/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2005 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2006-2011 Cisco Systems, Inc. All rights reserved. * Copyright (c) 2006-2009 Mellanox Technologies. All rights reserved. * Copyright (c) 2006-2012 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2006-2007 Voltaire All rights reserved. * Copyright (c) 2009-2010 Oracle and/or its affiliates. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include #include "opal/util/bit_ops.h" #include "opal/mca/installdirs/installdirs.h" #include "opal/util/output.h" #include "opal/mca/base/mca_base_param.h" #include "orte/util/show_help.h" #include "btl_openib.h" #include "btl_openib_mca.h" #include "btl_openib_ini.h" #include "connect/base.h" #ifdef HAVE_IBV_FORK_INIT #define OMPI_HAVE_IBV_FORK_INIT 1 #else #define OMPI_HAVE_IBV_FORK_INIT 0 #endif /* * Local flags */ enum { REGINT_NEG_ONE_OK = 0x01, REGINT_GE_ZERO = 0x02, REGINT_GE_ONE = 0x04, REGINT_NONZERO = 0x08, REGINT_MAX = 0x88 }; enum { REGSTR_EMPTY_OK = 0x01, REGSTR_MAX = 0x88 }; /* * utility routine for string parameter registration */ static int reg_string(const char* param_name, const char* deprecated_param_name, const char* param_desc, const char* default_value, char **out_value, int flags) { int index; char *value; index = mca_base_param_reg_string(&mca_btl_openib_component.super.btl_version, param_name, param_desc, false, false, default_value, &value); if (NULL != deprecated_param_name) { mca_base_param_reg_syn(index, &mca_btl_openib_component.super.btl_version, deprecated_param_name, true); } mca_base_param_lookup_string(index, &value); if (0 != (flags & REGSTR_EMPTY_OK) && 0 == strlen(value)) { opal_output(0, "Bad parameter value for parameter \"%s\"", param_name); return OMPI_ERR_BAD_PARAM; } *out_value = value; return OMPI_SUCCESS; } /* * utility routine for integer parameter registration */ static int reg_int(const char* param_name, const char* deprecated_param_name, const char* param_desc, int default_value, int *out_value, int flags) { int index, value; index = mca_base_param_reg_int(&mca_btl_openib_component.super.btl_version, param_name, param_desc, false, false, default_value, NULL); if (NULL != deprecated_param_name) { mca_base_param_reg_syn(index, &mca_btl_openib_component.super.btl_version, deprecated_param_name, true); } mca_base_param_lookup_int(index, &value); if (0 != (flags & REGINT_NEG_ONE_OK) && -1 == value) { *out_value = value; return OMPI_SUCCESS; } if ((0 != (flags & REGINT_GE_ZERO) && value < 0) || (0 != (flags & REGINT_GE_ONE) && value < 1) || (0 != (flags & REGINT_NONZERO) && 0 == value)) { opal_output(0, "Bad parameter value for parameter \"%s\"", param_name); return OMPI_ERR_BAD_PARAM; } *out_value = value; return OMPI_SUCCESS; } /* * Register and check all MCA parameters */ int btl_openib_register_mca_params(void) { char default_qps[100]; uint32_t mid_qp_size; char *msg, *str, *pkey; int ival, ival2, ret, tmp; ret = OMPI_SUCCESS; #define CHECK(expr) do {\ tmp = (expr); \ if (OMPI_SUCCESS != tmp) ret = tmp; \ } while (0) /* register openib component parameters */ CHECK(reg_int("verbose", NULL, "Output some verbose OpenIB BTL information " "(0 = no output, nonzero = output)", 0, &ival, 0)); mca_btl_openib_component.verbose = (0 != ival); CHECK(reg_int("warn_no_device_params_found", "warn_no_hca_params_found", "Warn when no device-specific parameters are found in the INI file specified by the btl_openib_device_param_files MCA parameter " "(0 = do not warn; any other value = warn)", 1, &ival, 0)); mca_btl_openib_component.warn_no_device_params_found = (0 != ival); CHECK(reg_int("warn_default_gid_prefix", NULL, "Warn when there is more than one active ports and at least one of them connected to the network with only default GID prefix configured " "(0 = do not warn; any other value = warn)", 1, &ival, 0)); mca_btl_openib_component.warn_default_gid_prefix = (0 != ival); CHECK(reg_int("warn_nonexistent_if", NULL, "Warn if non-existent devices and/or ports are specified in the btl_openib_if_[in|ex]clude MCA parameters " "(0 = do not warn; any other value = warn)", 1, &ival, 0)); mca_btl_openib_component.warn_nonexistent_if = (0 != ival); if (OMPI_HAVE_IBV_FORK_INIT) { ival2 = -1; } else { ival2 = 0; } CHECK(reg_int("want_fork_support", NULL, "Whether fork support is desired or not " "(negative = try to enable fork support, but continue even if it is not available, 0 = do not enable fork support, positive = try to enable fork support and fail if it is not available)", ival2, &ival, 0)); #ifdef HAVE_IBV_FORK_INIT mca_btl_openib_component.want_fork_support = ival; #else if (0 != ival) { orte_show_help("help-mpi-btl-openib.txt", "ibv_fork requested but not supported", true, orte_process_info.nodename); return OMPI_ERROR; } #endif asprintf(&str, "%s/mca-btl-openib-device-params.ini", opal_install_dirs.pkgdatadir); if (NULL == str) { return OMPI_ERR_OUT_OF_RESOURCE; } CHECK(reg_string("device_param_files", "hca_param_files", "Colon-delimited list of INI-style files that contain device vendor/part-specific parameters (use semicolon for Windows)", str, &mca_btl_openib_component.device_params_file_names, 0)); free(str); CHECK(reg_string("device_type", NULL, "Specify to only use IB or iWARP network adapters " "(infiniband = only use InfiniBand HCAs; iwarp = only use iWARP NICs; all = use any available adapters)", "all", &str, 0)); if (0 == strcasecmp(str, "ib") || 0 == strcasecmp(str, "infiniband")) { mca_btl_openib_component.device_type = BTL_OPENIB_DT_IB; } else if (0 == strcasecmp(str, "iw") || 0 == strcasecmp(str, "iwarp")) { mca_btl_openib_component.device_type = BTL_OPENIB_DT_IWARP; } else if (0 == strcasecmp(str, "all")) { mca_btl_openib_component.device_type = BTL_OPENIB_DT_ALL; } else { orte_show_help("help-mpi-btl-openib.txt", "ibv_fork requested but not supported", true, orte_process_info.nodename); return OMPI_ERROR; } free(str); CHECK(reg_int("max_btls", NULL, "Maximum number of device ports to use " "(-1 = use all available, otherwise must be >= 1)", -1, &mca_btl_openib_component.ib_max_btls, REGINT_NEG_ONE_OK | REGINT_GE_ONE)); CHECK(reg_int("free_list_num", NULL, "Initial size of free lists " "(must be >= 1)", 8, &mca_btl_openib_component.ib_free_list_num, REGINT_GE_ONE)); CHECK(reg_int("free_list_max", NULL, "Maximum size of free lists " "(-1 = infinite, otherwise must be >= 0)", -1, &mca_btl_openib_component.ib_free_list_max, REGINT_NEG_ONE_OK | REGINT_GE_ONE)); CHECK(reg_int("free_list_inc", NULL, "Increment size of free lists " "(must be >= 1)", 32, &mca_btl_openib_component.ib_free_list_inc, REGINT_GE_ONE)); CHECK(reg_string("mpool", NULL, "Name of the memory pool to be used (it is unlikely that you will ever want to change this)", "grdma", &mca_btl_openib_component.ib_mpool_name, 0)); CHECK(reg_int("reg_mru_len", NULL, "Length of the registration cache most recently used list " "(must be >= 1)", 16, (int*) &mca_btl_openib_component.reg_mru_len, REGINT_GE_ONE)); CHECK(reg_int("cq_size", "ib_cq_size", "Minimum size of the OpenFabrics completion queue " "(CQs are automatically sized based on the number " "of peer MPI processes; this value determines the " "*minimum* size of all CQs)", 8192, &ival, REGINT_GE_ONE)); mca_btl_openib_component.ib_cq_size[BTL_OPENIB_LP_CQ] = mca_btl_openib_component.ib_cq_size[BTL_OPENIB_HP_CQ] = (uint32_t) ival; CHECK(reg_int("max_inline_data", "ib_max_inline_data", "Maximum size of inline data segment " "(-1 = run-time probe to discover max value, otherwise must be >= 0). " "If not explicitly set, use max_inline_data from " "the INI file containing device-specific parameters", -1, &ival, REGINT_NEG_ONE_OK | REGINT_GE_ZERO)); mca_btl_openib_component.ib_max_inline_data = (int32_t) ival; CHECK(reg_string("pkey", "ib_pkey_val", "OpenFabrics partition key (pkey) value. " "Unsigned integer decimal or hex values are allowed (e.g., \"3\" or \"0x3f\") and will be masked against the maximum allowable IB partition key value (0x7fff)", "0", &pkey, 0)); mca_btl_openib_component.ib_pkey_val = ompi_btl_openib_ini_intify(pkey) & MCA_BTL_IB_PKEY_MASK; free(pkey); CHECK(reg_int("psn", "ib_psn", "OpenFabrics packet sequence starting number " "(must be >= 0)", 0, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.ib_psn = (uint32_t) ival; CHECK(reg_int("ib_qp_ous_rd_atom", NULL, "InfiniBand outstanding atomic reads " "(must be >= 0)", 4, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.ib_qp_ous_rd_atom = (uint32_t) ival; asprintf(&msg, "OpenFabrics MTU, in bytes (if not specified in INI files). Valid values are: %d=256 bytes, %d=512 bytes, %d=1024 bytes, %d=2048 bytes, %d=4096 bytes", IBV_MTU_256, IBV_MTU_512, IBV_MTU_1024, IBV_MTU_2048, IBV_MTU_4096); if (NULL == msg) { /* Don't try to recover from this */ return OMPI_ERR_OUT_OF_RESOURCE; } CHECK(reg_int("mtu", "ib_mtu", msg, IBV_MTU_1024, &ival, 0)); free(msg); if (ival < IBV_MTU_1024 || ival > IBV_MTU_4096) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "invalid value for btl_openib_ib_mtu", "btl_openib_ib_mtu reset to 1024"); mca_btl_openib_component.ib_mtu = IBV_MTU_1024; } else { mca_btl_openib_component.ib_mtu = (uint32_t) ival; } CHECK(reg_int("ib_min_rnr_timer", NULL, "InfiniBand minimum " "\"receiver not ready\" timer, in seconds " "(must be >= 0 and <= 31)", 25, &ival, 0)); if (ival > 31) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_min_rnr_timer > 31", "btl_openib_ib_min_rnr_timer reset to 31"); ival = 31; } else if (ival < 0){ orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_min_rnr_timer < 0", "btl_openib_ib_min_rnr_timer reset to 0"); ival = 0; } mca_btl_openib_component.ib_min_rnr_timer = (uint32_t) ival; CHECK(reg_int("ib_timeout", NULL, "InfiniBand transmit timeout, plugged into formula: 4.096 microseconds * (2^btl_openib_ib_timeout) " "(must be >= 0 and <= 31)", 20, &ival, 0)); if (ival > 31) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_timeout > 31", "btl_openib_ib_timeout reset to 31"); ival = 31; } else if (ival < 0) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_timeout < 0", "btl_openib_ib_timeout reset to 0"); ival = 0; } mca_btl_openib_component.ib_timeout = (uint32_t) ival; CHECK(reg_int("ib_retry_count", NULL, "InfiniBand transmit retry count " "(must be >= 0 and <= 7)", 7, &ival, 0)); if (ival > 7) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_retry_count > 7", "btl_openib_ib_retry_count reset to 7"); ival = 7; } else if (ival < 0) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_retry_count < 0", "btl_openib_ib_retry_count reset to 0"); ival = 0; } mca_btl_openib_component.ib_retry_count = (uint32_t) ival; CHECK(reg_int("ib_rnr_retry", NULL, "InfiniBand \"receiver not ready\" " "retry count; applies *only* to SRQ/XRC queues. PP queues " "use RNR retry values of 0 because Open MPI performs " "software flow control to guarantee that RNRs never occur " "(must be >= 0 and <= 7; 7 = \"infinite\")", 7, &ival, 0)); if (ival > 7) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_rnr_retry > 7", "btl_openib_ib_rnr_retry reset to 7"); ival = 7; } else if (ival < 0) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_rnr_retry < 0", "btl_openib_ib_rnr_retry reset to 0"); ival = 0; } mca_btl_openib_component.ib_rnr_retry = (uint32_t) ival; CHECK(reg_int("ib_max_rdma_dst_ops", NULL, "InfiniBand maximum pending RDMA " "destination operations " "(must be >= 0)", 4, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.ib_max_rdma_dst_ops = (uint32_t) ival; CHECK(reg_int("ib_service_level", NULL, "InfiniBand service level " "(must be >= 0 and <= 15)", 0, &ival, 0)); if (ival > 15) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_service_level > 15", "btl_openib_ib_service_level reset to 15"); ival = 15; } else if (ival < 0) { orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_ib_service_level < 0", "btl_openib_ib_service_level reset to 0"); ival = 0; } mca_btl_openib_component.ib_service_level = (uint32_t) ival; #if (ENABLE_DYNAMIC_SL) CHECK(reg_int("ib_path_record_service_level", NULL, "Enable getting InfiniBand service level from PathRecord " "(must be >= 0, 0 = disabled, positive = try to get the " "service level from PathRecord)", 0, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.ib_path_record_service_level = (uint32_t) ival; #endif CHECK(reg_int("use_eager_rdma", NULL, "Use RDMA for eager messages " "(-1 = use device default, 0 = do not use eager RDMA, " "1 = use eager RDMA)", -1, &ival, 0)); mca_btl_openib_component.use_eager_rdma = (int32_t) ival; CHECK(reg_int("eager_rdma_threshold", NULL, "Use RDMA for short messages after this number of " "messages are received from a given peer " "(must be >= 1)", 16, &ival, REGINT_GE_ONE)); mca_btl_openib_component.eager_rdma_threshold = (int32_t) ival; CHECK(reg_int("max_eager_rdma", NULL, "Maximum number of peers allowed to use " "RDMA for short messages (RDMA is used for all long " "messages, except if explicitly disabled, such as " "with the \"dr\" pml) " "(must be >= 0)", 16, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.max_eager_rdma = (int32_t) ival; CHECK(reg_int("eager_rdma_num", NULL, "Number of RDMA buffers to allocate " "for small messages " "(must be >= 1)", 16, &ival, REGINT_GE_ONE)); mca_btl_openib_component.eager_rdma_num = (int32_t) (ival + 1); CHECK(reg_int("btls_per_lid", NULL, "Number of BTLs to create for each " "InfiniBand LID " "(must be >= 1)", 1, &ival, REGINT_GE_ONE)); mca_btl_openib_component.btls_per_lid = (uint32_t) ival; CHECK(reg_int("max_lmc", NULL, "Maximum number of LIDs to use for each device port " "(must be >= 0, where 0 = use all available)", 0, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.max_lmc = (uint32_t) ival; #if OPAL_HAVE_THREADS CHECK(reg_int("enable_apm_over_lmc", NULL, "Maximum number of alternative paths for each device port " "(must be >= -1, where 0 = disable apm, -1 = all available alternative paths )", 0, &ival, REGINT_NEG_ONE_OK|REGINT_GE_ZERO)); mca_btl_openib_component.apm_lmc = (uint32_t) ival; CHECK(reg_int("enable_apm_over_ports", NULL, "Enable alternative path migration (APM) over different ports of the same device " "(must be >= 0, where 0 = disable APM over ports, 1 = enable APM over ports of the same device)", 0, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.apm_ports = (uint32_t) ival; CHECK(reg_int("use_async_event_thread", NULL, "If nonzero, use the thread that will handle InfiniBand asynchronous events", 1, &ival, 0)); mca_btl_openib_component.use_async_event_thread = (0 != ival); #if BTL_OPENIB_FAILOVER_ENABLED /* failover specific output */ CHECK(reg_int("verbose_failover", NULL, "Output some verbose OpenIB BTL failover information " "(0 = no output, nonzero = output)", 0, &ival, 0)); mca_btl_openib_component.verbose_failover = opal_output_open(NULL); opal_output_set_verbosity(mca_btl_openib_component.verbose_failover, ival); CHECK(reg_int("port_error_failover", NULL, "If nonzero, asynchronous port errors will trigger failover", 0, &ival, 0)); mca_btl_openib_component.port_error_failover = (0 != ival); /* Make non writeable parameter that indicates failover is configured in. */ tmp = mca_base_param_reg_int(&mca_btl_openib_component.super.btl_version, "failover_enabled", "openib failover is configured: run with bfo PML to support failover between openib BTLs", false, true, 1, NULL); #endif CHECK(reg_int("enable_srq_resize", NULL, "Enable/Disable on demand SRQ resize. " "(0 = without resizing, nonzero = with resizing)", 1, &ival, 0)); mca_btl_openib_component.enable_srq_resize = (0 != ival); #else mca_btl_openib_component.enable_srq_resize = 0; #endif CHECK(reg_int("buffer_alignment", NULL, "Preferred communication buffer alignment, in bytes " "(must be > 0 and power of two)", 64, &ival, REGINT_GE_ZERO)); if(ival <= 1 || (ival & (ival - 1))) { orte_show_help("help-mpi-btl-openib.txt", "wrong buffer alignment", true, ival, orte_process_info.nodename, 64); mca_btl_openib_component.buffer_alignment = 64; } else { mca_btl_openib_component.buffer_alignment = (uint32_t) ival; } CHECK(reg_int("use_message_coalescing", NULL, "If nonzero, use message coalescing", 1, &ival, 0)); mca_btl_openib_component.use_message_coalescing = (0 != ival); CHECK(reg_int("cq_poll_ratio", NULL, "How often to poll high priority CQ versus low priority CQ", 100, &ival, REGINT_GE_ONE)); mca_btl_openib_component.cq_poll_ratio = (uint32_t)ival; CHECK(reg_int("eager_rdma_poll_ratio", NULL, "How often to poll eager RDMA channel versus CQ", 100, &ival, REGINT_GE_ONE)); mca_btl_openib_component.eager_rdma_poll_ratio = (uint32_t)ival; CHECK(reg_int("hp_cq_poll_per_progress", NULL, "Max number of completion events to process for each call " "of BTL progress engine", 10, &ival, REGINT_GE_ONE)); mca_btl_openib_component.cq_poll_progress = (uint32_t)ival; CHECK(reg_int("max_hw_msg_size", NULL, "Maximum size (in bytes) of a single fragment of a long message when using the RDMA protocols (must be > 0 and <= hw capabilities).", 0, &ival, REGINT_GE_ZERO)); mca_btl_openib_component.max_hw_msg_size = (uint32_t)ival; /* Info only */ mca_base_param_reg_int(&mca_btl_openib_component.super.btl_version, "have_fork_support", "Whether the OpenFabrics stack supports applications that invoke the \"fork()\" system call or not (0 = no, 1 = yes). " "Note that this value does NOT indicate whether the system being run on supports \"fork()\" with OpenFabrics applications or not.", false, true, OMPI_HAVE_IBV_FORK_INIT ? 1 : 0, NULL); mca_btl_openib_module.super.btl_exclusivity = MCA_BTL_EXCLUSIVITY_DEFAULT; mca_btl_openib_module.super.btl_eager_limit = 12 * 1024; mca_btl_openib_module.super.btl_rndv_eager_limit = 12 * 1024; mca_btl_openib_module.super.btl_max_send_size = 64 * 1024; mca_btl_openib_module.super.btl_rdma_pipeline_send_length = 1024 * 1024; mca_btl_openib_module.super.btl_rdma_pipeline_frag_size = 1024 * 1024; mca_btl_openib_module.super.btl_min_rdma_pipeline_size = 256 * 1024; mca_btl_openib_module.super.btl_flags = MCA_BTL_FLAGS_RDMA | MCA_BTL_FLAGS_NEED_ACK | MCA_BTL_FLAGS_NEED_CSUM | MCA_BTL_FLAGS_HETEROGENEOUS_RDMA; #if BTL_OPENIB_FAILOVER_ENABLED mca_btl_openib_module.super.btl_flags |= MCA_BTL_FLAGS_FAILOVER_SUPPORT; #endif /* Default to bandwidth auto-detection */ mca_btl_openib_module.super.btl_bandwidth = 0; mca_btl_openib_module.super.btl_latency = 4; CHECK(mca_btl_base_param_register( &mca_btl_openib_component.super.btl_version, &mca_btl_openib_module.super)); /* setup all the qp stuff */ /* round mid_qp_size to smallest power of two */ mid_qp_size = opal_next_poweroftwo (mca_btl_openib_module.super.btl_eager_limit / 4) >> 1; /* mid_qp_size = MAX (mid_qp_size, 1024); ?! */ if(mid_qp_size <= 128) { mid_qp_size = 1024; } /* NTH: use all SRQ by default */ snprintf(default_qps, 100, "S,128,256,192,128:S,%u,256,128,32:S,%u,256,128,32:S,%u,256,128,32", mid_qp_size, (uint32_t)mca_btl_openib_module.super.btl_eager_limit, (uint32_t)mca_btl_openib_module.super.btl_max_send_size); mca_btl_openib_component.default_recv_qps = strdup(default_qps); if(NULL == mca_btl_openib_component.default_recv_qps) { BTL_ERROR(("Unable to allocate memory for default receive queues string.\n")); return OMPI_ERROR; } CHECK(reg_string("receive_queues", NULL, "Colon-delimited, comma-delimited list of receive queues: P,4096,8,6,4:P,32768,8,6,4", default_qps, &mca_btl_openib_component.receive_queues, 0)); mca_btl_openib_component.receive_queues_source = (0 == strcmp(default_qps, mca_btl_openib_component.receive_queues)) ? BTL_OPENIB_RQ_SOURCE_DEFAULT : BTL_OPENIB_RQ_SOURCE_MCA; CHECK(reg_string("if_include", NULL, "Comma-delimited list of devices/ports to be used (e.g. \"mthca0,mthca1:2\"; empty value means to use all ports found). Mutually exclusive with btl_openib_if_exclude.", NULL, &mca_btl_openib_component.if_include, 0)); CHECK(reg_string("if_exclude", NULL, "Comma-delimited list of device/ports to be excluded (empty value means to not exclude any ports). Mutually exclusive with btl_openib_if_include.", NULL, &mca_btl_openib_component.if_exclude, 0)); CHECK(reg_string("ipaddr_include", NULL, "Comma-delimited list of IP Addresses to be used (e.g. \"192.168.1.0/24\"). Mutually exclusive with btl_openib_ipaddr_exclude.", NULL, &mca_btl_openib_component.ipaddr_include, 0)); CHECK(reg_string("ipaddr_exclude", NULL, "Comma-delimited list of IP Addresses to be excluded (e.g. \"192.168.1.0/24\"). Mutually exclusive with btl_openib_ipaddr_include.", NULL, &mca_btl_openib_component.ipaddr_exclude, 0)); CHECK(reg_int("gid_index", NULL, "GID index to use on verbs device ports", 0, &mca_btl_openib_component.gid_index, REGINT_GE_ZERO)); #if BTL_OPENIB_MALLOC_HOOKS_ENABLED CHECK(reg_int("memalign", NULL, "[64 | 32 | 0] - Enable (64bit or 32bit)/Disable(0) memory" "alignment for all malloc calls if btl openib is used.", 32, &mca_btl_openib_component.use_memalign, REGINT_GE_ZERO)); if (mca_btl_openib_component.use_memalign != 32 && mca_btl_openib_component.use_memalign != 64 && mca_btl_openib_component.use_memalign != 0){ orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "Wrong btl_openib_memalign parameter value. Allowed values: 64, 32, 0.", "btl_openib_memalign is reset to 32"); mca_btl_openib_component.use_memalign = 32; } reg_int("memalign_threshold", NULL, "Allocating memory more than btl_openib_memalign_threshhold" "bytes will automatically be algined to the value of btl_openib_memalign bytes." "memalign_threshhold defaults to the same value as mca_btl_openib_eager_limit.", mca_btl_openib_component.eager_limit, &ival, REGINT_GE_ZERO); if (ival < 0){ orte_show_help("help-mpi-btl-openib.txt", "invalid mca param value", true, "btl_openib_memalign_threshold must be positive", "btl_openib_memalign_threshold is reset to btl_openib_eager_limit"); ival = mca_btl_openib_component.eager_limit; } mca_btl_openib_component.memalign_threshold = (size_t)ival; #endif /* Register any MCA params for the connect pseudo-components */ if (OMPI_SUCCESS == ret) { ret = ompi_btl_openib_connect_base_register(); } return ret; }