2 * Copyright (c) 2004-2009 Voltaire, Inc. All rights reserved.
3 * Copyright (c) 2002-2011 Mellanox Technologies LTD. All rights reserved.
4 * Copyright (c) 1996-2003 Intel Corporation. All rights reserved.
5 * Copyright (c) 2008 Xsigo Systems Inc. All rights reserved.
6 * Copyright (c) 2009 System Fabric Works, Inc. All rights reserved.
7 * Copyright (c) 2009 HNR Consulting. All rights reserved.
8 * Copyright (c) 2009-2015 ZIH, TU Dresden, Federal Republic of Germany. All rights reserved.
9 * Copyright (c) 2013 Oracle and/or its affiliates. All rights reserved.
11 * This software is available to you under a choice of one of two
12 * licenses. You may choose to be licensed under the terms of the GNU
13 * General Public License (GPL) Version 2, available from the file
14 * COPYING in the main directory of this source tree, or the
15 * OpenIB.org BSD license below:
17 * Redistribution and use in source and binary forms, with or
18 * without modification, are permitted provided that the following
21 * - Redistributions of source code must retain the above
22 * copyright notice, this list of conditions and the following
25 * - Redistributions in binary form must reproduce the above
26 * copyright notice, this list of conditions and the following
27 * disclaimer in the documentation and/or other materials
28 * provided with the distribution.
30 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
31 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
32 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
33 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
34 * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
35 * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
36 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
43 * Implementation of osm_subn_t.
44 * This object represents an IBA subnet.
45 * This object is part of the opensm family of objects.
50 #endif /* HAVE_CONFIG_H */
58 #include <complib/cl_debug.h>
59 #include <complib/cl_log.h>
60 #include <opensm/osm_file_ids.h>
61 #define FILE_ID OSM_FILE_SUBNET_C
62 #include <opensm/osm_subnet.h>
63 #include <opensm/osm_opensm.h>
64 #include <opensm/osm_log.h>
65 #include <opensm/osm_madw.h>
66 #include <opensm/osm_port.h>
67 #include <opensm/osm_switch.h>
68 #include <opensm/osm_remote_sm.h>
69 #include <opensm/osm_partition.h>
70 #include <opensm/osm_node.h>
71 #include <opensm/osm_guid.h>
72 #include <opensm/osm_multicast.h>
73 #include <opensm/osm_inform.h>
74 #include <opensm/osm_console.h>
75 #include <opensm/osm_perfmgr.h>
76 #include <opensm/osm_congestion_control.h>
77 #include <opensm/osm_event_plugin.h>
78 #include <opensm/osm_qos_policy.h>
79 #include <opensm/osm_service.h>
80 #include <opensm/osm_db.h>
81 #include <opensm/osm_db_pack.h>
83 static const char null_str[] = "(null)";
85 #define OPT_OFFSET(opt) offsetof(osm_subn_opt_t, opt)
86 #define ARR_SIZE(a) (sizeof(a)/sizeof((a)[0]))
88 typedef struct opt_rec {
90 unsigned long opt_offset;
91 void (*parse_fn)(osm_subn_t *p_subn, char *p_key, char *p_val_str,
92 void *p_val1, void *p_val2,
93 void (*)(osm_subn_t *, void *));
94 void (*setup_fn)(osm_subn_t *p_subn, void *p_val);
98 static const char *module_name_str[] = {
106 "osm_event_plugin.c",
107 "osm_guid_info_rcv.c",
116 "osm_mcast_fwd_rcv.c",
121 "osm_mlnx_ext_port_info_rcv.c",
125 "osm_node_desc_rcv.c",
126 "osm_node_info_rcv.c",
134 "osm_port_info_rcv.c",
138 "osm_qos_parser_l.c",
139 "osm_qos_parser_y.c",
146 "osm_sa_class_port_info.c",
147 "osm_sa_guidinfo_record.c",
148 "osm_sa_informinfo.c",
149 "osm_sa_lft_record.c",
150 "osm_sa_link_record.c",
152 "osm_sa_mcmember_record.c",
153 "osm_sa_mft_record.c",
154 "osm_sa_multipath_record.c",
155 "osm_sa_node_record.c",
156 "osm_sa_path_record.c",
157 "osm_sa_pkey_record.c",
158 "osm_sa_portinfo_record.c",
159 "osm_sa_service_record.c",
160 "osm_sa_slvl_record.c",
161 "osm_sa_sminfo_record.c",
162 "osm_sa_sw_info_record.c",
163 "osm_sa_vlarb_record.c",
165 "osm_slvl_map_rcv.c",
169 "osm_sm_state_mgr.c",
183 "osm_vendor_ibumad.c",
187 "osm_ucast_dfsssp.c",
188 "osm_congestion_control.c",
189 /* Add new module names here ... */
190 /* FILE_ID define in those modules must be identical to index here */
191 /* last FILE_ID is currently 89 */
194 #define MOD_NAME_STR_UNKNOWN_VAL (ARR_SIZE(module_name_str))
196 static int find_module_name(const char *name, uint8_t *file_id)
200 for (i = 0; i < MOD_NAME_STR_UNKNOWN_VAL; i++) {
201 if (strcmp(name, module_name_str[i]) == 0) {
210 static void log_report(const char *fmt, ...)
215 vsnprintf(buf, sizeof(buf), fmt, args);
218 cl_log_event("OpenSM", CL_LOG_INFO, buf, NULL, 0);
221 static void log_config_value(char *name, const char *fmt, ...)
227 n = snprintf(buf, sizeof(buf), " Loading Cached Option:%s = ", name);
230 n += vsnprintf(buf + n, sizeof(buf) - n, fmt, args);
231 if (n > sizeof(buf) - 2)
233 snprintf(buf + n, sizeof(buf) - n, "\n");
236 cl_log_event("OpenSM", CL_LOG_INFO, buf, NULL, 0);
239 static void opts_setup_log_flags(osm_subn_t *p_subn, void *p_val)
241 p_subn->p_osm->log.level = *((uint8_t *) p_val);
244 static void opts_setup_force_log_flush(osm_subn_t *p_subn, void *p_val)
246 p_subn->p_osm->log.flush = *((boolean_t *) p_val);
249 static void opts_setup_accum_log_file(osm_subn_t *p_subn, void *p_val)
251 p_subn->p_osm->log.accum_log_file = *((boolean_t *) p_val);
254 static void opts_setup_log_max_size(osm_subn_t *p_subn, void *p_val)
256 uint32_t log_max_size = *((uint32_t *) p_val);
258 p_subn->p_osm->log.max_size = (unsigned long)log_max_size << 20; /* convert from MB to bytes */
261 static void opts_setup_sminfo_polling_timeout(osm_subn_t *p_subn, void *p_val)
263 osm_sm_t *p_sm = &p_subn->p_osm->sm;
264 uint32_t sminfo_polling_timeout = *((uint32_t *) p_val);
266 cl_timer_stop(&p_sm->polling_timer);
267 cl_timer_start(&p_sm->polling_timer, sminfo_polling_timeout);
270 static void opts_setup_sm_priority(osm_subn_t *p_subn, void *p_val)
272 osm_sm_t *p_sm = &p_subn->p_osm->sm;
273 uint8_t sm_priority = *((uint8_t *) p_val);
275 osm_set_sm_priority(p_sm, sm_priority);
278 static int opts_strtoul(uint32_t *val, IN char *p_val_str,
279 IN char *p_key, uint32_t max_value)
282 unsigned long int tmp_val;
285 tmp_val = strtoul(p_val_str, &endptr, 0);
287 if (*p_val_str == '\0' || *endptr != '\0') {
288 log_report("-E- Parsing error in field %s, expected "
289 "numeric input received: %s\n", p_key, p_val_str);
292 if (tmp_val > max_value ||
293 ((tmp_val == ULONG_MAX) && errno == ERANGE)) {
294 log_report("-E- Parsing error in field %s, value out of range\n", p_key);
300 static int opts_strtoull(uint64_t *val, IN char *p_val_str,
301 IN char *p_key, uint64_t max_value)
304 unsigned long long int tmp_val;
307 tmp_val = strtoull(p_val_str, &endptr, 0);
309 if (*p_val_str == '\0' || *endptr != '\0') {
310 log_report("-E- Parsing error in field %s, expected "
311 "numeric input received: %s\n", p_key, p_val_str);
314 if (tmp_val > max_value || (tmp_val == ULLONG_MAX && errno == ERANGE)) {
315 log_report("-E- Parsing error in field %s, value out of range\n", p_key);
321 static void opts_parse_net64(IN osm_subn_t *p_subn, IN char *p_key,
322 IN char *p_val_str, void *p_v1, void *p_v2,
323 void (*pfn)(osm_subn_t *, void *))
325 uint64_t *p_val1 = p_v1, *p_val2 = p_v2;
328 if (opts_strtoull(&val, p_val_str, p_key, UINT64_MAX))
331 if (cl_hton64(val) != *p_val1) {
332 log_config_value(p_key, "0x%016" PRIx64, val);
335 *p_val1 = *p_val2 = cl_ntoh64(val);
339 static void opts_parse_uint32(IN osm_subn_t *p_subn, IN char *p_key,
340 IN char *p_val_str, void *p_v1, void *p_v2,
341 void (*pfn)(osm_subn_t *, void *))
343 uint32_t *p_val1 = p_v1, *p_val2 = p_v2;
346 if (opts_strtoul(&val, p_val_str, p_key, UINT32_MAX))
349 if (val != *p_val1) {
350 log_config_value(p_key, "%u", val);
353 *p_val1 = *p_val2 = val;
357 static void opts_parse_net32(IN osm_subn_t *p_subn, IN char *p_key,
358 IN char *p_val_str, void *p_v1, void *p_v2,
359 void (*pfn)(osm_subn_t *, void *))
361 uint32_t *p_val1 = p_v1, *p_val2 = p_v2;
364 if (opts_strtoul(&val, p_val_str, p_key, UINT32_MAX))
367 if (cl_hton32(val) != *p_val1) {
368 log_config_value(p_key, "%u", val);
371 *p_val1 = *p_val2 = cl_hton32(val);
375 static void opts_parse_int32(IN osm_subn_t *p_subn, IN char *p_key,
376 IN char *p_val_str, void *p_v1, void *p_v2,
377 void (*pfn)(osm_subn_t *, void *))
379 int32_t *p_val1 = p_v1, *p_val2 = p_v2;
380 int32_t val = strtol(p_val_str, NULL, 0);
382 if (val != *p_val1) {
383 log_config_value(p_key, "%d", val);
386 *p_val1 = *p_val2 = val;
390 static void opts_parse_uint16(IN osm_subn_t *p_subn, IN char *p_key,
391 IN char *p_val_str, void *p_v1, void *p_v2,
392 void (*pfn)(osm_subn_t *, void *))
394 uint16_t *p_val1 = p_v1, *p_val2 = p_v2;
397 if (opts_strtoul(&tmp_val, p_val_str, p_key, UINT16_MAX))
400 uint16_t val = (uint16_t) tmp_val;
401 if (val != *p_val1) {
402 log_config_value(p_key, "%u", val);
405 *p_val1 = *p_val2 = val;
409 static void opts_parse_net16(IN osm_subn_t *p_subn, IN char *p_key,
410 IN char *p_val_str, void *p_v1, void *p_v2,
411 void (*pfn)(osm_subn_t *, void *))
413 uint16_t *p_val1 = p_v1, *p_val2 = p_v2;
416 if (opts_strtoul(&tmp_val, p_val_str, p_key, UINT16_MAX))
419 uint16_t val = (uint16_t) tmp_val;
420 if (cl_hton16(val) != *p_val1) {
421 log_config_value(p_key, "0x%04x", val);
424 *p_val1 = *p_val2 = cl_hton16(val);
428 static void opts_parse_uint8(IN osm_subn_t *p_subn, IN char *p_key,
429 IN char *p_val_str, void *p_v1, void *p_v2,
430 void (*pfn)(osm_subn_t *, void *))
432 uint8_t *p_val1 = p_v1, *p_val2 = p_v2;
435 if (opts_strtoul(&tmp_val, p_val_str, p_key, UINT8_MAX))
438 uint8_t val = (uint8_t) tmp_val;
439 if (val != *p_val1) {
440 log_config_value(p_key, "%u", val);
443 *p_val1 = *p_val2 = val;
447 static void opts_parse_boolean(IN osm_subn_t *p_subn, IN char *p_key,
448 IN char *p_val_str, void *p_v1, void *p_v2,
449 void (*pfn)(osm_subn_t *, void *))
451 boolean_t *p_val1 = p_v1, *p_val2 = p_v2;
457 if (strcmp("TRUE", p_val_str))
462 if (val != *p_val1) {
463 log_config_value(p_key, "%s", p_val_str);
466 *p_val1 = *p_val2 = val;
470 static void opts_parse_charp(IN osm_subn_t *p_subn, IN char *p_key,
471 IN char *p_val_str, void *p_v1, void *p_v2,
472 void (*pfn)(osm_subn_t *, void *))
474 char **p_val1 = p_v1, **p_val2 = p_v2;
475 const char *current_str = *p_val1 ? *p_val1 : null_str;
477 if (p_val_str && strcmp(p_val_str, current_str)) {
479 log_config_value(p_key, "%s", p_val_str);
480 /* special case the "(null)" string */
481 new = strcmp(null_str, p_val_str) ? strdup(p_val_str) : NULL;
484 if (*p_val1 && *p_val1 != *p_val2)
488 *p_val1 = *p_val2 = new;
492 static void opts_parse_256bit(IN osm_subn_t *p_subn, IN char *p_key,
493 IN char *p_val_str, void *p_v1, void *p_v2,
494 void (*pfn)(osm_subn_t *, void *))
496 uint8_t *p_val1 = p_v1, *p_val2 = p_v2;
497 uint8_t val[IB_CC_PORT_MASK_DATA_SIZE] = { 0 };
498 char tmpbuf[3] = { 0 };
502 char *strptr = p_val_str;
506 /* parse like it's hypothetically a 256 bit integer code
511 if (!strncmp(strptr, "0x", 2) || !strncmp(strptr, "0X", 2))
514 for (ptr = strptr; *ptr; ptr++) {
515 if (!isxdigit(*ptr)) {
516 log_report("invalid hex digit in bitmask\n");
523 log_report("invalid length bitmask\n");
527 /* max of 2 hex chars per byte */
528 if (numdigits > IB_CC_PORT_MASK_DATA_SIZE * 2)
529 numdigits = IB_CC_PORT_MASK_DATA_SIZE * 2;
531 startindex = IB_CC_PORT_MASK_DATA_SIZE - ((numdigits - 1) / 2) - 1;
534 memcpy(tmpbuf, strptr, 1);
538 memcpy(tmpbuf, strptr, 2);
542 tmpint = strtoul(tmpbuf, NULL, 16);
543 val[startindex] = tmpint;
545 for (i = (startindex + 1); i < IB_CC_PORT_MASK_DATA_SIZE; i++) {
546 memcpy(tmpbuf, strptr, 2);
548 tmpint = strtoul(tmpbuf, NULL, 16);
552 if (memcmp(val, p_val1, IB_CC_PORT_MASK_DATA_SIZE)) {
553 log_config_value(p_key, "%s", p_val_str);
556 memcpy(p_val1, val, IB_CC_PORT_MASK_DATA_SIZE);
557 memcpy(p_val2, val, IB_CC_PORT_MASK_DATA_SIZE);
562 static void opts_parse_cct_entry(IN osm_subn_t *p_subn, IN char *p_key,
563 IN char *p_val_str, void *p_v1, void *p_v2,
564 void (*pfn)(osm_subn_t *, void *))
566 osm_cct_entry_t *p_cct1 = p_v1, *p_cct2 = p_v2;
568 char buf[512] = { 0 };
571 strncpy(buf, p_val_str, 511);
573 if (!(ptr = strchr(buf, ':'))) {
574 log_report("invalid CCT entry\n");
581 cct.shift = strtoul(buf, NULL, 0);
582 cct.multiplier = strtoul(ptr, NULL, 0);
584 if (cct.shift != p_cct1->shift
585 || cct.multiplier != p_cct1->multiplier) {
586 log_config_value(p_key, "%s", p_val_str);
589 p_cct1->shift = p_cct2->shift = cct.shift;
590 p_cct1->multiplier = p_cct2->multiplier = cct.multiplier;
594 static void opts_parse_cc_cct(IN osm_subn_t *p_subn, IN char *p_key,
595 IN char *p_val_str, void *p_v1, void *p_v2,
596 void (*pfn)(osm_subn_t *, void *))
598 osm_cct_t *p_val1 = p_v1, *p_val2 = p_v2;
599 const char *current_str = p_val1->input_str ? p_val1->input_str : null_str;
601 if (p_val_str && strcmp(p_val_str, current_str)) {
604 unsigned int len = 0;
609 /* special case the "(null)" string */
610 new = strcmp(null_str, p_val_str) ? strdup(p_val_str) : NULL;
613 log_config_value(p_key, "%s", p_val_str);
616 memset(p_val1->entries, '\0', sizeof(p_val1->entries));
617 memset(p_val2->entries, '\0', sizeof(p_val2->entries));
618 p_val1->entries_len = p_val2->entries_len = 0;
619 p_val1->input_str = p_val2->input_str = NULL;
623 memset(&newcct, '\0', sizeof(newcct));
625 tok = strtok_r(new, ",", &lasts);
626 while (tok && len < OSM_CCT_ENTRY_MAX) {
628 if (!(ptr = strchr(tok, ':'))) {
629 log_report("invalid CCT entry\n");
636 newcct.entries[len].shift = strtoul(tok, NULL, 0);
637 newcct.entries[len].multiplier = strtoul(ptr, NULL, 0);
639 tok = strtok_r(NULL, ",", &lasts);
644 newcct.entries_len = len;
645 newcct.input_str = strdup(p_val_str);
647 log_config_value(p_key, "%s", p_val_str);
649 pfn(p_subn, &newcct);
650 if (p_val1->input_str && p_val1->input_str != p_val2->input_str)
651 free(p_val1->input_str);
652 if (p_val2->input_str)
653 free(p_val2->input_str);
654 memcpy(p_val1->entries, newcct.entries, sizeof(newcct.entries));
655 memcpy(p_val2->entries, newcct.entries, sizeof(newcct.entries));
656 p_val1->entries_len = p_val2->entries_len = newcct.entries_len;
657 p_val1->input_str = p_val2->input_str = newcct.input_str;
661 static int parse_ca_cong_common(char *p_val_str, uint8_t *sl, unsigned int *val_offset) {
662 char *new, *lasts, *sl_str, *val_str;
665 new = strcmp(null_str, p_val_str) ? strdup(p_val_str) : NULL;
669 sl_str = strtok_r(new, " \t", &lasts);
670 val_str = strtok_r(NULL, " \t", &lasts);
673 log_report("value must be specified in addition to SL\n");
678 sltmp = strtoul(sl_str, NULL, 0);
679 if (sltmp >= IB_CA_CONG_ENTRY_DATA_SIZE) {
680 log_report("invalid SL specified\n");
686 *val_offset = (unsigned int)(val_str - new);
692 static void opts_parse_ccti_timer(IN osm_subn_t *p_subn, IN char *p_key,
693 IN char *p_val_str, void *p_v1, void *p_v2,
694 void (*pfn)(osm_subn_t *, void *))
696 osm_cacongestion_entry_t *p_val1 = p_v1, *p_val2 = p_v2;
697 unsigned int val_offset = 0;
700 if (parse_ca_cong_common(p_val_str, &sl, &val_offset) < 0)
703 opts_parse_net16(p_subn, p_key, p_val_str + val_offset,
704 &p_val1[sl].ccti_timer,
705 &p_val2[sl].ccti_timer,
709 static void opts_parse_ccti_increase(IN osm_subn_t *p_subn, IN char *p_key,
710 IN char *p_val_str, void *p_v1, void *p_v2,
711 void (*pfn)(osm_subn_t *, void *))
713 osm_cacongestion_entry_t *p_val1 = p_v1, *p_val2 = p_v2;
714 unsigned int val_offset = 0;
717 if (parse_ca_cong_common(p_val_str, &sl, &val_offset) < 0)
720 opts_parse_uint8(p_subn, p_key, p_val_str + val_offset,
721 &p_val1[sl].ccti_increase,
722 &p_val2[sl].ccti_increase,
726 static void opts_parse_trigger_threshold(IN osm_subn_t *p_subn, IN char *p_key,
727 IN char *p_val_str, void *p_v1, void *p_v2,
728 void (*pfn)(osm_subn_t *, void *))
730 osm_cacongestion_entry_t *p_val1 = p_v1, *p_val2 = p_v2;
731 unsigned int val_offset = 0;
734 if (parse_ca_cong_common(p_val_str, &sl, &val_offset) < 0)
737 opts_parse_uint8(p_subn, p_key, p_val_str + val_offset,
738 &p_val1[sl].trigger_threshold,
739 &p_val2[sl].trigger_threshold,
743 static void opts_parse_ccti_min(IN osm_subn_t *p_subn, IN char *p_key,
744 IN char *p_val_str, void *p_v1, void *p_v2,
745 void (*pfn)(osm_subn_t *, void *))
747 osm_cacongestion_entry_t *p_val1 = p_v1, *p_val2 = p_v2;
748 unsigned int val_offset = 0;
751 if (parse_ca_cong_common(p_val_str, &sl, &val_offset) < 0)
754 opts_parse_uint8(p_subn, p_key, p_val_str + val_offset,
755 &p_val1[sl].ccti_min,
756 &p_val2[sl].ccti_min,
760 static const opt_rec_t opt_tbl[] = {
761 { "guid", OPT_OFFSET(guid), opts_parse_net64, NULL, 0 },
762 { "m_key", OPT_OFFSET(m_key), opts_parse_net64, NULL, 1 },
763 { "sm_key", OPT_OFFSET(sm_key), opts_parse_net64, NULL, 1 },
764 { "sa_key", OPT_OFFSET(sa_key), opts_parse_net64, NULL, 1 },
765 { "subnet_prefix", OPT_OFFSET(subnet_prefix), opts_parse_net64, NULL, 0 },
766 { "m_key_lease_period", OPT_OFFSET(m_key_lease_period), opts_parse_net16, NULL, 1 },
767 { "m_key_protection_level", OPT_OFFSET(m_key_protect_bits), opts_parse_uint8, NULL, 1 },
768 { "m_key_lookup", OPT_OFFSET(m_key_lookup), opts_parse_boolean, NULL, 1 },
769 { "sweep_interval", OPT_OFFSET(sweep_interval), opts_parse_uint32, NULL, 1 },
770 { "max_wire_smps", OPT_OFFSET(max_wire_smps), opts_parse_uint32, NULL, 1 },
771 { "max_wire_smps2", OPT_OFFSET(max_wire_smps2), opts_parse_uint32, NULL, 1 },
772 { "max_smps_timeout", OPT_OFFSET(max_smps_timeout), opts_parse_uint32, NULL, 1 },
773 { "console", OPT_OFFSET(console), opts_parse_charp, NULL, 0 },
774 { "console_port", OPT_OFFSET(console_port), opts_parse_uint16, NULL, 0 },
775 { "transaction_timeout", OPT_OFFSET(transaction_timeout), opts_parse_uint32, NULL, 0 },
776 { "transaction_retries", OPT_OFFSET(transaction_retries), opts_parse_uint32, NULL, 0 },
777 { "max_msg_fifo_timeout", OPT_OFFSET(max_msg_fifo_timeout), opts_parse_uint32, NULL, 1 },
778 { "sm_priority", OPT_OFFSET(sm_priority), opts_parse_uint8, opts_setup_sm_priority, 1 },
779 { "lmc", OPT_OFFSET(lmc), opts_parse_uint8, NULL, 0 },
780 { "lmc_esp0", OPT_OFFSET(lmc_esp0), opts_parse_boolean, NULL, 0 },
781 { "max_op_vls", OPT_OFFSET(max_op_vls), opts_parse_uint8, NULL, 1 },
782 { "force_link_speed", OPT_OFFSET(force_link_speed), opts_parse_uint8, NULL, 1 },
783 { "force_link_speed_ext", OPT_OFFSET(force_link_speed_ext), opts_parse_uint8, NULL, 1 },
784 { "fdr10", OPT_OFFSET(fdr10), opts_parse_uint8, NULL, 1 },
785 { "reassign_lids", OPT_OFFSET(reassign_lids), opts_parse_boolean, NULL, 1 },
786 { "ignore_other_sm", OPT_OFFSET(ignore_other_sm), opts_parse_boolean, NULL, 1 },
787 { "single_thread", OPT_OFFSET(single_thread), opts_parse_boolean, NULL, 0 },
788 { "disable_multicast", OPT_OFFSET(disable_multicast), opts_parse_boolean, NULL, 1 },
789 { "subnet_timeout", OPT_OFFSET(subnet_timeout), opts_parse_uint8, NULL, 1 },
790 { "packet_life_time", OPT_OFFSET(packet_life_time), opts_parse_uint8, NULL, 1 },
791 { "vl_stall_count", OPT_OFFSET(vl_stall_count), opts_parse_uint8, NULL, 1 },
792 { "leaf_vl_stall_count", OPT_OFFSET(leaf_vl_stall_count), opts_parse_uint8, NULL, 1 },
793 { "head_of_queue_lifetime", OPT_OFFSET(head_of_queue_lifetime), opts_parse_uint8, NULL, 1 },
794 { "leaf_head_of_queue_lifetime", OPT_OFFSET(leaf_head_of_queue_lifetime), opts_parse_uint8, NULL, 1 },
795 { "local_phy_errors_threshold", OPT_OFFSET(local_phy_errors_threshold), opts_parse_uint8, NULL, 1 },
796 { "overrun_errors_threshold", OPT_OFFSET(overrun_errors_threshold), opts_parse_uint8, NULL, 1 },
797 { "use_mfttop", OPT_OFFSET(use_mfttop), opts_parse_boolean, NULL, 1},
798 { "sminfo_polling_timeout", OPT_OFFSET(sminfo_polling_timeout), opts_parse_uint32, opts_setup_sminfo_polling_timeout, 1 },
799 { "polling_retry_number", OPT_OFFSET(polling_retry_number), opts_parse_uint32, NULL, 1 },
800 { "force_heavy_sweep", OPT_OFFSET(force_heavy_sweep), opts_parse_boolean, NULL, 1 },
801 { "port_prof_ignore_file", OPT_OFFSET(port_prof_ignore_file), opts_parse_charp, NULL, 0 },
802 { "hop_weights_file", OPT_OFFSET(hop_weights_file), opts_parse_charp, NULL, 0 },
803 { "dimn_ports_file", OPT_OFFSET(port_search_ordering_file), opts_parse_charp, NULL, 0 },
804 { "port_search_ordering_file", OPT_OFFSET(port_search_ordering_file), opts_parse_charp, NULL, 0 },
805 { "port_profile_switch_nodes", OPT_OFFSET(port_profile_switch_nodes), opts_parse_boolean, NULL, 1 },
806 { "sweep_on_trap", OPT_OFFSET(sweep_on_trap), opts_parse_boolean, NULL, 1 },
807 { "routing_engine", OPT_OFFSET(routing_engine_names), opts_parse_charp, NULL, 0 },
808 { "connect_roots", OPT_OFFSET(connect_roots), opts_parse_boolean, NULL, 1 },
809 { "use_ucast_cache", OPT_OFFSET(use_ucast_cache), opts_parse_boolean, NULL, 0 },
810 { "log_file", OPT_OFFSET(log_file), opts_parse_charp, NULL, 0 },
811 { "log_max_size", OPT_OFFSET(log_max_size), opts_parse_uint32, opts_setup_log_max_size, 1 },
812 { "log_flags", OPT_OFFSET(log_flags), opts_parse_uint8, opts_setup_log_flags, 1 },
813 { "force_log_flush", OPT_OFFSET(force_log_flush), opts_parse_boolean, opts_setup_force_log_flush, 1 },
814 { "accum_log_file", OPT_OFFSET(accum_log_file), opts_parse_boolean, opts_setup_accum_log_file, 1 },
815 { "partition_config_file", OPT_OFFSET(partition_config_file), opts_parse_charp, NULL, 0 },
816 { "no_partition_enforcement", OPT_OFFSET(no_partition_enforcement), opts_parse_boolean, NULL, 1 },
817 { "part_enforce", OPT_OFFSET(part_enforce), opts_parse_charp, NULL, 1 },
818 { "allow_both_pkeys", OPT_OFFSET(allow_both_pkeys), opts_parse_boolean, NULL, 0 },
819 { "sm_assigned_guid", OPT_OFFSET(sm_assigned_guid), opts_parse_uint8, NULL, 1 },
820 { "qos", OPT_OFFSET(qos), opts_parse_boolean, NULL, 1 },
821 { "qos_policy_file", OPT_OFFSET(qos_policy_file), opts_parse_charp, NULL, 0 },
822 { "suppress_sl2vl_mad_status_errors", OPT_OFFSET(suppress_sl2vl_mad_status_errors), opts_parse_boolean, NULL, 1 },
823 { "dump_files_dir", OPT_OFFSET(dump_files_dir), opts_parse_charp, NULL, 0 },
824 { "lid_matrix_dump_file", OPT_OFFSET(lid_matrix_dump_file), opts_parse_charp, NULL, 0 },
825 { "lfts_file", OPT_OFFSET(lfts_file), opts_parse_charp, NULL, 0 },
826 { "root_guid_file", OPT_OFFSET(root_guid_file), opts_parse_charp, NULL, 0 },
827 { "cn_guid_file", OPT_OFFSET(cn_guid_file), opts_parse_charp, NULL, 0 },
828 { "io_guid_file", OPT_OFFSET(io_guid_file), opts_parse_charp, NULL, 0 },
829 { "port_shifting", OPT_OFFSET(port_shifting), opts_parse_boolean, NULL, 1 },
830 { "scatter_ports", OPT_OFFSET(scatter_ports), opts_parse_uint32, NULL, 1 },
831 { "max_reverse_hops", OPT_OFFSET(max_reverse_hops), opts_parse_uint16, NULL, 0 },
832 { "ids_guid_file", OPT_OFFSET(ids_guid_file), opts_parse_charp, NULL, 0 },
833 { "guid_routing_order_file", OPT_OFFSET(guid_routing_order_file), opts_parse_charp, NULL, 0 },
834 { "guid_routing_order_no_scatter", OPT_OFFSET(guid_routing_order_no_scatter), opts_parse_boolean, NULL, 0 },
835 { "sa_db_file", OPT_OFFSET(sa_db_file), opts_parse_charp, NULL, 0 },
836 { "sa_db_dump", OPT_OFFSET(sa_db_dump), opts_parse_boolean, NULL, 1 },
837 { "torus_config", OPT_OFFSET(torus_conf_file), opts_parse_charp, NULL, 1 },
838 { "do_mesh_analysis", OPT_OFFSET(do_mesh_analysis), opts_parse_boolean, NULL, 1 },
839 { "exit_on_fatal", OPT_OFFSET(exit_on_fatal), opts_parse_boolean, NULL, 1 },
840 { "honor_guid2lid_file", OPT_OFFSET(honor_guid2lid_file), opts_parse_boolean, NULL, 1 },
841 { "daemon", OPT_OFFSET(daemon), opts_parse_boolean, NULL, 0 },
842 { "sm_inactive", OPT_OFFSET(sm_inactive), opts_parse_boolean, NULL, 1 },
843 { "babbling_port_policy", OPT_OFFSET(babbling_port_policy), opts_parse_boolean, NULL, 1 },
844 { "drop_event_subscriptions", OPT_OFFSET(drop_event_subscriptions), opts_parse_boolean, NULL, 1 },
845 { "ipoib_mcgroup_creation_validation", OPT_OFFSET(ipoib_mcgroup_creation_validation), opts_parse_boolean, NULL, 1 },
846 { "mcgroup_join_validation", OPT_OFFSET(mcgroup_join_validation), opts_parse_boolean, NULL, 1 },
847 { "use_optimized_slvl", OPT_OFFSET(use_optimized_slvl), opts_parse_boolean, NULL, 1 },
848 { "fsync_high_avail_files", OPT_OFFSET(fsync_high_avail_files), opts_parse_boolean, NULL, 1 },
849 #ifdef ENABLE_OSM_PERF_MGR
850 { "perfmgr", OPT_OFFSET(perfmgr), opts_parse_boolean, NULL, 0 },
851 { "perfmgr_redir", OPT_OFFSET(perfmgr_redir), opts_parse_boolean, NULL, 0 },
852 { "perfmgr_sweep_time_s", OPT_OFFSET(perfmgr_sweep_time_s), opts_parse_uint16, NULL, 0 },
853 { "perfmgr_max_outstanding_queries", OPT_OFFSET(perfmgr_max_outstanding_queries), opts_parse_uint32, NULL, 0 },
854 { "perfmgr_ignore_cas", OPT_OFFSET(perfmgr_ignore_cas), opts_parse_boolean, NULL, 0 },
855 { "event_db_dump_file", OPT_OFFSET(event_db_dump_file), opts_parse_charp, NULL, 0 },
856 { "perfmgr_rm_nodes", OPT_OFFSET(perfmgr_rm_nodes), opts_parse_boolean, NULL, 0 },
857 { "perfmgr_log_errors", OPT_OFFSET(perfmgr_log_errors), opts_parse_boolean, NULL, 0 },
858 { "perfmgr_query_cpi", OPT_OFFSET(perfmgr_query_cpi), opts_parse_boolean, NULL, 0 },
859 { "perfmgr_xmit_wait_log", OPT_OFFSET(perfmgr_xmit_wait_log), opts_parse_boolean, NULL, 0 },
860 { "perfmgr_xmit_wait_threshold", OPT_OFFSET(perfmgr_xmit_wait_threshold), opts_parse_uint32, NULL, 0 },
861 #endif /* ENABLE_OSM_PERF_MGR */
862 { "event_plugin_name", OPT_OFFSET(event_plugin_name), opts_parse_charp, NULL, 0 },
863 { "event_plugin_options", OPT_OFFSET(event_plugin_options), opts_parse_charp, NULL, 0 },
864 { "node_name_map_name", OPT_OFFSET(node_name_map_name), opts_parse_charp, NULL, 0 },
865 { "qos_max_vls", OPT_OFFSET(qos_options.max_vls), opts_parse_uint32, NULL, 1 },
866 { "qos_high_limit", OPT_OFFSET(qos_options.high_limit), opts_parse_int32, NULL, 1 },
867 { "qos_vlarb_high", OPT_OFFSET(qos_options.vlarb_high), opts_parse_charp, NULL, 1 },
868 { "qos_vlarb_low", OPT_OFFSET(qos_options.vlarb_low), opts_parse_charp, NULL, 1 },
869 { "qos_sl2vl", OPT_OFFSET(qos_options.sl2vl), opts_parse_charp, NULL, 1 },
870 { "qos_ca_max_vls", OPT_OFFSET(qos_ca_options.max_vls), opts_parse_uint32, NULL, 1 },
871 { "qos_ca_high_limit", OPT_OFFSET(qos_ca_options.high_limit), opts_parse_int32, NULL, 1 },
872 { "qos_ca_vlarb_high", OPT_OFFSET(qos_ca_options.vlarb_high), opts_parse_charp, NULL, 1 },
873 { "qos_ca_vlarb_low", OPT_OFFSET(qos_ca_options.vlarb_low), opts_parse_charp, NULL, 1 },
874 { "qos_ca_sl2vl", OPT_OFFSET(qos_ca_options.sl2vl), opts_parse_charp, NULL, 1 },
875 { "qos_sw0_max_vls", OPT_OFFSET(qos_sw0_options.max_vls), opts_parse_uint32, NULL, 1 },
876 { "qos_sw0_high_limit", OPT_OFFSET(qos_sw0_options.high_limit), opts_parse_int32, NULL, 1 },
877 { "qos_sw0_vlarb_high", OPT_OFFSET(qos_sw0_options.vlarb_high), opts_parse_charp, NULL, 1 },
878 { "qos_sw0_vlarb_low", OPT_OFFSET(qos_sw0_options.vlarb_low), opts_parse_charp, NULL, 1 },
879 { "qos_sw0_sl2vl", OPT_OFFSET(qos_sw0_options.sl2vl), opts_parse_charp, NULL, 1 },
880 { "qos_swe_max_vls", OPT_OFFSET(qos_swe_options.max_vls), opts_parse_uint32, NULL, 1 },
881 { "qos_swe_high_limit", OPT_OFFSET(qos_swe_options.high_limit), opts_parse_int32, NULL, 1 },
882 { "qos_swe_vlarb_high", OPT_OFFSET(qos_swe_options.vlarb_high), opts_parse_charp, NULL, 1 },
883 { "qos_swe_vlarb_low", OPT_OFFSET(qos_swe_options.vlarb_low), opts_parse_charp, NULL, 1 },
884 { "qos_swe_sl2vl", OPT_OFFSET(qos_swe_options.sl2vl), opts_parse_charp, NULL, 1 },
885 { "qos_rtr_max_vls", OPT_OFFSET(qos_rtr_options.max_vls), opts_parse_uint32, NULL, 1 },
886 { "qos_rtr_high_limit", OPT_OFFSET(qos_rtr_options.high_limit), opts_parse_int32, NULL, 1 },
887 { "qos_rtr_vlarb_high", OPT_OFFSET(qos_rtr_options.vlarb_high), opts_parse_charp, NULL, 1 },
888 { "qos_rtr_vlarb_low", OPT_OFFSET(qos_rtr_options.vlarb_low), opts_parse_charp, NULL, 1 },
889 { "qos_rtr_sl2vl", OPT_OFFSET(qos_rtr_options.sl2vl), opts_parse_charp, NULL, 1 },
890 { "congestion_control", OPT_OFFSET(congestion_control), opts_parse_boolean, NULL, 1 },
891 { "cc_key", OPT_OFFSET(cc_key), opts_parse_net64, NULL, 0},
892 { "cc_max_outstanding_mads", OPT_OFFSET(cc_max_outstanding_mads), opts_parse_uint32, NULL, 0 },
893 { "cc_sw_cong_setting_control_map", OPT_OFFSET(cc_sw_cong_setting_control_map), opts_parse_net32, NULL, 1},
894 { "cc_sw_cong_setting_victim_mask", OPT_OFFSET(cc_sw_cong_setting_victim_mask), opts_parse_256bit, NULL, 1},
895 { "cc_sw_cong_setting_credit_mask", OPT_OFFSET(cc_sw_cong_setting_credit_mask), opts_parse_256bit, NULL, 1},
896 { "cc_sw_cong_setting_threshold", OPT_OFFSET(cc_sw_cong_setting_threshold), opts_parse_uint8, NULL, 1},
897 { "cc_sw_cong_setting_packet_size", OPT_OFFSET(cc_sw_cong_setting_packet_size), opts_parse_uint8, NULL, 1},
898 { "cc_sw_cong_setting_credit_starvation_threshold", OPT_OFFSET(cc_sw_cong_setting_credit_starvation_threshold), opts_parse_uint8, NULL, 1},
899 { "cc_sw_cong_setting_credit_starvation_return_delay", OPT_OFFSET(cc_sw_cong_setting_credit_starvation_return_delay), opts_parse_cct_entry, NULL, 1},
900 { "cc_sw_cong_setting_marking_rate", OPT_OFFSET(cc_sw_cong_setting_marking_rate), opts_parse_net16, NULL, 1},
901 { "cc_ca_cong_setting_port_control", OPT_OFFSET(cc_ca_cong_setting_port_control), opts_parse_net16, NULL, 1},
902 { "cc_ca_cong_setting_control_map", OPT_OFFSET(cc_ca_cong_setting_control_map), opts_parse_net16, NULL, 1},
903 { "cc_ca_cong_setting_ccti_timer", OPT_OFFSET(cc_ca_cong_entries), opts_parse_ccti_timer, NULL, 1},
904 { "cc_ca_cong_setting_ccti_increase", OPT_OFFSET(cc_ca_cong_entries), opts_parse_ccti_increase, NULL, 1},
905 { "cc_ca_cong_setting_trigger_threshold", OPT_OFFSET(cc_ca_cong_entries), opts_parse_trigger_threshold, NULL, 1},
906 { "cc_ca_cong_setting_ccti_min", OPT_OFFSET(cc_ca_cong_entries), opts_parse_ccti_min, NULL, 1},
907 { "cc_cct", OPT_OFFSET(cc_cct), opts_parse_cc_cct, NULL, 1},
908 { "enable_quirks", OPT_OFFSET(enable_quirks), opts_parse_boolean, NULL, 1 },
909 { "no_clients_rereg", OPT_OFFSET(no_clients_rereg), opts_parse_boolean, NULL, 1 },
910 { "prefix_routes_file", OPT_OFFSET(prefix_routes_file), opts_parse_charp, NULL, 0 },
911 { "consolidate_ipv6_snm_req", OPT_OFFSET(consolidate_ipv6_snm_req), opts_parse_boolean, NULL, 1 },
912 { "lash_start_vl", OPT_OFFSET(lash_start_vl), opts_parse_uint8, NULL, 1 },
913 { "sm_sl", OPT_OFFSET(sm_sl), opts_parse_uint8, NULL, 1 },
914 { "log_prefix", OPT_OFFSET(log_prefix), opts_parse_charp, NULL, 1 },
915 { "per_module_logging_file", OPT_OFFSET(per_module_logging_file), opts_parse_charp, NULL, 0 },
916 { "quasi_ftree_indexing", OPT_OFFSET(quasi_ftree_indexing), opts_parse_boolean, NULL, 1 },
920 static int compar_mgids(const void *m1, const void *m2)
922 return memcmp(m1, m2, sizeof(ib_gid_t));
925 static void subn_validate_g2m(osm_subn_t *p_subn)
928 osm_db_guid_elem_t *p_item;
930 boolean_t valid_entry;
932 OSM_LOG_ENTER(&(p_subn->p_osm->log));
933 cl_qlist_init(&guids);
935 if (osm_db_guid2mkey_guids(p_subn->p_g2m, &guids)) {
936 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR, "ERR 7506: "
937 "could not get mkey guid list\n");
941 while ((p_item = (osm_db_guid_elem_t *) cl_qlist_remove_head(&guids))
942 != (osm_db_guid_elem_t *) cl_qlist_end(&guids)) {
945 if (p_item->guid == 0) {
946 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
947 "ERR 7507: found invalid zero guid");
949 } else if (osm_db_guid2mkey_get(p_subn->p_g2m, p_item->guid,
951 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
952 "ERR 7508: could not get mkey for guid:0x%016"
953 PRIx64 "\n", p_item->guid);
957 if (valid_entry == FALSE) {
958 if (osm_db_guid2mkey_delete(p_subn->p_g2m,
960 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
961 "ERR 7509: failed to delete entry for "
962 "guid:0x%016" PRIx64 "\n",
969 OSM_LOG_EXIT(&(p_subn->p_osm->log));
972 static void subn_validate_neighbor(osm_subn_t *p_subn)
975 osm_db_neighbor_elem_t *p_item;
976 boolean_t valid_entry;
980 OSM_LOG_ENTER(&(p_subn->p_osm->log));
981 cl_qlist_init(&entries);
983 if (osm_db_neighbor_guids(p_subn->p_neighbor, &entries)) {
984 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR, "ERR 7512: "
985 "could not get neighbor entry list\n");
990 (osm_db_neighbor_elem_t *) cl_qlist_remove_head(&entries))
991 != (osm_db_neighbor_elem_t *) cl_qlist_end(&entries)) {
994 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_DEBUG,
995 "Validating neighbor for guid:0x%016" PRIx64
997 p_item->guid, p_item->portnum);
998 if (p_item->guid == 0) {
999 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
1000 "ERR 7513: found invalid zero guid\n");
1001 valid_entry = FALSE;
1002 } else if (p_item->portnum == 0) {
1003 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
1004 "ERR 7514: found invalid zero port for "
1005 "guid: 0x%016" PRIx64 "\n",
1007 valid_entry = FALSE;
1008 } else if (osm_db_neighbor_get(p_subn->p_neighbor,
1009 p_item->guid, p_item->portnum,
1011 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
1012 "ERR 7515: could not find neighbor for "
1013 "guid: 0x%016" PRIx64 ", port %d\n",
1014 p_item->guid, p_item->portnum);
1015 valid_entry = FALSE;
1016 } else if (guid == 0) {
1017 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
1018 "ERR 7516: found invalid neighbor "
1019 "zero guid for guid: 0x%016" PRIx64
1021 p_item->guid, p_item->portnum);
1022 valid_entry = FALSE;
1023 } else if (port == 0) {
1024 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
1025 "ERR 7517: found invalid neighbor "
1026 "zero port for guid: 0x%016" PRIx64
1028 p_item->guid, p_item->portnum);
1029 valid_entry = FALSE;
1030 } else if (osm_db_neighbor_get(p_subn->p_neighbor,
1031 guid, port, &guid, &port) ||
1032 guid != p_item->guid || port != p_item->portnum) {
1033 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
1034 "ERR 7518: neighbor does not point "
1035 "back at us (guid: 0x%016" PRIx64
1037 p_item->guid, p_item->portnum);
1038 valid_entry = FALSE;
1041 if (valid_entry == FALSE) {
1042 if (osm_db_neighbor_delete(p_subn->p_neighbor,
1045 OSM_LOG(&(p_subn->p_osm->log), OSM_LOG_ERROR,
1046 "ERR 7519: failed to delete entry for "
1047 "guid:0x%016" PRIx64 " port:%u\n",
1048 p_item->guid, p_item->portnum);
1054 OSM_LOG_EXIT(&(p_subn->p_osm->log));
1057 void osm_subn_construct(IN osm_subn_t * p_subn)
1059 memset(p_subn, 0, sizeof(*p_subn));
1060 cl_ptr_vector_construct(&p_subn->port_lid_tbl);
1061 cl_qmap_init(&p_subn->sw_guid_tbl);
1062 cl_qmap_init(&p_subn->node_guid_tbl);
1063 cl_qmap_init(&p_subn->port_guid_tbl);
1064 cl_qmap_init(&p_subn->alias_port_guid_tbl);
1065 cl_qmap_init(&p_subn->assigned_guids_tbl);
1066 cl_qmap_init(&p_subn->sm_guid_tbl);
1067 cl_qlist_init(&p_subn->sa_sr_list);
1068 cl_qlist_init(&p_subn->sa_infr_list);
1069 cl_qlist_init(&p_subn->alias_guid_list);
1070 cl_qlist_init(&p_subn->prefix_routes_list);
1071 cl_qmap_init(&p_subn->rtr_guid_tbl);
1072 cl_qmap_init(&p_subn->prtn_pkey_tbl);
1073 cl_fmap_init(&p_subn->mgrp_mgid_tbl, compar_mgids);
1076 static void subn_destroy_qos_options(osm_qos_options_t *opt)
1078 free(opt->vlarb_high);
1079 free(opt->vlarb_low);
1083 static void subn_opt_destroy(IN osm_subn_opt_t * p_opt)
1085 free(p_opt->console);
1086 free(p_opt->port_prof_ignore_file);
1087 free(p_opt->hop_weights_file);
1088 free(p_opt->port_search_ordering_file);
1089 free(p_opt->routing_engine_names);
1090 free(p_opt->log_file);
1091 free(p_opt->partition_config_file);
1092 free(p_opt->qos_policy_file);
1093 free(p_opt->dump_files_dir);
1094 free(p_opt->part_enforce);
1095 free(p_opt->lid_matrix_dump_file);
1096 free(p_opt->lfts_file);
1097 free(p_opt->root_guid_file);
1098 free(p_opt->cn_guid_file);
1099 free(p_opt->io_guid_file);
1100 free(p_opt->ids_guid_file);
1101 free(p_opt->guid_routing_order_file);
1102 free(p_opt->sa_db_file);
1103 free(p_opt->torus_conf_file);
1104 #ifdef ENABLE_OSM_PERF_MGR
1105 free(p_opt->event_db_dump_file);
1106 #endif /* ENABLE_OSM_PERF_MGR */
1107 free(p_opt->event_plugin_name);
1108 free(p_opt->event_plugin_options);
1109 free(p_opt->node_name_map_name);
1110 free(p_opt->prefix_routes_file);
1111 free(p_opt->log_prefix);
1112 subn_destroy_qos_options(&p_opt->qos_options);
1113 subn_destroy_qos_options(&p_opt->qos_ca_options);
1114 subn_destroy_qos_options(&p_opt->qos_sw0_options);
1115 subn_destroy_qos_options(&p_opt->qos_swe_options);
1116 subn_destroy_qos_options(&p_opt->qos_rtr_options);
1117 free(p_opt->cc_cct.input_str);
1120 void osm_subn_destroy(IN osm_subn_t * p_subn)
1123 osm_node_t *p_node, *p_next_node;
1124 osm_assigned_guids_t *p_assigned_guids, *p_next_assigned_guids;
1125 osm_alias_guid_t *p_alias_guid, *p_next_alias_guid;
1126 osm_port_t *p_port, *p_next_port;
1127 osm_switch_t *p_sw, *p_next_sw;
1128 osm_remote_sm_t *p_rsm, *p_next_rsm;
1129 osm_prtn_t *p_prtn, *p_next_prtn;
1130 osm_infr_t *p_infr, *p_next_infr;
1131 osm_svcr_t *p_svcr, *p_next_svcr;
1133 /* it might be a good idea to de-allocate all known objects */
1134 p_next_node = (osm_node_t *) cl_qmap_head(&p_subn->node_guid_tbl);
1135 while (p_next_node !=
1136 (osm_node_t *) cl_qmap_end(&p_subn->node_guid_tbl)) {
1137 p_node = p_next_node;
1138 p_next_node = (osm_node_t *) cl_qmap_next(&p_node->map_item);
1139 osm_node_delete(&p_node);
1142 p_next_assigned_guids = (osm_assigned_guids_t *) cl_qmap_head(&p_subn->assigned_guids_tbl);
1143 while (p_next_assigned_guids !=
1144 (osm_assigned_guids_t *) cl_qmap_end(&p_subn->assigned_guids_tbl)) {
1145 p_assigned_guids = p_next_assigned_guids;
1146 p_next_assigned_guids = (osm_assigned_guids_t *) cl_qmap_next(&p_assigned_guids->map_item);
1147 osm_assigned_guids_delete(&p_assigned_guids);
1150 p_next_alias_guid = (osm_alias_guid_t *) cl_qmap_head(&p_subn->alias_port_guid_tbl);
1151 while (p_next_alias_guid !=
1152 (osm_alias_guid_t *) cl_qmap_end(&p_subn->alias_port_guid_tbl)) {
1153 p_alias_guid = p_next_alias_guid;
1154 p_next_alias_guid = (osm_alias_guid_t *) cl_qmap_next(&p_alias_guid->map_item);
1155 osm_alias_guid_delete(&p_alias_guid);
1158 while (cl_qlist_count(&p_subn->alias_guid_list))
1159 osm_guid_work_obj_delete((osm_guidinfo_work_obj_t *) cl_qlist_remove_head(&p_subn->alias_guid_list));
1161 p_next_port = (osm_port_t *) cl_qmap_head(&p_subn->port_guid_tbl);
1162 while (p_next_port !=
1163 (osm_port_t *) cl_qmap_end(&p_subn->port_guid_tbl)) {
1164 p_port = p_next_port;
1165 p_next_port = (osm_port_t *) cl_qmap_next(&p_port->map_item);
1166 osm_port_delete(&p_port);
1169 p_next_sw = (osm_switch_t *) cl_qmap_head(&p_subn->sw_guid_tbl);
1170 while (p_next_sw != (osm_switch_t *) cl_qmap_end(&p_subn->sw_guid_tbl)) {
1172 p_next_sw = (osm_switch_t *) cl_qmap_next(&p_sw->map_item);
1173 osm_switch_delete(&p_sw);
1176 p_next_rsm = (osm_remote_sm_t *) cl_qmap_head(&p_subn->sm_guid_tbl);
1177 while (p_next_rsm !=
1178 (osm_remote_sm_t *) cl_qmap_end(&p_subn->sm_guid_tbl)) {
1180 p_next_rsm = (osm_remote_sm_t *) cl_qmap_next(&p_rsm->map_item);
1184 p_next_prtn = (osm_prtn_t *) cl_qmap_head(&p_subn->prtn_pkey_tbl);
1185 while (p_next_prtn !=
1186 (osm_prtn_t *) cl_qmap_end(&p_subn->prtn_pkey_tbl)) {
1187 p_prtn = p_next_prtn;
1188 p_next_prtn = (osm_prtn_t *) cl_qmap_next(&p_prtn->map_item);
1189 osm_prtn_delete(p_subn, &p_prtn);
1192 cl_fmap_remove_all(&p_subn->mgrp_mgid_tbl);
1194 for (i = 0; i <= p_subn->max_mcast_lid_ho - IB_LID_MCAST_START_HO;
1196 if (p_subn->mboxes[i])
1197 osm_mgrp_box_delete(p_subn->mboxes[i]);
1199 p_next_infr = (osm_infr_t *) cl_qlist_head(&p_subn->sa_infr_list);
1200 while (p_next_infr !=
1201 (osm_infr_t *) cl_qlist_end(&p_subn->sa_infr_list)) {
1202 p_infr = p_next_infr;
1203 p_next_infr = (osm_infr_t *) cl_qlist_next(&p_infr->list_item);
1204 osm_infr_delete(p_infr);
1207 p_next_svcr = (osm_svcr_t *) cl_qlist_head(&p_subn->sa_sr_list);
1208 while (p_next_svcr !=
1209 (osm_svcr_t *) cl_qlist_end(&p_subn->sa_sr_list)) {
1210 p_svcr = p_next_svcr;
1211 p_next_svcr = (osm_svcr_t *) cl_qlist_next(&p_svcr->list_item);
1212 osm_svcr_delete(p_svcr);
1215 cl_ptr_vector_destroy(&p_subn->port_lid_tbl);
1217 osm_qos_policy_destroy(p_subn->p_qos_policy);
1219 while (!cl_is_qlist_empty(&p_subn->prefix_routes_list)) {
1220 cl_list_item_t *item = cl_qlist_remove_head(&p_subn->prefix_routes_list);
1224 subn_opt_destroy(&p_subn->opt);
1225 free(p_subn->opt.file_opts);
1228 ib_api_status_t osm_subn_init(IN osm_subn_t * p_subn, IN osm_opensm_t * p_osm,
1229 IN const osm_subn_opt_t * p_opt)
1233 p_subn->p_osm = p_osm;
1235 status = cl_ptr_vector_init(&p_subn->port_lid_tbl,
1236 OSM_SUBNET_VECTOR_MIN_SIZE,
1237 OSM_SUBNET_VECTOR_GROW_SIZE);
1238 if (status != CL_SUCCESS)
1241 status = cl_ptr_vector_set_capacity(&p_subn->port_lid_tbl,
1242 OSM_SUBNET_VECTOR_CAPACITY);
1243 if (status != CL_SUCCESS)
1247 LID zero is not valid. NULL out this entry for the
1248 convenience of other code.
1250 cl_ptr_vector_set(&p_subn->port_lid_tbl, 0, NULL);
1252 p_subn->opt = *p_opt;
1253 p_subn->max_ucast_lid_ho = IB_LID_UCAST_END_HO;
1254 p_subn->max_mcast_lid_ho = IB_LID_MCAST_END_HO;
1255 p_subn->min_ca_mtu = IB_MAX_MTU;
1256 p_subn->min_ca_rate = IB_PATH_RECORD_RATE_300_GBS;
1257 p_subn->min_data_vls = IB_MAX_NUM_VLS - 1;
1258 p_subn->min_sw_data_vls = IB_MAX_NUM_VLS - 1;
1259 p_subn->ignore_existing_lfts = TRUE;
1261 /* we assume master by default - so we only need to set it true if STANDBY */
1262 p_subn->coming_out_of_standby = FALSE;
1263 p_subn->sweeping_enabled = TRUE;
1264 p_subn->last_sm_port_state = 1;
1266 /* Initialize the guid2mkey database */
1267 p_subn->p_g2m = osm_db_domain_init(&(p_osm->db), "guid2mkey");
1268 if (!p_subn->p_g2m) {
1269 OSM_LOG(&(p_osm->log), OSM_LOG_ERROR, "ERR 7510: "
1270 "Error initializing Guid-to-MKey persistent database\n");
1274 if (osm_db_restore(p_subn->p_g2m)) {
1277 * When Windows is BSODing, it might corrupt files that
1278 * were previously opened for writing, even if the files
1279 * are closed, so we might see corrupted guid2mkey file.
1281 if (p_subn->opt.exit_on_fatal) {
1282 osm_log(&(p_osm->log), OSM_LOG_SYS,
1283 "FATAL: Error restoring Guid-to-Mkey "
1284 "persistent database\n");
1288 OSM_LOG(&(p_osm->log), OSM_LOG_ERROR,
1289 "ERR 7511: Error restoring Guid-to-Mkey "
1290 "persistent database\n");
1293 subn_validate_g2m(p_subn);
1295 /* Initialize the neighbor database */
1296 p_subn->p_neighbor = osm_db_domain_init(&(p_osm->db), "neighbors");
1297 if (!p_subn->p_neighbor) {
1298 OSM_LOG(&(p_osm->log), OSM_LOG_ERROR, "ERR 7520: Error "
1299 "initializing neighbor link persistent database\n");
1303 if (osm_db_restore(p_subn->p_neighbor)) {
1306 * When Windows is BSODing, it might corrupt files that
1307 * were previously opened for writing, even if the files
1308 * are closed, so we might see corrupted neighbors file.
1310 if (p_subn->opt.exit_on_fatal) {
1311 osm_log(&(p_osm->log), OSM_LOG_SYS,
1312 "FATAL: Error restoring neighbor link "
1313 "persistent database\n");
1317 OSM_LOG(&(p_osm->log), OSM_LOG_ERROR,
1318 "ERR 7521: Error restoring neighbor link "
1319 "persistent database\n");
1322 subn_validate_neighbor(p_subn);
1327 osm_port_t *osm_get_port_by_mad_addr(IN osm_log_t * p_log,
1328 IN const osm_subn_t * p_subn,
1329 IN osm_mad_addr_t * p_mad_addr)
1331 osm_port_t *port = osm_get_port_by_lid(p_subn, p_mad_addr->dest_lid);
1333 OSM_LOG(p_log, OSM_LOG_ERROR, "ERR 7504: "
1334 "Lid is out of range: %u\n",
1335 cl_ntoh16(p_mad_addr->dest_lid));
1340 ib_api_status_t osm_get_gid_by_mad_addr(IN osm_log_t * p_log,
1341 IN const osm_subn_t * p_subn,
1342 IN osm_mad_addr_t * p_mad_addr,
1343 OUT ib_gid_t * p_gid)
1345 const osm_port_t *p_port;
1347 if (p_gid == NULL) {
1348 OSM_LOG(p_log, OSM_LOG_ERROR, "ERR 7505: "
1349 "Provided output GID is NULL\n");
1350 return IB_INVALID_PARAMETER;
1353 p_port = osm_get_port_by_mad_addr(p_log, p_subn, p_mad_addr);
1355 return IB_INVALID_PARAMETER;
1357 p_gid->unicast.interface_id = p_port->p_physp->port_guid;
1358 p_gid->unicast.prefix = p_subn->opt.subnet_prefix;
1363 osm_physp_t *osm_get_physp_by_mad_addr(IN osm_log_t * p_log,
1364 IN const osm_subn_t * p_subn,
1365 IN osm_mad_addr_t * p_mad_addr)
1369 p_port = osm_get_port_by_mad_addr(p_log, p_subn, p_mad_addr);
1373 return p_port->p_physp;
1376 osm_switch_t *osm_get_switch_by_guid(IN const osm_subn_t * p_subn,
1379 osm_switch_t *p_switch;
1381 p_switch = (osm_switch_t *) cl_qmap_get(&(p_subn->sw_guid_tbl), guid);
1382 if (p_switch == (osm_switch_t *) cl_qmap_end(&(p_subn->sw_guid_tbl)))
1387 osm_node_t *osm_get_node_by_guid(IN osm_subn_t const *p_subn, IN ib_net64_t guid)
1391 p_node = (osm_node_t *) cl_qmap_get(&(p_subn->node_guid_tbl), guid);
1392 if (p_node == (osm_node_t *) cl_qmap_end(&(p_subn->node_guid_tbl)))
1397 osm_port_t *osm_get_port_by_guid(IN osm_subn_t const *p_subn, IN ib_net64_t guid)
1401 p_port = (osm_port_t *) cl_qmap_get(&(p_subn->port_guid_tbl), guid);
1402 if (p_port == (osm_port_t *) cl_qmap_end(&(p_subn->port_guid_tbl)))
1407 osm_alias_guid_t *osm_get_alias_guid_by_guid(IN osm_subn_t const *p_subn,
1410 osm_alias_guid_t *p_alias_guid;
1412 p_alias_guid = (osm_alias_guid_t *) cl_qmap_get(&(p_subn->alias_port_guid_tbl), guid);
1413 if (p_alias_guid == (osm_alias_guid_t *) cl_qmap_end(&(p_subn->alias_port_guid_tbl)))
1415 return p_alias_guid;
1418 osm_port_t *osm_get_port_by_alias_guid(IN osm_subn_t const *p_subn,
1421 osm_alias_guid_t *p_alias_guid;
1423 p_alias_guid = osm_get_alias_guid_by_guid(p_subn, guid);
1426 return p_alias_guid->p_base_port;
1429 osm_assigned_guids_t *osm_assigned_guids_new(IN const ib_net64_t port_guid,
1430 IN const uint32_t num_guids)
1432 osm_assigned_guids_t *p_assigned_guids;
1434 p_assigned_guids = calloc(1, sizeof(*p_assigned_guids) +
1435 sizeof(ib_net64_t) * (num_guids - 1));
1436 if (p_assigned_guids)
1437 p_assigned_guids->port_guid = port_guid;
1438 return p_assigned_guids;
1441 void osm_assigned_guids_delete(IN OUT osm_assigned_guids_t ** pp_assigned_guids)
1443 free(*pp_assigned_guids);
1444 *pp_assigned_guids = NULL;
1447 osm_assigned_guids_t *osm_get_assigned_guids_by_guid(IN osm_subn_t const *p_subn,
1448 IN ib_net64_t port_guid)
1450 osm_assigned_guids_t *p_assigned_guids;
1452 p_assigned_guids = (osm_assigned_guids_t *) cl_qmap_get(&(p_subn->assigned_guids_tbl), port_guid);
1453 if (p_assigned_guids == (osm_assigned_guids_t *) cl_qmap_end(&(p_subn->assigned_guids_tbl)))
1455 return p_assigned_guids;
1458 osm_port_t *osm_get_port_by_lid_ho(IN osm_subn_t const * subn, IN uint16_t lid)
1460 if (lid < cl_ptr_vector_get_size(&subn->port_lid_tbl))
1461 return cl_ptr_vector_get(&subn->port_lid_tbl, lid);
1465 osm_mgrp_t *osm_get_mgrp_by_mgid(IN osm_subn_t * subn, IN ib_gid_t * mgid)
1469 mgrp = (osm_mgrp_t *)cl_fmap_get(&subn->mgrp_mgid_tbl, mgid);
1470 if (mgrp != (osm_mgrp_t *)cl_fmap_end(&subn->mgrp_mgid_tbl))
1475 int is_mlnx_ext_port_info_supported(ib_net32_t vendid, ib_net16_t devid)
1480 devid_ho = cl_ntoh16(devid);
1481 if ((devid_ho >= 0xc738 && devid_ho <= 0xc73b) || devid_ho == 0xcb20 ||
1482 devid_ho == 0xcf08 || devid == 0x1b02)
1484 if (devid_ho >= 0x1003 && devid_ho <= 0x1017)
1487 vendid_ho = cl_ntoh32(vendid);
1488 if (vendid_ho == 0x119f) {
1490 if (devid_ho == 0x1b02 || devid_ho == 0x1b50)
1492 /* Bull Switch-IB/IB2 */
1493 if (devid_ho == 0x1ba0 ||
1494 (devid_ho >= 0x1bd0 && devid_ho <= 0x1bd5))
1496 /* Bull Connect-X3 */
1497 if (devid_ho == 0x1b33 || devid_ho == 0x1b73 ||
1498 devid_ho == 0x1b40 || devid_ho == 0x1b41 ||
1499 devid_ho == 0x1b60 || devid_ho == 0x1b61)
1501 /* Bull Connect-IB */
1502 if (devid_ho == 0x1b83 ||
1503 devid_ho == 0x1b93 || devid_ho == 0x1b94)
1505 /* Bull Connect-X4 */
1506 if (devid_ho == 0x1bb4 || devid_ho == 0x1bb5 ||
1513 static void subn_init_qos_options(osm_qos_options_t *opt, osm_qos_options_t *f)
1516 opt->high_limit = -1;
1517 if (opt->vlarb_high)
1518 free(opt->vlarb_high);
1519 opt->vlarb_high = NULL;
1521 free(opt->vlarb_low);
1522 opt->vlarb_low = NULL;
1527 memcpy(f, opt, sizeof(*f));
1530 void osm_subn_set_default_opt(IN osm_subn_opt_t * p_opt)
1532 memset(p_opt, 0, sizeof(osm_subn_opt_t));
1534 p_opt->m_key = OSM_DEFAULT_M_KEY;
1535 p_opt->sm_key = OSM_DEFAULT_SM_KEY;
1536 p_opt->sa_key = OSM_DEFAULT_SA_KEY;
1537 p_opt->subnet_prefix = IB_DEFAULT_SUBNET_PREFIX;
1538 p_opt->m_key_lease_period = 0;
1539 p_opt->m_key_protect_bits = 0;
1540 p_opt->m_key_lookup = TRUE;
1541 p_opt->sweep_interval = OSM_DEFAULT_SWEEP_INTERVAL_SECS;
1542 p_opt->max_wire_smps = OSM_DEFAULT_SMP_MAX_ON_WIRE;
1543 p_opt->max_wire_smps2 = p_opt->max_wire_smps;
1544 p_opt->console = strdup(OSM_DEFAULT_CONSOLE);
1545 p_opt->console_port = OSM_DEFAULT_CONSOLE_PORT;
1546 p_opt->transaction_timeout = OSM_DEFAULT_TRANS_TIMEOUT_MILLISEC;
1547 p_opt->transaction_retries = OSM_DEFAULT_RETRY_COUNT;
1548 p_opt->max_smps_timeout = 1000 * p_opt->transaction_timeout *
1549 p_opt->transaction_retries;
1550 /* by default we will consider waiting for 50x transaction timeout normal */
1551 p_opt->max_msg_fifo_timeout = 50 * OSM_DEFAULT_TRANS_TIMEOUT_MILLISEC;
1552 p_opt->sm_priority = OSM_DEFAULT_SM_PRIORITY;
1553 p_opt->lmc = OSM_DEFAULT_LMC;
1554 p_opt->lmc_esp0 = FALSE;
1555 p_opt->max_op_vls = OSM_DEFAULT_MAX_OP_VLS;
1556 p_opt->force_link_speed = 15;
1557 p_opt->force_link_speed_ext = 31;
1559 p_opt->reassign_lids = FALSE;
1560 p_opt->ignore_other_sm = FALSE;
1561 p_opt->single_thread = FALSE;
1562 p_opt->disable_multicast = FALSE;
1563 p_opt->force_log_flush = FALSE;
1564 p_opt->subnet_timeout = OSM_DEFAULT_SUBNET_TIMEOUT;
1565 p_opt->packet_life_time = OSM_DEFAULT_SWITCH_PACKET_LIFE;
1566 p_opt->vl_stall_count = OSM_DEFAULT_VL_STALL_COUNT;
1567 p_opt->leaf_vl_stall_count = OSM_DEFAULT_LEAF_VL_STALL_COUNT;
1568 p_opt->head_of_queue_lifetime = OSM_DEFAULT_HEAD_OF_QUEUE_LIFE;
1569 p_opt->leaf_head_of_queue_lifetime =
1570 OSM_DEFAULT_LEAF_HEAD_OF_QUEUE_LIFE;
1571 p_opt->local_phy_errors_threshold = OSM_DEFAULT_ERROR_THRESHOLD;
1572 p_opt->overrun_errors_threshold = OSM_DEFAULT_ERROR_THRESHOLD;
1573 p_opt->use_mfttop = TRUE;
1574 p_opt->sminfo_polling_timeout =
1575 OSM_SM_DEFAULT_POLLING_TIMEOUT_MILLISECS;
1576 p_opt->polling_retry_number = OSM_SM_DEFAULT_POLLING_RETRY_NUMBER;
1577 p_opt->force_heavy_sweep = FALSE;
1578 p_opt->log_flags = OSM_LOG_DEFAULT_LEVEL;
1579 p_opt->honor_guid2lid_file = FALSE;
1580 p_opt->daemon = FALSE;
1581 p_opt->sm_inactive = FALSE;
1582 p_opt->babbling_port_policy = FALSE;
1583 p_opt->drop_event_subscriptions = FALSE;
1584 p_opt->ipoib_mcgroup_creation_validation = TRUE;
1585 p_opt->mcgroup_join_validation = TRUE;
1586 p_opt->use_optimized_slvl = FALSE;
1587 p_opt->fsync_high_avail_files = TRUE;
1588 #ifdef ENABLE_OSM_PERF_MGR
1589 p_opt->perfmgr = FALSE;
1590 p_opt->perfmgr_redir = TRUE;
1591 p_opt->perfmgr_sweep_time_s = OSM_PERFMGR_DEFAULT_SWEEP_TIME_S;
1592 p_opt->perfmgr_max_outstanding_queries =
1593 OSM_PERFMGR_DEFAULT_MAX_OUTSTANDING_QUERIES;
1594 p_opt->perfmgr_ignore_cas = FALSE;
1595 p_opt->event_db_dump_file = NULL; /* use default */
1596 p_opt->perfmgr_rm_nodes = TRUE;
1597 p_opt->perfmgr_log_errors = TRUE;
1598 p_opt->perfmgr_query_cpi = TRUE;
1599 p_opt->perfmgr_xmit_wait_log = FALSE;
1600 p_opt->perfmgr_xmit_wait_threshold = OSM_PERFMGR_DEFAULT_XMIT_WAIT_THRESHOLD;
1601 #endif /* ENABLE_OSM_PERF_MGR */
1603 p_opt->event_plugin_name = NULL;
1604 p_opt->event_plugin_options = NULL;
1605 p_opt->node_name_map_name = NULL;
1607 p_opt->dump_files_dir = getenv("OSM_TMP_DIR");
1608 if (!p_opt->dump_files_dir || !(*p_opt->dump_files_dir))
1609 p_opt->dump_files_dir = strdup(OSM_DEFAULT_TMP_DIR);
1611 p_opt->dump_files_dir = strdup(p_opt->dump_files_dir);
1612 p_opt->log_file = strdup(OSM_DEFAULT_LOG_FILE);
1613 p_opt->log_max_size = 0;
1614 p_opt->partition_config_file = strdup(OSM_DEFAULT_PARTITION_CONFIG_FILE);
1615 p_opt->no_partition_enforcement = FALSE;
1616 p_opt->part_enforce = strdup(OSM_PARTITION_ENFORCE_BOTH);
1617 p_opt->allow_both_pkeys = FALSE;
1618 p_opt->sm_assigned_guid = 0;
1620 p_opt->qos_policy_file = strdup(OSM_DEFAULT_QOS_POLICY_FILE);
1621 p_opt->suppress_sl2vl_mad_status_errors = FALSE;
1622 p_opt->accum_log_file = TRUE;
1623 p_opt->port_prof_ignore_file = NULL;
1624 p_opt->hop_weights_file = NULL;
1625 p_opt->port_search_ordering_file = NULL;
1626 p_opt->port_profile_switch_nodes = FALSE;
1627 p_opt->sweep_on_trap = TRUE;
1628 p_opt->use_ucast_cache = FALSE;
1629 p_opt->routing_engine_names = NULL;
1630 p_opt->connect_roots = FALSE;
1631 p_opt->lid_matrix_dump_file = NULL;
1632 p_opt->lfts_file = NULL;
1633 p_opt->root_guid_file = NULL;
1634 p_opt->cn_guid_file = NULL;
1635 p_opt->io_guid_file = NULL;
1636 p_opt->port_shifting = FALSE;
1637 p_opt->scatter_ports = OSM_DEFAULT_SCATTER_PORTS;
1638 p_opt->max_reverse_hops = 0;
1639 p_opt->ids_guid_file = NULL;
1640 p_opt->guid_routing_order_file = NULL;
1641 p_opt->guid_routing_order_no_scatter = FALSE;
1642 p_opt->sa_db_file = NULL;
1643 p_opt->sa_db_dump = FALSE;
1644 p_opt->torus_conf_file = strdup(OSM_DEFAULT_TORUS_CONF_FILE);
1645 p_opt->do_mesh_analysis = FALSE;
1646 p_opt->exit_on_fatal = TRUE;
1647 p_opt->congestion_control = FALSE;
1648 p_opt->cc_key = OSM_DEFAULT_CC_KEY;
1649 p_opt->cc_max_outstanding_mads = OSM_CC_DEFAULT_MAX_OUTSTANDING_QUERIES;
1650 p_opt->enable_quirks = FALSE;
1651 p_opt->no_clients_rereg = FALSE;
1652 p_opt->prefix_routes_file = strdup(OSM_DEFAULT_PREFIX_ROUTES_FILE);
1653 p_opt->consolidate_ipv6_snm_req = FALSE;
1654 p_opt->lash_start_vl = 0;
1655 p_opt->sm_sl = OSM_DEFAULT_SL;
1656 p_opt->log_prefix = NULL;
1657 p_opt->per_module_logging_file = strdup(OSM_DEFAULT_PER_MOD_LOGGING_CONF_FILE);
1658 subn_init_qos_options(&p_opt->qos_options, NULL);
1659 subn_init_qos_options(&p_opt->qos_ca_options, NULL);
1660 subn_init_qos_options(&p_opt->qos_sw0_options, NULL);
1661 subn_init_qos_options(&p_opt->qos_swe_options, NULL);
1662 subn_init_qos_options(&p_opt->qos_rtr_options, NULL);
1663 p_opt->cc_cct.entries_len = 0;
1664 p_opt->cc_cct.input_str = NULL;
1665 p_opt->quasi_ftree_indexing = FALSE;
1668 static char *clean_val(char *val)
1671 /* clean leading spaces */
1677 /* clean trailing spaces */
1678 p = val + strlen(val) - 1;
1679 while (p > val && isspace(*p))
1683 if ((*val == '\"' && *p == '\"') || (*val == '\'' && *p == '\'')) {
1690 static int subn_dump_qos_options(FILE * file, const char *set_name,
1691 const char *prefix, osm_qos_options_t * opt)
1693 return fprintf(file, "# %s\n"
1695 "%s_high_limit %d\n"
1696 "%s_vlarb_high %s\n"
1700 prefix, opt->max_vls,
1701 prefix, opt->high_limit,
1702 prefix, opt->vlarb_high,
1703 prefix, opt->vlarb_low, prefix, opt->sl2vl);
1706 static ib_api_status_t append_prefix_route(IN osm_subn_t * p_subn,
1707 uint64_t prefix, uint64_t guid)
1709 osm_prefix_route_t *route;
1711 route = malloc(sizeof *route);
1713 OSM_LOG(&p_subn->p_osm->log, OSM_LOG_ERROR, "out of memory");
1717 route->prefix = cl_hton64(prefix);
1718 route->guid = cl_hton64(guid);
1719 cl_qlist_insert_tail(&p_subn->prefix_routes_list, &route->list_item);
1723 static ib_api_status_t parse_prefix_routes_file(IN osm_subn_t * p_subn)
1725 osm_log_t *log = &p_subn->p_osm->log;
1731 while (!cl_is_qlist_empty(&p_subn->prefix_routes_list)) {
1732 cl_list_item_t *item = cl_qlist_remove_head(&p_subn->prefix_routes_list);
1736 fp = fopen(p_subn->opt.prefix_routes_file, "r");
1738 if (errno == ENOENT)
1741 OSM_LOG(log, OSM_LOG_ERROR, "fopen(%s) failed: %s",
1742 p_subn->opt.prefix_routes_file, strerror(errno));
1746 while (fgets(buf, sizeof buf, fp) != NULL) {
1747 char *p_prefix, *p_guid, *p_extra, *p_last, *p_end;
1748 uint64_t prefix, guid;
1754 p_prefix = strtok_r(buf, " \t\n", &p_last);
1756 continue; /* ignore blank lines */
1758 if (*p_prefix == '#')
1759 continue; /* ignore comment lines */
1761 p_guid = strtok_r(NULL, " \t\n", &p_last);
1763 OSM_LOG(log, OSM_LOG_ERROR, "%s:%d: missing GUID\n",
1764 p_subn->opt.prefix_routes_file, line);
1769 p_extra = strtok_r(NULL, " \t\n", &p_last);
1770 if (p_extra && *p_extra != '#') {
1771 OSM_LOG(log, OSM_LOG_INFO, "%s:%d: extra tokens ignored\n",
1772 p_subn->opt.prefix_routes_file, line);
1775 if (strcmp(p_prefix, "*") == 0)
1778 prefix = strtoull(p_prefix, &p_end, 16);
1779 if (*p_end != '\0') {
1780 OSM_LOG(log, OSM_LOG_ERROR, "%s:%d: illegal prefix: %s\n",
1781 p_subn->opt.prefix_routes_file, line, p_prefix);
1787 if (strcmp(p_guid, "*") == 0)
1790 guid = strtoull(p_guid, &p_end, 16);
1791 if (*p_end != '\0' && *p_end != '#') {
1792 OSM_LOG(log, OSM_LOG_ERROR, "%s:%d: illegal GUID: %s\n",
1793 p_subn->opt.prefix_routes_file, line, p_guid);
1799 if (append_prefix_route(p_subn, prefix, guid) != IB_SUCCESS) {
1806 return (errors == 0) ? IB_SUCCESS : IB_ERROR;
1809 static ib_api_status_t insert_per_module_debug(IN osm_subn_t * p_subn,
1811 osm_log_level_t level)
1815 if (find_module_name(mod_name, &index)) {
1816 OSM_LOG(&p_subn->p_osm->log, OSM_LOG_ERROR,
1817 "Module name %s not found\n", mod_name);
1820 osm_set_log_per_module(&p_subn->p_osm->log, index, level);
1824 static ib_api_status_t parse_per_mod_logging_file(IN osm_subn_t * p_subn)
1826 osm_log_t *log = &p_subn->p_osm->log;
1832 osm_reset_log_per_module(log);
1834 if (p_subn->opt.per_module_logging_file == NULL)
1837 fp = fopen(p_subn->opt.per_module_logging_file, "r");
1839 if (errno == ENOENT)
1842 OSM_LOG(log, OSM_LOG_ERROR, "fopen(%s) failed: %s",
1843 p_subn->opt.per_module_logging_file, strerror(errno));
1847 while (fgets(buf, sizeof buf, fp) != NULL) {
1848 char *p_mod_name, *p_level, *p_extra, *p_last;
1849 osm_log_level_t level;
1855 p_mod_name = strtok_r(buf, " =,\t\n", &p_last);
1857 continue; /* ignore blank lines */
1859 if (*p_mod_name == '#')
1860 continue; /* ignore comment lines */
1862 p_level = strtok_r(NULL, " \t\n", &p_last);
1864 OSM_LOG(log, OSM_LOG_ERROR, "%s:%d: missing log level\n",
1865 p_subn->opt.per_module_logging_file, line);
1869 p_extra = strtok_r(NULL, " \t\n", &p_last);
1870 if (p_extra && *p_extra != '#') {
1871 OSM_LOG(log, OSM_LOG_INFO, "%s:%d: extra tokens ignored\n",
1872 p_subn->opt.per_module_logging_file, line);
1875 level = strtoul(p_level, NULL, 0);
1876 if (insert_per_module_debug(p_subn, p_mod_name, level) != IB_SUCCESS) {
1883 return (errors == 0) ? IB_SUCCESS : IB_ERROR;
1886 static void subn_verify_max_vls(unsigned *max_vls, const char *prefix)
1888 if (!*max_vls || *max_vls > 15) {
1890 log_report(" Invalid Cached Option: %s_max_vls=%u: "
1891 "Using Default = %u\n",
1892 prefix, *max_vls, OSM_DEFAULT_QOS_MAX_VLS);
1897 static void subn_verify_high_limit(int *high_limit, const char *prefix)
1899 if (*high_limit < 0 || *high_limit > 255) {
1900 if (*high_limit > 255)
1901 log_report(" Invalid Cached Option: %s_high_limit=%d: "
1902 "Using Default: %d\n",
1903 prefix, *high_limit,
1904 OSM_DEFAULT_QOS_HIGH_LIMIT);
1909 static void subn_verify_vlarb(char **vlarb, const char *prefix,
1912 char *str, *tok, *end, *ptr;
1918 str = strdup(*vlarb);
1920 tok = strtok_r(str, ",\n", &ptr);
1922 char *vl_str, *weight_str;
1925 weight_str = strchr(tok, ':');
1933 vl = strtol(vl_str, &end, 0);
1936 log_report(" Warning: Cached Option "
1938 " improperly formatted\n",
1939 prefix, suffix, vl_str);
1940 else if (vl < 0 || vl > 14)
1941 log_report(" Warning: Cached Option "
1942 "%s_vlarb_%s:vl=%ld out of range\n",
1943 prefix, suffix, vl);
1945 weight = strtol(weight_str, &end, 0);
1948 log_report(" Warning: Cached Option "
1949 "%s_vlarb_%s:weight=%s "
1950 "improperly formatted\n",
1951 prefix, suffix, weight_str);
1952 else if (weight < 0 || weight > 255)
1953 log_report(" Warning: Cached Option "
1954 "%s_vlarb_%s:weight=%ld "
1956 prefix, suffix, weight);
1958 log_report(" Warning: Cached Option "
1959 "%s_vlarb_%s:vl:weight=%s "
1960 "improperly formatted\n",
1961 prefix, suffix, tok);
1964 tok = strtok_r(NULL, ",\n", &ptr);
1968 log_report(" Warning: Cached Option %s_vlarb_%s: > 64 listed:"
1969 " excess vl:weight pairs will be dropped\n",
1975 static void subn_verify_sl2vl(char **sl2vl, const char *prefix)
1977 char *str, *tok, *end, *ptr;
1983 str = strdup(*sl2vl);
1985 tok = strtok_r(str, ",\n", &ptr);
1987 long vl = strtol(tok, &end, 0);
1990 log_report(" Warning: Cached Option %s_sl2vl:vl=%s "
1991 "improperly formatted\n", prefix, tok);
1992 else if (vl < 0 || vl > 15)
1993 log_report(" Warning: Cached Option %s_sl2vl:vl=%ld "
1994 "out of range\n", prefix, vl);
1997 tok = strtok_r(NULL, ",\n", &ptr);
2001 log_report(" Warning: Cached Option %s_sl2vl: < 16 VLs "
2002 "listed\n", prefix);
2003 else if (count > 16)
2004 log_report(" Warning: Cached Option %s_sl2vl: > 16 listed: "
2005 "excess VLs will be dropped\n", prefix);
2010 static void subn_verify_qos_set(osm_qos_options_t *set, const char *prefix)
2012 subn_verify_max_vls(&set->max_vls, prefix);
2013 subn_verify_high_limit(&set->high_limit, prefix);
2014 subn_verify_vlarb(&set->vlarb_low, prefix, "low");
2015 subn_verify_vlarb(&set->vlarb_high, prefix, "high");
2016 subn_verify_sl2vl(&set->sl2vl, prefix);
2019 int osm_subn_verify_config(IN osm_subn_opt_t * p_opts)
2021 if (p_opts->lmc > 7) {
2022 log_report(" Invalid Cached Option Value:lmc = %u:"
2023 "Using Default:%u\n", p_opts->lmc, OSM_DEFAULT_LMC);
2024 p_opts->lmc = OSM_DEFAULT_LMC;
2027 if (15 < p_opts->sm_priority) {
2028 log_report(" Invalid Cached Option Value:sm_priority = %u:"
2029 "Using Default:%u\n",
2030 p_opts->sm_priority, OSM_DEFAULT_SM_PRIORITY);
2031 p_opts->sm_priority = OSM_DEFAULT_SM_PRIORITY;
2034 if ((15 < p_opts->force_link_speed) ||
2035 (p_opts->force_link_speed > 7 && p_opts->force_link_speed < 15)) {
2036 log_report(" Invalid Cached Option Value:force_link_speed = %u:"
2037 "Using Default:%u\n", p_opts->force_link_speed,
2038 IB_PORT_LINK_SPEED_ENABLED_MASK);
2039 p_opts->force_link_speed = IB_PORT_LINK_SPEED_ENABLED_MASK;
2042 if ((31 < p_opts->force_link_speed_ext) ||
2043 (p_opts->force_link_speed_ext > 3 && p_opts->force_link_speed_ext < 30)) {
2044 log_report(" Invalid Cached Option Value:force_link_speed_ext = %u:"
2045 "Using Default:%u\n", p_opts->force_link_speed_ext,
2047 p_opts->force_link_speed_ext = 31;
2050 if (2 < p_opts->fdr10) {
2051 log_report(" Invalid Cached Option Value:fdr10 = %u:"
2052 "Using Default:%u\n", p_opts->fdr10, 1);
2056 if (p_opts->max_wire_smps == 0)
2057 p_opts->max_wire_smps = 0x7FFFFFFF;
2058 else if (p_opts->max_wire_smps > 0x7FFFFFFF) {
2059 log_report(" Invalid Cached Option Value: max_wire_smps = %u,"
2060 " Using Default: %u\n",
2061 p_opts->max_wire_smps, OSM_DEFAULT_SMP_MAX_ON_WIRE);
2062 p_opts->max_wire_smps = OSM_DEFAULT_SMP_MAX_ON_WIRE;
2065 if (p_opts->max_wire_smps2 > 0x7FFFFFFF) {
2066 log_report(" Invalid Cached Option Value: max_wire_smps2 = %u,"
2067 " Using Default: %u",
2068 p_opts->max_wire_smps2, p_opts->max_wire_smps);
2069 p_opts->max_wire_smps2 = p_opts->max_wire_smps;
2072 if (strcmp(p_opts->console, OSM_DISABLE_CONSOLE)
2073 && strcmp(p_opts->console, OSM_LOCAL_CONSOLE)
2074 #ifdef ENABLE_OSM_CONSOLE_LOOPBACK
2075 && strcmp(p_opts->console, OSM_LOOPBACK_CONSOLE)
2077 #ifdef ENABLE_OSM_CONSOLE_SOCKET
2078 && strcmp(p_opts->console, OSM_REMOTE_CONSOLE)
2081 log_report(" Invalid Cached Option Value:console = %s"
2082 ", Using Default:%s\n",
2083 p_opts->console, OSM_DEFAULT_CONSOLE);
2084 free(p_opts->console);
2085 p_opts->console = strdup(OSM_DEFAULT_CONSOLE);
2088 if (p_opts->no_partition_enforcement == TRUE) {
2089 strcpy(p_opts->part_enforce, OSM_PARTITION_ENFORCE_OFF);
2090 p_opts->part_enforce_enum = OSM_PARTITION_ENFORCE_TYPE_OFF;
2092 if (strcmp(p_opts->part_enforce, OSM_PARTITION_ENFORCE_BOTH) == 0)
2093 p_opts->part_enforce_enum = OSM_PARTITION_ENFORCE_TYPE_BOTH;
2094 else if (strcmp(p_opts->part_enforce, OSM_PARTITION_ENFORCE_IN) == 0)
2095 p_opts->part_enforce_enum = OSM_PARTITION_ENFORCE_TYPE_IN;
2096 else if (strcmp(p_opts->part_enforce, OSM_PARTITION_ENFORCE_OUT) == 0)
2097 p_opts->part_enforce_enum = OSM_PARTITION_ENFORCE_TYPE_OUT;
2098 else if (strcmp(p_opts->part_enforce, OSM_PARTITION_ENFORCE_OFF) == 0)
2099 p_opts->part_enforce_enum = OSM_PARTITION_ENFORCE_TYPE_OFF;
2101 log_report(" Invalid Cached Option Value:part_enforce = %s"
2102 ", Using Default:%s\n",
2103 p_opts->part_enforce, OSM_PARTITION_ENFORCE_BOTH);
2104 strcpy(p_opts->part_enforce, OSM_PARTITION_ENFORCE_BOTH);
2105 p_opts->part_enforce_enum = OSM_PARTITION_ENFORCE_TYPE_BOTH;
2110 subn_verify_qos_set(&p_opts->qos_options, "qos");
2111 subn_verify_qos_set(&p_opts->qos_ca_options, "qos_ca");
2112 subn_verify_qos_set(&p_opts->qos_sw0_options, "qos_sw0");
2113 subn_verify_qos_set(&p_opts->qos_swe_options, "qos_swe");
2114 subn_verify_qos_set(&p_opts->qos_rtr_options, "qos_rtr");
2117 #ifdef ENABLE_OSM_PERF_MGR
2118 if (p_opts->perfmgr_sweep_time_s < 1) {
2119 log_report(" Invalid Cached Option Value:perfmgr_sweep_time_s "
2120 "= %u Using Default:%u\n",
2121 p_opts->perfmgr_sweep_time_s,
2122 OSM_PERFMGR_DEFAULT_SWEEP_TIME_S);
2123 p_opts->perfmgr_sweep_time_s = OSM_PERFMGR_DEFAULT_SWEEP_TIME_S;
2125 if (p_opts->perfmgr_max_outstanding_queries < 1) {
2126 log_report(" Invalid Cached Option Value:"
2127 "perfmgr_max_outstanding_queries = %u"
2128 " Using Default:%u\n",
2129 p_opts->perfmgr_max_outstanding_queries,
2130 OSM_PERFMGR_DEFAULT_MAX_OUTSTANDING_QUERIES);
2131 p_opts->perfmgr_max_outstanding_queries =
2132 OSM_PERFMGR_DEFAULT_MAX_OUTSTANDING_QUERIES;
2136 if (p_opts->m_key_protect_bits > 3) {
2137 log_report(" Invalid Cached Option Value:"
2138 "m_key_protection_level = %u Setting to %u "
2139 "instead\n", p_opts->m_key_protect_bits, 2);
2140 p_opts->m_key_protect_bits = 2;
2142 if (p_opts->m_key_protect_bits && p_opts->m_key_lease_period) {
2143 if (!p_opts->sweep_interval) {
2144 log_report(" Sweep disabled with protected mkey "
2145 "leases in effect; re-enabling sweeping "
2146 "with interval %u\n",
2147 cl_ntoh16(p_opts->m_key_lease_period) - 1);
2148 p_opts->sweep_interval =
2149 cl_ntoh16(p_opts->m_key_lease_period) - 1;
2151 if (p_opts->sweep_interval >=
2152 cl_ntoh16(p_opts->m_key_lease_period)) {
2153 log_report(" Sweep interval %u >= mkey lease period "
2154 "%u. Setting lease period to %u\n",
2155 p_opts->sweep_interval,
2156 cl_ntoh16(p_opts->m_key_lease_period),
2157 p_opts->sweep_interval + 1);
2158 p_opts->m_key_lease_period =
2159 cl_hton16(p_opts->sweep_interval + 1);
2166 int osm_subn_parse_conf_file(const char *file_name, osm_subn_opt_t * p_opts)
2170 char *p_key, *p_val, *pound_sign;
2172 void *p_field1, *p_field2;
2175 opts_file = fopen(file_name, "r");
2177 if (errno == ENOENT)
2179 printf("cannot open file \'%s\': %s\n",
2180 file_name, strerror(errno));
2184 printf(" Reading Cached Option File: %s\n", file_name);
2186 p_opts->config_file = file_name;
2187 if (!p_opts->file_opts && !(p_opts->file_opts = malloc(sizeof(*p_opts)))) {
2191 memcpy(p_opts->file_opts, p_opts, sizeof(*p_opts));
2192 p_opts->file_opts->file_opts = NULL;
2194 while (fgets(line, 1023, opts_file) != NULL) {
2195 pound_sign = strchr(line,'#');
2197 /* Truncate any comments. */
2201 /* get the first token */
2202 p_key = strtok_r(line, " \t\n", &p_val);
2206 p_val = clean_val(p_val);
2208 for (r = opt_tbl; r->name; r++) {
2209 if (strcmp(r->name, p_key))
2213 p_field1 = (void *)p_opts->file_opts + r->opt_offset;
2214 p_field2 = (void *)p_opts + r->opt_offset;
2215 /* don't call setup function first time */
2216 r->parse_fn(NULL, p_key, p_val, p_field1, p_field2,
2222 log_report(" Unrecognized token: \"%s\"\n", p_key);
2226 osm_subn_verify_config(p_opts);
2231 int osm_subn_rescan_conf_files(IN osm_subn_t * p_subn)
2234 osm_subn_opt_t *p_opts = &p_subn->opt;
2237 char *p_key, *p_val, *pound_sign;
2238 void *p_field1, *p_field2;
2241 if (!p_opts->config_file)
2244 opts_file = fopen(p_opts->config_file, "r");
2246 if (errno == ENOENT)
2248 OSM_LOG(&p_subn->p_osm->log, OSM_LOG_ERROR,
2249 "cannot open file \'%s\': %s\n",
2250 p_opts->config_file, strerror(errno));
2254 subn_init_qos_options(&p_opts->qos_options,
2255 &p_opts->file_opts->qos_options);
2256 subn_init_qos_options(&p_opts->qos_ca_options,
2257 &p_opts->file_opts->qos_ca_options);
2258 subn_init_qos_options(&p_opts->qos_sw0_options,
2259 &p_opts->file_opts->qos_sw0_options);
2260 subn_init_qos_options(&p_opts->qos_swe_options,
2261 &p_opts->file_opts->qos_swe_options);
2262 subn_init_qos_options(&p_opts->qos_rtr_options,
2263 &p_opts->file_opts->qos_rtr_options);
2265 while (fgets(line, 1023, opts_file) != NULL) {
2266 pound_sign = strchr(line,'#');
2269 /* Truncate any comments. */
2273 /* get the first token */
2274 p_key = strtok_r(line, " \t\n", &p_val);
2278 p_val = clean_val(p_val);
2280 for (r = opt_tbl; r->name; r++) {
2281 if (strcmp(r->name, p_key))
2289 p_field1 = (void *)p_opts->file_opts + r->opt_offset;
2290 p_field2 = (void *)p_opts + r->opt_offset;
2291 r->parse_fn(p_subn, p_key, p_val, p_field1, p_field2,
2296 log_report(" Unrecognized token: \"%s\"\n", p_key);
2300 osm_subn_verify_config(p_opts);
2302 parse_prefix_routes_file(p_subn);
2304 parse_per_mod_logging_file(p_subn);
2309 void osm_subn_output_conf(FILE *out, IN osm_subn_opt_t * p_opts)
2311 int cacongoutputcount = 0;
2315 "#\n# DEVICE ATTRIBUTES OPTIONS\n#\n"
2316 "# The port GUID on which the OpenSM is running\n"
2317 "guid 0x%016" PRIx64 "\n\n"
2318 "# M_Key value sent to all ports qualifying all Set(PortInfo)\n"
2319 "m_key 0x%016" PRIx64 "\n\n"
2320 "# The lease period used for the M_Key on this subnet in [sec]\n"
2321 "m_key_lease_period %u\n\n"
2322 "# The protection level used for the M_Key on this subnet\n"
2323 "m_key_protection_level %u\n\n"
2324 "# If TRUE, SM tries to determine the m_key of unknown ports from guid2mkey file\n"
2325 "# If FALSE, SM won't try to determine the m_key of unknown ports.\n"
2326 "# Preconfigured m_key will be used instead\n"
2327 "m_key_lookup %s\n\n"
2328 "# SM_Key value of the SM used for SM authentication\n"
2329 "sm_key 0x%016" PRIx64 "\n\n"
2330 "# SM_Key value to qualify rcv SA queries as 'trusted'\n"
2331 "sa_key 0x%016" PRIx64 "\n\n"
2332 "# Note that for both values above (sm_key and sa_key)\n"
2333 "# OpenSM version 3.2.1 and below used the default value '1'\n"
2334 "# in a host byte order, it is fixed now but you may need to\n"
2335 "# change the values to interoperate with old OpenSM running\n"
2336 "# on a little endian machine.\n\n"
2337 "# Subnet prefix used on this subnet\n"
2338 "subnet_prefix 0x%016" PRIx64 "\n\n"
2339 "# The LMC value used on this subnet\n"
2341 "# lmc_esp0 determines whether LMC value used on subnet is used for\n"
2342 "# enhanced switch port 0. If TRUE, LMC value for subnet is used for\n"
2343 "# ESP0. Otherwise, LMC value for ESP0s is 0.\n"
2345 "# sm_sl determines SMSL used for SM/SA communication\n"
2347 "# The code of maximal time a packet can live in a switch\n"
2348 "# The actual time is 4.096usec * 2^<packet_life_time>\n"
2349 "# The value 0x14 disables this mechanism\n"
2350 "packet_life_time 0x%02x\n\n"
2351 "# The number of sequential packets dropped that cause the port\n"
2352 "# to enter the VLStalled state. The result of setting this value to\n"
2353 "# zero is undefined.\n"
2354 "vl_stall_count 0x%02x\n\n"
2355 "# The number of sequential packets dropped that cause the port\n"
2356 "# to enter the VLStalled state. This value is for switch ports\n"
2357 "# driving a CA or router port. The result of setting this value\n"
2358 "# to zero is undefined.\n"
2359 "leaf_vl_stall_count 0x%02x\n\n"
2360 "# The code of maximal time a packet can wait at the head of\n"
2361 "# transmission queue.\n"
2362 "# The actual time is 4.096usec * 2^<head_of_queue_lifetime>\n"
2363 "# The value 0x14 disables this mechanism\n"
2364 "head_of_queue_lifetime 0x%02x\n\n"
2365 "# The maximal time a packet can wait at the head of queue on\n"
2366 "# switch port connected to a CA or router port\n"
2367 "leaf_head_of_queue_lifetime 0x%02x\n\n"
2368 "# Limit the maximal operational VLs\n"
2370 "# Force PortInfo:LinkSpeedEnabled on switch ports\n"
2371 "# If 0, don't modify PortInfo:LinkSpeedEnabled on switch port\n"
2372 "# Otherwise, use value for PortInfo:LinkSpeedEnabled on switch port\n"
2373 "# Values are (IB Spec 1.2.1, 14.2.5.6 Table 146 \"PortInfo\")\n"
2375 "# 3: 2.5 or 5.0 Gbps\n"
2376 "# 5: 2.5 or 10.0 Gbps\n"
2377 "# 7: 2.5 or 5.0 or 10.0 Gbps\n"
2378 "# 2,4,6,8-14 Reserved\n"
2379 "# Default 15: set to PortInfo:LinkSpeedSupported\n"
2380 "force_link_speed %u\n\n"
2381 "# Force PortInfo:LinkSpeedExtEnabled on ports\n"
2382 "# If 0, don't modify PortInfo:LinkSpeedExtEnabled on port\n"
2383 "# Otherwise, use value for PortInfo:LinkSpeedExtEnabled on port\n"
2384 "# Values are (MgtWG RefID #4722)\n"
2385 "# 1: 14.0625 Gbps\n"
2386 "# 2: 25.78125 Gbps\n"
2387 "# 3: 14.0625 Gbps or 25.78125 Gbps\n"
2388 "# 30: Disable extended link speeds\n"
2389 "# Default 31: set to PortInfo:LinkSpeedExtSupported\n"
2390 "force_link_speed_ext %u\n\n"
2391 "# FDR10 on ports on devices that support FDR10\n"
2393 "# 0: don't use fdr10 (no MLNX ExtendedPortInfo MADs)\n"
2394 "# Default 1: enable fdr10 when supported\n"
2395 "# 2: disable fdr10 when supported\n"
2397 "# The subnet_timeout code that will be set for all the ports\n"
2398 "# The actual timeout is 4.096usec * 2^<subnet_timeout>\n"
2399 "subnet_timeout %u\n\n"
2400 "# Threshold of local phy errors for sending Trap 129\n"
2401 "local_phy_errors_threshold 0x%02x\n\n"
2402 "# Threshold of credit overrun errors for sending Trap 130\n"
2403 "overrun_errors_threshold 0x%02x\n\n"
2404 "# Use SwitchInfo:MulticastFDBTop if advertised in PortInfo:CapabilityMask\n"
2405 "use_mfttop %s\n\n",
2406 cl_ntoh64(p_opts->guid),
2407 cl_ntoh64(p_opts->m_key),
2408 cl_ntoh16(p_opts->m_key_lease_period),
2409 p_opts->m_key_protect_bits,
2410 p_opts->m_key_lookup ? "TRUE" : "FALSE",
2411 cl_ntoh64(p_opts->sm_key),
2412 cl_ntoh64(p_opts->sa_key),
2413 cl_ntoh64(p_opts->subnet_prefix),
2415 p_opts->lmc_esp0 ? "TRUE" : "FALSE",
2417 p_opts->packet_life_time,
2418 p_opts->vl_stall_count,
2419 p_opts->leaf_vl_stall_count,
2420 p_opts->head_of_queue_lifetime,
2421 p_opts->leaf_head_of_queue_lifetime,
2423 p_opts->force_link_speed,
2424 p_opts->force_link_speed_ext,
2426 p_opts->subnet_timeout,
2427 p_opts->local_phy_errors_threshold,
2428 p_opts->overrun_errors_threshold,
2429 p_opts->use_mfttop ? "TRUE" : "FALSE");
2432 "#\n# PARTITIONING OPTIONS\n#\n"
2433 "# Partition configuration file to be used\n"
2434 "partition_config_file %s\n\n"
2435 "# Disable partition enforcement by switches (DEPRECATED)\n"
2436 "# This option is DEPRECATED. Please use part_enforce instead\n"
2437 "no_partition_enforcement %s\n\n"
2438 "# Partition enforcement type (for switches)\n"
2439 "# Values are both, out, in and off\n"
2440 "# Default is both (outbound and inbound enforcement)\n"
2441 "part_enforce %s\n\n"
2442 "# Allow both full and limited membership on the same partition\n"
2443 "allow_both_pkeys %s\n\n"
2444 "# SM assigned GUID byte where GUID is formed from OpenFabrics OUI\n"
2445 "# followed by 40 bits xy 00 ab cd ef where xy is the SM assigned GUID byte\n"
2446 "# and ab cd ef is an SM autogenerated 24 bits\n"
2447 "# SM assigned GUID byte should be configured as subnet unique\n"
2448 "sm_assigned_guid 0x%02x\n\n",
2449 p_opts->partition_config_file,
2450 p_opts->no_partition_enforcement ? "TRUE" : "FALSE",
2451 p_opts->part_enforce,
2452 p_opts->allow_both_pkeys ? "TRUE" : "FALSE",
2453 p_opts->sm_assigned_guid);
2456 "#\n# SWEEP OPTIONS\n#\n"
2457 "# The number of seconds between subnet sweeps (0 disables it)\n"
2458 "sweep_interval %u\n\n"
2459 "# If TRUE cause all lids to be reassigned\n"
2460 "reassign_lids %s\n\n"
2461 "# If TRUE forces every sweep to be a heavy sweep\n"
2462 "force_heavy_sweep %s\n\n"
2463 "# If TRUE every trap 128 and 144 will cause a heavy sweep.\n"
2464 "# NOTE: successive identical traps (>10) are suppressed\n"
2465 "sweep_on_trap %s\n\n",
2466 p_opts->sweep_interval,
2467 p_opts->reassign_lids ? "TRUE" : "FALSE",
2468 p_opts->force_heavy_sweep ? "TRUE" : "FALSE",
2469 p_opts->sweep_on_trap ? "TRUE" : "FALSE");
2472 "#\n# ROUTING OPTIONS\n#\n"
2473 "# If TRUE count switches as link subscriptions\n"
2474 "port_profile_switch_nodes %s\n\n",
2475 p_opts->port_profile_switch_nodes ? "TRUE" : "FALSE");
2478 "# Name of file with port guids to be ignored by port profiling\n"
2479 "port_prof_ignore_file %s\n\n", p_opts->port_prof_ignore_file ?
2480 p_opts->port_prof_ignore_file : null_str);
2483 "# The file holding routing weighting factors per output port\n"
2484 "hop_weights_file %s\n\n",
2485 p_opts->hop_weights_file ? p_opts->hop_weights_file : null_str);
2488 "# The file holding non-default port order per switch for routing\n"
2489 "port_search_ordering_file %s\n\n",
2490 p_opts->port_search_ordering_file ?
2491 p_opts->port_search_ordering_file : null_str);
2494 "# Routing engine\n"
2495 "# Multiple routing engines can be specified separated by\n"
2496 "# commas so that specific ordering of routing algorithms will\n"
2497 "# be tried if earlier routing engines fail.\n"
2498 "# Supported engines: minhop, updn, dnup, file, ftree, lash,\n"
2499 "# dor, torus-2QoS, dfsssp, sssp\n"
2500 "routing_engine %s\n\n", p_opts->routing_engine_names ?
2501 p_opts->routing_engine_names : null_str);
2504 "# Connect roots (use FALSE if unsure)\n"
2505 "connect_roots %s\n\n",
2506 p_opts->connect_roots ? "TRUE" : "FALSE");
2509 "# Use unicast routing cache (use FALSE if unsure)\n"
2510 "use_ucast_cache %s\n\n",
2511 p_opts->use_ucast_cache ? "TRUE" : "FALSE");
2514 "# Lid matrix dump file name\n"
2515 "lid_matrix_dump_file %s\n\n", p_opts->lid_matrix_dump_file ?
2516 p_opts->lid_matrix_dump_file : null_str);
2519 "# LFTs file name\nlfts_file %s\n\n",
2520 p_opts->lfts_file ? p_opts->lfts_file : null_str);
2523 "# The file holding the root node guids (for fat-tree or Up/Down)\n"
2524 "# One guid in each line\nroot_guid_file %s\n\n",
2525 p_opts->root_guid_file ? p_opts->root_guid_file : null_str);
2528 "# The file holding the fat-tree compute node guids\n"
2529 "# One guid in each line\ncn_guid_file %s\n\n",
2530 p_opts->cn_guid_file ? p_opts->cn_guid_file : null_str);
2533 "# The file holding the fat-tree I/O node guids\n"
2534 "# One guid in each line.\n"
2535 "# If only io_guid file is provided, the rest of nodes\n"
2536 "# are considered as compute nodes.\n"
2537 "io_guid_file %s\n\n",
2538 p_opts->io_guid_file ? p_opts->io_guid_file : null_str);
2541 "# If TRUE enables alternative indexing policy for ftree routing\n"
2542 "# in quasi-ftree topologies that can improve shift-pattern support.\n"
2543 "# The switch indexing starts from root switch and leaf switches\n"
2544 "# are termination points of BFS algorithm\n"
2545 "# If FALSE, the indexing starts from leaf switch (default)\n"
2546 "quasi_ftree_indexing %s\n\n",
2547 p_opts->quasi_ftree_indexing ? "TRUE" : "FALSE");
2550 "# Number of reverse hops allowed for I/O nodes\n"
2551 "# Used for connectivity between I/O nodes connected to Top Switches\nmax_reverse_hops %d\n\n",
2552 p_opts->max_reverse_hops);
2555 "# The file holding the node ids which will be used by"
2556 " Up/Down algorithm instead\n# of GUIDs (one guid and"
2557 " id in each line)\nids_guid_file %s\n\n",
2558 p_opts->ids_guid_file ? p_opts->ids_guid_file : null_str);
2561 "# The file holding guid routing order guids (for MinHop and Up/Down)\n"
2562 "guid_routing_order_file %s\n\n",
2563 p_opts->guid_routing_order_file ? p_opts->guid_routing_order_file : null_str);
2566 "# Do mesh topology analysis (for LASH algorithm)\n"
2567 "do_mesh_analysis %s\n\n",
2568 p_opts->do_mesh_analysis ? "TRUE" : "FALSE");
2571 "# Starting VL for LASH algorithm\n"
2572 "lash_start_vl %u\n\n",
2573 p_opts->lash_start_vl);
2576 "# Port Shifting (use FALSE if unsure)\n"
2577 "port_shifting %s\n\n",
2578 p_opts->port_shifting ? "TRUE" : "FALSE");
2581 "# Assign ports in a random order instead of round-robin\n"
2582 "# If zero disable (default), otherwise use the value as a random seed\n"
2583 "scatter_ports %d\n\n",
2584 p_opts->scatter_ports);
2587 "# Don't use scatter for ports defined in\n"
2588 "# guid_routing_order file\n"
2589 "guid_routing_order_no_scatter %s\n\n",
2590 p_opts->guid_routing_order_no_scatter ? "TRUE" : "FALSE");
2593 "# SA database file name\nsa_db_file %s\n\n",
2594 p_opts->sa_db_file ? p_opts->sa_db_file : null_str);
2597 "# If TRUE causes OpenSM to dump SA database at the end of\n"
2598 "# every light sweep, regardless of the verbosity level\n"
2599 "sa_db_dump %s\n\n",
2600 p_opts->sa_db_dump ? "TRUE" : "FALSE");
2603 "# Torus-2QoS configuration file name\ntorus_config %s\n\n",
2604 p_opts->torus_conf_file ? p_opts->torus_conf_file : null_str);
2607 "#\n# HANDOVER - MULTIPLE SMs OPTIONS\n#\n"
2608 "# SM priority used for deciding who is the master\n"
2609 "# Range goes from 0 (lowest priority) to 15 (highest).\n"
2610 "sm_priority %u\n\n"
2611 "# If TRUE other SMs on the subnet should be ignored\n"
2612 "ignore_other_sm %s\n\n"
2613 "# Timeout in [msec] between two polls of active master SM\n"
2614 "sminfo_polling_timeout %u\n\n"
2615 "# Number of failing polls of remote SM that declares it dead\n"
2616 "polling_retry_number %u\n\n"
2617 "# If TRUE honor the guid2lid file when coming out of standby\n"
2618 "# state, if such file exists and is valid\n"
2619 "honor_guid2lid_file %s\n\n",
2620 p_opts->sm_priority,
2621 p_opts->ignore_other_sm ? "TRUE" : "FALSE",
2622 p_opts->sminfo_polling_timeout,
2623 p_opts->polling_retry_number,
2624 p_opts->honor_guid2lid_file ? "TRUE" : "FALSE");
2627 "#\n# TIMING AND THREADING OPTIONS\n#\n"
2628 "# Maximum number of SMPs sent in parallel\n"
2629 "max_wire_smps %u\n\n"
2630 "# Maximum number of timeout based SMPs allowed to be outstanding\n"
2631 "# A value less than or equal to max_wire_smps disables this mechanism\n"
2632 "max_wire_smps2 %u\n\n"
2633 "# The timeout in [usec] used for sending SMPs above max_wire_smps limit\n"
2634 "# and below max_wire_smps2 limit\n"
2635 "max_smps_timeout %u\n\n"
2636 "# The maximum time in [msec] allowed for a transaction to complete\n"
2637 "transaction_timeout %u\n\n"
2638 "# The maximum number of retries allowed for a transaction to complete\n"
2639 "transaction_retries %u\n\n"
2640 "# Maximal time in [msec] a message can stay in the incoming message queue.\n"
2641 "# If there is more than one message in the queue and the last message\n"
2642 "# stayed in the queue more than this value, any SA request will be\n"
2643 "# immediately be dropped but BUSY status is not currently returned.\n"
2644 "max_msg_fifo_timeout %u\n\n"
2645 "# Use a single thread for handling SA queries\n"
2646 "single_thread %s\n\n",
2647 p_opts->max_wire_smps,
2648 p_opts->max_wire_smps2,
2649 p_opts->max_smps_timeout,
2650 p_opts->transaction_timeout,
2651 p_opts->transaction_retries,
2652 p_opts->max_msg_fifo_timeout,
2653 p_opts->single_thread ? "TRUE" : "FALSE");
2656 "#\n# MISC OPTIONS\n#\n"
2660 "sm_inactive %s\n\n"
2661 "# Babbling Port Policy\n"
2662 "babbling_port_policy %s\n\n"
2663 "# Drop event subscriptions (InformInfo and ServiceRecord) on port removal and SM coming out of STANDBY\n"
2664 "drop_event_subscriptions %s\n\n"
2665 "# Validate IPoIB non-broadcast group creation parameters against\n"
2666 "# broadcast group parameters per IETF RFC 4391 (default TRUE)\n"
2667 "ipoib_mcgroup_creation_validation %s\n\n"
2668 "# Validate multicast join parameters against multicast group\n"
2669 "# parameters when MC group already exists\n"
2670 "mcgroup_join_validation %s\n\n"
2671 "# Use Optimized SLtoVLMapping programming if supported by device\n"
2672 "use_optimized_slvl %s\n\n"
2673 "# Sync in memory files used for high availability with storage\n"
2674 "fsync_high_avail_files %s\n\n",
2675 p_opts->daemon ? "TRUE" : "FALSE",
2676 p_opts->sm_inactive ? "TRUE" : "FALSE",
2677 p_opts->babbling_port_policy ? "TRUE" : "FALSE",
2678 p_opts->drop_event_subscriptions ? "TRUE" : "FALSE",
2679 p_opts->ipoib_mcgroup_creation_validation ? "TRUE" : "FALSE",
2680 p_opts->mcgroup_join_validation ? "TRUE" : "FALSE",
2681 p_opts->use_optimized_slvl ? "TRUE" : "FALSE",
2682 p_opts->fsync_high_avail_files ? "TRUE" : "FALSE");
2684 #ifdef ENABLE_OSM_PERF_MGR
2686 "#\n# Performance Manager Options\n#\n"
2687 "# perfmgr enable\n"
2688 "# PerfMgr is enabled if TRUE and disabled if FALSE (default FALSE)\n"
2690 "# redirection enable\n"
2691 "# Redirection supported if TRUE and not supported if FALSE (default TRUE)\n"
2692 "perfmgr_redir %s\n\n"
2693 "# sweep time in seconds (default %u seconds)\n"
2694 "perfmgr_sweep_time_s %u\n\n"
2695 "# Max outstanding queries (default %u)\n"
2696 "perfmgr_max_outstanding_queries %u\n\n"
2697 "# Ignore CAs on sweep (default FALSE)\n"
2698 "perfmgr_ignore_cas %s\n\n"
2699 "# Remove missing nodes from DB (default TRUE)\n"
2700 "perfmgr_rm_nodes %s\n\n"
2701 "# Log error counters to opensm.log (default TRUE)\n"
2702 "perfmgr_log_errors %s\n\n"
2703 "# Query PerfMgt Get(ClassPortInfo) for extended capabilities\n"
2704 "# Extended capabilities include 64 bit extended counters\n"
2705 "# and transmit wait support (default TRUE)\n"
2706 "perfmgr_query_cpi %s\n\n"
2707 "# Log xmit_wait errors (default FALSE)\n"
2708 "perfmgr_xmit_wait_log %s\n\n"
2709 "# If logging xmit_wait's; set threshold (default %u)\n"
2710 "perfmgr_xmit_wait_threshold %u\n\n"
2712 p_opts->perfmgr ? "TRUE" : "FALSE",
2713 p_opts->perfmgr_redir ? "TRUE" : "FALSE",
2714 OSM_PERFMGR_DEFAULT_SWEEP_TIME_S,
2715 p_opts->perfmgr_sweep_time_s,
2716 OSM_PERFMGR_DEFAULT_MAX_OUTSTANDING_QUERIES,
2717 p_opts->perfmgr_max_outstanding_queries,
2718 p_opts->perfmgr_ignore_cas ? "TRUE" : "FALSE",
2719 p_opts->perfmgr_rm_nodes ? "TRUE" : "FALSE",
2720 p_opts->perfmgr_log_errors ? "TRUE" : "FALSE",
2721 p_opts->perfmgr_query_cpi ? "TRUE" : "FALSE",
2722 p_opts->perfmgr_xmit_wait_log ? "TRUE" : "FALSE",
2723 OSM_PERFMGR_DEFAULT_XMIT_WAIT_THRESHOLD,
2724 p_opts->perfmgr_xmit_wait_threshold);
2727 "#\n# Event DB Options\n#\n"
2728 "# Dump file to dump the events to\n"
2729 "event_db_dump_file %s\n\n", p_opts->event_db_dump_file ?
2730 p_opts->event_db_dump_file : null_str);
2731 #endif /* ENABLE_OSM_PERF_MGR */
2734 "#\n# Event Plugin Options\n#\n"
2735 "# Event plugin name(s)\n"
2736 "event_plugin_name %s\n\n"
2737 "# Options string that would be passed to the plugin(s)\n"
2738 "event_plugin_options %s\n\n",
2739 p_opts->event_plugin_name ?
2740 p_opts->event_plugin_name : null_str,
2741 p_opts->event_plugin_options ?
2742 p_opts->event_plugin_options : null_str);
2745 "#\n# Node name map for mapping node's to more descriptive node descriptions\n"
2746 "# (man ibnetdiscover for more information)\n#\n"
2747 "node_name_map_name %s\n\n", p_opts->node_name_map_name ?
2748 p_opts->node_name_map_name : null_str);
2751 "#\n# DEBUG FEATURES\n#\n"
2752 "# The log flags used\n"
2753 "log_flags 0x%02x\n\n"
2754 "# Force flush of the log file after each log message\n"
2755 "force_log_flush %s\n\n"
2756 "# Log file to be used\n"
2758 "# Limit the size of the log file in MB. If overrun, log is restarted\n"
2759 "log_max_size %u\n\n"
2760 "# If TRUE will accumulate the log over multiple OpenSM sessions\n"
2761 "accum_log_file %s\n\n"
2762 "# Per module logging configuration file\n"
2763 "# Each line in config file contains <module_name><separator><log_flags>\n"
2764 "# where module_name is file name including .c\n"
2765 "# separator is either = , space, or tab\n"
2766 "# log_flags is the same flags as used in the coarse/overall logging\n"
2767 "per_module_logging_file %s\n\n"
2768 "# The directory to hold the file OpenSM dumps\n"
2769 "dump_files_dir %s\n\n"
2770 "# If TRUE enables new high risk options and hardware specific quirks\n"
2771 "enable_quirks %s\n\n"
2772 "# If TRUE disables client reregistration\n"
2773 "no_clients_rereg %s\n\n"
2774 "# If TRUE OpenSM should disable multicast support and\n"
2775 "# no multicast routing is performed if TRUE\n"
2776 "disable_multicast %s\n\n"
2777 "# If TRUE opensm will exit on fatal initialization issues\n"
2778 "exit_on_fatal %s\n\n" "# console [off|local"
2779 #ifdef ENABLE_OSM_CONSOLE_LOOPBACK
2782 #ifdef ENABLE_OSM_CONSOLE_SOCKET
2788 "# Telnet port for console (default %d)\n"
2789 "console_port %d\n\n",
2791 p_opts->force_log_flush ? "TRUE" : "FALSE",
2793 p_opts->log_max_size,
2794 p_opts->accum_log_file ? "TRUE" : "FALSE",
2795 p_opts->per_module_logging_file ?
2796 p_opts->per_module_logging_file : null_str,
2797 p_opts->dump_files_dir,
2798 p_opts->enable_quirks ? "TRUE" : "FALSE",
2799 p_opts->no_clients_rereg ? "TRUE" : "FALSE",
2800 p_opts->disable_multicast ? "TRUE" : "FALSE",
2801 p_opts->exit_on_fatal ? "TRUE" : "FALSE",
2803 OSM_DEFAULT_CONSOLE_PORT, p_opts->console_port);
2806 "#\n# QoS OPTIONS\n#\n"
2807 "# Enable QoS setup\n"
2809 "# QoS policy file to be used\n"
2810 "qos_policy_file %s\n"
2811 "# Supress QoS MAD status errors\n"
2812 "suppress_sl2vl_mad_status_errors %s\n\n",
2813 p_opts->qos ? "TRUE" : "FALSE", p_opts->qos_policy_file,
2814 p_opts->suppress_sl2vl_mad_status_errors ? "TRUE" : "FALSE");
2816 subn_dump_qos_options(out,
2817 "QoS default options", "qos",
2818 &p_opts->qos_options);
2820 subn_dump_qos_options(out,
2821 "QoS CA options", "qos_ca",
2822 &p_opts->qos_ca_options);
2824 subn_dump_qos_options(out,
2825 "QoS Switch Port 0 options", "qos_sw0",
2826 &p_opts->qos_sw0_options);
2828 subn_dump_qos_options(out,
2829 "QoS Switch external ports options", "qos_swe",
2830 &p_opts->qos_swe_options);
2832 subn_dump_qos_options(out,
2833 "QoS Router ports options", "qos_rtr",
2834 &p_opts->qos_rtr_options);
2838 "#\n# Congestion Control OPTIONS (EXPERIMENTAL)\n#\n\n"
2839 "# Enable Congestion Control Configuration\n"
2840 "congestion_control %s\n\n"
2841 "# CCKey to use when configuring congestion control\n"
2842 "# note that this does not configure a new CCkey, only the CCkey to use\n"
2843 "cc_key 0x%016" PRIx64 "\n\n"
2844 "# Congestion Control Max outstanding MAD\n"
2845 "cc_max_outstanding_mads %u\n\n",
2846 p_opts->congestion_control ? "TRUE" : "FALSE",
2847 cl_ntoh64(p_opts->cc_key),
2848 p_opts->cc_max_outstanding_mads);
2851 "#\n# Congestion Control SwitchCongestionSetting options\n#\n"
2852 "# Control Map - bitmask indicating which of the following are to be used\n"
2853 "# bit 0 - victim mask\n"
2854 "# bit 1 - credit mask\n"
2855 "# bit 2 - threshold + packet size\n"
2856 "# bit 3 - credit starvation threshold + return delay valid\n"
2857 "# bit 4 - marking rate valid\n"
2858 "cc_sw_cong_setting_control_map 0x%X\n\n",
2859 cl_ntoh32(p_opts->cc_sw_cong_setting_control_map));
2862 "# Victim Mask - 256 bit mask representing switch ports, mark packets with FECN\n"
2863 "# whether they are the source or victim of congestion\n"
2864 "# bit 0 - port 0 (enhanced port)\n"
2865 "# bit 1 - port 1\n"
2867 "# bit 254 - port 254\n"
2868 "# bit 255 - reserved\n"
2869 "cc_sw_cong_setting_victim_mask 0x");
2871 for (i = 0; i < IB_CC_PORT_MASK_DATA_SIZE; i++)
2872 fprintf(out, "%02X", p_opts->cc_sw_cong_setting_victim_mask[i]);
2873 fprintf(out, "\n\n");
2876 "# Credit Mask - 256 bit mask representing switch ports to apply credit starvation\n"
2877 "# bit 0 - port 0 (enhanced port)\n"
2878 "# bit 1 - port 1\n"
2880 "# bit 254 - port 254\n"
2881 "# bit 255 - reserved\n"
2882 "cc_sw_cong_setting_credit_mask 0x");
2884 for (i = 0; i < IB_CC_PORT_MASK_DATA_SIZE; i++)
2885 fprintf(out, "%02X", p_opts->cc_sw_cong_setting_credit_mask[i]);
2886 fprintf(out, "\n\n");
2889 "# Threshold - value indicating aggressiveness of congestion marking\n"
2890 "# 0x0 - none, 0x1 - loose, ..., 0xF - aggressive\n"
2891 "cc_sw_cong_setting_threshold 0x%02X\n\n"
2892 "# Packet Size - any packet less than this size will not be marked with a FECN\n"
2893 "# units are in credits\n"
2894 "cc_sw_cong_setting_packet_size %u\n\n"
2895 "# Credit Starvation Threshold - value indicating aggressiveness of credit starvation\n"
2896 "# 0x0 - none, 0x1 - loose, ..., 0xF - aggressive\n"
2897 "cc_sw_cong_setting_credit_starvation_threshold 0x%02X\n\n"
2898 "# Credit Starvation Return Delay - in CCT entry shift:multiplier format, see IB spec\n"
2899 "cc_sw_cong_setting_credit_starvation_return_delay %u:%u\n\n"
2900 "# Marking Rate - mean number of packets between markings\n"
2901 "cc_sw_cong_setting_marking_rate %u\n\n",
2902 p_opts->cc_sw_cong_setting_threshold,
2903 p_opts->cc_sw_cong_setting_packet_size,
2904 p_opts->cc_sw_cong_setting_credit_starvation_threshold,
2905 p_opts->cc_sw_cong_setting_credit_starvation_return_delay.shift,
2906 p_opts->cc_sw_cong_setting_credit_starvation_return_delay.multiplier,
2907 cl_ntoh16(p_opts->cc_sw_cong_setting_marking_rate));
2910 "#\n# Congestion Control CA Congestion Setting options\n#\n"
2912 "# bit 0 = 0, QP based congestion control\n"
2913 "# bit 0 = 1, SL/port based congestion control\n"
2914 "cc_ca_cong_setting_port_control 0x%04X\n\n"
2915 "# Control Map - 16 bit bitmask indicating which SLs should be configured\n"
2916 "cc_ca_cong_setting_control_map 0x%04X\n\n",
2917 cl_ntoh16(p_opts->cc_ca_cong_setting_port_control),
2918 cl_ntoh16(p_opts->cc_ca_cong_setting_control_map));
2921 "#\n# CA Congestion Setting Entries\n#\n"
2922 "# Each of congestion control settings below configures the CA Congestion\n"
2923 "# Settings for an individual SL. The SL must be specified before the value.\n"
2924 "# These options may be specified multiple times to configure different values\n"
2925 "# for different SLs.\n"
2927 "# ccti timer - when expires decrements 1 from the CCTI\n"
2928 "# ccti increase - number to be added to the table index on receipt of a BECN\n"
2929 "# trigger threshold - when the ccti is equal to this, an event is logged\n"
2930 "# ccti min - the minimum value for the ccti. This imposes a minimum rate\n"
2931 "# on the injection rate\n\n");
2933 for (i = 0; i < IB_CA_CONG_ENTRY_DATA_SIZE; i++) {
2934 /* Don't output unless one of the settings has been set, there's no need
2935 * to output 16 chunks of this with all defaults of 0 */
2936 if (p_opts->cc_ca_cong_entries[i].ccti_timer
2937 || p_opts->cc_ca_cong_entries[i].ccti_increase
2938 || p_opts->cc_ca_cong_entries[i].trigger_threshold
2939 || p_opts->cc_ca_cong_entries[i].ccti_min) {
2942 "cc_ca_cong_setting_ccti_timer %u %u\n"
2943 "cc_ca_cong_setting_ccti_increase %u %u\n"
2944 "cc_ca_cong_setting_trigger_threshold %u %u\n"
2945 "cc_ca_cong_setting_ccti_min %u %u\n\n",
2948 cl_ntoh16(p_opts->cc_ca_cong_entries[i].ccti_timer),
2950 p_opts->cc_ca_cong_entries[i].ccti_increase,
2952 p_opts->cc_ca_cong_entries[i].trigger_threshold,
2954 p_opts->cc_ca_cong_entries[i].ccti_min);
2955 cacongoutputcount++;
2959 /* If by chance all the CA Cong Settings are default, output at least 1 chunk
2960 * for illustration */
2961 if (!cacongoutputcount)
2964 "cc_ca_cong_setting_ccti_timer 0 %u\n"
2965 "cc_ca_cong_setting_ccti_increase 0 %u\n"
2966 "cc_ca_cong_setting_trigger_threshold 0 %u\n"
2967 "cc_ca_cong_setting_ccti_min 0 %u\n\n",
2968 cl_ntoh16(p_opts->cc_ca_cong_entries[0].ccti_timer),
2969 p_opts->cc_ca_cong_entries[0].ccti_increase,
2970 p_opts->cc_ca_cong_entries[0].trigger_threshold,
2971 p_opts->cc_ca_cong_entries[0].ccti_min);
2974 "#\n# Congestion Control Table\n#\n"
2975 "# Comma separated list of CCT entries representing CCT.\n"
2976 "# Format is shift:multipler,shift_multiplier,shift:multiplier,...\n"
2979 if (!p_opts->cc_cct.entries_len) {
2980 fprintf(out, "%s\n", null_str);
2983 fprintf(out, "%u:%u",
2984 p_opts->cc_cct.entries[0].shift,
2985 p_opts->cc_cct.entries[0].multiplier);
2986 for (i = 1; i < p_opts->cc_cct.entries_len; i++) {
2987 fprintf(out, ",%u:%u",
2988 p_opts->cc_cct.entries[i].shift,
2989 p_opts->cc_cct.entries[i].multiplier);
2996 "# Prefix routes file name\n"
2997 "prefix_routes_file %s\n\n",
2998 p_opts->prefix_routes_file);
3001 "#\n# IPv6 Solicited Node Multicast (SNM) Options\n#\n"
3002 "consolidate_ipv6_snm_req %s\n\n",
3003 p_opts->consolidate_ipv6_snm_req ? "TRUE" : "FALSE");
3005 fprintf(out, "# Log prefix\nlog_prefix %s\n\n", p_opts->log_prefix);
3007 /* optional string attributes ... */
3011 int osm_subn_write_conf_file(char *file_name, IN osm_subn_opt_t * p_opts)
3015 opts_file = fopen(file_name, "w");
3017 printf("cannot open file \'%s\' for writing: %s\n",
3018 file_name, strerror(errno));
3022 osm_subn_output_conf(opts_file, p_opts);