);
		struct task_args *targ = &lcore_cfg[lcore_id].targs[task_id];

		display_column_print(core_col, i, "%2u/%1u", lcore_id, task_id);
		display_column_port_ring(port_col, i, targ->rx_port_queue, targ->nb_rxports, targ->rx_rings, targ->nb_rxrings);
	}
}

#define AFTER_POINT 1000000

static void display_stats_latency_entry(int row, struct stats_latency *stats_latency)
{
	struct time_unit_err avg = stats_latency->avg;
	struct time_unit_err min = stats_latency->min;
	struct time_unit_err max = stats_latency->max;
	struct time_unit_err stddev = stats_latency->stddev;
	struct time_unit accuracy_limit = stats_latency->accuracy_limit;

	uint32_t used = 0;

	if (stats_latency->tot_all_packets)
		used = stats_latency->tot_packets * (100 * AFTER_POINT) / stats_latency->tot_all_packets;

	char dst[32];

	if (stats_latency->tot_packets) {
		display_column_print(min_col, row, "%s", print_time_unit_err_usec(dst, &min));
		display_column_print(max_col, row, "%s", print_time_unit_err_usec(dst, &max));
		display_column_print(avg_col, row, "%s", print_time_unit_err_usec(dst, &avg));
		display_column_print(stddev_col, row, "%s", print_time_unit_err_usec(dst, &stddev));
	} else {
		display_column_print(min_col, row, "%s", "N/A");
		display_column_print(max_col, row, "%s", "N/A");
		display_column_print(avg_col, row, "%s", "N/A");
		display_column_print(stddev_col, row, "%s", "N/A");
	}

	display_column_print(accuracy_limit_col, row, "%s", print_time_unit_usec(dst, &accuracy_limit));
	display_column_print(lost_col, row, "%12"PRIu64"", stats_latency->lost_packets);
	display_column_print(used_col, row, "%3u.%06u", used / AFTER_POINT, used % AFTER_POINT);
	display_column_print(mis_ordered_col, row, "%12"PRIu64"", stats_latency->mis_ordered);
	display_column_print(extent_col, row, "%12"PRIu64"", stats_latency->extent);
	display_column_print(duplicate_col, row, "%12"PRIu64"", stats_latency->duplicate);
}

static void display_latency_draw_stats(struct screen_state *screen_state)
{
	const uint32_t n_latency = stats_get_n_latency();
	struct stats_latency *stats_latency;

	for (uint16_t i = 0; i < n_latency; ++i) {
		if (screen_state->toggle == 0)
			stats_latency = stats_latency_get(i);
		else
			stats_latency = stats_latency_tot_get(i);

		display_stats_latency_entry(i, stats_latency);
	}
}

static int display_latency_get_height(void)
{
	return stats_get_n_latency();
}

static struct display_screen display_screen_latency = {
	.draw_frame = display_latency_draw_frame,
	.draw_stats = display_latency_draw_stats,
	.get_height = display_latency_get_height,
	.title = "latency",
};

struct display_screen *display_latency(void)
{
	return &display_screen_latency;
}