/* * Copyright (c) 2004-2009 Voltaire Inc. All rights reserved. * Copyright (c) 2007 Xsigo Systems Inc. All rights reserved. * Copyright (c) 2008 Lawrence Livermore National Laboratory * Copyright (c) 2010-2011 Mellanox Technologies LTD. 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. * */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include "internal.h" #include "chassis.h" #define container_of(ptr, type, member) \ ((type *)((uint8_t *)(ptr)-offsetof(type, member))) /* forward declarations */ struct ni_cbdata { ibnd_node_t *node; int port_num; }; static int query_node_info(smp_engine_t * engine, ib_portid_t * portid, struct ni_cbdata * cbdata); static int query_port_info(smp_engine_t * engine, ib_portid_t * portid, ibnd_node_t * node, int portnum); static int recv_switch_info(smp_engine_t * engine, ibnd_smp_t * smp, uint8_t * mad, void *cb_data) { uint8_t *switch_info = mad + IB_SMP_DATA_OFFS; ibnd_node_t *node = cb_data; memcpy(node->switchinfo, switch_info, sizeof(node->switchinfo)); mad_decode_field(node->switchinfo, IB_SW_ENHANCED_PORT0_F, &node->smaenhsp0); return 0; } static int query_switch_info(smp_engine_t * engine, ib_portid_t * portid, ibnd_node_t * node) { node->smaenhsp0 = 0; /* assume base SP0 */ return issue_smp(engine, portid, IB_ATTR_SWITCH_INFO, 0, recv_switch_info, node); } static int add_port_to_dpath(ib_dr_path_t * path, int nextport) { if (path->cnt > sizeof(path->p) - 2) return -1; ++path->cnt; path->p[path->cnt] = (uint8_t) nextport; return path->cnt; } static int retract_dpath(smp_engine_t * engine, ib_portid_t * portid) { ibnd_scan_t *scan = engine->user_data; f_internal_t *f_int = scan->f_int; if (scan->cfg->max_hops && f_int->fabric.maxhops_discovered > scan->cfg->max_hops) return 0; /* this may seem wrong but the only time we would retract the path is * if the user specified a CA for the DR path and we are retracting * from that to find the node it is connected to. This counts as a * positive hop discovered */ f_int->fabric.maxhops_discovered++; portid->drpath.p[portid->drpath.cnt] = 0; portid->drpath.cnt--; return 1; } static int extend_dpath(smp_engine_t * engine, ib_portid_t * portid, int nextport) { ibnd_scan_t *scan = engine->user_data; f_internal_t *f_int = scan->f_int; if (scan->cfg->max_hops && f_int->fabric.maxhops_discovered > scan->cfg->max_hops) return 0; if (portid->lid) { /* If we were LID routed we need to set up the drslid */ portid->drpath.drslid = (uint16_t) scan->selfportid.lid; portid->drpath.drdlid = 0xFFFF; } if (add_port_to_dpath(&portid->drpath, nextport) < 0) { IBND_ERROR("add port %d to DR path failed; %s\n", nextport, portid2str(portid)); return -1; } if (((unsigned) portid->drpath.cnt - scan->initial_hops) > f_int->fabric.maxhops_discovered) f_int->fabric.maxhops_discovered++; return 1; } static int recv_node_desc(smp_engine_t * engine, ibnd_smp_t * smp, uint8_t * mad, void *cb_data) { uint8_t *node_desc = mad + IB_SMP_DATA_OFFS; ibnd_node_t *node = cb_data; memcpy(node->nodedesc, node_desc, sizeof(node->nodedesc)); return 0; } static int query_node_desc(smp_engine_t * engine, ib_portid_t * portid, ibnd_node_t * node) { return issue_smp(engine, portid, IB_ATTR_NODE_DESC, 0, recv_node_desc, node); } static void debug_port(ib_portid_t * portid, ibnd_port_t * port) { char width[64], speed[64]; int iwidth; int ispeed, fdr10, espeed; uint8_t *info; uint32_t cap_mask; iwidth = mad_get_field(port->info, 0, IB_PORT_LINK_WIDTH_ACTIVE_F); ispeed = mad_get_field(port->info, 0, IB_PORT_LINK_SPEED_ACTIVE_F); fdr10 = mad_get_field(port->ext_info, 0, IB_MLNX_EXT_PORT_LINK_SPEED_ACTIVE_F); if (port->node->type == IB_NODE_SWITCH) info = (uint8_t *)&port->node->ports[0]->info; else info = (uint8_t *)&port->info; cap_mask = mad_get_field(info, 0, IB_PORT_CAPMASK_F); if (cap_mask & be32toh(IB_PORT_CAP_HAS_EXT_SPEEDS)) espeed = mad_get_field(port->info, 0, IB_PORT_LINK_SPEED_EXT_ACTIVE_F); else espeed = 0; IBND_DEBUG ("portid %s portnum %d: base lid %d state %d physstate %d %s %s %s %s\n", portid2str(portid), port->portnum, port->base_lid, mad_get_field(port->info, 0, IB_PORT_STATE_F), mad_get_field(port->info, 0, IB_PORT_PHYS_STATE_F), mad_dump_val(IB_PORT_LINK_WIDTH_ACTIVE_F, width, 64, &iwidth), mad_dump_val(IB_PORT_LINK_SPEED_ACTIVE_F, speed, 64, &ispeed), (fdr10 & FDR10) ? "FDR10" : "", mad_dump_val(IB_PORT_LINK_SPEED_EXT_ACTIVE_F, speed, 64, &espeed)); } static int is_mlnx_ext_port_info_supported(ibnd_port_t * port) { uint16_t devid = (uint16_t) mad_get_field(port->node->info, 0, IB_NODE_DEVID_F); uint32_t vendorid = (uint32_t) mad_get_field(port->node->info, 0, IB_NODE_VENDORID_F); if ((devid >= 0xc738 && devid <= 0xc73b) || devid == 0xc839 || devid == 0xcb20 || devid == 0xcf08 || devid == 0xcf09 || devid == 0xd2f0 || ((vendorid == 0x119f) && /* Bull SwitchX */ (devid == 0x1b02 || devid == 0x1b50 || /* Bull SwitchIB and SwitchIB2 */ devid == 0x1ba0 || (devid >= 0x1bd0 && devid <= 0x1bd5) || /* Bull Quantum */ devid == 0x1bf0))) return 1; if ((devid >= 0x1003 && devid <= 0x101b) || (devid == 0xa2d2) || ((vendorid == 0x119f) && /* Bull ConnectX3 */ (devid == 0x1b33 || devid == 0x1b73 || devid == 0x1b40 || devid == 0x1b41 || devid == 0x1b60 || devid == 0x1b61 || /* Bull ConnectIB */ devid == 0x1b83 || devid == 0x1b93 || devid == 0x1b94 || /* Bull ConnectX4, Sequana HDR and HDR100 */ devid == 0x1bb4 || devid == 0x1bb5 || (devid >= 0x1bc4 && devid <= 0x1bc6)))) return 1; return 0; } int mlnx_ext_port_info_err(smp_engine_t * engine, ibnd_smp_t * smp, uint8_t * mad, void *cb_data) { f_internal_t *f_int = ((ibnd_scan_t *) engine->user_data)->f_int; ibnd_node_t *node = cb_data; ibnd_port_t *port; uint8_t port_num, local_port; port_num = (uint8_t) mad_get_field(mad, 0, IB_MAD_ATTRMOD_F); port = node->ports[port_num]; if (!port) { IBND_ERROR("Failed to find 0x%" PRIx64 " port %u\n", node->guid, port_num); return -1; } local_port = (uint8_t) mad_get_field(port->info, 0, IB_PORT_LOCAL_PORT_F); debug_port(&smp->path, port); if (port_num && mad_get_field(port->info, 0, IB_PORT_PHYS_STATE_F) == IB_PORT_PHYS_STATE_LINKUP && ((node->type == IB_NODE_SWITCH && port_num != local_port) || (node == f_int->fabric.from_node && port_num == f_int->fabric.from_portnum))) { int rc = 0; ib_portid_t path = smp->path; if (node->type != IB_NODE_SWITCH && node == f_int->fabric.from_node && path.drpath.cnt > 1) rc = retract_dpath(engine, &path); else { /* we can't proceed through an HCA with DR */ if (path.lid == 0 || node->type == IB_NODE_SWITCH) rc = extend_dpath(engine, &path, port_num); } if (rc > 0) { struct ni_cbdata * cbdata = malloc(sizeof(*cbdata)); cbdata->node = node; cbdata->port_num = port_num; query_node_info(engine, &path, cbdata); } } return 0; } static int recv_mlnx_ext_port_info(smp_engine_t * engine, ibnd_smp_t * smp, uint8_t * mad, void *cb_data) { f_internal_t *f_int = ((ibnd_scan_t *) engine->user_data)->f_int; ibnd_node_t *node = cb_data; ibnd_port_t *port; uint8_t *ext_port_info = mad + IB_SMP_DATA_OFFS; uint8_t port_num, local_port; port_num = (uint8_t) mad_get_field(mad, 0, IB_MAD_ATTRMOD_F); port = node->ports[port_num]; if (!port) { IBND_ERROR("Failed to find 0x%" PRIx64 " port %u\n", node->guid, port_num); return -1; } memcpy(port->ext_info, ext_port_info, sizeof(port->ext_info)); local_port = (uint8_t) mad_get_field(port->info, 0, IB_PORT_LOCAL_PORT_F); debug_port(&smp->path, port); if (port_num && mad_get_field(port->info, 0, IB_PORT_PHYS_STATE_F) == IB_PORT_PHYS_STATE_LINKUP && ((node->type == IB_NODE_SWITCH && port_num != local_port) || (node == f_int->fabric.from_node && port_num == f_int->fabric.from_portnum))) { int rc = 0; ib_portid_t path = smp->path; if (node->type != IB_NODE_SWITCH && node == f_int->fabric.from_node && path.drpath.cnt > 1) rc = retract_dpath(engine, &path); else { /* we can't proceed through an HCA with DR */ if (path.lid == 0 || node->type == IB_NODE_SWITCH) rc = extend_dpath(engine, &path, port_num); } if (rc > 0) { struct ni_cbdata * cbdata = malloc(sizeof(*cbdata)); cbdata->node = node; cbdata->port_num = port_num; query_node_info(engine, &path, cbdata); } } return 0; } static int query_mlnx_ext_port_info(smp_engine_t * engine, ib_portid_t * portid, ibnd_node_t * node, int portnum) { IBND_DEBUG("Query MLNX Extended Port Info; %s (0x%" PRIx64 "):%d\n", portid2str(portid), node->guid, portnum); return issue_smp(engine, portid, IB_ATTR_MLNX_EXT_PORT_INFO, portnum, recv_mlnx_ext_port_info, node); } static int recv_port_info(smp_engine_t * engine, ibnd_smp_t * smp, uint8_t * mad, void *cb_data) { ibnd_scan_t *scan = (ibnd_scan_t *)engine->user_data; f_internal_t *f_int = scan->f_int; ibnd_node_t *node = cb_data; ibnd_port_t *port; uint8_t *port_info = mad + IB_SMP_DATA_OFFS; uint8_t port_num, local_port; int phystate, ispeed, espeed; uint8_t *info; uint32_t cap_mask; port_num = (uint8_t) mad_get_field(mad, 0, IB_MAD_ATTRMOD_F); local_port = (uint8_t) mad_get_field(port_info, 0, IB_PORT_LOCAL_PORT_F); /* this may have been created before */ port = node->ports[port_num]; if (!port) { port = node->ports[port_num] = calloc(1, sizeof(*port)); if (!port) { IBND_ERROR("Failed to allocate 0x%" PRIx64 " port %u\n", node->guid, port_num); return -1; } port->guid = mad_get_field64(node->info, 0, IB_NODE_PORT_GUID_F); } memcpy(port->info, port_info, sizeof(port->info)); port->node = node; port->portnum = port_num; port->ext_portnum = 0; port->base_lid = (uint16_t) mad_get_field(port->info, 0, IB_PORT_LID_F); port->lmc = (uint8_t) mad_get_field(port->info, 0, IB_PORT_LMC_F); if (port_num == 0) { node->smalid = port->base_lid; node->smalmc = port->lmc; } else if (node->type == IB_NODE_SWITCH) { port->base_lid = node->smalid; port->lmc = node->smalmc; } int rc1 = add_to_portguid_hash(port, f_int->fabric.portstbl); if (rc1) IBND_ERROR("Error Occurred when trying" " to insert new port guid 0x%016" PRIx64 " to DB\n", port->guid); add_to_portlid_hash(port, f_int); if ((scan->cfg->flags & IBND_CONFIG_MLX_EPI) && is_mlnx_ext_port_info_supported(port)) { phystate = mad_get_field(port->info, 0, IB_PORT_PHYS_STATE_F); ispeed = mad_get_field(port->info, 0, IB_PORT_LINK_SPEED_ACTIVE_F); if (port->node->type == IB_NODE_SWITCH) info = (uint8_t *)&port->node->ports[0]->info; else info = (uint8_t *)&port->info; cap_mask = mad_get_field(info, 0, IB_PORT_CAPMASK_F); if (cap_mask & be32toh(IB_PORT_CAP_HAS_EXT_SPEEDS)) espeed = mad_get_field(port->info, 0, IB_PORT_LINK_SPEED_EXT_ACTIVE_F); else espeed = 0; if (phystate == IB_PORT_PHYS_STATE_LINKUP && ispeed == IB_LINK_SPEED_ACTIVE_10 && espeed == IB_LINK_SPEED_EXT_ACTIVE_NONE) { /* LinkUp/QDR */ query_mlnx_ext_port_info(engine, &smp->path, node, port_num); return 0; } } debug_port(&smp->path, port); if (port_num && mad_get_field(port->info, 0, IB_PORT_PHYS_STATE_F) == IB_PORT_PHYS_STATE_LINKUP && ((node->type == IB_NODE_SWITCH && port_num != local_port) || (node == f_int->fabric.from_node && port_num == f_int->fabric.from_portnum))) { int rc = 0; ib_portid_t path = smp->path; if (node->type != IB_NODE_SWITCH && node == f_int->fabric.from_node && path.drpath.cnt > 1) rc = retract_dpath(engine, &path); else { /* we can't proceed through an HCA with DR */ if (path.lid == 0 || node->type == IB_NODE_SWITCH) rc = extend_dpath(engine, &path, port_num); } if (rc > 0) { struct ni_cbdata * cbdata = malloc(sizeof(*cbdata)); cbdata->node = node; cbdata->port_num = port_num; query_node_info(engine, &path, cbdata); } } return 0; } static int recv_port0_info(smp_engine_t * engine, ibnd_smp_t * smp, uint8_t * mad, void *cb_data) { ibnd_node_t *node = cb_data; int i, status; status = recv_port_info(engine, smp, mad, cb_data); /* Query PortInfo on switch external/physical ports */ for (i = 1; i <= node->numports; i++) query_port_info(engine, &smp->path, node, i); return status; } static int query_port_info(smp_engine_t * engine, ib_portid_t * portid, ibnd_node_t * node, int portnum) { IBND_DEBUG("Query Port Info; %s (0x%" PRIx64 "):%d\n", portid2str(portid), node->guid, portnum); return issue_smp(engine, portid, IB_ATTR_PORT_INFO, portnum, portnum ? recv_port_info : recv_port0_info, node); } static ibnd_node_t *create_node(smp_engine_t * engine, ib_portid_t * path, uint8_t * node_info) { f_internal_t *f_int = ((ibnd_scan_t *) engine->user_data)->f_int; ibnd_node_t *rc = calloc(1, sizeof(*rc)); if (!rc) { IBND_ERROR("OOM: node creation failed\n"); return NULL; } /* decode just a couple of fields for quicker reference. */ mad_decode_field(node_info, IB_NODE_GUID_F, &rc->guid); mad_decode_field(node_info, IB_NODE_TYPE_F, &rc->type); mad_decode_field(node_info, IB_NODE_NPORTS_F, &rc->numports); rc->ports = calloc(rc->numports + 1, sizeof(*rc->ports)); if (!rc->ports) { free(rc); IBND_ERROR("OOM: Failed to allocate the ports array\n"); return NULL; } rc->path_portid = *path; memcpy(rc->info, node_info, sizeof(rc->info)); int rc1 = add_to_nodeguid_hash(rc, f_int->fabric.nodestbl); if (rc1) IBND_ERROR("Error Occurred when trying" " to insert new node guid 0x%016" PRIx64 " to DB\n", rc->guid); /* add this to the all nodes list */ rc->next = f_int->fabric.nodes; f_int->fabric.nodes = rc; add_to_type_list(rc, f_int); return rc; } static void link_ports(ibnd_node_t * node, ibnd_port_t * port, ibnd_node_t * remotenode, ibnd_port_t * remoteport) { IBND_DEBUG("linking: 0x%" PRIx64 " %p->%p:%u and 0x%" PRIx64 " %p->%p:%u\n", node->guid, node, port, port->portnum, remotenode->guid, remotenode, remoteport, remoteport->portnum); if (port->remoteport) port->remoteport->remoteport = NULL; if (remoteport->remoteport) remoteport->remoteport->remoteport = NULL; port->remoteport = remoteport; remoteport->remoteport = port; } static void dump_endnode(ib_portid_t *path, const char *prompt, ibnd_node_t *node, ibnd_port_t *port) { char type[64]; mad_dump_node_type(type, sizeof(type), &node->type, sizeof(int)); printf("%s -> %s %s {%016" PRIx64 "} portnum %d lid %d-%d \"%s\"\n", portid2str(path), prompt, type, node->guid, node->type == IB_NODE_SWITCH ? 0 : port->portnum, port->base_lid, port->base_lid + (1 << port->lmc) - 1, node->nodedesc); } static int recv_node_info(smp_engine_t * engine, ibnd_smp_t * smp, uint8_t * mad, void *cb_data) { ibnd_scan_t *scan = engine->user_data; f_internal_t *f_int = scan->f_int; uint8_t *node_info = mad + IB_SMP_DATA_OFFS; struct ni_cbdata *ni_cbdata = (struct ni_cbdata *)cb_data; ibnd_node_t *rem_node = NULL; int rem_port_num = 0; ibnd_node_t *node; int node_is_new = 0; uint64_t node_guid = mad_get_field64(node_info, 0, IB_NODE_GUID_F); uint64_t port_guid = mad_get_field64(node_info, 0, IB_NODE_PORT_GUID_F); int port_num = mad_get_field(node_info, 0, IB_NODE_LOCAL_PORT_F); ibnd_port_t *port = NULL; if (ni_cbdata) { rem_node = ni_cbdata->node; rem_port_num = ni_cbdata->port_num; free(ni_cbdata); } node = ibnd_find_node_guid(&f_int->fabric, node_guid); if (!node) { node = create_node(engine, &smp->path, node_info); if (!node) return -1; node_is_new = 1; } IBND_DEBUG("Found %s node GUID 0x%" PRIx64 " (%s)\n", node_is_new ? "new" : "old", node->guid, portid2str(&smp->path)); port = node->ports[port_num]; if (!port) { /* If we have not see this port before create a shell for it */ port = node->ports[port_num] = calloc(1, sizeof(*port)); if (!port) return -1; port->node = node; port->portnum = port_num; } port->guid = port_guid; if (scan->cfg->show_progress) dump_endnode(&smp->path, node_is_new ? "new" : "known", node, port); if (rem_node == NULL) { /* this is the start node */ f_int->fabric.from_node = node; f_int->fabric.from_portnum = port_num; } else { /* link ports... */ if (!rem_node->ports[rem_port_num]) { IBND_ERROR("Internal Error; " "Node(%p) 0x%" PRIx64 " Port %d no port created!?!?!?\n\n", rem_node, rem_node->guid, rem_port_num); return -1; } link_ports(node, port, rem_node, rem_node->ports[rem_port_num]); } if (node_is_new) { query_node_desc(engine, &smp->path, node); if (node->type == IB_NODE_SWITCH) { query_switch_info(engine, &smp->path, node); /* Query PortInfo on Switch Port 0 first */ query_port_info(engine, &smp->path, node, 0); } } if (node->type != IB_NODE_SWITCH) query_port_info(engine, &smp->path, node, port_num); return 0; } static int query_node_info(smp_engine_t * engine, ib_portid_t * portid, struct ni_cbdata * cbdata) { IBND_DEBUG("Query Node Info; %s\n", portid2str(portid)); return issue_smp(engine, portid, IB_ATTR_NODE_INFO, 0, recv_node_info, (void *)cbdata); } ibnd_node_t *ibnd_find_node_guid(ibnd_fabric_t * fabric, uint64_t guid) { int hash = HASHGUID(guid) % HTSZ; ibnd_node_t *node; if (!fabric) { IBND_DEBUG("fabric parameter NULL\n"); return NULL; } for (node = fabric->nodestbl[hash]; node; node = node->htnext) if (node->guid == guid) return node; return NULL; } ibnd_node_t *ibnd_find_node_dr(ibnd_fabric_t * fabric, char *dr_str) { ibnd_port_t *rc = ibnd_find_port_dr(fabric, dr_str); return rc->node; } int add_to_nodeguid_hash(ibnd_node_t * node, ibnd_node_t * hash[]) { int rc = 0; ibnd_node_t *tblnode; int hash_idx = HASHGUID(node->guid) % HTSZ; for (tblnode = hash[hash_idx]; tblnode; tblnode = tblnode->htnext) { if (tblnode == node) { IBND_ERROR("Duplicate Node: Node with guid 0x%016" PRIx64 " already exists in nodes DB\n", node->guid); return 1; } } node->htnext = hash[hash_idx]; hash[hash_idx] = node; return rc; } int add_to_portguid_hash(ibnd_port_t * port, ibnd_port_t * hash[]) { int rc = 0; ibnd_port_t *tblport; int hash_idx = HASHGUID(port->guid) % HTSZ; for (tblport = hash[hash_idx]; tblport; tblport = tblport->htnext) { if (tblport == port) { IBND_ERROR("Duplicate Port: Port with guid 0x%016" PRIx64 " already exists in ports DB\n", port->guid); return 1; } } port->htnext = hash[hash_idx]; hash[hash_idx] = port; return rc; } struct lid2guid_item { cl_map_item_t cl_map; ibnd_port_t *port; }; void create_lid2guid(f_internal_t *f_int) { cl_qmap_init(&f_int->lid2guid); } void destroy_lid2guid(f_internal_t *f_int) { cl_map_item_t *item; for (item = cl_qmap_head(&f_int->lid2guid); item != cl_qmap_end(&f_int->lid2guid); item = cl_qmap_head(&f_int->lid2guid)) { cl_qmap_remove_item(&f_int->lid2guid, item); free(container_of(item, struct lid2guid_item, cl_map)); } } void add_to_portlid_hash(ibnd_port_t * port, f_internal_t *f_int) { uint16_t base_lid = port->base_lid; uint16_t lid_mask = ((1 << port->lmc) -1); uint16_t lid = 0; /* 0 < valid lid <= 0xbfff */ if (base_lid > 0 && base_lid <= 0xbfff) { /* We add the port for all lids * so it is easier to find any "random" lid specified */ for (lid = base_lid; lid <= (base_lid + lid_mask); lid++) { struct lid2guid_item *item; item = malloc(sizeof(*item)); if (item) { item->port = port; cl_qmap_insert(&f_int->lid2guid, lid, &item->cl_map); } } } } void add_to_type_list(ibnd_node_t * node, f_internal_t * f_int) { ibnd_fabric_t *fabric = &f_int->fabric; switch (node->type) { case IB_NODE_CA: node->type_next = fabric->ch_adapters; fabric->ch_adapters = node; break; case IB_NODE_SWITCH: node->type_next = fabric->switches; fabric->switches = node; break; case IB_NODE_ROUTER: node->type_next = fabric->routers; fabric->routers = node; break; } } static int set_config(struct ibnd_config *config, struct ibnd_config *cfg) { if (!config) return (-EINVAL); if (cfg) memcpy(config, cfg, sizeof(*config)); if (!config->max_smps) config->max_smps = DEFAULT_MAX_SMP_ON_WIRE; if (!config->timeout_ms) config->timeout_ms = DEFAULT_TIMEOUT; if (!config->retries) config->retries = DEFAULT_RETRIES; return (0); } f_internal_t *allocate_fabric_internal(void) { f_internal_t *f = calloc(1, sizeof(*f)); if (f) create_lid2guid(f); return (f); } ibnd_fabric_t *ibnd_discover_fabric(char * ca_name, int ca_port, ib_portid_t * from, struct ibnd_config *cfg) { struct ibnd_config config = { 0 }; f_internal_t *f_int = NULL; ib_portid_t my_portid = { 0 }; smp_engine_t engine; ibnd_scan_t scan; struct ibmad_port *ibmad_port; int nc = 2; int mc[2] = { IB_SMI_CLASS, IB_SMI_DIRECT_CLASS }; /* If not specified start from "my" port */ if (!from) from = &my_portid; if (set_config(&config, cfg)) { IBND_ERROR("Invalid ibnd_config\n"); return NULL; } f_int = allocate_fabric_internal(); if (!f_int) { IBND_ERROR("OOM: failed to calloc ibnd_fabric_t\n"); return NULL; } memset(&scan.selfportid, 0, sizeof(scan.selfportid)); scan.f_int = f_int; scan.cfg = &config; scan.initial_hops = from->drpath.cnt; ibmad_port = mad_rpc_open_port(ca_name, ca_port, mc, nc); if (!ibmad_port) { IBND_ERROR("can't open MAD port (%s:%d)\n", ca_name, ca_port); return (NULL); } mad_rpc_set_timeout(ibmad_port, cfg->timeout_ms); mad_rpc_set_retries(ibmad_port, cfg->retries); smp_mkey_set(ibmad_port, cfg->mkey); if (ib_resolve_self_via(&scan.selfportid, NULL, NULL, ibmad_port) < 0) { IBND_ERROR("Failed to resolve self\n"); mad_rpc_close_port(ibmad_port); return NULL; } mad_rpc_close_port(ibmad_port); if (smp_engine_init(&engine, ca_name, ca_port, &scan, &config)) { free(f_int); return (NULL); } IBND_DEBUG("from %s\n", portid2str(from)); if (!query_node_info(&engine, from, NULL)) if (process_mads(&engine) != 0) goto error; f_int->fabric.total_mads_used = engine.total_smps; f_int->fabric.maxhops_discovered += scan.initial_hops; if (group_nodes(&f_int->fabric)) goto error; smp_engine_destroy(&engine); return (ibnd_fabric_t *)f_int; error: smp_engine_destroy(&engine); ibnd_destroy_fabric(&f_int->fabric); return NULL; } void destroy_node(ibnd_node_t * node) { int p = 0; if (node->ports) { for (p = 0; p <= node->numports; p++) free(node->ports[p]); free(node->ports); } free(node); } void ibnd_destroy_fabric(ibnd_fabric_t * fabric) { ibnd_node_t *node = NULL; ibnd_node_t *next = NULL; ibnd_chassis_t *ch, *ch_next; if (!fabric) return; ch = fabric->chassis; while (ch) { ch_next = ch->next; free(ch); ch = ch_next; } node = fabric->nodes; while (node) { next = node->next; destroy_node(node); node = next; } destroy_lid2guid((f_internal_t *)fabric); free(fabric); } void ibnd_iter_nodes(ibnd_fabric_t * fabric, ibnd_iter_node_func_t func, void *user_data) { ibnd_node_t *cur = NULL; if (!fabric) { IBND_DEBUG("fabric parameter NULL\n"); return; } if (!func) { IBND_DEBUG("func parameter NULL\n"); return; } for (cur = fabric->nodes; cur; cur = cur->next) func(cur, user_data); } void ibnd_iter_nodes_type(ibnd_fabric_t * fabric, ibnd_iter_node_func_t func, int node_type, void *user_data) { ibnd_node_t *list = NULL; ibnd_node_t *cur = NULL; if (!fabric) { IBND_DEBUG("fabric parameter NULL\n"); return; } if (!func) { IBND_DEBUG("func parameter NULL\n"); return; } switch (node_type) { case IB_NODE_SWITCH: list = fabric->switches; break; case IB_NODE_CA: list = fabric->ch_adapters; break; case IB_NODE_ROUTER: list = fabric->routers; break; default: IBND_DEBUG("Invalid node_type specified %d\n", node_type); break; } for (cur = list; cur; cur = cur->type_next) func(cur, user_data); } ibnd_port_t *ibnd_find_port_lid(ibnd_fabric_t * fabric, uint16_t lid) { f_internal_t *f = (f_internal_t *)fabric; return container_of(cl_qmap_get(&f->lid2guid, lid), struct lid2guid_item, cl_map) ->port; } ibnd_port_t *ibnd_find_port_guid(ibnd_fabric_t * fabric, uint64_t guid) { int hash = HASHGUID(guid) % HTSZ; ibnd_port_t *port; if (!fabric) { IBND_DEBUG("fabric parameter NULL\n"); return NULL; } for (port = fabric->portstbl[hash]; port; port = port->htnext) if (port->guid == guid) return port; return NULL; } ibnd_port_t *ibnd_find_port_dr(ibnd_fabric_t * fabric, char *dr_str) { int i = 0; ibnd_node_t *cur_node; ibnd_port_t *rc = NULL; ib_dr_path_t path; if (!fabric) { IBND_DEBUG("fabric parameter NULL\n"); return NULL; } if (!dr_str) { IBND_DEBUG("dr_str parameter NULL\n"); return NULL; } cur_node = fabric->from_node; if (str2drpath(&path, dr_str, 0, 0) == -1) return NULL; for (i = 0; i <= path.cnt; i++) { ibnd_port_t *remote_port = NULL; if (path.p[i] == 0) continue; if (!cur_node->ports) return NULL; remote_port = cur_node->ports[path.p[i]]->remoteport; if (!remote_port) return NULL; rc = remote_port; cur_node = remote_port->node; } return rc; } void ibnd_iter_ports(ibnd_fabric_t * fabric, ibnd_iter_port_func_t func, void *user_data) { int i = 0; ibnd_port_t *cur = NULL; if (!fabric) { IBND_DEBUG("fabric parameter NULL\n"); return; } if (!func) { IBND_DEBUG("func parameter NULL\n"); return; } for (i = 0; iportstbl[i]; cur; cur = cur->htnext) func(cur, user_data); }