/* * 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. * */ #if HAVE_CONFIG_H # include #endif /* HAVE_CONFIG_H */ #include #include #if defined(OSM_VENDOR_INTF_MTL) | defined(OSM_VENDOR_INTF_TS) #undef IN #undef OUT #include #include #include #include #include #include /******************************************************************************** * * Provide the functionality for selecting an HCA Port and Obtaining it's guid. * ********************************************************************************/ typedef struct _osm_ca_info { ib_net64_t guid; size_t attr_size; ib_ca_attr_t *p_attr; } osm_ca_info_t; /********************************************************************** * Convert the given GID to GUID by copy of it's upper 8 bytes **********************************************************************/ ib_api_status_t __osm_vendor_gid_to_guid(IN u_int8_t * gid, OUT VAPI_gid_t * guid) { memcpy(guid, gid + 8, 8); return (IB_SUCCESS); } /********************************************************************** * Returns a pointer to the port attribute of the specified port * owned by this CA. ************************************************************************/ static ib_port_attr_t *__osm_ca_info_get_port_attr_ptr(IN const osm_ca_info_t * const p_ca_info, IN const uint8_t index) { return (&p_ca_info->p_attr->p_port_attr[index]); } /******************************************************************************** * get the CA names available on the system * NOTE: user of this function needs to deallocate p_hca_ids after usage. ********************************************************************************/ static ib_api_status_t __osm_vendor_get_ca_ids(IN osm_vendor_t * const p_vend, IN VAPI_hca_id_t ** const p_hca_ids, IN uint32_t * const p_num_guids) { ib_api_status_t status; VAPI_ret_t vapi_res; OSM_LOG_ENTER(p_vend->p_log); CL_ASSERT(p_hca_ids); CL_ASSERT(p_num_guids); /* first call is just to get the number */ vapi_res = EVAPI_list_hcas(0, p_num_guids, NULL); /* fail ? */ if (vapi_res == VAPI_EINVAL_PARAM) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_vendor_get_ca_ids: ERR 3D08: : " "Bad parameter in calling: EVAPI_list_hcas. (%d)\n", vapi_res); status = IB_ERROR; goto Exit; } /* NO HCA ? */ if (*p_num_guids == 0) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_vendor_get_ca_ids: ERR 3D09: " "No available channel adapters.\n"); status = IB_INSUFFICIENT_RESOURCES; goto Exit; } /* allocate and really call - user of this function needs to deallocate it */ *p_hca_ids = (VAPI_hca_id_t *) malloc(*p_num_guids * sizeof(VAPI_hca_id_t)); /* now call it really */ vapi_res = EVAPI_list_hcas(*p_num_guids, p_num_guids, *p_hca_ids); /* too many ? */ if (vapi_res == VAPI_EAGAIN) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_vendor_get_ca_ids: ERR 3D10: " "More CA GUIDs than allocated array (%d).\n", *p_num_guids); status = IB_ERROR; goto Exit; } /* fail ? */ if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_vendor_get_ca_ids: ERR 3D11: : " "Bad parameter in calling: EVAPI_list_hcas.\n"); status = IB_ERROR; goto Exit; } if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) { osm_log(p_vend->p_log, OSM_LOG_DEBUG, "__osm_vendor_get_ca_ids: " "Detected %u local channel adapters.\n", *p_num_guids); } status = IB_SUCCESS; Exit: OSM_LOG_EXIT(p_vend->p_log); return (status); } /********************************************************************** * Initialize an Info Struct for the Given HCA by its Id **********************************************************************/ static ib_api_status_t __osm_ca_info_init(IN osm_vendor_t * const p_vend, IN VAPI_hca_id_t ca_id, OUT osm_ca_info_t * const p_ca_info) { ib_api_status_t status = IB_ERROR; VAPI_ret_t vapi_res; VAPI_hca_hndl_t hca_hndl; VAPI_hca_vendor_t hca_vendor; VAPI_hca_cap_t hca_cap; VAPI_hca_port_t hca_port; uint8_t port_num; IB_gid_t *p_port_gid; uint16_t maxNumGids; OSM_LOG_ENTER(p_vend->p_log); /* get the HCA handle */ vapi_res = EVAPI_get_hca_hndl(ca_id, &hca_hndl); if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_ca_info_init: ERR 3D05: " "Fail to get HCA handle (%u).\n", vapi_res); goto Exit; } if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) { osm_log(p_vend->p_log, OSM_LOG_DEBUG, "__osm_ca_info_init: " "Querying CA %s.\n", ca_id); } /* query and get the HCA capability */ vapi_res = VAPI_query_hca_cap(hca_hndl, &hca_vendor, &hca_cap); if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_ca_info_init: ERR 3D06: " "Fail to get HCA Capabilities (%u).\n", vapi_res); goto Exit; } /* get the guid of the HCA */ memcpy(&(p_ca_info->guid), hca_cap.node_guid, 8 * sizeof(u_int8_t)); p_ca_info->attr_size = 1; p_ca_info->p_attr = (ib_ca_attr_t *) malloc(sizeof(ib_ca_attr_t)); memcpy(&(p_ca_info->p_attr->ca_guid), hca_cap.node_guid, 8 * sizeof(u_int8_t)); /* now obtain the attributes of the ports */ p_ca_info->p_attr->num_ports = hca_cap.phys_port_num; p_ca_info->p_attr->p_port_attr = (ib_port_attr_t *) malloc(hca_cap.phys_port_num * sizeof(ib_port_attr_t)); for (port_num = 0; port_num < p_ca_info->p_attr->num_ports; port_num++) { /* query the port attributes */ vapi_res = VAPI_query_hca_port_prop(hca_hndl, port_num + 1, &hca_port); if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_ca_info_init: ERR 3D07: " "Fail to get HCA Port Attributes (%d).\n", vapi_res); goto Exit; } /* first call to know the size of the gid table */ vapi_res = VAPI_query_hca_gid_tbl(hca_hndl, port_num + 1, 0, &maxNumGids, NULL); p_port_gid = (IB_gid_t *) malloc(maxNumGids * sizeof(IB_gid_t)); vapi_res = VAPI_query_hca_gid_tbl(hca_hndl, port_num + 1, maxNumGids, &maxNumGids, p_port_gid); if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "__osm_ca_info_init: ERR 3D12: " "Fail to get HCA Port GID (%d).\n", vapi_res); goto Exit; } __osm_vendor_gid_to_guid(p_port_gid[0], (IB_gid_t *) & p_ca_info->p_attr-> p_port_attr[port_num].port_guid); p_ca_info->p_attr->p_port_attr[port_num].lid = hca_port.lid; p_ca_info->p_attr->p_port_attr[port_num].link_state = hca_port.state; p_ca_info->p_attr->p_port_attr[port_num].sm_lid = hca_port.sm_lid; free(p_port_gid); } status = IB_SUCCESS; Exit: OSM_LOG_EXIT(p_vend->p_log); return (status); } void osm_ca_info_destroy(IN osm_vendor_t * const p_vend, IN osm_ca_info_t * const p_ca_info, IN uint8_t num_ca) { osm_ca_info_t *p_ca; uint8_t i; OSM_LOG_ENTER(p_vend->p_log); for (i = 0; i < num_ca; i++) { p_ca = &p_ca_info[i]; if (NULL != p_ca->p_attr) { if (0 != p_ca->p_attr->num_ports) { free(p_ca->p_attr->p_port_attr); } free(p_ca->p_attr); } } free(p_ca_info); OSM_LOG_EXIT(p_vend->p_log); } /********************************************************************** * Fill in the array of port_attr with all available ports on ALL the * avilable CAs on this machine. * ALSO - * Update the vendor object list of ca_info structs **********************************************************************/ ib_api_status_t osm_vendor_get_all_port_attr(IN osm_vendor_t * const p_vend, IN ib_port_attr_t * const p_attr_array, IN uint32_t * const p_num_ports) { ib_api_status_t status; uint32_t ca; uint32_t ca_count = 0; uint32_t port_count = 0; uint8_t port_num; uint32_t total_ports = 0; VAPI_hca_id_t *p_ca_ids = NULL; osm_ca_info_t *p_ca_infos = NULL; uint32_t attr_array_sz = *p_num_ports; OSM_LOG_ENTER(p_vend->p_log); CL_ASSERT(p_vend); /* determine the number of CA's */ status = __osm_vendor_get_ca_ids(p_vend, &p_ca_ids, &ca_count); if (status != IB_SUCCESS) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_all_port_attr: ERR 3D13: " "Fail to get CA Ids.\n"); goto Exit; } /* Allocate an array big enough to hold the ca info objects */ p_ca_infos = malloc(ca_count * sizeof(osm_ca_info_t)); if (p_ca_infos == NULL) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_all_port_attr: ERR 3D14: " "Unable to allocate CA information array.\n"); goto Exit; } memset(p_ca_infos, 0, ca_count * sizeof(osm_ca_info_t)); /* * For each CA, retrieve the CA info attributes */ for (ca = 0; ca < ca_count; ca++) { status = __osm_ca_info_init(p_vend, p_ca_ids[ca], &p_ca_infos[ca]); if (status != IB_SUCCESS) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_all_port_attr: ERR 3D15: " "Unable to initialize CA Info object (%s).\n", ib_get_err_str(status)); goto Exit; } total_ports += p_ca_infos[ca].p_attr->num_ports; } *p_num_ports = total_ports; osm_log(p_vend->p_log, OSM_LOG_DEBUG, "osm_vendor_get_all_port_attr: total ports:%u \n", total_ports); /* * If the user supplied enough storage, return the port guids, * otherwise, return the appropriate error. */ if (attr_array_sz >= total_ports) { for (ca = 0; ca < ca_count; ca++) { uint32_t num_ports; num_ports = p_ca_infos[ca].p_attr->num_ports; for (port_num = 0; port_num < num_ports; port_num++) { p_attr_array[port_count] = *__osm_ca_info_get_port_attr_ptr(&p_ca_infos [ca], port_num); port_count++; } } } else { status = IB_INSUFFICIENT_MEMORY; goto Exit; } status = IB_SUCCESS; Exit: if (p_ca_ids) free(p_ca_ids); if (p_ca_infos) { osm_ca_info_destroy(p_vend, p_ca_infos, ca_count); } OSM_LOG_EXIT(p_vend->p_log); return (status); } /********************************************************************** * Given the vendor obj and a guid * return the ca id and port number that have that guid **********************************************************************/ ib_api_status_t osm_vendor_get_guid_ca_and_port(IN osm_vendor_t * const p_vend, IN ib_net64_t const guid, OUT VAPI_hca_hndl_t * p_hca_hndl, OUT VAPI_hca_id_t * p_hca_id, OUT uint8_t * p_hca_idx, OUT uint32_t * p_port_num) { ib_api_status_t status; VAPI_hca_id_t *p_ca_ids = NULL; VAPI_ret_t vapi_res; VAPI_hca_hndl_t hca_hndl; VAPI_hca_vendor_t hca_vendor; VAPI_hca_cap_t hca_cap; IB_gid_t *p_port_gid = NULL; uint16_t maxNumGids; ib_net64_t port_guid; uint32_t ca, portIdx, ca_count; OSM_LOG_ENTER(p_vend->p_log); CL_ASSERT(p_vend); /* * 1) Determine the number of CA's * 2) Allocate an array big enough to hold the ca info objects. * 3) Call again to retrieve the guids. */ status = __osm_vendor_get_ca_ids(p_vend, &p_ca_ids, &ca_count); if (status != IB_SUCCESS) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_guid_ca_and_port: ERR 3D16: " "Fail to get CA Ids.\n"); goto Exit; } /* * For each CA, retrieve the CA info attributes */ for (ca = 0; ca < ca_count; ca++) { /* get the HCA handle */ vapi_res = EVAPI_get_hca_hndl(p_ca_ids[ca], &hca_hndl); if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_guid_ca_and_port: ERR 3D17: " "Fail to get HCA handle (%u).\n", vapi_res); goto Exit; } /* get the CA attributes - to know how many ports it has: */ if (osm_log_is_active(p_vend->p_log, OSM_LOG_DEBUG)) { osm_log(p_vend->p_log, OSM_LOG_DEBUG, "osm_vendor_get_guid_ca_and_port: " "Querying CA %s.\n", p_ca_ids[ca]); } /* query and get the HCA capability */ vapi_res = VAPI_query_hca_cap(hca_hndl, &hca_vendor, &hca_cap); if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_guid_ca_and_port: ERR 3D18: " "Fail to get HCA Capabilities (%u).\n", vapi_res); goto Exit; } /* go over all ports - to obtail their guids */ for (portIdx = 0; portIdx < hca_cap.phys_port_num; portIdx++) { vapi_res = VAPI_query_hca_gid_tbl(hca_hndl, portIdx + 1, 0, &maxNumGids, NULL); p_port_gid = (IB_gid_t *) malloc(maxNumGids * sizeof(IB_gid_t)); /* get the port guid */ vapi_res = VAPI_query_hca_gid_tbl(hca_hndl, portIdx + 1, maxNumGids, &maxNumGids, p_port_gid); if (vapi_res != VAPI_OK) { osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_guid_ca_and_port: ERR 3D19: " "Fail to get HCA Port GID (%d).\n", vapi_res); goto Exit; } /* convert to SF style */ __osm_vendor_gid_to_guid(p_port_gid[0], (VAPI_gid_t *) & port_guid); /* finally did we find it ? */ if (port_guid == guid) { *p_hca_hndl = hca_hndl; memcpy(p_hca_id, p_ca_ids[ca], sizeof(VAPI_hca_id_t)); *p_hca_idx = ca; *p_port_num = portIdx + 1; status = IB_SUCCESS; goto Exit; } free(p_port_gid); p_port_gid = NULL; } /* ALL PORTS */ } /* all HCAs */ osm_log(p_vend->p_log, OSM_LOG_ERROR, "osm_vendor_get_guid_ca_and_port: ERR 3D20: " "Fail to find HCA and Port for Port Guid 0x%" PRIx64 "\n", cl_ntoh64(guid)); status = IB_INVALID_GUID; Exit: if (p_ca_ids != NULL) free(p_ca_ids); if (p_port_gid != NULL) free(p_port_gid); OSM_LOG_EXIT(p_vend->p_log); return (status); } #endif