resource.c revision 888e055994b8b0dc77b98c53dd97026237caec5d
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <fm/fmd_adm.h>
#include <fm/fmd_snmp.h>
#include <net-snmp/net-snmp-config.h>
#include <net-snmp/net-snmp-includes.h>
#include <net-snmp/agent/net-snmp-agent-includes.h>
#include <pthread.h>
#include <stddef.h>
#include <errno.h>
#include <libuutil.h>
#include "sunFM_impl.h"
#include "resource.h"
static uu_avl_pool_t *rsrc_fmri_avl_pool;
static uu_avl_pool_t *rsrc_index_avl_pool;
static uu_avl_t *rsrc_fmri_avl;
static uu_avl_t *rsrc_index_avl;
#define VALID_AVL_STATE (rsrc_fmri_avl_pool != NULL && \
rsrc_index_avl_pool != NULL && rsrc_fmri_avl != NULL && \
rsrc_index_avl != NULL)
#define UPDATE_WAIT_MILLIS 10 /* poll interval in milliseconds */
/*
* Update types: single-index and all are mutually exclusive; a count
* update is optional.
*/
#define UCT_INDEX 0x1
#define UCT_ALL 0x2
#define UCT_COUNT 0x4
#define UCT_FLAGS 0x7
#define RESOURCE_DATA_VALID(d) ((d)->d_valid == valid_stamp)
/*
* Locking strategy is described in module.c.
*/
static ulong_t max_index;
static int valid_stamp;
static uint32_t rsrc_count;
static pthread_mutex_t update_lock;
static pthread_cond_t update_cv;
static volatile enum { US_QUIET, US_NEEDED, US_INPROGRESS } update_status;
static Netsnmp_Node_Handler sunFmResourceTable_handler;
static Netsnmp_Node_Handler sunFmResourceCount_handler;
static sunFmResource_data_t *
key_build(const char *fmri, const ulong_t index)
{
static sunFmResource_data_t key;
key.d_index = index;
if (fmri)
(void) strlcpy(key.d_ari_fmri, fmri, sizeof (key.d_ari_fmri));
else
key.d_ari_fmri[0] = '\0';
return (&key);
}
/*
* If fmri is the fmri of a resource we have previously seen and indexed, return
* data for it. Otherwise, return NULL. Note that the resource may not be
* valid; that is, it may have been removed from the fault manager since its
* information was last updated.
*/
static sunFmResource_data_t *
resource_lookup_fmri(const char *fmri)
{
sunFmResource_data_t *key;
key = key_build(fmri, 0);
return (uu_avl_find(rsrc_fmri_avl, key, NULL, NULL));
}
/*
* If index corresponds to a resource we have previously seen and indexed,
* return data for it. Otherwise, return NULL. Note that the resource may
* not be valid; that is, it may have been expired from the fault manager
* since its information was last updated.
*/
static sunFmResource_data_t *
resource_lookup_index_exact(const ulong_t index)
{
sunFmResource_data_t *key;
key = key_build(NULL, index);
return (uu_avl_find(rsrc_index_avl, key, NULL, NULL));
}
/*
* If index corresponds to a valid (that is, extant as of latest information
* from the fault manager) resource, return the data for that resource.
* Otherwise, return the data for the valid resource whose index is as close as
* possible to index but not lower. This preserves the lexicographical
* ordering required for GETNEXT processing.
*/
static sunFmResource_data_t *
resource_lookup_index_nextvalid(const ulong_t index)
{
sunFmResource_data_t *key, *data;
uu_avl_index_t idx;
key = key_build(NULL, index);
if ((data = uu_avl_find(rsrc_index_avl, key, NULL, &idx)) != NULL &&
RESOURCE_DATA_VALID(data))
return (data);
data = uu_avl_nearest_next(rsrc_index_avl, idx);
while (data != NULL && !RESOURCE_DATA_VALID(data))
data = uu_avl_next(rsrc_index_avl, data);
return (data);
}
/*
* Possible update the contents of a single resource within the cache. This
* is our callback from fmd_rsrc_iter.
*/
static int
rsrcinfo_update_one(const fmd_adm_rsrcinfo_t *rsrcinfo, void *arg)
{
const sunFmResource_update_ctx_t *update_ctx =
(sunFmResource_update_ctx_t *)arg;
sunFmResource_data_t *data = resource_lookup_fmri(rsrcinfo->ari_fmri);
++rsrc_count;
/*
* A resource we haven't seen before. We're obligated to index
* it and link it into our cache so that we can find it, but we're
* not obligated to fill it in completely unless we're doing a
* full update or this is the resource we were asked for. This
* avoids unnecessary iteration and memory manipulation for data
* we're not going to return for this request.
*/
if (data == NULL) {
uu_avl_index_t idx;
DEBUGMSGTL((MODNAME_STR, "found new resource %s\n",
rsrcinfo->ari_fmri));
if ((data = SNMP_MALLOC_TYPEDEF(sunFmResource_data_t)) ==
NULL) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": Out of memory "
"for new resource data at %s:%d\n", __FILE__,
__LINE__);
return (1);
}
/*
* We allocate indices sequentially and never reuse them.
* This ensures we can always return valid GETNEXT responses
* without having to reindex, and it provides the user a
* more consistent view of the fault manager.
*/
data->d_index = ++max_index;
DEBUGMSGTL((MODNAME_STR, "index %lu is %s@%p\n", data->d_index,
rsrcinfo->ari_fmri, data));
(void) strlcpy(data->d_ari_fmri, rsrcinfo->ari_fmri,
sizeof (data->d_ari_fmri));
uu_avl_node_init(data, &data->d_fmri_avl, rsrc_fmri_avl_pool);
(void) uu_avl_find(rsrc_fmri_avl, data, NULL, &idx);
uu_avl_insert(rsrc_fmri_avl, data, idx);
uu_avl_node_init(data, &data->d_index_avl, rsrc_index_avl_pool);
(void) uu_avl_find(rsrc_index_avl, data, NULL, &idx);
uu_avl_insert(rsrc_index_avl, data, idx);
DEBUGMSGTL((MODNAME_STR, "completed new resource %lu/%s@%p\n",
data->d_index, data->d_ari_fmri, data));
}
data->d_valid = valid_stamp;
DEBUGMSGTL((MODNAME_STR, "timestamp updated for %lu/%s@%p: %lu\n",
data->d_index, data->d_ari_fmri, data, data->d_valid));
if ((update_ctx->uc_type & UCT_ALL) ||
update_ctx->uc_index == data->d_index) {
(void) strlcpy(data->d_ari_case, rsrcinfo->ari_case,
sizeof (data->d_ari_case));
data->d_ari_flags = rsrcinfo->ari_flags;
}
return (!(update_ctx->uc_type & UCT_ALL) &&
update_ctx->uc_index == data->d_index);
}
/*
* Update some or all resource data from fmd. If type includes UCT_ALL, all
* resources will be indexed and their data cached. If type includes
* UCT_INDEX, updates will stop once the resource matching index has been
* updated. If UCT_COUNT is set, the number of faulted resources will be
* set.
*
* Returns appropriate SNMP error codes.
*/
static int
rsrcinfo_update(sunFmResource_update_ctx_t *update_ctx)
{
fmd_adm_t *adm;
int err;
ASSERT(update_ctx != NULL);
ASSERT((update_ctx->uc_type & (UCT_ALL|UCT_INDEX)) !=
(UCT_ALL|UCT_INDEX));
ASSERT((update_ctx->uc_type & ~UCT_FLAGS) == 0);
ASSERT(VALID_AVL_STATE);
if ((adm = fmd_adm_open(update_ctx->uc_host, update_ctx->uc_prog,
update_ctx->uc_version)) == NULL) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": Communication with fmd "
"failed: %s\n", strerror(errno));
return (SNMP_ERR_RESOURCEUNAVAILABLE);
}
if (update_ctx->uc_type == UCT_COUNT) {
err = fmd_adm_rsrc_count(adm, update_ctx->uc_all, &rsrc_count);
} else {
++valid_stamp;
rsrc_count = 0;
err = fmd_adm_rsrc_iter(adm, update_ctx->uc_all,
rsrcinfo_update_one, update_ctx);
DEBUGMSGTL((MODNAME_STR, "resource iteration completed\n"));
}
fmd_adm_close(adm);
if (err != 0) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": fmd resource "
"information update failed: %s\n", fmd_adm_errmsg(adm));
return (SNMP_ERR_RESOURCEUNAVAILABLE);
}
return (SNMP_ERR_NOERROR);
}
/*ARGSUSED*/
static void
update_thread(void *arg)
{
/*
* The current rsrcinfo_update implementation offers minimal savings
* for the use of index-only updates; therefore we always do a full
* update. If it becomes advantageous to limit updates to a single
* index, the contexts can be queued by the handler instead.
*/
sunFmResource_update_ctx_t uc;
uc.uc_host = NULL;
uc.uc_prog = FMD_ADM_PROGRAM;
uc.uc_version = FMD_ADM_VERSION;
uc.uc_all = 0;
uc.uc_index = 0;
uc.uc_type = UCT_ALL;
for (;;) {
(void) pthread_mutex_lock(&update_lock);
update_status = US_QUIET;
while (update_status == US_QUIET)
(void) pthread_cond_wait(&update_cv, &update_lock);
update_status = US_INPROGRESS;
(void) pthread_mutex_unlock(&update_lock);
(void) rsrcinfo_update(&uc);
}
}
static void
request_update(void)
{
(void) pthread_mutex_lock(&update_lock);
if (update_status != US_QUIET) {
(void) pthread_mutex_unlock(&update_lock);
return;
}
update_status = US_NEEDED;
(void) pthread_cond_signal(&update_cv);
(void) pthread_mutex_unlock(&update_lock);
}
/*ARGSUSED*/
static int
resource_compare_fmri(const void *l, const void *r, void *private)
{
sunFmResource_data_t *l_data = (sunFmResource_data_t *)l;
sunFmResource_data_t *r_data = (sunFmResource_data_t *)r;
ASSERT(l_data != NULL && r_data != NULL);
return (strcmp(l_data->d_ari_fmri, r_data->d_ari_fmri));
}
/*ARGSUSED*/
static int
resource_compare_index(const void *l, const void *r, void *private)
{
sunFmResource_data_t *l_data = (sunFmResource_data_t *)l;
sunFmResource_data_t *r_data = (sunFmResource_data_t *)r;
ASSERT(l_data != NULL && r_data != NULL);
return (l_data->d_index < r_data->d_index ? -1 :
l_data->d_index > r_data->d_index ? 1 : 0);
}
int
sunFmResourceTable_init(void)
{
static oid sunFmResourceTable_oid[] = { SUNFMRESOURCETABLE_OID };
static oid sunFmResourceCount_oid[] = { SUNFMRESOURCECOUNT_OID, 0 };
netsnmp_table_registration_info *table_info;
netsnmp_handler_registration *handler;
int err;
if ((err = pthread_mutex_init(&update_lock, NULL)) != 0) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": mutex_init failure: "
"%s\n", strerror(err));
return (MIB_REGISTRATION_FAILED);
}
if ((err = pthread_cond_init(&update_cv, NULL)) != 0) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": cond_init failure: "
"%s\n", strerror(err));
return (MIB_REGISTRATION_FAILED);
}
if ((err = pthread_create(NULL, NULL, (void *(*)(void *))update_thread,
NULL)) != 0) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": error creating update "
"thread: %s\n", strerror(err));
return (MIB_REGISTRATION_FAILED);
}
if ((table_info =
SNMP_MALLOC_TYPEDEF(netsnmp_table_registration_info)) == NULL)
return (MIB_REGISTRATION_FAILED);
if ((handler = netsnmp_create_handler_registration("sunFmResourceTable",
sunFmResourceTable_handler, sunFmResourceTable_oid,
OID_LENGTH(sunFmResourceTable_oid), HANDLER_CAN_RONLY)) == NULL) {
SNMP_FREE(table_info);
return (MIB_REGISTRATION_FAILED);
}
/*
* The Net-SNMP template uses add_indexes here, but that
* function is unsafe because it does not check for failure.
*/
if (netsnmp_table_helper_add_index(table_info, ASN_UNSIGNED) == NULL) {
SNMP_FREE(table_info);
SNMP_FREE(handler);
return (MIB_REGISTRATION_FAILED);
}
table_info->min_column = SUNFMRESOURCE_COLMIN;
table_info->max_column = SUNFMRESOURCE_COLMAX;
if ((rsrc_fmri_avl_pool = uu_avl_pool_create("rsrc_fmri",
sizeof (sunFmResource_data_t),
offsetof(sunFmResource_data_t, d_fmri_avl), resource_compare_fmri,
UU_AVL_DEBUG)) == NULL) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": rsrc_fmri avl pool "
"creation failed: %s\n", uu_strerror(uu_error()));
snmp_free_varbind(table_info->indexes);
SNMP_FREE(table_info);
SNMP_FREE(handler);
}
if ((rsrc_fmri_avl = uu_avl_create(rsrc_fmri_avl_pool, NULL,
UU_AVL_DEBUG)) == NULL) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": rsrc_fmri avl creation "
"failed: %s\n", uu_strerror(uu_error()));
snmp_free_varbind(table_info->indexes);
SNMP_FREE(table_info);
SNMP_FREE(handler);
uu_avl_pool_destroy(rsrc_fmri_avl_pool);
return (MIB_REGISTRATION_FAILED);
}
if ((rsrc_index_avl_pool = uu_avl_pool_create("rsrc_index",
sizeof (sunFmResource_data_t),
offsetof(sunFmResource_data_t, d_index_avl),
resource_compare_index, UU_AVL_DEBUG)) == NULL) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": rsrc_index avl pool "
"creation failed: %s\n", uu_strerror(uu_error()));
snmp_free_varbind(table_info->indexes);
SNMP_FREE(table_info);
SNMP_FREE(handler);
uu_avl_destroy(rsrc_fmri_avl);
uu_avl_pool_destroy(rsrc_fmri_avl_pool);
}
if ((rsrc_index_avl = uu_avl_create(rsrc_index_avl_pool, NULL,
UU_AVL_DEBUG)) == NULL) {
(void) snmp_log(LOG_ERR, MODNAME_STR ": rsrc_index avl "
"creation failed: %s\n", uu_strerror(uu_error()));
snmp_free_varbind(table_info->indexes);
SNMP_FREE(table_info);
SNMP_FREE(handler);
uu_avl_destroy(rsrc_fmri_avl);
uu_avl_pool_destroy(rsrc_fmri_avl_pool);
uu_avl_pool_destroy(rsrc_index_avl_pool);
return (MIB_REGISTRATION_FAILED);
}
if ((err = netsnmp_register_table(handler, table_info)) !=
MIB_REGISTERED_OK) {
snmp_free_varbind(table_info->indexes);
SNMP_FREE(table_info);
SNMP_FREE(handler);
uu_avl_destroy(rsrc_fmri_avl);
uu_avl_pool_destroy(rsrc_fmri_avl_pool);
uu_avl_destroy(rsrc_index_avl);
uu_avl_pool_destroy(rsrc_index_avl_pool);
return (err);
}
if ((err = netsnmp_register_read_only_instance(
netsnmp_create_handler_registration("sunFmResourceCount",
sunFmResourceCount_handler, sunFmResourceCount_oid,
OID_LENGTH(sunFmResourceCount_oid), HANDLER_CAN_RONLY))) !=
MIB_REGISTERED_OK) {
/*
* There's no way to unregister the table handler, so we
* can't free any of the data, either.
*/
return (err);
}
return (MIB_REGISTERED_OK);
}
/*
* These two functions form the core of GET/GETNEXT/GETBULK handling (the
* only kind we do). They perform two functions:
*
* - First, frob the request to set all the index variables to correspond
* to the value that's going to be returned. For GET, this is a nop;
* for GETNEXT/GETBULK it always requires some work.
* - Second, find and return the fmd resource information corresponding to
* the (possibly updated) indices.
*
* These should be as fast as possible; they run in the agent thread.
*/
static sunFmResource_data_t *
sunFmResourceTable_nextrsrc(netsnmp_handler_registration *reginfo,
netsnmp_table_request_info *table_info)
{
sunFmResource_data_t *data;
netsnmp_variable_list *var;
ulong_t index;
/*
* If we have no index, we must make one.
*/
if (table_info->number_indexes < 1) {
oid tmpoid[MAX_OID_LEN];
index = 1;
DEBUGMSGTL((MODNAME_STR, "nextrsrc: no indexes given\n"));
var = SNMP_MALLOC_TYPEDEF(netsnmp_variable_list);
(void) snmp_set_var_typed_value(var, ASN_UNSIGNED,
(uchar_t *)&index, sizeof (index));
(void) memcpy(tmpoid, reginfo->rootoid,
reginfo->rootoid_len * sizeof (oid));
tmpoid[reginfo->rootoid_len] = 1;
tmpoid[reginfo->rootoid_len + 1] = table_info->colnum;
if (build_oid(&var->name, &var->name_length, tmpoid,
reginfo->rootoid_len + 2, var) != SNMPERR_SUCCESS) {
snmp_free_varbind(var);
return (NULL);
}
DEBUGMSGTL((MODNAME_STR, "nextrsrc: built fake index:\n"));
DEBUGMSGVAR((MODNAME_STR, var));
DEBUGMSG((MODNAME_STR, "\n"));
} else {
var = snmp_clone_varbind(table_info->indexes);
index = *var->val.integer;
DEBUGMSGTL((MODNAME_STR, "nextrsrc: received index:\n"));
DEBUGMSGVAR((MODNAME_STR, var));
DEBUGMSG((MODNAME_STR, "\n"));
index++;
}
snmp_free_varbind(table_info->indexes);
table_info->indexes = NULL;
table_info->number_indexes = 0;
if ((data = resource_lookup_index_nextvalid(index)) == NULL) {
DEBUGMSGTL((MODNAME_STR, "nextrsrc: exact match not found for "
"index %lu; trying next column\n", index));
if (table_info->colnum >=
netsnmp_find_table_registration_info(reginfo)->max_column) {
snmp_free_varbind(var);
DEBUGMSGTL((MODNAME_STR, "nextrsrc: out of columns\n"));
return (NULL);
}
table_info->colnum++;
index = 1;
data = resource_lookup_index_nextvalid(index);
}
if (data == NULL) {
DEBUGMSGTL((MODNAME_STR, "nextrsrc: exact match not found for "
"index %lu; stopping\n", index));
snmp_free_varbind(var);
return (NULL);
}
*var->val.integer = data->d_index;
table_info->indexes = var;
table_info->number_indexes = 1;
DEBUGMSGTL((MODNAME_STR, "matching data is %lu/%s@%p\n", data->d_index,
data->d_ari_fmri, data));
return (data);
}
/*ARGSUSED*/
static sunFmResource_data_t *
sunFmResourceTable_rsrc(netsnmp_handler_registration *reginfo,
netsnmp_table_request_info *table_info)
{
ASSERT(table_info->number_indexes == 1);
return (resource_lookup_index_exact(table_info->index_oid[0]));
}
/*ARGSUSED*/
static void
sunFmResourceTable_return(unsigned int reg, void *arg)
{
netsnmp_delegated_cache *cache = (netsnmp_delegated_cache *)arg;
netsnmp_request_info *request;
netsnmp_agent_request_info *reqinfo;
netsnmp_handler_registration *reginfo;
netsnmp_table_request_info *table_info;
sunFmResource_data_t *data;
ulong_t rsrcstate;
ASSERT(netsnmp_handler_check_cache(cache) != NULL);
(void) pthread_mutex_lock(&update_lock);
if (update_status != US_QUIET) {
struct timeval tv;
tv.tv_sec = UPDATE_WAIT_MILLIS / 1000;
tv.tv_usec = (UPDATE_WAIT_MILLIS % 1000) * 1000;
(void) snmp_alarm_register_hr(tv, 0, sunFmResourceTable_return,
cache);
(void) pthread_mutex_unlock(&update_lock);
return;
}
request = cache->requests;
reqinfo = cache->reqinfo;
reginfo = cache->reginfo;
table_info = netsnmp_extract_table_info(request);
request->delegated = 0;
ASSERT(table_info->colnum >= SUNFMRESOURCE_COLMIN);
ASSERT(table_info->colnum <= SUNFMRESOURCE_COLMAX);
/*
* table_info->colnum contains the column number requested.
* table_info->indexes contains a linked list of snmp variable
* bindings for the indexes of the table. Values in the list
* have been set corresponding to the indexes of the
* request. We have other guarantees as well:
*
* - The column number is always within range.
* - If we have no index data, table_info->index_oid_len is 0.
* - We will never receive requests outside our table nor
* those with the first subid anything other than 1 (Entry)
* nor those without a column number. This is true even
* for GETNEXT requests.
*/
switch (reqinfo->mode) {
case MODE_GET:
if ((data = sunFmResourceTable_rsrc(reginfo, table_info)) ==
NULL) {
netsnmp_free_delegated_cache(cache);
(void) pthread_mutex_unlock(&update_lock);
return;
}
break;
case MODE_GETNEXT:
case MODE_GETBULK:
if ((data = sunFmResourceTable_nextrsrc(reginfo, table_info)) ==
NULL) {
netsnmp_free_delegated_cache(cache);
(void) pthread_mutex_unlock(&update_lock);
return;
}
break;
default:
(void) snmp_log(LOG_ERR, MODNAME_STR ": Unsupported request "
"mode %d\n", reqinfo->mode);
netsnmp_free_delegated_cache(cache);
(void) pthread_mutex_unlock(&update_lock);
return;
}
switch (table_info->colnum) {
case SUNFMRESOURCE_COL_FMRI:
(void) netsnmp_table_build_result(reginfo, request, table_info,
ASN_OCTET_STR, (uchar_t *)data->d_ari_fmri,
strlen(data->d_ari_fmri));
break;
case SUNFMRESOURCE_COL_STATUS:
switch (data->d_ari_flags &
(FMD_ADM_RSRC_FAULTY|FMD_ADM_RSRC_UNUSABLE)) {
default:
rsrcstate = SUNFMRESOURCE_STATE_OK;
break;
case FMD_ADM_RSRC_FAULTY:
rsrcstate = SUNFMRESOURCE_STATE_DEGRADED;
break;
case FMD_ADM_RSRC_UNUSABLE:
rsrcstate = SUNFMRESOURCE_STATE_UNKNOWN;
break;
case FMD_ADM_RSRC_FAULTY | FMD_ADM_RSRC_UNUSABLE:
rsrcstate = SUNFMRESOURCE_STATE_FAULTED;
break;
}
(void) netsnmp_table_build_result(reginfo, request, table_info,
ASN_INTEGER, (uchar_t *)&rsrcstate,
sizeof (rsrcstate));
break;
case SUNFMRESOURCE_COL_DIAGNOSISUUID:
(void) netsnmp_table_build_result(reginfo, request, table_info,
ASN_OCTET_STR, (uchar_t *)data->d_ari_case,
strlen(data->d_ari_case));
break;
default:
break;
}
netsnmp_free_delegated_cache(cache);
(void) pthread_mutex_unlock(&update_lock);
}
static int
sunFmResourceTable_handler(netsnmp_mib_handler *handler,
netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo,
netsnmp_request_info *requests)
{
netsnmp_request_info *request;
struct timeval tv;
tv.tv_sec = UPDATE_WAIT_MILLIS / 1000;
tv.tv_usec = (UPDATE_WAIT_MILLIS % 1000) * 1000;
request_update();
for (request = requests; request; request = request->next) {
if (request->processed != 0)
continue;
if (netsnmp_extract_table_info(request) == NULL)
continue;
request->delegated = 1;
(void) snmp_alarm_register_hr(tv, 0, sunFmResourceTable_return,
(void *) netsnmp_create_delegated_cache(handler, reginfo,
reqinfo, request, NULL));
}
return (SNMP_ERR_NOERROR);
}
/*ARGSUSED*/
static void
sunFmResourceCount_return(unsigned int reg, void *arg)
{
netsnmp_delegated_cache *cache = (netsnmp_delegated_cache *)arg;
netsnmp_request_info *request;
netsnmp_agent_request_info *reqinfo;
ulong_t rsrc_count_long;
ASSERT(netsnmp_handler_check_cache(cache) != NULL);
(void) pthread_mutex_lock(&update_lock);
if (update_status != US_QUIET) {
struct timeval tv;
tv.tv_sec = UPDATE_WAIT_MILLIS / 1000;
tv.tv_usec = (UPDATE_WAIT_MILLIS % 1000) * 1000;
(void) snmp_alarm_register_hr(tv, 0, sunFmResourceCount_return,
cache);
(void) pthread_mutex_unlock(&update_lock);
return;
}
request = cache->requests;
reqinfo = cache->reqinfo;
request->delegated = 0;
switch (reqinfo->mode) {
/*
* According to the documentation, it's not possible for us ever to
* be called with MODE_GETNEXT. However, Net-SNMP does the following:
* - set reqinfo->mode to MODE_GET
* - invoke the handler
* - set reqinfo->mode to MODE_GETNEXT (even if the request was not
* actually processed; i.e. it's been delegated)
* Since we're called back later with the same reqinfo, we see
* GETNEXT. Therefore this case is needed to work around the
* Net-SNMP bug.
*/
case MODE_GET:
case MODE_GETNEXT:
DEBUGMSGTL((MODNAME_STR, "resource count is %u\n", rsrc_count));
rsrc_count_long = (ulong_t)rsrc_count;
(void) snmp_set_var_typed_value(request->requestvb, ASN_GAUGE,
(uchar_t *)&rsrc_count_long, sizeof (rsrc_count_long));
break;
default:
(void) snmp_log(LOG_ERR, MODNAME_STR ": Unsupported request "
"mode %d\n", reqinfo->mode);
}
netsnmp_free_delegated_cache(cache);
(void) pthread_mutex_unlock(&update_lock);
}
static int
sunFmResourceCount_handler(netsnmp_mib_handler *handler,
netsnmp_handler_registration *reginfo, netsnmp_agent_request_info *reqinfo,
netsnmp_request_info *requests)
{
struct timeval tv;
tv.tv_sec = UPDATE_WAIT_MILLIS / 1000;
tv.tv_usec = (UPDATE_WAIT_MILLIS % 1000) * 1000;
request_update();
/*
* We are never called for a GETNEXT when registered as an
* instance; it's handled for us and converted to a GET.
* Also, an instance handler is given only one request at a time, so
* we don't need to loop over a list of requests.
*/
if (requests->processed != 0)
return (SNMP_ERR_NOERROR);
requests->delegated = 1;
(void) snmp_alarm_register_hr(tv, 0, sunFmResourceCount_return,
(void *) netsnmp_create_delegated_cache(handler, reginfo,
reqinfo, requests, NULL));
return (SNMP_ERR_NOERROR);
}