/* * Copyright (c) 2005 Topspin Communications. All rights reserved. * Copyright (c) 2006 Mellanox Technologies Ltd. All rights reserved. * Copyright (c) 2009 HNR Consulting. All rights reserved. * * This software is available to you under a choice of one of two * licenses. You may choose to be licensed under the terms of the GNU * General Public License (GPL) Version 2, available from the file * COPYING in the main directory of this source tree, or the * OpenIB.org BSD license below: * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the following * conditions are met: * * - Redistributions of source code must retain the above * copyright notice, this list of conditions and the following * disclaimer. * * - Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials * provided with the distribution. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * * $Id$ */ #include #include #include #include "perftest_resources.h" #include "perftest_parameters.h" #include "perftest_communication.h" int main(int argc, char *argv[]) { int ret_parser, i = 0; struct ibv_device *ib_dev = NULL; struct pingpong_context ctx; struct pingpong_dest *my_dest = NULL; struct pingpong_dest *rem_dest = NULL; struct perftest_parameters user_param; struct perftest_comm user_comm; struct bw_report_data my_bw_rep, rem_bw_rep; /* init default values to user's parameters */ memset(&ctx, 0, sizeof(struct pingpong_context)); memset(&user_param, 0, sizeof(struct perftest_parameters)); memset(&user_comm, 0, sizeof(struct perftest_comm)); user_param.verb = READ; user_param.tst = BW; strncpy(user_param.version, VERSION, sizeof(user_param.version)); ret_parser = parser(&user_param, argv, argc); if (ret_parser) { if (ret_parser != VERSION_EXIT && ret_parser != HELP_EXIT) fprintf(stderr, " Parser function exited with Error\n"); return FAILURE; } if((user_param.connection_type == DC || user_param.use_xrc) && user_param.duplex) { user_param.num_of_qps *= 2; } ib_dev =ctx_find_dev(user_param.ib_devname); if (!ib_dev) return 7; /* Getting the relevant context from the device */ ctx.context = ibv_open_device(ib_dev); if (!ctx.context) { fprintf(stderr, " Couldn't get context for the device\n"); return FAILURE; } /* Verify user parameters that require the device context, * the function will print the relevent error info. */ if (verify_params_with_device_context(ctx.context, &user_param)) { return FAILURE; } /* See if MTU and link type are valid and supported. */ if (check_link(ctx.context, &user_param)) { fprintf(stderr, " Couldn't get context for the device\n"); return FAILURE; } /* copy the relevant user parameters to the comm struct + creating rdma_cm resources. */ if (create_comm_struct(&user_comm, &user_param)) { fprintf(stderr, " Unable to create RDMA_CM resources\n"); return FAILURE; } if (user_param.output == FULL_VERBOSITY && user_param.machine == SERVER) { printf("\n************************************\n"); printf("* Waiting for client to connect... *\n"); printf("************************************\n"); } /* Initialize the connection and print the local data. */ if (establish_connection(&user_comm)) { fprintf(stderr, " Unable to init the socket connection\n"); return FAILURE; } exchange_versions(&user_comm, &user_param); check_sys_data(&user_comm, &user_param); /* See if MTU and link type are valid and supported. */ if (check_mtu(ctx.context, &user_param, &user_comm)) { fprintf(stderr, " Couldn't get context for the device\n"); return FAILURE; } ALLOCATE(my_dest , struct pingpong_dest , user_param.num_of_qps); memset(my_dest, 0, sizeof(struct pingpong_dest)*user_param.num_of_qps); ALLOCATE(rem_dest , struct pingpong_dest , user_param.num_of_qps); memset(rem_dest, 0, sizeof(struct pingpong_dest)*user_param.num_of_qps); /* Allocating arrays needed for the test. */ alloc_ctx(&ctx, &user_param); /* create all the basic IB resources. */ if (ctx_init(&ctx, &user_param)) { fprintf(stderr, " Couldn't create IB resources\n"); return FAILURE; } /* Set up the Connection. */ if (set_up_connection(&ctx, &user_param, my_dest)) { fprintf(stderr, " Unable to set up socket connection\n"); return FAILURE; } /* Print basic test information. */ ctx_print_test_info(&user_param); /* Print this machine QP information */ for (i=0; i < user_param.num_of_qps; i++) ctx_print_pingpong_data(&my_dest[i], &user_comm); user_comm.rdma_params->side = REMOTE; for (i=0; i < user_param.num_of_qps; i++) { /* shaking hands and gather the other side info. */ if (ctx_hand_shake(&user_comm, &my_dest[i], &rem_dest[i])) { fprintf(stderr, "Failed to exchange data between server and clients\n"); return FAILURE; } ctx_print_pingpong_data(&rem_dest[i], &user_comm); } if (user_param.work_rdma_cm == OFF) { if (ctx_check_gid_compatibility(&my_dest[0], &rem_dest[0])) { fprintf(stderr, "\n Found Incompatibility issue with GID types.\n"); fprintf(stderr, " Please Try to use a different IP version.\n\n"); return FAILURE; } } if (user_param.work_rdma_cm == OFF) { if (ctx_connect(&ctx, rem_dest, &user_param, my_dest)) { fprintf(stderr, " Unable to Connect the HCA's through the link\n"); return FAILURE; } } /* An additional handshake is required after moving qp to RTR. */ if (ctx_hand_shake(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, "Failed to exchange data between server and clients\n"); return FAILURE; } if (user_param.output == FULL_VERBOSITY) { if (user_param.report_per_port) { printf(RESULT_LINE_PER_PORT); printf((user_param.report_fmt == MBS ? RESULT_FMT_PER_PORT : RESULT_FMT_G_PER_PORT)); } else { printf(RESULT_LINE); printf((user_param.report_fmt == MBS ? RESULT_FMT : RESULT_FMT_G)); } printf((user_param.cpu_util_data.enable ? RESULT_EXT_CPU_UTIL : RESULT_EXT)); } /* For half duplex tests, server just waits for client to exit */ if (user_param.machine == SERVER && !user_param.duplex) { if (ctx_hand_shake(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, " Failed to exchange data between server and clients\n"); return FAILURE; } xchg_bw_reports(&user_comm, &my_bw_rep, &rem_bw_rep, atof(user_param.rem_version)); print_full_bw_report(&user_param, &rem_bw_rep, NULL); if (ctx_close_connection(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, "Failed to close connection between server and client\n"); return FAILURE; } if (user_param.output == FULL_VERBOSITY) { if (user_param.report_per_port) printf(RESULT_LINE_PER_PORT); else printf(RESULT_LINE); } if (user_param.work_rdma_cm == ON) { if (destroy_ctx(&ctx, &user_param)) { fprintf(stderr, "Failed to destroy resources\n"); return FAILURE; } user_comm.rdma_params->work_rdma_cm = ON; return destroy_ctx(user_comm.rdma_ctx, user_comm.rdma_params); } return destroy_ctx(&ctx, &user_param); } if (user_param.use_event) { if (ibv_req_notify_cq(ctx.send_cq, 0)) { fprintf(stderr, "Couldn't request CQ notification\n"); return FAILURE; } } if (user_param.test_method == RUN_ALL) { for (i = 1; i < 24 ; ++i) { user_param.size = (uint64_t)1 << i; ctx_set_send_wqes(&ctx, &user_param, rem_dest); if (user_param.perform_warm_up) { if(perform_warm_up(&ctx, &user_param)) { fprintf(stderr, "Problems with warm up\n"); return FAILURE; } } if(user_param.duplex) { if (ctx_hand_shake(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, "Failed to sync between server and client between different msg sizes\n"); return FAILURE; } } if(run_iter_bw(&ctx, &user_param)) return 17; if (user_param.duplex && (atof(user_param.version) >= 4.6)) { if (ctx_hand_shake(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, "Failed to sync between server and client between different msg sizes\n"); return FAILURE; } } print_report_bw(&user_param, &my_bw_rep); if (user_param.duplex) { xchg_bw_reports(&user_comm, &my_bw_rep, &rem_bw_rep, atof(user_param.rem_version)); print_full_bw_report(&user_param, &my_bw_rep, &rem_bw_rep); } } } else if (user_param.test_method == RUN_REGULAR) { ctx_set_send_wqes(&ctx, &user_param, rem_dest); if (user_param.perform_warm_up) { if(perform_warm_up(&ctx, &user_param)) { fprintf(stderr, "Problems with warm up\n"); return FAILURE; } } if(user_param.duplex) { if (ctx_hand_shake(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, "Failed to sync between server and client between different msg sizes\n"); return FAILURE; } } if(run_iter_bw(&ctx, &user_param)) { fprintf(stderr, " Failed to complete run_iter_bw function successfully\n"); return FAILURE; } print_report_bw(&user_param, &my_bw_rep); if (user_param.duplex) { xchg_bw_reports(&user_comm, &my_bw_rep, &rem_bw_rep, atof(user_param.rem_version)); print_full_bw_report(&user_param, &my_bw_rep, &rem_bw_rep); } if (user_param.report_both && user_param.duplex) { printf(RESULT_LINE); printf("\n Local results: \n"); printf(RESULT_LINE); printf((user_param.report_fmt == MBS ? RESULT_FMT : RESULT_FMT_G)); printf((user_param.cpu_util_data.enable ? RESULT_EXT_CPU_UTIL : RESULT_EXT)); print_full_bw_report(&user_param, &my_bw_rep, NULL); printf(RESULT_LINE); printf("\n Remote results: \n"); printf(RESULT_LINE); printf((user_param.report_fmt == MBS ? RESULT_FMT : RESULT_FMT_G)); printf((user_param.cpu_util_data.enable ? RESULT_EXT_CPU_UTIL : RESULT_EXT)); print_full_bw_report(&user_param, &rem_bw_rep, NULL); } /* } else if (user_param.test_method == RUN_INFINITELY) { */ /* ctx_set_send_wqes(&ctx, &user_param, rem_dest); */ /* if(run_iter_bw_infinitely(&ctx, &user_param)) { */ /* fprintf(stderr, " Error occurred while running! aborting ...\n"); */ /* return FAILURE; */ /* } */ } if (user_param.output == FULL_VERBOSITY) { if (user_param.report_per_port) printf(RESULT_LINE_PER_PORT); else printf(RESULT_LINE); } /* For half duplex tests, server just waits for client to exit */ if (user_param.machine == CLIENT && !user_param.duplex) { if (ctx_hand_shake(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, " Failed to exchange data between server and clients\n"); return FAILURE; } xchg_bw_reports(&user_comm, &my_bw_rep, &rem_bw_rep, atof(user_param.rem_version)); } if (ctx_close_connection(&user_comm, &my_dest[0], &rem_dest[0])) { fprintf(stderr, "Failed to close connection between server and client\n"); return FAILURE; } if (!user_param.is_bw_limit_passed && (user_param.is_limit_bw == ON ) ) { fprintf(stderr, "Error: BW result is below bw limit\n"); return FAILURE; } if (!user_param.is_msgrate_limit_passed && (user_param.is_limit_bw == ON )) { fprintf(stderr, "Error: Msg rate is below msg_rate limit\n"); return FAILURE; } if (user_param.work_rdma_cm == ON) { if (destroy_ctx(&ctx, &user_param)) { fprintf(stderr, "Failed to destroy resources\n"); return FAILURE; } user_comm.rdma_params->work_rdma_cm = ON; return destroy_ctx(user_comm.rdma_ctx, user_comm.rdma_params); } return destroy_ctx(&ctx, &user_param); }