apps: use helper to create mbuf pools

[dpdk.git] / app / test / test_sched.c

/*-
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#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <stdint.h>
#include <unistd.h>

#include "test.h"

#include <rte_cycles.h>
#include <rte_ether.h>
#include <rte_ip.h>
#include <rte_byteorder.h>
#include <rte_sched.h>


#define SUBPORT         0
#define PIPE            1
#define TC                      2
#define QUEUE           3

static struct rte_sched_subport_params subport_param[] = {
        {
                .tb_rate = 1250000000,
                .tb_size = 1000000,

                .tc_rate = {1250000000, 1250000000, 1250000000, 1250000000},
                .tc_period = 10,
        },
};

static struct rte_sched_pipe_params pipe_profile[] = {
        { /* Profile #0 */
                .tb_rate = 305175,
                .tb_size = 1000000,

                .tc_rate = {305175, 305175, 305175, 305175},
                .tc_period = 40,

                .wrr_weights = {1, 1, 1, 1,  1, 1, 1, 1,  1, 1, 1, 1,  1, 1, 1, 1},
        },
};

static struct rte_sched_port_params port_param = {
        .socket = 0, /* computed */
        .rate = 0, /* computed */
        .mtu = 1522,
        .frame_overhead = RTE_SCHED_FRAME_OVERHEAD_DEFAULT,
        .n_subports_per_port = 1,
        .n_pipes_per_subport = 4096,
        .qsize = {64, 64, 64, 64},
        .pipe_profiles = pipe_profile,
        .n_pipe_profiles = 1,
};

#define NB_MBUF          32
#define MBUF_DATA_SZ     (2048 + RTE_PKTMBUF_HEADROOM)
#define PKT_BURST_SZ     32
#define MEMPOOL_CACHE_SZ PKT_BURST_SZ
#define SOCKET           0


static struct rte_mempool *
create_mempool(void)
{
        struct rte_mempool * mp;

        mp = rte_mempool_lookup("test_sched");
        if (!mp)
                mp = rte_pktmbuf_pool_create("test_sched", NB_MBUF,
                        MEMPOOL_CACHE_SZ, 0, MBUF_DATA_SZ, SOCKET);

        return mp;
}

static void
prepare_pkt(struct rte_mbuf *mbuf)
{
        struct ether_hdr *eth_hdr;
        struct vlan_hdr *vlan1, *vlan2;
        struct ipv4_hdr *ip_hdr;

        /* Simulate a classifier */
        eth_hdr = rte_pktmbuf_mtod(mbuf, struct ether_hdr *);
        vlan1 = (struct vlan_hdr *)(&eth_hdr->ether_type );
        vlan2 = (struct vlan_hdr *)((uintptr_t)&eth_hdr->ether_type + sizeof(struct vlan_hdr));
        eth_hdr = (struct ether_hdr *)((uintptr_t)&eth_hdr->ether_type + 2 *sizeof(struct vlan_hdr));
        ip_hdr = (struct ipv4_hdr *)((uintptr_t)eth_hdr +  sizeof(eth_hdr->ether_type));

        vlan1->vlan_tci = rte_cpu_to_be_16(SUBPORT);
        vlan2->vlan_tci = rte_cpu_to_be_16(PIPE);
        eth_hdr->ether_type =  rte_cpu_to_be_16(ETHER_TYPE_IPv4);
        ip_hdr->dst_addr = IPv4(0,0,TC,QUEUE);


        rte_sched_port_pkt_write(mbuf, SUBPORT, PIPE, TC, QUEUE, e_RTE_METER_YELLOW);

        /* 64 byte packet */
        mbuf->pkt_len  = 60;
        mbuf->data_len = 60;
}


/**
 * test main entrance for library sched
 */
static int
test_sched(void)
{
        struct rte_mempool *mp = NULL;
        struct rte_sched_port *port = NULL;
        uint32_t pipe;
        struct rte_mbuf *in_mbufs[10];
        struct rte_mbuf *out_mbufs[10];
        int i;

        int err;

        mp = create_mempool();
        TEST_ASSERT_NOT_NULL(mp, "Error creating mempool\n");

        port_param.socket = 0;
        port_param.rate = (uint64_t) 10000 * 1000 * 1000 / 8;

        port = rte_sched_port_config(&port_param);
        TEST_ASSERT_NOT_NULL(port, "Error config sched port\n");

        err = rte_sched_subport_config(port, SUBPORT, subport_param);
        TEST_ASSERT_SUCCESS(err, "Error config sched, err=%d\n", err);

        for (pipe = 0; pipe < port_param.n_pipes_per_subport; pipe ++) {
                err = rte_sched_pipe_config(port, SUBPORT, pipe, 0);
                TEST_ASSERT_SUCCESS(err, "Error config sched pipe %u, err=%d\n", pipe, err);
        }

        for (i = 0; i < 10; i++) {
                in_mbufs[i] = rte_pktmbuf_alloc(mp);
                TEST_ASSERT_NOT_NULL(in_mbufs[i], "Packet allocation failed\n");
                prepare_pkt(in_mbufs[i]);
        }


        err = rte_sched_port_enqueue(port, in_mbufs, 10);
        TEST_ASSERT_EQUAL(err, 10, "Wrong enqueue, err=%d\n", err);

        err = rte_sched_port_dequeue(port, out_mbufs, 10);
        TEST_ASSERT_EQUAL(err, 10, "Wrong dequeue, err=%d\n", err);

        for (i = 0; i < 10; i++) {
                enum rte_meter_color color;
                uint32_t subport, traffic_class, queue;

                color = rte_sched_port_pkt_read_color(out_mbufs[i]);
                TEST_ASSERT_EQUAL(color, e_RTE_METER_YELLOW, "Wrong color\n");

                rte_sched_port_pkt_read_tree_path(out_mbufs[i],
                                &subport, &pipe, &traffic_class, &queue);

                TEST_ASSERT_EQUAL(subport, SUBPORT, "Wrong subport\n");
                TEST_ASSERT_EQUAL(pipe, PIPE, "Wrong pipe\n");
                TEST_ASSERT_EQUAL(traffic_class, TC, "Wrong traffic_class\n");
                TEST_ASSERT_EQUAL(queue, QUEUE, "Wrong queue\n");

        }


        struct rte_sched_subport_stats subport_stats;
        uint32_t tc_ov;
        rte_sched_subport_read_stats(port, SUBPORT, &subport_stats, &tc_ov);
#if 0
        TEST_ASSERT_EQUAL(subport_stats.n_pkts_tc[TC-1], 10, "Wrong subport stats\n");
#endif
        struct rte_sched_queue_stats queue_stats;
        uint16_t qlen;
        rte_sched_queue_read_stats(port, QUEUE, &queue_stats, &qlen);
#if 0
        TEST_ASSERT_EQUAL(queue_stats.n_pkts, 10, "Wrong queue stats\n");
#endif

        rte_sched_port_free(port);

        return 0;
}

static struct test_command sched_cmd = {
        .command = "sched_autotest",
        .callback = test_sched,
};
REGISTER_TEST_COMMAND(sched_cmd);