diff --git a/contrib/ofed/opensm/opensm/osm_console.c b/contrib/ofed/opensm/opensm/osm_console.c index 48ee2a4aa77e..1dfeeeaf0fbf 100644 --- a/contrib/ofed/opensm/opensm/osm_console.c +++ b/contrib/ofed/opensm/opensm/osm_console.c @@ -1,1936 +1,1936 @@ /* * Copyright (c) 2005-2009 Voltaire, Inc. All rights reserved. * Copyright (c) 2009,2010 HNR Consulting. All rights reserved. * 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. * */ #if HAVE_CONFIG_H # include #endif /* HAVE_CONFIG_H */ #define _WITH_GETLINE /* for getline */ #include #include #include #include #include #include #include #ifdef ENABLE_OSM_CONSOLE_LOOPBACK #include #include #include #endif #include #include #include #include #include #define FILE_ID OSM_FILE_CONSOLE_C #include #include #include #include extern void osm_update_node_desc(IN osm_opensm_t *osm); struct command { const char *name; void (*help_function) (FILE * out, int detail); void (*parse_function) (char **p_last, osm_opensm_t * p_osm, FILE * out); }; static struct { int on; int delay_s; time_t previous; void (*loop_function) (osm_opensm_t * p_osm, FILE * out); } loop_command = { .on = 0, .delay_s = 2, .loop_function = NULL}; static const struct command console_cmds[]; static char *next_token(char **p_last) { return strtok_r(NULL, " \t\n\r", p_last); } #ifdef ENABLE_OSM_PERF_MGR static char *name_token(char **p_last) { return strtok_r(NULL, "\t\n\r", p_last); } #endif static void help_command(FILE * out, int detail) { int i; fprintf(out, "Supported commands and syntax:\n"); fprintf(out, "help []\n"); /* skip help command */ for (i = 1; console_cmds[i].name; i++) console_cmds[i].help_function(out, 0); } static void help_quit(FILE * out, int detail) { fprintf(out, "quit (not valid in local mode; use ctl-c)\n"); } static void help_loglevel(FILE * out, int detail) { fprintf(out, "loglevel []\n"); if (detail) { fprintf(out, " log-level is OR'ed from the following\n"); fprintf(out, " OSM_LOG_NONE 0x%02X\n", OSM_LOG_NONE); fprintf(out, " OSM_LOG_ERROR 0x%02X\n", OSM_LOG_ERROR); fprintf(out, " OSM_LOG_INFO 0x%02X\n", OSM_LOG_INFO); fprintf(out, " OSM_LOG_VERBOSE 0x%02X\n", OSM_LOG_VERBOSE); fprintf(out, " OSM_LOG_DEBUG 0x%02X\n", OSM_LOG_DEBUG); fprintf(out, " OSM_LOG_FUNCS 0x%02X\n", OSM_LOG_FUNCS); fprintf(out, " OSM_LOG_FRAMES 0x%02X\n", OSM_LOG_FRAMES); fprintf(out, " OSM_LOG_ROUTING 0x%02X\n", OSM_LOG_ROUTING); fprintf(out, " OSM_LOG_SYS 0x%02X\n", OSM_LOG_SYS); fprintf(out, "\n"); fprintf(out, " OSM_LOG_DEFAULT_LEVEL 0x%02X\n", OSM_LOG_DEFAULT_LEVEL); } } static void help_permodlog(FILE * out, int detail) { fprintf(out, "permodlog\n"); } static void help_priority(FILE * out, int detail) { fprintf(out, "priority []\n"); } static void help_resweep(FILE * out, int detail) { fprintf(out, "resweep [heavy|light]\n"); } static void help_reroute(FILE * out, int detail) { fprintf(out, "reroute\n"); if (detail) { fprintf(out, "reroute the fabric\n"); } } static void help_sweep(FILE * out, int detail) { fprintf(out, "sweep [on|off]\n"); if (detail) { fprintf(out, "enable or disable sweeping\n"); fprintf(out, " [on] sweep normally\n"); fprintf(out, " [off] inhibit all sweeping\n"); } } static void help_status(FILE * out, int detail) { fprintf(out, "status [loop]\n"); if (detail) { fprintf(out, " loop -- type \"q\" to quit\n"); } } static void help_logflush(FILE * out, int detail) { fprintf(out, "logflush [on|off] -- toggle opensm.log file flushing\n"); } static void help_querylid(FILE * out, int detail) { fprintf(out, "querylid lid -- print internal information about the lid specified\n"); } static void help_portstatus(FILE * out, int detail) { fprintf(out, "portstatus [ca|switch|router]\n"); if (detail) { fprintf(out, "summarize port status\n"); fprintf(out, " [ca|switch|router] -- limit the results to the node type specified\n"); } } static void help_switchbalance(FILE * out, int detail) { fprintf(out, "switchbalance [verbose] [guid]\n"); if (detail) { fprintf(out, "output switch balancing information\n"); fprintf(out, " [verbose] -- verbose output\n" " [guid] -- limit results to specified guid\n"); } } static void help_lidbalance(FILE * out, int detail) { fprintf(out, "lidbalance [switchguid]\n"); if (detail) { fprintf(out, "output lid balanced forwarding information\n"); fprintf(out, " [switchguid] -- limit results to specified switch guid\n"); } } static void help_dump_conf(FILE *out, int detail) { fprintf(out, "dump_conf\n"); if (detail) { fprintf(out, "dump current opensm configuration\n"); } } static void help_update_desc(FILE *out, int detail) { fprintf(out, "update_desc\n"); if (detail) { fprintf(out, "update node description for all nodes\n"); } } #ifdef ENABLE_OSM_PERF_MGR static void help_perfmgr(FILE * out, int detail) { fprintf(out, "perfmgr(pm) [enable|disable\n" " |clear_counters|dump_counters|print_counters(pc)|print_errors(pe)\n" " |set_rm_nodes|clear_rm_nodes|clear_inactive\n" " |set_query_cpi|clear_query_cpi\n" " |dump_redir|clear_redir\n" " |sweep|sweep_time[seconds]]\n"); if (detail) { fprintf(out, "perfmgr -- print the performance manager state\n"); fprintf(out, " [enable|disable] -- change the perfmgr state\n"); fprintf(out, " [sweep] -- Initiate a sweep of the fabric\n"); fprintf(out, " [sweep_time] -- change the perfmgr sweep time (requires [seconds] option)\n"); fprintf(out, " [clear_counters] -- clear the counters stored\n"); fprintf(out, " [dump_counters [mach]] -- dump the counters (optionally in [mach]ine readable format)\n"); fprintf(out, " [print_counters [][:]] -- print the internal counters\n" " Optionally limit output by name, guid, or port\n"); fprintf(out, " [pc [][:]] -- same as print_counters\n"); fprintf(out, " [print_errors []] -- print only ports with errors\n" " Optionally limit output by name or guid\n"); fprintf(out, " [pe []] -- same as print_errors\n"); fprintf(out, " [dump_redir []] -- dump the redirection table\n"); fprintf(out, " [clear_redir []] -- clear the redirection table\n"); fprintf(out, " [[set|clear]_rm_nodes] -- enable/disable the removal of \"inactive\" nodes from the DB\n" " Inactive nodes are those which no longer appear on the fabric\n"); fprintf(out, " [[set|clear]_query_cpi] -- enable/disable PerfMgrGet(ClassPortInfo)\n" " ClassPortInfo indicates hardware support for extended attributes such as PortCountersExtended\n"); fprintf(out, " [clear_inactive] -- Delete inactive nodes from the DB\n"); } } static void help_pm(FILE *out, int detail) { if (detail) help_perfmgr(out, detail); } #endif /* ENABLE_OSM_PERF_MGR */ /* more help routines go here */ static void help_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; int i, found = 0; p_cmd = next_token(p_last); if (!p_cmd) help_command(out, 0); else { for (i = 1; console_cmds[i].name; i++) { if (!strcmp(p_cmd, console_cmds[i].name)) { found = 1; console_cmds[i].help_function(out, 1); break; } } if (!found) { fprintf(out, "%s : Command not found\n\n", p_cmd); help_command(out, 0); } } } static void loglevel_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; int level; p_cmd = next_token(p_last); if (!p_cmd) fprintf(out, "Current log level is 0x%x\n", osm_log_get_level(&p_osm->log)); else { /* Handle x, 0x, and decimal specification of log level */ if (!strncmp(p_cmd, "x", 1)) { p_cmd++; level = strtoul(p_cmd, NULL, 16); } else { if (!strncmp(p_cmd, "0x", 2)) { p_cmd += 2; level = strtoul(p_cmd, NULL, 16); } else level = strtol(p_cmd, NULL, 10); } if ((level >= 0) && (level < 256)) { fprintf(out, "Setting log level to 0x%x\n", level); osm_log_set_level(&p_osm->log, level); } else fprintf(out, "Invalid log level 0x%x\n", level); } } static void permodlog_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { FILE *fp; char buf[1024]; if (p_osm->subn.opt.per_module_logging_file != NULL) { fp = fopen(p_osm->subn.opt.per_module_logging_file, "r"); if (!fp) { if (errno == ENOENT) return; fprintf(out, "fopen(%s) failed: %s\n", p_osm->subn.opt.per_module_logging_file, strerror(errno)); return; } fprintf(out, "Per module logging file: %s\n", p_osm->subn.opt.per_module_logging_file); while (fgets(buf, sizeof buf, fp) != NULL) fprintf(out, "%s", buf); fclose(fp); fprintf(out, "\n"); } } static void priority_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; int priority; p_cmd = next_token(p_last); if (!p_cmd) fprintf(out, "Current sm-priority is %d\n", p_osm->subn.opt.sm_priority); else { priority = strtol(p_cmd, NULL, 0); if (0 > priority || 15 < priority) fprintf(out, "Invalid sm-priority %d; must be between 0 and 15\n", priority); else { fprintf(out, "Setting sm-priority to %d\n", priority); osm_set_sm_priority(&p_osm->sm, (uint8_t)priority); } } } static const char *sm_state_str(int state) { switch (state) { case IB_SMINFO_STATE_DISCOVERING: return "Discovering"; case IB_SMINFO_STATE_STANDBY: return "Standby "; case IB_SMINFO_STATE_NOTACTIVE: return "Not Active "; case IB_SMINFO_STATE_MASTER: return "Master "; } return "UNKNOWN "; } static const char *sa_state_str(osm_sa_state_t state) { switch (state) { case OSM_SA_STATE_INIT: return "Init"; case OSM_SA_STATE_READY: return "Ready"; } return "UNKNOWN"; } static void dump_sms(osm_opensm_t * p_osm, FILE * out) { osm_subn_t *p_subn = &p_osm->subn; osm_remote_sm_t *p_rsm; fprintf(out, "\n Known SMs\n" " ---------\n"); fprintf(out, " Port GUID SM State Priority\n"); fprintf(out, " --------- -------- --------\n"); fprintf(out, " 0x%" PRIx64 " %s %d SELF\n", cl_ntoh64(p_subn->sm_port_guid), sm_state_str(p_subn->sm_state), p_subn->opt.sm_priority); CL_PLOCK_ACQUIRE(p_osm->sm.p_lock); p_rsm = (osm_remote_sm_t *) cl_qmap_head(&p_subn->sm_guid_tbl); while (p_rsm != (osm_remote_sm_t *) cl_qmap_end(&p_subn->sm_guid_tbl)) { fprintf(out, " 0x%" PRIx64 " %s %d\n", cl_ntoh64(p_rsm->smi.guid), sm_state_str(ib_sminfo_get_state(&p_rsm->smi)), ib_sminfo_get_priority(&p_rsm->smi)); p_rsm = (osm_remote_sm_t *) cl_qmap_next(&p_rsm->map_item); } CL_PLOCK_RELEASE(p_osm->sm.p_lock); } static void print_status(osm_opensm_t * p_osm, FILE * out) { cl_list_item_t *item; if (out) { const char *re_str; cl_plock_acquire(&p_osm->lock); fprintf(out, " OpenSM Version : %s\n", p_osm->osm_version); fprintf(out, " SM State : %s\n", sm_state_str(p_osm->subn.sm_state)); fprintf(out, " SM Priority : %d\n", p_osm->subn.opt.sm_priority); fprintf(out, " SA State : %s\n", sa_state_str(p_osm->sa.state)); re_str = p_osm->routing_engine_used ? osm_routing_engine_type_str(p_osm->routing_engine_used->type) : osm_routing_engine_type_str(OSM_ROUTING_ENGINE_TYPE_NONE); fprintf(out, " Routing Engine : %s\n", re_str); fprintf(out, " Loaded event plugins :"); if (cl_qlist_head(&p_osm->plugin_list) == cl_qlist_end(&p_osm->plugin_list)) { fprintf(out, " "); } for (item = cl_qlist_head(&p_osm->plugin_list); item != cl_qlist_end(&p_osm->plugin_list); item = cl_qlist_next(item)) fprintf(out, " %s", ((osm_epi_plugin_t *)item)->plugin_name); fprintf(out, "\n"); #ifdef ENABLE_OSM_PERF_MGR fprintf(out, "\n PerfMgr state/sweep state : %s/%s\n", osm_perfmgr_get_state_str(&p_osm->perfmgr), osm_perfmgr_get_sweep_state_str(&p_osm->perfmgr)); #endif fprintf(out, "\n MAD stats\n" " ---------\n" " QP0 MADs outstanding : %u\n" " QP0 MADs outstanding (on wire) : %u\n" " QP0 MADs rcvd : %u\n" " QP0 MADs sent : %u\n" " QP0 unicasts sent : %u\n" " QP0 unknown MADs rcvd : %u\n" " SA MADs outstanding : %u\n" " SA MADs rcvd : %u\n" " SA MADs sent : %u\n" " SA unknown MADs rcvd : %u\n" " SA MADs ignored : %u\n", (uint32_t)p_osm->stats.qp0_mads_outstanding, (uint32_t)p_osm->stats.qp0_mads_outstanding_on_wire, (uint32_t)p_osm->stats.qp0_mads_rcvd, (uint32_t)p_osm->stats.qp0_mads_sent, (uint32_t)p_osm->stats.qp0_unicasts_sent, (uint32_t)p_osm->stats.qp0_mads_rcvd_unknown, (uint32_t)p_osm->stats.sa_mads_outstanding, (uint32_t)p_osm->stats.sa_mads_rcvd, (uint32_t)p_osm->stats.sa_mads_sent, (uint32_t)p_osm->stats.sa_mads_rcvd_unknown, (uint32_t)p_osm->stats.sa_mads_ignored); fprintf(out, "\n Subnet flags\n" " ------------\n" " Sweeping enabled : %d\n" " Sweep interval (seconds) : %u\n" " Ignore existing lfts : %d\n" " Subnet Init errors : %d\n" " In sweep hop 0 : %d\n" " First time master sweep : %d\n" " Coming out of standby : %d\n", p_osm->subn.sweeping_enabled, p_osm->subn.opt.sweep_interval, p_osm->subn.ignore_existing_lfts, p_osm->subn.subnet_initialization_error, p_osm->subn.in_sweep_hop_0, p_osm->subn.first_time_master_sweep, p_osm->subn.coming_out_of_standby); dump_sms(p_osm, out); fprintf(out, "\n"); cl_plock_release(&p_osm->lock); } } static int loop_command_check_time(void) { time_t cur = time(NULL); if ((loop_command.previous + loop_command.delay_s) < cur) { loop_command.previous = cur; return 1; } return 0; } static void status_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; p_cmd = next_token(p_last); if (p_cmd) { if (strcmp(p_cmd, "loop") == 0) { fprintf(out, "Looping on status command...\n"); fflush(out); loop_command.on = 1; loop_command.previous = time(NULL); loop_command.loop_function = print_status; } else { help_status(out, 1); return; } } print_status(p_osm, out); } static void resweep_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; p_cmd = next_token(p_last); if (!p_cmd || (strcmp(p_cmd, "heavy") != 0 && strcmp(p_cmd, "light") != 0)) { fprintf(out, "Invalid resweep command\n"); help_resweep(out, 1); } else { if (strcmp(p_cmd, "heavy") == 0) p_osm->subn.force_heavy_sweep = TRUE; osm_opensm_sweep(p_osm); } } static void reroute_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { p_osm->subn.force_reroute = TRUE; osm_opensm_sweep(p_osm); } static void sweep_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; p_cmd = next_token(p_last); if (!p_cmd || (strcmp(p_cmd, "on") != 0 && strcmp(p_cmd, "off") != 0)) { fprintf(out, "Invalid sweep command\n"); help_sweep(out, 1); } else { if (strcmp(p_cmd, "on") == 0) p_osm->subn.sweeping_enabled = TRUE; else p_osm->subn.sweeping_enabled = FALSE; } } static void logflush_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; p_cmd = next_token(p_last); if (!p_cmd || (strcmp(p_cmd, "on") != 0 && strcmp(p_cmd, "off") != 0)) { fprintf(out, "Invalid logflush command\n"); help_sweep(out, 1); } else { if (strcmp(p_cmd, "on") == 0) { p_osm->log.flush = TRUE; fflush(p_osm->log.out_port); } else p_osm->log.flush = FALSE; } } static void querylid_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { unsigned int p = 0; uint16_t lid = 0; osm_port_t *p_port = NULL; char *p_cmd = next_token(p_last); if (!p_cmd) { fprintf(out, "no LID specified\n"); help_querylid(out, 1); return; } lid = (uint16_t) strtoul(p_cmd, NULL, 0); cl_plock_acquire(&p_osm->lock); p_port = osm_get_port_by_lid_ho(&p_osm->subn, lid); if (!p_port) goto invalid_lid; fprintf(out, "Query results for LID %u\n", lid); fprintf(out, " GUID : 0x%016" PRIx64 "\n" " Node Desc : %s\n" " Node Type : %s\n" " Num Ports : %d\n", cl_ntoh64(p_port->guid), p_port->p_node->print_desc, ib_get_node_type_str(osm_node_get_type(p_port->p_node)), p_port->p_node->node_info.num_ports); if (p_port->p_node->sw) p = 0; else p = 1; for ( /* see above */ ; p < p_port->p_node->physp_tbl_size; p++) { fprintf(out, " Port %u health : %s\n", p, p_port->p_node->physp_table[p]. healthy ? "OK" : "ERROR"); } cl_plock_release(&p_osm->lock); return; invalid_lid: cl_plock_release(&p_osm->lock); fprintf(out, "Invalid lid %d\n", lid); return; } /** * Data structures for the portstatus command */ typedef struct _port_report { struct _port_report *next; uint64_t node_guid; uint8_t port_num; char print_desc[IB_NODE_DESCRIPTION_SIZE + 1]; } port_report_t; static void __tag_port_report(port_report_t ** head, uint64_t node_guid, uint8_t port_num, char *print_desc) { port_report_t *rep = malloc(sizeof(*rep)); if (!rep) return; rep->node_guid = node_guid; rep->port_num = port_num; memcpy(rep->print_desc, print_desc, IB_NODE_DESCRIPTION_SIZE + 1); rep->next = NULL; if (*head) { rep->next = *head; *head = rep; } else *head = rep; } static void __print_port_report(FILE * out, port_report_t * head) { port_report_t *item = head; while (item != NULL) { fprintf(out, " 0x%016" PRIx64 " %d (%s)\n", item->node_guid, item->port_num, item->print_desc); port_report_t *next = item->next; free(item); item = next; } } typedef struct { uint8_t node_type_lim; /* limit the results; 0 == ALL */ uint64_t total_nodes; uint64_t total_ports; uint64_t ports_down; uint64_t ports_active; uint64_t ports_disabled; port_report_t *disabled_ports; uint64_t ports_1X; uint64_t ports_4X; uint64_t ports_8X; uint64_t ports_12X; uint64_t ports_2X; uint64_t ports_unknown_width; port_report_t *unknown_width_ports; uint64_t ports_unenabled_width; port_report_t *unenabled_width_ports; uint64_t ports_reduced_width; port_report_t *reduced_width_ports; uint64_t ports_sdr; uint64_t ports_ddr; uint64_t ports_qdr; uint64_t ports_fdr10; uint64_t ports_fdr; uint64_t ports_edr; uint64_t ports_unknown_speed; port_report_t *unknown_speed_ports; uint64_t ports_unenabled_speed; port_report_t *unenabled_speed_ports; uint64_t ports_reduced_speed; port_report_t *reduced_speed_ports; } fabric_stats_t; /** * iterator function to get portstatus on each node */ static void __get_stats(cl_map_item_t * const p_map_item, void *context) { fabric_stats_t *fs = (fabric_stats_t *) context; osm_node_t *node = (osm_node_t *) p_map_item; osm_physp_t *physp0; ib_port_info_t *pi0; uint8_t num_ports = osm_node_get_num_physp(node); uint8_t port = 0; /* Skip nodes we are not interested in */ if (fs->node_type_lim != 0 && fs->node_type_lim != node->node_info.node_type) return; fs->total_nodes++; if (osm_node_get_type(node) == IB_NODE_TYPE_SWITCH) { physp0 = osm_node_get_physp_ptr(node, 0); pi0 = &physp0->port_info; } else pi0 = NULL; for (port = 1; port < num_ports; port++) { osm_physp_t *phys = osm_node_get_physp_ptr(node, port); ib_port_info_t *pi = NULL; ib_mlnx_ext_port_info_t *epi = NULL; uint8_t active_speed = 0; uint8_t enabled_speed = 0; uint8_t active_width = 0; uint8_t enabled_width = 0; uint8_t port_state = 0; uint8_t port_phys_state = 0; if (!phys) continue; pi = &phys->port_info; epi = &phys->ext_port_info; if (!pi0) pi0 = pi; active_speed = ib_port_info_get_link_speed_active(pi); enabled_speed = ib_port_info_get_link_speed_enabled(pi); active_width = pi->link_width_active; enabled_width = pi->link_width_enabled; port_state = ib_port_info_get_port_state(pi); port_phys_state = ib_port_info_get_port_phys_state(pi); if (port_state == IB_LINK_DOWN) fs->ports_down++; else if (port_state == IB_LINK_ACTIVE) fs->ports_active++; if (port_phys_state == IB_PORT_PHYS_STATE_DISABLED) { __tag_port_report(&(fs->disabled_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_disabled++; } fs->total_ports++; if (port_state == IB_LINK_DOWN) continue; if (!(active_width & enabled_width)) { __tag_port_report(&(fs->unenabled_width_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_unenabled_width++; } else if ((enabled_width ^ active_width) > active_width) { __tag_port_report(&(fs->reduced_width_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_reduced_width++; } /* unenabled speed usually due to problems with force_link_speed */ if (!(active_speed & enabled_speed)) { __tag_port_report(&(fs->unenabled_speed_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_unenabled_speed++; } else if ((enabled_speed ^ active_speed) > active_speed) { __tag_port_report(&(fs->reduced_speed_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_reduced_speed++; } switch (active_speed) { case IB_LINK_SPEED_ACTIVE_2_5: fs->ports_sdr++; break; case IB_LINK_SPEED_ACTIVE_5: fs->ports_ddr++; break; case IB_LINK_SPEED_ACTIVE_10: if (!(pi0->capability_mask & IB_PORT_CAP_HAS_EXT_SPEEDS) || !ib_port_info_get_link_speed_ext_active(pi)) { if (epi->link_speed_active & FDR10) fs->ports_fdr10++; else { fs->ports_qdr++; /* check for speed reduced from FDR10 */ if (epi->link_speed_enabled & FDR10) { __tag_port_report(&(fs->reduced_speed_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_reduced_speed++; } } } break; case IB_LINK_SPEED_ACTIVE_EXTENDED: break; default: __tag_port_report(&(fs->unknown_speed_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_unknown_speed++; break; } if (pi0->capability_mask & IB_PORT_CAP_HAS_EXT_SPEEDS && ib_port_info_get_link_speed_ext_sup(pi) && (enabled_speed = ib_port_info_get_link_speed_ext_enabled(pi)) != IB_LINK_SPEED_EXT_DISABLE && active_speed == IB_LINK_SPEED_ACTIVE_10) { active_speed = ib_port_info_get_link_speed_ext_active(pi); if (!(active_speed & enabled_speed)) { __tag_port_report(&(fs->unenabled_speed_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_unenabled_speed++; } else if ((enabled_speed ^ active_speed) > active_speed) { __tag_port_report(&(fs->reduced_speed_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_reduced_speed++; } switch (active_speed) { case IB_LINK_SPEED_EXT_ACTIVE_14: fs->ports_fdr++; break; case IB_LINK_SPEED_EXT_ACTIVE_25: fs->ports_edr++; break; case IB_LINK_SPEED_EXT_ACTIVE_NONE: break; default: __tag_port_report(&(fs->unknown_speed_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_unknown_speed++; break; } } switch (active_width) { case IB_LINK_WIDTH_ACTIVE_1X: fs->ports_1X++; break; case IB_LINK_WIDTH_ACTIVE_4X: fs->ports_4X++; break; case IB_LINK_WIDTH_ACTIVE_8X: fs->ports_8X++; break; case IB_LINK_WIDTH_ACTIVE_12X: fs->ports_12X++; break; case IB_LINK_WIDTH_ACTIVE_2X: fs->ports_2X++; break; default: __tag_port_report(&(fs->unknown_width_ports), cl_ntoh64(node->node_info.node_guid), port, node->print_desc); fs->ports_unknown_width++; break; } } } static void portstatus_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { fabric_stats_t fs; struct timeval before, after; char *p_cmd; memset(&fs, 0, sizeof(fs)); p_cmd = next_token(p_last); if (p_cmd) { if (strcmp(p_cmd, "ca") == 0) { fs.node_type_lim = IB_NODE_TYPE_CA; } else if (strcmp(p_cmd, "switch") == 0) { fs.node_type_lim = IB_NODE_TYPE_SWITCH; } else if (strcmp(p_cmd, "router") == 0) { fs.node_type_lim = IB_NODE_TYPE_ROUTER; } else { fprintf(out, "Node type not understood\n"); help_portstatus(out, 1); return; } } gettimeofday(&before, NULL); /* for each node in the system gather the stats */ cl_plock_acquire(&p_osm->lock); cl_qmap_apply_func(&(p_osm->subn.node_guid_tbl), __get_stats, (void *)&fs); cl_plock_release(&p_osm->lock); gettimeofday(&after, NULL); /* report the stats */ fprintf(out, "\"%s\" port status:\n", fs.node_type_lim ? ib_get_node_type_str(fs. node_type_lim) : "ALL"); fprintf(out, " %" PRIu64 " port(s) scanned on %" PRIu64 " nodes in %lu us\n", fs.total_ports, fs.total_nodes, after.tv_usec - before.tv_usec); if (fs.ports_down) fprintf(out, " %" PRIu64 " down\n", fs.ports_down); if (fs.ports_active) fprintf(out, " %" PRIu64 " active\n", fs.ports_active); if (fs.ports_1X) fprintf(out, " %" PRIu64 " at 1X\n", fs.ports_1X); if (fs.ports_4X) fprintf(out, " %" PRIu64 " at 4X\n", fs.ports_4X); if (fs.ports_8X) fprintf(out, " %" PRIu64 " at 8X\n", fs.ports_8X); if (fs.ports_12X) fprintf(out, " %" PRIu64 " at 12X\n", fs.ports_12X); if (fs.ports_sdr) fprintf(out, " %" PRIu64 " at 2.5 Gbps\n", fs.ports_sdr); if (fs.ports_ddr) fprintf(out, " %" PRIu64 " at 5.0 Gbps\n", fs.ports_ddr); if (fs.ports_qdr) fprintf(out, " %" PRIu64 " at 10.0 Gbps\n", fs.ports_qdr); if (fs.ports_fdr10) fprintf(out, " %" PRIu64 " at 10.0 Gbps (FDR10)\n", fs.ports_fdr10); if (fs.ports_fdr) fprintf(out, " %" PRIu64 " at 14.0625 Gbps\n", fs.ports_fdr); if (fs.ports_edr) fprintf(out, " %" PRIu64 " at 25.78125 Gbps\n", fs.ports_edr); if (fs.ports_disabled + fs.ports_reduced_speed + fs.ports_reduced_width + fs.ports_unenabled_width + fs.ports_unenabled_speed + fs.ports_unknown_width + fs.ports_unknown_speed > 0) { fprintf(out, "\nPossible issues:\n"); } if (fs.ports_disabled) { fprintf(out, " %" PRIu64 " disabled\n", fs.ports_disabled); __print_port_report(out, fs.disabled_ports); } if (fs.ports_unenabled_speed) { fprintf(out, " %" PRIu64 " with unenabled speed\n", fs.ports_unenabled_speed); __print_port_report(out, fs.unenabled_speed_ports); } if (fs.ports_reduced_speed) { fprintf(out, " %" PRIu64 " with reduced speed\n", fs.ports_reduced_speed); __print_port_report(out, fs.reduced_speed_ports); } if (fs.ports_unknown_speed) { fprintf(out, " %" PRIu64 " with unknown speed\n", fs.ports_unknown_speed); __print_port_report(out, fs.unknown_speed_ports); } if (fs.ports_unenabled_width) { fprintf(out, " %" PRIu64 " with unenabled width\n", fs.ports_unenabled_width); __print_port_report(out, fs.unenabled_width_ports); } if (fs.ports_reduced_width) { fprintf(out, " %" PRIu64 " with reduced width\n", fs.ports_reduced_width); __print_port_report(out, fs.reduced_width_ports); } if (fs.ports_unknown_width) { fprintf(out, " %" PRIu64 " with unknown width\n", fs.ports_unknown_width); __print_port_report(out, fs.unknown_width_ports); } fprintf(out, "\n"); } static void switchbalance_check(osm_opensm_t * p_osm, osm_switch_t * p_sw, FILE * out, int verbose) { uint8_t port_num; uint8_t num_ports; const cl_qmap_t *p_port_tbl; osm_port_t *p_port; osm_physp_t *p_physp; osm_physp_t *p_rem_physp; osm_node_t *p_rem_node; uint32_t count[255]; /* max ports is a uint8_t */ uint8_t output_ports[255]; uint8_t output_ports_count = 0; uint32_t min_count = 0xFFFFFFFF; uint32_t max_count = 0; unsigned int i; memset(count, '\0', sizeof(uint32_t) * 255); /* Count port usage */ p_port_tbl = &p_osm->subn.port_guid_tbl; for (p_port = (osm_port_t *) cl_qmap_head(p_port_tbl); p_port != (osm_port_t *) cl_qmap_end(p_port_tbl); p_port = (osm_port_t *) cl_qmap_next(&p_port->map_item)) { uint16_t min_lid_ho; uint16_t max_lid_ho; uint16_t lid_ho; /* Don't count switches in port usage */ if (osm_node_get_type(p_port->p_node) == IB_NODE_TYPE_SWITCH) continue; osm_port_get_lid_range_ho(p_port, &min_lid_ho, &max_lid_ho); if (min_lid_ho == 0 || max_lid_ho == 0) continue; for (lid_ho = min_lid_ho; lid_ho <= max_lid_ho; lid_ho++) { port_num = osm_switch_get_port_by_lid(p_sw, lid_ho, OSM_NEW_LFT); if (port_num == OSM_NO_PATH) continue; count[port_num]++; } } num_ports = p_sw->num_ports; for (port_num = 1; port_num < num_ports; port_num++) { p_physp = osm_node_get_physp_ptr(p_sw->p_node, port_num); /* if port is down/unhealthy, don't consider it in * min/max calculations */ if (!p_physp || !osm_physp_is_healthy(p_physp) || !osm_physp_get_remote(p_physp)) continue; p_rem_physp = osm_physp_get_remote(p_physp); p_rem_node = osm_physp_get_node_ptr(p_rem_physp); /* If we are directly connected to a CA/router, its not really * up for balancing consideration. */ if (osm_node_get_type(p_rem_node) != IB_NODE_TYPE_SWITCH) continue; output_ports[output_ports_count] = port_num; output_ports_count++; if (count[port_num] < min_count) min_count = count[port_num]; if (count[port_num] > max_count) max_count = count[port_num]; } if (verbose || ((max_count - min_count) > 1)) { if ((max_count - min_count) > 1) fprintf(out, "Unbalanced Switch: 0x%016" PRIx64 " (%s)\n", cl_ntoh64(p_sw->p_node->node_info.node_guid), p_sw->p_node->print_desc); else fprintf(out, "Switch: 0x%016" PRIx64 " (%s)\n", cl_ntoh64(p_sw->p_node->node_info.node_guid), p_sw->p_node->print_desc); for (i = 0; i < output_ports_count; i++) { fprintf(out, "Port %d: %d\n", output_ports[i], count[output_ports[i]]); } } } static void switchbalance_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; uint64_t guid = 0; osm_switch_t *p_sw; int verbose = 0; p_cmd = next_token(p_last); if (p_cmd) { char *p_end; if (strcmp(p_cmd, "verbose") == 0) { verbose++; p_cmd = next_token(p_last); } if (p_cmd) { guid = strtoull(p_cmd, &p_end, 0); if (!guid || *p_end != '\0') { fprintf(out, "Invalid guid specified\n"); help_switchbalance(out, 1); return; } } } cl_plock_acquire(&p_osm->lock); if (guid) { p_sw = osm_get_switch_by_guid(&p_osm->subn, cl_hton64(guid)); if (!p_sw) { fprintf(out, "guid not found\n"); goto lock_exit; } switchbalance_check(p_osm, p_sw, out, verbose); } else { cl_qmap_t *p_sw_guid_tbl = &p_osm->subn.sw_guid_tbl; for (p_sw = (osm_switch_t *) cl_qmap_head(p_sw_guid_tbl); p_sw != (osm_switch_t *) cl_qmap_end(p_sw_guid_tbl); p_sw = (osm_switch_t *) cl_qmap_next(&p_sw->map_item)) switchbalance_check(p_osm, p_sw, out, verbose); } lock_exit: cl_plock_release(&p_osm->lock); return; } static void lidbalance_check(osm_opensm_t * p_osm, osm_switch_t * p_sw, FILE * out) { uint8_t port_num; const cl_qmap_t *p_port_tbl; osm_port_t *p_port; p_port_tbl = &p_osm->subn.port_guid_tbl; for (p_port = (osm_port_t *) cl_qmap_head(p_port_tbl); p_port != (osm_port_t *) cl_qmap_end(p_port_tbl); p_port = (osm_port_t *) cl_qmap_next(&p_port->map_item)) { uint32_t port_count[255]; /* max ports is a uint8_t */ osm_node_t *rem_node[255]; uint32_t rem_node_count; uint32_t rem_count[255]; osm_physp_t *p_physp; osm_physp_t *p_rem_physp; osm_node_t *p_rem_node; uint32_t port_min_count = 0xFFFFFFFF; uint32_t port_max_count = 0; uint32_t rem_min_count = 0xFFFFFFFF; uint32_t rem_max_count = 0; uint16_t min_lid_ho; uint16_t max_lid_ho; uint16_t lid_ho; uint8_t num_ports; unsigned int i; /* we only care about non-switches */ if (osm_node_get_type(p_port->p_node) == IB_NODE_TYPE_SWITCH) continue; osm_port_get_lid_range_ho(p_port, &min_lid_ho, &max_lid_ho); if (min_lid_ho == 0 || max_lid_ho == 0) continue; memset(port_count, '\0', sizeof(uint32_t) * 255); memset(rem_node, '\0', sizeof(osm_node_t *) * 255); rem_node_count = 0; memset(rem_count, '\0', sizeof(uint32_t) * 255); for (lid_ho = min_lid_ho; lid_ho <= max_lid_ho; lid_ho++) { boolean_t rem_node_found = FALSE; unsigned int indx = 0; port_num = osm_switch_get_port_by_lid(p_sw, lid_ho, OSM_NEW_LFT); if (port_num == OSM_NO_PATH) continue; p_physp = osm_node_get_physp_ptr(p_sw->p_node, port_num); /* if port is down/unhealthy, can't calculate */ if (!p_physp || !osm_physp_is_healthy(p_physp) || !osm_physp_get_remote(p_physp)) continue; p_rem_physp = osm_physp_get_remote(p_physp); p_rem_node = osm_physp_get_node_ptr(p_rem_physp); /* determine if we've seen this remote node before. * If not, store it. If yes, update the counter */ for (i = 0; i < rem_node_count; i++) { if (rem_node[i] == p_rem_node) { rem_node_found = TRUE; indx = i; break; } } if (!rem_node_found) { rem_node[rem_node_count] = p_rem_node; rem_count[rem_node_count]++; indx = rem_node_count; rem_node_count++; } else rem_count[indx]++; port_count[port_num]++; } if (!rem_node_count) continue; for (i = 0; i < rem_node_count; i++) { if (rem_count[i] < rem_min_count) rem_min_count = rem_count[i]; if (rem_count[i] > rem_max_count) rem_max_count = rem_count[i]; } num_ports = p_sw->num_ports; for (i = 0; i < num_ports; i++) { if (!port_count[i]) continue; if (port_count[i] < port_min_count) port_min_count = port_count[i]; if (port_count[i] > port_max_count) port_max_count = port_count[i]; } /* Output if this CA/router is being forwarded an unbalanced number of * times to a destination. */ if ((rem_max_count - rem_min_count) > 1) { fprintf(out, "Unbalanced Remote Forwarding: Switch 0x%016" PRIx64 " (%s): ", cl_ntoh64(p_sw->p_node->node_info.node_guid), p_sw->p_node->print_desc); if (osm_node_get_type(p_port->p_node) == IB_NODE_TYPE_CA) fprintf(out, "CA"); else if (osm_node_get_type(p_port->p_node) == IB_NODE_TYPE_ROUTER) fprintf(out, "Router"); fprintf(out, " 0x%016" PRIx64 " (%s): ", cl_ntoh64(p_port->p_node->node_info.node_guid), p_port->p_node->print_desc); for (i = 0; i < rem_node_count; i++) { fprintf(out, "Dest 0x%016" PRIx64 "(%s) - %u ", cl_ntoh64(rem_node[i]->node_info. node_guid), rem_node[i]->print_desc, rem_count[i]); } fprintf(out, "\n"); } /* Output if this CA/router is being forwarded through a port * an unbalanced number of times. */ if ((port_max_count - port_min_count) > 1) { fprintf(out, "Unbalanced Port Forwarding: Switch 0x%016" PRIx64 " (%s): ", cl_ntoh64(p_sw->p_node->node_info.node_guid), p_sw->p_node->print_desc); if (osm_node_get_type(p_port->p_node) == IB_NODE_TYPE_CA) fprintf(out, "CA"); else if (osm_node_get_type(p_port->p_node) == IB_NODE_TYPE_ROUTER) fprintf(out, "Router"); fprintf(out, " 0x%016" PRIx64 " (%s): ", cl_ntoh64(p_port->p_node->node_info.node_guid), p_port->p_node->print_desc); for (i = 0; i < num_ports; i++) { if (!port_count[i]) continue; fprintf(out, "Port %u - %u: ", i, port_count[i]); } fprintf(out, "\n"); } } } static void lidbalance_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; uint64_t guid = 0; osm_switch_t *p_sw; p_cmd = next_token(p_last); if (p_cmd) { char *p_end; guid = strtoull(p_cmd, &p_end, 0); if (!guid || *p_end != '\0') { fprintf(out, "Invalid switchguid specified\n"); help_lidbalance(out, 1); return; } } cl_plock_acquire(&p_osm->lock); if (guid) { p_sw = osm_get_switch_by_guid(&p_osm->subn, cl_hton64(guid)); if (!p_sw) { fprintf(out, "switchguid not found\n"); goto lock_exit; } lidbalance_check(p_osm, p_sw, out); } else { cl_qmap_t *p_sw_guid_tbl = &p_osm->subn.sw_guid_tbl; for (p_sw = (osm_switch_t *) cl_qmap_head(p_sw_guid_tbl); p_sw != (osm_switch_t *) cl_qmap_end(p_sw_guid_tbl); p_sw = (osm_switch_t *) cl_qmap_next(&p_sw->map_item)) lidbalance_check(p_osm, p_sw, out); } lock_exit: cl_plock_release(&p_osm->lock); return; } static void dump_conf_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { osm_subn_output_conf(out, &p_osm->subn.opt); } static void update_desc_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { osm_update_node_desc(p_osm); } #ifdef ENABLE_OSM_PERF_MGR static monitored_node_t *find_node_by_name(osm_opensm_t * p_osm, char *nodename) { cl_map_item_t *item; monitored_node_t *node; item = cl_qmap_head(&p_osm->perfmgr.monitored_map); while (item != cl_qmap_end(&p_osm->perfmgr.monitored_map)) { node = (monitored_node_t *)item; if (strcmp(node->name, nodename) == 0) return node; item = cl_qmap_next(item); } return NULL; } static monitored_node_t *find_node_by_guid(osm_opensm_t * p_osm, uint64_t guid) { cl_map_item_t *node; node = cl_qmap_get(&p_osm->perfmgr.monitored_map, guid); if (node != cl_qmap_end(&p_osm->perfmgr.monitored_map)) return (monitored_node_t *)node; return NULL; } static void dump_redir_entry(monitored_node_t *p_mon_node, FILE * out) { int port, redir; /* only display monitored nodes with redirection info */ redir = 0; for (port = (p_mon_node->esp0) ? 0 : 1; port < p_mon_node->num_ports; port++) { if (p_mon_node->port[port].redirection) { if (!redir) { fprintf(out, " Node GUID ESP0 Name\n"); fprintf(out, " --------- ---- ----\n"); fprintf(out, " 0x%" PRIx64 " %d %s\n", p_mon_node->guid, p_mon_node->esp0, p_mon_node->name); fprintf(out, "\n Port Valid LIDs PKey QP PKey Index\n"); fprintf(out, " ---- ----- ---- ---- -- ----------\n"); redir = 1; } fprintf(out, " %d %d %u->%u 0x%x 0x%x %d\n", port, p_mon_node->port[port].valid, cl_ntoh16(p_mon_node->port[port].orig_lid), cl_ntoh16(p_mon_node->port[port].lid), cl_ntoh16(p_mon_node->port[port].pkey), cl_ntoh32(p_mon_node->port[port].qp), p_mon_node->port[port].pkey_ix); } } if (redir) fprintf(out, "\n"); } static void dump_redir(osm_opensm_t * p_osm, char *nodename, FILE * out) { monitored_node_t *p_mon_node; uint64_t guid; if (!p_osm->subn.opt.perfmgr_redir) fprintf(out, "Perfmgr redirection not enabled\n"); fprintf(out, "\nRedirection Table\n"); fprintf(out, "-----------------\n"); cl_plock_acquire(&p_osm->lock); if (nodename) { guid = strtoull(nodename, NULL, 0); if (guid == 0 && errno) p_mon_node = find_node_by_name(p_osm, nodename); else p_mon_node = find_node_by_guid(p_osm, guid); if (p_mon_node) dump_redir_entry(p_mon_node, out); else { if (guid == 0 && errno) fprintf(out, "Node %s not found...\n", nodename); else fprintf(out, "Node 0x%" PRIx64 " not found...\n", guid); } } else { p_mon_node = (monitored_node_t *) cl_qmap_head(&p_osm->perfmgr.monitored_map); while (p_mon_node != (monitored_node_t *) cl_qmap_end(&p_osm->perfmgr.monitored_map)) { dump_redir_entry(p_mon_node, out); p_mon_node = (monitored_node_t *) cl_qmap_next((const cl_map_item_t *)p_mon_node); } } cl_plock_release(&p_osm->lock); } static void clear_redir_entry(monitored_node_t *p_mon_node) { int port; ib_net16_t orig_lid; for (port = (p_mon_node->esp0) ? 0 : 1; port < p_mon_node->num_ports; port++) { if (p_mon_node->port[port].redirection) { orig_lid = p_mon_node->port[port].orig_lid; memset(&p_mon_node->port[port], 0, sizeof(monitored_port_t)); p_mon_node->port[port].valid = TRUE; p_mon_node->port[port].orig_lid = orig_lid; } } } static void clear_redir(osm_opensm_t * p_osm, char *nodename, FILE * out) { monitored_node_t *p_mon_node; uint64_t guid; if (!p_osm->subn.opt.perfmgr_redir) fprintf(out, "Perfmgr redirection not enabled\n"); cl_plock_acquire(&p_osm->lock); if (nodename) { guid = strtoull(nodename, NULL, 0); if (guid == 0 && errno) p_mon_node = find_node_by_name(p_osm, nodename); else p_mon_node = find_node_by_guid(p_osm, guid); if (p_mon_node) clear_redir_entry(p_mon_node); else { if (guid == 0 && errno) fprintf(out, "Node %s not found...\n", nodename); else fprintf(out, "Node 0x%" PRIx64 " not found...\n", guid); } } else { p_mon_node = (monitored_node_t *) cl_qmap_head(&p_osm->perfmgr.monitored_map); while (p_mon_node != (monitored_node_t *) cl_qmap_end(&p_osm->perfmgr.monitored_map)) { clear_redir_entry(p_mon_node); p_mon_node = (monitored_node_t *) cl_qmap_next((const cl_map_item_t *)p_mon_node); } } cl_plock_release(&p_osm->lock); } static void perfmgr_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { char *p_cmd; p_cmd = next_token(p_last); if (p_cmd) { if (strcmp(p_cmd, "enable") == 0) { osm_perfmgr_set_state(&p_osm->perfmgr, PERFMGR_STATE_ENABLED); } else if (strcmp(p_cmd, "disable") == 0) { osm_perfmgr_set_state(&p_osm->perfmgr, PERFMGR_STATE_DISABLE); } else if (strcmp(p_cmd, "clear_counters") == 0) { osm_perfmgr_clear_counters(&p_osm->perfmgr); } else if (strcmp(p_cmd, "set_rm_nodes") == 0) { osm_perfmgr_set_rm_nodes(&p_osm->perfmgr, 1); } else if (strcmp(p_cmd, "clear_rm_nodes") == 0) { osm_perfmgr_set_rm_nodes(&p_osm->perfmgr, 0); } else if (strcmp(p_cmd, "set_query_cpi") == 0) { osm_perfmgr_set_query_cpi(&p_osm->perfmgr, 1); } else if (strcmp(p_cmd, "clear_query_cpi") == 0) { osm_perfmgr_set_query_cpi(&p_osm->perfmgr, 0); } else if (strcmp(p_cmd, "dump_counters") == 0) { p_cmd = next_token(p_last); if (p_cmd && (strcmp(p_cmd, "mach") == 0)) { osm_perfmgr_dump_counters(&p_osm->perfmgr, PERFMGR_EVENT_DB_DUMP_MR); } else { osm_perfmgr_dump_counters(&p_osm->perfmgr, PERFMGR_EVENT_DB_DUMP_HR); } } else if (strcmp(p_cmd, "clear_inactive") == 0) { unsigned cnt = osm_perfmgr_delete_inactive(&p_osm->perfmgr); fprintf(out, "Removed %u nodes from Database\n", cnt); } else if (strcmp(p_cmd, "print_counters") == 0 || strcmp(p_cmd, "pc") == 0) { char *port = NULL; p_cmd = name_token(p_last); if (p_cmd) { port = strchr(p_cmd, ':'); if (port) { *port = '\0'; port++; } } osm_perfmgr_print_counters(&p_osm->perfmgr, p_cmd, out, port, 0); } else if (strcmp(p_cmd, "print_errors") == 0 || strcmp(p_cmd, "pe") == 0) { p_cmd = name_token(p_last); osm_perfmgr_print_counters(&p_osm->perfmgr, p_cmd, out, NULL, 1); } else if (strcmp(p_cmd, "dump_redir") == 0) { p_cmd = name_token(p_last); dump_redir(p_osm, p_cmd, out); } else if (strcmp(p_cmd, "clear_redir") == 0) { p_cmd = name_token(p_last); clear_redir(p_osm, p_cmd, out); } else if (strcmp(p_cmd, "sweep_time") == 0) { p_cmd = next_token(p_last); if (p_cmd) { uint16_t time_s = atoi(p_cmd); if (time_s < 1) fprintf(out, "sweep_time requires a " "positive time period " "(in seconds) to be " "specified\n"); else osm_perfmgr_set_sweep_time_s( &p_osm->perfmgr, time_s); } else { fprintf(out, "sweep_time requires a time period " "(in seconds) to be specified\n"); } } else if (strcmp(p_cmd, "sweep") == 0) { osm_sm_signal(&p_osm->sm, OSM_SIGNAL_PERFMGR_SWEEP); fprintf(out, "sweep initiated...\n"); } else { fprintf(out, "\"%s\" option not found\n", p_cmd); } } else { fprintf(out, "Performance Manager status:\n" "state : %s\n" "sweep state : %s\n" "sweep time : %us\n" "outstanding queries/max : %d/%u\n" "remove missing nodes from DB : %s\n" "query ClassPortInfo : %s\n", osm_perfmgr_get_state_str(&p_osm->perfmgr), osm_perfmgr_get_sweep_state_str(&p_osm->perfmgr), osm_perfmgr_get_sweep_time_s(&p_osm->perfmgr), p_osm->perfmgr.outstanding_queries, p_osm->perfmgr.max_outstanding_queries, osm_perfmgr_get_rm_nodes(&p_osm->perfmgr) ? "TRUE" : "FALSE", osm_perfmgr_get_query_cpi(&p_osm->perfmgr) ? "TRUE" : "FALSE"); } } #endif /* ENABLE_OSM_PERF_MGR */ static void quit_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { cio_close(&p_osm->console, &p_osm->log); } static void help_version(FILE * out, int detail) { fprintf(out, "version -- print the OSM version\n"); } static void version_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { - fprintf(out, "%s build %s %s\n", p_osm->osm_version, __DATE__, __TIME__); + fprintf(out, "%s\n", p_osm->osm_version); } /* more parse routines go here */ typedef struct _regexp_list { regex_t exp; struct _regexp_list *next; } regexp_list_t; static void dump_portguid_parse(char **p_last, osm_opensm_t * p_osm, FILE * out) { cl_qmap_t *p_alias_port_guid_tbl; osm_alias_guid_t *p_alias_guid, *p_next_alias_guid; regexp_list_t *p_regexp, *p_head_regexp = NULL; FILE *output = out; while (1) { char *p_cmd = next_token(p_last); if (!p_cmd) break; if (strcmp(p_cmd, "file") == 0) { p_cmd = next_token(p_last); if (p_cmd) { output = fopen(p_cmd, "w+"); if (output == NULL) { fprintf(out, "Could not open file %s: %s\n", p_cmd, strerror(errno)); output = out; } } else fprintf(out, "No file name passed\n"); } else if (!(p_regexp = malloc(sizeof(*p_regexp)))) { fprintf(out, "No memory\n"); break; } else if (regcomp(&p_regexp->exp, p_cmd, REG_NOSUB | REG_EXTENDED) != 0) { fprintf(out, "Cannot parse regular expression \'%s\'." " Skipping\n", p_cmd); free(p_regexp); continue; } else { p_regexp->next = p_head_regexp; p_head_regexp = p_regexp; } } /* Check we have at least one expression to match */ if (p_head_regexp == NULL) { fprintf(out, "No valid expression provided. Aborting\n"); goto Exit; } if (p_osm->sm.p_subn->need_update != 0) { fprintf(out, "Subnet is not ready yet. Try again later\n"); goto Free_and_exit; } /* Subnet doesn't need to be updated so we can carry on */ p_alias_port_guid_tbl = &(p_osm->sm.p_subn->alias_port_guid_tbl); CL_PLOCK_ACQUIRE(p_osm->sm.p_lock); p_next_alias_guid = (osm_alias_guid_t *) cl_qmap_head(p_alias_port_guid_tbl); while (p_next_alias_guid != (osm_alias_guid_t *) cl_qmap_end(p_alias_port_guid_tbl)) { p_alias_guid = p_next_alias_guid; p_next_alias_guid = (osm_alias_guid_t *) cl_qmap_next(&p_next_alias_guid->map_item); for (p_regexp = p_head_regexp; p_regexp != NULL; p_regexp = p_regexp->next) if (regexec(&p_regexp->exp, p_alias_guid->p_base_port->p_node->print_desc, 0, NULL, 0) == 0) { fprintf(output, "0x%" PRIxLEAST64 "\n", cl_ntoh64(p_alias_guid->alias_guid)); break; } } CL_PLOCK_RELEASE(p_osm->sm.p_lock); Free_and_exit: for (; p_head_regexp; p_head_regexp = p_regexp) { p_regexp = p_head_regexp->next; regfree(&p_head_regexp->exp); free(p_head_regexp); } Exit: if (output != out) fclose(output); } static void help_dump_portguid(FILE * out, int detail) { fprintf(out, "dump_portguid [file filename] regexp1 [regexp2 [regexp3 ...]] -- Dump port GUID matching a regexp \n"); if (detail) { fprintf(out, "getguidgetguid -- Dump all the port GUID whom node_desc matches one of the provided regexp\n"); fprintf(out, " [file filename] -- Send the port GUID list to the specified file instead of regular output\n"); } } static const struct command console_cmds[] = { {"help", &help_command, &help_parse}, {"quit", &help_quit, &quit_parse}, {"loglevel", &help_loglevel, &loglevel_parse}, {"permodlog", &help_permodlog, &permodlog_parse}, {"priority", &help_priority, &priority_parse}, {"resweep", &help_resweep, &resweep_parse}, {"reroute", &help_reroute, &reroute_parse}, {"sweep", &help_sweep, &sweep_parse}, {"status", &help_status, &status_parse}, {"logflush", &help_logflush, &logflush_parse}, {"querylid", &help_querylid, &querylid_parse}, {"portstatus", &help_portstatus, &portstatus_parse}, {"switchbalance", &help_switchbalance, &switchbalance_parse}, {"lidbalance", &help_lidbalance, &lidbalance_parse}, {"dump_conf", &help_dump_conf, &dump_conf_parse}, {"update_desc", &help_update_desc, &update_desc_parse}, {"version", &help_version, &version_parse}, #ifdef ENABLE_OSM_PERF_MGR {"perfmgr", &help_perfmgr, &perfmgr_parse}, {"pm", &help_pm, &perfmgr_parse}, #endif /* ENABLE_OSM_PERF_MGR */ {"dump_portguid", &help_dump_portguid, &dump_portguid_parse}, {NULL, NULL, NULL} /* end of array */ }; static void parse_cmd_line(char *line, osm_opensm_t * p_osm) { char *p_cmd, *p_last; int i, found = 0; FILE *out = p_osm->console.out; while (isspace(*line)) line++; if (!*line) return; /* find first token which is the command */ p_cmd = strtok_r(line, " \t\n\r", &p_last); if (p_cmd) { for (i = 0; console_cmds[i].name; i++) { if (loop_command.on) { if (!strcmp(p_cmd, "q")) { loop_command.on = 0; } found = 1; break; } if (!strcmp(p_cmd, console_cmds[i].name)) { found = 1; console_cmds[i].parse_function(&p_last, p_osm, out); break; } } if (!found) { fprintf(out, "%s : Command not found\n\n", p_cmd); help_command(out, 0); } } else { fprintf(out, "Error parsing command line: `%s'\n", line); } if (loop_command.on) { fprintf(out, "use \"q\" to quit loop\n"); fflush(out); } } int osm_console(osm_opensm_t * p_osm) { struct pollfd pollfd[2]; char *p_line; size_t len; ssize_t n; struct pollfd *fds; nfds_t nfds; osm_console_t *p_oct = &p_osm->console; pollfd[0].fd = p_oct->socket; pollfd[0].events = POLLIN; pollfd[0].revents = 0; pollfd[1].fd = p_oct->in_fd; pollfd[1].events = POLLIN; pollfd[1].revents = 0; fds = p_oct->socket < 0 ? &pollfd[1] : pollfd; nfds = p_oct->socket < 0 || pollfd[1].fd < 0 ? 1 : 2; if (loop_command.on && loop_command_check_time() && loop_command.loop_function) { if (p_oct->out) { loop_command.loop_function(p_osm, p_oct->out); fflush(p_oct->out); } else { loop_command.on = 0; } } if (poll(fds, nfds, 1000) <= 0) return 0; #ifdef ENABLE_OSM_CONSOLE_LOOPBACK if (pollfd[0].revents & POLLIN) { int new_fd = 0; struct sockaddr_in sin; socklen_t len = sizeof(sin); struct hostent *hent; if ((new_fd = accept(p_oct->socket, (struct sockaddr *)&sin, &len)) < 0) { OSM_LOG(&p_osm->log, OSM_LOG_ERROR, "ERR 4B04: Failed to accept console socket: %s\n", strerror(errno)); p_oct->in_fd = -1; return 0; } if (inet_ntop (AF_INET, &sin.sin_addr, p_oct->client_ip, sizeof(p_oct->client_ip)) == NULL) { snprintf(p_oct->client_ip, sizeof(p_oct->client_ip), "STRING_UNKNOWN"); } if ((hent = gethostbyaddr((const char *)&sin.sin_addr, sizeof(struct in_addr), AF_INET)) == NULL) { snprintf(p_oct->client_hn, sizeof(p_oct->client_hn), "STRING_UNKNOWN"); } else { snprintf(p_oct->client_hn, sizeof(p_oct->client_hn), "%s", hent->h_name); } if (is_authorized(p_oct)) { cio_open(p_oct, new_fd, &p_osm->log); } else { OSM_LOG(&p_osm->log, OSM_LOG_ERROR, "ERR 4B05: Console connection denied: %s (%s)\n", p_oct->client_hn, p_oct->client_ip); close(new_fd); } return 0; } #endif if (pollfd[1].revents & POLLIN) { p_line = NULL; /* Get input line */ n = getline(&p_line, &len, p_oct->in); if (n > 0) { /* Parse and act on input */ parse_cmd_line(p_line, p_osm); if (!loop_command.on) { osm_console_prompt(p_oct->out); } } else cio_close(p_oct, &p_osm->log); if (p_line) free(p_line); return 0; } /* input fd is closed (hanged up) */ if (pollfd[1].revents & POLLHUP) { #ifdef ENABLE_OSM_CONSOLE_LOOPBACK /* If we are using a socket, we close the current connection */ if (p_oct->socket >= 0) { cio_close(p_oct, &p_osm->log); return 0; } #endif /* If we use a local console, stdin is closed (most probable is pipe ended) * so we close the local console */ return -1; } return 0; }