1*d30ea906Sjfb8856606 /* SPDX-License-Identifier: BSD-3-Clause 2*d30ea906Sjfb8856606 * Copyright(c) 2016-2017 Intel Corporation 32bfe3f2eSlogwang */ 42bfe3f2eSlogwang 52bfe3f2eSlogwang #include <stdint.h> 62bfe3f2eSlogwang #include <stdio.h> 72bfe3f2eSlogwang #include <inttypes.h> 82bfe3f2eSlogwang #include <stdarg.h> 92bfe3f2eSlogwang #include <errno.h> 102bfe3f2eSlogwang #include <sys/queue.h> 112bfe3f2eSlogwang #include <stdlib.h> 122bfe3f2eSlogwang #include <getopt.h> 132bfe3f2eSlogwang #include <string.h> 142bfe3f2eSlogwang 152bfe3f2eSlogwang #include <rte_common.h> 162bfe3f2eSlogwang #include <rte_malloc.h> 172bfe3f2eSlogwang #include <rte_memory.h> 182bfe3f2eSlogwang #include <rte_memzone.h> 192bfe3f2eSlogwang #include <rte_eal.h> 202bfe3f2eSlogwang #include <rte_atomic.h> 212bfe3f2eSlogwang #include <rte_branch_prediction.h> 222bfe3f2eSlogwang #include <rte_log.h> 232bfe3f2eSlogwang #include <rte_per_lcore.h> 242bfe3f2eSlogwang #include <rte_launch.h> 252bfe3f2eSlogwang #include <rte_lcore.h> 262bfe3f2eSlogwang #include <rte_ring.h> 272bfe3f2eSlogwang #include <rte_debug.h> 282bfe3f2eSlogwang #include <rte_mempool.h> 292bfe3f2eSlogwang #include <rte_mbuf.h> 302bfe3f2eSlogwang #include <rte_interrupts.h> 312bfe3f2eSlogwang #include <rte_ether.h> 322bfe3f2eSlogwang #include <rte_ethdev.h> 332bfe3f2eSlogwang #include <rte_string_fns.h> 342bfe3f2eSlogwang #include <rte_ip.h> 352bfe3f2eSlogwang 362bfe3f2eSlogwang #include "common.h" 372bfe3f2eSlogwang 382bfe3f2eSlogwang /* Number of packets to attempt to read from queue */ 392bfe3f2eSlogwang #define PKT_READ_SIZE ((uint16_t)32) 402bfe3f2eSlogwang 412bfe3f2eSlogwang /* 422bfe3f2eSlogwang * Our node id number - tells us which rx queue to read, and NIC TX 432bfe3f2eSlogwang * queue to write to. 442bfe3f2eSlogwang */ 452bfe3f2eSlogwang static uint8_t node_id; 462bfe3f2eSlogwang 472bfe3f2eSlogwang #define MBQ_CAPACITY 32 482bfe3f2eSlogwang 492bfe3f2eSlogwang /* maps input ports to output ports for packets */ 502bfe3f2eSlogwang static uint16_t output_ports[RTE_MAX_ETHPORTS]; 512bfe3f2eSlogwang 522bfe3f2eSlogwang /* buffers up a set of packet that are ready to send */ 532bfe3f2eSlogwang struct rte_eth_dev_tx_buffer *tx_buffer[RTE_MAX_ETHPORTS]; 542bfe3f2eSlogwang 552bfe3f2eSlogwang /* shared data from server. We update statistics here */ 562bfe3f2eSlogwang static struct tx_stats *tx_stats; 572bfe3f2eSlogwang 582bfe3f2eSlogwang static struct filter_stats *filter_stats; 592bfe3f2eSlogwang 602bfe3f2eSlogwang /* 612bfe3f2eSlogwang * print a usage message 622bfe3f2eSlogwang */ 632bfe3f2eSlogwang static void 642bfe3f2eSlogwang usage(const char *progname) 652bfe3f2eSlogwang { 662bfe3f2eSlogwang printf("Usage: %s [EAL args] -- -n <node_id>\n\n", progname); 672bfe3f2eSlogwang } 682bfe3f2eSlogwang 692bfe3f2eSlogwang /* 702bfe3f2eSlogwang * Convert the node id number from a string to an int. 712bfe3f2eSlogwang */ 722bfe3f2eSlogwang static int 732bfe3f2eSlogwang parse_node_num(const char *node) 742bfe3f2eSlogwang { 752bfe3f2eSlogwang char *end = NULL; 762bfe3f2eSlogwang unsigned long temp; 772bfe3f2eSlogwang 782bfe3f2eSlogwang if (node == NULL || *node == '\0') 792bfe3f2eSlogwang return -1; 802bfe3f2eSlogwang 812bfe3f2eSlogwang temp = strtoul(node, &end, 10); 822bfe3f2eSlogwang if (end == NULL || *end != '\0') 832bfe3f2eSlogwang return -1; 842bfe3f2eSlogwang 852bfe3f2eSlogwang node_id = (uint8_t)temp; 862bfe3f2eSlogwang return 0; 872bfe3f2eSlogwang } 882bfe3f2eSlogwang 892bfe3f2eSlogwang /* 902bfe3f2eSlogwang * Parse the application arguments to the node app. 912bfe3f2eSlogwang */ 922bfe3f2eSlogwang static int 932bfe3f2eSlogwang parse_app_args(int argc, char *argv[]) 942bfe3f2eSlogwang { 952bfe3f2eSlogwang int option_index, opt; 962bfe3f2eSlogwang char **argvopt = argv; 972bfe3f2eSlogwang const char *progname = NULL; 982bfe3f2eSlogwang static struct option lgopts[] = { /* no long options */ 992bfe3f2eSlogwang {NULL, 0, 0, 0 } 1002bfe3f2eSlogwang }; 1012bfe3f2eSlogwang progname = argv[0]; 1022bfe3f2eSlogwang 1032bfe3f2eSlogwang while ((opt = getopt_long(argc, argvopt, "n:", lgopts, 1042bfe3f2eSlogwang &option_index)) != EOF) { 1052bfe3f2eSlogwang switch (opt) { 1062bfe3f2eSlogwang case 'n': 1072bfe3f2eSlogwang if (parse_node_num(optarg) != 0) { 1082bfe3f2eSlogwang usage(progname); 1092bfe3f2eSlogwang return -1; 1102bfe3f2eSlogwang } 1112bfe3f2eSlogwang break; 1122bfe3f2eSlogwang default: 1132bfe3f2eSlogwang usage(progname); 1142bfe3f2eSlogwang return -1; 1152bfe3f2eSlogwang } 1162bfe3f2eSlogwang } 1172bfe3f2eSlogwang return 0; 1182bfe3f2eSlogwang } 1192bfe3f2eSlogwang 1202bfe3f2eSlogwang /* 1212bfe3f2eSlogwang * Tx buffer error callback 1222bfe3f2eSlogwang */ 1232bfe3f2eSlogwang static void 1242bfe3f2eSlogwang flush_tx_error_callback(struct rte_mbuf **unsent, uint16_t count, 1252bfe3f2eSlogwang void *userdata) { 1262bfe3f2eSlogwang int i; 1272bfe3f2eSlogwang uint16_t port_id = (uintptr_t)userdata; 1282bfe3f2eSlogwang 1292bfe3f2eSlogwang tx_stats->tx_drop[port_id] += count; 1302bfe3f2eSlogwang 1312bfe3f2eSlogwang /* free the mbufs which failed from transmit */ 1322bfe3f2eSlogwang for (i = 0; i < count; i++) 1332bfe3f2eSlogwang rte_pktmbuf_free(unsent[i]); 1342bfe3f2eSlogwang 1352bfe3f2eSlogwang } 1362bfe3f2eSlogwang 1372bfe3f2eSlogwang static void 1382bfe3f2eSlogwang configure_tx_buffer(uint16_t port_id, uint16_t size) 1392bfe3f2eSlogwang { 1402bfe3f2eSlogwang int ret; 1412bfe3f2eSlogwang 1422bfe3f2eSlogwang /* Initialize TX buffers */ 1432bfe3f2eSlogwang tx_buffer[port_id] = rte_zmalloc_socket("tx_buffer", 1442bfe3f2eSlogwang RTE_ETH_TX_BUFFER_SIZE(size), 0, 1452bfe3f2eSlogwang rte_eth_dev_socket_id(port_id)); 1462bfe3f2eSlogwang if (tx_buffer[port_id] == NULL) 1472bfe3f2eSlogwang rte_exit(EXIT_FAILURE, 1482bfe3f2eSlogwang "Cannot allocate buffer for tx on port %u\n", port_id); 1492bfe3f2eSlogwang 1502bfe3f2eSlogwang rte_eth_tx_buffer_init(tx_buffer[port_id], size); 1512bfe3f2eSlogwang 1522bfe3f2eSlogwang ret = rte_eth_tx_buffer_set_err_callback(tx_buffer[port_id], 1532bfe3f2eSlogwang flush_tx_error_callback, (void *)(intptr_t)port_id); 1542bfe3f2eSlogwang if (ret < 0) 1552bfe3f2eSlogwang rte_exit(EXIT_FAILURE, 1562bfe3f2eSlogwang "Cannot set error callback for tx buffer on port %u\n", 1572bfe3f2eSlogwang port_id); 1582bfe3f2eSlogwang } 1592bfe3f2eSlogwang 1602bfe3f2eSlogwang /* 1612bfe3f2eSlogwang * set up output ports so that all traffic on port gets sent out 1622bfe3f2eSlogwang * its paired port. Index using actual port numbers since that is 1632bfe3f2eSlogwang * what comes in the mbuf structure. 1642bfe3f2eSlogwang */ 1652bfe3f2eSlogwang static void 1662bfe3f2eSlogwang configure_output_ports(const struct shared_info *info) 1672bfe3f2eSlogwang { 1682bfe3f2eSlogwang int i; 1692bfe3f2eSlogwang 1702bfe3f2eSlogwang if (info->num_ports > RTE_MAX_ETHPORTS) 1712bfe3f2eSlogwang rte_exit(EXIT_FAILURE, "Too many ethernet ports. " 1722bfe3f2eSlogwang "RTE_MAX_ETHPORTS = %u\n", 1732bfe3f2eSlogwang (unsigned int)RTE_MAX_ETHPORTS); 1742bfe3f2eSlogwang for (i = 0; i < info->num_ports - 1; i += 2) { 1752bfe3f2eSlogwang uint8_t p1 = info->id[i]; 1762bfe3f2eSlogwang uint8_t p2 = info->id[i+1]; 1772bfe3f2eSlogwang 1782bfe3f2eSlogwang output_ports[p1] = p2; 1792bfe3f2eSlogwang output_ports[p2] = p1; 1802bfe3f2eSlogwang 1812bfe3f2eSlogwang configure_tx_buffer(p1, MBQ_CAPACITY); 1822bfe3f2eSlogwang configure_tx_buffer(p2, MBQ_CAPACITY); 1832bfe3f2eSlogwang 1842bfe3f2eSlogwang } 1852bfe3f2eSlogwang } 1862bfe3f2eSlogwang 1872bfe3f2eSlogwang /* 1882bfe3f2eSlogwang * Create the hash table that will contain the flows that 1892bfe3f2eSlogwang * the node will handle, which will be used to decide if packet 1902bfe3f2eSlogwang * is transmitted or dropped. 1912bfe3f2eSlogwang */ 1922bfe3f2eSlogwang static struct rte_hash * 1932bfe3f2eSlogwang create_hash_table(const struct shared_info *info) 1942bfe3f2eSlogwang { 1952bfe3f2eSlogwang uint32_t num_flows_node = info->num_flows / info->num_nodes; 1962bfe3f2eSlogwang char name[RTE_HASH_NAMESIZE]; 1972bfe3f2eSlogwang struct rte_hash *h; 1982bfe3f2eSlogwang 1992bfe3f2eSlogwang /* create table */ 2002bfe3f2eSlogwang struct rte_hash_parameters hash_params = { 2012bfe3f2eSlogwang .entries = num_flows_node * 2, /* table load = 50% */ 2022bfe3f2eSlogwang .key_len = sizeof(uint32_t), /* Store IPv4 dest IP address */ 2032bfe3f2eSlogwang .socket_id = rte_socket_id(), 2042bfe3f2eSlogwang .hash_func_init_val = 0, 2052bfe3f2eSlogwang }; 2062bfe3f2eSlogwang 2072bfe3f2eSlogwang snprintf(name, sizeof(name), "hash_table_%d", node_id); 2082bfe3f2eSlogwang hash_params.name = name; 2092bfe3f2eSlogwang h = rte_hash_create(&hash_params); 2102bfe3f2eSlogwang 2112bfe3f2eSlogwang if (h == NULL) 2122bfe3f2eSlogwang rte_exit(EXIT_FAILURE, 2132bfe3f2eSlogwang "Problem creating the hash table for node %d\n", 2142bfe3f2eSlogwang node_id); 2152bfe3f2eSlogwang return h; 2162bfe3f2eSlogwang } 2172bfe3f2eSlogwang 2182bfe3f2eSlogwang static void 2192bfe3f2eSlogwang populate_hash_table(const struct rte_hash *h, const struct shared_info *info) 2202bfe3f2eSlogwang { 2212bfe3f2eSlogwang unsigned int i; 2222bfe3f2eSlogwang int32_t ret; 2232bfe3f2eSlogwang uint32_t ip_dst; 2242bfe3f2eSlogwang uint32_t num_flows_node = 0; 2252bfe3f2eSlogwang uint64_t target_node; 2262bfe3f2eSlogwang 2272bfe3f2eSlogwang /* Add flows in table */ 2282bfe3f2eSlogwang for (i = 0; i < info->num_flows; i++) { 2292bfe3f2eSlogwang target_node = i % info->num_nodes; 2302bfe3f2eSlogwang if (target_node != node_id) 2312bfe3f2eSlogwang continue; 2322bfe3f2eSlogwang 2332bfe3f2eSlogwang ip_dst = rte_cpu_to_be_32(i); 2342bfe3f2eSlogwang 2352bfe3f2eSlogwang ret = rte_hash_add_key(h, (void *) &ip_dst); 2362bfe3f2eSlogwang if (ret < 0) 2372bfe3f2eSlogwang rte_exit(EXIT_FAILURE, "Unable to add entry %u " 2382bfe3f2eSlogwang "in hash table\n", i); 2392bfe3f2eSlogwang else 2402bfe3f2eSlogwang num_flows_node++; 2412bfe3f2eSlogwang 2422bfe3f2eSlogwang } 2432bfe3f2eSlogwang 2442bfe3f2eSlogwang printf("Hash table: Adding 0x%x keys\n", num_flows_node); 2452bfe3f2eSlogwang } 2462bfe3f2eSlogwang 2472bfe3f2eSlogwang /* 2482bfe3f2eSlogwang * This function performs routing of packets 2492bfe3f2eSlogwang * Just sends each input packet out an output port based solely on the input 2502bfe3f2eSlogwang * port it arrived on. 2512bfe3f2eSlogwang */ 2522bfe3f2eSlogwang static inline void 2532bfe3f2eSlogwang transmit_packet(struct rte_mbuf *buf) 2542bfe3f2eSlogwang { 2552bfe3f2eSlogwang int sent; 2562bfe3f2eSlogwang const uint16_t in_port = buf->port; 2572bfe3f2eSlogwang const uint16_t out_port = output_ports[in_port]; 2582bfe3f2eSlogwang struct rte_eth_dev_tx_buffer *buffer = tx_buffer[out_port]; 2592bfe3f2eSlogwang 2602bfe3f2eSlogwang sent = rte_eth_tx_buffer(out_port, node_id, buffer, buf); 2612bfe3f2eSlogwang if (sent) 2622bfe3f2eSlogwang tx_stats->tx[out_port] += sent; 2632bfe3f2eSlogwang 2642bfe3f2eSlogwang } 2652bfe3f2eSlogwang 2662bfe3f2eSlogwang static inline void 2672bfe3f2eSlogwang handle_packets(struct rte_hash *h, struct rte_mbuf **bufs, uint16_t num_packets) 2682bfe3f2eSlogwang { 2692bfe3f2eSlogwang struct ipv4_hdr *ipv4_hdr; 2702bfe3f2eSlogwang uint32_t ipv4_dst_ip[PKT_READ_SIZE]; 2712bfe3f2eSlogwang const void *key_ptrs[PKT_READ_SIZE]; 2722bfe3f2eSlogwang unsigned int i; 2732bfe3f2eSlogwang int32_t positions[PKT_READ_SIZE] = {0}; 2742bfe3f2eSlogwang 2752bfe3f2eSlogwang for (i = 0; i < num_packets; i++) { 2762bfe3f2eSlogwang /* Handle IPv4 header.*/ 2772bfe3f2eSlogwang ipv4_hdr = rte_pktmbuf_mtod_offset(bufs[i], struct ipv4_hdr *, 2782bfe3f2eSlogwang sizeof(struct ether_hdr)); 2792bfe3f2eSlogwang ipv4_dst_ip[i] = ipv4_hdr->dst_addr; 2802bfe3f2eSlogwang key_ptrs[i] = &ipv4_dst_ip[i]; 2812bfe3f2eSlogwang } 2822bfe3f2eSlogwang /* Check if packets belongs to any flows handled by this node */ 2832bfe3f2eSlogwang rte_hash_lookup_bulk(h, key_ptrs, num_packets, positions); 2842bfe3f2eSlogwang 2852bfe3f2eSlogwang for (i = 0; i < num_packets; i++) { 2862bfe3f2eSlogwang if (likely(positions[i] >= 0)) { 2872bfe3f2eSlogwang filter_stats->passed++; 2882bfe3f2eSlogwang transmit_packet(bufs[i]); 2892bfe3f2eSlogwang } else { 2902bfe3f2eSlogwang filter_stats->drop++; 2912bfe3f2eSlogwang /* Drop packet, as flow is not handled by this node */ 2922bfe3f2eSlogwang rte_pktmbuf_free(bufs[i]); 2932bfe3f2eSlogwang } 2942bfe3f2eSlogwang } 2952bfe3f2eSlogwang } 2962bfe3f2eSlogwang 2972bfe3f2eSlogwang /* 2982bfe3f2eSlogwang * Application main function - loops through 2992bfe3f2eSlogwang * receiving and processing packets. Never returns 3002bfe3f2eSlogwang */ 3012bfe3f2eSlogwang int 3022bfe3f2eSlogwang main(int argc, char *argv[]) 3032bfe3f2eSlogwang { 3042bfe3f2eSlogwang const struct rte_memzone *mz; 3052bfe3f2eSlogwang struct rte_ring *rx_ring; 3062bfe3f2eSlogwang struct rte_hash *h; 3072bfe3f2eSlogwang struct rte_mempool *mp; 3082bfe3f2eSlogwang struct shared_info *info; 3092bfe3f2eSlogwang int need_flush = 0; /* indicates whether we have unsent packets */ 3102bfe3f2eSlogwang int retval; 3112bfe3f2eSlogwang void *pkts[PKT_READ_SIZE]; 3122bfe3f2eSlogwang uint16_t sent; 3132bfe3f2eSlogwang 3142bfe3f2eSlogwang retval = rte_eal_init(argc, argv); 3152bfe3f2eSlogwang if (retval < 0) 3162bfe3f2eSlogwang return -1; 3172bfe3f2eSlogwang argc -= retval; 3182bfe3f2eSlogwang argv += retval; 3192bfe3f2eSlogwang 3202bfe3f2eSlogwang if (parse_app_args(argc, argv) < 0) 3212bfe3f2eSlogwang rte_exit(EXIT_FAILURE, "Invalid command-line arguments\n"); 3222bfe3f2eSlogwang 323*d30ea906Sjfb8856606 if (rte_eth_dev_count_avail() == 0) 3242bfe3f2eSlogwang rte_exit(EXIT_FAILURE, "No Ethernet ports - bye\n"); 3252bfe3f2eSlogwang 3262bfe3f2eSlogwang rx_ring = rte_ring_lookup(get_rx_queue_name(node_id)); 3272bfe3f2eSlogwang if (rx_ring == NULL) 3282bfe3f2eSlogwang rte_exit(EXIT_FAILURE, "Cannot get RX ring - " 3292bfe3f2eSlogwang "is server process running?\n"); 3302bfe3f2eSlogwang 3312bfe3f2eSlogwang mp = rte_mempool_lookup(PKTMBUF_POOL_NAME); 3322bfe3f2eSlogwang if (mp == NULL) 3332bfe3f2eSlogwang rte_exit(EXIT_FAILURE, "Cannot get mempool for mbufs\n"); 3342bfe3f2eSlogwang 3352bfe3f2eSlogwang mz = rte_memzone_lookup(MZ_SHARED_INFO); 3362bfe3f2eSlogwang if (mz == NULL) 3372bfe3f2eSlogwang rte_exit(EXIT_FAILURE, "Cannot get port info structure\n"); 3382bfe3f2eSlogwang info = mz->addr; 3392bfe3f2eSlogwang tx_stats = &(info->tx_stats[node_id]); 3402bfe3f2eSlogwang filter_stats = &(info->filter_stats[node_id]); 3412bfe3f2eSlogwang 3422bfe3f2eSlogwang configure_output_ports(info); 3432bfe3f2eSlogwang 3442bfe3f2eSlogwang h = create_hash_table(info); 3452bfe3f2eSlogwang 3462bfe3f2eSlogwang populate_hash_table(h, info); 3472bfe3f2eSlogwang 3482bfe3f2eSlogwang RTE_LOG(INFO, APP, "Finished Process Init.\n"); 3492bfe3f2eSlogwang 3502bfe3f2eSlogwang printf("\nNode process %d handling packets\n", node_id); 3512bfe3f2eSlogwang printf("[Press Ctrl-C to quit ...]\n"); 3522bfe3f2eSlogwang 3532bfe3f2eSlogwang for (;;) { 3542bfe3f2eSlogwang uint16_t rx_pkts = PKT_READ_SIZE; 3552bfe3f2eSlogwang uint16_t port; 3562bfe3f2eSlogwang 3572bfe3f2eSlogwang /* 3582bfe3f2eSlogwang * Try dequeuing max possible packets first, if that fails, 3592bfe3f2eSlogwang * get the most we can. Loop body should only execute once, 3602bfe3f2eSlogwang * maximum 3612bfe3f2eSlogwang */ 3622bfe3f2eSlogwang while (rx_pkts > 0 && 3632bfe3f2eSlogwang unlikely(rte_ring_dequeue_bulk(rx_ring, pkts, 3642bfe3f2eSlogwang rx_pkts, NULL) == 0)) 3652bfe3f2eSlogwang rx_pkts = (uint16_t)RTE_MIN(rte_ring_count(rx_ring), 3662bfe3f2eSlogwang PKT_READ_SIZE); 3672bfe3f2eSlogwang 3682bfe3f2eSlogwang if (unlikely(rx_pkts == 0)) { 3692bfe3f2eSlogwang if (need_flush) 3702bfe3f2eSlogwang for (port = 0; port < info->num_ports; port++) { 3712bfe3f2eSlogwang sent = rte_eth_tx_buffer_flush( 3722bfe3f2eSlogwang info->id[port], 3732bfe3f2eSlogwang node_id, 3742bfe3f2eSlogwang tx_buffer[port]); 3752bfe3f2eSlogwang if (unlikely(sent)) 3762bfe3f2eSlogwang tx_stats->tx[port] += sent; 3772bfe3f2eSlogwang } 3782bfe3f2eSlogwang need_flush = 0; 3792bfe3f2eSlogwang continue; 3802bfe3f2eSlogwang } 3812bfe3f2eSlogwang 3822bfe3f2eSlogwang handle_packets(h, (struct rte_mbuf **)pkts, rx_pkts); 3832bfe3f2eSlogwang 3842bfe3f2eSlogwang need_flush = 1; 3852bfe3f2eSlogwang } 3862bfe3f2eSlogwang } 387