15630257fSFerruh Yigit.. SPDX-License-Identifier: BSD-3-Clause 25630257fSFerruh Yigit Copyright(c) 2010-2014 Intel Corporation. 3d0dff9baSBernard Iremonger 4d0dff9baSBernard IremongerLink Status Interrupt Sample Application 5d0dff9baSBernard Iremonger======================================== 6d0dff9baSBernard Iremonger 7d0dff9baSBernard IremongerThe Link Status Interrupt sample application is a simple example of packet processing using 8e0c7c473SSiobhan Butlerthe Data Plane Development Kit (DPDK) that 9d0dff9baSBernard Iremongerdemonstrates how network link status changes for a network port can be captured and 10e0c7c473SSiobhan Butlerused by a DPDK application. 11d0dff9baSBernard Iremonger 12d0dff9baSBernard IremongerOverview 13d0dff9baSBernard Iremonger-------- 14d0dff9baSBernard Iremonger 15d0dff9baSBernard IremongerThe Link Status Interrupt sample application registers a user space callback for the link status interrupt of each port 16d0dff9baSBernard Iremongerand performs L2 forwarding for each packet that is received on an RX_PORT. 17d0dff9baSBernard IremongerThe following operations are performed: 18d0dff9baSBernard Iremonger 19d0dff9baSBernard Iremonger* RX_PORT and TX_PORT are paired with available ports one-by-one according to the core mask 20d0dff9baSBernard Iremonger 21d0dff9baSBernard Iremonger* The source MAC address is replaced by the TX_PORT MAC address 22d0dff9baSBernard Iremonger 23d0dff9baSBernard Iremonger* The destination MAC address is replaced by 02:00:00:00:00:TX_PORT_ID 24d0dff9baSBernard Iremonger 25d0dff9baSBernard IremongerThis application can be used to demonstrate the usage of link status interrupt and its user space callbacks 26d0dff9baSBernard Iremongerand the behavior of L2 forwarding each time the link status changes. 27d0dff9baSBernard Iremonger 28d0dff9baSBernard IremongerCompiling the Application 29d0dff9baSBernard Iremonger------------------------- 30d0dff9baSBernard Iremonger 317cacb056SHerakliusz LipiecTo compile the sample application see :doc:`compiling`. 32d0dff9baSBernard Iremonger 337cacb056SHerakliusz LipiecThe application is located in the ``link_status_interrupt`` sub-directory. 34d0dff9baSBernard Iremonger 35d0dff9baSBernard IremongerRunning the Application 36d0dff9baSBernard Iremonger----------------------- 37d0dff9baSBernard Iremonger 38d0dff9baSBernard IremongerThe application requires a number of command line options: 39d0dff9baSBernard Iremonger 40d0dff9baSBernard Iremonger.. code-block:: console 41d0dff9baSBernard Iremonger 42*e2a94f9aSCiara Power ./<build_dir>/examples/dpdk-link_status_interrupt [EAL options] -- -p PORTMASK [-q NQ][-T PERIOD] 43d0dff9baSBernard Iremonger 44d0dff9baSBernard Iremongerwhere, 45d0dff9baSBernard Iremonger 46d0dff9baSBernard Iremonger* -p PORTMASK: A hexadecimal bitmask of the ports to configure 47d0dff9baSBernard Iremonger 48d0dff9baSBernard Iremonger* -q NQ: A number of queues (=ports) per lcore (default is 1) 49d0dff9baSBernard Iremonger 50d0dff9baSBernard Iremonger* -T PERIOD: statistics will be refreshed each PERIOD seconds (0 to disable, 10 default) 51d0dff9baSBernard Iremonger 52218c4e68SBruce RichardsonTo run the application in a linux environment with 4 lcores, 4 memory channels, 16 ports and 8 RX queues per lcore, 53d0dff9baSBernard Iremongerissue the command: 54d0dff9baSBernard Iremonger 55d0dff9baSBernard Iremonger.. code-block:: console 56d0dff9baSBernard Iremonger 57*e2a94f9aSCiara Power $ ./<build_dir>/examples/dpdk-link_status_interrupt -l 0-3 -n 4-- -q 8 -p ffff 58d0dff9baSBernard Iremonger 59e0c7c473SSiobhan ButlerRefer to the *DPDK Getting Started Guide* for general information on running applications 60d0dff9baSBernard Iremongerand the Environment Abstraction Layer (EAL) options. 61d0dff9baSBernard Iremonger 62d0dff9baSBernard IremongerExplanation 63d0dff9baSBernard Iremonger----------- 64d0dff9baSBernard Iremonger 65d0dff9baSBernard IremongerThe following sections provide some explanation of the code. 66d0dff9baSBernard Iremonger 67d0dff9baSBernard IremongerCommand Line Arguments 68d0dff9baSBernard Iremonger~~~~~~~~~~~~~~~~~~~~~~ 69d0dff9baSBernard Iremonger 70d0dff9baSBernard IremongerThe Link Status Interrupt sample application takes specific parameters, 71513b0723SMauricio Vasquez Bin addition to Environment Abstraction Layer (EAL) arguments (see Section `Running the Application`_). 72d0dff9baSBernard Iremonger 73d0dff9baSBernard IremongerCommand line parsing is done in the same way as it is done in the L2 Forwarding Sample Application. 74513b0723SMauricio Vasquez BSee :ref:`l2_fwd_app_cmd_arguments` for more information. 75d0dff9baSBernard Iremonger 76d0dff9baSBernard IremongerMbuf Pool Initialization 77d0dff9baSBernard Iremonger~~~~~~~~~~~~~~~~~~~~~~~~ 78d0dff9baSBernard Iremonger 79d0dff9baSBernard IremongerMbuf pool initialization is done in the same way as it is done in the L2 Forwarding Sample Application. 80513b0723SMauricio Vasquez BSee :ref:`l2_fwd_app_mbuf_init` for more information. 81d0dff9baSBernard Iremonger 82d0dff9baSBernard IremongerDriver Initialization 83d0dff9baSBernard Iremonger~~~~~~~~~~~~~~~~~~~~~ 84d0dff9baSBernard Iremonger 85d0dff9baSBernard IremongerThe main part of the code in the main() function relates to the initialization of the driver. 86d0dff9baSBernard IremongerTo fully understand this code, it is recommended to study the chapters that related to the Poll Mode Driver in the 87e0c7c473SSiobhan Butler*DPDK Programmer's Guide and the DPDK API Reference*. 88d0dff9baSBernard Iremonger 89d0dff9baSBernard Iremonger.. code-block:: c 90d0dff9baSBernard Iremonger 91d0dff9baSBernard Iremonger /* 92d0dff9baSBernard Iremonger * Each logical core is assigned a dedicated TX queue on each port. 93d0dff9baSBernard Iremonger */ 94d0dff9baSBernard Iremonger 958728ccf3SThomas Monjalon RTE_ETH_FOREACH_DEV(portid) { 96d0dff9baSBernard Iremonger /* skip ports that are not enabled */ 97d0dff9baSBernard Iremonger 98d0dff9baSBernard Iremonger if ((lsi_enabled_port_mask & (1 << portid)) == 0) 99d0dff9baSBernard Iremonger continue; 100d0dff9baSBernard Iremonger 101d0dff9baSBernard Iremonger /* save the destination port id */ 102d0dff9baSBernard Iremonger 103d0dff9baSBernard Iremonger if (nb_ports_in_mask % 2) { 104d0dff9baSBernard Iremonger lsi_dst_ports[portid] = portid_last; 105d0dff9baSBernard Iremonger lsi_dst_ports[portid_last] = portid; 106d0dff9baSBernard Iremonger } 107d0dff9baSBernard Iremonger else 108d0dff9baSBernard Iremonger portid_last = portid; 109d0dff9baSBernard Iremonger 110d0dff9baSBernard Iremonger nb_ports_in_mask++; 111d0dff9baSBernard Iremonger 112d0dff9baSBernard Iremonger rte_eth_dev_info_get((uint8_t) portid, &dev_info); 113d0dff9baSBernard Iremonger } 114d0dff9baSBernard Iremonger 115d0dff9baSBernard IremongerThe next step is to configure the RX and TX queues. 116d0dff9baSBernard IremongerFor each port, there is only one RX queue (only one lcore is able to poll a given port). 117d0dff9baSBernard IremongerThe number of TX queues depends on the number of available lcores. 118d0dff9baSBernard IremongerThe rte_eth_dev_configure() function is used to configure the number of queues for a port: 119d0dff9baSBernard Iremonger 120d0dff9baSBernard Iremonger.. code-block:: c 121d0dff9baSBernard Iremonger 122d0dff9baSBernard Iremonger ret = rte_eth_dev_configure((uint8_t) portid, 1, 1, &port_conf); 123d0dff9baSBernard Iremonger if (ret < 0) 124d0dff9baSBernard Iremonger rte_exit(EXIT_FAILURE, "Cannot configure device: err=%d, port=%u\n", ret, portid); 125d0dff9baSBernard Iremonger 126d0dff9baSBernard IremongerThe global configuration is stored in a static structure: 127d0dff9baSBernard Iremonger 128d0dff9baSBernard Iremonger.. code-block:: c 129d0dff9baSBernard Iremonger 130d0dff9baSBernard Iremonger static const struct rte_eth_conf port_conf = { 131d0dff9baSBernard Iremonger .rxmode = { 132d0dff9baSBernard Iremonger .split_hdr_size = 0, 133d0dff9baSBernard Iremonger }, 134d0dff9baSBernard Iremonger .txmode = {}, 135d0dff9baSBernard Iremonger .intr_conf = { 136d0dff9baSBernard Iremonger .lsc = 1, /**< link status interrupt feature enabled */ 137d0dff9baSBernard Iremonger }, 138d0dff9baSBernard Iremonger }; 139d0dff9baSBernard Iremonger 140d0dff9baSBernard IremongerConfiguring lsc to 0 (the default) disables the generation of any link status change interrupts in kernel space 141d0dff9baSBernard Iremongerand no user space interrupt event is received. 142d0dff9baSBernard IremongerThe public interface rte_eth_link_get() accesses the NIC registers directly to update the link status. 143d0dff9baSBernard IremongerConfiguring lsc to non-zero enables the generation of link status change interrupts in kernel space 144d0dff9baSBernard Iremongerwhen a link status change is present and calls the user space callbacks registered by the application. 145d0dff9baSBernard IremongerThe public interface rte_eth_link_get() just reads the link status in a global structure 146d0dff9baSBernard Iremongerthat would be updated in the interrupt host thread only. 147d0dff9baSBernard Iremonger 148d0dff9baSBernard IremongerInterrupt Callback Registration 149d0dff9baSBernard Iremonger~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 150d0dff9baSBernard Iremonger 151d0dff9baSBernard IremongerThe application can register one or more callbacks to a specific port and interrupt event. 152d0dff9baSBernard IremongerAn example callback function that has been written as indicated below. 153d0dff9baSBernard Iremonger 154d0dff9baSBernard Iremonger.. code-block:: c 155d0dff9baSBernard Iremonger 156d0dff9baSBernard Iremonger static void 157c6d6982dSZhiyong Yang lsi_event_callback(uint16_t port_id, enum rte_eth_event_type type, void *param) 158d0dff9baSBernard Iremonger { 159d0dff9baSBernard Iremonger struct rte_eth_link link; 1604633c3b2SIgor Romanov int ret; 161ba5509a6SIvan Dyukov char link_status[RTE_ETH_LINK_MAX_STR_LEN]; 162d0dff9baSBernard Iremonger 163d0dff9baSBernard Iremonger RTE_SET_USED(param); 164d0dff9baSBernard Iremonger 165d0dff9baSBernard Iremonger printf("\n\nIn registered callback...\n"); 166d0dff9baSBernard Iremonger 167d0dff9baSBernard Iremonger printf("Event type: %s\n", type == RTE_ETH_EVENT_INTR_LSC ? "LSC interrupt" : "unknown event"); 168d0dff9baSBernard Iremonger 1694633c3b2SIgor Romanov ret = rte_eth_link_get_nowait(port_id, &link); 1704633c3b2SIgor Romanov if (ret < 0) { 1714633c3b2SIgor Romanov printf("Failed to get port %d link status: %s\n\n", 1724633c3b2SIgor Romanov port_id, rte_strerror(-ret)); 173ba5509a6SIvan Dyukov } else { 174ba5509a6SIvan Dyukov rte_eth_link_to_str(link_status, sizeof(link_status), &link); 175ba5509a6SIvan Dyukov printf("Port %d %s\n", port_id, link_status); 176ba5509a6SIvan Dyukov } 177d0dff9baSBernard Iremonger } 178d0dff9baSBernard Iremonger 179d0dff9baSBernard IremongerThis function is called when a link status interrupt is present for the right port. 180d0dff9baSBernard IremongerThe port_id indicates which port the interrupt applies to. 181d0dff9baSBernard IremongerThe type parameter identifies the interrupt event type, 182d0dff9baSBernard Iremongerwhich currently can be RTE_ETH_EVENT_INTR_LSC only, but other types can be added in the future. 183d0dff9baSBernard IremongerThe param parameter is the address of the parameter for the callback. 184d0dff9baSBernard IremongerThis function should be implemented with care since it will be called in the interrupt host thread, 185d0dff9baSBernard Iremongerwhich is different from the main thread of its caller. 186d0dff9baSBernard Iremonger 187d0dff9baSBernard IremongerThe application registers the lsi_event_callback and a NULL parameter to the link status interrupt event on each port: 188d0dff9baSBernard Iremonger 189d0dff9baSBernard Iremonger.. code-block:: c 190d0dff9baSBernard Iremonger 191d0dff9baSBernard Iremonger rte_eth_dev_callback_register((uint8_t)portid, RTE_ETH_EVENT_INTR_LSC, lsi_event_callback, NULL); 192d0dff9baSBernard Iremonger 193d0dff9baSBernard IremongerThis registration can be done only after calling the rte_eth_dev_configure() function and before calling any other function. 194d0dff9baSBernard IremongerIf lsc is initialized with 0, the callback is never called since no interrupt event would ever be present. 195d0dff9baSBernard Iremonger 196d0dff9baSBernard IremongerRX Queue Initialization 197d0dff9baSBernard Iremonger~~~~~~~~~~~~~~~~~~~~~~~ 198d0dff9baSBernard Iremonger 199d0dff9baSBernard IremongerThe application uses one lcore to poll one or several ports, depending on the -q option, 200d0dff9baSBernard Iremongerwhich specifies the number of queues per lcore. 201d0dff9baSBernard Iremonger 202d0dff9baSBernard IremongerFor example, if the user specifies -q 4, the application is able to poll four ports with one lcore. 203d0dff9baSBernard IremongerIf there are 16 ports on the target (and if the portmask argument is -p ffff), 204d0dff9baSBernard Iremongerthe application will need four lcores to poll all the ports. 205d0dff9baSBernard Iremonger 206d0dff9baSBernard Iremonger.. code-block:: c 207d0dff9baSBernard Iremonger 208d0dff9baSBernard Iremonger ret = rte_eth_rx_queue_setup((uint8_t) portid, 0, nb_rxd, SOCKET0, &rx_conf, lsi_pktmbuf_pool); 209d0dff9baSBernard Iremonger if (ret < 0) 210d0dff9baSBernard Iremonger rte_exit(EXIT_FAILURE, "rte_eth_rx_queue_setup: err=%d, port=%u\n", ret, portid); 211d0dff9baSBernard Iremonger 212d0dff9baSBernard IremongerThe list of queues that must be polled for a given lcore is stored in a private structure called struct lcore_queue_conf. 213d0dff9baSBernard Iremonger 214d0dff9baSBernard Iremonger.. code-block:: c 215d0dff9baSBernard Iremonger 216d0dff9baSBernard Iremonger struct lcore_queue_conf { 217d0dff9baSBernard Iremonger unsigned n_rx_port; 218d0dff9baSBernard Iremonger unsigned rx_port_list[MAX_RX_QUEUE_PER_LCORE]; unsigned tx_queue_id; 219d0dff9baSBernard Iremonger struct mbuf_table tx_mbufs[LSI_MAX_PORTS]; 220d0dff9baSBernard Iremonger } rte_cache_aligned; 221d0dff9baSBernard Iremonger 222d0dff9baSBernard Iremonger struct lcore_queue_conf lcore_queue_conf[RTE_MAX_LCORE]; 223d0dff9baSBernard Iremonger 224d0dff9baSBernard IremongerThe n_rx_port and rx_port_list[] fields are used in the main packet processing loop 225513b0723SMauricio Vasquez B(see `Receive, Process and Transmit Packets`_). 226d0dff9baSBernard Iremonger 227d0dff9baSBernard IremongerThe global configuration for the RX queues is stored in a static structure: 228d0dff9baSBernard Iremonger 229d0dff9baSBernard Iremonger.. code-block:: c 230d0dff9baSBernard Iremonger 231d0dff9baSBernard Iremonger static const struct rte_eth_rxconf rx_conf = { 232d0dff9baSBernard Iremonger .rx_thresh = { 233d0dff9baSBernard Iremonger .pthresh = RX_PTHRESH, 234d0dff9baSBernard Iremonger .hthresh = RX_HTHRESH, 235d0dff9baSBernard Iremonger .wthresh = RX_WTHRESH, 236d0dff9baSBernard Iremonger }, 237d0dff9baSBernard Iremonger }; 238d0dff9baSBernard Iremonger 239d0dff9baSBernard IremongerTX Queue Initialization 240d0dff9baSBernard Iremonger~~~~~~~~~~~~~~~~~~~~~~~ 241d0dff9baSBernard Iremonger 242d0dff9baSBernard IremongerEach lcore should be able to transmit on any port. 243d0dff9baSBernard IremongerFor every port, a single TX queue is initialized. 244d0dff9baSBernard Iremonger 245d0dff9baSBernard Iremonger.. code-block:: c 246d0dff9baSBernard Iremonger 247d0dff9baSBernard Iremonger /* init one TX queue logical core on each port */ 248d0dff9baSBernard Iremonger 249d0dff9baSBernard Iremonger fflush(stdout); 250d0dff9baSBernard Iremonger 251d0dff9baSBernard Iremonger ret = rte_eth_tx_queue_setup(portid, 0, nb_txd, rte_eth_dev_socket_id(portid), &tx_conf); 252d0dff9baSBernard Iremonger if (ret < 0) 253d0dff9baSBernard Iremonger rte_exit(EXIT_FAILURE, "rte_eth_tx_queue_setup: err=%d,port=%u\n", ret, (unsigned) portid); 254d0dff9baSBernard Iremonger 255d0dff9baSBernard IremongerThe global configuration for TX queues is stored in a static structure: 256d0dff9baSBernard Iremonger 257d0dff9baSBernard Iremonger.. code-block:: c 258d0dff9baSBernard Iremonger 259d0dff9baSBernard Iremonger static const struct rte_eth_txconf tx_conf = { 260d0dff9baSBernard Iremonger .tx_thresh = { 261d0dff9baSBernard Iremonger .pthresh = TX_PTHRESH, 262d0dff9baSBernard Iremonger .hthresh = TX_HTHRESH, 263d0dff9baSBernard Iremonger .wthresh = TX_WTHRESH, 264d0dff9baSBernard Iremonger }, 265d0dff9baSBernard Iremonger .tx_free_thresh = RTE_TEST_TX_DESC_DEFAULT + 1, /* disable feature */ 266d0dff9baSBernard Iremonger }; 267d0dff9baSBernard Iremonger 268d0dff9baSBernard IremongerReceive, Process and Transmit Packets 269d0dff9baSBernard Iremonger~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ 270d0dff9baSBernard Iremonger 271d0dff9baSBernard IremongerIn the lsi_main_loop() function, the main task is to read ingress packets from the RX queues. 272d0dff9baSBernard IremongerThis is done using the following code: 273d0dff9baSBernard Iremonger 274d0dff9baSBernard Iremonger.. code-block:: c 275d0dff9baSBernard Iremonger 276d0dff9baSBernard Iremonger /* 277d0dff9baSBernard Iremonger * Read packet from RX queues 278d0dff9baSBernard Iremonger */ 279d0dff9baSBernard Iremonger 280d0dff9baSBernard Iremonger for (i = 0; i < qconf->n_rx_port; i++) { 281d0dff9baSBernard Iremonger portid = qconf->rx_port_list[i]; 282d0dff9baSBernard Iremonger nb_rx = rte_eth_rx_burst((uint8_t) portid, 0, pkts_burst, MAX_PKT_BURST); 283d0dff9baSBernard Iremonger port_statistics[portid].rx += nb_rx; 284d0dff9baSBernard Iremonger 285d0dff9baSBernard Iremonger for (j = 0; j < nb_rx; j++) { 286d0dff9baSBernard Iremonger m = pkts_burst[j]; 287d0dff9baSBernard Iremonger rte_prefetch0(rte_pktmbuf_mtod(m, void *)); 288d0dff9baSBernard Iremonger lsi_simple_forward(m, portid); 289d0dff9baSBernard Iremonger } 290d0dff9baSBernard Iremonger } 291d0dff9baSBernard Iremonger 292d0dff9baSBernard IremongerPackets are read in a burst of size MAX_PKT_BURST. 293d0dff9baSBernard IremongerThe rte_eth_rx_burst() function writes the mbuf pointers in a local table and returns the number of available mbufs in the table. 294d0dff9baSBernard Iremonger 295d0dff9baSBernard IremongerThen, each mbuf in the table is processed by the lsi_simple_forward() function. 296d0dff9baSBernard IremongerThe processing is very simple: processes the TX port from the RX port and then replaces the source and destination MAC addresses. 297d0dff9baSBernard Iremonger 298d0dff9baSBernard Iremonger.. note:: 299d0dff9baSBernard Iremonger 300d0dff9baSBernard Iremonger In the following code, the two lines for calculating the output port require some explanation. 301d0dff9baSBernard Iremonger If portId is even, the first line does nothing (as portid & 1 will be 0), and the second line adds 1. 302d0dff9baSBernard Iremonger If portId is odd, the first line subtracts one and the second line does nothing. 303d0dff9baSBernard Iremonger Therefore, 0 goes to 1, and 1 to 0, 2 goes to 3 and 3 to 2, and so on. 304d0dff9baSBernard Iremonger 305d0dff9baSBernard Iremonger.. code-block:: c 306d0dff9baSBernard Iremonger 307d0dff9baSBernard Iremonger static void 308d0dff9baSBernard Iremonger lsi_simple_forward(struct rte_mbuf *m, unsigned portid) 309d0dff9baSBernard Iremonger { 3106d13ea8eSOlivier Matz struct rte_ether_hdr *eth; 311d0dff9baSBernard Iremonger void *tmp; 312d0dff9baSBernard Iremonger unsigned dst_port = lsi_dst_ports[portid]; 313d0dff9baSBernard Iremonger 3146d13ea8eSOlivier Matz eth = rte_pktmbuf_mtod(m, struct rte_ether_hdr *); 315d0dff9baSBernard Iremonger 316d0dff9baSBernard Iremonger /* 02:00:00:00:00:xx */ 317d0dff9baSBernard Iremonger 318d0dff9baSBernard Iremonger tmp = ð->d_addr.addr_bytes[0]; 319d0dff9baSBernard Iremonger 320d0dff9baSBernard Iremonger *((uint64_t *)tmp) = 0x000000000002 + (dst_port << 40); 321d0dff9baSBernard Iremonger 322d0dff9baSBernard Iremonger /* src addr */ 323538da7a1SOlivier Matz rte_ether_addr_copy(&lsi_ports_eth_addr[dst_port], ð->s_addr); 324d0dff9baSBernard Iremonger 325d0dff9baSBernard Iremonger lsi_send_packet(m, dst_port); 326d0dff9baSBernard Iremonger } 327d0dff9baSBernard Iremonger 328d0dff9baSBernard IremongerThen, the packet is sent using the lsi_send_packet(m, dst_port) function. 329d0dff9baSBernard IremongerFor this test application, the processing is exactly the same for all packets arriving on the same RX port. 330d0dff9baSBernard IremongerTherefore, it would have been possible to call the lsi_send_burst() function directly from the main loop 331d0dff9baSBernard Iremongerto send all the received packets on the same TX port using 332d0dff9baSBernard Iremongerthe burst-oriented send function, which is more efficient. 333d0dff9baSBernard Iremonger 334d0dff9baSBernard IremongerHowever, in real-life applications (such as, L3 routing), 335d0dff9baSBernard Iremongerpacket N is not necessarily forwarded on the same port as packet N-1. 336d0dff9baSBernard IremongerThe application is implemented to illustrate that so the same approach can be reused in a more complex application. 337d0dff9baSBernard Iremonger 338d0dff9baSBernard IremongerThe lsi_send_packet() function stores the packet in a per-lcore and per-txport table. 339d0dff9baSBernard IremongerIf the table is full, the whole packets table is transmitted using the lsi_send_burst() function: 340d0dff9baSBernard Iremonger 341d0dff9baSBernard Iremonger.. code-block:: c 342d0dff9baSBernard Iremonger 343d0dff9baSBernard Iremonger /* Send the packet on an output interface */ 344d0dff9baSBernard Iremonger 345d0dff9baSBernard Iremonger static int 346c6d6982dSZhiyong Yang lsi_send_packet(struct rte_mbuf *m, uint16_t port) 347d0dff9baSBernard Iremonger { 348d0dff9baSBernard Iremonger unsigned lcore_id, len; 349d0dff9baSBernard Iremonger struct lcore_queue_conf *qconf; 350d0dff9baSBernard Iremonger 351d0dff9baSBernard Iremonger lcore_id = rte_lcore_id(); 352d0dff9baSBernard Iremonger qconf = &lcore_queue_conf[lcore_id]; 353d0dff9baSBernard Iremonger len = qconf->tx_mbufs[port].len; 354d0dff9baSBernard Iremonger qconf->tx_mbufs[port].m_table[len] = m; 355d0dff9baSBernard Iremonger len++; 356d0dff9baSBernard Iremonger 357d0dff9baSBernard Iremonger /* enough pkts to be sent */ 358d0dff9baSBernard Iremonger 359d0dff9baSBernard Iremonger if (unlikely(len == MAX_PKT_BURST)) { 360d0dff9baSBernard Iremonger lsi_send_burst(qconf, MAX_PKT_BURST, port); 361d0dff9baSBernard Iremonger len = 0; 362d0dff9baSBernard Iremonger } 363d0dff9baSBernard Iremonger qconf->tx_mbufs[port].len = len; 364d0dff9baSBernard Iremonger 365d0dff9baSBernard Iremonger return 0; 366d0dff9baSBernard Iremonger } 367d0dff9baSBernard Iremonger 368d0dff9baSBernard IremongerTo ensure that no packets remain in the tables, each lcore does a draining of the TX queue in its main loop. 369d0dff9baSBernard IremongerThis technique introduces some latency when there are not many packets to send. 370d0dff9baSBernard IremongerHowever, it improves performance: 371d0dff9baSBernard Iremonger 372d0dff9baSBernard Iremonger.. code-block:: c 373d0dff9baSBernard Iremonger 374d0dff9baSBernard Iremonger cur_tsc = rte_rdtsc(); 375d0dff9baSBernard Iremonger 376d0dff9baSBernard Iremonger /* 377d0dff9baSBernard Iremonger * TX burst queue drain 378d0dff9baSBernard Iremonger */ 379d0dff9baSBernard Iremonger 380d0dff9baSBernard Iremonger diff_tsc = cur_tsc - prev_tsc; 381d0dff9baSBernard Iremonger 382d0dff9baSBernard Iremonger if (unlikely(diff_tsc > drain_tsc)) { 383d0dff9baSBernard Iremonger /* this could be optimized (use queueid instead of * portid), but it is not called so often */ 384d0dff9baSBernard Iremonger 385d0dff9baSBernard Iremonger for (portid = 0; portid < RTE_MAX_ETHPORTS; portid++) { 386d0dff9baSBernard Iremonger if (qconf->tx_mbufs[portid].len == 0) 387d0dff9baSBernard Iremonger continue; 388d0dff9baSBernard Iremonger 389d0dff9baSBernard Iremonger lsi_send_burst(&lcore_queue_conf[lcore_id], 390d0dff9baSBernard Iremonger qconf->tx_mbufs[portid].len, (uint8_t) portid); 391d0dff9baSBernard Iremonger qconf->tx_mbufs[portid].len = 0; 392d0dff9baSBernard Iremonger } 393d0dff9baSBernard Iremonger 394d0dff9baSBernard Iremonger /* if timer is enabled */ 395d0dff9baSBernard Iremonger 396d0dff9baSBernard Iremonger if (timer_period > 0) { 397d0dff9baSBernard Iremonger /* advance the timer */ 398d0dff9baSBernard Iremonger 399d0dff9baSBernard Iremonger timer_tsc += diff_tsc; 400d0dff9baSBernard Iremonger 401d0dff9baSBernard Iremonger /* if timer has reached its timeout */ 402d0dff9baSBernard Iremonger 403d0dff9baSBernard Iremonger if (unlikely(timer_tsc >= (uint64_t) timer_period)) { 404cb056611SStephen Hemminger /* do this only on main core */ 405cb056611SStephen Hemminger if (lcore_id == rte_get_main_lcore()) { 406d0dff9baSBernard Iremonger print_stats(); 407d0dff9baSBernard Iremonger 408d0dff9baSBernard Iremonger /* reset the timer */ 409d0dff9baSBernard Iremonger timer_tsc = 0; 410d0dff9baSBernard Iremonger } 411d0dff9baSBernard Iremonger } 412d0dff9baSBernard Iremonger } 413d0dff9baSBernard Iremonger prev_tsc = cur_tsc; 414d0dff9baSBernard Iremonger } 415