11ffee690SAmr Mokhtar /* SPDX-License-Identifier: BSD-3-Clause
21ffee690SAmr Mokhtar * Copyright(c) 2017 Intel Corporation
31ffee690SAmr Mokhtar */
41ffee690SAmr Mokhtar
51ffee690SAmr Mokhtar #include <stdio.h>
61ffee690SAmr Mokhtar #include <stdlib.h>
71ffee690SAmr Mokhtar #include <string.h>
81ffee690SAmr Mokhtar #include <stdint.h>
91ffee690SAmr Mokhtar #include <inttypes.h>
101ffee690SAmr Mokhtar #include <sys/types.h>
11960f28b2SThomas Monjalon #include <unistd.h>
121ffee690SAmr Mokhtar #include <sys/queue.h>
131ffee690SAmr Mokhtar #include <stdarg.h>
141ffee690SAmr Mokhtar #include <ctype.h>
151ffee690SAmr Mokhtar #include <errno.h>
161ffee690SAmr Mokhtar #include <math.h>
171ffee690SAmr Mokhtar #include <assert.h>
181ffee690SAmr Mokhtar #include <getopt.h>
191ffee690SAmr Mokhtar #include <signal.h>
201ffee690SAmr Mokhtar
217b0de673SThomas Monjalon #include <rte_common.h>
227b0de673SThomas Monjalon #include <rte_eal.h>
237b0de673SThomas Monjalon #include <rte_cycles.h>
247b0de673SThomas Monjalon #include <rte_ether.h>
257b0de673SThomas Monjalon #include <rte_ethdev.h>
267b0de673SThomas Monjalon #include <rte_ip.h>
277b0de673SThomas Monjalon #include <rte_lcore.h>
287b0de673SThomas Monjalon #include <rte_malloc.h>
297b0de673SThomas Monjalon #include <rte_mbuf.h>
3061bf499dSThomas Monjalon #include <rte_mbuf_dyn.h>
317b0de673SThomas Monjalon #include <rte_memory.h>
327b0de673SThomas Monjalon #include <rte_mempool.h>
337b0de673SThomas Monjalon #include <rte_log.h>
347b0de673SThomas Monjalon #include <rte_bbdev.h>
357b0de673SThomas Monjalon #include <rte_bbdev_op.h>
361ffee690SAmr Mokhtar
371ffee690SAmr Mokhtar /* LLR values - negative value for '1' bit */
381ffee690SAmr Mokhtar #define LLR_1_BIT 0x81
391ffee690SAmr Mokhtar #define LLR_0_BIT 0x7F
401ffee690SAmr Mokhtar
411ffee690SAmr Mokhtar #define MAX_PKT_BURST 32
421ffee690SAmr Mokhtar #define NB_MBUF 8191
431ffee690SAmr Mokhtar #define MEMPOOL_CACHE_SIZE 256
441ffee690SAmr Mokhtar
451ffee690SAmr Mokhtar /* Hardcoded K value */
461ffee690SAmr Mokhtar #define K 40
471ffee690SAmr Mokhtar #define NCB (3 * RTE_ALIGN_CEIL(K + 4, 32))
481ffee690SAmr Mokhtar
491ffee690SAmr Mokhtar #define CRC_24B_LEN 3
501ffee690SAmr Mokhtar
511ffee690SAmr Mokhtar /* Configurable number of RX/TX ring descriptors */
521ffee690SAmr Mokhtar #define RTE_TEST_RX_DESC_DEFAULT 128
531ffee690SAmr Mokhtar #define RTE_TEST_TX_DESC_DEFAULT 512
541ffee690SAmr Mokhtar
551ffee690SAmr Mokhtar #define BBDEV_ASSERT(a) do { \
561ffee690SAmr Mokhtar if (!(a)) { \
571ffee690SAmr Mokhtar usage(prgname); \
581ffee690SAmr Mokhtar return -1; \
591ffee690SAmr Mokhtar } \
601ffee690SAmr Mokhtar } while (0)
611ffee690SAmr Mokhtar
6261bf499dSThomas Monjalon static int input_dynfield_offset = -1;
6361bf499dSThomas Monjalon
6461bf499dSThomas Monjalon static inline struct rte_mbuf **
mbuf_input(struct rte_mbuf * mbuf)6561bf499dSThomas Monjalon mbuf_input(struct rte_mbuf *mbuf)
6661bf499dSThomas Monjalon {
6761bf499dSThomas Monjalon return RTE_MBUF_DYNFIELD(mbuf,
6861bf499dSThomas Monjalon input_dynfield_offset, struct rte_mbuf **);
6961bf499dSThomas Monjalon }
7061bf499dSThomas Monjalon
711ffee690SAmr Mokhtar static const struct rte_eth_conf port_conf = {
721ffee690SAmr Mokhtar .rxmode = {
73295968d1SFerruh Yigit .mq_mode = RTE_ETH_MQ_RX_NONE,
741ffee690SAmr Mokhtar .split_hdr_size = 0,
751ffee690SAmr Mokhtar },
761ffee690SAmr Mokhtar .txmode = {
77295968d1SFerruh Yigit .mq_mode = RTE_ETH_MQ_TX_NONE,
781ffee690SAmr Mokhtar },
791ffee690SAmr Mokhtar };
801ffee690SAmr Mokhtar
811ffee690SAmr Mokhtar struct rte_bbdev_op_turbo_enc def_op_enc = {
821ffee690SAmr Mokhtar /* These values are arbitrarily put, and does not map to the real
831ffee690SAmr Mokhtar * values for the data received from ethdev ports
841ffee690SAmr Mokhtar */
851ffee690SAmr Mokhtar .rv_index = 0,
861ffee690SAmr Mokhtar .code_block_mode = 1,
871ffee690SAmr Mokhtar .cb_params = {
881ffee690SAmr Mokhtar .k = K,
891ffee690SAmr Mokhtar },
901ffee690SAmr Mokhtar .op_flags = RTE_BBDEV_TURBO_CRC_24A_ATTACH
911ffee690SAmr Mokhtar };
921ffee690SAmr Mokhtar
931ffee690SAmr Mokhtar struct rte_bbdev_op_turbo_dec def_op_dec = {
941ffee690SAmr Mokhtar /* These values are arbitrarily put, and does not map to the real
951ffee690SAmr Mokhtar * values for the data received from ethdev ports
961ffee690SAmr Mokhtar */
971ffee690SAmr Mokhtar .code_block_mode = 1,
981ffee690SAmr Mokhtar .cb_params = {
991ffee690SAmr Mokhtar .k = K,
1001ffee690SAmr Mokhtar },
1011ffee690SAmr Mokhtar .rv_index = 0,
1021ffee690SAmr Mokhtar .iter_max = 8,
1031ffee690SAmr Mokhtar .iter_min = 4,
1041ffee690SAmr Mokhtar .ext_scale = 15,
1051ffee690SAmr Mokhtar .num_maps = 0,
1061ffee690SAmr Mokhtar .op_flags = RTE_BBDEV_TURBO_NEG_LLR_1_BIT_IN
1071ffee690SAmr Mokhtar };
1081ffee690SAmr Mokhtar
1091ffee690SAmr Mokhtar struct app_config_params {
1101ffee690SAmr Mokhtar /* Placeholders for app params */
1111ffee690SAmr Mokhtar uint16_t port_id;
1121ffee690SAmr Mokhtar uint16_t bbdev_id;
1131ffee690SAmr Mokhtar uint64_t enc_core_mask;
1141ffee690SAmr Mokhtar uint64_t dec_core_mask;
1151ffee690SAmr Mokhtar
1161ffee690SAmr Mokhtar /* Values filled during init time */
1171ffee690SAmr Mokhtar uint16_t enc_queue_ids[RTE_MAX_LCORE];
1181ffee690SAmr Mokhtar uint16_t dec_queue_ids[RTE_MAX_LCORE];
1191ffee690SAmr Mokhtar uint16_t num_enc_cores;
1201ffee690SAmr Mokhtar uint16_t num_dec_cores;
1211ffee690SAmr Mokhtar };
1221ffee690SAmr Mokhtar
1231ffee690SAmr Mokhtar struct lcore_statistics {
1241ffee690SAmr Mokhtar unsigned int enqueued;
1251ffee690SAmr Mokhtar unsigned int dequeued;
1261ffee690SAmr Mokhtar unsigned int rx_lost_packets;
1271ffee690SAmr Mokhtar unsigned int enc_to_dec_lost_packets;
1281ffee690SAmr Mokhtar unsigned int tx_lost_packets;
1291ffee690SAmr Mokhtar } __rte_cache_aligned;
1301ffee690SAmr Mokhtar
1311ffee690SAmr Mokhtar /** each lcore configuration */
1321ffee690SAmr Mokhtar struct lcore_conf {
1331ffee690SAmr Mokhtar uint64_t core_type;
1341ffee690SAmr Mokhtar
1351ffee690SAmr Mokhtar unsigned int port_id;
1361ffee690SAmr Mokhtar unsigned int rx_queue_id;
1371ffee690SAmr Mokhtar unsigned int tx_queue_id;
1381ffee690SAmr Mokhtar
1391ffee690SAmr Mokhtar unsigned int bbdev_id;
1401ffee690SAmr Mokhtar unsigned int enc_queue_id;
1411ffee690SAmr Mokhtar unsigned int dec_queue_id;
1421ffee690SAmr Mokhtar
1431ffee690SAmr Mokhtar uint8_t llr_temp_buf[NCB];
1441ffee690SAmr Mokhtar
1451ffee690SAmr Mokhtar struct rte_mempool *bbdev_dec_op_pool;
1461ffee690SAmr Mokhtar struct rte_mempool *bbdev_enc_op_pool;
1471ffee690SAmr Mokhtar struct rte_mempool *enc_out_pool;
1481ffee690SAmr Mokhtar struct rte_ring *enc_to_dec_ring;
1491ffee690SAmr Mokhtar
1501ffee690SAmr Mokhtar struct lcore_statistics *lcore_stats;
1511ffee690SAmr Mokhtar } __rte_cache_aligned;
1521ffee690SAmr Mokhtar
1531ffee690SAmr Mokhtar struct stats_lcore_params {
1541ffee690SAmr Mokhtar struct lcore_conf *lconf;
1551ffee690SAmr Mokhtar struct app_config_params *app_params;
1561ffee690SAmr Mokhtar };
1571ffee690SAmr Mokhtar
1581ffee690SAmr Mokhtar
1591ffee690SAmr Mokhtar static const struct app_config_params def_app_config = {
1601ffee690SAmr Mokhtar .port_id = 0,
1611ffee690SAmr Mokhtar .bbdev_id = 0,
1621ffee690SAmr Mokhtar .enc_core_mask = 0x2,
1631ffee690SAmr Mokhtar .dec_core_mask = 0x4,
1641ffee690SAmr Mokhtar .num_enc_cores = 1,
1651ffee690SAmr Mokhtar .num_dec_cores = 1,
1661ffee690SAmr Mokhtar };
1671ffee690SAmr Mokhtar
1685bd3c386SJoyce Kong static uint16_t global_exit_flag;
1691ffee690SAmr Mokhtar
1701ffee690SAmr Mokhtar /* display usage */
1711ffee690SAmr Mokhtar static inline void
usage(const char * prgname)1721ffee690SAmr Mokhtar usage(const char *prgname)
1731ffee690SAmr Mokhtar {
1741ffee690SAmr Mokhtar printf("%s [EAL options] "
1751ffee690SAmr Mokhtar " --\n"
1761ffee690SAmr Mokhtar " --enc_cores - number of encoding cores (default = 0x2)\n"
1771ffee690SAmr Mokhtar " --dec_cores - number of decoding cores (default = 0x4)\n"
1781ffee690SAmr Mokhtar " --port_id - Ethernet port ID (default = 0)\n"
1791ffee690SAmr Mokhtar " --bbdev_id - BBDev ID (default = 0)\n"
1801ffee690SAmr Mokhtar "\n", prgname);
1811ffee690SAmr Mokhtar }
1821ffee690SAmr Mokhtar
1831ffee690SAmr Mokhtar /* parse core mask */
1841ffee690SAmr Mokhtar static inline
bbdev_parse_mask(const char * mask)1851ffee690SAmr Mokhtar uint16_t bbdev_parse_mask(const char *mask)
1861ffee690SAmr Mokhtar {
1871ffee690SAmr Mokhtar char *end = NULL;
1881ffee690SAmr Mokhtar unsigned long pm;
1891ffee690SAmr Mokhtar
1901ffee690SAmr Mokhtar /* parse hexadecimal string */
1911ffee690SAmr Mokhtar pm = strtoul(mask, &end, 16);
1921ffee690SAmr Mokhtar if ((mask[0] == '\0') || (end == NULL) || (*end != '\0'))
1931ffee690SAmr Mokhtar return 0;
1941ffee690SAmr Mokhtar
1951ffee690SAmr Mokhtar return pm;
1961ffee690SAmr Mokhtar }
1971ffee690SAmr Mokhtar
1981ffee690SAmr Mokhtar /* parse core mask */
1991ffee690SAmr Mokhtar static inline
bbdev_parse_number(const char * mask)2001ffee690SAmr Mokhtar uint16_t bbdev_parse_number(const char *mask)
2011ffee690SAmr Mokhtar {
2021ffee690SAmr Mokhtar char *end = NULL;
2031ffee690SAmr Mokhtar unsigned long pm;
2041ffee690SAmr Mokhtar
2051ffee690SAmr Mokhtar /* parse hexadecimal string */
2061ffee690SAmr Mokhtar pm = strtoul(mask, &end, 10);
2071ffee690SAmr Mokhtar if ((mask[0] == '\0') || (end == NULL) || (*end != '\0'))
2081ffee690SAmr Mokhtar return 0;
2091ffee690SAmr Mokhtar
2101ffee690SAmr Mokhtar return pm;
2111ffee690SAmr Mokhtar }
2121ffee690SAmr Mokhtar
2131ffee690SAmr Mokhtar static int
bbdev_parse_args(int argc,char ** argv,struct app_config_params * app_params)2141ffee690SAmr Mokhtar bbdev_parse_args(int argc, char **argv,
2151ffee690SAmr Mokhtar struct app_config_params *app_params)
2161ffee690SAmr Mokhtar {
2171ffee690SAmr Mokhtar int optind = 0;
2181ffee690SAmr Mokhtar int opt;
2191ffee690SAmr Mokhtar int opt_indx = 0;
2201ffee690SAmr Mokhtar char *prgname = argv[0];
2211ffee690SAmr Mokhtar
2221ffee690SAmr Mokhtar static struct option lgopts[] = {
2231ffee690SAmr Mokhtar { "enc_core_mask", required_argument, 0, 'e' },
2241ffee690SAmr Mokhtar { "dec_core_mask", required_argument, 0, 'd' },
2251ffee690SAmr Mokhtar { "port_id", required_argument, 0, 'p' },
2261ffee690SAmr Mokhtar { "bbdev_id", required_argument, 0, 'b' },
2271ffee690SAmr Mokhtar { NULL, 0, 0, 0 }
2281ffee690SAmr Mokhtar };
2291ffee690SAmr Mokhtar
2301ffee690SAmr Mokhtar BBDEV_ASSERT(argc != 0);
2311ffee690SAmr Mokhtar BBDEV_ASSERT(argv != NULL);
2321ffee690SAmr Mokhtar BBDEV_ASSERT(app_params != NULL);
2331ffee690SAmr Mokhtar
2341ffee690SAmr Mokhtar while ((opt = getopt_long(argc, argv, "e:d:p:b:", lgopts, &opt_indx)) !=
2351ffee690SAmr Mokhtar EOF) {
2361ffee690SAmr Mokhtar switch (opt) {
2371ffee690SAmr Mokhtar case 'e':
2381ffee690SAmr Mokhtar app_params->enc_core_mask =
2391ffee690SAmr Mokhtar bbdev_parse_mask(optarg);
2401ffee690SAmr Mokhtar if (app_params->enc_core_mask == 0) {
2411ffee690SAmr Mokhtar usage(prgname);
2421ffee690SAmr Mokhtar return -1;
2431ffee690SAmr Mokhtar }
2441ffee690SAmr Mokhtar app_params->num_enc_cores =
2451ffee690SAmr Mokhtar __builtin_popcount(app_params->enc_core_mask);
2461ffee690SAmr Mokhtar break;
2471ffee690SAmr Mokhtar
2481ffee690SAmr Mokhtar case 'd':
2491ffee690SAmr Mokhtar app_params->dec_core_mask =
2501ffee690SAmr Mokhtar bbdev_parse_mask(optarg);
2511ffee690SAmr Mokhtar if (app_params->dec_core_mask == 0) {
2521ffee690SAmr Mokhtar usage(prgname);
2531ffee690SAmr Mokhtar return -1;
2541ffee690SAmr Mokhtar }
2551ffee690SAmr Mokhtar app_params->num_dec_cores =
2561ffee690SAmr Mokhtar __builtin_popcount(app_params->dec_core_mask);
2571ffee690SAmr Mokhtar break;
2581ffee690SAmr Mokhtar
2591ffee690SAmr Mokhtar case 'p':
2601ffee690SAmr Mokhtar app_params->port_id = bbdev_parse_number(optarg);
2611ffee690SAmr Mokhtar break;
2621ffee690SAmr Mokhtar
2631ffee690SAmr Mokhtar case 'b':
2641ffee690SAmr Mokhtar app_params->bbdev_id = bbdev_parse_number(optarg);
2651ffee690SAmr Mokhtar break;
2661ffee690SAmr Mokhtar
2671ffee690SAmr Mokhtar default:
2681ffee690SAmr Mokhtar usage(prgname);
2691ffee690SAmr Mokhtar return -1;
2701ffee690SAmr Mokhtar }
2711ffee690SAmr Mokhtar }
2721ffee690SAmr Mokhtar optind = 0;
2731ffee690SAmr Mokhtar return optind;
2741ffee690SAmr Mokhtar }
2751ffee690SAmr Mokhtar
2761ffee690SAmr Mokhtar static void
signal_handler(int signum)2771ffee690SAmr Mokhtar signal_handler(int signum)
2781ffee690SAmr Mokhtar {
2791ffee690SAmr Mokhtar printf("\nSignal %d received\n", signum);
2805bd3c386SJoyce Kong __atomic_store_n(&global_exit_flag, 1, __ATOMIC_RELAXED);
2811ffee690SAmr Mokhtar }
2821ffee690SAmr Mokhtar
2831ffee690SAmr Mokhtar static void
print_mac(unsigned int portid,struct rte_ether_addr * bbdev_ports_eth_address)2846d13ea8eSOlivier Matz print_mac(unsigned int portid, struct rte_ether_addr *bbdev_ports_eth_address)
2851ffee690SAmr Mokhtar {
286c2c4f87bSAman Deep Singh printf("Port %u, MAC address: " RTE_ETHER_ADDR_PRT_FMT "\n\n",
2871ffee690SAmr Mokhtar (unsigned int) portid,
288a7db3afcSAman Deep Singh RTE_ETHER_ADDR_BYTES(bbdev_ports_eth_address));
2891ffee690SAmr Mokhtar }
2901ffee690SAmr Mokhtar
2911ffee690SAmr Mokhtar static inline void
pktmbuf_free_bulk(struct rte_mbuf ** mbufs,unsigned int nb_to_free)2921ffee690SAmr Mokhtar pktmbuf_free_bulk(struct rte_mbuf **mbufs, unsigned int nb_to_free)
2931ffee690SAmr Mokhtar {
2941ffee690SAmr Mokhtar unsigned int i;
2951ffee690SAmr Mokhtar for (i = 0; i < nb_to_free; ++i)
2961ffee690SAmr Mokhtar rte_pktmbuf_free(mbufs[i]);
2971ffee690SAmr Mokhtar }
2981ffee690SAmr Mokhtar
2991ffee690SAmr Mokhtar static inline void
pktmbuf_input_free_bulk(struct rte_mbuf ** mbufs,unsigned int nb_to_free)30061bf499dSThomas Monjalon pktmbuf_input_free_bulk(struct rte_mbuf **mbufs, unsigned int nb_to_free)
3011ffee690SAmr Mokhtar {
3021ffee690SAmr Mokhtar unsigned int i;
3031ffee690SAmr Mokhtar for (i = 0; i < nb_to_free; ++i) {
30461bf499dSThomas Monjalon struct rte_mbuf *rx_pkt = *mbuf_input(mbufs[i]);
3051ffee690SAmr Mokhtar rte_pktmbuf_free(rx_pkt);
3061ffee690SAmr Mokhtar rte_pktmbuf_free(mbufs[i]);
3071ffee690SAmr Mokhtar }
3081ffee690SAmr Mokhtar }
3091ffee690SAmr Mokhtar
3101ffee690SAmr Mokhtar /* Check the link status of all ports in up to 9s, and print them finally */
3111ffee690SAmr Mokhtar static int
check_port_link_status(uint16_t port_id)3121ffee690SAmr Mokhtar check_port_link_status(uint16_t port_id)
3131ffee690SAmr Mokhtar {
3141ffee690SAmr Mokhtar #define CHECK_INTERVAL 100 /* 100ms */
3151ffee690SAmr Mokhtar #define MAX_CHECK_TIME 90 /* 9s (90 * 100ms) in total */
3161ffee690SAmr Mokhtar uint8_t count;
3171ffee690SAmr Mokhtar struct rte_eth_link link;
31822e5c73bSIgor Romanov int link_get_err = -EINVAL;
3191ffee690SAmr Mokhtar
3201ffee690SAmr Mokhtar printf("\nChecking link status.");
3211ffee690SAmr Mokhtar fflush(stdout);
3221ffee690SAmr Mokhtar
3231ffee690SAmr Mokhtar for (count = 0; count <= MAX_CHECK_TIME &&
3245bd3c386SJoyce Kong !__atomic_load_n(&global_exit_flag, __ATOMIC_RELAXED); count++) {
3251ffee690SAmr Mokhtar memset(&link, 0, sizeof(link));
32622e5c73bSIgor Romanov link_get_err = rte_eth_link_get_nowait(port_id, &link);
3271ffee690SAmr Mokhtar
32822e5c73bSIgor Romanov if (link_get_err >= 0 && link.link_status) {
3291ffee690SAmr Mokhtar const char *dp = (link.link_duplex ==
330295968d1SFerruh Yigit RTE_ETH_LINK_FULL_DUPLEX) ?
3311ffee690SAmr Mokhtar "full-duplex" : "half-duplex";
332db4e8135SIvan Dyukov printf("\nPort %u Link Up - speed %s - %s\n",
333db4e8135SIvan Dyukov port_id,
334db4e8135SIvan Dyukov rte_eth_link_speed_to_str(link.link_speed),
335db4e8135SIvan Dyukov dp);
3361ffee690SAmr Mokhtar return 0;
3371ffee690SAmr Mokhtar }
3381ffee690SAmr Mokhtar printf(".");
3391ffee690SAmr Mokhtar fflush(stdout);
3401ffee690SAmr Mokhtar rte_delay_ms(CHECK_INTERVAL);
3411ffee690SAmr Mokhtar }
3421ffee690SAmr Mokhtar
34322e5c73bSIgor Romanov if (link_get_err >= 0)
3441ffee690SAmr Mokhtar printf("\nPort %d Link Down\n", port_id);
34522e5c73bSIgor Romanov else
34622e5c73bSIgor Romanov printf("\nGet link failed (port %d): %s\n", port_id,
34722e5c73bSIgor Romanov rte_strerror(-link_get_err));
34822e5c73bSIgor Romanov
3491ffee690SAmr Mokhtar return 0;
3501ffee690SAmr Mokhtar }
3511ffee690SAmr Mokhtar
3521ffee690SAmr Mokhtar static inline void
add_ether_hdr(struct rte_mbuf * pkt_src,struct rte_mbuf * pkt_dst)3531ffee690SAmr Mokhtar add_ether_hdr(struct rte_mbuf *pkt_src, struct rte_mbuf *pkt_dst)
3541ffee690SAmr Mokhtar {
3556d13ea8eSOlivier Matz struct rte_ether_hdr *eth_from;
3566d13ea8eSOlivier Matz struct rte_ether_hdr *eth_to;
3571ffee690SAmr Mokhtar
3586d13ea8eSOlivier Matz eth_from = rte_pktmbuf_mtod(pkt_src, struct rte_ether_hdr *);
3596d13ea8eSOlivier Matz eth_to = rte_pktmbuf_mtod(pkt_dst, struct rte_ether_hdr *);
3601ffee690SAmr Mokhtar
3611ffee690SAmr Mokhtar /* copy header */
3626d13ea8eSOlivier Matz rte_memcpy(eth_to, eth_from, sizeof(struct rte_ether_hdr));
3631ffee690SAmr Mokhtar }
3641ffee690SAmr Mokhtar
3651ffee690SAmr Mokhtar static inline void
add_awgn(struct rte_mbuf ** mbufs,uint16_t num_pkts)3661ffee690SAmr Mokhtar add_awgn(struct rte_mbuf **mbufs, uint16_t num_pkts)
3671ffee690SAmr Mokhtar {
3681ffee690SAmr Mokhtar RTE_SET_USED(mbufs);
3691ffee690SAmr Mokhtar RTE_SET_USED(num_pkts);
3701ffee690SAmr Mokhtar }
3711ffee690SAmr Mokhtar
3721ffee690SAmr Mokhtar /* Encoder output to Decoder input adapter. The Decoder accepts only soft input
3731ffee690SAmr Mokhtar * so each bit of the encoder output must be translated into one byte of LLR. If
3741ffee690SAmr Mokhtar * Sub-block Deinterleaver is bypassed, which is the case, the padding bytes
375*7be78d02SJosh Soref * must additionally be inserted at the end of each sub-block.
3761ffee690SAmr Mokhtar */
3771ffee690SAmr Mokhtar static inline void
transform_enc_out_dec_in(struct rte_mbuf ** mbufs,uint8_t * temp_buf,uint16_t num_pkts,uint16_t k)3781ffee690SAmr Mokhtar transform_enc_out_dec_in(struct rte_mbuf **mbufs, uint8_t *temp_buf,
3791ffee690SAmr Mokhtar uint16_t num_pkts, uint16_t k)
3801ffee690SAmr Mokhtar {
3811ffee690SAmr Mokhtar uint16_t i, l, j;
3821ffee690SAmr Mokhtar uint16_t start_bit_idx;
3831ffee690SAmr Mokhtar uint16_t out_idx;
3841ffee690SAmr Mokhtar uint16_t d = k + 4;
3851ffee690SAmr Mokhtar uint16_t kpi = RTE_ALIGN_CEIL(d, 32);
3861ffee690SAmr Mokhtar uint16_t nd = kpi - d;
3871ffee690SAmr Mokhtar uint16_t ncb = 3 * kpi;
3881ffee690SAmr Mokhtar
3891ffee690SAmr Mokhtar for (i = 0; i < num_pkts; ++i) {
3901ffee690SAmr Mokhtar uint16_t pkt_data_len = rte_pktmbuf_data_len(mbufs[i]) -
3916d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr);
3921ffee690SAmr Mokhtar
3931ffee690SAmr Mokhtar /* Resize the packet if needed */
3941ffee690SAmr Mokhtar if (pkt_data_len < ncb) {
3951ffee690SAmr Mokhtar char *data = rte_pktmbuf_append(mbufs[i],
3961ffee690SAmr Mokhtar ncb - pkt_data_len);
3971ffee690SAmr Mokhtar if (data == NULL)
3981ffee690SAmr Mokhtar printf(
3991ffee690SAmr Mokhtar "Not enough space in decoder input packet");
4001ffee690SAmr Mokhtar }
4011ffee690SAmr Mokhtar
4021ffee690SAmr Mokhtar /* Translate each bit into 1 LLR byte. */
4031ffee690SAmr Mokhtar start_bit_idx = 0;
4041ffee690SAmr Mokhtar out_idx = 0;
4051ffee690SAmr Mokhtar for (j = 0; j < 3; ++j) {
4061ffee690SAmr Mokhtar for (l = start_bit_idx; l < start_bit_idx + d; ++l) {
4071ffee690SAmr Mokhtar uint8_t *data = rte_pktmbuf_mtod_offset(
4081ffee690SAmr Mokhtar mbufs[i], uint8_t *,
4096d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr) +
4106d13ea8eSOlivier Matz (l >> 3));
4111ffee690SAmr Mokhtar if (*data & (0x80 >> (l & 7)))
4121ffee690SAmr Mokhtar temp_buf[out_idx] = LLR_1_BIT;
4131ffee690SAmr Mokhtar else
4141ffee690SAmr Mokhtar temp_buf[out_idx] = LLR_0_BIT;
4151ffee690SAmr Mokhtar ++out_idx;
4161ffee690SAmr Mokhtar }
4171ffee690SAmr Mokhtar /* Padding bytes should be at the end of the sub-block.
4181ffee690SAmr Mokhtar */
4191ffee690SAmr Mokhtar memset(&temp_buf[out_idx], 0, nd);
4201ffee690SAmr Mokhtar out_idx += nd;
4211ffee690SAmr Mokhtar start_bit_idx += d;
4221ffee690SAmr Mokhtar }
4231ffee690SAmr Mokhtar
4241ffee690SAmr Mokhtar rte_memcpy(rte_pktmbuf_mtod_offset(mbufs[i], uint8_t *,
4256d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr)), temp_buf, ncb);
4261ffee690SAmr Mokhtar }
4271ffee690SAmr Mokhtar }
4281ffee690SAmr Mokhtar
4291ffee690SAmr Mokhtar static inline void
verify_data(struct rte_mbuf ** mbufs,uint16_t num_pkts)4301ffee690SAmr Mokhtar verify_data(struct rte_mbuf **mbufs, uint16_t num_pkts)
4311ffee690SAmr Mokhtar {
4321ffee690SAmr Mokhtar uint16_t i;
4331ffee690SAmr Mokhtar for (i = 0; i < num_pkts; ++i) {
4341ffee690SAmr Mokhtar struct rte_mbuf *out = mbufs[i];
43561bf499dSThomas Monjalon struct rte_mbuf *in = *mbuf_input(out);
4361ffee690SAmr Mokhtar
4371ffee690SAmr Mokhtar if (memcmp(rte_pktmbuf_mtod_offset(in, uint8_t *,
4386d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr)),
4391ffee690SAmr Mokhtar rte_pktmbuf_mtod_offset(out, uint8_t *,
4406d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr)),
4411ffee690SAmr Mokhtar K / 8 - CRC_24B_LEN))
4421ffee690SAmr Mokhtar printf("Input and output buffers are not equal!\n");
4431ffee690SAmr Mokhtar }
4441ffee690SAmr Mokhtar }
4451ffee690SAmr Mokhtar
4461ffee690SAmr Mokhtar static int
initialize_ports(struct app_config_params * app_params,struct rte_mempool * ethdev_mbuf_mempool)4471ffee690SAmr Mokhtar initialize_ports(struct app_config_params *app_params,
4481ffee690SAmr Mokhtar struct rte_mempool *ethdev_mbuf_mempool)
4491ffee690SAmr Mokhtar {
4501ffee690SAmr Mokhtar int ret;
4511ffee690SAmr Mokhtar uint16_t port_id = app_params->port_id;
4521ffee690SAmr Mokhtar uint16_t q;
4531ffee690SAmr Mokhtar /* ethernet addresses of ports */
4546d13ea8eSOlivier Matz struct rte_ether_addr bbdev_port_eth_addr;
4551ffee690SAmr Mokhtar
4561ffee690SAmr Mokhtar /* initialize ports */
4571ffee690SAmr Mokhtar printf("\nInitializing port %u...\n", app_params->port_id);
4581ffee690SAmr Mokhtar ret = rte_eth_dev_configure(port_id, app_params->num_enc_cores,
4591ffee690SAmr Mokhtar app_params->num_dec_cores, &port_conf);
4601ffee690SAmr Mokhtar
4611ffee690SAmr Mokhtar if (ret < 0) {
4621ffee690SAmr Mokhtar printf("Cannot configure device: err=%d, port=%u\n",
4631ffee690SAmr Mokhtar ret, port_id);
4641ffee690SAmr Mokhtar return -1;
4651ffee690SAmr Mokhtar }
4661ffee690SAmr Mokhtar
4671ffee690SAmr Mokhtar /* initialize RX queues for encoder */
4681ffee690SAmr Mokhtar for (q = 0; q < app_params->num_enc_cores; q++) {
4691ffee690SAmr Mokhtar ret = rte_eth_rx_queue_setup(port_id, q,
4701ffee690SAmr Mokhtar RTE_TEST_RX_DESC_DEFAULT,
4711ffee690SAmr Mokhtar rte_eth_dev_socket_id(port_id),
4721ffee690SAmr Mokhtar NULL, ethdev_mbuf_mempool);
4731ffee690SAmr Mokhtar if (ret < 0) {
4741ffee690SAmr Mokhtar printf("rte_eth_rx_queue_setup: err=%d, queue=%u\n",
4751ffee690SAmr Mokhtar ret, q);
4761ffee690SAmr Mokhtar return -1;
4771ffee690SAmr Mokhtar }
4781ffee690SAmr Mokhtar }
4791ffee690SAmr Mokhtar /* initialize TX queues for decoder */
4801ffee690SAmr Mokhtar for (q = 0; q < app_params->num_dec_cores; q++) {
4811ffee690SAmr Mokhtar ret = rte_eth_tx_queue_setup(port_id, q,
4821ffee690SAmr Mokhtar RTE_TEST_TX_DESC_DEFAULT,
4831ffee690SAmr Mokhtar rte_eth_dev_socket_id(port_id), NULL);
4841ffee690SAmr Mokhtar if (ret < 0) {
4851ffee690SAmr Mokhtar printf("rte_eth_tx_queue_setup: err=%d, queue=%u\n",
4861ffee690SAmr Mokhtar ret, q);
4871ffee690SAmr Mokhtar return -1;
4881ffee690SAmr Mokhtar }
4891ffee690SAmr Mokhtar }
4901ffee690SAmr Mokhtar
491f430bbceSIvan Ilchenko ret = rte_eth_promiscuous_enable(port_id);
492f430bbceSIvan Ilchenko if (ret != 0) {
493f430bbceSIvan Ilchenko printf("Cannot enable promiscuous mode: err=%s, port=%u\n",
494f430bbceSIvan Ilchenko rte_strerror(-ret), port_id);
495f430bbceSIvan Ilchenko return ret;
496f430bbceSIvan Ilchenko }
4971ffee690SAmr Mokhtar
49870febdcfSIgor Romanov ret = rte_eth_macaddr_get(port_id, &bbdev_port_eth_addr);
49970febdcfSIgor Romanov if (ret < 0) {
50070febdcfSIgor Romanov printf("rte_eth_macaddr_get: err=%d, queue=%u\n",
50170febdcfSIgor Romanov ret, q);
50270febdcfSIgor Romanov return -1;
50370febdcfSIgor Romanov }
50470febdcfSIgor Romanov
5051ffee690SAmr Mokhtar print_mac(port_id, &bbdev_port_eth_addr);
5061ffee690SAmr Mokhtar
5071ffee690SAmr Mokhtar return 0;
5081ffee690SAmr Mokhtar }
5091ffee690SAmr Mokhtar
5101ffee690SAmr Mokhtar static void
lcore_conf_init(struct app_config_params * app_params,struct lcore_conf * lcore_conf,struct rte_mempool ** bbdev_op_pools,struct rte_mempool * bbdev_mbuf_mempool,struct rte_ring * enc_to_dec_ring,struct lcore_statistics * lcore_stats)5111ffee690SAmr Mokhtar lcore_conf_init(struct app_config_params *app_params,
5121ffee690SAmr Mokhtar struct lcore_conf *lcore_conf,
5131ffee690SAmr Mokhtar struct rte_mempool **bbdev_op_pools,
5141ffee690SAmr Mokhtar struct rte_mempool *bbdev_mbuf_mempool,
5151ffee690SAmr Mokhtar struct rte_ring *enc_to_dec_ring,
5161ffee690SAmr Mokhtar struct lcore_statistics *lcore_stats)
5171ffee690SAmr Mokhtar {
5181ffee690SAmr Mokhtar unsigned int lcore_id;
5191ffee690SAmr Mokhtar struct lcore_conf *lconf;
5201ffee690SAmr Mokhtar uint16_t rx_queue_id = 0;
5211ffee690SAmr Mokhtar uint16_t tx_queue_id = 0;
5221ffee690SAmr Mokhtar uint16_t enc_q_id = 0;
5231ffee690SAmr Mokhtar uint16_t dec_q_id = 0;
5241ffee690SAmr Mokhtar
5251ffee690SAmr Mokhtar /* Configure lcores */
5261ffee690SAmr Mokhtar for (lcore_id = 0; lcore_id < 8 * sizeof(uint64_t); ++lcore_id) {
5271ffee690SAmr Mokhtar lconf = &lcore_conf[lcore_id];
5281ffee690SAmr Mokhtar lconf->core_type = 0;
5291ffee690SAmr Mokhtar
5301ffee690SAmr Mokhtar if ((1ULL << lcore_id) & app_params->enc_core_mask) {
5311ffee690SAmr Mokhtar lconf->core_type |= (1 << RTE_BBDEV_OP_TURBO_ENC);
5321ffee690SAmr Mokhtar lconf->rx_queue_id = rx_queue_id++;
5331ffee690SAmr Mokhtar lconf->enc_queue_id =
5341ffee690SAmr Mokhtar app_params->enc_queue_ids[enc_q_id++];
5351ffee690SAmr Mokhtar }
5361ffee690SAmr Mokhtar
5371ffee690SAmr Mokhtar if ((1ULL << lcore_id) & app_params->dec_core_mask) {
5381ffee690SAmr Mokhtar lconf->core_type |= (1 << RTE_BBDEV_OP_TURBO_DEC);
5391ffee690SAmr Mokhtar lconf->tx_queue_id = tx_queue_id++;
5401ffee690SAmr Mokhtar lconf->dec_queue_id =
5411ffee690SAmr Mokhtar app_params->dec_queue_ids[dec_q_id++];
5421ffee690SAmr Mokhtar }
5431ffee690SAmr Mokhtar
5441ffee690SAmr Mokhtar lconf->bbdev_enc_op_pool =
5451ffee690SAmr Mokhtar bbdev_op_pools[RTE_BBDEV_OP_TURBO_ENC];
5461ffee690SAmr Mokhtar lconf->bbdev_dec_op_pool =
5471ffee690SAmr Mokhtar bbdev_op_pools[RTE_BBDEV_OP_TURBO_DEC];
5481ffee690SAmr Mokhtar lconf->bbdev_id = app_params->bbdev_id;
5491ffee690SAmr Mokhtar lconf->port_id = app_params->port_id;
5501ffee690SAmr Mokhtar lconf->enc_out_pool = bbdev_mbuf_mempool;
5511ffee690SAmr Mokhtar lconf->enc_to_dec_ring = enc_to_dec_ring;
5521ffee690SAmr Mokhtar lconf->lcore_stats = &lcore_stats[lcore_id];
5531ffee690SAmr Mokhtar }
5541ffee690SAmr Mokhtar }
5551ffee690SAmr Mokhtar
5561ffee690SAmr Mokhtar static void
print_lcore_stats(struct lcore_statistics * lstats,unsigned int lcore_id)5571ffee690SAmr Mokhtar print_lcore_stats(struct lcore_statistics *lstats, unsigned int lcore_id)
5581ffee690SAmr Mokhtar {
5591ffee690SAmr Mokhtar static const char *stats_border = "_______";
5601ffee690SAmr Mokhtar
5611ffee690SAmr Mokhtar printf("\nLcore %d: %s enqueued count:\t\t%u\n",
5621ffee690SAmr Mokhtar lcore_id, stats_border, lstats->enqueued);
5631ffee690SAmr Mokhtar printf("Lcore %d: %s dequeued count:\t\t%u\n",
5641ffee690SAmr Mokhtar lcore_id, stats_border, lstats->dequeued);
5651ffee690SAmr Mokhtar printf("Lcore %d: %s RX lost packets count:\t\t%u\n",
5661ffee690SAmr Mokhtar lcore_id, stats_border, lstats->rx_lost_packets);
5671ffee690SAmr Mokhtar printf("Lcore %d: %s encoder-to-decoder lost count:\t%u\n",
5681ffee690SAmr Mokhtar lcore_id, stats_border,
5691ffee690SAmr Mokhtar lstats->enc_to_dec_lost_packets);
5701ffee690SAmr Mokhtar printf("Lcore %d: %s TX lost packets count:\t\t%u\n",
5711ffee690SAmr Mokhtar lcore_id, stats_border, lstats->tx_lost_packets);
5721ffee690SAmr Mokhtar }
5731ffee690SAmr Mokhtar
5741ffee690SAmr Mokhtar static void
print_stats(struct stats_lcore_params * stats_lcore)5751ffee690SAmr Mokhtar print_stats(struct stats_lcore_params *stats_lcore)
5761ffee690SAmr Mokhtar {
5771ffee690SAmr Mokhtar unsigned int l_id;
5781ffee690SAmr Mokhtar unsigned int bbdev_id = stats_lcore->app_params->bbdev_id;
5791ffee690SAmr Mokhtar unsigned int port_id = stats_lcore->app_params->port_id;
5801ffee690SAmr Mokhtar int len, ret, i;
5811ffee690SAmr Mokhtar
5821ffee690SAmr Mokhtar struct rte_eth_xstat *xstats;
5831ffee690SAmr Mokhtar struct rte_eth_xstat_name *xstats_names;
5841ffee690SAmr Mokhtar struct rte_bbdev_stats bbstats;
5851ffee690SAmr Mokhtar static const char *stats_border = "_______";
5861ffee690SAmr Mokhtar
5871ffee690SAmr Mokhtar const char clr[] = { 27, '[', '2', 'J', '\0' };
5881ffee690SAmr Mokhtar const char topLeft[] = { 27, '[', '1', ';', '1', 'H', '\0' };
5891ffee690SAmr Mokhtar
5901ffee690SAmr Mokhtar /* Clear screen and move to top left */
5911ffee690SAmr Mokhtar printf("%s%s", clr, topLeft);
5921ffee690SAmr Mokhtar
5931ffee690SAmr Mokhtar printf("PORT STATISTICS:\n================\n");
5941ffee690SAmr Mokhtar len = rte_eth_xstats_get(port_id, NULL, 0);
5951ffee690SAmr Mokhtar if (len < 0)
5961ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
5971ffee690SAmr Mokhtar "rte_eth_xstats_get(%u) failed: %d", port_id,
5981ffee690SAmr Mokhtar len);
5991ffee690SAmr Mokhtar
6001ffee690SAmr Mokhtar xstats = calloc(len, sizeof(*xstats));
6011ffee690SAmr Mokhtar if (xstats == NULL)
6021ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
6031ffee690SAmr Mokhtar "Failed to calloc memory for xstats");
6041ffee690SAmr Mokhtar
6051ffee690SAmr Mokhtar ret = rte_eth_xstats_get(port_id, xstats, len);
6062a5aa6e7SAmr Mokhtar if (ret < 0 || ret > len) {
6072a5aa6e7SAmr Mokhtar free(xstats);
6081ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
6091ffee690SAmr Mokhtar "rte_eth_xstats_get(%u) len%i failed: %d",
6101ffee690SAmr Mokhtar port_id, len, ret);
6112a5aa6e7SAmr Mokhtar }
6121ffee690SAmr Mokhtar
6131ffee690SAmr Mokhtar xstats_names = calloc(len, sizeof(*xstats_names));
6142a5aa6e7SAmr Mokhtar if (xstats_names == NULL) {
6152a5aa6e7SAmr Mokhtar free(xstats);
6161ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
6171ffee690SAmr Mokhtar "Failed to calloc memory for xstats_names");
6182a5aa6e7SAmr Mokhtar }
6191ffee690SAmr Mokhtar
6201ffee690SAmr Mokhtar ret = rte_eth_xstats_get_names(port_id, xstats_names, len);
6212a5aa6e7SAmr Mokhtar if (ret < 0 || ret > len) {
6222a5aa6e7SAmr Mokhtar free(xstats);
6232a5aa6e7SAmr Mokhtar free(xstats_names);
6241ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
6251ffee690SAmr Mokhtar "rte_eth_xstats_get_names(%u) len%i failed: %d",
6261ffee690SAmr Mokhtar port_id, len, ret);
6272a5aa6e7SAmr Mokhtar }
6281ffee690SAmr Mokhtar
6291ffee690SAmr Mokhtar for (i = 0; i < len; i++) {
6301ffee690SAmr Mokhtar if (xstats[i].value > 0)
6311ffee690SAmr Mokhtar printf("Port %u: %s %s:\t\t%"PRIu64"\n",
6321ffee690SAmr Mokhtar port_id, stats_border,
6331ffee690SAmr Mokhtar xstats_names[i].name,
6341ffee690SAmr Mokhtar xstats[i].value);
6351ffee690SAmr Mokhtar }
6361ffee690SAmr Mokhtar
637200d0e7aSAmr Mokhtar ret = rte_bbdev_stats_get(bbdev_id, &bbstats);
638200d0e7aSAmr Mokhtar if (ret < 0) {
639200d0e7aSAmr Mokhtar free(xstats);
640200d0e7aSAmr Mokhtar free(xstats_names);
641200d0e7aSAmr Mokhtar rte_exit(EXIT_FAILURE,
642200d0e7aSAmr Mokhtar "ERROR(%d): Failure to get BBDEV %u statistics\n",
643200d0e7aSAmr Mokhtar ret, bbdev_id);
644200d0e7aSAmr Mokhtar }
645200d0e7aSAmr Mokhtar
6461ffee690SAmr Mokhtar printf("\nBBDEV STATISTICS:\n=================\n");
6471ffee690SAmr Mokhtar printf("BBDEV %u: %s enqueue count:\t\t%"PRIu64"\n",
6481ffee690SAmr Mokhtar bbdev_id, stats_border,
6491ffee690SAmr Mokhtar bbstats.enqueued_count);
6501ffee690SAmr Mokhtar printf("BBDEV %u: %s dequeue count:\t\t%"PRIu64"\n",
6511ffee690SAmr Mokhtar bbdev_id, stats_border,
6521ffee690SAmr Mokhtar bbstats.dequeued_count);
6531ffee690SAmr Mokhtar printf("BBDEV %u: %s enqueue error count:\t\t%"PRIu64"\n",
6541ffee690SAmr Mokhtar bbdev_id, stats_border,
6551ffee690SAmr Mokhtar bbstats.enqueue_err_count);
6561ffee690SAmr Mokhtar printf("BBDEV %u: %s dequeue error count:\t\t%"PRIu64"\n\n",
6571ffee690SAmr Mokhtar bbdev_id, stats_border,
6581ffee690SAmr Mokhtar bbstats.dequeue_err_count);
6591ffee690SAmr Mokhtar
6601ffee690SAmr Mokhtar printf("LCORE STATISTICS:\n=================\n");
6611ffee690SAmr Mokhtar for (l_id = 0; l_id < RTE_MAX_LCORE; ++l_id) {
6621ffee690SAmr Mokhtar if (stats_lcore->lconf[l_id].core_type == 0)
6631ffee690SAmr Mokhtar continue;
6641ffee690SAmr Mokhtar print_lcore_stats(stats_lcore->lconf[l_id].lcore_stats, l_id);
6651ffee690SAmr Mokhtar }
6662a5aa6e7SAmr Mokhtar
6673ee6f706SGeorgiy Levashov fflush(stdout);
6683ee6f706SGeorgiy Levashov
6692a5aa6e7SAmr Mokhtar free(xstats);
6702a5aa6e7SAmr Mokhtar free(xstats_names);
6711ffee690SAmr Mokhtar }
6721ffee690SAmr Mokhtar
6731ffee690SAmr Mokhtar static int
stats_loop(void * arg)6741ffee690SAmr Mokhtar stats_loop(void *arg)
6751ffee690SAmr Mokhtar {
6761ffee690SAmr Mokhtar struct stats_lcore_params *stats_lcore = arg;
6771ffee690SAmr Mokhtar
6785bd3c386SJoyce Kong while (!__atomic_load_n(&global_exit_flag, __ATOMIC_RELAXED)) {
6791ffee690SAmr Mokhtar print_stats(stats_lcore);
6801ffee690SAmr Mokhtar rte_delay_ms(500);
6811ffee690SAmr Mokhtar }
6821ffee690SAmr Mokhtar
6831ffee690SAmr Mokhtar return 0;
6841ffee690SAmr Mokhtar }
6851ffee690SAmr Mokhtar
6861ffee690SAmr Mokhtar static inline void
run_encoding(struct lcore_conf * lcore_conf)6871ffee690SAmr Mokhtar run_encoding(struct lcore_conf *lcore_conf)
6881ffee690SAmr Mokhtar {
6891ffee690SAmr Mokhtar uint16_t i;
6901ffee690SAmr Mokhtar uint16_t port_id, rx_queue_id;
6911ffee690SAmr Mokhtar uint16_t bbdev_id, enc_queue_id;
6921ffee690SAmr Mokhtar uint16_t nb_rx, nb_enq, nb_deq, nb_sent;
6931ffee690SAmr Mokhtar struct rte_mbuf *rx_pkts_burst[MAX_PKT_BURST];
6941ffee690SAmr Mokhtar struct rte_mbuf *enc_out_pkts[MAX_PKT_BURST];
6951ffee690SAmr Mokhtar struct rte_bbdev_enc_op *bbdev_ops_burst[MAX_PKT_BURST];
6961ffee690SAmr Mokhtar struct lcore_statistics *lcore_stats;
6971ffee690SAmr Mokhtar struct rte_mempool *bbdev_op_pool, *enc_out_pool;
6981ffee690SAmr Mokhtar struct rte_ring *enc_to_dec_ring;
6991ffee690SAmr Mokhtar const int in_data_len = (def_op_enc.cb_params.k / 8) - CRC_24B_LEN;
7001ffee690SAmr Mokhtar
7011ffee690SAmr Mokhtar lcore_stats = lcore_conf->lcore_stats;
7021ffee690SAmr Mokhtar port_id = lcore_conf->port_id;
7031ffee690SAmr Mokhtar rx_queue_id = lcore_conf->rx_queue_id;
7041ffee690SAmr Mokhtar bbdev_id = lcore_conf->bbdev_id;
7051ffee690SAmr Mokhtar enc_queue_id = lcore_conf->enc_queue_id;
7061ffee690SAmr Mokhtar bbdev_op_pool = lcore_conf->bbdev_enc_op_pool;
7071ffee690SAmr Mokhtar enc_out_pool = lcore_conf->enc_out_pool;
7081ffee690SAmr Mokhtar enc_to_dec_ring = lcore_conf->enc_to_dec_ring;
7091ffee690SAmr Mokhtar
7101ffee690SAmr Mokhtar /* Read packet from RX queues*/
7111ffee690SAmr Mokhtar nb_rx = rte_eth_rx_burst(port_id, rx_queue_id, rx_pkts_burst,
7121ffee690SAmr Mokhtar MAX_PKT_BURST);
7131ffee690SAmr Mokhtar if (!nb_rx)
7141ffee690SAmr Mokhtar return;
7151ffee690SAmr Mokhtar
7161ffee690SAmr Mokhtar if (unlikely(rte_mempool_get_bulk(enc_out_pool, (void **)enc_out_pkts,
7171ffee690SAmr Mokhtar nb_rx) != 0)) {
7181ffee690SAmr Mokhtar pktmbuf_free_bulk(rx_pkts_burst, nb_rx);
7191ffee690SAmr Mokhtar lcore_stats->rx_lost_packets += nb_rx;
7201ffee690SAmr Mokhtar return;
7211ffee690SAmr Mokhtar }
7221ffee690SAmr Mokhtar
7231ffee690SAmr Mokhtar if (unlikely(rte_bbdev_enc_op_alloc_bulk(bbdev_op_pool, bbdev_ops_burst,
7241ffee690SAmr Mokhtar nb_rx) != 0)) {
7251ffee690SAmr Mokhtar pktmbuf_free_bulk(enc_out_pkts, nb_rx);
7261ffee690SAmr Mokhtar pktmbuf_free_bulk(rx_pkts_burst, nb_rx);
7271ffee690SAmr Mokhtar lcore_stats->rx_lost_packets += nb_rx;
7281ffee690SAmr Mokhtar return;
7291ffee690SAmr Mokhtar }
7301ffee690SAmr Mokhtar
7311ffee690SAmr Mokhtar for (i = 0; i < nb_rx; i++) {
7321ffee690SAmr Mokhtar char *data;
7331ffee690SAmr Mokhtar const uint16_t pkt_data_len =
7341ffee690SAmr Mokhtar rte_pktmbuf_data_len(rx_pkts_burst[i]) -
7356d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr);
7361ffee690SAmr Mokhtar /* save input mbuf pointer for later comparison */
73761bf499dSThomas Monjalon *mbuf_input(enc_out_pkts[i]) = rx_pkts_burst[i];
7381ffee690SAmr Mokhtar
7391ffee690SAmr Mokhtar /* copy ethernet header */
7401ffee690SAmr Mokhtar rte_pktmbuf_reset(enc_out_pkts[i]);
7411ffee690SAmr Mokhtar data = rte_pktmbuf_append(enc_out_pkts[i],
7426d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr));
7431ffee690SAmr Mokhtar if (data == NULL) {
7441ffee690SAmr Mokhtar printf(
7451ffee690SAmr Mokhtar "Not enough space for ethernet header in encoder output mbuf\n");
7461ffee690SAmr Mokhtar continue;
7471ffee690SAmr Mokhtar }
7481ffee690SAmr Mokhtar add_ether_hdr(rx_pkts_burst[i], enc_out_pkts[i]);
7491ffee690SAmr Mokhtar
7501ffee690SAmr Mokhtar /* set op */
7511ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_enc = def_op_enc;
7521ffee690SAmr Mokhtar
7531ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_enc.input.data =
7541ffee690SAmr Mokhtar rx_pkts_burst[i];
7551ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_enc.input.offset =
7566d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr);
7571ffee690SAmr Mokhtar /* Encoder will attach the CRC24B, adjust the length */
7581ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_enc.input.length = in_data_len;
7591ffee690SAmr Mokhtar
7601ffee690SAmr Mokhtar if (in_data_len < pkt_data_len)
7611ffee690SAmr Mokhtar rte_pktmbuf_trim(rx_pkts_burst[i], pkt_data_len -
7621ffee690SAmr Mokhtar in_data_len);
7631ffee690SAmr Mokhtar else if (in_data_len > pkt_data_len) {
7641ffee690SAmr Mokhtar data = rte_pktmbuf_append(rx_pkts_burst[i],
7651ffee690SAmr Mokhtar in_data_len - pkt_data_len);
7661ffee690SAmr Mokhtar if (data == NULL)
7671ffee690SAmr Mokhtar printf(
7681ffee690SAmr Mokhtar "Not enough storage in mbuf to perform the encoding\n");
7691ffee690SAmr Mokhtar }
7701ffee690SAmr Mokhtar
7711ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_enc.output.data =
7721ffee690SAmr Mokhtar enc_out_pkts[i];
7731ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_enc.output.offset =
7746d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr);
7751ffee690SAmr Mokhtar }
7761ffee690SAmr Mokhtar
7771ffee690SAmr Mokhtar /* Enqueue packets on BBDevice */
7781ffee690SAmr Mokhtar nb_enq = rte_bbdev_enqueue_enc_ops(bbdev_id, enc_queue_id,
7791ffee690SAmr Mokhtar bbdev_ops_burst, nb_rx);
7801ffee690SAmr Mokhtar if (unlikely(nb_enq < nb_rx)) {
78161bf499dSThomas Monjalon pktmbuf_input_free_bulk(&enc_out_pkts[nb_enq],
7821ffee690SAmr Mokhtar nb_rx - nb_enq);
7831ffee690SAmr Mokhtar rte_bbdev_enc_op_free_bulk(&bbdev_ops_burst[nb_enq],
7841ffee690SAmr Mokhtar nb_rx - nb_enq);
7851ffee690SAmr Mokhtar lcore_stats->rx_lost_packets += nb_rx - nb_enq;
7861ffee690SAmr Mokhtar
7871ffee690SAmr Mokhtar if (!nb_enq)
7881ffee690SAmr Mokhtar return;
7891ffee690SAmr Mokhtar }
7901ffee690SAmr Mokhtar
7911ffee690SAmr Mokhtar lcore_stats->enqueued += nb_enq;
7921ffee690SAmr Mokhtar
7931ffee690SAmr Mokhtar /* Dequeue packets from bbdev device*/
7941ffee690SAmr Mokhtar nb_deq = 0;
7951ffee690SAmr Mokhtar do {
7961ffee690SAmr Mokhtar nb_deq += rte_bbdev_dequeue_enc_ops(bbdev_id, enc_queue_id,
7971ffee690SAmr Mokhtar &bbdev_ops_burst[nb_deq], nb_enq - nb_deq);
7981ffee690SAmr Mokhtar } while (unlikely(nb_deq < nb_enq));
7991ffee690SAmr Mokhtar
8001ffee690SAmr Mokhtar lcore_stats->dequeued += nb_deq;
8011ffee690SAmr Mokhtar
8021ffee690SAmr Mokhtar /* Generate and add AWGN */
8031ffee690SAmr Mokhtar add_awgn(enc_out_pkts, nb_deq);
8041ffee690SAmr Mokhtar
8051ffee690SAmr Mokhtar rte_bbdev_enc_op_free_bulk(bbdev_ops_burst, nb_deq);
8061ffee690SAmr Mokhtar
8071ffee690SAmr Mokhtar /* Enqueue packets to encoder-to-decoder ring */
8081ffee690SAmr Mokhtar nb_sent = rte_ring_enqueue_burst(enc_to_dec_ring, (void **)enc_out_pkts,
8091ffee690SAmr Mokhtar nb_deq, NULL);
8101ffee690SAmr Mokhtar if (unlikely(nb_sent < nb_deq)) {
81161bf499dSThomas Monjalon pktmbuf_input_free_bulk(&enc_out_pkts[nb_sent],
8121ffee690SAmr Mokhtar nb_deq - nb_sent);
8131ffee690SAmr Mokhtar lcore_stats->enc_to_dec_lost_packets += nb_deq - nb_sent;
8141ffee690SAmr Mokhtar }
8151ffee690SAmr Mokhtar }
8161ffee690SAmr Mokhtar
8171ffee690SAmr Mokhtar static void
run_decoding(struct lcore_conf * lcore_conf)8181ffee690SAmr Mokhtar run_decoding(struct lcore_conf *lcore_conf)
8191ffee690SAmr Mokhtar {
8201ffee690SAmr Mokhtar uint16_t i;
8211ffee690SAmr Mokhtar uint16_t port_id, tx_queue_id;
8221ffee690SAmr Mokhtar uint16_t bbdev_id, bbdev_queue_id;
8231ffee690SAmr Mokhtar uint16_t nb_recv, nb_enq, nb_deq, nb_tx;
8241ffee690SAmr Mokhtar uint8_t *llr_temp_buf;
8251ffee690SAmr Mokhtar struct rte_mbuf *recv_pkts_burst[MAX_PKT_BURST];
8261ffee690SAmr Mokhtar struct rte_bbdev_dec_op *bbdev_ops_burst[MAX_PKT_BURST];
8271ffee690SAmr Mokhtar struct lcore_statistics *lcore_stats;
8281ffee690SAmr Mokhtar struct rte_mempool *bbdev_op_pool;
8291ffee690SAmr Mokhtar struct rte_ring *enc_to_dec_ring;
8301ffee690SAmr Mokhtar
8311ffee690SAmr Mokhtar lcore_stats = lcore_conf->lcore_stats;
8321ffee690SAmr Mokhtar port_id = lcore_conf->port_id;
8331ffee690SAmr Mokhtar tx_queue_id = lcore_conf->tx_queue_id;
8341ffee690SAmr Mokhtar bbdev_id = lcore_conf->bbdev_id;
8351ffee690SAmr Mokhtar bbdev_queue_id = lcore_conf->dec_queue_id;
8361ffee690SAmr Mokhtar bbdev_op_pool = lcore_conf->bbdev_dec_op_pool;
8371ffee690SAmr Mokhtar enc_to_dec_ring = lcore_conf->enc_to_dec_ring;
8381ffee690SAmr Mokhtar llr_temp_buf = lcore_conf->llr_temp_buf;
8391ffee690SAmr Mokhtar
8401ffee690SAmr Mokhtar /* Dequeue packets from the ring */
8411ffee690SAmr Mokhtar nb_recv = rte_ring_dequeue_burst(enc_to_dec_ring,
8421ffee690SAmr Mokhtar (void **)recv_pkts_burst, MAX_PKT_BURST, NULL);
8431ffee690SAmr Mokhtar if (!nb_recv)
8441ffee690SAmr Mokhtar return;
8451ffee690SAmr Mokhtar
8461ffee690SAmr Mokhtar if (unlikely(rte_bbdev_dec_op_alloc_bulk(bbdev_op_pool, bbdev_ops_burst,
8471ffee690SAmr Mokhtar nb_recv) != 0)) {
84861bf499dSThomas Monjalon pktmbuf_input_free_bulk(recv_pkts_burst, nb_recv);
8491ffee690SAmr Mokhtar lcore_stats->rx_lost_packets += nb_recv;
8501ffee690SAmr Mokhtar return;
8511ffee690SAmr Mokhtar }
8521ffee690SAmr Mokhtar
8531ffee690SAmr Mokhtar transform_enc_out_dec_in(recv_pkts_burst, llr_temp_buf, nb_recv,
8541ffee690SAmr Mokhtar def_op_dec.cb_params.k);
8551ffee690SAmr Mokhtar
8561ffee690SAmr Mokhtar for (i = 0; i < nb_recv; i++) {
8571ffee690SAmr Mokhtar /* set op */
8581ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_dec = def_op_dec;
8591ffee690SAmr Mokhtar
8601ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_dec.input.data = recv_pkts_burst[i];
8611ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_dec.input.offset =
8626d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr);
8631ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_dec.input.length =
8641ffee690SAmr Mokhtar rte_pktmbuf_data_len(recv_pkts_burst[i])
8656d13ea8eSOlivier Matz - sizeof(struct rte_ether_hdr);
8661ffee690SAmr Mokhtar
8671ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_dec.hard_output.data =
8681ffee690SAmr Mokhtar recv_pkts_burst[i];
8691ffee690SAmr Mokhtar bbdev_ops_burst[i]->turbo_dec.hard_output.offset =
8706d13ea8eSOlivier Matz sizeof(struct rte_ether_hdr);
8711ffee690SAmr Mokhtar }
8721ffee690SAmr Mokhtar
8731ffee690SAmr Mokhtar /* Enqueue packets on BBDevice */
8741ffee690SAmr Mokhtar nb_enq = rte_bbdev_enqueue_dec_ops(bbdev_id, bbdev_queue_id,
8751ffee690SAmr Mokhtar bbdev_ops_burst, nb_recv);
8761ffee690SAmr Mokhtar if (unlikely(nb_enq < nb_recv)) {
87761bf499dSThomas Monjalon pktmbuf_input_free_bulk(&recv_pkts_burst[nb_enq],
8781ffee690SAmr Mokhtar nb_recv - nb_enq);
8791ffee690SAmr Mokhtar rte_bbdev_dec_op_free_bulk(&bbdev_ops_burst[nb_enq],
8801ffee690SAmr Mokhtar nb_recv - nb_enq);
8811ffee690SAmr Mokhtar lcore_stats->rx_lost_packets += nb_recv - nb_enq;
8821ffee690SAmr Mokhtar
8831ffee690SAmr Mokhtar if (!nb_enq)
8841ffee690SAmr Mokhtar return;
8851ffee690SAmr Mokhtar }
8861ffee690SAmr Mokhtar
8871ffee690SAmr Mokhtar lcore_stats->enqueued += nb_enq;
8881ffee690SAmr Mokhtar
8891ffee690SAmr Mokhtar /* Dequeue packets from BBDevice */
8901ffee690SAmr Mokhtar nb_deq = 0;
8911ffee690SAmr Mokhtar do {
8921ffee690SAmr Mokhtar nb_deq += rte_bbdev_dequeue_dec_ops(bbdev_id, bbdev_queue_id,
8931ffee690SAmr Mokhtar &bbdev_ops_burst[nb_deq], nb_enq - nb_deq);
8941ffee690SAmr Mokhtar } while (unlikely(nb_deq < nb_enq));
8951ffee690SAmr Mokhtar
8961ffee690SAmr Mokhtar lcore_stats->dequeued += nb_deq;
8971ffee690SAmr Mokhtar
8981ffee690SAmr Mokhtar rte_bbdev_dec_op_free_bulk(bbdev_ops_burst, nb_deq);
8991ffee690SAmr Mokhtar
9001ffee690SAmr Mokhtar verify_data(recv_pkts_burst, nb_deq);
9011ffee690SAmr Mokhtar
9021ffee690SAmr Mokhtar /* Free the RX mbufs after verification */
9031ffee690SAmr Mokhtar for (i = 0; i < nb_deq; ++i)
90461bf499dSThomas Monjalon rte_pktmbuf_free(*mbuf_input(recv_pkts_burst[i]));
9051ffee690SAmr Mokhtar
9061ffee690SAmr Mokhtar /* Transmit the packets */
9071ffee690SAmr Mokhtar nb_tx = rte_eth_tx_burst(port_id, tx_queue_id, recv_pkts_burst, nb_deq);
9081ffee690SAmr Mokhtar if (unlikely(nb_tx < nb_deq)) {
90961bf499dSThomas Monjalon pktmbuf_input_free_bulk(&recv_pkts_burst[nb_tx],
9101ffee690SAmr Mokhtar nb_deq - nb_tx);
9111ffee690SAmr Mokhtar lcore_stats->tx_lost_packets += nb_deq - nb_tx;
9121ffee690SAmr Mokhtar }
9131ffee690SAmr Mokhtar }
9141ffee690SAmr Mokhtar
9151ffee690SAmr Mokhtar static int
processing_loop(void * arg)9161ffee690SAmr Mokhtar processing_loop(void *arg)
9171ffee690SAmr Mokhtar {
9181ffee690SAmr Mokhtar struct lcore_conf *lcore_conf = arg;
9191ffee690SAmr Mokhtar const bool run_encoder = (lcore_conf->core_type &
9201ffee690SAmr Mokhtar (1 << RTE_BBDEV_OP_TURBO_ENC));
9211ffee690SAmr Mokhtar const bool run_decoder = (lcore_conf->core_type &
9221ffee690SAmr Mokhtar (1 << RTE_BBDEV_OP_TURBO_DEC));
9231ffee690SAmr Mokhtar
9245bd3c386SJoyce Kong while (!__atomic_load_n(&global_exit_flag, __ATOMIC_RELAXED)) {
9251ffee690SAmr Mokhtar if (run_encoder)
9261ffee690SAmr Mokhtar run_encoding(lcore_conf);
9271ffee690SAmr Mokhtar if (run_decoder)
9281ffee690SAmr Mokhtar run_decoding(lcore_conf);
9291ffee690SAmr Mokhtar }
9301ffee690SAmr Mokhtar
9311ffee690SAmr Mokhtar return 0;
9321ffee690SAmr Mokhtar }
9331ffee690SAmr Mokhtar
9341ffee690SAmr Mokhtar static int
prepare_bbdev_device(unsigned int dev_id,struct rte_bbdev_info * info,struct app_config_params * app_params)9351ffee690SAmr Mokhtar prepare_bbdev_device(unsigned int dev_id, struct rte_bbdev_info *info,
9361ffee690SAmr Mokhtar struct app_config_params *app_params)
9371ffee690SAmr Mokhtar {
9381ffee690SAmr Mokhtar int ret;
9391ffee690SAmr Mokhtar unsigned int q_id, dec_q_id, enc_q_id;
9401ffee690SAmr Mokhtar struct rte_bbdev_queue_conf qconf = {0};
9411ffee690SAmr Mokhtar uint16_t dec_qs_nb = app_params->num_dec_cores;
9421ffee690SAmr Mokhtar uint16_t enc_qs_nb = app_params->num_enc_cores;
9431ffee690SAmr Mokhtar uint16_t tot_qs = dec_qs_nb + enc_qs_nb;
9441ffee690SAmr Mokhtar
9451ffee690SAmr Mokhtar ret = rte_bbdev_setup_queues(dev_id, tot_qs, info->socket_id);
9461ffee690SAmr Mokhtar if (ret < 0)
9471ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
9481ffee690SAmr Mokhtar "ERROR(%d): BBDEV %u not configured properly\n",
9491ffee690SAmr Mokhtar ret, dev_id);
9501ffee690SAmr Mokhtar
9511ffee690SAmr Mokhtar /* setup device DEC queues */
9521ffee690SAmr Mokhtar qconf.socket = info->socket_id;
9531ffee690SAmr Mokhtar qconf.queue_size = info->drv.queue_size_lim;
9541ffee690SAmr Mokhtar qconf.op_type = RTE_BBDEV_OP_TURBO_DEC;
9551ffee690SAmr Mokhtar
9561ffee690SAmr Mokhtar for (q_id = 0, dec_q_id = 0; q_id < dec_qs_nb; q_id++) {
9571ffee690SAmr Mokhtar ret = rte_bbdev_queue_configure(dev_id, q_id, &qconf);
9581ffee690SAmr Mokhtar if (ret < 0)
9591ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
9601ffee690SAmr Mokhtar "ERROR(%d): BBDEV %u DEC queue %u not configured properly\n",
9611ffee690SAmr Mokhtar ret, dev_id, q_id);
9621ffee690SAmr Mokhtar app_params->dec_queue_ids[dec_q_id++] = q_id;
9631ffee690SAmr Mokhtar }
9641ffee690SAmr Mokhtar
9651ffee690SAmr Mokhtar /* setup device ENC queues */
9661ffee690SAmr Mokhtar qconf.op_type = RTE_BBDEV_OP_TURBO_ENC;
9671ffee690SAmr Mokhtar
9681ffee690SAmr Mokhtar for (q_id = dec_qs_nb, enc_q_id = 0; q_id < tot_qs; q_id++) {
9691ffee690SAmr Mokhtar ret = rte_bbdev_queue_configure(dev_id, q_id, &qconf);
9701ffee690SAmr Mokhtar if (ret < 0)
9711ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
9721ffee690SAmr Mokhtar "ERROR(%d): BBDEV %u ENC queue %u not configured properly\n",
9731ffee690SAmr Mokhtar ret, dev_id, q_id);
9741ffee690SAmr Mokhtar app_params->enc_queue_ids[enc_q_id++] = q_id;
9751ffee690SAmr Mokhtar }
9761ffee690SAmr Mokhtar
9771ffee690SAmr Mokhtar ret = rte_bbdev_start(dev_id);
9781ffee690SAmr Mokhtar
9791ffee690SAmr Mokhtar if (ret != 0)
9801ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "ERROR(%d): BBDEV %u not started\n",
9811ffee690SAmr Mokhtar ret, dev_id);
9821ffee690SAmr Mokhtar
9831ffee690SAmr Mokhtar printf("BBdev %u started\n", dev_id);
9841ffee690SAmr Mokhtar
9851ffee690SAmr Mokhtar return 0;
9861ffee690SAmr Mokhtar }
9871ffee690SAmr Mokhtar
9881ffee690SAmr Mokhtar static inline bool
check_matching_capabilities(uint64_t mask,uint64_t required_mask)9891ffee690SAmr Mokhtar check_matching_capabilities(uint64_t mask, uint64_t required_mask)
9901ffee690SAmr Mokhtar {
9911ffee690SAmr Mokhtar return (mask & required_mask) == required_mask;
9921ffee690SAmr Mokhtar }
9931ffee690SAmr Mokhtar
9941ffee690SAmr Mokhtar static void
enable_bbdev(struct app_config_params * app_params)9951ffee690SAmr Mokhtar enable_bbdev(struct app_config_params *app_params)
9961ffee690SAmr Mokhtar {
9971ffee690SAmr Mokhtar struct rte_bbdev_info dev_info;
9981ffee690SAmr Mokhtar const struct rte_bbdev_op_cap *op_cap;
9991ffee690SAmr Mokhtar uint16_t bbdev_id = app_params->bbdev_id;
10001ffee690SAmr Mokhtar bool encoder_capable = false;
10011ffee690SAmr Mokhtar bool decoder_capable = false;
10021ffee690SAmr Mokhtar
10031ffee690SAmr Mokhtar rte_bbdev_info_get(bbdev_id, &dev_info);
10041ffee690SAmr Mokhtar op_cap = dev_info.drv.capabilities;
10051ffee690SAmr Mokhtar
10061ffee690SAmr Mokhtar while (op_cap->type != RTE_BBDEV_OP_NONE) {
10071ffee690SAmr Mokhtar if (op_cap->type == RTE_BBDEV_OP_TURBO_ENC) {
10081ffee690SAmr Mokhtar if (check_matching_capabilities(
10091ffee690SAmr Mokhtar op_cap->cap.turbo_enc.capability_flags,
10101ffee690SAmr Mokhtar def_op_enc.op_flags))
10111ffee690SAmr Mokhtar encoder_capable = true;
10121ffee690SAmr Mokhtar }
10131ffee690SAmr Mokhtar
10141ffee690SAmr Mokhtar if (op_cap->type == RTE_BBDEV_OP_TURBO_DEC) {
10151ffee690SAmr Mokhtar if (check_matching_capabilities(
10161ffee690SAmr Mokhtar op_cap->cap.turbo_dec.capability_flags,
10171ffee690SAmr Mokhtar def_op_dec.op_flags))
10181ffee690SAmr Mokhtar decoder_capable = true;
10191ffee690SAmr Mokhtar }
10201ffee690SAmr Mokhtar
10211ffee690SAmr Mokhtar op_cap++;
10221ffee690SAmr Mokhtar }
10231ffee690SAmr Mokhtar
10241ffee690SAmr Mokhtar if (encoder_capable == false)
10251ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
10261ffee690SAmr Mokhtar "The specified BBDev %u doesn't have required encoder capabilities!\n",
10271ffee690SAmr Mokhtar bbdev_id);
10281ffee690SAmr Mokhtar if (decoder_capable == false)
10291ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
10301ffee690SAmr Mokhtar "The specified BBDev %u doesn't have required decoder capabilities!\n",
10311ffee690SAmr Mokhtar bbdev_id);
10321ffee690SAmr Mokhtar
10331ffee690SAmr Mokhtar prepare_bbdev_device(bbdev_id, &dev_info, app_params);
10341ffee690SAmr Mokhtar }
10351ffee690SAmr Mokhtar
10361ffee690SAmr Mokhtar int
main(int argc,char ** argv)10371ffee690SAmr Mokhtar main(int argc, char **argv)
10381ffee690SAmr Mokhtar {
10391ffee690SAmr Mokhtar int ret;
1040a9dbe180SThomas Monjalon unsigned int nb_bbdevs, flags, lcore_id;
10411ffee690SAmr Mokhtar void *sigret;
10421ffee690SAmr Mokhtar struct app_config_params app_params = def_app_config;
10431ffee690SAmr Mokhtar struct rte_mempool *ethdev_mbuf_mempool, *bbdev_mbuf_mempool;
10441ffee690SAmr Mokhtar struct rte_mempool *bbdev_op_pools[RTE_BBDEV_OP_TYPE_COUNT];
10451ffee690SAmr Mokhtar struct lcore_conf lcore_conf[RTE_MAX_LCORE] = { {0} };
10461ffee690SAmr Mokhtar struct lcore_statistics lcore_stats[RTE_MAX_LCORE] = { {0} };
10471ffee690SAmr Mokhtar struct stats_lcore_params stats_lcore;
10481ffee690SAmr Mokhtar struct rte_ring *enc_to_dec_ring;
10491ffee690SAmr Mokhtar bool stats_thread_started = false;
1050cb056611SStephen Hemminger unsigned int main_lcore_id = rte_get_main_lcore();
10511ffee690SAmr Mokhtar
105261bf499dSThomas Monjalon static const struct rte_mbuf_dynfield input_dynfield_desc = {
105361bf499dSThomas Monjalon .name = "example_bbdev_dynfield_input",
105461bf499dSThomas Monjalon .size = sizeof(struct rte_mbuf *),
105561bf499dSThomas Monjalon .align = __alignof__(struct rte_mbuf *),
105661bf499dSThomas Monjalon };
105761bf499dSThomas Monjalon
10585bd3c386SJoyce Kong __atomic_store_n(&global_exit_flag, 0, __ATOMIC_RELAXED);
10591ffee690SAmr Mokhtar
10601ffee690SAmr Mokhtar sigret = signal(SIGTERM, signal_handler);
10611ffee690SAmr Mokhtar if (sigret == SIG_ERR)
10621ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "signal(%d, ...) failed", SIGTERM);
10631ffee690SAmr Mokhtar
10641ffee690SAmr Mokhtar sigret = signal(SIGINT, signal_handler);
10651ffee690SAmr Mokhtar if (sigret == SIG_ERR)
10661ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "signal(%d, ...) failed", SIGINT);
10671ffee690SAmr Mokhtar
10681ffee690SAmr Mokhtar ret = rte_eal_init(argc, argv);
10691ffee690SAmr Mokhtar if (ret < 0)
10701ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "Invalid EAL arguments\n");
10711ffee690SAmr Mokhtar
10721ffee690SAmr Mokhtar argc -= ret;
10731ffee690SAmr Mokhtar argv += ret;
10741ffee690SAmr Mokhtar
10751ffee690SAmr Mokhtar /* parse application arguments (after the EAL ones) */
10761ffee690SAmr Mokhtar ret = bbdev_parse_args(argc, argv, &app_params);
10771ffee690SAmr Mokhtar if (ret < 0)
10781ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "Invalid BBDEV arguments\n");
10791ffee690SAmr Mokhtar
10801ffee690SAmr Mokhtar /*create bbdev op pools*/
10811ffee690SAmr Mokhtar bbdev_op_pools[RTE_BBDEV_OP_TURBO_DEC] =
10821ffee690SAmr Mokhtar rte_bbdev_op_pool_create("bbdev_op_pool_dec",
10831ffee690SAmr Mokhtar RTE_BBDEV_OP_TURBO_DEC, NB_MBUF, 128, rte_socket_id());
10841ffee690SAmr Mokhtar bbdev_op_pools[RTE_BBDEV_OP_TURBO_ENC] =
10851ffee690SAmr Mokhtar rte_bbdev_op_pool_create("bbdev_op_pool_enc",
10861ffee690SAmr Mokhtar RTE_BBDEV_OP_TURBO_ENC, NB_MBUF, 128, rte_socket_id());
10871ffee690SAmr Mokhtar
10881ffee690SAmr Mokhtar if ((bbdev_op_pools[RTE_BBDEV_OP_TURBO_DEC] == NULL) ||
10891ffee690SAmr Mokhtar (bbdev_op_pools[RTE_BBDEV_OP_TURBO_ENC] == NULL))
10901ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "Cannot create bbdev op pools\n");
10911ffee690SAmr Mokhtar
10921ffee690SAmr Mokhtar /* Create encoder to decoder ring */
10931ffee690SAmr Mokhtar flags = (app_params.num_enc_cores == 1) ? RING_F_SP_ENQ : 0;
10941ffee690SAmr Mokhtar if (app_params.num_dec_cores == 1)
10951ffee690SAmr Mokhtar flags |= RING_F_SC_DEQ;
10961ffee690SAmr Mokhtar
10971ffee690SAmr Mokhtar enc_to_dec_ring = rte_ring_create("enc_to_dec_ring",
10981ffee690SAmr Mokhtar rte_align32pow2(NB_MBUF), rte_socket_id(), flags);
10991ffee690SAmr Mokhtar
11001ffee690SAmr Mokhtar /* Get the number of available bbdev devices */
11011ffee690SAmr Mokhtar nb_bbdevs = rte_bbdev_count();
11021ffee690SAmr Mokhtar if (nb_bbdevs <= app_params.bbdev_id)
11031ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
11041ffee690SAmr Mokhtar "%u BBDevs detected, cannot use BBDev with ID %u!\n",
11051ffee690SAmr Mokhtar nb_bbdevs, app_params.bbdev_id);
11061ffee690SAmr Mokhtar printf("Number of bbdevs detected: %d\n", nb_bbdevs);
11071ffee690SAmr Mokhtar
1108a9dbe180SThomas Monjalon if (!rte_eth_dev_is_valid_port(app_params.port_id))
11091ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
1110a9dbe180SThomas Monjalon "cannot use port with ID %u!\n",
1111a9dbe180SThomas Monjalon app_params.port_id);
11121ffee690SAmr Mokhtar
11131ffee690SAmr Mokhtar /* create the mbuf mempool for ethdev pkts */
11141ffee690SAmr Mokhtar ethdev_mbuf_mempool = rte_pktmbuf_pool_create("ethdev_mbuf_pool",
11151ffee690SAmr Mokhtar NB_MBUF, MEMPOOL_CACHE_SIZE, 0,
11161ffee690SAmr Mokhtar RTE_MBUF_DEFAULT_BUF_SIZE, rte_socket_id());
11171ffee690SAmr Mokhtar if (ethdev_mbuf_mempool == NULL)
11181ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "Cannot create ethdev mbuf mempool\n");
11191ffee690SAmr Mokhtar
11201ffee690SAmr Mokhtar /* create the mbuf mempool for encoder output */
11211ffee690SAmr Mokhtar bbdev_mbuf_mempool = rte_pktmbuf_pool_create("bbdev_mbuf_pool",
11221ffee690SAmr Mokhtar NB_MBUF, MEMPOOL_CACHE_SIZE, 0,
11231ffee690SAmr Mokhtar RTE_MBUF_DEFAULT_BUF_SIZE, rte_socket_id());
11241ffee690SAmr Mokhtar if (bbdev_mbuf_mempool == NULL)
11251ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "Cannot create ethdev mbuf mempool\n");
11261ffee690SAmr Mokhtar
112761bf499dSThomas Monjalon /* register mbuf field to store input pointer */
112861bf499dSThomas Monjalon input_dynfield_offset =
112961bf499dSThomas Monjalon rte_mbuf_dynfield_register(&input_dynfield_desc);
113061bf499dSThomas Monjalon if (input_dynfield_offset < 0)
113161bf499dSThomas Monjalon rte_exit(EXIT_FAILURE, "Cannot register mbuf field\n");
113261bf499dSThomas Monjalon
11331ffee690SAmr Mokhtar /* initialize ports */
11341ffee690SAmr Mokhtar ret = initialize_ports(&app_params, ethdev_mbuf_mempool);
11351ffee690SAmr Mokhtar
11361ffee690SAmr Mokhtar /* Check if all requested lcores are available */
11371ffee690SAmr Mokhtar for (lcore_id = 0; lcore_id < 8 * sizeof(uint64_t); ++lcore_id)
11381ffee690SAmr Mokhtar if (((1ULL << lcore_id) & app_params.enc_core_mask) ||
11391ffee690SAmr Mokhtar ((1ULL << lcore_id) & app_params.dec_core_mask))
11401ffee690SAmr Mokhtar if (!rte_lcore_is_enabled(lcore_id))
11411ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
11421ffee690SAmr Mokhtar "Requested lcore_id %u is not enabled!\n",
11431ffee690SAmr Mokhtar lcore_id);
11441ffee690SAmr Mokhtar
11451ffee690SAmr Mokhtar /* Start ethernet port */
11461ffee690SAmr Mokhtar ret = rte_eth_dev_start(app_params.port_id);
11471ffee690SAmr Mokhtar if (ret < 0)
11481ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE, "rte_eth_dev_start:err=%d, port=%u\n",
11491ffee690SAmr Mokhtar ret, app_params.port_id);
11501ffee690SAmr Mokhtar
11511ffee690SAmr Mokhtar ret = check_port_link_status(app_params.port_id);
11521ffee690SAmr Mokhtar if (ret < 0)
11531ffee690SAmr Mokhtar exit(EXIT_FAILURE);
11541ffee690SAmr Mokhtar
11551ffee690SAmr Mokhtar /* start BBDevice and save BBDev queue IDs */
11561ffee690SAmr Mokhtar enable_bbdev(&app_params);
11571ffee690SAmr Mokhtar
11581ffee690SAmr Mokhtar /* Initialize the port/queue configuration of each logical core */
11591ffee690SAmr Mokhtar lcore_conf_init(&app_params, lcore_conf, bbdev_op_pools,
11601ffee690SAmr Mokhtar bbdev_mbuf_mempool, enc_to_dec_ring, lcore_stats);
11611ffee690SAmr Mokhtar
11621ffee690SAmr Mokhtar stats_lcore.app_params = &app_params;
11631ffee690SAmr Mokhtar stats_lcore.lconf = lcore_conf;
11641ffee690SAmr Mokhtar
1165cb056611SStephen Hemminger RTE_LCORE_FOREACH_WORKER(lcore_id) {
11661ffee690SAmr Mokhtar if (lcore_conf[lcore_id].core_type != 0)
1167cb056611SStephen Hemminger /* launch per-lcore processing loop on worker lcores */
11681ffee690SAmr Mokhtar rte_eal_remote_launch(processing_loop,
11691ffee690SAmr Mokhtar &lcore_conf[lcore_id], lcore_id);
11701ffee690SAmr Mokhtar else if (!stats_thread_started) {
11711ffee690SAmr Mokhtar /* launch statistics printing loop */
11721ffee690SAmr Mokhtar rte_eal_remote_launch(stats_loop, &stats_lcore,
11731ffee690SAmr Mokhtar lcore_id);
11741ffee690SAmr Mokhtar stats_thread_started = true;
11751ffee690SAmr Mokhtar }
11761ffee690SAmr Mokhtar }
11771ffee690SAmr Mokhtar
11781ffee690SAmr Mokhtar if (!stats_thread_started &&
1179cb056611SStephen Hemminger lcore_conf[main_lcore_id].core_type != 0)
11801ffee690SAmr Mokhtar rte_exit(EXIT_FAILURE,
11811ffee690SAmr Mokhtar "Not enough lcores to run the statistics printing loop!");
1182cb056611SStephen Hemminger else if (lcore_conf[main_lcore_id].core_type != 0)
1183cb056611SStephen Hemminger processing_loop(&lcore_conf[main_lcore_id]);
11841ffee690SAmr Mokhtar else if (!stats_thread_started)
11851ffee690SAmr Mokhtar stats_loop(&stats_lcore);
11861ffee690SAmr Mokhtar
1187cb056611SStephen Hemminger RTE_LCORE_FOREACH_WORKER(lcore_id) {
11881ffee690SAmr Mokhtar ret |= rte_eal_wait_lcore(lcore_id);
11891ffee690SAmr Mokhtar }
11901ffee690SAmr Mokhtar
119110aa3757SChengchang Tang /* clean up the EAL */
119210aa3757SChengchang Tang rte_eal_cleanup();
119310aa3757SChengchang Tang
11941ffee690SAmr Mokhtar return ret;
11951ffee690SAmr Mokhtar }
1196