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nagios4/common/objects.c

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/*****************************************************************************
*
* OBJECTS.C - Object addition and search functions for Nagios
*
* Copyright (c) 1999-2008 Ethan Galstad (egalstad@nagios.org)
* Last Modified: 11-30-2008
*
* License:
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*
*****************************************************************************/
#include "../include/config.h"
#include "../include/common.h"
#include "../include/objects.h"
#include "../include/skiplist.h"
#ifdef NSCORE
#include "../include/nagios.h"
#endif
#ifdef NSCGI
#include "../include/cgiutils.h"
#endif
/**** IMPLEMENTATION-SPECIFIC HEADER FILES ****/
#ifdef USE_XODTEMPLATE /* template-based routines */
#include "../xdata/xodtemplate.h"
#endif
host *host_list = NULL, *host_list_tail = NULL;
service *service_list = NULL, *service_list_tail = NULL;
contact *contact_list = NULL, *contact_list_tail = NULL;
contactgroup *contactgroup_list = NULL, *contactgroup_list_tail = NULL;
hostgroup *hostgroup_list = NULL, *hostgroup_list_tail = NULL;
servicegroup *servicegroup_list = NULL, *servicegroup_list_tail = NULL;
command *command_list = NULL, *command_list_tail = NULL;
timeperiod *timeperiod_list = NULL, *timeperiod_list_tail = NULL;
serviceescalation *serviceescalation_list = NULL, *serviceescalation_list_tail = NULL;
servicedependency *servicedependency_list = NULL, *servicedependency_list_tail = NULL;
hostdependency *hostdependency_list = NULL, *hostdependency_list_tail = NULL;
hostescalation *hostescalation_list = NULL, *hostescalation_list_tail = NULL;
skiplist *object_skiplists[NUM_OBJECT_SKIPLISTS];
#ifdef NSCORE
int __nagios_object_structure_version = CURRENT_OBJECT_STRUCTURE_VERSION;
extern int use_precached_objects;
#endif
/******************************************************************/
/******* TOP-LEVEL HOST CONFIGURATION DATA INPUT FUNCTION *********/
/******************************************************************/
/* read all host configuration data from external source */
int read_object_config_data(char *main_config_file, int options, int cache, int precache) {
int result = OK;
/* initialize object skiplists */
init_object_skiplists();
/********* IMPLEMENTATION-SPECIFIC INPUT FUNCTION ********/
#ifdef USE_XODTEMPLATE
/* read in data from all text host config files (template-based) */
result = xodtemplate_read_config_data(main_config_file, options, cache, precache);
if(result != OK)
return ERROR;
#endif
return result;
}
/******************************************************************/
/******************** SKIPLIST FUNCTIONS **************************/
/******************************************************************/
int init_object_skiplists(void) {
int x = 0;
for(x = 0; x < NUM_OBJECT_SKIPLISTS; x++)
object_skiplists[x] = NULL;
object_skiplists[HOST_SKIPLIST] = skiplist_new(15, 0.5, FALSE, FALSE, skiplist_compare_host);
object_skiplists[SERVICE_SKIPLIST] = skiplist_new(15, 0.5, FALSE, FALSE, skiplist_compare_service);
object_skiplists[COMMAND_SKIPLIST] = skiplist_new(10, 0.5, FALSE, FALSE, skiplist_compare_command);
object_skiplists[TIMEPERIOD_SKIPLIST] = skiplist_new(10, 0.5, FALSE, FALSE, skiplist_compare_timeperiod);
object_skiplists[CONTACT_SKIPLIST] = skiplist_new(10, 0.5, FALSE, FALSE, skiplist_compare_contact);
object_skiplists[CONTACTGROUP_SKIPLIST] = skiplist_new(10, 0.5, FALSE, FALSE, skiplist_compare_contactgroup);
object_skiplists[HOSTGROUP_SKIPLIST] = skiplist_new(10, 0.5, FALSE, FALSE, skiplist_compare_hostgroup);
object_skiplists[SERVICEGROUP_SKIPLIST] = skiplist_new(10, 0.5, FALSE, FALSE, skiplist_compare_servicegroup);
object_skiplists[HOSTESCALATION_SKIPLIST] = skiplist_new(15, 0.5, TRUE, FALSE, skiplist_compare_hostescalation);
object_skiplists[SERVICEESCALATION_SKIPLIST] = skiplist_new(15, 0.5, TRUE, FALSE, skiplist_compare_serviceescalation);
object_skiplists[HOSTDEPENDENCY_SKIPLIST] = skiplist_new(15, 0.5, TRUE, FALSE, skiplist_compare_hostdependency);
object_skiplists[SERVICEDEPENDENCY_SKIPLIST] = skiplist_new(15, 0.5, TRUE, FALSE, skiplist_compare_servicedependency);
return OK;
}
int free_object_skiplists(void) {
int x = 0;
for(x = 0; x < NUM_OBJECT_SKIPLISTS; x++)
skiplist_free(&object_skiplists[x]);
return OK;
}
int skiplist_compare_text(const char *val1a, const char *val1b, const char *val2a, const char *val2b) {
int result = 0;
/* check first name */
if(val1a == NULL && val2a == NULL)
result = 0;
else if(val1a == NULL)
result = 1;
else if(val2a == NULL)
result = -1;
else
result = strcmp(val1a, val2a);
/* check second name if necessary */
if(result == 0) {
if(val1b == NULL && val2b == NULL)
result = 0;
else if(val1b == NULL)
result = 1;
else if(val2b == NULL)
result = -1;
else
result = strcmp(val1b, val2b);
}
return result;
}
int skiplist_compare_host(void *a, void *b) {
host *oa = NULL;
host *ob = NULL;
oa = (host *)a;
ob = (host *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->name, NULL, ob->name, NULL);
}
int skiplist_compare_service(void *a, void *b) {
service *oa = NULL;
service *ob = NULL;
oa = (service *)a;
ob = (service *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->host_name, oa->description, ob->host_name, ob->description);
}
int skiplist_compare_command(void *a, void *b) {
command *oa = NULL;
command *ob = NULL;
oa = (command *)a;
ob = (command *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->name, NULL, ob->name, NULL);
}
int skiplist_compare_timeperiod(void *a, void *b) {
timeperiod *oa = NULL;
timeperiod *ob = NULL;
oa = (timeperiod *)a;
ob = (timeperiod *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->name, NULL, ob->name, NULL);
}
int skiplist_compare_contact(void *a, void *b) {
contact *oa = NULL;
contact *ob = NULL;
oa = (contact *)a;
ob = (contact *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->name, NULL, ob->name, NULL);
}
int skiplist_compare_contactgroup(void *a, void *b) {
contactgroup *oa = NULL;
contactgroup *ob = NULL;
oa = (contactgroup *)a;
ob = (contactgroup *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->group_name, NULL, ob->group_name, NULL);
}
int skiplist_compare_hostgroup(void *a, void *b) {
hostgroup *oa = NULL;
hostgroup *ob = NULL;
oa = (hostgroup *)a;
ob = (hostgroup *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->group_name, NULL, ob->group_name, NULL);
}
int skiplist_compare_servicegroup(void *a, void *b) {
servicegroup *oa = NULL;
servicegroup *ob = NULL;
oa = (servicegroup *)a;
ob = (servicegroup *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->group_name, NULL, ob->group_name, NULL);
}
int skiplist_compare_hostescalation(void *a, void *b) {
hostescalation *oa = NULL;
hostescalation *ob = NULL;
oa = (hostescalation *)a;
ob = (hostescalation *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->host_name, NULL, ob->host_name, NULL);
}
int skiplist_compare_serviceescalation(void *a, void *b) {
serviceescalation *oa = NULL;
serviceescalation *ob = NULL;
oa = (serviceescalation *)a;
ob = (serviceescalation *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->host_name, oa->description, ob->host_name, ob->description);
}
int skiplist_compare_hostdependency(void *a, void *b) {
hostdependency *oa = NULL;
hostdependency *ob = NULL;
oa = (hostdependency *)a;
ob = (hostdependency *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->dependent_host_name, NULL, ob->dependent_host_name, NULL);
}
int skiplist_compare_servicedependency(void *a, void *b) {
servicedependency *oa = NULL;
servicedependency *ob = NULL;
oa = (servicedependency *)a;
ob = (servicedependency *)b;
if(oa == NULL && ob == NULL)
return 0;
if(oa == NULL)
return 1;
if(ob == NULL)
return -1;
return skiplist_compare_text(oa->dependent_host_name, oa->dependent_service_description, ob->dependent_host_name, ob->dependent_service_description);
}
int get_host_count(void) {
if(object_skiplists[HOST_SKIPLIST])
return object_skiplists[HOST_SKIPLIST]->items;
return 0;
}
int get_service_count(void) {
if(object_skiplists[SERVICE_SKIPLIST])
return object_skiplists[SERVICE_SKIPLIST]->items;
return 0;
}
/******************************************************************/
/**************** OBJECT ADDITION FUNCTIONS ***********************/
/******************************************************************/
/* add a new timeperiod to the list in memory */
timeperiod *add_timeperiod(char *name, char *alias) {
timeperiod *new_timeperiod = NULL;
int result = OK;
/* make sure we have the data we need */
if((name == NULL || !strcmp(name, "")) || (alias == NULL || !strcmp(alias, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Name or alias for timeperiod is NULL\n");
return NULL;
}
/* allocate memory for the new timeperiod */
if((new_timeperiod = calloc(1, sizeof(timeperiod))) == NULL)
return NULL;
/* copy string vars */
if((new_timeperiod->name = (char *)strdup(name)) == NULL)
result = ERROR;
if((new_timeperiod->alias = (char *)strdup(alias)) == NULL)
result = ERROR;
/* add new timeperiod to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[TIMEPERIOD_SKIPLIST], (void *)new_timeperiod);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Timeperiod '%s' has already been defined\n", name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add timeperiod '%s' to skiplist\n", name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_timeperiod->alias);
my_free(new_timeperiod->name);
my_free(new_timeperiod);
return NULL;
}
/* timeperiods are registered alphabetically, so add new items to tail of list */
if(timeperiod_list == NULL) {
timeperiod_list = new_timeperiod;
timeperiod_list_tail = timeperiod_list;
}
else {
timeperiod_list_tail->next = new_timeperiod;
timeperiod_list_tail = new_timeperiod;
}
return new_timeperiod;
}
/* adds a new exclusion to a timeperiod */
timeperiodexclusion *add_exclusion_to_timeperiod(timeperiod *period, char *name) {
timeperiodexclusion *new_timeperiodexclusion = NULL;
/* make sure we have enough data */
if(period == NULL || name == NULL)
return NULL;
if((new_timeperiodexclusion = (timeperiodexclusion *)malloc(sizeof(timeperiodexclusion))) == NULL)
return NULL;
new_timeperiodexclusion->timeperiod_name = (char *)strdup(name);
new_timeperiodexclusion->next = period->exclusions;
period->exclusions = new_timeperiodexclusion;
return new_timeperiodexclusion;
}
/* add a new timerange to a timeperiod */
timerange *add_timerange_to_timeperiod(timeperiod *period, int day, unsigned long start_time, unsigned long end_time) {
timerange *new_timerange = NULL;
/* make sure we have the data we need */
if(period == NULL)
return NULL;
if(day < 0 || day > 6) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Day %d is not valid for timeperiod '%s'\n", day, period->name);
return NULL;
}
if(start_time < 0 || start_time > 86400) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Start time %lu on day %d is not valid for timeperiod '%s'\n", start_time, day, period->name);
return NULL;
}
if(end_time < 0 || end_time > 86400) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: End time %lu on day %d is not value for timeperiod '%s'\n", end_time, day, period->name);
return NULL;
}
/* allocate memory for the new time range */
if((new_timerange = malloc(sizeof(timerange))) == NULL)
return NULL;
new_timerange->range_start = start_time;
new_timerange->range_end = end_time;
/* add the new time range to the head of the range list for this day */
new_timerange->next = period->days[day];
period->days[day] = new_timerange;
return new_timerange;
}
/* add a new exception to a timeperiod */
daterange *add_exception_to_timeperiod(timeperiod *period, int type, int syear, int smon, int smday, int swday, int swday_offset, int eyear, int emon, int emday, int ewday, int ewday_offset, int skip_interval) {
daterange *new_daterange = NULL;
/* make sure we have the data we need */
if(period == NULL)
return NULL;
/* allocate memory for the date range range */
if((new_daterange = malloc(sizeof(daterange))) == NULL)
return NULL;
new_daterange->times = NULL;
new_daterange->next = NULL;
new_daterange->type = type;
new_daterange->syear = syear;
new_daterange->smon = smon;
new_daterange->smday = smday;
new_daterange->swday = swday;
new_daterange->swday_offset = swday_offset;
new_daterange->eyear = eyear;
new_daterange->emon = emon;
new_daterange->emday = emday;
new_daterange->ewday = ewday;
new_daterange->ewday_offset = ewday_offset;
new_daterange->skip_interval = skip_interval;
/* add the new date range to the head of the range list for this exception type */
new_daterange->next = period->exceptions[type];
period->exceptions[type] = new_daterange;
return new_daterange;
}
/* add a new timerange to a daterange */
timerange *add_timerange_to_daterange(daterange *drange, unsigned long start_time, unsigned long end_time) {
timerange *new_timerange = NULL;
/* make sure we have the data we need */
if(drange == NULL)
return NULL;
if(start_time < 0 || start_time > 86400) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Start time %lu is not valid for timeperiod\n", start_time);
return NULL;
}
if(end_time < 0 || end_time > 86400) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: End time %lu is not value for timeperiod\n", end_time);
return NULL;
}
/* allocate memory for the new time range */
if((new_timerange = malloc(sizeof(timerange))) == NULL)
return NULL;
new_timerange->range_start = start_time;
new_timerange->range_end = end_time;
/* add the new time range to the head of the range list for this date range */
new_timerange->next = drange->times;
drange->times = new_timerange;
return new_timerange;
}
/* add a new host definition */
host *add_host(char *name, char *display_name, char *alias, char *address, char *check_period, int initial_state, double check_interval, double retry_interval, int max_attempts, int notify_up, int notify_down, int notify_unreachable, int notify_flapping, int notify_downtime, double notification_interval, double first_notification_delay, char *notification_period, int notifications_enabled, char *check_command, int checks_enabled, int accept_passive_checks, char *event_handler, int event_handler_enabled, int flap_detection_enabled, double low_flap_threshold, double high_flap_threshold, int flap_detection_on_up, int flap_detection_on_down, int flap_detection_on_unreachable, int stalk_on_up, int stalk_on_down, int stalk_on_unreachable, int process_perfdata, int failure_prediction_enabled, char *failure_prediction_options, int check_freshness, int freshness_threshold, char *notes, char *notes_url, char *action_url, char *icon_image, char *icon_image_alt, char *vrml_image, char *statusmap_image, int x_2d, int y_2d, int have_2d_coords, double x_3d, double y_3d, double z_3d, int have_3d_coords, int should_be_drawn, int retain_status_information, int retain_nonstatus_information, int obsess_over_host) {
host *new_host = NULL;
int result = OK;
#ifdef NSCORE
int x = 0;
#endif
/* make sure we have the data we need */
if((name == NULL || !strcmp(name, "")) || (address == NULL || !strcmp(address, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Host name or address is NULL\n");
return NULL;
}
/* check values */
if(max_attempts <= 0) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Invalid max_check_attempts value for host '%s'\n", name);
return NULL;
}
if(check_interval < 0) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Invalid check_interval value for host '%s'\n", name);
return NULL;
}
if(notification_interval < 0) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Invalid notification_interval value for host '%s'\n", name);
return NULL;
}
if(first_notification_delay < 0) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Invalid first_notification_delay value for host '%s'\n", name);
return NULL;
}
if(freshness_threshold < 0) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Invalid freshness_threshold value for host '%s'\n", name);
return NULL;
}
/* allocate memory for a new host */
if((new_host = (host *)calloc(1, sizeof(host))) == NULL)
return NULL;
/* duplicate string vars */
if((new_host->name = (char *)strdup(name)) == NULL)
result = ERROR;
if((new_host->display_name = (char *)strdup((display_name == NULL) ? name : display_name)) == NULL)
result = ERROR;
if((new_host->alias = (char *)strdup((alias == NULL) ? name : alias)) == NULL)
result = ERROR;
if((new_host->address = (char *)strdup(address)) == NULL)
result = ERROR;
if(check_period) {
if((new_host->check_period = (char *)strdup(check_period)) == NULL)
result = ERROR;
}
if(notification_period) {
if((new_host->notification_period = (char *)strdup(notification_period)) == NULL)
result = ERROR;
}
if(check_command) {
if((new_host->host_check_command = (char *)strdup(check_command)) == NULL)
result = ERROR;
}
if(event_handler) {
if((new_host->event_handler = (char *)strdup(event_handler)) == NULL)
result = ERROR;
}
if(failure_prediction_options) {
if((new_host->failure_prediction_options = (char *)strdup(failure_prediction_options)) == NULL)
result = ERROR;
}
if(notes) {
if((new_host->notes = (char *)strdup(notes)) == NULL)
result = ERROR;
}
if(notes_url) {
if((new_host->notes_url = (char *)strdup(notes_url)) == NULL)
result = ERROR;
}
if(action_url) {
if((new_host->action_url = (char *)strdup(action_url)) == NULL)
result = ERROR;
}
if(icon_image) {
if((new_host->icon_image = (char *)strdup(icon_image)) == NULL)
result = ERROR;
}
if(icon_image_alt) {
if((new_host->icon_image_alt = (char *)strdup(icon_image_alt)) == NULL)
result = ERROR;
}
if(vrml_image) {
if((new_host->vrml_image = (char *)strdup(vrml_image)) == NULL)
result = ERROR;
}
if(statusmap_image) {
if((new_host->statusmap_image = (char *)strdup(statusmap_image)) == NULL)
result = ERROR;
}
/* duplicate non-string vars */
new_host->max_attempts = max_attempts;
new_host->check_interval = check_interval;
new_host->retry_interval = retry_interval;
new_host->notification_interval = notification_interval;
new_host->first_notification_delay = first_notification_delay;
new_host->notify_on_recovery = (notify_up > 0) ? TRUE : FALSE;
new_host->notify_on_down = (notify_down > 0) ? TRUE : FALSE;
new_host->notify_on_unreachable = (notify_unreachable > 0) ? TRUE : FALSE;
new_host->notify_on_flapping = (notify_flapping > 0) ? TRUE : FALSE;
new_host->notify_on_downtime = (notify_downtime > 0) ? TRUE : FALSE;
new_host->flap_detection_enabled = (flap_detection_enabled > 0) ? TRUE : FALSE;
new_host->low_flap_threshold = low_flap_threshold;
new_host->high_flap_threshold = high_flap_threshold;
new_host->flap_detection_on_up = (flap_detection_on_up > 0) ? TRUE : FALSE;
new_host->flap_detection_on_down = (flap_detection_on_down > 0) ? TRUE : FALSE;
new_host->flap_detection_on_unreachable = (flap_detection_on_unreachable > 0) ? TRUE : FALSE;
new_host->stalk_on_up = (stalk_on_up > 0) ? TRUE : FALSE;
new_host->stalk_on_down = (stalk_on_down > 0) ? TRUE : FALSE;
new_host->stalk_on_unreachable = (stalk_on_unreachable > 0) ? TRUE : FALSE;
new_host->process_performance_data = (process_perfdata > 0) ? TRUE : FALSE;
new_host->check_freshness = (check_freshness > 0) ? TRUE : FALSE;
new_host->freshness_threshold = freshness_threshold;
new_host->checks_enabled = (checks_enabled > 0) ? TRUE : FALSE;
new_host->accept_passive_host_checks = (accept_passive_checks > 0) ? TRUE : FALSE;
new_host->event_handler_enabled = (event_handler_enabled > 0) ? TRUE : FALSE;
new_host->failure_prediction_enabled = (failure_prediction_enabled > 0) ? TRUE : FALSE;
new_host->x_2d = x_2d;
new_host->y_2d = y_2d;
new_host->have_2d_coords = (have_2d_coords > 0) ? TRUE : FALSE;
new_host->x_3d = x_3d;
new_host->y_3d = y_3d;
new_host->z_3d = z_3d;
new_host->have_3d_coords = (have_3d_coords > 0) ? TRUE : FALSE;
new_host->should_be_drawn = (should_be_drawn > 0) ? TRUE : FALSE;
new_host->obsess_over_host = (obsess_over_host > 0) ? TRUE : FALSE;
new_host->retain_status_information = (retain_status_information > 0) ? TRUE : FALSE;
new_host->retain_nonstatus_information = (retain_nonstatus_information > 0) ? TRUE : FALSE;
#ifdef NSCORE
new_host->current_state = initial_state;
new_host->current_event_id = 0L;
new_host->last_event_id = 0L;
new_host->current_problem_id = 0L;
new_host->last_problem_id = 0L;
new_host->last_state = initial_state;
new_host->last_hard_state = initial_state;
new_host->check_type = HOST_CHECK_ACTIVE;
new_host->last_host_notification = (time_t)0;
new_host->next_host_notification = (time_t)0;
new_host->next_check = (time_t)0;
new_host->should_be_scheduled = TRUE;
new_host->last_check = (time_t)0;
new_host->current_attempt = (initial_state == HOST_UP) ? 1 : max_attempts;
new_host->state_type = HARD_STATE;
new_host->execution_time = 0.0;
new_host->is_executing = FALSE;
new_host->latency = 0.0;
new_host->last_state_change = (time_t)0;
new_host->last_hard_state_change = (time_t)0;
new_host->last_time_up = (time_t)0;
new_host->last_time_down = (time_t)0;
new_host->last_time_unreachable = (time_t)0;
new_host->has_been_checked = FALSE;
new_host->is_being_freshened = FALSE;
new_host->problem_has_been_acknowledged = FALSE;
new_host->acknowledgement_type = ACKNOWLEDGEMENT_NONE;
new_host->notifications_enabled = (notifications_enabled > 0) ? TRUE : FALSE;
new_host->notified_on_down = FALSE;
new_host->notified_on_unreachable = FALSE;
new_host->current_notification_number = 0;
new_host->current_notification_id = 0L;
new_host->no_more_notifications = FALSE;
new_host->check_flapping_recovery_notification = FALSE;
new_host->scheduled_downtime_depth = 0;
new_host->check_options = CHECK_OPTION_NONE;
new_host->pending_flex_downtime = 0;
for(x = 0; x < MAX_STATE_HISTORY_ENTRIES; x++)
new_host->state_history[x] = STATE_OK;
new_host->state_history_index = 0;
new_host->last_state_history_update = (time_t)0;
new_host->is_flapping = FALSE;
new_host->flapping_comment_id = 0;
new_host->percent_state_change = 0.0;
new_host->total_services = 0;
new_host->total_service_check_interval = 0L;
new_host->modified_attributes = MODATTR_NONE;
new_host->circular_path_checked = FALSE;
new_host->contains_circular_path = FALSE;
#endif
/* add new host to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[HOST_SKIPLIST], (void *)new_host);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Host '%s' has already been defined\n", name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add host '%s' to skiplist\n", name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
#ifdef NSCORE
my_free(new_host->plugin_output);
my_free(new_host->long_plugin_output);
my_free(new_host->perf_data);
#endif
my_free(new_host->statusmap_image);
my_free(new_host->vrml_image);
my_free(new_host->icon_image_alt);
my_free(new_host->icon_image);
my_free(new_host->action_url);
my_free(new_host->notes_url);
my_free(new_host->notes);
my_free(new_host->failure_prediction_options);
my_free(new_host->event_handler);
my_free(new_host->host_check_command);
my_free(new_host->notification_period);
my_free(new_host->check_period);
my_free(new_host->address);
my_free(new_host->alias);
my_free(new_host->display_name);
my_free(new_host->name);
my_free(new_host);
return NULL;
}
/* hosts are sorted alphabetically, so add new items to tail of list */
if(host_list == NULL) {
host_list = new_host;
host_list_tail = host_list;
}
else {
host_list_tail->next = new_host;
host_list_tail = new_host;
}
return new_host;
}
hostsmember *add_parent_host_to_host(host *hst, char *host_name) {
hostsmember *new_hostsmember = NULL;
int result = OK;
/* make sure we have the data we need */
if(hst == NULL || host_name == NULL || !strcmp(host_name, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Host is NULL or parent host name is NULL\n");
return NULL;
}
/* a host cannot be a parent/child of itself */
if(!strcmp(host_name, hst->name)) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Host '%s' cannot be a child/parent of itself\n", hst->name);
return NULL;
}
/* allocate memory */
if((new_hostsmember = (hostsmember *)calloc(1, sizeof(hostsmember))) == NULL)
return NULL;
/* duplicate string vars */
if((new_hostsmember->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_hostsmember->host_name);
my_free(new_hostsmember);
return NULL;
}
/* add the parent host entry to the host definition */
new_hostsmember->next = hst->parent_hosts;
hst->parent_hosts = new_hostsmember;
return new_hostsmember;
}
hostsmember *add_child_link_to_host(host *hst, host *child_ptr) {
hostsmember *new_hostsmember = NULL;
/* make sure we have the data we need */
if(hst == NULL || child_ptr == NULL)
return NULL;
/* allocate memory */
if((new_hostsmember = (hostsmember *)malloc(sizeof(hostsmember))) == NULL)
return NULL;
/* initialize values */
new_hostsmember->host_name = NULL;
#ifdef NSCORE
new_hostsmember->host_ptr = child_ptr;
#endif
/* add the child entry to the host definition */
new_hostsmember->next = hst->child_hosts;
hst->child_hosts = new_hostsmember;
return new_hostsmember;
}
servicesmember *add_service_link_to_host(host *hst, service *service_ptr) {
servicesmember *new_servicesmember = NULL;
/* make sure we have the data we need */
if(hst == NULL || service_ptr == NULL)
return NULL;
/* allocate memory */
if((new_servicesmember = (servicesmember *)calloc(1, sizeof(servicesmember))) == NULL)
return NULL;
/* initialize values */
#ifdef NSCORE
new_servicesmember->service_ptr = service_ptr;
#endif
/* add the child entry to the host definition */
new_servicesmember->next = hst->services;
hst->services = new_servicesmember;
return new_servicesmember;
}
/* add a new contactgroup to a host */
contactgroupsmember *add_contactgroup_to_host(host *hst, char *group_name) {
contactgroupsmember *new_contactgroupsmember = NULL;
int result = OK;
/* make sure we have the data we need */
if(hst == NULL || (group_name == NULL || !strcmp(group_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Host or contactgroup member is NULL\n");
return NULL;
}
/* allocate memory for a new member */
if((new_contactgroupsmember = calloc(1, sizeof(contactgroupsmember))) == NULL)
return NULL;
/* duplicate string vars */
if((new_contactgroupsmember->group_name = (char *)strdup(group_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_contactgroupsmember->group_name);
my_free(new_contactgroupsmember);
return NULL;
}
/* add the new member to the head of the member list */
new_contactgroupsmember->next = hst->contact_groups;
hst->contact_groups = new_contactgroupsmember;;
return new_contactgroupsmember;
}
/* adds a contact to a host */
contactsmember *add_contact_to_host(host *hst, char *contact_name) {
return add_contact_to_object(&hst->contacts, contact_name);
}
/* adds a custom variable to a host */
customvariablesmember *add_custom_variable_to_host(host *hst, char *varname, char *varvalue) {
return add_custom_variable_to_object(&hst->custom_variables, varname, varvalue);
}
/* add a new host group to the list in memory */
hostgroup *add_hostgroup(char *name, char *alias, char *notes, char *notes_url, char *action_url) {
hostgroup *new_hostgroup = NULL;
int result = OK;
/* make sure we have the data we need */
if(name == NULL || !strcmp(name, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Hostgroup name is NULL\n");
return NULL;
}
/* allocate memory */
if((new_hostgroup = (hostgroup *)calloc(1, sizeof(hostgroup))) == NULL)
return NULL;
/* duplicate vars */
if((new_hostgroup->group_name = (char *)strdup(name)) == NULL)
result = ERROR;
if((new_hostgroup->alias = (char *)strdup((alias == NULL) ? name : alias)) == NULL)
result = ERROR;
if(notes) {
if((new_hostgroup->notes = (char *)strdup(notes)) == NULL)
result = ERROR;
}
if(notes_url) {
if((new_hostgroup->notes_url = (char *)strdup(notes_url)) == NULL)
result = ERROR;
}
if(action_url) {
if((new_hostgroup->action_url = (char *)strdup(action_url)) == NULL)
result = ERROR;
}
/* add new host group to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[HOSTGROUP_SKIPLIST], (void *)new_hostgroup);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Hostgroup '%s' has already been defined\n", name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add hostgroup '%s' to skiplist\n", name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_hostgroup->alias);
my_free(new_hostgroup->group_name);
my_free(new_hostgroup);
return NULL;
}
/* hostgroups are sorted alphabetically, so add new items to tail of list */
if(hostgroup_list == NULL) {
hostgroup_list = new_hostgroup;
hostgroup_list_tail = hostgroup_list;
}
else {
hostgroup_list_tail->next = new_hostgroup;
hostgroup_list_tail = new_hostgroup;
}
return new_hostgroup;
}
/* add a new host to a host group */
hostsmember *add_host_to_hostgroup(hostgroup *temp_hostgroup, char *host_name) {
hostsmember *new_member = NULL;
hostsmember *last_member = NULL;
hostsmember *temp_member = NULL;
int result = OK;
/* make sure we have the data we need */
if(temp_hostgroup == NULL || (host_name == NULL || !strcmp(host_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Hostgroup or group member is NULL\n");
return NULL;
}
/* allocate memory for a new member */
if((new_member = calloc(1, sizeof(hostsmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_member->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_member->host_name);
my_free(new_member);
return NULL;
}
/* add the new member to the member list, sorted by host name */
last_member = temp_hostgroup->members;
for(temp_member = temp_hostgroup->members; temp_member != NULL; temp_member = temp_member->next) {
if(strcmp(new_member->host_name, temp_member->host_name) < 0) {
new_member->next = temp_member;
if(temp_member == temp_hostgroup->members)
temp_hostgroup->members = new_member;
else
last_member->next = new_member;
break;
}
else
last_member = temp_member;
}
if(temp_hostgroup->members == NULL) {
new_member->next = NULL;
temp_hostgroup->members = new_member;
}
else if(temp_member == NULL) {
new_member->next = NULL;
last_member->next = new_member;
}
return new_member;
}
/* add a new service group to the list in memory */
servicegroup *add_servicegroup(char *name, char *alias, char *notes, char *notes_url, char *action_url) {
servicegroup *new_servicegroup = NULL;
int result = OK;
/* make sure we have the data we need */
if(name == NULL || !strcmp(name, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Servicegroup name is NULL\n");
return NULL;
}
/* allocate memory */
if((new_servicegroup = (servicegroup *)calloc(1, sizeof(servicegroup))) == NULL)
return NULL;
/* duplicate vars */
if((new_servicegroup->group_name = (char *)strdup(name)) == NULL)
result = ERROR;
if((new_servicegroup->alias = (char *)strdup((alias == NULL) ? name : alias)) == NULL)
result = ERROR;
if(notes) {
if((new_servicegroup->notes = (char *)strdup(notes)) == NULL)
result = ERROR;
}
if(notes_url) {
if((new_servicegroup->notes_url = (char *)strdup(notes_url)) == NULL)
result = ERROR;
}
if(action_url) {
if((new_servicegroup->action_url = (char *)strdup(action_url)) == NULL)
result = ERROR;
}
/* add new service group to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[SERVICEGROUP_SKIPLIST], (void *)new_servicegroup);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Servicegroup '%s' has already been defined\n", name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add servicegroup '%s' to skiplist\n", name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_servicegroup->alias);
my_free(new_servicegroup->group_name);
my_free(new_servicegroup);
return NULL;
}
/* servicegroups are sorted alphabetically, so add new items to tail of list */
if(servicegroup_list == NULL) {
servicegroup_list = new_servicegroup;
servicegroup_list_tail = servicegroup_list;
}
else {
servicegroup_list_tail->next = new_servicegroup;
servicegroup_list_tail = new_servicegroup;
}
return new_servicegroup;
}
/* add a new service to a service group */
servicesmember *add_service_to_servicegroup(servicegroup *temp_servicegroup, char *host_name, char *svc_description) {
servicesmember *new_member = NULL;
servicesmember *last_member = NULL;
servicesmember *temp_member = NULL;
int result = OK;
/* make sure we have the data we need */
if(temp_servicegroup == NULL || (host_name == NULL || !strcmp(host_name, "")) || (svc_description == NULL || !strcmp(svc_description, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Servicegroup or group member is NULL\n");
return NULL;
}
/* allocate memory for a new member */
if((new_member = calloc(1, sizeof(servicesmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_member->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
if((new_member->service_description = (char *)strdup(svc_description)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_member->service_description);
my_free(new_member->host_name);
my_free(new_member);
return NULL;
}
/* add new member to member list, sorted by host name then service description */
last_member = temp_servicegroup->members;
for(temp_member = temp_servicegroup->members; temp_member != NULL; temp_member = temp_member->next) {
if(strcmp(new_member->host_name, temp_member->host_name) < 0) {
new_member->next = temp_member;
if(temp_member == temp_servicegroup->members)
temp_servicegroup->members = new_member;
else
last_member->next = new_member;
break;
}
else if(strcmp(new_member->host_name, temp_member->host_name) == 0 && strcmp(new_member->service_description, temp_member->service_description) < 0) {
new_member->next = temp_member;
if(temp_member == temp_servicegroup->members)
temp_servicegroup->members = new_member;
else
last_member->next = new_member;
break;
}
else
last_member = temp_member;
}
if(temp_servicegroup->members == NULL) {
new_member->next = NULL;
temp_servicegroup->members = new_member;
}
else if(temp_member == NULL) {
new_member->next = NULL;
last_member->next = new_member;
}
return new_member;
}
/* add a new contact to the list in memory */
contact *add_contact(char *name, char *alias, char *email, char *pager, char **addresses, char *svc_notification_period, char *host_notification_period, int notify_service_ok, int notify_service_critical, int notify_service_warning, int notify_service_unknown, int notify_service_flapping, int notify_service_downtime, int notify_host_up, int notify_host_down, int notify_host_unreachable, int notify_host_flapping, int notify_host_downtime, int host_notifications_enabled, int service_notifications_enabled, int can_submit_commands, int retain_status_information, int retain_nonstatus_information) {
contact *new_contact = NULL;
int x = 0;
int result = OK;
/* make sure we have the data we need */
if(name == NULL || !strcmp(name, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contact name is NULL\n");
return NULL;
}
/* allocate memory for a new contact */
if((new_contact = (contact *)calloc(1, sizeof(contact))) == NULL)
return NULL;
/* duplicate vars */
if((new_contact->name = (char *)strdup(name)) == NULL)
result = ERROR;
if((new_contact->alias = (char *)strdup((alias == NULL) ? name : alias)) == NULL)
result = ERROR;
if(email) {
if((new_contact->email = (char *)strdup(email)) == NULL)
result = ERROR;
}
if(pager) {
if((new_contact->pager = (char *)strdup(pager)) == NULL)
result = ERROR;
}
if(svc_notification_period) {
if((new_contact->service_notification_period = (char *)strdup(svc_notification_period)) == NULL)
result = ERROR;
}
if(host_notification_period) {
if((new_contact->host_notification_period = (char *)strdup(host_notification_period)) == NULL)
result = ERROR;
}
if(addresses) {
for(x = 0; x < MAX_CONTACT_ADDRESSES; x++) {
if(addresses[x]) {
if((new_contact->address[x] = (char *)strdup(addresses[x])) == NULL)
result = ERROR;
}
}
}
new_contact->notify_on_service_recovery = (notify_service_ok > 0) ? TRUE : FALSE;
new_contact->notify_on_service_critical = (notify_service_critical > 0) ? TRUE : FALSE;
new_contact->notify_on_service_warning = (notify_service_warning > 0) ? TRUE : FALSE;
new_contact->notify_on_service_unknown = (notify_service_unknown > 0) ? TRUE : FALSE;
new_contact->notify_on_service_flapping = (notify_service_flapping > 0) ? TRUE : FALSE;
new_contact->notify_on_service_downtime = (notify_service_downtime > 0) ? TRUE : FALSE;
new_contact->notify_on_host_recovery = (notify_host_up > 0) ? TRUE : FALSE;
new_contact->notify_on_host_down = (notify_host_down > 0) ? TRUE : FALSE;
new_contact->notify_on_host_unreachable = (notify_host_unreachable > 0) ? TRUE : FALSE;
new_contact->notify_on_host_flapping = (notify_host_flapping > 0) ? TRUE : FALSE;
new_contact->notify_on_host_downtime = (notify_host_downtime > 0) ? TRUE : FALSE;
new_contact->host_notifications_enabled = (host_notifications_enabled > 0) ? TRUE : FALSE;
new_contact->service_notifications_enabled = (service_notifications_enabled > 0) ? TRUE : FALSE;
new_contact->can_submit_commands = (can_submit_commands > 0) ? TRUE : FALSE;
new_contact->retain_status_information = (retain_status_information > 0) ? TRUE : FALSE;
new_contact->retain_nonstatus_information = (retain_nonstatus_information > 0) ? TRUE : FALSE;
#ifdef NSCORE
new_contact->last_host_notification = (time_t)0L;
new_contact->last_service_notification = (time_t)0L;
new_contact->modified_attributes = MODATTR_NONE;
new_contact->modified_host_attributes = MODATTR_NONE;
new_contact->modified_service_attributes = MODATTR_NONE;
new_contact->host_notification_period_ptr = NULL;
new_contact->service_notification_period_ptr = NULL;
new_contact->contactgroups_ptr = NULL;
#endif
/* add new contact to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[CONTACT_SKIPLIST], (void *)new_contact);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contact '%s' has already been defined\n", name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add contact '%s' to skiplist\n", name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
for(x = 0; x < MAX_CONTACT_ADDRESSES; x++)
my_free(new_contact->address[x]);
my_free(new_contact->name);
my_free(new_contact->alias);
my_free(new_contact->email);
my_free(new_contact->pager);
my_free(new_contact->service_notification_period);
my_free(new_contact->host_notification_period);
my_free(new_contact);
return NULL;
}
/* contacts are sorted alphabetically, so add new items to tail of list */
if(contact_list == NULL) {
contact_list = new_contact;
contact_list_tail = contact_list;
}
else {
contact_list_tail->next = new_contact;
contact_list_tail = new_contact;
}
return new_contact;
}
/* adds a host notification command to a contact definition */
commandsmember *add_host_notification_command_to_contact(contact *cntct, char *command_name) {
commandsmember *new_commandsmember = NULL;
int result = OK;
/* make sure we have the data we need */
if(cntct == NULL || (command_name == NULL || !strcmp(command_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contact or host notification command is NULL\n");
return NULL;
}
/* allocate memory */
if((new_commandsmember = calloc(1, sizeof(commandsmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_commandsmember->command = (char *)strdup(command_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_commandsmember->command);
my_free(new_commandsmember);
return NULL;
}
/* add the notification command */
new_commandsmember->next = cntct->host_notification_commands;
cntct->host_notification_commands = new_commandsmember;
return new_commandsmember;
}
/* adds a service notification command to a contact definition */
commandsmember *add_service_notification_command_to_contact(contact *cntct, char *command_name) {
commandsmember *new_commandsmember = NULL;
int result = OK;
/* make sure we have the data we need */
if(cntct == NULL || (command_name == NULL || !strcmp(command_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contact or service notification command is NULL\n");
return NULL;
}
/* allocate memory */
if((new_commandsmember = calloc(1, sizeof(commandsmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_commandsmember->command = (char *)strdup(command_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_commandsmember->command);
my_free(new_commandsmember);
return NULL;
}
/* add the notification command */
new_commandsmember->next = cntct->service_notification_commands;
cntct->service_notification_commands = new_commandsmember;
return new_commandsmember;
}
/* adds a custom variable to a contact */
customvariablesmember *add_custom_variable_to_contact(contact *cntct, char *varname, char *varvalue) {
return add_custom_variable_to_object(&cntct->custom_variables, varname, varvalue);
}
/* add a new contact group to the list in memory */
contactgroup *add_contactgroup(char *name, char *alias) {
contactgroup *new_contactgroup = NULL;
int result = OK;
/* make sure we have the data we need */
if(name == NULL || !strcmp(name, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contactgroup name is NULL\n");
return NULL;
}
/* allocate memory for a new contactgroup entry */
if((new_contactgroup = calloc(1, sizeof(contactgroup))) == NULL)
return NULL;
/* duplicate vars */
if((new_contactgroup->group_name = (char *)strdup(name)) == NULL)
result = ERROR;
if((new_contactgroup->alias = (char *)strdup((alias == NULL) ? name : alias)) == NULL)
result = ERROR;
/* add new contact group to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[CONTACTGROUP_SKIPLIST], (void *)new_contactgroup);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contactgroup '%s' has already been defined\n", name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add contactgroup '%s' to skiplist\n", name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_contactgroup->alias);
my_free(new_contactgroup->group_name);
my_free(new_contactgroup);
return NULL;
}
/* contactgroups are sorted alphabetically, so add new items to tail of list */
if(contactgroup_list == NULL) {
contactgroup_list = new_contactgroup;
contactgroup_list_tail = contactgroup_list;
}
else {
contactgroup_list_tail->next = new_contactgroup;
contactgroup_list_tail = new_contactgroup;
}
return new_contactgroup;
}
/* add a new member to a contact group */
contactsmember *add_contact_to_contactgroup(contactgroup *grp, char *contact_name) {
contactsmember *new_contactsmember = NULL;
int result = OK;
/* make sure we have the data we need */
if(grp == NULL || (contact_name == NULL || !strcmp(contact_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contactgroup or contact name is NULL\n");
return NULL;
}
/* allocate memory for a new member */
if((new_contactsmember = calloc(1, sizeof(contactsmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_contactsmember->contact_name = (char *)strdup(contact_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_contactsmember->contact_name);
my_free(new_contactsmember);
return NULL;
}
/* add the new member to the head of the member list */
new_contactsmember->next = grp->members;
grp->members = new_contactsmember;
return new_contactsmember;
}
/* add a new service to the list in memory */
service *add_service(char *host_name, char *description, char *display_name, char *check_period, int initial_state, int max_attempts, int parallelize, int accept_passive_checks, double check_interval, double retry_interval, double notification_interval, double first_notification_delay, char *notification_period, int notify_recovery, int notify_unknown, int notify_warning, int notify_critical, int notify_flapping, int notify_downtime, int notifications_enabled, int is_volatile, char *event_handler, int event_handler_enabled, char *check_command, int checks_enabled, int flap_detection_enabled, double low_flap_threshold, double high_flap_threshold, int flap_detection_on_ok, int flap_detection_on_warning, int flap_detection_on_unknown, int flap_detection_on_critical, int stalk_on_ok, int stalk_on_warning, int stalk_on_unknown, int stalk_on_critical, int process_perfdata, int failure_prediction_enabled, char *failure_prediction_options, int check_freshness, int freshness_threshold, char *notes, char *notes_url, char *action_url, char *icon_image, char *icon_image_alt, int retain_status_information, int retain_nonstatus_information, int obsess_over_service) {
service *new_service = NULL;
int result = OK;
#ifdef NSCORE
int x = 0;
#endif
/* make sure we have everything we need */
if((host_name == NULL || !strcmp(host_name, "")) || (description == NULL || !strcmp(description, "")) || (check_command == NULL || !strcmp(check_command, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Service description, host name, or check command is NULL\n");
return NULL;
}
/* check values */
if(max_attempts <= 0 || check_interval < 0 || retry_interval <= 0 || notification_interval < 0) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Invalid max_attempts, check_interval, retry_interval, or notification_interval value for service '%s' on host '%s'\n", description, host_name);
return NULL;
}
if(first_notification_delay < 0) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Invalid first_notification_delay value for service '%s' on host '%s'\n", description, host_name);
return NULL;
}
/* allocate memory */
if((new_service = (service *)calloc(1, sizeof(service))) == NULL)
return NULL;
/* duplicate vars */
if((new_service->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
if((new_service->description = (char *)strdup(description)) == NULL)
result = ERROR;
if((new_service->display_name = (char *)strdup((display_name == NULL) ? description : display_name)) == NULL)
result = ERROR;
if((new_service->service_check_command = (char *)strdup(check_command)) == NULL)
result = ERROR;
if(event_handler) {
if((new_service->event_handler = (char *)strdup(event_handler)) == NULL)
result = ERROR;
}
if(notification_period) {
if((new_service->notification_period = (char *)strdup(notification_period)) == NULL)
result = ERROR;
}
if(check_period) {
if((new_service->check_period = (char *)strdup(check_period)) == NULL)
result = ERROR;
}
if(failure_prediction_options) {
if((new_service->failure_prediction_options = (char *)strdup(failure_prediction_options)) == NULL)
result = ERROR;
}
if(notes) {
if((new_service->notes = (char *)strdup(notes)) == NULL)
result = ERROR;
}
if(notes_url) {
if((new_service->notes_url = (char *)strdup(notes_url)) == NULL)
result = ERROR;
}
if(action_url) {
if((new_service->action_url = (char *)strdup(action_url)) == NULL)
result = ERROR;
}
if(icon_image) {
if((new_service->icon_image = (char *)strdup(icon_image)) == NULL)
result = ERROR;
}
if(icon_image_alt) {
if((new_service->icon_image_alt = (char *)strdup(icon_image_alt)) == NULL)
result = ERROR;
}
new_service->check_interval = check_interval;
new_service->retry_interval = retry_interval;
new_service->max_attempts = max_attempts;
new_service->parallelize = (parallelize > 0) ? TRUE : FALSE;
new_service->notification_interval = notification_interval;
new_service->first_notification_delay = first_notification_delay;
new_service->notify_on_unknown = (notify_unknown > 0) ? TRUE : FALSE;
new_service->notify_on_warning = (notify_warning > 0) ? TRUE : FALSE;
new_service->notify_on_critical = (notify_critical > 0) ? TRUE : FALSE;
new_service->notify_on_recovery = (notify_recovery > 0) ? TRUE : FALSE;
new_service->notify_on_flapping = (notify_flapping > 0) ? TRUE : FALSE;
new_service->notify_on_downtime = (notify_downtime > 0) ? TRUE : FALSE;
new_service->is_volatile = (is_volatile > 0) ? TRUE : FALSE;
new_service->flap_detection_enabled = (flap_detection_enabled > 0) ? TRUE : FALSE;
new_service->low_flap_threshold = low_flap_threshold;
new_service->high_flap_threshold = high_flap_threshold;
new_service->flap_detection_on_ok = (flap_detection_on_ok > 0) ? TRUE : FALSE;
new_service->flap_detection_on_warning = (flap_detection_on_warning > 0) ? TRUE : FALSE;
new_service->flap_detection_on_unknown = (flap_detection_on_unknown > 0) ? TRUE : FALSE;
new_service->flap_detection_on_critical = (flap_detection_on_critical > 0) ? TRUE : FALSE;
new_service->stalk_on_ok = (stalk_on_ok > 0) ? TRUE : FALSE;
new_service->stalk_on_warning = (stalk_on_warning > 0) ? TRUE : FALSE;
new_service->stalk_on_unknown = (stalk_on_unknown > 0) ? TRUE : FALSE;
new_service->stalk_on_critical = (stalk_on_critical > 0) ? TRUE : FALSE;
new_service->process_performance_data = (process_perfdata > 0) ? TRUE : FALSE;
new_service->check_freshness = (check_freshness > 0) ? TRUE : FALSE;
new_service->freshness_threshold = freshness_threshold;
new_service->accept_passive_service_checks = (accept_passive_checks > 0) ? TRUE : FALSE;
new_service->event_handler_enabled = (event_handler_enabled > 0) ? TRUE : FALSE;
new_service->checks_enabled = (checks_enabled > 0) ? TRUE : FALSE;
new_service->retain_status_information = (retain_status_information > 0) ? TRUE : FALSE;
new_service->retain_nonstatus_information = (retain_nonstatus_information > 0) ? TRUE : FALSE;
new_service->notifications_enabled = (notifications_enabled > 0) ? TRUE : FALSE;
new_service->obsess_over_service = (obsess_over_service > 0) ? TRUE : FALSE;
new_service->failure_prediction_enabled = (failure_prediction_enabled > 0) ? TRUE : FALSE;
#ifdef NSCORE
new_service->problem_has_been_acknowledged = FALSE;
new_service->acknowledgement_type = ACKNOWLEDGEMENT_NONE;
new_service->check_type = SERVICE_CHECK_ACTIVE;
new_service->current_attempt = (initial_state == STATE_OK) ? 1 : max_attempts;
new_service->current_state = initial_state;
new_service->current_event_id = 0L;
new_service->last_event_id = 0L;
new_service->current_problem_id = 0L;
new_service->last_problem_id = 0L;
new_service->last_state = initial_state;
new_service->last_hard_state = initial_state;
new_service->state_type = HARD_STATE;
new_service->host_problem_at_last_check = FALSE;
new_service->check_flapping_recovery_notification = FALSE;
new_service->next_check = (time_t)0;
new_service->should_be_scheduled = TRUE;
new_service->last_check = (time_t)0;
new_service->last_notification = (time_t)0;
new_service->next_notification = (time_t)0;
new_service->no_more_notifications = FALSE;
new_service->last_state_change = (time_t)0;
new_service->last_hard_state_change = (time_t)0;
new_service->last_time_ok = (time_t)0;
new_service->last_time_warning = (time_t)0;
new_service->last_time_unknown = (time_t)0;
new_service->last_time_critical = (time_t)0;
new_service->has_been_checked = FALSE;
new_service->is_being_freshened = FALSE;
new_service->notified_on_unknown = FALSE;
new_service->notified_on_warning = FALSE;
new_service->notified_on_critical = FALSE;
new_service->current_notification_number = 0;
new_service->current_notification_id = 0L;
new_service->latency = 0.0;
new_service->execution_time = 0.0;
new_service->is_executing = FALSE;
new_service->check_options = CHECK_OPTION_NONE;
new_service->scheduled_downtime_depth = 0;
new_service->pending_flex_downtime = 0;
for(x = 0; x < MAX_STATE_HISTORY_ENTRIES; x++)
new_service->state_history[x] = STATE_OK;
new_service->state_history_index = 0;
new_service->is_flapping = FALSE;
new_service->flapping_comment_id = 0;
new_service->percent_state_change = 0.0;
new_service->modified_attributes = MODATTR_NONE;
#endif
/* add new service to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[SERVICE_SKIPLIST], (void *)new_service);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Service '%s' on host '%s' has already been defined\n", description, host_name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add service '%s' on host '%s' to skiplist\n", description, host_name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
#ifdef NSCORE
my_free(new_service->perf_data);
my_free(new_service->plugin_output);
my_free(new_service->long_plugin_output);
#endif
my_free(new_service->failure_prediction_options);
my_free(new_service->notification_period);
my_free(new_service->event_handler);
my_free(new_service->service_check_command);
my_free(new_service->description);
my_free(new_service->host_name);
my_free(new_service->display_name);
my_free(new_service);
return NULL;
}
/* services are sorted alphabetically, so add new items to tail of list */
if(service_list == NULL) {
service_list = new_service;
service_list_tail = service_list;
}
else {
service_list_tail->next = new_service;
service_list_tail = new_service;
}
return new_service;
}
/* adds a contact group to a service */
contactgroupsmember *add_contactgroup_to_service(service *svc, char *group_name) {
contactgroupsmember *new_contactgroupsmember = NULL;
int result = OK;
/* bail out if we weren't given the data we need */
if(svc == NULL || (group_name == NULL || !strcmp(group_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Service or contactgroup name is NULL\n");
return NULL;
}
/* allocate memory for the contactgroups member */
if((new_contactgroupsmember = calloc(1, sizeof(contactgroupsmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_contactgroupsmember->group_name = (char *)strdup(group_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_contactgroupsmember);
return NULL;
}
/* add this contactgroup to the service */
new_contactgroupsmember->next = svc->contact_groups;
svc->contact_groups = new_contactgroupsmember;
return new_contactgroupsmember;
}
/* adds a contact to a service */
contactsmember *add_contact_to_service(service *svc, char *contact_name) {
return add_contact_to_object(&svc->contacts, contact_name);
}
/* adds a custom variable to a service */
customvariablesmember *add_custom_variable_to_service(service *svc, char *varname, char *varvalue) {
return add_custom_variable_to_object(&svc->custom_variables, varname, varvalue);
}
/* add a new command to the list in memory */
command *add_command(char *name, char *value) {
command *new_command = NULL;
int result = OK;
/* make sure we have the data we need */
if((name == NULL || !strcmp(name, "")) || (value == NULL || !strcmp(value, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Command name of command line is NULL\n");
return NULL;
}
/* allocate memory for the new command */
if((new_command = (command *)calloc(1, sizeof(command))) == NULL)
return NULL;
/* duplicate vars */
if((new_command->name = (char *)strdup(name)) == NULL)
result = ERROR;
if((new_command->command_line = (char *)strdup(value)) == NULL)
result = ERROR;
/* add new command to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[COMMAND_SKIPLIST], (void *)new_command);
switch(result) {
case SKIPLIST_ERROR_DUPLICATE:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Command '%s' has already been defined\n", name);
result = ERROR;
break;
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add command '%s' to skiplist\n", name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_command->command_line);
my_free(new_command->name);
my_free(new_command);
return NULL;
}
/* commands are sorted alphabetically, so add new items to tail of list */
if(command_list == NULL) {
command_list = new_command;
command_list_tail = command_list;
}
else {
command_list_tail->next = new_command;
command_list_tail = new_command;
}
return new_command;
}
/* add a new service escalation to the list in memory */
serviceescalation *add_serviceescalation(char *host_name, char *description, int first_notification, int last_notification, double notification_interval, char *escalation_period, int escalate_on_warning, int escalate_on_unknown, int escalate_on_critical, int escalate_on_recovery) {
serviceescalation *new_serviceescalation = NULL;
int result = OK;
/* make sure we have the data we need */
if((host_name == NULL || !strcmp(host_name, "")) || (description == NULL || !strcmp(description, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Service escalation host name or description is NULL\n");
return NULL;
}
#ifdef TEST
printf("NEW SVC ESCALATION: %s/%s = %d/%d/%.3f\n", host_name, description, first_notification, last_notification, notification_interval);
#endif
/* allocate memory for a new service escalation entry */
if((new_serviceescalation = calloc(1, sizeof(serviceescalation))) == NULL)
return NULL;
/* duplicate vars */
if((new_serviceescalation->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
if((new_serviceescalation->description = (char *)strdup(description)) == NULL)
result = ERROR;
if(escalation_period) {
if((new_serviceescalation->escalation_period = (char *)strdup(escalation_period)) == NULL)
result = ERROR;
}
new_serviceescalation->first_notification = first_notification;
new_serviceescalation->last_notification = last_notification;
new_serviceescalation->notification_interval = (notification_interval <= 0) ? 0 : notification_interval;
new_serviceescalation->escalate_on_recovery = (escalate_on_recovery > 0) ? TRUE : FALSE;
new_serviceescalation->escalate_on_warning = (escalate_on_warning > 0) ? TRUE : FALSE;
new_serviceescalation->escalate_on_unknown = (escalate_on_unknown > 0) ? TRUE : FALSE;
new_serviceescalation->escalate_on_critical = (escalate_on_critical > 0) ? TRUE : FALSE;
/* add new serviceescalation to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[SERVICEESCALATION_SKIPLIST], (void *)new_serviceescalation);
switch(result) {
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add escalation for service '%s' on host '%s' to skiplist\n", description, host_name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_serviceescalation->host_name);
my_free(new_serviceescalation->description);
my_free(new_serviceescalation->escalation_period);
my_free(new_serviceescalation);
return NULL;
}
/* service escalations are sorted alphabetically, so add new items to tail of list */
if(serviceescalation_list == NULL) {
serviceescalation_list = new_serviceescalation;
serviceescalation_list_tail = serviceescalation_list;
}
else {
serviceescalation_list_tail->next = new_serviceescalation;
serviceescalation_list_tail = new_serviceescalation;
}
return new_serviceescalation;
}
/* adds a contact group to a service escalation */
contactgroupsmember *add_contactgroup_to_serviceescalation(serviceescalation *se, char *group_name) {
contactgroupsmember *new_contactgroupsmember = NULL;
int result = OK;
/* bail out if we weren't given the data we need */
if(se == NULL || (group_name == NULL || !strcmp(group_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Service escalation or contactgroup name is NULL\n");
return NULL;
}
/* allocate memory for the contactgroups member */
if((new_contactgroupsmember = (contactgroupsmember *)calloc(1, sizeof(contactgroupsmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_contactgroupsmember->group_name = (char *)strdup(group_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_contactgroupsmember->group_name);
my_free(new_contactgroupsmember);
return NULL;
}
/* add this contactgroup to the service escalation */
new_contactgroupsmember->next = se->contact_groups;
se->contact_groups = new_contactgroupsmember;
return new_contactgroupsmember;
}
/* adds a contact to a service escalation */
contactsmember *add_contact_to_serviceescalation(serviceescalation *se, char *contact_name) {
return add_contact_to_object(&se->contacts, contact_name);
}
/* adds a service dependency definition */
servicedependency *add_service_dependency(char *dependent_host_name, char *dependent_service_description, char *host_name, char *service_description, int dependency_type, int inherits_parent, int fail_on_ok, int fail_on_warning, int fail_on_unknown, int fail_on_critical, int fail_on_pending, char *dependency_period) {
servicedependency *new_servicedependency = NULL;
int result = OK;
/* make sure we have what we need */
if((host_name == NULL || !strcmp(host_name, "")) || (service_description == NULL || !strcmp(service_description, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: NULL master service description/host name in service dependency definition\n");
return NULL;
}
if((dependent_host_name == NULL || !strcmp(dependent_host_name, "")) || (dependent_service_description == NULL || !strcmp(dependent_service_description, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: NULL dependent service description/host name in service dependency definition\n");
return NULL;
}
/* allocate memory for a new service dependency entry */
if((new_servicedependency = (servicedependency *)calloc(1, sizeof(servicedependency))) == NULL)
return NULL;
/* duplicate vars */
if((new_servicedependency->dependent_host_name = (char *)strdup(dependent_host_name)) == NULL)
result = ERROR;
if((new_servicedependency->dependent_service_description = (char *)strdup(dependent_service_description)) == NULL)
result = ERROR;
if((new_servicedependency->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
if((new_servicedependency->service_description = (char *)strdup(service_description)) == NULL)
result = ERROR;
if(dependency_period) {
if((new_servicedependency->dependency_period = (char *)strdup(dependency_period)) == NULL)
result = ERROR;
}
new_servicedependency->dependency_type = (dependency_type == EXECUTION_DEPENDENCY) ? EXECUTION_DEPENDENCY : NOTIFICATION_DEPENDENCY;
new_servicedependency->inherits_parent = (inherits_parent > 0) ? TRUE : FALSE;
new_servicedependency->fail_on_ok = (fail_on_ok == 1) ? TRUE : FALSE;
new_servicedependency->fail_on_warning = (fail_on_warning == 1) ? TRUE : FALSE;
new_servicedependency->fail_on_unknown = (fail_on_unknown == 1) ? TRUE : FALSE;
new_servicedependency->fail_on_critical = (fail_on_critical == 1) ? TRUE : FALSE;
new_servicedependency->fail_on_pending = (fail_on_pending == 1) ? TRUE : FALSE;
#ifdef NSCORE
new_servicedependency->circular_path_checked = FALSE;
new_servicedependency->contains_circular_path = FALSE;
#endif
/* add new service dependency to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[SERVICEDEPENDENCY_SKIPLIST], (void *)new_servicedependency);
switch(result) {
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add service dependency to skiplist\n");
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_servicedependency->host_name);
my_free(new_servicedependency->service_description);
my_free(new_servicedependency->dependent_host_name);
my_free(new_servicedependency->dependent_service_description);
my_free(new_servicedependency);
return NULL;
}
/* service dependencies are sorted alphabetically, so add new items to tail of list */
if(servicedependency_list == NULL) {
servicedependency_list = new_servicedependency;
servicedependency_list_tail = servicedependency_list;
}
else {
servicedependency_list_tail->next = new_servicedependency;
servicedependency_list_tail = new_servicedependency;
}
return new_servicedependency;
}
/* adds a host dependency definition */
hostdependency *add_host_dependency(char *dependent_host_name, char *host_name, int dependency_type, int inherits_parent, int fail_on_up, int fail_on_down, int fail_on_unreachable, int fail_on_pending, char *dependency_period) {
hostdependency *new_hostdependency = NULL;
int result = OK;
/* make sure we have what we need */
if((dependent_host_name == NULL || !strcmp(dependent_host_name, "")) || (host_name == NULL || !strcmp(host_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: NULL host name in host dependency definition\n");
return NULL;
}
/* allocate memory for a new host dependency entry */
if((new_hostdependency = (hostdependency *)calloc(1, sizeof(hostdependency))) == NULL)
return NULL;
/* duplicate vars */
if((new_hostdependency->dependent_host_name = (char *)strdup(dependent_host_name)) == NULL)
result = ERROR;
if((new_hostdependency->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
if(dependency_period) {
if((new_hostdependency->dependency_period = (char *)strdup(dependency_period)) == NULL)
result = ERROR;
}
new_hostdependency->dependency_type = (dependency_type == EXECUTION_DEPENDENCY) ? EXECUTION_DEPENDENCY : NOTIFICATION_DEPENDENCY;
new_hostdependency->inherits_parent = (inherits_parent > 0) ? TRUE : FALSE;
new_hostdependency->fail_on_up = (fail_on_up == 1) ? TRUE : FALSE;
new_hostdependency->fail_on_down = (fail_on_down == 1) ? TRUE : FALSE;
new_hostdependency->fail_on_unreachable = (fail_on_unreachable == 1) ? TRUE : FALSE;
new_hostdependency->fail_on_pending = (fail_on_pending == 1) ? TRUE : FALSE;
#ifdef NSCORE
new_hostdependency->circular_path_checked = FALSE;
new_hostdependency->contains_circular_path = FALSE;
#endif
/* add new host dependency to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[HOSTDEPENDENCY_SKIPLIST], (void *)new_hostdependency);
switch(result) {
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add host dependency to skiplist\n");
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_hostdependency->host_name);
my_free(new_hostdependency->dependent_host_name);
my_free(new_hostdependency);
return NULL;
}
/* host dependencies are sorted alphabetically, so add new items to tail of list */
if(hostdependency_list == NULL) {
hostdependency_list = new_hostdependency;
hostdependency_list_tail = hostdependency_list;
}
else {
hostdependency_list_tail->next = new_hostdependency;
hostdependency_list_tail = new_hostdependency;
}
return new_hostdependency;
}
/* add a new host escalation to the list in memory */
hostescalation *add_hostescalation(char *host_name, int first_notification, int last_notification, double notification_interval, char *escalation_period, int escalate_on_down, int escalate_on_unreachable, int escalate_on_recovery) {
hostescalation *new_hostescalation = NULL;
int result = OK;
/* make sure we have the data we need */
if(host_name == NULL || !strcmp(host_name, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Host escalation host name is NULL\n");
return NULL;
}
#ifdef TEST
printf("NEW HST ESCALATION: %s = %d/%d/%.3f\n", host_name, first_notification, last_notification, notification_interval);
#endif
/* allocate memory for a new host escalation entry */
if((new_hostescalation = calloc(1, sizeof(hostescalation))) == NULL)
return NULL;
/* duplicate vars */
if((new_hostescalation->host_name = (char *)strdup(host_name)) == NULL)
result = ERROR;
if(escalation_period) {
if((new_hostescalation->escalation_period = (char *)strdup(escalation_period)) == NULL)
result = ERROR;
}
new_hostescalation->first_notification = first_notification;
new_hostescalation->last_notification = last_notification;
new_hostescalation->notification_interval = (notification_interval <= 0) ? 0 : notification_interval;
new_hostescalation->escalate_on_recovery = (escalate_on_recovery > 0) ? TRUE : FALSE;
new_hostescalation->escalate_on_down = (escalate_on_down > 0) ? TRUE : FALSE;
new_hostescalation->escalate_on_unreachable = (escalate_on_unreachable > 0) ? TRUE : FALSE;
/* add new hostescalation to skiplist */
if(result == OK) {
result = skiplist_insert(object_skiplists[HOSTESCALATION_SKIPLIST], (void *)new_hostescalation);
switch(result) {
case SKIPLIST_OK:
result = OK;
break;
default:
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not add hostescalation '%s' to skiplist\n", host_name);
result = ERROR;
break;
}
}
/* handle errors */
if(result == ERROR) {
my_free(new_hostescalation->host_name);
my_free(new_hostescalation->escalation_period);
my_free(new_hostescalation);
return NULL;
}
/* host escalations are sorted alphabetically, so add new items to tail of list */
if(hostescalation_list == NULL) {
hostescalation_list = new_hostescalation;
hostescalation_list_tail = hostescalation_list;
}
else {
hostescalation_list_tail->next = new_hostescalation;
hostescalation_list_tail = new_hostescalation;
}
return new_hostescalation;
}
/* adds a contact group to a host escalation */
contactgroupsmember *add_contactgroup_to_hostescalation(hostescalation *he, char *group_name) {
contactgroupsmember *new_contactgroupsmember = NULL;
int result = OK;
/* bail out if we weren't given the data we need */
if(he == NULL || (group_name == NULL || !strcmp(group_name, ""))) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Host escalation or contactgroup name is NULL\n");
return NULL;
}
/* allocate memory for the contactgroups member */
if((new_contactgroupsmember = (contactgroupsmember *)calloc(1, sizeof(contactgroupsmember))) == NULL)
return NULL;
/* duplicate vars */
if((new_contactgroupsmember->group_name = (char *)strdup(group_name)) == NULL)
result = ERROR;
/* handle errors */
if(result == ERROR) {
my_free(new_contactgroupsmember->group_name);
my_free(new_contactgroupsmember);
return NULL;
}
/* add this contactgroup to the host escalation */
new_contactgroupsmember->next = he->contact_groups;
he->contact_groups = new_contactgroupsmember;
return new_contactgroupsmember;
}
/* adds a contact to a host escalation */
contactsmember *add_contact_to_hostescalation(hostescalation *he, char *contact_name) {
return add_contact_to_object(&he->contacts, contact_name);
}
/* adds a contact to an object */
contactsmember *add_contact_to_object(contactsmember **object_ptr, char *contactname) {
contactsmember *new_contactsmember = NULL;
/* make sure we have the data we need */
if(object_ptr == NULL) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contact object is NULL\n");
return NULL;
}
if(contactname == NULL || !strcmp(contactname, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Contact name is NULL\n");
return NULL;
}
/* allocate memory for a new member */
if((new_contactsmember = malloc(sizeof(contactsmember))) == NULL) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not allocate memory for contact\n");
return NULL;
}
if((new_contactsmember->contact_name = (char *)strdup(contactname)) == NULL) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not allocate memory for contact name\n");
my_free(new_contactsmember);
return NULL;
}
/* set initial values */
#ifdef NSCORE
new_contactsmember->contact_ptr = NULL;
#endif
/* add the new contact to the head of the contact list */
new_contactsmember->next = *object_ptr;
*object_ptr = new_contactsmember;
return new_contactsmember;
}
/* adds a custom variable to an object */
customvariablesmember *add_custom_variable_to_object(customvariablesmember **object_ptr, char *varname, char *varvalue) {
customvariablesmember *new_customvariablesmember = NULL;
/* make sure we have the data we need */
if(object_ptr == NULL) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Custom variable object is NULL\n");
return NULL;
}
if(varname == NULL || !strcmp(varname, "")) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Custom variable name is NULL\n");
return NULL;
}
/* allocate memory for a new member */
if((new_customvariablesmember = malloc(sizeof(customvariablesmember))) == NULL) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not allocate memory for custom variable\n");
return NULL;
}
if((new_customvariablesmember->variable_name = (char *)strdup(varname)) == NULL) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not allocate memory for custom variable name\n");
my_free(new_customvariablesmember);
return NULL;
}
if(varvalue) {
if((new_customvariablesmember->variable_value = (char *)strdup(varvalue)) == NULL) {
logit(NSLOG_CONFIG_ERROR, TRUE, "Error: Could not allocate memory for custom variable value\n");
my_free(new_customvariablesmember->variable_name);
my_free(new_customvariablesmember);
return NULL;
}
}
else
new_customvariablesmember->variable_value = NULL;
/* set initial values */
new_customvariablesmember->has_been_modified = FALSE;
/* add the new member to the head of the member list */
new_customvariablesmember->next = *object_ptr;
*object_ptr = new_customvariablesmember;
return new_customvariablesmember;
}
/******************************************************************/
/******************** OBJECT SEARCH FUNCTIONS *********************/
/******************************************************************/
/* given a timeperiod name and a starting point, find a timeperiod from the list in memory */
timeperiod * find_timeperiod(char *name) {
timeperiod temp_timeperiod;
if(name == NULL)
return NULL;
temp_timeperiod.name = name;
return skiplist_find_first(object_skiplists[TIMEPERIOD_SKIPLIST], &temp_timeperiod, NULL);
}
/* given a host name, find it in the list in memory */
host * find_host(char *name) {
host temp_host;
if(name == NULL)
return NULL;
temp_host.name = name;
return skiplist_find_first(object_skiplists[HOST_SKIPLIST], &temp_host, NULL);
}
/* find a hostgroup from the list in memory */
hostgroup * find_hostgroup(char *name) {
hostgroup temp_hostgroup;
if(name == NULL)
return NULL;
temp_hostgroup.group_name = name;
return skiplist_find_first(object_skiplists[HOSTGROUP_SKIPLIST], &temp_hostgroup, NULL);
}
/* find a servicegroup from the list in memory */
servicegroup * find_servicegroup(char *name) {
servicegroup temp_servicegroup;
if(name == NULL)
return NULL;
temp_servicegroup.group_name = name;
return skiplist_find_first(object_skiplists[SERVICEGROUP_SKIPLIST], &temp_servicegroup, NULL);
}
/* find a contact from the list in memory */
contact * find_contact(char *name) {
contact temp_contact;
if(name == NULL)
return NULL;
temp_contact.name = name;
return skiplist_find_first(object_skiplists[CONTACT_SKIPLIST], &temp_contact, NULL);
}
/* find a contact group from the list in memory */
contactgroup * find_contactgroup(char *name) {
contactgroup temp_contactgroup;
if(name == NULL)
return NULL;
temp_contactgroup.group_name = name;
return skiplist_find_first(object_skiplists[CONTACTGROUP_SKIPLIST], &temp_contactgroup, NULL);
}
/* given a command name, find a command from the list in memory */
command * find_command(char *name) {
command temp_command;
if(name == NULL)
return NULL;
temp_command.name = name;
return skiplist_find_first(object_skiplists[COMMAND_SKIPLIST], &temp_command, NULL);
}
/* given a host/service name, find the service in the list in memory */
service * find_service(char *host_name, char *svc_desc) {
service temp_service;
if(host_name == NULL || svc_desc == NULL)
return NULL;
temp_service.host_name = host_name;
temp_service.description = svc_desc;
return skiplist_find_first(object_skiplists[SERVICE_SKIPLIST], &temp_service, NULL);
}
/******************************************************************/
/******************* OBJECT TRAVERSAL FUNCTIONS *******************/
/******************************************************************/
hostescalation *get_first_hostescalation_by_host(char *host_name, void **ptr) {
hostescalation temp_hostescalation;
if(host_name == NULL)
return NULL;
temp_hostescalation.host_name = host_name;
return skiplist_find_first(object_skiplists[HOSTESCALATION_SKIPLIST], &temp_hostescalation, ptr);
}
hostescalation *get_next_hostescalation_by_host(char *host_name, void **ptr) {
hostescalation temp_hostescalation;
if(host_name == NULL)
return NULL;
temp_hostescalation.host_name = host_name;
return skiplist_find_next(object_skiplists[HOSTESCALATION_SKIPLIST], &temp_hostescalation, ptr);
}
serviceescalation *get_first_serviceescalation_by_service(char *host_name, char *svc_description, void **ptr) {
serviceescalation temp_serviceescalation;
if(host_name == NULL || svc_description == NULL)
return NULL;
temp_serviceescalation.host_name = host_name;
temp_serviceescalation.description = svc_description;
return skiplist_find_first(object_skiplists[SERVICEESCALATION_SKIPLIST], &temp_serviceescalation, ptr);
}
serviceescalation *get_next_serviceescalation_by_service(char *host_name, char *svc_description, void **ptr) {
serviceescalation temp_serviceescalation;
if(host_name == NULL || svc_description == NULL)
return NULL;
temp_serviceescalation.host_name = host_name;
temp_serviceescalation.description = svc_description;
return skiplist_find_next(object_skiplists[SERVICEESCALATION_SKIPLIST], &temp_serviceescalation, ptr);
}
hostdependency *get_first_hostdependency_by_dependent_host(char *host_name, void **ptr) {
hostdependency temp_hostdependency;
if(host_name == NULL)
return NULL;
temp_hostdependency.dependent_host_name = host_name;
return skiplist_find_first(object_skiplists[HOSTDEPENDENCY_SKIPLIST], &temp_hostdependency, ptr);
}
hostdependency *get_next_hostdependency_by_dependent_host(char *host_name, void **ptr) {
hostdependency temp_hostdependency;
if(host_name == NULL || ptr == NULL)
return NULL;
temp_hostdependency.dependent_host_name = host_name;
return skiplist_find_next(object_skiplists[HOSTDEPENDENCY_SKIPLIST], &temp_hostdependency, ptr);
}
servicedependency *get_first_servicedependency_by_dependent_service(char *host_name, char *svc_description, void **ptr) {
servicedependency temp_servicedependency;
if(host_name == NULL || svc_description == NULL)
return NULL;
temp_servicedependency.dependent_host_name = host_name;
temp_servicedependency.dependent_service_description = svc_description;
return skiplist_find_first(object_skiplists[SERVICEDEPENDENCY_SKIPLIST], &temp_servicedependency, ptr);
}
servicedependency *get_next_servicedependency_by_dependent_service(char *host_name, char *svc_description, void **ptr) {
servicedependency temp_servicedependency;
if(host_name == NULL || svc_description == NULL || ptr == NULL)
return NULL;
temp_servicedependency.dependent_host_name = host_name;
temp_servicedependency.dependent_service_description = svc_description;
return skiplist_find_next(object_skiplists[SERVICEDEPENDENCY_SKIPLIST], &temp_servicedependency, ptr);
return NULL;
}
#ifdef NSCORE
/* adds a object to a list of objects */
int add_object_to_objectlist(objectlist **list, void *object_ptr) {
objectlist *temp_item = NULL;
objectlist *new_item = NULL;
if(list == NULL || object_ptr == NULL)
return ERROR;
/* skip this object if its already in the list */
for(temp_item = *list; temp_item; temp_item = temp_item->next) {
if(temp_item->object_ptr == object_ptr)
break;
}
if(temp_item)
return OK;
/* allocate memory for a new list item */
if((new_item = (objectlist *)malloc(sizeof(objectlist))) == NULL)
return ERROR;
/* initialize vars */
new_item->object_ptr = object_ptr;
/* add new item to head of list */
new_item->next = *list;
*list = new_item;
return OK;
}
/* frees memory allocated to a temporary object list */
int free_objectlist(objectlist **temp_list) {
objectlist *this_objectlist = NULL;
objectlist *next_objectlist = NULL;
if(temp_list == NULL)
return ERROR;
/* free memory allocated to object list */
for(this_objectlist = *temp_list; this_objectlist != NULL; this_objectlist = next_objectlist) {
next_objectlist = this_objectlist->next;
my_free(this_objectlist);
}
*temp_list = NULL;
return OK;
}
#endif
/******************************************************************/
/********************* OBJECT QUERY FUNCTIONS *********************/
/******************************************************************/
/* determines whether or not a specific host is an immediate child of another host */
int is_host_immediate_child_of_host(host *parent_host, host *child_host) {
hostsmember *temp_hostsmember = NULL;
/* not enough data */
if(child_host == NULL)
return FALSE;
/* root/top-level hosts */
if(parent_host == NULL) {
if(child_host->parent_hosts == NULL)
return TRUE;
}
/* mid-level/bottom hosts */
else {
for(temp_hostsmember = child_host->parent_hosts; temp_hostsmember != NULL; temp_hostsmember = temp_hostsmember->next) {
#ifdef NSCORE
if(temp_hostsmember->host_ptr == parent_host)
return TRUE;
#else
if(!strcmp(temp_hostsmember->host_name, parent_host->name))
return TRUE;
#endif
}
}
return FALSE;
}
/* determines whether or not a specific host is an immediate parent of another host */
int is_host_immediate_parent_of_host(host *child_host, host *parent_host) {
if(is_host_immediate_child_of_host(parent_host, child_host) == TRUE)
return TRUE;
return FALSE;
}
/* returns a count of the immediate children for a given host */
/* NOTE: This function is only used by the CGIS */
int number_of_immediate_child_hosts(host *hst) {
int children = 0;
host *temp_host = NULL;
for(temp_host = host_list; temp_host != NULL; temp_host = temp_host->next) {
if(is_host_immediate_child_of_host(hst, temp_host) == TRUE)
children++;
}
return children;
}
/* returns a count of the total children for a given host */
/* NOTE: This function is only used by the CGIS */
int number_of_total_child_hosts(host *hst) {
int children = 0;
host *temp_host = NULL;
for(temp_host = host_list; temp_host != NULL; temp_host = temp_host->next) {
if(is_host_immediate_child_of_host(hst, temp_host) == TRUE)
children += number_of_total_child_hosts(temp_host) + 1;
}
return children;
}
/* get the number of immediate parent hosts for a given host */
/* NOTE: This function is only used by the CGIS */
int number_of_immediate_parent_hosts(host *hst) {
int parents = 0;
host *temp_host = NULL;
for(temp_host = host_list; temp_host != NULL; temp_host = temp_host->next) {
if(is_host_immediate_parent_of_host(hst, temp_host) == TRUE) {
parents++;
}
}
return parents;
}
/* get the total number of parent hosts for a given host */
/* NOTE: This function is only used by the CGIS */
int number_of_total_parent_hosts(host *hst) {
int parents = 0;
host *temp_host = NULL;
for(temp_host = host_list; temp_host != NULL; temp_host = temp_host->next) {
if(is_host_immediate_parent_of_host(hst, temp_host) == TRUE) {
parents += number_of_total_parent_hosts(temp_host) + 1;
}
}
return parents;
}
/* tests whether a host is a member of a particular hostgroup */
/* NOTE: This function is only used by the CGIS */
int is_host_member_of_hostgroup(hostgroup *group, host *hst) {
hostsmember *temp_hostsmember = NULL;
if(group == NULL || hst == NULL)
return FALSE;
for(temp_hostsmember = group->members; temp_hostsmember != NULL; temp_hostsmember = temp_hostsmember->next) {
#ifdef NSCORE
if(temp_hostsmember->host_ptr == hst)
return TRUE;
#else
if(!strcmp(temp_hostsmember->host_name, hst->name))
return TRUE;
#endif
}
return FALSE;
}
/* tests whether a host is a member of a particular servicegroup */
/* NOTE: This function is only used by the CGIS */
int is_host_member_of_servicegroup(servicegroup *group, host *hst) {
servicesmember *temp_servicesmember = NULL;
if(group == NULL || hst == NULL)
return FALSE;
for(temp_servicesmember = group->members; temp_servicesmember != NULL; temp_servicesmember = temp_servicesmember->next) {
#ifdef NSCORE
if(temp_servicesmember->service_ptr != NULL && temp_servicesmember->service_ptr->host_ptr == hst)
return TRUE;
#else
if(!strcmp(temp_servicesmember->host_name, hst->name))
return TRUE;
#endif
}
return FALSE;
}
/* tests whether a service is a member of a particular servicegroup */
/* NOTE: This function is only used by the CGIS */
int is_service_member_of_servicegroup(servicegroup *group, service *svc) {
servicesmember *temp_servicesmember = NULL;
if(group == NULL || svc == NULL)
return FALSE;
for(temp_servicesmember = group->members; temp_servicesmember != NULL; temp_servicesmember = temp_servicesmember->next) {
#ifdef NSCORE
if(temp_servicesmember->service_ptr == svc)
return TRUE;
#else
if(!strcmp(temp_servicesmember->host_name, svc->host_name) && !strcmp(temp_servicesmember->service_description, svc->description))
return TRUE;
#endif
}
return FALSE;
}
/*
* tests whether a contact is a member of a particular contactgroup.
* The mk-livestatus eventbroker module uses this, so it must hang
* around until 4.0 to prevent api breakage.
* The cgi's stopped using it quite long ago though, so we need only
* compile it if we're building the core
*/
int is_contact_member_of_contactgroup(contactgroup *group, contact *cntct) {
contactsmember *member;
contact *temp_contact = NULL;
if(!group || !cntct)
return FALSE;
/* search all contacts in this contact group */
for(member = group->members; member; member = member->next) {
#ifdef NSCORE
temp_contact = member->contact_ptr;
#else
temp_contact = find_contact(member->contact_name);
#endif
if(temp_contact == NULL)
continue;
if(temp_contact == cntct)
return TRUE;
}
return FALSE;
}
/* tests whether a contact is a contact for a particular host */
int is_contact_for_host(host *hst, contact *cntct) {
contactsmember *temp_contactsmember = NULL;
contact *temp_contact = NULL;
contactgroupsmember *temp_contactgroupsmember = NULL;
contactgroup *temp_contactgroup = NULL;
if(hst == NULL || cntct == NULL) {
return FALSE;
}
/* search all individual contacts of this host */
for(temp_contactsmember = hst->contacts; temp_contactsmember != NULL; temp_contactsmember = temp_contactsmember->next) {
#ifdef NSCORE
temp_contact = temp_contactsmember->contact_ptr;
#else
temp_contact = find_contact(temp_contactsmember->contact_name);
#endif
if(temp_contact == NULL)
continue;
if(temp_contact == cntct)
return TRUE;
}
/* search all contactgroups of this host */
for(temp_contactgroupsmember = hst->contact_groups; temp_contactgroupsmember != NULL; temp_contactgroupsmember = temp_contactgroupsmember->next) {
#ifdef NSCORE
temp_contactgroup = temp_contactgroupsmember->group_ptr;
#else
temp_contactgroup = find_contactgroup(temp_contactgroupsmember->group_name);
#endif
if(temp_contactgroup == NULL)
continue;
if(is_contact_member_of_contactgroup(temp_contactgroup, cntct))
return TRUE;
}
return FALSE;
}
/* tests whether or not a contact is an escalated contact for a particular host */
int is_escalated_contact_for_host(host *hst, contact *cntct) {
contactsmember *temp_contactsmember = NULL;
contact *temp_contact = NULL;
hostescalation *temp_hostescalation = NULL;
contactgroupsmember *temp_contactgroupsmember = NULL;
contactgroup *temp_contactgroup = NULL;
void *ptr = NULL;
/* search all host escalations */
for(temp_hostescalation = get_first_hostescalation_by_host(hst->name, &ptr); temp_hostescalation != NULL; temp_hostescalation = get_next_hostescalation_by_host(hst->name, &ptr)) {
/* search all contacts of this host escalation */
for(temp_contactsmember = temp_hostescalation->contacts; temp_contactsmember != NULL; temp_contactsmember = temp_contactsmember->next) {
#ifdef NSCORE
temp_contact = temp_contactsmember->contact_ptr;
#else
temp_contact = find_contact(temp_contactsmember->contact_name);
#endif
if(temp_contact == NULL)
continue;
if(temp_contact == cntct)
return TRUE;
}
/* search all contactgroups of this host escalation */
for(temp_contactgroupsmember = temp_hostescalation->contact_groups; temp_contactgroupsmember != NULL; temp_contactgroupsmember = temp_contactgroupsmember->next) {
#ifdef NSCORE
temp_contactgroup = temp_contactgroupsmember->group_ptr;
#else
temp_contactgroup = find_contactgroup(temp_contactgroupsmember->group_name);
#endif
if(temp_contactgroup == NULL)
continue;
if(is_contact_member_of_contactgroup(temp_contactgroup, cntct))
return TRUE;
}
}
return FALSE;
}
/* tests whether a contact is a contact for a particular service */
int is_contact_for_service(service *svc, contact *cntct) {
contactsmember *temp_contactsmember = NULL;
contact *temp_contact = NULL;
contactgroupsmember *temp_contactgroupsmember = NULL;
contactgroup *temp_contactgroup = NULL;
if(svc == NULL || cntct == NULL)
return FALSE;
/* search all individual contacts of this service */
for(temp_contactsmember = svc->contacts; temp_contactsmember != NULL; temp_contactsmember = temp_contactsmember->next) {
#ifdef NSCORE
temp_contact = temp_contactsmember->contact_ptr;
#else
temp_contact = find_contact(temp_contactsmember->contact_name);
#endif
if(temp_contact == cntct)
return TRUE;
}
/* search all contactgroups of this service */
for(temp_contactgroupsmember = svc->contact_groups; temp_contactgroupsmember != NULL; temp_contactgroupsmember = temp_contactgroupsmember->next) {
#ifdef NSCORE
temp_contactgroup = temp_contactgroupsmember->group_ptr;
#else
temp_contactgroup = find_contactgroup(temp_contactgroupsmember->group_name);
#endif
if(temp_contactgroup == NULL)
continue;
if(is_contact_member_of_contactgroup(temp_contactgroup, cntct))
return TRUE;
}
return FALSE;
}
/* tests whether or not a contact is an escalated contact for a particular service */
int is_escalated_contact_for_service(service *svc, contact *cntct) {
serviceescalation *temp_serviceescalation = NULL;
contactsmember *temp_contactsmember = NULL;
contact *temp_contact = NULL;
contactgroupsmember *temp_contactgroupsmember = NULL;
contactgroup *temp_contactgroup = NULL;
void *ptr = NULL;
/* search all the service escalations */
for(temp_serviceescalation = get_first_serviceescalation_by_service(svc->host_name, svc->description, &ptr); temp_serviceescalation != NULL; temp_serviceescalation = get_next_serviceescalation_by_service(svc->host_name, svc->description, &ptr)) {
/* search all contacts of this service escalation */
for(temp_contactsmember = temp_serviceescalation->contacts; temp_contactsmember != NULL; temp_contactsmember = temp_contactsmember->next) {
#ifdef NSCORE
temp_contact = temp_contactsmember->contact_ptr;
#else
temp_contact = find_contact(temp_contactsmember->contact_name);
#endif
if(temp_contact == NULL)
continue;
if(temp_contact == cntct)
return TRUE;
}
/* search all contactgroups of this service escalation */
for(temp_contactgroupsmember = temp_serviceescalation->contact_groups; temp_contactgroupsmember != NULL; temp_contactgroupsmember = temp_contactgroupsmember->next) {
#ifdef NSCORE
temp_contactgroup = temp_contactgroupsmember->group_ptr;
#else
temp_contactgroup = find_contactgroup(temp_contactgroupsmember->group_name);
#endif
if(temp_contactgroup == NULL)
continue;
if(is_contact_member_of_contactgroup(temp_contactgroup, cntct))
return TRUE;
}
}
return FALSE;
}
#ifdef NSCORE
/* checks to see if there exists a circular dependency for a service */
int check_for_circular_servicedependency_path(servicedependency *root_dep, servicedependency *dep, int dependency_type) {
servicedependency *temp_sd = NULL;
if(root_dep == NULL || dep == NULL)
return FALSE;
/* this is not the proper dependency type */
if(root_dep->dependency_type != dependency_type || dep->dependency_type != dependency_type)
return FALSE;
/* don't go into a loop, don't bother checking anymore if we know this dependency already has a loop */
if(root_dep->contains_circular_path == TRUE)
return TRUE;
/* dependency has already been checked - there is a path somewhere, but it may not be for this particular dep... */
/* this should speed up detection for some loops */
if(dep->circular_path_checked == TRUE)
return FALSE;
/* set the check flag so we don't get into an infinite loop */
dep->circular_path_checked = TRUE;
/* is this service dependent on the root service? */
if(dep != root_dep) {
if(root_dep->dependent_service_ptr == dep->master_service_ptr) {
root_dep->contains_circular_path = TRUE;
dep->contains_circular_path = TRUE;
return TRUE;
}
}
/* notification dependencies are ok at this point as long as they don't inherit */
if(dependency_type == NOTIFICATION_DEPENDENCY && dep->inherits_parent == FALSE)
return FALSE;
/* check all parent dependencies */
for(temp_sd = servicedependency_list; temp_sd != NULL; temp_sd = temp_sd->next) {
/* only check parent dependencies */
if(dep->master_service_ptr != temp_sd->dependent_service_ptr)
continue;
if(check_for_circular_servicedependency_path(root_dep, temp_sd, dependency_type) == TRUE)
return TRUE;
}
return FALSE;
}
/* checks to see if there exists a circular dependency for a host */
int check_for_circular_hostdependency_path(hostdependency *root_dep, hostdependency *dep, int dependency_type) {
hostdependency *temp_hd = NULL;
if(root_dep == NULL || dep == NULL)
return FALSE;
/* this is not the proper dependency type */
if(root_dep->dependency_type != dependency_type || dep->dependency_type != dependency_type)
return FALSE;
/* don't go into a loop, don't bother checking anymore if we know this dependency already has a loop */
if(root_dep->contains_circular_path == TRUE)
return TRUE;
/* dependency has already been checked - there is a path somewhere, but it may not be for this particular dep... */
/* this should speed up detection for some loops */
if(dep->circular_path_checked == TRUE)
return FALSE;
/* set the check flag so we don't get into an infinite loop */
dep->circular_path_checked = TRUE;
/* is this host dependent on the root host? */
if(dep != root_dep) {
if(root_dep->dependent_host_ptr == dep->master_host_ptr) {
root_dep->contains_circular_path = TRUE;
dep->contains_circular_path = TRUE;
return TRUE;
}
}
/* notification dependencies are ok at this point as long as they don't inherit */
if(dependency_type == NOTIFICATION_DEPENDENCY && dep->inherits_parent == FALSE)
return FALSE;
/* check all parent dependencies */
for(temp_hd = hostdependency_list; temp_hd != NULL; temp_hd = temp_hd->next) {
/* only check parent dependencies */
if(dep->master_host_ptr != temp_hd->dependent_host_ptr)
continue;
if(check_for_circular_hostdependency_path(root_dep, temp_hd, dependency_type) == TRUE)
return TRUE;
}
return FALSE;
}
#endif
/******************************************************************/
/******************* OBJECT DELETION FUNCTIONS ********************/
/******************************************************************/
/* free all allocated memory for objects */
int free_object_data(void) {
timeperiod *this_timeperiod = NULL;
timeperiod *next_timeperiod = NULL;
daterange *this_daterange = NULL;
daterange *next_daterange = NULL;
timerange *this_timerange = NULL;
timerange *next_timerange = NULL;
timeperiodexclusion *this_timeperiodexclusion = NULL;
timeperiodexclusion *next_timeperiodexclusion = NULL;
host *this_host = NULL;
host *next_host = NULL;
hostsmember *this_hostsmember = NULL;
hostsmember *next_hostsmember = NULL;
hostgroup *this_hostgroup = NULL;
hostgroup *next_hostgroup = NULL;
servicegroup *this_servicegroup = NULL;
servicegroup *next_servicegroup = NULL;
servicesmember *this_servicesmember = NULL;
servicesmember *next_servicesmember = NULL;
contact *this_contact = NULL;
contact *next_contact = NULL;
contactgroup *this_contactgroup = NULL;
contactgroup *next_contactgroup = NULL;
contactsmember *this_contactsmember = NULL;
contactsmember *next_contactsmember = NULL;
contactgroupsmember *this_contactgroupsmember = NULL;
contactgroupsmember *next_contactgroupsmember = NULL;
customvariablesmember *this_customvariablesmember = NULL;
customvariablesmember *next_customvariablesmember = NULL;
service *this_service = NULL;
service *next_service = NULL;
command *this_command = NULL;
command *next_command = NULL;
commandsmember *this_commandsmember = NULL;
commandsmember *next_commandsmember = NULL;
serviceescalation *this_serviceescalation = NULL;
serviceescalation *next_serviceescalation = NULL;
servicedependency *this_servicedependency = NULL;
servicedependency *next_servicedependency = NULL;
hostdependency *this_hostdependency = NULL;
hostdependency *next_hostdependency = NULL;
hostescalation *this_hostescalation = NULL;
hostescalation *next_hostescalation = NULL;
register int x = 0;
register int i = 0;
/**** free memory for the timeperiod list ****/
this_timeperiod = timeperiod_list;
while(this_timeperiod != NULL) {
/* free the exception time ranges contained in this timeperiod */
for(x = 0; x < DATERANGE_TYPES; x++) {
for(this_daterange = this_timeperiod->exceptions[x]; this_daterange != NULL; this_daterange = next_daterange) {
next_daterange = this_daterange->next;
for(this_timerange = this_daterange->times; this_timerange != NULL; this_timerange = next_timerange) {
next_timerange = this_timerange->next;
my_free(this_timerange);
}
my_free(this_daterange);
}
}
/* free the day time ranges contained in this timeperiod */
for(x = 0; x < 7; x++) {
for(this_timerange = this_timeperiod->days[x]; this_timerange != NULL; this_timerange = next_timerange) {
next_timerange = this_timerange->next;
my_free(this_timerange);
}
}
/* free exclusions */
for(this_timeperiodexclusion = this_timeperiod->exclusions; this_timeperiodexclusion != NULL; this_timeperiodexclusion = next_timeperiodexclusion) {
next_timeperiodexclusion = this_timeperiodexclusion->next;
my_free(this_timeperiodexclusion->timeperiod_name);
my_free(this_timeperiodexclusion);
}
next_timeperiod = this_timeperiod->next;
my_free(this_timeperiod->name);
my_free(this_timeperiod->alias);
my_free(this_timeperiod);
this_timeperiod = next_timeperiod;
}
/* reset pointers */
timeperiod_list = NULL;
/**** free memory for the host list ****/
this_host = host_list;
while(this_host != NULL) {
next_host = this_host->next;
/* free memory for parent hosts */
this_hostsmember = this_host->parent_hosts;
while(this_hostsmember != NULL) {
next_hostsmember = this_hostsmember->next;
my_free(this_hostsmember->host_name);
my_free(this_hostsmember);
this_hostsmember = next_hostsmember;
}
/* free memory for child host links */
this_hostsmember = this_host->child_hosts;
while(this_hostsmember != NULL) {
next_hostsmember = this_hostsmember->next;
my_free(this_hostsmember->host_name);
my_free(this_hostsmember);
this_hostsmember = next_hostsmember;
}
/* free memory for service links */
this_servicesmember = this_host->services;
while(this_servicesmember != NULL) {
next_servicesmember = this_servicesmember->next;
my_free(this_servicesmember->host_name);
my_free(this_servicesmember->service_description);
my_free(this_servicesmember);
this_servicesmember = next_servicesmember;
}
/* free memory for contact groups */
this_contactgroupsmember = this_host->contact_groups;
while(this_contactgroupsmember != NULL) {
next_contactgroupsmember = this_contactgroupsmember->next;
my_free(this_contactgroupsmember->group_name);
my_free(this_contactgroupsmember);
this_contactgroupsmember = next_contactgroupsmember;
}
/* free memory for contacts */
this_contactsmember = this_host->contacts;
while(this_contactsmember != NULL) {
next_contactsmember = this_contactsmember->next;
my_free(this_contactsmember->contact_name);
my_free(this_contactsmember);
this_contactsmember = next_contactsmember;
}
/* free memory for custom variables */
this_customvariablesmember = this_host->custom_variables;
while(this_customvariablesmember != NULL) {
next_customvariablesmember = this_customvariablesmember->next;
my_free(this_customvariablesmember->variable_name);
my_free(this_customvariablesmember->variable_value);
my_free(this_customvariablesmember);
this_customvariablesmember = next_customvariablesmember;
}
my_free(this_host->name);
my_free(this_host->display_name);
my_free(this_host->alias);
my_free(this_host->address);
#ifdef NSCORE
my_free(this_host->plugin_output);
my_free(this_host->long_plugin_output);
my_free(this_host->perf_data);
free_objectlist(&this_host->hostgroups_ptr);
#endif
my_free(this_host->check_period);
my_free(this_host->host_check_command);
my_free(this_host->event_handler);
my_free(this_host->failure_prediction_options);
my_free(this_host->notification_period);
my_free(this_host->notes);
my_free(this_host->notes_url);
my_free(this_host->action_url);
my_free(this_host->icon_image);
my_free(this_host->icon_image_alt);
my_free(this_host->vrml_image);
my_free(this_host->statusmap_image);
my_free(this_host);
this_host = next_host;
}
/* reset pointers */
host_list = NULL;
/**** free memory for the host group list ****/
this_hostgroup = hostgroup_list;
while(this_hostgroup != NULL) {
/* free memory for the group members */
this_hostsmember = this_hostgroup->members;
while(this_hostsmember != NULL) {
next_hostsmember = this_hostsmember->next;
my_free(this_hostsmember->host_name);
my_free(this_hostsmember);
this_hostsmember = next_hostsmember;
}
next_hostgroup = this_hostgroup->next;
my_free(this_hostgroup->group_name);
my_free(this_hostgroup->alias);
my_free(this_hostgroup->notes);
my_free(this_hostgroup->notes_url);
my_free(this_hostgroup->action_url);
my_free(this_hostgroup);
this_hostgroup = next_hostgroup;
}
/* reset pointers */
hostgroup_list = NULL;
/**** free memory for the service group list ****/
this_servicegroup = servicegroup_list;
while(this_servicegroup != NULL) {
/* free memory for the group members */
this_servicesmember = this_servicegroup->members;
while(this_servicesmember != NULL) {
next_servicesmember = this_servicesmember->next;
my_free(this_servicesmember->host_name);
my_free(this_servicesmember->service_description);
my_free(this_servicesmember);
this_servicesmember = next_servicesmember;
}
next_servicegroup = this_servicegroup->next;
my_free(this_servicegroup->group_name);
my_free(this_servicegroup->alias);
my_free(this_servicegroup->notes);
my_free(this_servicegroup->notes_url);
my_free(this_servicegroup->action_url);
my_free(this_servicegroup);
this_servicegroup = next_servicegroup;
}
/* reset pointers */
servicegroup_list = NULL;
/**** free memory for the contact list ****/
this_contact = contact_list;
while(this_contact != NULL) {
/* free memory for the host notification commands */
this_commandsmember = this_contact->host_notification_commands;
while(this_commandsmember != NULL) {
next_commandsmember = this_commandsmember->next;
if(this_commandsmember->command != NULL)
my_free(this_commandsmember->command);
my_free(this_commandsmember);
this_commandsmember = next_commandsmember;
}
/* free memory for the service notification commands */
this_commandsmember = this_contact->service_notification_commands;
while(this_commandsmember != NULL) {
next_commandsmember = this_commandsmember->next;
if(this_commandsmember->command != NULL)
my_free(this_commandsmember->command);
my_free(this_commandsmember);
this_commandsmember = next_commandsmember;
}
/* free memory for custom variables */
this_customvariablesmember = this_contact->custom_variables;
while(this_customvariablesmember != NULL) {
next_customvariablesmember = this_customvariablesmember->next;
my_free(this_customvariablesmember->variable_name);
my_free(this_customvariablesmember->variable_value);
my_free(this_customvariablesmember);
this_customvariablesmember = next_customvariablesmember;
}
next_contact = this_contact->next;
my_free(this_contact->name);
my_free(this_contact->alias);
my_free(this_contact->email);
my_free(this_contact->pager);
for(i = 0; i < MAX_CONTACT_ADDRESSES; i++)
my_free(this_contact->address[i]);
my_free(this_contact->host_notification_period);
my_free(this_contact->service_notification_period);
#ifdef NSCORE
free_objectlist(&this_contact->contactgroups_ptr);
#endif
my_free(this_contact);
this_contact = next_contact;
}
/* reset pointers */
contact_list = NULL;
/**** free memory for the contact group list ****/
this_contactgroup = contactgroup_list;
while(this_contactgroup != NULL) {
/* free memory for the group members */
this_contactsmember = this_contactgroup->members;
while(this_contactsmember != NULL) {
next_contactsmember = this_contactsmember->next;
my_free(this_contactsmember->contact_name);
my_free(this_contactsmember);
this_contactsmember = next_contactsmember;
}
next_contactgroup = this_contactgroup->next;
my_free(this_contactgroup->group_name);
my_free(this_contactgroup->alias);
my_free(this_contactgroup);
this_contactgroup = next_contactgroup;
}
/* reset pointers */
contactgroup_list = NULL;
/**** free memory for the service list ****/
this_service = service_list;
while(this_service != NULL) {
next_service = this_service->next;
/* free memory for contact groups */
this_contactgroupsmember = this_service->contact_groups;
while(this_contactgroupsmember != NULL) {
next_contactgroupsmember = this_contactgroupsmember->next;
my_free(this_contactgroupsmember->group_name);
my_free(this_contactgroupsmember);
this_contactgroupsmember = next_contactgroupsmember;
}
/* free memory for contacts */
this_contactsmember = this_service->contacts;
while(this_contactsmember != NULL) {
next_contactsmember = this_contactsmember->next;
my_free(this_contactsmember->contact_name);
my_free(this_contactsmember);
this_contactsmember = next_contactsmember;
}
/* free memory for custom variables */
this_customvariablesmember = this_service->custom_variables;
while(this_customvariablesmember != NULL) {
next_customvariablesmember = this_customvariablesmember->next;
my_free(this_customvariablesmember->variable_name);
my_free(this_customvariablesmember->variable_value);
my_free(this_customvariablesmember);
this_customvariablesmember = next_customvariablesmember;
}
my_free(this_service->host_name);
my_free(this_service->description);
my_free(this_service->display_name);
my_free(this_service->service_check_command);
#ifdef NSCORE
my_free(this_service->plugin_output);
my_free(this_service->long_plugin_output);
my_free(this_service->perf_data);
my_free(this_service->event_handler_args);
my_free(this_service->check_command_args);
free_objectlist(&this_service->servicegroups_ptr);
#endif
my_free(this_service->notification_period);
my_free(this_service->check_period);
my_free(this_service->event_handler);
my_free(this_service->failure_prediction_options);
my_free(this_service->notes);
my_free(this_service->notes_url);
my_free(this_service->action_url);
my_free(this_service->icon_image);
my_free(this_service->icon_image_alt);
my_free(this_service);
this_service = next_service;
}
/* reset pointers */
service_list = NULL;
/**** free memory for the command list ****/
this_command = command_list;
while(this_command != NULL) {
next_command = this_command->next;
my_free(this_command->name);
my_free(this_command->command_line);
my_free(this_command);
this_command = next_command;
}
/* reset pointers */
command_list = NULL;
/**** free memory for the service escalation list ****/
this_serviceescalation = serviceescalation_list;
while(this_serviceescalation != NULL) {
/* free memory for the contact group members */
this_contactgroupsmember = this_serviceescalation->contact_groups;
while(this_contactgroupsmember != NULL) {
next_contactgroupsmember = this_contactgroupsmember->next;
my_free(this_contactgroupsmember->group_name);
my_free(this_contactgroupsmember);
this_contactgroupsmember = next_contactgroupsmember;
}
/* free memory for contacts */
this_contactsmember = this_serviceescalation->contacts;
while(this_contactsmember != NULL) {
next_contactsmember = this_contactsmember->next;
my_free(this_contactsmember->contact_name);
my_free(this_contactsmember);
this_contactsmember = next_contactsmember;
}
next_serviceescalation = this_serviceescalation->next;
my_free(this_serviceescalation->host_name);
my_free(this_serviceescalation->description);
my_free(this_serviceescalation->escalation_period);
my_free(this_serviceescalation);
this_serviceescalation = next_serviceescalation;
}
/* reset pointers */
serviceescalation_list = NULL;
/**** free memory for the service dependency list ****/
this_servicedependency = servicedependency_list;
while(this_servicedependency != NULL) {
next_servicedependency = this_servicedependency->next;
my_free(this_servicedependency->dependency_period);
my_free(this_servicedependency->dependent_host_name);
my_free(this_servicedependency->dependent_service_description);
my_free(this_servicedependency->host_name);
my_free(this_servicedependency->service_description);
my_free(this_servicedependency);
this_servicedependency = next_servicedependency;
}
/* reset pointers */
servicedependency_list = NULL;
/**** free memory for the host dependency list ****/
this_hostdependency = hostdependency_list;
while(this_hostdependency != NULL) {
next_hostdependency = this_hostdependency->next;
my_free(this_hostdependency->dependency_period);
my_free(this_hostdependency->dependent_host_name);
my_free(this_hostdependency->host_name);
my_free(this_hostdependency);
this_hostdependency = next_hostdependency;
}
/* reset pointers */
hostdependency_list = NULL;
/**** free memory for the host escalation list ****/
this_hostescalation = hostescalation_list;
while(this_hostescalation != NULL) {
/* free memory for the contact group members */
this_contactgroupsmember = this_hostescalation->contact_groups;
while(this_contactgroupsmember != NULL) {
next_contactgroupsmember = this_contactgroupsmember->next;
my_free(this_contactgroupsmember->group_name);
my_free(this_contactgroupsmember);
this_contactgroupsmember = next_contactgroupsmember;
}
/* free memory for contacts */
this_contactsmember = this_hostescalation->contacts;
while(this_contactsmember != NULL) {
next_contactsmember = this_contactsmember->next;
my_free(this_contactsmember->contact_name);
my_free(this_contactsmember);
this_contactsmember = next_contactsmember;
}
next_hostescalation = this_hostescalation->next;
my_free(this_hostescalation->host_name);
my_free(this_hostescalation->escalation_period);
my_free(this_hostescalation);
this_hostescalation = next_hostescalation;
}
/* reset pointers */
hostescalation_list = NULL;
/* free object skiplists */
free_object_skiplists();
return OK;
}
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