/*
* Copyright (c) 2006,2007 The Regents of the University of California.
* Copyright (c) 2004-2009 Voltaire, Inc. All rights reserved.
* Copyright (c) 2002-2013 Mellanox Technologies LTD. All rights reserved.
* Copyright (c) 1996-2013 Intel Corporation. All rights reserved.
* Copyright (c) 2009 HNR Consulting. All rights reserved.
*
* Produced at Lawrence Livermore National Laboratory.
* Written by Ira Weiny <weiny2@llnl.gov>.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
*/
#include <unistd.h>
#include <stdio.h>
#include <arpa/inet.h>
#include <ctype.h>
#include <string.h>
#include <errno.h>
#define _GNU_SOURCE
#include <infiniband/umad.h>
#include <infiniband/mad.h>
#include <util/node_name_map.h>
#include "ibdiag_common.h"
#include "ibdiag_sa.h"
#ifndef IB_PR_COMPMASK_SERVICEID
#define IB_PR_COMPMASK_SERVICEID (IB_PR_COMPMASK_SERVICEID_MSB | \
IB_PR_COMPMASK_SERVICEID_LSB)
#endif
#define UMAD_SA_CAP_MASK2_IS_MCAST_TOP_SUP (1 << 3)
struct query_params {
uint64_t service_id;
ibmad_gid_t sgid, dgid, gid, mgid;
uint16_t slid, dlid, mlid;
uint32_t flow_label;
int hop_limit;
uint8_t tclass;
int reversible, numb_path;
uint16_t pkey;
int qos_class, sl;
uint8_t mtu, rate, pkt_life;
uint32_t qkey;
uint8_t scope;
uint8_t join_state;
int proxy_join;
ib_class_port_info_t cpi;
};
struct query_cmd {
const char *name, *alias;
uint16_t query_type;
const char *usage;
int (*handler) (const struct query_cmd * q, struct sa_handle * h,
struct query_params * p, int argc, char *argv[]);
};
static char *node_name_map_file = NULL;
static nn_map_t *node_name_map = NULL;
/**
* Declare some globals because I don't want this to be too complex.
*/
#define MAX_PORTS (8)
#define DEFAULT_SA_TIMEOUT_MS (1000)
static enum {
ALL,
LID_ONLY,
UNIQUE_LID_ONLY,
GUID_ONLY,
ALL_DESC,
NAME_OF_LID,
NAME_OF_GUID,
} node_print_desc = ALL;
static char *requested_name;
static uint16_t requested_lid;
static int requested_lid_flag;
static uint64_t requested_guid;
static int requested_guid_flag;
static unsigned valid_gid(ibmad_gid_t * gid)
{
ibmad_gid_t zero_gid;
memset(&zero_gid, 0, sizeof zero_gid);
return memcmp(&zero_gid, gid, sizeof(*gid));
}
static void print_node_desc(ib_node_record_t * node_record)
{
ib_node_info_t *p_ni = &(node_record->node_info);
ib_node_desc_t *p_nd = &(node_record->node_desc);
char *name;
if (p_ni->node_type == IB_NODE_TYPE_CA) {
name = remap_node_name(node_name_map,
be64toh(node_record->node_info.node_guid),
(char *)p_nd->description);
printf("%6d \"%s\"\n", be16toh(node_record->lid), name);
free(name);
}
}
static void dump_node_record(void *data, struct query_params *p)
{
ib_node_record_t *nr = data;
ib_node_info_t *ni = &nr->node_info;
char *name = remap_node_name(node_name_map,
be64toh(ni->node_guid),
(char *)nr->node_desc.description);
printf("NodeRecord dump:\n"
"\t\tlid.....................%u\n"
"\t\treserved................0x%X\n"
"\t\tbase_version............0x%X\n"
"\t\tclass_version...........0x%X\n"
"\t\tnode_type...............%s\n"
"\t\tnum_ports...............%u\n"
"\t\tsys_guid................0x%016" PRIx64 "\n"
"\t\tnode_guid...............0x%016" PRIx64 "\n"
"\t\tport_guid...............0x%016" PRIx64 "\n"
"\t\tpartition_cap...........0x%X\n"
"\t\tdevice_id...............0x%X\n"
"\t\trevision................0x%X\n"
"\t\tport_num................%u\n"
"\t\tvendor_id...............0x%X\n"
"\t\tNodeDescription.........%s\n",
be16toh(nr->lid), be16toh(nr->resv),
ni->base_version, ni->class_version,
ib_get_node_type_str(ni->node_type), ni->num_ports,
be64toh(ni->sys_guid), be64toh(ni->node_guid),
be64toh(ni->port_guid), be16toh(ni->partition_cap),
be16toh(ni->device_id), be32toh(ni->revision),
ib_node_info_get_local_port_num(ni),
be32toh(ib_node_info_get_vendor_id(ni)),
name);
free(name);
}
static void print_node_record(ib_node_record_t * node_record)
{
ib_node_info_t *p_ni = &node_record->node_info;
ib_node_desc_t *p_nd = &node_record->node_desc;
char *name;
switch (node_print_desc) {
case LID_ONLY:
case UNIQUE_LID_ONLY:
printf("%u\n", be16toh(node_record->lid));
return;
case GUID_ONLY:
printf("0x%016" PRIx64 "\n", be64toh(p_ni->port_guid));
return;
case NAME_OF_LID:
case NAME_OF_GUID:
name = remap_node_name(node_name_map,
be64toh(p_ni->node_guid),
(char *)p_nd->description);
printf("%s\n", name);
free(name);
return;
case ALL:
default:
break;
}
dump_node_record(node_record, NULL);
}
static void dump_path_record(void *data, struct query_params *p)
{
char gid_str[INET6_ADDRSTRLEN];
char gid_str2[INET6_ADDRSTRLEN];
ib_path_rec_t *p_pr = data;
printf("PathRecord dump:\n"
"\t\tservice_id..............0x%016" PRIx64 "\n"
"\t\tdgid....................%s\n"
"\t\tsgid....................%s\n"
"\t\tdlid....................%u\n"
"\t\tslid....................%u\n"
"\t\thop_flow_raw............0x%X\n"
"\t\ttclass..................0x%X\n"
"\t\tnum_path_revers.........0x%X\n"
"\t\tpkey....................0x%X\n"
"\t\tqos_class...............0x%X\n"
"\t\tsl......................0x%X\n"
"\t\tmtu.....................0x%X\n"
"\t\trate....................0x%X\n"
"\t\tpkt_life................0x%X\n"
"\t\tpreference..............0x%X\n"
"\t\tresv2...................0x%02X%02X%02X%02X%02X%02X\n",
be64toh(p_pr->service_id),
inet_ntop(AF_INET6, p_pr->dgid.raw, gid_str, sizeof gid_str),
inet_ntop(AF_INET6, p_pr->sgid.raw, gid_str2, sizeof gid_str2),
be16toh(p_pr->dlid), be16toh(p_pr->slid),
be32toh(p_pr->hop_flow_raw), p_pr->tclass, p_pr->num_path,
be16toh(p_pr->pkey), ib_path_rec_qos_class(p_pr),
ib_path_rec_sl(p_pr), p_pr->mtu, p_pr->rate, p_pr->pkt_life,
p_pr->preference,
p_pr->resv2[0], p_pr->resv2[1], p_pr->resv2[2],
p_pr->resv2[3], p_pr->resv2[4], p_pr->resv2[5]);
}
static void dump_class_port_info(ib_class_port_info_t *cpi)
{
char gid_str[INET6_ADDRSTRLEN];
char gid_str2[INET6_ADDRSTRLEN];
printf("SA ClassPortInfo:\n"
"\t\tBase version.............%d\n"
"\t\tClass version............%d\n"
"\t\tCapability mask..........0x%04X\n"
"\t\tCapability mask 2........0x%08X\n"
"\t\tResponse time value......0x%02X\n"
"\t\tRedirect GID.............%s\n"
"\t\tRedirect TC/SL/FL........0x%08X\n"
"\t\tRedirect LID.............%u\n"
"\t\tRedirect PKey............0x%04X\n"
"\t\tRedirect QP..............0x%08X\n"
"\t\tRedirect QKey............0x%08X\n"
"\t\tTrap GID.................%s\n"
"\t\tTrap TC/SL/FL............0x%08X\n"
"\t\tTrap LID.................%u\n"
"\t\tTrap PKey................0x%04X\n"
"\t\tTrap HL/QP...............0x%08X\n"
"\t\tTrap QKey................0x%08X\n",
cpi->base_ver, cpi->class_ver, be16toh(cpi->cap_mask),
ib_class_cap_mask2(cpi), ib_class_resp_time_val(cpi),
inet_ntop(AF_INET6, &(cpi->redir_gid), gid_str, sizeof gid_str),
be32toh(cpi->redir_tc_sl_fl), be16toh(cpi->redir_lid),
be16toh(cpi->redir_pkey), be32toh(cpi->redir_qp),
be32toh(cpi->redir_qkey),
inet_ntop(AF_INET6, &(cpi->trap_gid), gid_str2, sizeof gid_str2),
be32toh(cpi->trap_tc_sl_fl), be16toh(cpi->trap_lid),
be16toh(cpi->trap_pkey), be32toh(cpi->trap_hop_qp),
be32toh(cpi->trap_qkey));
}
static void dump_portinfo_record(void *data, struct query_params *p)
{
ib_portinfo_record_t *p_pir = data;
const ib_port_info_t *const p_pi = &p_pir->port_info;
printf("PortInfoRecord dump:\n"
"\t\tEndPortLid..............%u\n"
"\t\tPortNum.................%u\n"
"\t\tbase_lid................%u\n"
"\t\tmaster_sm_base_lid......%u\n"
"\t\tcapability_mask.........0x%X\n",
be16toh(p_pir->lid), p_pir->port_num,
be16toh(p_pi->base_lid), be16toh(p_pi->master_sm_base_lid),
be32toh(p_pi->capability_mask));
}
static void dump_one_portinfo_record(void *data, struct query_params *p)
{
ib_portinfo_record_t *pir = data;
ib_port_info_t *pi = &pir->port_info;
printf("PortInfoRecord dump:\n"
"\tRID\n"
"\t\tEndPortLid..............%u\n"
"\t\tPortNum.................%u\n"
"\t\tOptions.................0x%x\n"
"\tPortInfo dump:\n",
be16toh(pir->lid), pir->port_num, pir->options);
dump_portinfo(pi, 2);
}
static void dump_one_mcmember_record(void *data, struct query_params *p)
{
char mgid[INET6_ADDRSTRLEN], gid[INET6_ADDRSTRLEN];
ib_member_rec_t *mr = data;
uint32_t flow;
uint8_t sl, hop, scope, join;
ib_member_get_sl_flow_hop(mr->sl_flow_hop, &sl, &flow, &hop);
ib_member_get_scope_state(mr->scope_state, &scope, &join);
printf("MCMember Record dump:\n"
"\t\tMGID....................%s\n"
"\t\tPortGid.................%s\n"
"\t\tqkey....................0x%x\n"
"\t\tmlid....................0x%x\n"
"\t\tmtu.....................0x%x\n"
"\t\tTClass..................0x%x\n"
"\t\tpkey....................0x%x\n"
"\t\trate....................0x%x\n"
"\t\tpkt_life................0x%x\n"
"\t\tSL......................0x%x\n"
"\t\tFlowLabel...............0x%x\n"
"\t\tHopLimit................0x%x\n"
"\t\tScope...................0x%x\n"
"\t\tJoinState...............0x%x\n"
"\t\tProxyJoin...............0x%x\n",
inet_ntop(AF_INET6, mr->mgid.raw, mgid, sizeof(mgid)),
inet_ntop(AF_INET6, mr->port_gid.raw, gid, sizeof(gid)),
be32toh(mr->qkey), be16toh(mr->mlid), mr->mtu, mr->tclass,
be16toh(mr->pkey), mr->rate, mr->pkt_life, sl,
flow, hop, scope, join, mr->proxy_join);
}
static void dump_multicast_group_record(void *data, struct query_params *p)
{
char gid_str[INET6_ADDRSTRLEN];
ib_member_rec_t *p_mcmr = data;
uint8_t sl;
ib_member_get_sl_flow_hop(p_mcmr->sl_flow_hop, &sl, NULL, NULL);
printf("MCMemberRecord group dump:\n"
"\t\tMGID....................%s\n"
"\t\tMlid....................0x%X\n"
"\t\tMtu.....................0x%X\n"
"\t\tpkey....................0x%X\n"
"\t\tRate....................0x%X\n"
"\t\tSL......................0x%X\n",
inet_ntop(AF_INET6, p_mcmr->mgid.raw, gid_str, sizeof gid_str),
be16toh(p_mcmr->mlid),
p_mcmr->mtu, be16toh(p_mcmr->pkey), p_mcmr->rate, sl);
}
static void dump_multicast_member_record(ib_member_rec_t *p_mcmr,
struct sa_query_result *nr_result,
struct query_params *params)
{
char gid_str[INET6_ADDRSTRLEN];
char gid_str2[INET6_ADDRSTRLEN];
uint16_t mlid = be16toh(p_mcmr->mlid);
unsigned i = 0;
char *node_name = strdup("<unknown>");
/* go through the node records searching for a port guid which matches
* this port gid interface id.
* This gives us a node name to print, if available.
*/
for (i = 0; i < nr_result->result_cnt; i++) {
ib_node_record_t *nr = sa_get_query_rec(nr_result->p_result_madw, i);
if (nr->node_info.port_guid ==
p_mcmr->port_gid.unicast.interface_id) {
if(node_name != NULL)
free(node_name);
node_name = remap_node_name(node_name_map,
be64toh(nr->node_info.node_guid),
(char *)nr->node_desc.description);
break;
}
}
if (requested_name) {
if (strtol(requested_name, NULL, 0) == mlid)
printf("\t\tPortGid.................%s (%s)\n",
inet_ntop(AF_INET6, p_mcmr->port_gid.raw,
gid_str, sizeof gid_str), node_name);
} else {
printf("MCMemberRecord member dump:\n"
"\t\tMGID....................%s\n"
"\t\tMlid....................0x%X\n"
"\t\tPortGid.................%s\n"
"\t\tScopeState..............0x%X\n"
"\t\tProxyJoin...............0x%X\n"
"\t\tNodeDescription.........%s\n",
inet_ntop(AF_INET6, p_mcmr->mgid.raw, gid_str,
sizeof gid_str),
be16toh(p_mcmr->mlid),
inet_ntop(AF_INET6, p_mcmr->port_gid.raw,
gid_str2, sizeof gid_str2),
p_mcmr->scope_state, p_mcmr->proxy_join, node_name);
}
free(node_name);
}
static void dump_service_record(void *data, struct query_params *p)
{
char gid[INET6_ADDRSTRLEN];
char buf_service_key[35];
char buf_service_name[65];
ib_service_record_t *p_sr = data;
sprintf(buf_service_key,
"0x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x",
p_sr->service_key[0], p_sr->service_key[1],
p_sr->service_key[2], p_sr->service_key[3],
p_sr->service_key[4], p_sr->service_key[5],
p_sr->service_key[6], p_sr->service_key[7],
p_sr->service_key[8], p_sr->service_key[9],
p_sr->service_key[10], p_sr->service_key[11],
p_sr->service_key[12], p_sr->service_key[13],
p_sr->service_key[14], p_sr->service_key[15]);
strncpy(buf_service_name, (char *)p_sr->service_name, 64);
buf_service_name[64] = '\0';
printf("ServiceRecord dump:\n"
"\t\tServiceID...............0x%016" PRIx64 "\n"
"\t\tServiceGID..............%s\n"
"\t\tServiceP_Key............0x%X\n"
"\t\tServiceLease............0x%X\n"
"\t\tServiceKey..............%s\n"
"\t\tServiceName.............%s\n"
"\t\tServiceData8.1..........0x%X\n"
"\t\tServiceData8.2..........0x%X\n"
"\t\tServiceData8.3..........0x%X\n"
"\t\tServiceData8.4..........0x%X\n"
"\t\tServiceData8.5..........0x%X\n"
"\t\tServiceData8.6..........0x%X\n"
"\t\tServiceData8.7..........0x%X\n"
"\t\tServiceData8.8..........0x%X\n"
"\t\tServiceData8.9..........0x%X\n"
"\t\tServiceData8.10.........0x%X\n"
"\t\tServiceData8.11.........0x%X\n"
"\t\tServiceData8.12.........0x%X\n"
"\t\tServiceData8.13.........0x%X\n"
"\t\tServiceData8.14.........0x%X\n"
"\t\tServiceData8.15.........0x%X\n"
"\t\tServiceData8.16.........0x%X\n"
"\t\tServiceData16.1.........0x%X\n"
"\t\tServiceData16.2.........0x%X\n"
"\t\tServiceData16.3.........0x%X\n"
"\t\tServiceData16.4.........0x%X\n"
"\t\tServiceData16.5.........0x%X\n"
"\t\tServiceData16.6.........0x%X\n"
"\t\tServiceData16.7.........0x%X\n"
"\t\tServiceData16.8.........0x%X\n"
"\t\tServiceData32.1.........0x%X\n"
"\t\tServiceData32.2.........0x%X\n"
"\t\tServiceData32.3.........0x%X\n"
"\t\tServiceData32.4.........0x%X\n"
"\t\tServiceData64.1.........0x%016" PRIx64 "\n"
"\t\tServiceData64.2.........0x%016" PRIx64 "\n",
be64toh(p_sr->service_id),
inet_ntop(AF_INET6, p_sr->service_gid.raw, gid, sizeof gid),
be16toh(p_sr->service_pkey), be32toh(p_sr->service_lease),
(show_keys ? buf_service_key : NOT_DISPLAYED_STR),
buf_service_name,
p_sr->service_data8[0], p_sr->service_data8[1],
p_sr->service_data8[2], p_sr->service_data8[3],
p_sr->service_data8[4], p_sr->service_data8[5],
p_sr->service_data8[6], p_sr->service_data8[7],
p_sr->service_data8[8], p_sr->service_data8[9],
p_sr->service_data8[10], p_sr->service_data8[11],
p_sr->service_data8[12], p_sr->service_data8[13],
p_sr->service_data8[14], p_sr->service_data8[15],
be16toh(p_sr->service_data16[0]),
be16toh(p_sr->service_data16[1]),
be16toh(p_sr->service_data16[2]),
be16toh(p_sr->service_data16[3]),
be16toh(p_sr->service_data16[4]),
be16toh(p_sr->service_data16[5]),
be16toh(p_sr->service_data16[6]),
be16toh(p_sr->service_data16[7]),
be32toh(p_sr->service_data32[0]),
be32toh(p_sr->service_data32[1]),
be32toh(p_sr->service_data32[2]),
be32toh(p_sr->service_data32[3]),
be64toh(p_sr->service_data64[0]),
be64toh(p_sr->service_data64[1]));
}
static void dump_sm_info_record(void *data, struct query_params *p)
{
ib_sminfo_record_t *p_smr = data;
const ib_sm_info_t *const p_smi = &p_smr->sm_info;
uint8_t priority, state;
priority = ib_sminfo_get_priority(p_smi);
state = ib_sminfo_get_state(p_smi);
printf("SMInfoRecord dump:\n"
"\t\tRID\n"
"\t\tLID...................%u\n"
"\t\tSMInfo dump:\n"
"\t\tGUID..................0x%016" PRIx64 "\n"
"\t\tSM_Key................0x%016" PRIx64 "\n"
"\t\tActCount..............%u\n"
"\t\tPriority..............%u\n"
"\t\tSMState...............%u\n",
be16toh(p_smr->lid),
be64toh(p_smr->sm_info.guid),
be64toh(p_smr->sm_info.sm_key),
be32toh(p_smr->sm_info.act_count),
priority, state);
}
static void dump_switch_info_record(void *data, struct query_params *p)
{
ib_switch_info_record_t *p_sir = data;
uint32_t sa_cap_mask2 = ib_class_cap_mask2(&p->cpi);
printf("SwitchInfoRecord dump:\n"
"\t\tRID\n"
"\t\tLID.....................................%u\n"
"\t\tSwitchInfo dump:\n"
"\t\tLinearFDBCap............................0x%X\n"
"\t\tRandomFDBCap............................0x%X\n"
"\t\tMulticastFDBCap.........................0x%X\n"
"\t\tLinearFDBTop............................0x%X\n"
"\t\tDefaultPort.............................%u\n"
"\t\tDefaultMulticastPrimaryPort.............%u\n"
"\t\tDefaultMulticastNotPrimaryPort..........%u\n"
"\t\tLifeTimeValue/PortStateChange/OpSL2VL...0x%X\n"
"\t\tLIDsPerPort.............................0x%X\n"
"\t\tPartitionEnforcementCap.................0x%X\n"
"\t\tflags...................................0x%X\n",
be16toh(p_sir->lid),
be16toh(p_sir->switch_info.lin_cap),
be16toh(p_sir->switch_info.rand_cap),
be16toh(p_sir->switch_info.mcast_cap),
be16toh(p_sir->switch_info.lin_top),
p_sir->switch_info.def_port,
p_sir->switch_info.def_mcast_pri_port,
p_sir->switch_info.def_mcast_not_port,
p_sir->switch_info.life_state,
be16toh(p_sir->switch_info.lids_per_port),
be16toh(p_sir->switch_info.enforce_cap),
p_sir->switch_info.flags);
if (sa_cap_mask2 & UMAD_SA_CAP_MASK2_IS_MCAST_TOP_SUP)
printf("\t\tMulticastFDBTop.........................0x%X\n",
be16toh(p_sir->switch_info.mcast_top));
}
static void dump_inform_info_record(void *data, struct query_params *p)
{
char gid_str[INET6_ADDRSTRLEN];
char gid_str2[INET6_ADDRSTRLEN];
ib_inform_info_record_t *p_iir = data;
__be32 qpn;
uint8_t resp_time_val;
ib_inform_info_get_qpn_resp_time(p_iir->inform_info.g_or_v.
generic.qpn_resp_time_val, &qpn,
&resp_time_val);
if (p_iir->inform_info.is_generic) {
printf("InformInfoRecord dump:\n"
"\t\tRID\n"
"\t\tSubscriberGID...........%s\n"
"\t\tSubscriberEnum..........0x%X\n"
"\t\tInformInfo dump:\n"
"\t\tgid.....................%s\n"
"\t\tlid_range_begin.........%u\n"
"\t\tlid_range_end...........%u\n"
"\t\tis_generic..............0x%X\n"
"\t\tsubscribe...............0x%X\n"
"\t\ttrap_type...............0x%X\n"
"\t\ttrap_num................%u\n",
inet_ntop(AF_INET6, p_iir->subscriber_gid.raw, gid_str,
sizeof gid_str),
be16toh(p_iir->subscriber_enum),
inet_ntop(AF_INET6, p_iir->inform_info.gid.raw, gid_str2,
sizeof gid_str2),
be16toh(p_iir->inform_info.lid_range_begin),
be16toh(p_iir->inform_info.lid_range_end),
p_iir->inform_info.is_generic,
p_iir->inform_info.subscribe,
be16toh(p_iir->inform_info.trap_type),
be16toh(p_iir->inform_info.g_or_v.generic.trap_num));
if (show_keys) {
printf("\t\tqpn.....................0x%06X\n",
be32toh(qpn));
} else {
printf("\t\tqpn....................."
NOT_DISPLAYED_STR "\n");
}
printf("\t\tresp_time_val...........0x%X\n"
"\t\tnode_type...............0x%06X\n",
resp_time_val,
be32toh(ib_inform_info_get_prod_type
(&p_iir->inform_info)));
} else {
printf("InformInfoRecord dump:\n"
"\t\tRID\n"
"\t\tSubscriberGID...........%s\n"
"\t\tSubscriberEnum..........0x%X\n"
"\t\tInformInfo dump:\n"
"\t\tgid.....................%s\n"
"\t\tlid_range_begin.........%u\n"
"\t\tlid_range_end...........%u\n"
"\t\tis_generic..............0x%X\n"
"\t\tsubscribe...............0x%X\n"
"\t\ttrap_type...............0x%X\n"
"\t\tdev_id..................0x%X\n",
inet_ntop(AF_INET6, p_iir->subscriber_gid.raw, gid_str,
sizeof gid_str),
be16toh(p_iir->subscriber_enum),
inet_ntop(AF_INET6, p_iir->inform_info.gid.raw,
gid_str2, sizeof gid_str2),
be16toh(p_iir->inform_info.lid_range_begin),
be16toh(p_iir->inform_info.lid_range_end),
p_iir->inform_info.is_generic,
p_iir->inform_info.subscribe,
be16toh(p_iir->inform_info.trap_type),
be16toh(p_iir->inform_info.g_or_v.vend.dev_id));
if (show_keys) {
printf("\t\tqpn.....................0x%06X\n",
be32toh(qpn));
} else {
printf("\t\tqpn....................."
NOT_DISPLAYED_STR "\n");
}
printf("\t\tresp_time_val...........0x%X\n"
"\t\tvendor_id...............0x%06X\n",
resp_time_val,
be32toh(ib_inform_info_get_prod_type
(&p_iir->inform_info)));
}
}
static void dump_one_link_record(void *data, struct query_params *p)
{
ib_link_record_t *lr = data;
printf("LinkRecord dump:\n"
"\t\tFromLID....................%u\n"
"\t\tFromPort...................%u\n"
"\t\tToPort.....................%u\n"
"\t\tToLID......................%u\n",
be16toh(lr->from_lid), lr->from_port_num,
lr->to_port_num, be16toh(lr->to_lid));
}
static void dump_one_slvl_record(void *data, struct query_params *p)
{
ib_slvl_table_record_t *slvl = data;
ib_slvl_table_t *t = &slvl->slvl_tbl;
printf("SL2VLTableRecord dump:\n"
"\t\tLID........................%u\n"
"\t\tInPort.....................%u\n"
"\t\tOutPort....................%u\n"
"\t\tSL: 0| 1| 2| 3| 4| 5| 6| 7| 8| 9|10|11|12|13|14|15|\n"
"\t\tVL:%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u"
"|%2u|%2u|%2u|\n",
be16toh(slvl->lid), slvl->in_port_num, slvl->out_port_num,
ib_slvl_table_get(t, 0), ib_slvl_table_get(t, 1),
ib_slvl_table_get(t, 2), ib_slvl_table_get(t, 3),
ib_slvl_table_get(t, 4), ib_slvl_table_get(t, 5),
ib_slvl_table_get(t, 6), ib_slvl_table_get(t, 7),
ib_slvl_table_get(t, 8), ib_slvl_table_get(t, 9),
ib_slvl_table_get(t, 10), ib_slvl_table_get(t, 11),
ib_slvl_table_get(t, 12), ib_slvl_table_get(t, 13),
ib_slvl_table_get(t, 14), ib_slvl_table_get(t, 15));
}
static void dump_one_vlarb_record(void *data, struct query_params *p)
{
ib_vl_arb_table_record_t *vlarb = data;
ib_vl_arb_element_t *e = vlarb->vl_arb_tbl.vl_entry;
int i;
printf("VLArbTableRecord dump:\n"
"\t\tLID........................%u\n"
"\t\tPort.......................%u\n"
"\t\tBlock......................%u\n",
be16toh(vlarb->lid), vlarb->port_num, vlarb->block_num);
for (i = 0; i < 32; i += 16)
printf("\t\tVL :%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|"
"%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|\n"
"\t\tWeight:%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|"
"%2u|%2u|%2u|%2u|%2u|%2u|%2u|%2u|\n",
e[i + 0].vl, e[i + 1].vl, e[i + 2].vl, e[i + 3].vl,
e[i + 4].vl, e[i + 5].vl, e[i + 6].vl, e[i + 7].vl,
e[i + 8].vl, e[i + 9].vl, e[i + 10].vl, e[i + 11].vl,
e[i + 12].vl, e[i + 13].vl, e[i + 14].vl, e[i + 15].vl,
e[i + 0].weight, e[i + 1].weight, e[i + 2].weight,
e[i + 3].weight, e[i + 4].weight, e[i + 5].weight,
e[i + 6].weight, e[i + 7].weight, e[i + 8].weight,
e[i + 9].weight, e[i + 10].weight, e[i + 11].weight,
e[i + 12].weight, e[i + 13].weight, e[i + 14].weight,
e[i + 15].weight);
}
static void dump_one_pkey_tbl_record(void *data, struct query_params *params)
{
ib_pkey_table_record_t *pktr = data;
__be16 *p = pktr->pkey_tbl.pkey_entry;
int i;
printf("PKeyTableRecord dump:\n"
"\t\tLID........................%u\n"
"\t\tPort.......................%u\n"
"\t\tBlock......................%u\n"
"\t\tPKey Table:\n",
be16toh(pktr->lid), pktr->port_num, pktr->block_num);
for (i = 0; i < 32; i += 8)
printf("\t\t0x%04x 0x%04x 0x%04x 0x%04x"
" 0x%04x 0x%04x 0x%04x 0x%04x\n",
be16toh(p[i + 0]), be16toh(p[i + 1]),
be16toh(p[i + 2]), be16toh(p[i + 3]),
be16toh(p[i + 4]), be16toh(p[i + 5]),
be16toh(p[i + 6]), be16toh(p[i + 7]));
printf("\n");
}
static void dump_one_lft_record(void *data, struct query_params *p)
{
ib_lft_record_t *lftr = data;
unsigned block = be16toh(lftr->block_num);
int i;
printf("LFT Record dump:\n"
"\t\tLID........................%u\n"
"\t\tBlock......................%u\n"
"\t\tLFT:\n\t\tLID\tPort Number\n", be16toh(lftr->lid), block);
for (i = 0; i < 64; i++)
printf("\t\t%u\t%u\n", block * 64 + i, lftr->lft[i]);
printf("\n");
}
static void dump_one_guidinfo_record(void *data, struct query_params *p)
{
ib_guidinfo_record_t *gir = data;
printf("GUIDInfo Record dump:\n"
"\t\tLID........................%u\n"
"\t\tBlock......................%u\n"
"\t\tGUID 0.....................0x%016" PRIx64 "\n"
"\t\tGUID 1.....................0x%016" PRIx64 "\n"
"\t\tGUID 2.....................0x%016" PRIx64 "\n"
"\t\tGUID 3.....................0x%016" PRIx64 "\n"
"\t\tGUID 4.....................0x%016" PRIx64 "\n"
"\t\tGUID 5.....................0x%016" PRIx64 "\n"
"\t\tGUID 6.....................0x%016" PRIx64 "\n"
"\t\tGUID 7.....................0x%016" PRIx64 "\n",
be16toh(gir->lid), gir->block_num,
be64toh(gir->guid_info.guid[0]),
be64toh(gir->guid_info.guid[1]),
be64toh(gir->guid_info.guid[2]),
be64toh(gir->guid_info.guid[3]),
be64toh(gir->guid_info.guid[4]),
be64toh(gir->guid_info.guid[5]),
be64toh(gir->guid_info.guid[6]),
be64toh(gir->guid_info.guid[7]));
}
static void dump_one_mft_record(void *data, struct query_params *p)
{
ib_mft_record_t *mftr = data;
unsigned position = be16toh(mftr->position_block_num) >> 12;
unsigned block = be16toh(mftr->position_block_num) &
IB_MCAST_BLOCK_ID_MASK_HO;
int i;
unsigned offset;
printf("MFT Record dump:\n"
"\t\tLID........................%u\n"
"\t\tPosition...................%u\n"
"\t\tBlock......................%u\n"
"\t\tMFT:\n\t\tMLID\tPort Mask\n",
be16toh(mftr->lid), position, block);
offset = IB_LID_MCAST_START_HO + block * 32;
for (i = 0; i < IB_MCAST_BLOCK_SIZE; i++)
printf("\t\t0x%04x\t0x%04x\n",
offset + i, be16toh(mftr->mft[i]));
printf("\n");
}
static void dump_results(struct sa_query_result *r,
void (*dump_func) (void *, struct query_params *),
struct query_params *p)
{
unsigned i;
for (i = 0; i < r->result_cnt; i++) {
void *data = sa_get_query_rec(r->p_result_madw, i);
dump_func(data, p);
}
}
/**
* Get any record(s)
*/
static int get_any_records(struct sa_handle * h,
uint16_t attr_id, uint32_t attr_mod,
__be64 comp_mask, void *attr,
size_t attr_size,
struct sa_query_result *result)
{
int ret = sa_query(h, IB_MAD_METHOD_GET_TABLE, attr_id, attr_mod,
be64toh(comp_mask), ibd_sakey, attr, attr_size, result);
if (ret) {
fprintf(stderr, "Query SA failed: %s\n", strerror(ret));
return ret;
}
if (result->status != IB_SA_MAD_STATUS_SUCCESS) {
sa_report_err(result->status);
return EIO;
}
return ret;
}
static int get_and_dump_any_records(struct sa_handle * h, uint16_t attr_id,
uint32_t attr_mod, __be64 comp_mask,
void *attr,
size_t attr_size,
void (*dump_func) (void *,
struct query_params *),
struct query_params *p)
{
struct sa_query_result result;
int ret = get_any_records(h, attr_id, attr_mod, comp_mask, attr,
attr_size, &result);
if (ret)
return ret;
dump_results(&result, dump_func, p);
sa_free_result_mad(&result);
return 0;
}
/**
* Get all the records available for requested query type.
*/
static int get_all_records(struct sa_handle * h, uint16_t attr_id,
struct sa_query_result *result)
{
return get_any_records(h, attr_id, 0, 0, NULL, 0, result);
}
static int get_and_dump_all_records(struct sa_handle * h, uint16_t attr_id,
void (*dump_func) (void *,
struct query_params *p),
struct query_params *p)
{
struct sa_query_result result;
int ret = get_all_records(h, attr_id, &result);
if (ret)
return ret;
dump_results(&result, dump_func, p);
sa_free_result_mad(&result);
return ret;
}
/**
* return the lid from the node descriptor (name) supplied
*/
static int get_lid_from_name(struct sa_handle * h, const char *name, uint16_t * lid)
{
ib_node_record_t *node_record = NULL;
unsigned i;
int ret;
struct sa_query_result result;
ret = get_all_records(h, IB_SA_ATTR_NODERECORD, &result);
if (ret)
return ret;
ret = ENONET;
for (i = 0; i < result.result_cnt; i++) {
node_record = sa_get_query_rec(result.p_result_madw, i);
if (name
&& strncmp(name, (char *)node_record->node_desc.description,
sizeof(node_record->node_desc.description)) ==
0) {
*lid = be16toh(node_record->lid);
ret = 0;
break;
}
}
sa_free_result_mad(&result);
return ret;
}
static uint16_t get_lid(struct sa_handle * h, const char *name)
{
int rc = 0;
uint16_t rc_lid = 0;
if (!name)
return 0;
if (isalpha(name[0])) {
if ((rc = get_lid_from_name(h, name, &rc_lid)) != 0) {
fprintf(stderr, "Failed to find lid for \"%s\": %s\n",
name, strerror(rc));
exit(rc);
}
} else {
long val;
errno = 0;
val = strtol(name, NULL, 0);
if (errno != 0 || val <= 0 || val > UINT16_MAX) {
fprintf(stderr, "Invalid lid specified: \"%s\"\n", name);
exit(EINVAL);
}
rc_lid = (uint16_t)val;
}
return rc_lid;
}
static int parse_iir_subscriber_gid(char *str, ib_inform_info_record_t *ir)
{
int rc = inet_pton(AF_INET6,str,&(ir->subscriber_gid.raw));
if(rc < 1){
fprintf(stderr, "Invalid SubscriberGID specified: \"%s\"\n",str);
exit(EINVAL);
}
return rc;
}
static int parse_lid_and_ports(struct sa_handle * h,
char *str, int *lid, int *port1, int *port2)
{
char *p, *e;
if (port1)
*port1 = -1;
if (port2)
*port2 = -1;
p = strchr(str, '/');
if (p)
*p = '\0';
if (lid)
*lid = get_lid(h, str);
if (!p)
return 0;
str = p + 1;
p = strchr(str, '/');
if (p)
*p = '\0';
if (port1) {
*port1 = strtoul(str, &e, 0);
if (e == str)
*port1 = -1;
}
if (!p)
return 0;
str = p + 1;
if (port2) {
*port2 = strtoul(str, &e, 0);
if (e == str)
*port2 = -1;
}
return 0;
}
/*
* Get the portinfo records available with IsSM or IsSMdisabled CapabilityMask bit on.
*/
static int get_issm_records(struct sa_handle * h, __be32 capability_mask,
struct sa_query_result *result)
{
ib_portinfo_record_t attr;
memset(&attr, 0, sizeof(attr));
attr.port_info.capability_mask = capability_mask;
return get_any_records(h, IB_SA_ATTR_PORTINFORECORD, 1 << 31,
IB_PIR_COMPMASK_CAPMASK, &attr, sizeof(attr), result);
}
static int print_node_records(struct sa_handle * h, struct query_params *p)
{
unsigned i;
int ret;
struct sa_query_result result;
ret = get_all_records(h, IB_SA_ATTR_NODERECORD, &result);
if (ret)
return ret;
if (node_print_desc == ALL_DESC) {
printf(" LID \"name\"\n");
printf("================\n");
}
for (i = 0; i < result.result_cnt; i++) {
ib_node_record_t *node_record;
node_record = sa_get_query_rec(result.p_result_madw, i);
if (node_print_desc == ALL_DESC) {
print_node_desc(node_record);
} else if (node_print_desc == NAME_OF_LID) {
if (requested_lid == be16toh(node_record->lid))
print_node_record(node_record);
} else if (node_print_desc == NAME_OF_GUID) {
ib_node_info_t *p_ni = &(node_record->node_info);
if (requested_guid == be64toh(p_ni->port_guid))
print_node_record(node_record);
} else {
ib_node_info_t *p_ni = &(node_record->node_info);
ib_node_desc_t *p_nd = &(node_record->node_desc);
char *name;
name = remap_node_name (node_name_map,
be64toh(p_ni->node_guid),
(char *)p_nd->description);
if (!requested_name ||
(strncmp(requested_name,
(char *)node_record->node_desc.description,
sizeof(node_record->
node_desc.description)) == 0) ||
(strncmp(requested_name,
name,
sizeof(node_record->
node_desc.description)) == 0)) {
print_node_record(node_record);
if (node_print_desc == UNIQUE_LID_ONLY) {
sa_free_result_mad(&result);
exit(0);
}
}
free(name);
}
}
sa_free_result_mad(&result);
return ret;
}
static int query_path_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_path_rec_t pr;
__be64 comp_mask = 0;
uint32_t flow = 0;
int qos_class = 0;
uint8_t reversible = 0;
memset(&pr, 0, sizeof(pr));
CHECK_AND_SET_VAL(p->service_id, 64, 0, pr.service_id, PR, SERVICEID);
CHECK_AND_SET_GID(p->sgid, pr.sgid, PR, SGID);
CHECK_AND_SET_GID(p->dgid, pr.dgid, PR, DGID);
CHECK_AND_SET_VAL(p->slid, 16, 0, pr.slid, PR, SLID);
CHECK_AND_SET_VAL(p->dlid, 16, 0, pr.dlid, PR, DLID);
CHECK_AND_SET_VAL(p->hop_limit, 32, -1, pr.hop_flow_raw, PR, HOPLIMIT);
CHECK_AND_SET_VAL(p->flow_label, 8, 0, flow, PR, FLOWLABEL);
pr.hop_flow_raw |= htobe32(flow << 8);
CHECK_AND_SET_VAL(p->tclass, 8, 0, pr.tclass, PR, TCLASS);
CHECK_AND_SET_VAL(p->reversible, 8, -1, reversible, PR, REVERSIBLE);
CHECK_AND_SET_VAL(p->numb_path, 8, -1, pr.num_path, PR, NUMBPATH);
pr.num_path |= reversible << 7;
CHECK_AND_SET_VAL(p->pkey, 16, 0, pr.pkey, PR, PKEY);
CHECK_AND_SET_VAL(p->sl, 16, -1, pr.qos_class_sl, PR, SL);
if (p->qos_class != -1) {
qos_class = p->qos_class;
comp_mask |= IB_PR_COMPMASK_QOS_CLASS;
}
ib_path_rec_set_qos_class(&pr, qos_class);
CHECK_AND_SET_VAL_AND_SEL(p->mtu, pr.mtu, PR, MTU, SELEC);
CHECK_AND_SET_VAL_AND_SEL(p->rate, pr.rate, PR, RATE, SELEC);
CHECK_AND_SET_VAL_AND_SEL(p->pkt_life, pr.pkt_life, PR, PKTLIFETIME,
SELEC);
return get_and_dump_any_records(h, IB_SA_ATTR_PATHRECORD, 0, comp_mask,
&pr, sizeof(pr), dump_path_record, p);
}
static int print_issm_records(struct sa_handle * h, struct query_params *p)
{
struct sa_query_result result;
int ret = 0;
/* First, get IsSM records */
ret = get_issm_records(h, IB_PORT_CAP_IS_SM, &result);
if (ret != 0)
return (ret);
printf("IsSM ports\n");
dump_results(&result, dump_portinfo_record, p);
sa_free_result_mad(&result);
/* Now, get IsSMdisabled records */
ret = get_issm_records(h, IB_PORT_CAP_SM_DISAB, &result);
if (ret != 0)
return (ret);
printf("\nIsSMdisabled ports\n");
dump_results(&result, dump_portinfo_record, p);
sa_free_result_mad(&result);
return (ret);
}
static int print_multicast_member_records(struct sa_handle * h,
struct query_params *params)
{
struct sa_query_result mc_group_result;
struct sa_query_result nr_result;
int ret;
unsigned i;
ret = get_all_records(h, IB_SA_ATTR_MCRECORD, &mc_group_result);
if (ret)
return ret;
ret = get_all_records(h, IB_SA_ATTR_NODERECORD, &nr_result);
if (ret)
goto return_mc;
for (i = 0; i < mc_group_result.result_cnt; i++) {
ib_member_rec_t *rec = (ib_member_rec_t *)
sa_get_query_rec(mc_group_result.p_result_madw,
i);
dump_multicast_member_record(rec, &nr_result, params);
}
sa_free_result_mad(&nr_result);
return_mc:
sa_free_result_mad(&mc_group_result);
return ret;
}
static int print_multicast_group_records(struct sa_handle * h,
struct query_params *p)
{
return get_and_dump_all_records(h, IB_SA_ATTR_MCRECORD,
dump_multicast_group_record, p);
}
static int query_class_port_info(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
dump_class_port_info(&p->cpi);
return (0);
}
static int query_node_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_node_record_t nr;
__be64 comp_mask = 0;
int lid = 0;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, NULL, NULL);
memset(&nr, 0, sizeof(nr));
CHECK_AND_SET_VAL(lid, 16, 0, nr.lid, NR, LID);
return get_and_dump_any_records(h, IB_SA_ATTR_NODERECORD, 0, comp_mask,
&nr, sizeof(nr), dump_node_record, p);
}
static int query_portinfo_records(const struct query_cmd *q,
struct sa_handle * h, struct query_params *p,
int argc, char *argv[])
{
ib_portinfo_record_t pir;
__be64 comp_mask = 0;
int lid = 0, port = -1, options = -1;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, &port, &options);
memset(&pir, 0, sizeof(pir));
CHECK_AND_SET_VAL(lid, 16, 0, pir.lid, PIR, LID);
CHECK_AND_SET_VAL(port, 8, -1, pir.port_num, PIR, PORTNUM);
CHECK_AND_SET_VAL(options, 8, -1, pir.options, PIR, OPTIONS);
return get_and_dump_any_records(h, IB_SA_ATTR_PORTINFORECORD, 0,
comp_mask, &pir, sizeof(pir),
dump_one_portinfo_record, p);
}
static int query_mcmember_records(const struct query_cmd *q,
struct sa_handle * h, struct query_params *p,
int argc, char *argv[])
{
ib_member_rec_t mr;
__be64 comp_mask = 0;
uint32_t flow = 0;
uint8_t sl = 0, hop = 0, scope = 0;
memset(&mr, 0, sizeof(mr));
CHECK_AND_SET_GID(p->mgid, mr.mgid, MCR, MGID);
CHECK_AND_SET_GID(p->gid, mr.port_gid, MCR, PORT_GID);
CHECK_AND_SET_VAL(p->mlid, 16, 0, mr.mlid, MCR, MLID);
CHECK_AND_SET_VAL(p->qkey, 32, 0, mr.qkey, MCR, QKEY);
CHECK_AND_SET_VAL_AND_SEL(p->mtu, mr.mtu, MCR, MTU, _SEL);
CHECK_AND_SET_VAL_AND_SEL(p->rate, mr.rate, MCR, RATE, _SEL);
CHECK_AND_SET_VAL_AND_SEL(p->pkt_life, mr.pkt_life, MCR, LIFE, _SEL);
CHECK_AND_SET_VAL(p->tclass, 8, 0, mr.tclass, MCR, TCLASS);
CHECK_AND_SET_VAL(p->pkey, 16, 0, mr.pkey, MCR, PKEY);
CHECK_AND_SET_VAL(p->sl, 8, -1, sl, MCR, SL);
CHECK_AND_SET_VAL(p->flow_label, 8, 0, flow, MCR, FLOW);
CHECK_AND_SET_VAL(p->hop_limit, 8, -1, hop, MCR, HOP);
mr.sl_flow_hop = ib_member_set_sl_flow_hop(sl, flow, hop);
CHECK_AND_SET_VAL(p->scope, 8, 0, scope, MCR, SCOPE);
CHECK_AND_SET_VAL(p->join_state, 8, 0, mr.scope_state, MCR, JOIN_STATE);
mr.scope_state |= scope << 4;
CHECK_AND_SET_VAL(p->proxy_join, 8, -1, mr.proxy_join, MCR, PROXY);
return get_and_dump_any_records(h, IB_SA_ATTR_MCRECORD, 0, comp_mask,
&mr, sizeof(mr), dump_one_mcmember_record, p);
}
static int query_service_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
return get_and_dump_all_records(h, IB_SA_ATTR_SERVICERECORD,
dump_service_record, p);
}
static int query_sm_info_records(const struct query_cmd *q,
struct sa_handle * h, struct query_params *p,
int argc, char *argv[])
{
ib_sminfo_record_t smir;
__be64 comp_mask = 0;
int lid = 0;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, NULL, NULL);
memset(&smir, 0, sizeof(smir));
CHECK_AND_SET_VAL(lid, 16, 0, smir.lid, SMIR, LID);
return get_and_dump_any_records(h, IB_SA_ATTR_SMINFORECORD, 0,
comp_mask, &smir, sizeof(smir),
dump_sm_info_record, p);
}
static int query_switchinfo_records(const struct query_cmd *q,
struct sa_handle * h, struct query_params *p,
int argc, char *argv[])
{
ib_switch_info_record_t swir;
__be64 comp_mask = 0;
int lid = 0;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, NULL, NULL);
memset(&swir, 0, sizeof(swir));
CHECK_AND_SET_VAL(lid, 16, 0, swir.lid, SWIR, LID);
return get_and_dump_any_records(h, IB_SA_ATTR_SWITCHINFORECORD, 0,
comp_mask, &swir, sizeof(swir),
dump_switch_info_record, p);
}
static int query_inform_info_records(const struct query_cmd *q,
struct sa_handle * h, struct query_params *p,
int argc, char *argv[])
{
int rc = 0;
ib_inform_info_record_t ir;
__be64 comp_mask = 0;
memset(&ir, 0, sizeof(ir));
if (argc > 0) {
comp_mask = IB_IIR_COMPMASK_SUBSCRIBERGID;
if((rc = parse_iir_subscriber_gid(argv[0], &ir)) < 1)
return rc;
}
return get_and_dump_any_records(h, IB_SA_ATTR_INFORMINFORECORD, 0, comp_mask,
&ir, sizeof(ir), dump_inform_info_record, p);
}
static int query_link_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_link_record_t lr;
__be64 comp_mask = 0;
int from_lid = 0, to_lid = 0, from_port = -1, to_port = -1;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &from_lid, &from_port, NULL);
if (argc > 1)
parse_lid_and_ports(h, argv[1], &to_lid, &to_port, NULL);
memset(&lr, 0, sizeof(lr));
CHECK_AND_SET_VAL(from_lid, 16, 0, lr.from_lid, LR, FROM_LID);
CHECK_AND_SET_VAL(from_port, 8, -1, lr.from_port_num, LR, FROM_PORT);
CHECK_AND_SET_VAL(to_lid, 16, 0, lr.to_lid, LR, TO_LID);
CHECK_AND_SET_VAL(to_port, 8, -1, lr.to_port_num, LR, TO_PORT);
return get_and_dump_any_records(h, IB_SA_ATTR_LINKRECORD, 0, comp_mask,
&lr, sizeof(lr), dump_one_link_record, p);
}
static int query_sl2vl_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_slvl_table_record_t slvl;
__be64 comp_mask = 0;
int lid = 0, in_port = -1, out_port = -1;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, &in_port, &out_port);
memset(&slvl, 0, sizeof(slvl));
CHECK_AND_SET_VAL(lid, 16, 0, slvl.lid, SLVL, LID);
CHECK_AND_SET_VAL(in_port, 8, -1, slvl.in_port_num, SLVL, IN_PORT);
CHECK_AND_SET_VAL(out_port, 8, -1, slvl.out_port_num, SLVL, OUT_PORT);
return get_and_dump_any_records(h, IB_SA_ATTR_SL2VLTABLERECORD, 0,
comp_mask, &slvl, sizeof(slvl),
dump_one_slvl_record, p);
}
static int query_vlarb_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_vl_arb_table_record_t vlarb;
__be64 comp_mask = 0;
int lid = 0, port = -1, block = -1;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, &port, &block);
memset(&vlarb, 0, sizeof(vlarb));
CHECK_AND_SET_VAL(lid, 16, 0, vlarb.lid, VLA, LID);
CHECK_AND_SET_VAL(port, 8, -1, vlarb.port_num, VLA, OUT_PORT);
CHECK_AND_SET_VAL(block, 8, -1, vlarb.block_num, VLA, BLOCK);
return get_and_dump_any_records(h, IB_SA_ATTR_VLARBTABLERECORD, 0,
comp_mask, &vlarb, sizeof(vlarb),
dump_one_vlarb_record, p);
}
static int query_pkey_tbl_records(const struct query_cmd *q,
struct sa_handle * h, struct query_params *p,
int argc, char *argv[])
{
ib_pkey_table_record_t pktr;
__be64 comp_mask = 0;
int lid = 0, port = -1, block = -1;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, &port, &block);
memset(&pktr, 0, sizeof(pktr));
CHECK_AND_SET_VAL(lid, 16, 0, pktr.lid, PKEY, LID);
CHECK_AND_SET_VAL(port, 8, -1, pktr.port_num, PKEY, PORT);
CHECK_AND_SET_VAL(block, 16, -1, pktr.block_num, PKEY, BLOCK);
return get_and_dump_any_records(h, IB_SA_ATTR_PKEYTABLERECORD, 0,
comp_mask, &pktr, sizeof(pktr),
dump_one_pkey_tbl_record, p);
}
static int query_lft_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_lft_record_t lftr;
__be64 comp_mask = 0;
int lid = 0, block = -1;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, &block, NULL);
memset(&lftr, 0, sizeof(lftr));
CHECK_AND_SET_VAL(lid, 16, 0, lftr.lid, LFTR, LID);
CHECK_AND_SET_VAL(block, 16, -1, lftr.block_num, LFTR, BLOCK);
return get_and_dump_any_records(h, IB_SA_ATTR_LFTRECORD, 0, comp_mask,
&lftr, sizeof(lftr), dump_one_lft_record, p);
}
static int query_guidinfo_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_guidinfo_record_t gir;
__be64 comp_mask = 0;
int lid = 0, block = -1;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, &block, NULL);
memset(&gir, 0, sizeof(gir));
CHECK_AND_SET_VAL(lid, 16, 0, gir.lid, GIR, LID);
CHECK_AND_SET_VAL(block, 8, -1, gir.block_num, GIR, BLOCKNUM);
return get_and_dump_any_records(h, IB_SA_ATTR_GUIDINFORECORD, 0,
comp_mask, &gir, sizeof(gir),
dump_one_guidinfo_record, p);
}
static int query_mft_records(const struct query_cmd *q, struct sa_handle * h,
struct query_params *p, int argc, char *argv[])
{
ib_mft_record_t mftr;
__be64 comp_mask = 0;
int lid = 0, block = -1, position = -1;
uint16_t pos = 0;
if (argc > 0)
parse_lid_and_ports(h, argv[0], &lid, &position, &block);
memset(&mftr, 0, sizeof(mftr));
CHECK_AND_SET_VAL(lid, 16, 0, mftr.lid, MFTR, LID);
CHECK_AND_SET_VAL(block, 16, -1, mftr.position_block_num, MFTR, BLOCK);
mftr.position_block_num &= htobe16(IB_MCAST_BLOCK_ID_MASK_HO);
CHECK_AND_SET_VAL(position, 8, -1, pos, MFTR, POSITION);
mftr.position_block_num |= htobe16(pos << 12);
return get_and_dump_any_records(h, IB_SA_ATTR_MFTRECORD, 0, comp_mask,
&mftr, sizeof(mftr), dump_one_mft_record, p);
}
static int query_sa_cpi(struct sa_handle *h, struct query_params *query_params)
{
ib_class_port_info_t *cpi;
struct sa_query_result result;
int ret = sa_query(h, IB_MAD_METHOD_GET, CLASS_PORT_INFO, 0, 0,
ibd_sakey, NULL, 0, &result);
if (ret) {
fprintf(stderr, "Query SA failed: %s\n", strerror(ret));
return ret;
}
if (result.status != IB_SA_MAD_STATUS_SUCCESS) {
sa_report_err(result.status);
ret = EIO;
goto Exit;
}
cpi = sa_get_query_rec(result.p_result_madw, 0);
memcpy(&query_params->cpi, cpi, sizeof(query_params->cpi));
Exit:
sa_free_result_mad(&result);
return ret;
}
static const struct query_cmd query_cmds[] = {
{"ClassPortInfo", "CPI", CLASS_PORT_INFO,
NULL, query_class_port_info},
{"NodeRecord", "NR", IB_SA_ATTR_NODERECORD,
"[lid]", query_node_records},
{"PortInfoRecord", "PIR", IB_SA_ATTR_PORTINFORECORD,
"[[lid]/[port]/[options]]", query_portinfo_records},
{"SL2VLTableRecord", "SL2VL", IB_SA_ATTR_SL2VLTABLERECORD,
"[[lid]/[in_port]/[out_port]]", query_sl2vl_records},
{"PKeyTableRecord", "PKTR", IB_SA_ATTR_PKEYTABLERECORD,
"[[lid]/[port]/[block]]", query_pkey_tbl_records},
{"VLArbitrationTableRecord", "VLAR", IB_SA_ATTR_VLARBTABLERECORD,
"[[lid]/[port]/[block]]", query_vlarb_records},
{"InformInfoRecord", "IIR", IB_SA_ATTR_INFORMINFORECORD,
"[subscriber_gid]", query_inform_info_records},
{"LinkRecord", "LR", IB_SA_ATTR_LINKRECORD,
"[[from_lid]/[from_port]] [[to_lid]/[to_port]]", query_link_records},
{"ServiceRecord", "SR", IB_SA_ATTR_SERVICERECORD,
NULL, query_service_records},
{"PathRecord", "PR", IB_SA_ATTR_PATHRECORD,
NULL, query_path_records},
{"MCMemberRecord", "MCMR", IB_SA_ATTR_MCRECORD,
NULL, query_mcmember_records},
{"LFTRecord", "LFTR", IB_SA_ATTR_LFTRECORD,
"[[lid]/[block]]", query_lft_records},
{"MFTRecord", "MFTR", IB_SA_ATTR_MFTRECORD,
"[[mlid]/[position]/[block]]", query_mft_records},
{"GUIDInfoRecord", "GIR", IB_SA_ATTR_GUIDINFORECORD,
"[[lid]/[block]]", query_guidinfo_records},
{"SwitchInfoRecord", "SWIR", IB_SA_ATTR_SWITCHINFORECORD,
"[lid]", query_switchinfo_records},
{"SMInfoRecord", "SMIR", IB_SA_ATTR_SMINFORECORD,
"[lid]", query_sm_info_records},
{}
};
static const struct query_cmd *find_query(const char *name)
{
const struct query_cmd *q;
for (q = query_cmds; q->name; q++)
if (!strcasecmp(name, q->name) ||
(q->alias && !strcasecmp(name, q->alias)))
return q;
return NULL;
}
static const struct query_cmd *find_query_by_type(uint16_t type)
{
const struct query_cmd *q;
for (q = query_cmds; q->name; q++)
if (q->query_type == type)
return q;
return NULL;
}
enum saquery_command {
SAQUERY_CMD_QUERY,
SAQUERY_CMD_NODE_RECORD,
SAQUERY_CMD_CLASS_PORT_INFO,
SAQUERY_CMD_ISSM,
SAQUERY_CMD_MCGROUPS,
SAQUERY_CMD_MCMEMBERS,
};
static enum saquery_command command = SAQUERY_CMD_QUERY;
static uint16_t query_type;
static char *src_lid, *dst_lid;
static int process_opt(void *context, int ch)
{
struct query_params *p = context;
switch (ch) {
case 1:
{
src_lid = strdup(optarg);
dst_lid = strchr(src_lid, ':');
if (!dst_lid)
ibdiag_show_usage();
*dst_lid++ = '\0';
}
p->numb_path = 0x7f;
query_type = IB_SA_ATTR_PATHRECORD;
break;
case 2:
{
char *src_addr = strdup(optarg);
char *dst_addr = strchr(src_addr, '-');
if (!dst_addr)
ibdiag_show_usage();
*dst_addr++ = '\0';
if (inet_pton(AF_INET6, src_addr, &p->sgid) <= 0)
ibdiag_show_usage();
if (inet_pton(AF_INET6, dst_addr, &p->dgid) <= 0)
ibdiag_show_usage();
free(src_addr);
}
p->numb_path = 0x7f;
query_type = IB_SA_ATTR_PATHRECORD;
break;
case 3:
node_name_map_file = strdup(optarg);
if (node_name_map_file == NULL)
IBEXIT("out of memory, strdup for node_name_map_file name failed");
break;
case 4:
if (!isxdigit(*optarg) && !(optarg = getpass("SM_Key: "))) {
fprintf(stderr, "cannot get SM_Key\n");
ibdiag_show_usage();
}
ibd_sakey = strtoull(optarg, NULL, 0);
break;
case 'p':
query_type = IB_SA_ATTR_PATHRECORD;
break;
case 'D':
node_print_desc = ALL_DESC;
command = SAQUERY_CMD_NODE_RECORD;
break;
case 'c':
command = SAQUERY_CMD_CLASS_PORT_INFO;
break;
case 'S':
query_type = IB_SA_ATTR_SERVICERECORD;
break;
case 'I':
query_type = IB_SA_ATTR_INFORMINFORECORD;
break;
case 'N':
command = SAQUERY_CMD_NODE_RECORD;
break;
case 'L':
node_print_desc = LID_ONLY;
command = SAQUERY_CMD_NODE_RECORD;
break;
case 'l':
node_print_desc = UNIQUE_LID_ONLY;
command = SAQUERY_CMD_NODE_RECORD;
break;
case 'G':
node_print_desc = GUID_ONLY;
command = SAQUERY_CMD_NODE_RECORD;
break;
case 'O':
node_print_desc = NAME_OF_LID;
command = SAQUERY_CMD_NODE_RECORD;
break;
case 'U':
node_print_desc = NAME_OF_GUID;
command = SAQUERY_CMD_NODE_RECORD;
break;
case 's':
command = SAQUERY_CMD_ISSM;
break;
case 'g':
command = SAQUERY_CMD_MCGROUPS;
break;
case 'm':
command = SAQUERY_CMD_MCMEMBERS;
break;
case 'x':
query_type = IB_SA_ATTR_LINKRECORD;
break;
case 5:
p->slid = (uint16_t) strtoul(optarg, NULL, 0);
break;
case 6:
p->dlid = (uint16_t) strtoul(optarg, NULL, 0);
break;
case 7:
p->mlid = (uint16_t) strtoul(optarg, NULL, 0);
break;
case 14:
if (inet_pton(AF_INET6, optarg, &p->sgid) <= 0)
ibdiag_show_usage();
break;
case 15:
if (inet_pton(AF_INET6, optarg, &p->dgid) <= 0)
ibdiag_show_usage();
break;
case 16:
if (inet_pton(AF_INET6, optarg, &p->gid) <= 0)
ibdiag_show_usage();
break;
case 17:
if (inet_pton(AF_INET6, optarg, &p->mgid) <= 0)
ibdiag_show_usage();
break;
case 'r':
p->reversible = strtoul(optarg, NULL, 0);
break;
case 'n':
p->numb_path = strtoul(optarg, NULL, 0);
break;
case 18:
if (!isxdigit(*optarg) && !(optarg = getpass("P_Key: "))) {
fprintf(stderr, "cannot get P_Key\n");
ibdiag_show_usage();
}
p->pkey = (uint16_t) strtoul(optarg, NULL, 0);
break;
case 'Q':
p->qos_class = strtoul(optarg, NULL, 0);
break;
case 19:
p->sl = strtoul(optarg, NULL, 0);
break;
case 'M':
p->mtu = (uint8_t) strtoul(optarg, NULL, 0);
break;
case 'R':
p->rate = (uint8_t) strtoul(optarg, NULL, 0);
break;
case 20:
p->pkt_life = (uint8_t) strtoul(optarg, NULL, 0);
break;
case 'q':
if (!isxdigit(*optarg) && !(optarg = getpass("Q_Key: "))) {
fprintf(stderr, "cannot get Q_Key\n");
ibdiag_show_usage();
}
p->qkey = strtoul(optarg, NULL, 0);
break;
case 'T':
p->tclass = (uint8_t) strtoul(optarg, NULL, 0);
break;
case 'F':
p->flow_label = strtoul(optarg, NULL, 0);
break;
case 'H':
p->hop_limit = strtoul(optarg, NULL, 0);
break;
case 21:
p->scope = (uint8_t) strtoul(optarg, NULL, 0);
break;
case 'J':
p->join_state = (uint8_t) strtoul(optarg, NULL, 0);
break;
case 'X':
p->proxy_join = strtoul(optarg, NULL, 0);
break;
case 22:
p->service_id = strtoull(optarg, NULL, 0);
break;
default:
return -1;
}
return 0;
}
int main(int argc, char **argv)
{
int sa_cpi_required = 0;
char usage_args[1024];
struct sa_handle * h;
struct query_params params;
const struct query_cmd *q;
int status;
int n;
const struct ibdiag_opt opts[] = {
{"p", 'p', 0, NULL, "get PathRecord info"},
{"N", 'N', 0, NULL, "get NodeRecord info"},
{"L", 'L', 0, NULL, "return the Lids of the name specified"},
{"l", 'l', 0, NULL,
"return the unique Lid of the name specified"},
{"G", 'G', 0, NULL, "return the Guids of the name specified"},
{"O", 'O', 0, NULL, "return name for the Lid specified"},
{"U", 'U', 0, NULL, "return name for the Guid specified"},
{"s", 's', 0, NULL, "return the PortInfoRecords with isSM or"
" isSMdisabled capability mask bit on"},
{"g", 'g', 0, NULL, "get multicast group info"},
{"m", 'm', 0, NULL, "get multicast member info (if multicast"
" group specified, list member GIDs only for group specified,"
" for example 'saquery -m 0xC000')"},
{"x", 'x', 0, NULL, "get LinkRecord info"},
{"c", 'c', 0, NULL, "get the SA's class port info"},
{"S", 'S', 0, NULL, "get ServiceRecord info"},
{"I", 'I', 0, NULL, "get InformInfoRecord (subscription) info"},
{"list", 'D', 0, NULL, "the node desc of the CA's"},
{"src-to-dst", 1, 1, "<src:dst>", "get a PathRecord for"
" <src:dst> where src and dst are either node names or LIDs"},
{"sgid-to-dgid", 2, 1, "<sgid-dgid>", "get a PathRecord for"
" <sgid-dgid> where sgid and dgid are addresses in IPv6 format"},
{"node-name-map", 3, 1, "<file>",
"specify a node name map file"},
{"smkey", 4, 1, "<val>",
"SA SM_Key value for the query."
" If non-numeric value (like 'x') is specified then"
" saquery will prompt for a value. "
" Default (when not specified here or in ibdiag.conf) is to "
" use SM_Key == 0 (or \"untrusted\")"},
{"slid", 5, 1, "<lid>", "Source LID (PathRecord)"},
{"dlid", 6, 1, "<lid>", "Destination LID (PathRecord)"},
{"mlid", 7, 1, "<lid>", "Multicast LID (MCMemberRecord)"},
{"sgid", 14, 1, "<gid>",
"Source GID (IPv6 format) (PathRecord)"},
{"dgid", 15, 1, "<gid>",
"Destination GID (IPv6 format) (PathRecord)"},
{"gid", 16, 1, "<gid>", "Port GID (MCMemberRecord)"},
{"mgid", 17, 1, "<gid>", "Multicast GID (MCMemberRecord)"},
{"reversible", 'r', 1, NULL, "Reversible path (PathRecord)"},
{"numb_path", 'n', 1, NULL, "Number of paths (PathRecord)"},
{"pkey", 18, 1, NULL, "P_Key (PathRecord, MCMemberRecord)."
" If non-numeric value (like 'x') is specified then"
" saquery will prompt for a value"},
{"qos_class", 'Q', 1, NULL, "QoS Class (PathRecord)"},
{"sl", 19, 1, NULL,
"Service level (PathRecord, MCMemberRecord)"},
{"mtu", 'M', 1, NULL,
"MTU and selector (PathRecord, MCMemberRecord)"},
{"rate", 'R', 1, NULL,
"Rate and selector (PathRecord, MCMemberRecord)"},
{"pkt_lifetime", 20, 1, NULL,
"Packet lifetime and selector (PathRecord, MCMemberRecord)"},
{"qkey", 'q', 1, NULL, "Q_Key (MCMemberRecord)."
" If non-numeric value (like 'x') is specified then"
" saquery will prompt for a value"},
{"tclass", 'T', 1, NULL,
"Traffic Class (PathRecord, MCMemberRecord)"},
{"flow_label", 'F', 1, NULL,
"Flow Label (PathRecord, MCMemberRecord)"},
{"hop_limit", 'H', 1, NULL,
"Hop limit (PathRecord, MCMemberRecord)"},
{"scope", 21, 1, NULL, "Scope (MCMemberRecord)"},
{"join_state", 'J', 1, NULL, "Join state (MCMemberRecord)"},
{"proxy_join", 'X', 1, NULL, "Proxy join (MCMemberRecord)"},
{"service_id", 22, 1, NULL, "ServiceID (PathRecord)"},
{}
};
memset(¶ms, 0, sizeof params);
params.hop_limit = -1;
params.reversible = -1;
params.numb_path = -1;
params.qos_class = -1;
params.sl = -1;
params.proxy_join = -1;
n = sprintf(usage_args, "[query-name] [<name> | <lid> | <guid>]\n"
"\nSupported query names (and aliases):\n");
for (q = query_cmds; q->name; q++) {
n += snprintf(usage_args + n, sizeof(usage_args) - n,
" %s (%s) %s\n", q->name,
q->alias ? q->alias : "",
q->usage ? q->usage : "");
if (n >= sizeof(usage_args))
exit(-1);
}
snprintf(usage_args + n, sizeof(usage_args) - n,
"\n Queries node records by default.");
q = NULL;
ibd_timeout = DEFAULT_SA_TIMEOUT_MS;
ibdiag_process_opts(argc, argv, ¶ms, "DGLsy", opts, process_opt,
usage_args, NULL);
argc -= optind;
argv += optind;
if (!query_type && command == SAQUERY_CMD_QUERY) {
if (!argc || !(q = find_query(argv[0])))
query_type = IB_SA_ATTR_NODERECORD;
else {
query_type = q->query_type;
argc--;
argv++;
}
}
if (argc) {
if (node_print_desc == NAME_OF_LID) {
requested_lid = (uint16_t) strtoul(argv[0], NULL, 0);
requested_lid_flag++;
} else if (node_print_desc == NAME_OF_GUID) {
requested_guid = strtoul(argv[0], NULL, 0);
requested_guid_flag++;
} else
requested_name = argv[0];
}
if ((node_print_desc == LID_ONLY ||
node_print_desc == UNIQUE_LID_ONLY ||
node_print_desc == GUID_ONLY) && !requested_name) {
fprintf(stderr, "ERROR: name not specified\n");
ibdiag_show_usage();
}
if (node_print_desc == NAME_OF_LID && !requested_lid_flag) {
fprintf(stderr, "ERROR: lid not specified\n");
ibdiag_show_usage();
}
if (node_print_desc == NAME_OF_GUID && !requested_guid_flag) {
fprintf(stderr, "ERROR: guid not specified\n");
ibdiag_show_usage();
}
/* Note: lid cannot be 0; see infiniband spec 4.1.3 */
if (node_print_desc == NAME_OF_LID && !requested_lid) {
fprintf(stderr, "ERROR: lid invalid\n");
ibdiag_show_usage();
}
if (umad_init())
IBEXIT("Failed to initialized umad library");
h = sa_get_handle();
if (!h)
IBPANIC("Failed to bind to the SA");
node_name_map = open_node_name_map(node_name_map_file);
if (src_lid && *src_lid)
params.slid = get_lid(h, src_lid);
if (dst_lid && *dst_lid)
params.dlid = get_lid(h, dst_lid);
if (command == SAQUERY_CMD_CLASS_PORT_INFO ||
query_type == CLASS_PORT_INFO ||
query_type == IB_SA_ATTR_SWITCHINFORECORD)
sa_cpi_required = 1;
if (sa_cpi_required && (status = query_sa_cpi(h, ¶ms)) != 0) {
fprintf(stderr, "Failed to query SA:ClassPortInfo\n");
goto error;
}
switch (command) {
case SAQUERY_CMD_NODE_RECORD:
status = print_node_records(h, ¶ms);
break;
case SAQUERY_CMD_CLASS_PORT_INFO:
dump_class_port_info(¶ms.cpi);
status = 0;
break;
case SAQUERY_CMD_ISSM:
status = print_issm_records(h, ¶ms);
break;
case SAQUERY_CMD_MCGROUPS:
status = print_multicast_group_records(h, ¶ms);
break;
case SAQUERY_CMD_MCMEMBERS:
status = print_multicast_member_records(h, ¶ms);
break;
default:
if ((!q && !(q = find_query_by_type(query_type)))
|| !q->handler) {
fprintf(stderr, "Unknown query type %d\n", query_type);
status = EINVAL;
} else
status = q->handler(q, h, ¶ms, argc, argv);
break;
}
error:
if (src_lid)
free(src_lid);
sa_free_handle(h);
umad_done();
close_node_name_map(node_name_map);
return (status);
}