/* * Copyright (c) 2004-2008 Voltaire, Inc. All rights reserved. * Copyright (c) 2002-2005 Mellanox Technologies LTD. All rights reserved. * Copyright (c) 1996-2003 Intel Corporation. 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. * */ /* * Abstract: * Implementation of osm_lr_rcv_t. * This object represents the LinkRecord Receiver object. * This object is part of the opensm family of objects. */ #if HAVE_CONFIG_H # include #endif /* HAVE_CONFIG_H */ #include #include #include #include #include #include #include #include #include #include typedef struct osm_lr_item { cl_list_item_t list_item; ib_link_record_t link_rec; } osm_lr_item_t; /********************************************************************** **********************************************************************/ static void __osm_lr_rcv_build_physp_link(IN osm_sa_t * sa, IN const ib_net16_t from_lid, IN const ib_net16_t to_lid, IN const uint8_t from_port, IN const uint8_t to_port, IN cl_qlist_t * p_list) { osm_lr_item_t *p_lr_item; p_lr_item = malloc(sizeof(*p_lr_item)); if (p_lr_item == NULL) { OSM_LOG(sa->p_log, OSM_LOG_ERROR, "ERR 1801: " "Unable to acquire link record\n" "\t\t\t\tFrom port %u\n" "\t\t\t\tTo port %u\n" "\t\t\t\tFrom lid %u\n" "\t\t\t\tTo lid %u\n", from_port, to_port, cl_ntoh16(from_lid), cl_ntoh16(to_lid)); return; } memset(p_lr_item, 0, sizeof(*p_lr_item)); p_lr_item->link_rec.from_port_num = from_port; p_lr_item->link_rec.to_port_num = to_port; p_lr_item->link_rec.to_lid = to_lid; p_lr_item->link_rec.from_lid = from_lid; cl_qlist_insert_tail(p_list, &p_lr_item->list_item); } /********************************************************************** **********************************************************************/ static void __get_base_lid(IN const osm_physp_t * p_physp, OUT ib_net16_t * p_base_lid) { if (p_physp->p_node->node_info.node_type == IB_NODE_TYPE_SWITCH) *p_base_lid = osm_physp_get_base_lid (osm_node_get_physp_ptr(p_physp->p_node, 0)); else *p_base_lid = osm_physp_get_base_lid(p_physp); } /********************************************************************** **********************************************************************/ static void __osm_lr_rcv_get_physp_link(IN osm_sa_t * sa, IN const ib_link_record_t * const p_lr, IN const osm_physp_t * p_src_physp, IN const osm_physp_t * p_dest_physp, IN const ib_net64_t comp_mask, IN cl_qlist_t * const p_list, IN const osm_physp_t * p_req_physp) { uint8_t src_port_num; uint8_t dest_port_num; ib_net16_t from_base_lid; ib_net16_t to_base_lid; ib_net16_t lmc_mask; OSM_LOG_ENTER(sa->p_log); /* If only one end of the link is specified, determine the other side. */ if (p_src_physp) { if (p_dest_physp) { /* Ensure the two physp's are actually connected. If not, bail out. */ if (osm_physp_get_remote(p_src_physp) != p_dest_physp) goto Exit; } else { p_dest_physp = osm_physp_get_remote(p_src_physp); if (p_dest_physp == NULL) goto Exit; } } else { if (p_dest_physp) { p_src_physp = osm_physp_get_remote(p_dest_physp); if (p_src_physp == NULL) goto Exit; } else goto Exit; /* no physp's, so nothing to do */ } /* Check that the p_src_physp, p_dest_physp and p_req_physp all share a pkey (doesn't have to be the same p_key). */ if (!osm_physp_share_pkey(sa->p_log, p_src_physp, p_dest_physp)) { OSM_LOG(sa->p_log, OSM_LOG_DEBUG, "Source and Dest PhysPorts do not share PKey\n"); goto Exit; } if (!osm_physp_share_pkey(sa->p_log, p_src_physp, p_req_physp)) { OSM_LOG(sa->p_log, OSM_LOG_DEBUG, "Source and Requester PhysPorts do not share PKey\n"); goto Exit; } if (!osm_physp_share_pkey(sa->p_log, p_req_physp, p_dest_physp)) { OSM_LOG(sa->p_log, OSM_LOG_DEBUG, "Requester and Dest PhysPorts do not share PKey\n"); goto Exit; } src_port_num = osm_physp_get_port_num(p_src_physp); dest_port_num = osm_physp_get_port_num(p_dest_physp); if (comp_mask & IB_LR_COMPMASK_FROM_PORT) if (src_port_num != p_lr->from_port_num) goto Exit; if (comp_mask & IB_LR_COMPMASK_TO_PORT) if (dest_port_num != p_lr->to_port_num) goto Exit; __get_base_lid(p_src_physp, &from_base_lid); __get_base_lid(p_dest_physp, &to_base_lid); lmc_mask = ~((1 << sa->p_subn->opt.lmc) - 1); lmc_mask = cl_hton16(lmc_mask); if (comp_mask & IB_LR_COMPMASK_FROM_LID) if (from_base_lid != (p_lr->from_lid & lmc_mask)) goto Exit; if (comp_mask & IB_LR_COMPMASK_TO_LID) if (to_base_lid != (p_lr->to_lid & lmc_mask)) goto Exit; OSM_LOG(sa->p_log, OSM_LOG_DEBUG, "Acquiring link record\n" "\t\t\t\tsrc port 0x%" PRIx64 " (port %u)" ", dest port 0x%" PRIx64 " (port %u)\n", cl_ntoh64(osm_physp_get_port_guid(p_src_physp)), src_port_num, cl_ntoh64(osm_physp_get_port_guid(p_dest_physp)), dest_port_num); __osm_lr_rcv_build_physp_link(sa, from_base_lid, to_base_lid, src_port_num, dest_port_num, p_list); Exit: OSM_LOG_EXIT(sa->p_log); } /********************************************************************** **********************************************************************/ static void __osm_lr_rcv_get_port_links(IN osm_sa_t * sa, IN const ib_link_record_t * const p_lr, IN const osm_port_t * p_src_port, IN const osm_port_t * p_dest_port, IN const ib_net64_t comp_mask, IN cl_qlist_t * const p_list, IN const osm_physp_t * p_req_physp) { const osm_physp_t *p_src_physp; const osm_physp_t *p_dest_physp; const cl_qmap_t *p_node_tbl; osm_node_t * p_node; uint8_t port_num; uint8_t num_ports; uint8_t dest_num_ports; uint8_t dest_port_num; OSM_LOG_ENTER(sa->p_log); if (p_src_port) { if (p_dest_port) { /* Build an LR for every link connected between both ports. The inner function will discard physp combinations that do not actually connect. Don't bother screening for that here. */ num_ports = osm_node_get_num_physp(p_src_port->p_node); dest_num_ports = osm_node_get_num_physp(p_dest_port->p_node); for (port_num = 1; port_num < num_ports; port_num++) { p_src_physp = osm_node_get_physp_ptr(p_src_port->p_node, port_num); for (dest_port_num = 1; dest_port_num < dest_num_ports; dest_port_num++) { p_dest_physp = osm_node_get_physp_ptr(p_dest_port-> p_node, dest_port_num); /* both physical ports should be with data */ if (p_src_physp && p_dest_physp) __osm_lr_rcv_get_physp_link (sa, p_lr, p_src_physp, p_dest_physp, comp_mask, p_list, p_req_physp); } } } else { /* Build an LR for every link connected from the source port. */ if (comp_mask & IB_LR_COMPMASK_FROM_PORT) { port_num = p_lr->from_port_num; /* If the port number is out of the range of the p_src_port, then this couldn't be a relevant record. */ if (port_num < p_src_port->p_node->physp_tbl_size) { p_src_physp = osm_node_get_physp_ptr(p_src_port-> p_node, port_num); if (p_src_physp) __osm_lr_rcv_get_physp_link (sa, p_lr, p_src_physp, NULL, comp_mask, p_list, p_req_physp); } } else { num_ports = osm_node_get_num_physp(p_src_port->p_node); for (port_num = 1; port_num < num_ports; port_num++) { p_src_physp = osm_node_get_physp_ptr(p_src_port-> p_node, port_num); if (p_src_physp) __osm_lr_rcv_get_physp_link (sa, p_lr, p_src_physp, NULL, comp_mask, p_list, p_req_physp); } } } } else { if (p_dest_port) { /* Build an LR for every link connected to the dest port. */ if (comp_mask & IB_LR_COMPMASK_TO_PORT) { port_num = p_lr->to_port_num; /* If the port number is out of the range of the p_dest_port, then this couldn't be a relevant record. */ if (port_num < p_dest_port->p_node->physp_tbl_size) { p_dest_physp = osm_node_get_physp_ptr(p_dest_port-> p_node, port_num); if (p_dest_physp) __osm_lr_rcv_get_physp_link (sa, p_lr, NULL, p_dest_physp, comp_mask, p_list, p_req_physp); } } else { num_ports = osm_node_get_num_physp(p_dest_port->p_node); for (port_num = 1; port_num < num_ports; port_num++) { p_dest_physp = osm_node_get_physp_ptr(p_dest_port-> p_node, port_num); if (p_dest_physp) __osm_lr_rcv_get_physp_link (sa, p_lr, NULL, p_dest_physp, comp_mask, p_list, p_req_physp); } } } else { /* Process the world (recurse once back into this function). */ p_node_tbl = &sa->p_subn->node_guid_tbl; p_node = (osm_node_t *)cl_qmap_head(p_node_tbl); while (p_node != (osm_node_t *)cl_qmap_end(p_node_tbl)) { num_ports = osm_node_get_num_physp(p_node); for (port_num = 1; port_num < num_ports; port_num++) { p_src_physp = osm_node_get_physp_ptr(p_node, port_num); if (p_src_physp) __osm_lr_rcv_get_physp_link (sa, p_lr, p_src_physp, NULL, comp_mask, p_list, p_req_physp); } p_node = (osm_node_t *) cl_qmap_next(&p_node-> map_item); } } } OSM_LOG_EXIT(sa->p_log); } /********************************************************************** Returns the SA status to return to the client. **********************************************************************/ static ib_net16_t __osm_lr_rcv_get_end_points(IN osm_sa_t * sa, IN const osm_madw_t * const p_madw, OUT const osm_port_t ** const pp_src_port, OUT const osm_port_t ** const pp_dest_port) { const ib_link_record_t *p_lr; const ib_sa_mad_t *p_sa_mad; ib_net64_t comp_mask; ib_api_status_t status; ib_net16_t sa_status = IB_SA_MAD_STATUS_SUCCESS; OSM_LOG_ENTER(sa->p_log); /* Determine what fields are valid and then get a pointer to the source and destination port objects, if possible. */ p_sa_mad = osm_madw_get_sa_mad_ptr(p_madw); p_lr = (ib_link_record_t *) ib_sa_mad_get_payload_ptr(p_sa_mad); comp_mask = p_sa_mad->comp_mask; *pp_src_port = NULL; *pp_dest_port = NULL; if (p_sa_mad->comp_mask & IB_LR_COMPMASK_FROM_LID) { status = osm_get_port_by_base_lid(sa->p_subn, p_lr->from_lid, pp_src_port); if ((status != IB_SUCCESS) || (*pp_src_port == NULL)) { /* This 'error' is the client's fault (bad lid) so don't enter it as an error in our own log. Return an error response to the client. */ OSM_LOG(sa->p_log, OSM_LOG_VERBOSE, "No source port with LID %u\n", cl_ntoh16(p_lr->from_lid)); sa_status = IB_SA_MAD_STATUS_NO_RECORDS; goto Exit; } } if (p_sa_mad->comp_mask & IB_LR_COMPMASK_TO_LID) { status = osm_get_port_by_base_lid(sa->p_subn, p_lr->to_lid, pp_dest_port); if ((status != IB_SUCCESS) || (*pp_dest_port == NULL)) { /* This 'error' is the client's fault (bad lid) so don't enter it as an error in our own log. Return an error response to the client. */ OSM_LOG(sa->p_log, OSM_LOG_VERBOSE, "No dest port with LID %u\n", cl_ntoh16(p_lr->to_lid)); sa_status = IB_SA_MAD_STATUS_NO_RECORDS; goto Exit; } } Exit: OSM_LOG_EXIT(sa->p_log); return (sa_status); } /********************************************************************** **********************************************************************/ void osm_lr_rcv_process(IN void *context, IN void *data) { osm_sa_t *sa = context; osm_madw_t *p_madw = data; const ib_link_record_t *p_lr; const ib_sa_mad_t *p_sa_mad; const osm_port_t *p_src_port; const osm_port_t *p_dest_port; cl_qlist_t lr_list; ib_net16_t sa_status; osm_physp_t *p_req_physp; OSM_LOG_ENTER(sa->p_log); CL_ASSERT(p_madw); p_sa_mad = osm_madw_get_sa_mad_ptr(p_madw); p_lr = (ib_link_record_t *) ib_sa_mad_get_payload_ptr(p_sa_mad); CL_ASSERT(p_sa_mad->attr_id == IB_MAD_ATTR_LINK_RECORD); /* we only support SubnAdmGet and SubnAdmGetTable methods */ if (p_sa_mad->method != IB_MAD_METHOD_GET && p_sa_mad->method != IB_MAD_METHOD_GETTABLE) { OSM_LOG(sa->p_log, OSM_LOG_ERROR, "ERR 1804: " "Unsupported Method (%s)\n", ib_get_sa_method_str(p_sa_mad->method)); osm_sa_send_error(sa, p_madw, IB_MAD_STATUS_UNSUP_METHOD_ATTR); goto Exit; } /* update the requester physical port. */ p_req_physp = osm_get_physp_by_mad_addr(sa->p_log, sa->p_subn, osm_madw_get_mad_addr_ptr (p_madw)); if (p_req_physp == NULL) { OSM_LOG(sa->p_log, OSM_LOG_ERROR, "ERR 1805: " "Cannot find requester physical port\n"); goto Exit; } if (osm_log_is_active(sa->p_log, OSM_LOG_DEBUG)) osm_dump_link_record(sa->p_log, p_lr, OSM_LOG_DEBUG); cl_qlist_init(&lr_list); /* Most SA functions (including this one) are read-only on the subnet object, so we grab the lock non-exclusively. */ cl_plock_acquire(sa->p_lock); sa_status = __osm_lr_rcv_get_end_points(sa, p_madw, &p_src_port, &p_dest_port); if (sa_status == IB_SA_MAD_STATUS_SUCCESS) __osm_lr_rcv_get_port_links(sa, p_lr, p_src_port, p_dest_port, p_sa_mad->comp_mask, &lr_list, p_req_physp); cl_plock_release(sa->p_lock); osm_sa_respond(sa, p_madw, sizeof(ib_link_record_t), &lr_list); Exit: OSM_LOG_EXIT(sa->p_log); }