/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2014 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) 2007-2015 Cisco Systems, Inc. All rights reserved. * Copyright (c) 2008 Sun Microsystems, Inc. All rights reserved. * Copyright (c) 2009 Oak Ridge National Laboratory * Copyright (c) 2012-2015 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2013-2015 NVIDIA Corporation. All rights reserved. * Copyright (c) 2014 Intel, Inc. All rights reserved. * Copyright (c) 2014-2015 Research Organization for Information Science * and Technology (RIST). All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ * */ #include "opal_config.h" #include "opal/opal_socket_errno.h" #ifdef HAVE_UNISTD_H #include #endif #include #include #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_NETINET_IN_H #include #endif #ifdef HAVE_ARPA_INET_H #include #endif #if OPAL_ENABLE_IPV6 # ifdef HAVE_NETDB_H # include # endif #endif #include #include #include "opal/mca/event/event.h" #include "opal/util/if.h" #include "opal/util/output.h" #include "opal/util/argv.h" #include "opal/util/net.h" #include "opal/util/proc.h" #include "opal/util/show_help.h" #include "opal/constants.h" #include "opal/mca/btl/btl.h" #include "opal/mca/btl/base/base.h" #include "opal/mca/mpool/base/base.h" #include "opal/mca/btl/base/btl_base_error.h" #include "opal/mca/pmix/pmix.h" #include "btl_tcp.h" #include "btl_tcp_addr.h" #include "btl_tcp_proc.h" #include "btl_tcp_frag.h" #include "btl_tcp_endpoint.h" #if OPAL_CUDA_SUPPORT #include "opal/mca/common/cuda/common_cuda.h" #endif /* OPAL_CUDA_SUPPORT */ /* * Local functions */ static int mca_btl_tcp_component_register(void); static int mca_btl_tcp_component_open(void); static int mca_btl_tcp_component_close(void); mca_btl_tcp_component_t mca_btl_tcp_component = { .super = { /* First, the mca_base_component_t struct containing meta information about the component itself */ .btl_version = { MCA_BTL_DEFAULT_VERSION("tcp"), .mca_open_component = mca_btl_tcp_component_open, .mca_close_component = mca_btl_tcp_component_close, .mca_register_component_params = mca_btl_tcp_component_register, }, .btl_data = { /* The component is checkpoint ready */ .param_field = MCA_BASE_METADATA_PARAM_CHECKPOINT }, .btl_init = mca_btl_tcp_component_init, } }; /* * utility routines for parameter registration */ static inline char* mca_btl_tcp_param_register_string( const char* param_name, const char* help_string, const char* default_value, int level, char **storage) { *storage = (char *) default_value; (void) mca_base_component_var_register(&mca_btl_tcp_component.super.btl_version, param_name, help_string, MCA_BASE_VAR_TYPE_STRING, NULL, 0, 0, level, MCA_BASE_VAR_SCOPE_READONLY, storage); return *storage; } static inline int mca_btl_tcp_param_register_int( const char* param_name, const char* help_string, int default_value, int level, int *storage) { *storage = default_value; (void) mca_base_component_var_register(&mca_btl_tcp_component.super.btl_version, param_name, help_string, MCA_BASE_VAR_TYPE_INT, NULL, 0, 0, level, MCA_BASE_VAR_SCOPE_READONLY, storage); return *storage; } static inline unsigned int mca_btl_tcp_param_register_uint( const char* param_name, const char* help_string, unsigned int default_value, int level, unsigned int *storage) { *storage = default_value; (void) mca_base_component_var_register(&mca_btl_tcp_component.super.btl_version, param_name, help_string, MCA_BASE_VAR_TYPE_UNSIGNED_INT, NULL, 0, 0, level, MCA_BASE_VAR_SCOPE_READONLY, storage); return *storage; } /* * Data structure for accepting connections. */ struct mca_btl_tcp_event_t { opal_list_item_t item; opal_event_t event; }; typedef struct mca_btl_tcp_event_t mca_btl_tcp_event_t; OBJ_CLASS_INSTANCE( mca_btl_tcp_event_t, opal_list_item_t, NULL, NULL); /* * functions for receiving event callbacks */ static void mca_btl_tcp_component_recv_handler(int, short, void*); static void mca_btl_tcp_component_accept_handler(int, short, void*); static int mca_btl_tcp_component_verify(void) { if( mca_btl_tcp_component.tcp_port_min > USHRT_MAX ) { opal_show_help("help-mpi-btl-tcp.txt", "invalid minimum port", true, "v4", opal_process_info.nodename, mca_btl_tcp_component.tcp_port_min ); mca_btl_tcp_component.tcp_port_min = 1024; } #if OPAL_ENABLE_IPV6 if( mca_btl_tcp_component.tcp6_port_min > USHRT_MAX ) { opal_show_help("help-mpi-btl-tcp.txt", "invalid minimum port", true, "v6", opal_process_info.nodename, mca_btl_tcp_component.tcp6_port_min ); mca_btl_tcp_component.tcp6_port_min = 1024; } #endif return OPAL_SUCCESS; } /* * Called by MCA framework to open the component, registers * component parameters. */ static int mca_btl_tcp_component_register(void) { char* message; /* register TCP component parameters */ mca_btl_tcp_param_register_uint("links", NULL, 1, OPAL_INFO_LVL_4, &mca_btl_tcp_component.tcp_num_links); mca_btl_tcp_param_register_string("if_include", "Comma-delimited list of devices and/or CIDR notation of networks to use for MPI communication (e.g., \"eth0,192.168.0.0/16\"). Mutually exclusive with btl_tcp_if_exclude.", "", OPAL_INFO_LVL_1, &mca_btl_tcp_component.tcp_if_include); mca_btl_tcp_param_register_string("if_exclude", "Comma-delimited list of devices and/or CIDR notation of networks to NOT use for MPI communication -- all devices not matching these specifications will be used (e.g., \"eth0,192.168.0.0/16\"). If set to a non-default value, it is mutually exclusive with btl_tcp_if_include.", "127.0.0.1/8,sppp", OPAL_INFO_LVL_1, &mca_btl_tcp_component.tcp_if_exclude); mca_btl_tcp_param_register_int ("free_list_num", NULL, 8, OPAL_INFO_LVL_5, &mca_btl_tcp_component.tcp_free_list_num); mca_btl_tcp_param_register_int ("free_list_max", NULL, -1, OPAL_INFO_LVL_5, &mca_btl_tcp_component.tcp_free_list_max); mca_btl_tcp_param_register_int ("free_list_inc", NULL, 32, OPAL_INFO_LVL_5, &mca_btl_tcp_component.tcp_free_list_inc); mca_btl_tcp_param_register_int ("sndbuf", NULL, 128*1024, OPAL_INFO_LVL_4, &mca_btl_tcp_component.tcp_sndbuf); mca_btl_tcp_param_register_int ("rcvbuf", NULL, 128*1024, OPAL_INFO_LVL_4, &mca_btl_tcp_component.tcp_rcvbuf); mca_btl_tcp_param_register_int ("endpoint_cache", "The size of the internal cache for each TCP connection. This cache is" " used to reduce the number of syscalls, by replacing them with memcpy." " Every read will read the expected data plus the amount of the" " endpoint_cache", 30*1024, OPAL_INFO_LVL_4, &mca_btl_tcp_component.tcp_endpoint_cache); mca_btl_tcp_param_register_int ("use_nagle", "Whether to use Nagle's algorithm or not (using Nagle's algorithm may increase short message latency)", 0, OPAL_INFO_LVL_4, &mca_btl_tcp_component.tcp_not_use_nodelay); mca_btl_tcp_param_register_int( "port_min_v4", "The minimum port where the TCP BTL will try to bind (default 1024)", 1024, OPAL_INFO_LVL_2, &mca_btl_tcp_component.tcp_port_min); asprintf( &message, "The number of ports where the TCP BTL will try to bind (default %d)." " This parameter together with the port min, define a range of ports" " where Open MPI will open sockets.", (0x1 << 16) - mca_btl_tcp_component.tcp_port_min - 1 ); mca_btl_tcp_param_register_int( "port_range_v4", message, (0x1 << 16) - mca_btl_tcp_component.tcp_port_min - 1, OPAL_INFO_LVL_2, &mca_btl_tcp_component.tcp_port_range); free(message); #if OPAL_ENABLE_IPV6 mca_btl_tcp_param_register_int( "port_min_v6", "The minimum port where the TCP BTL will try to bind (default 1024)", 1024, OPAL_INFO_LVL_2, & mca_btl_tcp_component.tcp6_port_min ); asprintf( &message, "The number of ports where the TCP BTL will try to bind (default %d)." " This parameter together with the port min, define a range of ports" " where Open MPI will open sockets.", (0x1 << 16) - mca_btl_tcp_component.tcp6_port_min - 1 ); mca_btl_tcp_param_register_int( "port_range_v6", message, (0x1 << 16) - mca_btl_tcp_component.tcp6_port_min - 1, OPAL_INFO_LVL_2, &mca_btl_tcp_component.tcp6_port_range ); free(message); #endif mca_btl_tcp_component.report_all_unfound_interfaces = false; (void) mca_base_component_var_register(&mca_btl_tcp_component.super.btl_version, "warn_all_unfound_interfaces", "Issue a warning for all unfound interfaces included in if_exclude", MCA_BASE_VAR_TYPE_BOOL, NULL, 0, 0, OPAL_INFO_LVL_2, MCA_BASE_VAR_SCOPE_READONLY, &mca_btl_tcp_component.report_all_unfound_interfaces); mca_btl_tcp_module.super.btl_exclusivity = MCA_BTL_EXCLUSIVITY_LOW + 100; mca_btl_tcp_module.super.btl_eager_limit = 64*1024; mca_btl_tcp_module.super.btl_rndv_eager_limit = 64*1024; mca_btl_tcp_module.super.btl_max_send_size = 128*1024; mca_btl_tcp_module.super.btl_rdma_pipeline_send_length = 128*1024; mca_btl_tcp_module.super.btl_rdma_pipeline_frag_size = INT_MAX; mca_btl_tcp_module.super.btl_min_rdma_pipeline_size = 0; mca_btl_tcp_module.super.btl_flags = MCA_BTL_FLAGS_PUT | MCA_BTL_FLAGS_SEND_INPLACE | MCA_BTL_FLAGS_NEED_CSUM | MCA_BTL_FLAGS_NEED_ACK | MCA_BTL_FLAGS_HETEROGENEOUS_RDMA; mca_btl_tcp_module.super.btl_bandwidth = 100; mca_btl_tcp_module.super.btl_latency = 100; mca_btl_base_param_register(&mca_btl_tcp_component.super.btl_version, &mca_btl_tcp_module.super); mca_btl_tcp_param_register_int ("disable_family", NULL, 0, OPAL_INFO_LVL_2, &mca_btl_tcp_component.tcp_disable_family); return mca_btl_tcp_component_verify(); } static int mca_btl_tcp_component_open(void) { if (OPAL_SUCCESS != mca_btl_tcp_component_verify()) { return OPAL_ERROR; } /* initialize state */ mca_btl_tcp_component.tcp_listen_sd = -1; #if OPAL_ENABLE_IPV6 mca_btl_tcp_component.tcp6_listen_sd = -1; #endif mca_btl_tcp_component.tcp_num_btls=0; mca_btl_tcp_component.tcp_addr_count = 0; mca_btl_tcp_component.tcp_btls=NULL; /* initialize objects */ OBJ_CONSTRUCT(&mca_btl_tcp_component.tcp_lock, opal_mutex_t); OBJ_CONSTRUCT(&mca_btl_tcp_component.tcp_procs, opal_proc_table_t); OBJ_CONSTRUCT(&mca_btl_tcp_component.tcp_frag_eager, opal_free_list_t); OBJ_CONSTRUCT(&mca_btl_tcp_component.tcp_frag_max, opal_free_list_t); OBJ_CONSTRUCT(&mca_btl_tcp_component.tcp_frag_user, opal_free_list_t); opal_proc_table_init(&mca_btl_tcp_component.tcp_procs, 16, 256); /* if_include and if_exclude need to be mutually exclusive */ if (OPAL_SUCCESS != mca_base_var_check_exclusive("ompi", mca_btl_tcp_component.super.btl_version.mca_type_name, mca_btl_tcp_component.super.btl_version.mca_component_name, "if_include", mca_btl_tcp_component.super.btl_version.mca_type_name, mca_btl_tcp_component.super.btl_version.mca_component_name, "if_exclude")) { /* Return ERR_NOT_AVAILABLE so that a warning message about "open" failing is not printed */ return OPAL_ERR_NOT_AVAILABLE; } return OPAL_SUCCESS; } /* * module cleanup - sanity checking of queue lengths */ static int mca_btl_tcp_component_close(void) { if (NULL != mca_btl_tcp_component.tcp_btls) free(mca_btl_tcp_component.tcp_btls); if (mca_btl_tcp_component.tcp_listen_sd >= 0) { opal_event_del(&mca_btl_tcp_component.tcp_recv_event); CLOSE_THE_SOCKET(mca_btl_tcp_component.tcp_listen_sd); mca_btl_tcp_component.tcp_listen_sd = -1; } #if OPAL_ENABLE_IPV6 if (mca_btl_tcp_component.tcp6_listen_sd >= 0) { opal_event_del(&mca_btl_tcp_component.tcp6_recv_event); CLOSE_THE_SOCKET(mca_btl_tcp_component.tcp6_listen_sd); mca_btl_tcp_component.tcp6_listen_sd = -1; } #endif /* release resources */ OBJ_DESTRUCT(&mca_btl_tcp_component.tcp_procs); OBJ_DESTRUCT(&mca_btl_tcp_component.tcp_frag_eager); OBJ_DESTRUCT(&mca_btl_tcp_component.tcp_frag_max); OBJ_DESTRUCT(&mca_btl_tcp_component.tcp_frag_user); OBJ_DESTRUCT(&mca_btl_tcp_component.tcp_lock); #if OPAL_CUDA_SUPPORT mca_common_cuda_fini(); #endif /* OPAL_CUDA_SUPPORT */ return OPAL_SUCCESS; } /* * Create a btl instance and add to modules list. */ static int mca_btl_tcp_create(int if_kindex, const char* if_name) { struct mca_btl_tcp_module_t* btl; char param[256]; int i; for( i = 0; i < (int)mca_btl_tcp_component.tcp_num_links; i++ ) { btl = (struct mca_btl_tcp_module_t *)malloc(sizeof(mca_btl_tcp_module_t)); if(NULL == btl) return OPAL_ERR_OUT_OF_RESOURCE; memcpy(btl, &mca_btl_tcp_module, sizeof(mca_btl_tcp_module)); OBJ_CONSTRUCT(&btl->tcp_endpoints, opal_list_t); mca_btl_tcp_component.tcp_btls[mca_btl_tcp_component.tcp_num_btls++] = btl; /* initialize the btl */ btl->tcp_ifkindex = (uint16_t) if_kindex; #if MCA_BTL_TCP_STATISTICS btl->tcp_bytes_recv = 0; btl->tcp_bytes_sent = 0; btl->tcp_send_handler = 0; #endif /* allow user to specify interface bandwidth */ sprintf(param, "bandwidth_%s", if_name); mca_btl_tcp_param_register_uint(param, NULL, btl->super.btl_bandwidth, OPAL_INFO_LVL_5, &btl->super.btl_bandwidth); /* allow user to override/specify latency ranking */ sprintf(param, "latency_%s", if_name); mca_btl_tcp_param_register_uint(param, NULL, btl->super.btl_latency, OPAL_INFO_LVL_5, &btl->super.btl_latency); if( i > 0 ) { btl->super.btl_bandwidth >>= 1; btl->super.btl_latency <<= 1; } /* allow user to specify interface bandwidth */ sprintf(param, "bandwidth_%s:%d", if_name, i); mca_btl_tcp_param_register_uint(param, NULL, btl->super.btl_bandwidth, OPAL_INFO_LVL_5, &btl->super.btl_bandwidth); /* allow user to override/specify latency ranking */ sprintf(param, "latency_%s:%d", if_name, i); mca_btl_tcp_param_register_uint(param, NULL, btl->super.btl_latency, OPAL_INFO_LVL_5, &btl->super.btl_latency); #if 0 && OPAL_ENABLE_DEBUG BTL_OUTPUT(("interface %s instance %i: bandwidth %d latency %d\n", if_name, i, btl->super.btl_bandwidth, btl->super.btl_latency)); #endif } return OPAL_SUCCESS; } /* * Go through a list of argv; if there are any subnet specifications * (a.b.c.d/e), resolve them to an interface name (Currently only * supporting IPv4). If unresolvable, warn and remove. */ static char **split_and_resolve(char **orig_str, char *name, bool reqd) { int i, ret, save, if_index; char **argv, *str, *tmp; char if_name[IF_NAMESIZE]; struct sockaddr_storage argv_inaddr, if_inaddr; uint32_t argv_prefix; /* Sanity check */ if (NULL == orig_str || NULL == *orig_str) { return NULL; } argv = opal_argv_split(*orig_str, ','); if (NULL == argv) { return NULL; } for (save = i = 0; NULL != argv[i]; ++i) { if (isalpha(argv[i][0])) { argv[save++] = argv[i]; continue; } /* Found a subnet notation. Convert it to an IP address/netmask. Get the prefix first. */ argv_prefix = 0; tmp = strdup(argv[i]); str = strchr(argv[i], '/'); if (NULL == str) { opal_show_help("help-mpi-btl-tcp.txt", "invalid if_inexclude", true, name, opal_process_info.nodename, tmp, "Invalid specification (missing \"/\")"); free(argv[i]); free(tmp); continue; } *str = '\0'; argv_prefix = atoi(str + 1); /* Now convert the IPv4 address */ ((struct sockaddr*) &argv_inaddr)->sa_family = AF_INET; ret = inet_pton(AF_INET, argv[i], &((struct sockaddr_in*) &argv_inaddr)->sin_addr); free(argv[i]); if (1 != ret) { opal_show_help("help-mpi-btl-tcp.txt", "invalid if_inexclude", true, name, opal_process_info.nodename, tmp, "Invalid specification (inet_pton() failed)"); free(tmp); continue; } opal_output_verbose(20, opal_btl_base_framework.framework_output, "btl: tcp: Searching for %s address+prefix: %s / %u", name, opal_net_get_hostname((struct sockaddr*) &argv_inaddr), argv_prefix); /* Go through all interfaces and see if we can find a match */ for (if_index = opal_ifbegin(); if_index >= 0; if_index = opal_ifnext(if_index)) { opal_ifindextoaddr(if_index, (struct sockaddr*) &if_inaddr, sizeof(if_inaddr)); if (opal_net_samenetwork((struct sockaddr*) &argv_inaddr, (struct sockaddr*) &if_inaddr, argv_prefix)) { break; } } /* If we didn't find a match, keep trying */ if (if_index < 0) { if (reqd || mca_btl_tcp_component.report_all_unfound_interfaces) { opal_show_help("help-mpi-btl-tcp.txt", "invalid if_inexclude", true, name, opal_process_info.nodename, tmp, "Did not find interface matching this subnet"); } free(tmp); continue; } /* We found a match; get the name and replace it in the argv */ opal_ifindextoname(if_index, if_name, sizeof(if_name)); opal_output_verbose(20, opal_btl_base_framework.framework_output, "btl: tcp: Found match: %s (%s)", opal_net_get_hostname((struct sockaddr*) &if_inaddr), if_name); argv[save++] = strdup(if_name); free(tmp); } /* The list may have been compressed if there were invalid entries, so ensure we end it with a NULL entry */ argv[save] = NULL; free(*orig_str); *orig_str = opal_argv_join(argv, ','); return argv; } /* * Create a TCP BTL instance for either: * (1) all interfaces specified by the user * (2) all available interfaces * (3) all available interfaces except for those excluded by the user */ static int mca_btl_tcp_component_create_instances(void) { const int if_count = opal_ifcount(); int if_index; int kif_count = 0; int *kindexes; /* this array is way too large, but never too small */ char **include = NULL; char **exclude = NULL; char **argv; int ret = OPAL_SUCCESS; if(if_count <= 0) { return OPAL_ERROR; } kindexes = (int *) malloc(sizeof(int) * if_count); if (NULL == kindexes) { return OPAL_ERR_OUT_OF_RESOURCE; } /* calculate the number of kernel indexes (number of IP interfaces) */ { int j; /* initialize array to 0. Assumption: 0 isn't a valid kernel index */ memset (kindexes, 0, sizeof(int) * if_count); /* assign the corresponding kernel indexes for all opal_list * indexes (loop over all addresses) */ for(if_index = opal_ifbegin(); if_index >= 0; if_index = opal_ifnext(if_index)){ int index = opal_ifindextokindex (if_index); if (index > 0) { bool want_this_if = true; /* Have we seen this if already? */ for (j = 0; want_this_if && (j < kif_count); j++) { if (kindexes[j] == index) { want_this_if = false; } } if (want_this_if) { kindexes[kif_count] = index; kif_count++; } } } } /* allocate memory for btls */ mca_btl_tcp_component.tcp_btls = (mca_btl_tcp_module_t**)malloc(mca_btl_tcp_component.tcp_num_links * kif_count * sizeof(mca_btl_tcp_module_t*)); if(NULL == mca_btl_tcp_component.tcp_btls) { ret = OPAL_ERR_OUT_OF_RESOURCE; goto cleanup; } mca_btl_tcp_component.tcp_addr_count = if_count; /* if the user specified an interface list - use these exclusively */ argv = include = split_and_resolve(&mca_btl_tcp_component.tcp_if_include, "include", true); while(argv && *argv) { char* if_name = *argv; int if_index = opal_ifnametokindex(if_name); if(if_index < 0) { BTL_ERROR(("invalid interface \"%s\"", if_name)); ret = OPAL_ERR_NOT_FOUND; goto cleanup; } mca_btl_tcp_create(if_index, if_name); argv++; } /* If we made any modules, then the "include" list was non-empty, and therefore we're done. */ if (mca_btl_tcp_component.tcp_num_btls > 0) { ret = OPAL_SUCCESS; goto cleanup; } /* if the interface list was not specified by the user, create * a BTL for each interface that was not excluded. */ exclude = split_and_resolve(&mca_btl_tcp_component.tcp_if_exclude, "exclude", false); { int i; for(i = 0; i < kif_count; i++) { /* IF_NAMESIZE is defined in opal/util/if.h */ char if_name[IF_NAMESIZE]; if_index = kindexes[i]; opal_ifkindextoname(if_index, if_name, sizeof(if_name)); /* check to see if this interface exists in the exclude list */ argv = exclude; while(argv && *argv) { if(strncmp(*argv,if_name,strlen(*argv)) == 0) break; argv++; } /* if this interface was not found in the excluded list, create a BTL */ if(argv == 0 || *argv == 0) { mca_btl_tcp_create(if_index, if_name); } } } cleanup: if (NULL != include) { opal_argv_free(include); } if (NULL != exclude) { opal_argv_free(exclude); } if (NULL != kindexes) { free(kindexes); } return ret; } /* * Create a listen socket and bind to all interfaces */ static int mca_btl_tcp_component_create_listen(uint16_t af_family) { int flags; int sd; struct sockaddr_storage inaddr; opal_socklen_t addrlen; /* create a listen socket for incoming connections */ sd = socket(af_family, SOCK_STREAM, 0); if(sd < 0) { if (EAFNOSUPPORT != opal_socket_errno) { BTL_ERROR(("socket() failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); } return OPAL_ERR_IN_ERRNO; } mca_btl_tcp_set_socket_options(sd); #if OPAL_ENABLE_IPV6 { struct addrinfo hints, *res = NULL; int error; memset (&hints, 0, sizeof(hints)); hints.ai_family = af_family; hints.ai_socktype = SOCK_STREAM; hints.ai_flags = AI_PASSIVE; if ((error = getaddrinfo(NULL, "0", &hints, &res))) { opal_output (0, "mca_btl_tcp_create_listen: unable to resolve. %s\n", gai_strerror (error)); CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } memcpy (&inaddr, res->ai_addr, res->ai_addrlen); addrlen = res->ai_addrlen; freeaddrinfo (res); #ifdef IPV6_V6ONLY /* in case of AF_INET6, disable v4-mapped addresses */ if (AF_INET6 == af_family) { int flg = 1; if (setsockopt (sd, IPPROTO_IPV6, IPV6_V6ONLY, (char *) &flg, sizeof (flg)) < 0) { opal_output(0, "mca_btl_tcp_create_listen: unable to disable v4-mapped addresses\n"); } } #endif /* IPV6_V6ONLY */ } #else ((struct sockaddr_in*) &inaddr)->sin_family = AF_INET; ((struct sockaddr_in*) &inaddr)->sin_addr.s_addr = INADDR_ANY; addrlen = sizeof(struct sockaddr_in); #endif { /* Don't reuse ports */ int flg = 0; if (setsockopt (sd, SOL_SOCKET, SO_REUSEADDR, (const char *)&flg, sizeof (flg)) < 0) { BTL_ERROR(("mca_btl_tcp_create_listen: unable to unset the " "SO_REUSEADDR option (%s:%d)\n", strerror(opal_socket_errno), opal_socket_errno)); CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } } { int index, range, port; #if OPAL_ENABLE_IPV6 if (AF_INET6 == af_family) { range = mca_btl_tcp_component.tcp6_port_range; port = mca_btl_tcp_component.tcp6_port_min; } else #endif /* OPAL_ENABLE_IPV6 */ { range = mca_btl_tcp_component.tcp_port_range; port = mca_btl_tcp_component.tcp_port_min; } for( index = 0; index < range; index++ ) { #if OPAL_ENABLE_IPV6 ((struct sockaddr_in6*) &inaddr)->sin6_port = htons(port + index); #else ((struct sockaddr_in*) &inaddr)->sin_port = htons(port + index); #endif /* OPAL_ENABLE_IPV6 */ if(bind(sd, (struct sockaddr*)&inaddr, addrlen) < 0) { if( (EADDRINUSE == opal_socket_errno) || (EADDRNOTAVAIL == opal_socket_errno) ) { continue; } BTL_ERROR(("bind() failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } goto socket_binded; } #if OPAL_ENABLE_IPV6 if (AF_INET6 == af_family) { BTL_ERROR(("bind6() failed: no port available in the range [%d..%d]", mca_btl_tcp_component.tcp6_port_min, mca_btl_tcp_component.tcp6_port_min + range)); } else #endif /* OPAL_ENABLE_IPV6 */ { BTL_ERROR(("bind() failed: no port available in the range [%d..%d]", mca_btl_tcp_component.tcp_port_min, mca_btl_tcp_component.tcp_port_min + range)); } CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } socket_binded: /* resolve system assignend port */ if(getsockname(sd, (struct sockaddr*)&inaddr, &addrlen) < 0) { BTL_ERROR(("getsockname() failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } #if OPAL_ENABLE_IPV6 if (AF_INET6 == af_family) { mca_btl_tcp_component.tcp6_listen_port = ((struct sockaddr_in6*) &inaddr)->sin6_port; mca_btl_tcp_component.tcp6_listen_sd = sd; } else #endif { mca_btl_tcp_component.tcp_listen_port = ((struct sockaddr_in*) &inaddr)->sin_port; mca_btl_tcp_component.tcp_listen_sd = sd; } /* setup listen backlog to maximum allowed by kernel */ if(listen(sd, SOMAXCONN) < 0) { BTL_ERROR(("listen() failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } /* set socket up to be non-blocking, otherwise accept could block */ if((flags = fcntl(sd, F_GETFL, 0)) < 0) { BTL_ERROR(("fcntl(F_GETFL) failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } else { flags |= O_NONBLOCK; if(fcntl(sd, F_SETFL, flags) < 0) { BTL_ERROR(("fcntl(F_SETFL) failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); CLOSE_THE_SOCKET(sd); return OPAL_ERROR; } } /* register listen port */ #if OPAL_ENABLE_IPV6 if (AF_INET6 == af_family) { opal_event_set(opal_event_base, &mca_btl_tcp_component.tcp6_recv_event, mca_btl_tcp_component.tcp6_listen_sd, OPAL_EV_READ|OPAL_EV_PERSIST, mca_btl_tcp_component_accept_handler, 0 ); opal_event_add(&mca_btl_tcp_component.tcp6_recv_event, 0); } else #endif { opal_event_set(opal_event_base, &mca_btl_tcp_component.tcp_recv_event, mca_btl_tcp_component.tcp_listen_sd, OPAL_EV_READ|OPAL_EV_PERSIST, mca_btl_tcp_component_accept_handler, 0 ); opal_event_add(&mca_btl_tcp_component.tcp_recv_event, 0); } return OPAL_SUCCESS; } /* * Register TCP module addressing information. The MCA framework * will make this available to all peers. */ static int mca_btl_tcp_component_exchange(void) { int rc = 0, index; size_t i = 0; size_t size = mca_btl_tcp_component.tcp_addr_count * mca_btl_tcp_component.tcp_num_links * sizeof(mca_btl_tcp_addr_t); /* adi@2007-04-12: * * We'll need to explain things a bit here: * 1. We normally have as many BTLs as physical NICs. * 2. With num_links, we now have num_btl = num_links * #NICs * 3. we might have more than one address per NIC */ size_t xfer_size = 0; /* real size to transfer (may differ from 'size') */ size_t current_addr = 0; if(mca_btl_tcp_component.tcp_num_btls != 0) { mca_btl_tcp_addr_t *addrs = (mca_btl_tcp_addr_t *)malloc(size); memset(addrs, 0, size); /* here we start populating our addresses */ for( i = 0; i < mca_btl_tcp_component.tcp_num_btls; i++ ) { for (index = opal_ifbegin(); index >= 0; index = opal_ifnext(index)) { struct sockaddr_storage my_ss; /* Look if the module's address belongs to this * kernel IP interface. If not, go to next address. */ if (opal_ifindextokindex (index) != mca_btl_tcp_component.tcp_btls[i]->tcp_ifkindex) { continue; } if (OPAL_SUCCESS != opal_ifindextoaddr(index, (struct sockaddr*) &my_ss, sizeof (my_ss))) { opal_output (0, "btl_tcp_component: problems getting address for index %i (kernel index %i)\n", index, opal_ifindextokindex (index)); continue; } #if OPAL_ENABLE_IPV6 if ((AF_INET6 == my_ss.ss_family) && (6 != mca_btl_tcp_component.tcp_disable_family)) { memcpy(&addrs[current_addr].addr_inet, &((struct sockaddr_in6*)&my_ss)->sin6_addr, sizeof(addrs[0].addr_inet)); addrs[current_addr].addr_port = mca_btl_tcp_component.tcp6_listen_port; addrs[current_addr].addr_family = MCA_BTL_TCP_AF_INET6; xfer_size += sizeof (mca_btl_tcp_addr_t); addrs[current_addr].addr_inuse = 0; addrs[current_addr].addr_ifkindex = opal_ifindextokindex (index); current_addr++; } else #endif if ((AF_INET == my_ss.ss_family) && (4 != mca_btl_tcp_component.tcp_disable_family)) { memcpy(&addrs[current_addr].addr_inet, &((struct sockaddr_in*)&my_ss)->sin_addr, sizeof(addrs[0].addr_inet)); addrs[current_addr].addr_port = mca_btl_tcp_component.tcp_listen_port; addrs[current_addr].addr_family = MCA_BTL_TCP_AF_INET; xfer_size += sizeof (mca_btl_tcp_addr_t); addrs[current_addr].addr_inuse = 0; addrs[current_addr].addr_ifkindex = opal_ifindextokindex (index); current_addr++; } } /* end of for opal_ifbegin() */ } /* end of for tcp_num_btls */ OPAL_MODEX_SEND(rc, PMIX_SYNC_REQD, PMIX_GLOBAL, &mca_btl_tcp_component.super.btl_version, addrs, xfer_size); free(addrs); } /* end if */ return rc; } /* * TCP module initialization: * (1) read interface list from kernel and compare against module parameters * then create a BTL instance for selected interfaces * (2) setup TCP listen socket for incoming connection attempts * (3) register BTL parameters with the MCA */ mca_btl_base_module_t** mca_btl_tcp_component_init(int *num_btl_modules, bool enable_progress_threads, bool enable_mpi_threads) { int ret = OPAL_SUCCESS; mca_btl_base_module_t **btls; *num_btl_modules = 0; /* initialize free lists */ opal_free_list_init( &mca_btl_tcp_component.tcp_frag_eager, sizeof (mca_btl_tcp_frag_eager_t) + mca_btl_tcp_module.super.btl_eager_limit, opal_cache_line_size, OBJ_CLASS (mca_btl_tcp_frag_eager_t), 0,opal_cache_line_size, mca_btl_tcp_component.tcp_free_list_num, mca_btl_tcp_component.tcp_free_list_max, mca_btl_tcp_component.tcp_free_list_inc, NULL, 0, NULL, NULL, NULL ); opal_free_list_init( &mca_btl_tcp_component.tcp_frag_max, sizeof (mca_btl_tcp_frag_max_t) + mca_btl_tcp_module.super.btl_max_send_size, opal_cache_line_size, OBJ_CLASS (mca_btl_tcp_frag_max_t), 0,opal_cache_line_size, mca_btl_tcp_component.tcp_free_list_num, mca_btl_tcp_component.tcp_free_list_max, mca_btl_tcp_component.tcp_free_list_inc, NULL, 0, NULL, NULL, NULL ); opal_free_list_init( &mca_btl_tcp_component.tcp_frag_user, sizeof (mca_btl_tcp_frag_user_t), opal_cache_line_size, OBJ_CLASS (mca_btl_tcp_frag_user_t), 0,opal_cache_line_size, mca_btl_tcp_component.tcp_free_list_num, mca_btl_tcp_component.tcp_free_list_max, mca_btl_tcp_component.tcp_free_list_inc, NULL, 0, NULL, NULL, NULL ); /* create a BTL TCP module for selected interfaces */ if(OPAL_SUCCESS != (ret = mca_btl_tcp_component_create_instances() )) { return 0; } /* create a TCP listen socket for incoming connection attempts */ if(OPAL_SUCCESS != (ret = mca_btl_tcp_component_create_listen(AF_INET) )) { return 0; } #if OPAL_ENABLE_IPV6 if((ret = mca_btl_tcp_component_create_listen(AF_INET6)) != OPAL_SUCCESS) { if (!(OPAL_ERR_IN_ERRNO == ret && EAFNOSUPPORT == opal_socket_errno)) { opal_output (0, "mca_btl_tcp_component: IPv6 listening socket failed\n"); return 0; } } #endif /* publish TCP parameters with the MCA framework */ if(OPAL_SUCCESS != (ret = mca_btl_tcp_component_exchange() )) { return 0; } btls = (mca_btl_base_module_t **)malloc(mca_btl_tcp_component.tcp_num_btls * sizeof(mca_btl_base_module_t*)); if(NULL == btls) { return NULL; } #if OPAL_CUDA_SUPPORT mca_common_cuda_stage_one_init(); #endif /* OPAL_CUDA_SUPPORT */ memcpy(btls, mca_btl_tcp_component.tcp_btls, mca_btl_tcp_component.tcp_num_btls*sizeof(mca_btl_tcp_module_t*)); *num_btl_modules = mca_btl_tcp_component.tcp_num_btls; return btls; } /** * Called by the event engine when the listening socket has * a connection event. Accept the incoming connection request * and queue them for completion of the connection handshake. */ static void mca_btl_tcp_component_accept_handler( int incoming_sd, short ignored, void* unused ) { while(true) { #if OPAL_ENABLE_IPV6 struct sockaddr_in6 addr; #else struct sockaddr_in addr; #endif opal_socklen_t addrlen = sizeof(addr); mca_btl_tcp_event_t *event; int sd = accept(incoming_sd, (struct sockaddr*)&addr, &addrlen); if(sd < 0) { if(opal_socket_errno == EINTR) continue; if (opal_socket_errno != EAGAIN && opal_socket_errno != EWOULDBLOCK) { opal_show_help("help-mpi-btl-tcp.txt", "accept failed", true, opal_process_info.nodename, getpid(), opal_socket_errno, strerror(opal_socket_errno)); } return; } mca_btl_tcp_set_socket_options(sd); /* wait for receipt of peers process identifier to complete this connection */ event = OBJ_NEW(mca_btl_tcp_event_t); opal_event_set(opal_event_base, &event->event, sd, OPAL_EV_READ, mca_btl_tcp_component_recv_handler, event); opal_event_add(&event->event, 0); } } /** * Event callback when there is data available on the registered * socket to recv. This callback is triggered only once per lifetime * for any socket, in the beginning when we setup the handshake * protocol. */ static void mca_btl_tcp_component_recv_handler(int sd, short flags, void* user) { opal_process_name_t guid; struct sockaddr_storage addr; int retval; mca_btl_tcp_proc_t* btl_proc; opal_socklen_t addr_len = sizeof(addr); mca_btl_tcp_event_t *event = (mca_btl_tcp_event_t *)user; OBJ_RELEASE(event); /* recv the process identifier */ retval = recv(sd, (char *)&guid, sizeof(guid), 0); if(retval != sizeof(guid)) { CLOSE_THE_SOCKET(sd); return; } OPAL_PROCESS_NAME_NTOH(guid); /* now set socket up to be non-blocking */ if((flags = fcntl(sd, F_GETFL, 0)) < 0) { BTL_ERROR(("fcntl(F_GETFL) failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); } else { flags |= O_NONBLOCK; if(fcntl(sd, F_SETFL, flags) < 0) { BTL_ERROR(("fcntl(F_SETFL) failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); } } /* lookup the corresponding process */ btl_proc = mca_btl_tcp_proc_lookup(&guid); if(NULL == btl_proc) { CLOSE_THE_SOCKET(sd); return; } /* lookup peer address */ if(getpeername(sd, (struct sockaddr*)&addr, &addr_len) != 0) { BTL_ERROR(("getpeername() failed: %s (%d)", strerror(opal_socket_errno), opal_socket_errno)); CLOSE_THE_SOCKET(sd); return; } /* are there any existing peer instances will to accept this connection */ (void)mca_btl_tcp_proc_accept(btl_proc, (struct sockaddr*)&addr, sd); }