1*d30ea906Sjfb8856606 /* SPDX-License-Identifier: BSD-3-Clause 2*d30ea906Sjfb8856606 * Copyright(c) 2016-2017 Intel Corporation 32bfe3f2eSlogwang */ 42bfe3f2eSlogwang 52bfe3f2eSlogwang #include <stdio.h> 62bfe3f2eSlogwang #include <stdlib.h> 72bfe3f2eSlogwang #include <string.h> 82bfe3f2eSlogwang #include <unistd.h> 92bfe3f2eSlogwang #include <stdint.h> 102bfe3f2eSlogwang #include <stdarg.h> 112bfe3f2eSlogwang #include <inttypes.h> 122bfe3f2eSlogwang #include <sys/queue.h> 132bfe3f2eSlogwang #include <errno.h> 142bfe3f2eSlogwang #include <netinet/ip.h> 152bfe3f2eSlogwang 162bfe3f2eSlogwang #include <rte_common.h> 172bfe3f2eSlogwang #include <rte_memory.h> 182bfe3f2eSlogwang #include <rte_eal.h> 192bfe3f2eSlogwang #include <rte_launch.h> 202bfe3f2eSlogwang #include <rte_per_lcore.h> 212bfe3f2eSlogwang #include <rte_lcore.h> 222bfe3f2eSlogwang #include <rte_branch_prediction.h> 232bfe3f2eSlogwang #include <rte_atomic.h> 242bfe3f2eSlogwang #include <rte_ring.h> 252bfe3f2eSlogwang #include <rte_log.h> 262bfe3f2eSlogwang #include <rte_debug.h> 272bfe3f2eSlogwang #include <rte_mempool.h> 282bfe3f2eSlogwang #include <rte_memcpy.h> 292bfe3f2eSlogwang #include <rte_mbuf.h> 302bfe3f2eSlogwang #include <rte_ether.h> 312bfe3f2eSlogwang #include <rte_interrupts.h> 322bfe3f2eSlogwang #include <rte_ethdev.h> 332bfe3f2eSlogwang #include <rte_byteorder.h> 342bfe3f2eSlogwang #include <rte_malloc.h> 352bfe3f2eSlogwang #include <rte_string_fns.h> 362bfe3f2eSlogwang #include <rte_efd.h> 372bfe3f2eSlogwang #include <rte_ip.h> 382bfe3f2eSlogwang 392bfe3f2eSlogwang #include "common.h" 402bfe3f2eSlogwang #include "args.h" 412bfe3f2eSlogwang #include "init.h" 422bfe3f2eSlogwang 432bfe3f2eSlogwang /* 442bfe3f2eSlogwang * When doing reads from the NIC or the node queues, 452bfe3f2eSlogwang * use this batch size 462bfe3f2eSlogwang */ 472bfe3f2eSlogwang #define PACKET_READ_SIZE 32 482bfe3f2eSlogwang 492bfe3f2eSlogwang /* 502bfe3f2eSlogwang * Local buffers to put packets in, used to send packets in bursts to the 512bfe3f2eSlogwang * nodes 522bfe3f2eSlogwang */ 532bfe3f2eSlogwang struct node_rx_buf { 542bfe3f2eSlogwang struct rte_mbuf *buffer[PACKET_READ_SIZE]; 552bfe3f2eSlogwang uint16_t count; 562bfe3f2eSlogwang }; 572bfe3f2eSlogwang 582bfe3f2eSlogwang struct efd_stats { 592bfe3f2eSlogwang uint64_t distributed; 602bfe3f2eSlogwang uint64_t drop; 612bfe3f2eSlogwang } flow_dist_stats; 622bfe3f2eSlogwang 632bfe3f2eSlogwang /* One buffer per node rx queue - dynamically allocate array */ 642bfe3f2eSlogwang static struct node_rx_buf *cl_rx_buf; 652bfe3f2eSlogwang 662bfe3f2eSlogwang static const char * 672bfe3f2eSlogwang get_printable_mac_addr(uint16_t port) 682bfe3f2eSlogwang { 692bfe3f2eSlogwang static const char err_address[] = "00:00:00:00:00:00"; 702bfe3f2eSlogwang static char addresses[RTE_MAX_ETHPORTS][sizeof(err_address)]; 712bfe3f2eSlogwang struct ether_addr mac; 722bfe3f2eSlogwang 732bfe3f2eSlogwang if (unlikely(port >= RTE_MAX_ETHPORTS)) 742bfe3f2eSlogwang return err_address; 752bfe3f2eSlogwang if (unlikely(addresses[port][0] == '\0')) { 762bfe3f2eSlogwang rte_eth_macaddr_get(port, &mac); 772bfe3f2eSlogwang snprintf(addresses[port], sizeof(addresses[port]), 782bfe3f2eSlogwang "%02x:%02x:%02x:%02x:%02x:%02x\n", 792bfe3f2eSlogwang mac.addr_bytes[0], mac.addr_bytes[1], 802bfe3f2eSlogwang mac.addr_bytes[2], mac.addr_bytes[3], 812bfe3f2eSlogwang mac.addr_bytes[4], mac.addr_bytes[5]); 822bfe3f2eSlogwang } 832bfe3f2eSlogwang return addresses[port]; 842bfe3f2eSlogwang } 852bfe3f2eSlogwang 862bfe3f2eSlogwang /* 872bfe3f2eSlogwang * This function displays the recorded statistics for each port 882bfe3f2eSlogwang * and for each node. It uses ANSI terminal codes to clear 892bfe3f2eSlogwang * screen when called. It is called from a single non-master 902bfe3f2eSlogwang * thread in the server process, when the process is run with more 912bfe3f2eSlogwang * than one lcore enabled. 922bfe3f2eSlogwang */ 932bfe3f2eSlogwang static void 942bfe3f2eSlogwang do_stats_display(void) 952bfe3f2eSlogwang { 962bfe3f2eSlogwang unsigned int i, j; 972bfe3f2eSlogwang const char clr[] = {27, '[', '2', 'J', '\0'}; 982bfe3f2eSlogwang const char topLeft[] = {27, '[', '1', ';', '1', 'H', '\0'}; 992bfe3f2eSlogwang uint64_t port_tx[RTE_MAX_ETHPORTS], port_tx_drop[RTE_MAX_ETHPORTS]; 1002bfe3f2eSlogwang uint64_t node_tx[MAX_NODES], node_tx_drop[MAX_NODES]; 1012bfe3f2eSlogwang 1022bfe3f2eSlogwang /* to get TX stats, we need to do some summing calculations */ 1032bfe3f2eSlogwang memset(port_tx, 0, sizeof(port_tx)); 1042bfe3f2eSlogwang memset(port_tx_drop, 0, sizeof(port_tx_drop)); 1052bfe3f2eSlogwang memset(node_tx, 0, sizeof(node_tx)); 1062bfe3f2eSlogwang memset(node_tx_drop, 0, sizeof(node_tx_drop)); 1072bfe3f2eSlogwang 1082bfe3f2eSlogwang for (i = 0; i < num_nodes; i++) { 1092bfe3f2eSlogwang const struct tx_stats *tx = &info->tx_stats[i]; 1102bfe3f2eSlogwang 1112bfe3f2eSlogwang for (j = 0; j < info->num_ports; j++) { 1122bfe3f2eSlogwang const uint64_t tx_val = tx->tx[info->id[j]]; 1132bfe3f2eSlogwang const uint64_t drop_val = tx->tx_drop[info->id[j]]; 1142bfe3f2eSlogwang 1152bfe3f2eSlogwang port_tx[j] += tx_val; 1162bfe3f2eSlogwang port_tx_drop[j] += drop_val; 1172bfe3f2eSlogwang node_tx[i] += tx_val; 1182bfe3f2eSlogwang node_tx_drop[i] += drop_val; 1192bfe3f2eSlogwang } 1202bfe3f2eSlogwang } 1212bfe3f2eSlogwang 1222bfe3f2eSlogwang /* Clear screen and move to top left */ 1232bfe3f2eSlogwang printf("%s%s", clr, topLeft); 1242bfe3f2eSlogwang 1252bfe3f2eSlogwang printf("PORTS\n"); 1262bfe3f2eSlogwang printf("-----\n"); 1272bfe3f2eSlogwang for (i = 0; i < info->num_ports; i++) 1282bfe3f2eSlogwang printf("Port %u: '%s'\t", (unsigned int)info->id[i], 1292bfe3f2eSlogwang get_printable_mac_addr(info->id[i])); 1302bfe3f2eSlogwang printf("\n\n"); 1312bfe3f2eSlogwang for (i = 0; i < info->num_ports; i++) { 1322bfe3f2eSlogwang printf("Port %u - rx: %9"PRIu64"\t" 1332bfe3f2eSlogwang "tx: %9"PRIu64"\n", 1342bfe3f2eSlogwang (unsigned int)info->id[i], info->rx_stats.rx[i], 1352bfe3f2eSlogwang port_tx[i]); 1362bfe3f2eSlogwang } 1372bfe3f2eSlogwang 1382bfe3f2eSlogwang printf("\nSERVER\n"); 1392bfe3f2eSlogwang printf("-----\n"); 1402bfe3f2eSlogwang printf("distributed: %9"PRIu64", drop: %9"PRIu64"\n", 1412bfe3f2eSlogwang flow_dist_stats.distributed, flow_dist_stats.drop); 1422bfe3f2eSlogwang 1432bfe3f2eSlogwang printf("\nNODES\n"); 1442bfe3f2eSlogwang printf("-------\n"); 1452bfe3f2eSlogwang for (i = 0; i < num_nodes; i++) { 1462bfe3f2eSlogwang const unsigned long long rx = nodes[i].stats.rx; 1472bfe3f2eSlogwang const unsigned long long rx_drop = nodes[i].stats.rx_drop; 1482bfe3f2eSlogwang const struct filter_stats *filter = &info->filter_stats[i]; 1492bfe3f2eSlogwang 1502bfe3f2eSlogwang printf("Node %2u - rx: %9llu, rx_drop: %9llu\n" 1512bfe3f2eSlogwang " tx: %9"PRIu64", tx_drop: %9"PRIu64"\n" 1522bfe3f2eSlogwang " filter_passed: %9"PRIu64", " 1532bfe3f2eSlogwang "filter_drop: %9"PRIu64"\n", 1542bfe3f2eSlogwang i, rx, rx_drop, node_tx[i], node_tx_drop[i], 1552bfe3f2eSlogwang filter->passed, filter->drop); 1562bfe3f2eSlogwang } 1572bfe3f2eSlogwang 1582bfe3f2eSlogwang printf("\n"); 1592bfe3f2eSlogwang } 1602bfe3f2eSlogwang 1612bfe3f2eSlogwang /* 1622bfe3f2eSlogwang * The function called from each non-master lcore used by the process. 1632bfe3f2eSlogwang * The test_and_set function is used to randomly pick a single lcore on which 1642bfe3f2eSlogwang * the code to display the statistics will run. Otherwise, the code just 1652bfe3f2eSlogwang * repeatedly sleeps. 1662bfe3f2eSlogwang */ 1672bfe3f2eSlogwang static int 1682bfe3f2eSlogwang sleep_lcore(__attribute__((unused)) void *dummy) 1692bfe3f2eSlogwang { 1702bfe3f2eSlogwang /* Used to pick a display thread - static, so zero-initialised */ 1712bfe3f2eSlogwang static rte_atomic32_t display_stats; 1722bfe3f2eSlogwang 1732bfe3f2eSlogwang /* Only one core should display stats */ 1742bfe3f2eSlogwang if (rte_atomic32_test_and_set(&display_stats)) { 1752bfe3f2eSlogwang const unsigned int sleeptime = 1; 1762bfe3f2eSlogwang 1772bfe3f2eSlogwang printf("Core %u displaying statistics\n", rte_lcore_id()); 1782bfe3f2eSlogwang 1792bfe3f2eSlogwang /* Longer initial pause so above printf is seen */ 1802bfe3f2eSlogwang sleep(sleeptime * 3); 1812bfe3f2eSlogwang 1822bfe3f2eSlogwang /* Loop forever: sleep always returns 0 or <= param */ 1832bfe3f2eSlogwang while (sleep(sleeptime) <= sleeptime) 1842bfe3f2eSlogwang do_stats_display(); 1852bfe3f2eSlogwang } 1862bfe3f2eSlogwang return 0; 1872bfe3f2eSlogwang } 1882bfe3f2eSlogwang 1892bfe3f2eSlogwang /* 1902bfe3f2eSlogwang * Function to set all the node statistic values to zero. 1912bfe3f2eSlogwang * Called at program startup. 1922bfe3f2eSlogwang */ 1932bfe3f2eSlogwang static void 1942bfe3f2eSlogwang clear_stats(void) 1952bfe3f2eSlogwang { 1962bfe3f2eSlogwang unsigned int i; 1972bfe3f2eSlogwang 1982bfe3f2eSlogwang for (i = 0; i < num_nodes; i++) 1992bfe3f2eSlogwang nodes[i].stats.rx = nodes[i].stats.rx_drop = 0; 2002bfe3f2eSlogwang } 2012bfe3f2eSlogwang 2022bfe3f2eSlogwang /* 2032bfe3f2eSlogwang * send a burst of traffic to a node, assuming there are packets 2042bfe3f2eSlogwang * available to be sent to this node 2052bfe3f2eSlogwang */ 2062bfe3f2eSlogwang static void 2072bfe3f2eSlogwang flush_rx_queue(uint16_t node) 2082bfe3f2eSlogwang { 2092bfe3f2eSlogwang uint16_t j; 2102bfe3f2eSlogwang struct node *cl; 2112bfe3f2eSlogwang 2122bfe3f2eSlogwang if (cl_rx_buf[node].count == 0) 2132bfe3f2eSlogwang return; 2142bfe3f2eSlogwang 2152bfe3f2eSlogwang cl = &nodes[node]; 2162bfe3f2eSlogwang if (rte_ring_enqueue_bulk(cl->rx_q, (void **)cl_rx_buf[node].buffer, 2172bfe3f2eSlogwang cl_rx_buf[node].count, NULL) != cl_rx_buf[node].count){ 2182bfe3f2eSlogwang for (j = 0; j < cl_rx_buf[node].count; j++) 2192bfe3f2eSlogwang rte_pktmbuf_free(cl_rx_buf[node].buffer[j]); 2202bfe3f2eSlogwang cl->stats.rx_drop += cl_rx_buf[node].count; 2212bfe3f2eSlogwang } else 2222bfe3f2eSlogwang cl->stats.rx += cl_rx_buf[node].count; 2232bfe3f2eSlogwang 2242bfe3f2eSlogwang cl_rx_buf[node].count = 0; 2252bfe3f2eSlogwang } 2262bfe3f2eSlogwang 2272bfe3f2eSlogwang /* 2282bfe3f2eSlogwang * marks a packet down to be sent to a particular node process 2292bfe3f2eSlogwang */ 2302bfe3f2eSlogwang static inline void 2312bfe3f2eSlogwang enqueue_rx_packet(uint8_t node, struct rte_mbuf *buf) 2322bfe3f2eSlogwang { 2332bfe3f2eSlogwang cl_rx_buf[node].buffer[cl_rx_buf[node].count++] = buf; 2342bfe3f2eSlogwang } 2352bfe3f2eSlogwang 2362bfe3f2eSlogwang /* 2372bfe3f2eSlogwang * This function takes a group of packets and routes them 2382bfe3f2eSlogwang * individually to the node process. Very simply round-robins the packets 2392bfe3f2eSlogwang * without checking any of the packet contents. 2402bfe3f2eSlogwang */ 2412bfe3f2eSlogwang static void 2422bfe3f2eSlogwang process_packets(uint32_t port_num __rte_unused, struct rte_mbuf *pkts[], 2432bfe3f2eSlogwang uint16_t rx_count, unsigned int socket_id) 2442bfe3f2eSlogwang { 2452bfe3f2eSlogwang uint16_t i; 2462bfe3f2eSlogwang uint8_t node; 2472bfe3f2eSlogwang efd_value_t data[RTE_EFD_BURST_MAX]; 2482bfe3f2eSlogwang const void *key_ptrs[RTE_EFD_BURST_MAX]; 2492bfe3f2eSlogwang 2502bfe3f2eSlogwang struct ipv4_hdr *ipv4_hdr; 2512bfe3f2eSlogwang uint32_t ipv4_dst_ip[RTE_EFD_BURST_MAX]; 2522bfe3f2eSlogwang 2532bfe3f2eSlogwang for (i = 0; i < rx_count; i++) { 2542bfe3f2eSlogwang /* Handle IPv4 header.*/ 2552bfe3f2eSlogwang ipv4_hdr = rte_pktmbuf_mtod_offset(pkts[i], struct ipv4_hdr *, 2562bfe3f2eSlogwang sizeof(struct ether_hdr)); 2572bfe3f2eSlogwang ipv4_dst_ip[i] = ipv4_hdr->dst_addr; 2582bfe3f2eSlogwang key_ptrs[i] = (void *)&ipv4_dst_ip[i]; 2592bfe3f2eSlogwang } 2602bfe3f2eSlogwang 2612bfe3f2eSlogwang rte_efd_lookup_bulk(efd_table, socket_id, rx_count, 2622bfe3f2eSlogwang (const void **) key_ptrs, data); 2632bfe3f2eSlogwang for (i = 0; i < rx_count; i++) { 2642bfe3f2eSlogwang node = (uint8_t) ((uintptr_t)data[i]); 2652bfe3f2eSlogwang 2662bfe3f2eSlogwang if (node >= num_nodes) { 2672bfe3f2eSlogwang /* 2682bfe3f2eSlogwang * Node is out of range, which means that 2692bfe3f2eSlogwang * flow has not been inserted 2702bfe3f2eSlogwang */ 2712bfe3f2eSlogwang flow_dist_stats.drop++; 2722bfe3f2eSlogwang rte_pktmbuf_free(pkts[i]); 2732bfe3f2eSlogwang } else { 2742bfe3f2eSlogwang flow_dist_stats.distributed++; 2752bfe3f2eSlogwang enqueue_rx_packet(node, pkts[i]); 2762bfe3f2eSlogwang } 2772bfe3f2eSlogwang } 2782bfe3f2eSlogwang 2792bfe3f2eSlogwang for (i = 0; i < num_nodes; i++) 2802bfe3f2eSlogwang flush_rx_queue(i); 2812bfe3f2eSlogwang } 2822bfe3f2eSlogwang 2832bfe3f2eSlogwang /* 2842bfe3f2eSlogwang * Function called by the master lcore of the DPDK process. 2852bfe3f2eSlogwang */ 2862bfe3f2eSlogwang static void 2872bfe3f2eSlogwang do_packet_forwarding(void) 2882bfe3f2eSlogwang { 2892bfe3f2eSlogwang unsigned int port_num = 0; /* indexes the port[] array */ 2902bfe3f2eSlogwang unsigned int socket_id = rte_socket_id(); 2912bfe3f2eSlogwang 2922bfe3f2eSlogwang for (;;) { 2932bfe3f2eSlogwang struct rte_mbuf *buf[PACKET_READ_SIZE]; 2942bfe3f2eSlogwang uint16_t rx_count; 2952bfe3f2eSlogwang 2962bfe3f2eSlogwang /* read a port */ 2972bfe3f2eSlogwang rx_count = rte_eth_rx_burst(info->id[port_num], 0, 2982bfe3f2eSlogwang buf, PACKET_READ_SIZE); 2992bfe3f2eSlogwang info->rx_stats.rx[port_num] += rx_count; 3002bfe3f2eSlogwang 3012bfe3f2eSlogwang /* Now process the NIC packets read */ 3022bfe3f2eSlogwang if (likely(rx_count > 0)) 3032bfe3f2eSlogwang process_packets(port_num, buf, rx_count, socket_id); 3042bfe3f2eSlogwang 3052bfe3f2eSlogwang /* move to next port */ 3062bfe3f2eSlogwang if (++port_num == info->num_ports) 3072bfe3f2eSlogwang port_num = 0; 3082bfe3f2eSlogwang } 3092bfe3f2eSlogwang } 3102bfe3f2eSlogwang 3112bfe3f2eSlogwang int 3122bfe3f2eSlogwang main(int argc, char *argv[]) 3132bfe3f2eSlogwang { 3142bfe3f2eSlogwang /* initialise the system */ 3152bfe3f2eSlogwang if (init(argc, argv) < 0) 3162bfe3f2eSlogwang return -1; 3172bfe3f2eSlogwang RTE_LOG(INFO, APP, "Finished Process Init.\n"); 3182bfe3f2eSlogwang 3192bfe3f2eSlogwang cl_rx_buf = calloc(num_nodes, sizeof(cl_rx_buf[0])); 3202bfe3f2eSlogwang 3212bfe3f2eSlogwang /* clear statistics */ 3222bfe3f2eSlogwang clear_stats(); 3232bfe3f2eSlogwang 3242bfe3f2eSlogwang /* put all other cores to sleep bar master */ 3252bfe3f2eSlogwang rte_eal_mp_remote_launch(sleep_lcore, NULL, SKIP_MASTER); 3262bfe3f2eSlogwang 3272bfe3f2eSlogwang do_packet_forwarding(); 3282bfe3f2eSlogwang return 0; 3292bfe3f2eSlogwang } 330