/***************************************************************************** * * XSDDEFAULT.C - Default external status data input routines for Nagios * * * 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. * *****************************************************************************/ /*********** COMMON HEADER FILES ***********/ #include "../include/config.h" #include "../include/common.h" #include "../include/locations.h" #include "../include/statusdata.h" #include "../include/comments.h" #include "../include/downtime.h" #include "../include/macros.h" #include "xsddefault.h" #ifdef NSCORE #include "../include/nagios.h" #endif #ifdef NSCGI #include "../include/cgiutils.h" time_t program_start; int daemon_mode; time_t last_log_rotation; int enable_notifications; int execute_service_checks; int accept_passive_service_checks; int execute_host_checks; int accept_passive_host_checks; int enable_event_handlers; int obsess_over_services; int obsess_over_hosts; int check_service_freshness; int check_host_freshness; int enable_flap_detection; int process_performance_data; int nagios_pid; int buffer_stats[1][3]; int program_stats[MAX_CHECK_STATS_TYPES][3]; #endif #ifdef NSCORE /******************************************************************/ /********************* INIT/CLEANUP FUNCTIONS *********************/ /******************************************************************/ /* initialize status data */ int xsddefault_initialize_status_data(const char *cfgfile) { nagios_macros *mac; /* initialize locations if necessary */ if(!status_file) status_file = (char *)strdup(DEFAULT_STATUS_FILE); /* make sure we have what we need */ if(status_file == NULL) return ERROR; mac = get_global_macros(); /* save the status file macro */ my_free(mac->x[MACRO_STATUSDATAFILE]); if((mac->x[MACRO_STATUSDATAFILE] = (char *)strdup(status_file))) strip(mac->x[MACRO_STATUSDATAFILE]); /* delete the old status log (it might not exist) */ if(status_file) unlink(status_file); return OK; } /* cleanup status data before terminating */ int xsddefault_cleanup_status_data(int delete_status_data) { /* delete the status log */ if(delete_status_data == TRUE && status_file) { if(unlink(status_file)) return ERROR; } /* free memory */ my_free(status_file); return OK; } /******************************************************************/ /****************** STATUS DATA OUTPUT FUNCTIONS ******************/ /******************************************************************/ /* write all status data to file */ int xsddefault_save_status_data(void) { char *tmp_log = NULL; customvariablesmember *temp_customvariablesmember = NULL; host *temp_host = NULL; service *temp_service = NULL; contact *temp_contact = NULL; nagios_comment *temp_comment = NULL; scheduled_downtime *temp_downtime = NULL; time_t current_time; int fd = 0; FILE *fp = NULL; int result = OK; log_debug_info(DEBUGL_FUNCTIONS, 0, "save_status_data()\n"); /* users may not want us to write status data */ if(!status_file || !strcmp(status_file, "/dev/null")) return OK; asprintf(&tmp_log, "%sXXXXXX", temp_file); if(tmp_log == NULL) return ERROR; log_debug_info(DEBUGL_STATUSDATA, 2, "Writing status data to temp file '%s'\n", tmp_log); if((fd = mkstemp(tmp_log)) == -1) { /* log an error */ logit(NSLOG_RUNTIME_ERROR, TRUE, "Error: Unable to create temp file '%s' for writing status data: %s\n", tmp_log, strerror(errno)); /* free memory */ my_free(tmp_log); return ERROR; } fp = (FILE *)fdopen(fd, "w"); if(fp == NULL) { close(fd); unlink(tmp_log); /* log an error */ logit(NSLOG_RUNTIME_ERROR, TRUE, "Error: Unable to open temp file '%s' for writing status data: %s\n", tmp_log, strerror(errno)); /* free memory */ my_free(tmp_log); return ERROR; } /* generate check statistics */ generate_check_stats(); /* write version info to status file */ fprintf(fp, "########################################\n"); fprintf(fp, "# NAGIOS STATUS FILE\n"); fprintf(fp, "#\n"); fprintf(fp, "# THIS FILE IS AUTOMATICALLY GENERATED\n"); fprintf(fp, "# BY NAGIOS. DO NOT MODIFY THIS FILE!\n"); fprintf(fp, "########################################\n\n"); time(¤t_time); /* write file info */ fprintf(fp, "info {\n"); fprintf(fp, "\tcreated=%llu\n", (unsigned long long)current_time); fprintf(fp, "\tversion=%s\n", PROGRAM_VERSION); fprintf(fp, "\tlast_update_check=%llu\n", (unsigned long long)last_update_check); fprintf(fp, "\tupdate_available=%d\n", update_available); fprintf(fp, "\tlast_version=%s\n", (last_program_version == NULL) ? "" : last_program_version); fprintf(fp, "\tnew_version=%s\n", (new_program_version == NULL) ? "" : new_program_version); fprintf(fp, "\t}\n\n"); /* save program status data */ fprintf(fp, "programstatus {\n"); fprintf(fp, "\tmodified_host_attributes=%lu\n", modified_host_process_attributes); fprintf(fp, "\tmodified_service_attributes=%lu\n", modified_service_process_attributes); fprintf(fp, "\tnagios_pid=%d\n", nagios_pid); fprintf(fp, "\tdaemon_mode=%d\n", daemon_mode); fprintf(fp, "\tprogram_start=%llu\n", (unsigned long long)program_start); fprintf(fp, "\tlast_log_rotation=%llu\n", (unsigned long long)last_log_rotation); fprintf(fp, "\tenable_notifications=%d\n", enable_notifications); fprintf(fp, "\tactive_service_checks_enabled=%d\n", execute_service_checks); fprintf(fp, "\tpassive_service_checks_enabled=%d\n", accept_passive_service_checks); fprintf(fp, "\tactive_host_checks_enabled=%d\n", execute_host_checks); fprintf(fp, "\tpassive_host_checks_enabled=%d\n", accept_passive_host_checks); fprintf(fp, "\tenable_event_handlers=%d\n", enable_event_handlers); fprintf(fp, "\tobsess_over_services=%d\n", obsess_over_services); fprintf(fp, "\tobsess_over_hosts=%d\n", obsess_over_hosts); fprintf(fp, "\tcheck_service_freshness=%d\n", check_service_freshness); fprintf(fp, "\tcheck_host_freshness=%d\n", check_host_freshness); fprintf(fp, "\tenable_flap_detection=%d\n", enable_flap_detection); fprintf(fp, "\tprocess_performance_data=%d\n", process_performance_data); fprintf(fp, "\tglobal_host_event_handler=%s\n", (global_host_event_handler == NULL) ? "" : global_host_event_handler); fprintf(fp, "\tglobal_service_event_handler=%s\n", (global_service_event_handler == NULL) ? "" : global_service_event_handler); fprintf(fp, "\tnext_comment_id=%lu\n", next_comment_id); fprintf(fp, "\tnext_downtime_id=%lu\n", next_downtime_id); fprintf(fp, "\tnext_event_id=%lu\n", next_event_id); fprintf(fp, "\tnext_problem_id=%lu\n", next_problem_id); fprintf(fp, "\tnext_notification_id=%lu\n", next_notification_id); fprintf(fp, "\tactive_scheduled_host_check_stats=%d,%d,%d\n", check_statistics[ACTIVE_SCHEDULED_HOST_CHECK_STATS].minute_stats[0], check_statistics[ACTIVE_SCHEDULED_HOST_CHECK_STATS].minute_stats[1], check_statistics[ACTIVE_SCHEDULED_HOST_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tactive_ondemand_host_check_stats=%d,%d,%d\n", check_statistics[ACTIVE_ONDEMAND_HOST_CHECK_STATS].minute_stats[0], check_statistics[ACTIVE_ONDEMAND_HOST_CHECK_STATS].minute_stats[1], check_statistics[ACTIVE_ONDEMAND_HOST_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tpassive_host_check_stats=%d,%d,%d\n", check_statistics[PASSIVE_HOST_CHECK_STATS].minute_stats[0], check_statistics[PASSIVE_HOST_CHECK_STATS].minute_stats[1], check_statistics[PASSIVE_HOST_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tactive_scheduled_service_check_stats=%d,%d,%d\n", check_statistics[ACTIVE_SCHEDULED_SERVICE_CHECK_STATS].minute_stats[0], check_statistics[ACTIVE_SCHEDULED_SERVICE_CHECK_STATS].minute_stats[1], check_statistics[ACTIVE_SCHEDULED_SERVICE_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tactive_ondemand_service_check_stats=%d,%d,%d\n", check_statistics[ACTIVE_ONDEMAND_SERVICE_CHECK_STATS].minute_stats[0], check_statistics[ACTIVE_ONDEMAND_SERVICE_CHECK_STATS].minute_stats[1], check_statistics[ACTIVE_ONDEMAND_SERVICE_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tpassive_service_check_stats=%d,%d,%d\n", check_statistics[PASSIVE_SERVICE_CHECK_STATS].minute_stats[0], check_statistics[PASSIVE_SERVICE_CHECK_STATS].minute_stats[1], check_statistics[PASSIVE_SERVICE_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tcached_host_check_stats=%d,%d,%d\n", check_statistics[ACTIVE_CACHED_HOST_CHECK_STATS].minute_stats[0], check_statistics[ACTIVE_CACHED_HOST_CHECK_STATS].minute_stats[1], check_statistics[ACTIVE_CACHED_HOST_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tcached_service_check_stats=%d,%d,%d\n", check_statistics[ACTIVE_CACHED_SERVICE_CHECK_STATS].minute_stats[0], check_statistics[ACTIVE_CACHED_SERVICE_CHECK_STATS].minute_stats[1], check_statistics[ACTIVE_CACHED_SERVICE_CHECK_STATS].minute_stats[2]); fprintf(fp, "\texternal_command_stats=%d,%d,%d\n", check_statistics[EXTERNAL_COMMAND_STATS].minute_stats[0], check_statistics[EXTERNAL_COMMAND_STATS].minute_stats[1], check_statistics[EXTERNAL_COMMAND_STATS].minute_stats[2]); fprintf(fp, "\tparallel_host_check_stats=%d,%d,%d\n", check_statistics[PARALLEL_HOST_CHECK_STATS].minute_stats[0], check_statistics[PARALLEL_HOST_CHECK_STATS].minute_stats[1], check_statistics[PARALLEL_HOST_CHECK_STATS].minute_stats[2]); fprintf(fp, "\tserial_host_check_stats=%d,%d,%d\n", check_statistics[SERIAL_HOST_CHECK_STATS].minute_stats[0], check_statistics[SERIAL_HOST_CHECK_STATS].minute_stats[1], check_statistics[SERIAL_HOST_CHECK_STATS].minute_stats[2]); fprintf(fp, "\t}\n\n"); /* save host status data */ for(temp_host = host_list; temp_host != NULL; temp_host = temp_host->next) { fprintf(fp, "hoststatus {\n"); fprintf(fp, "\thost_name=%s\n", temp_host->name); fprintf(fp, "\tmodified_attributes=%lu\n", temp_host->modified_attributes); fprintf(fp, "\tcheck_command=%s\n", (temp_host->check_command == NULL) ? "" : temp_host->check_command); fprintf(fp, "\tcheck_period=%s\n", (temp_host->check_period == NULL) ? "" : temp_host->check_period); fprintf(fp, "\tnotification_period=%s\n", (temp_host->notification_period == NULL) ? "" : temp_host->notification_period); fprintf(fp, "\tcheck_interval=%f\n", temp_host->check_interval); fprintf(fp, "\tretry_interval=%f\n", temp_host->retry_interval); fprintf(fp, "\tevent_handler=%s\n", (temp_host->event_handler == NULL) ? "" : temp_host->event_handler); fprintf(fp, "\thas_been_checked=%d\n", temp_host->has_been_checked); fprintf(fp, "\tshould_be_scheduled=%d\n", temp_host->should_be_scheduled); fprintf(fp, "\tcheck_execution_time=%.3f\n", temp_host->execution_time); fprintf(fp, "\tcheck_latency=%.3f\n", temp_host->latency); fprintf(fp, "\tcheck_type=%d\n", temp_host->check_type); fprintf(fp, "\tcurrent_state=%d\n", temp_host->current_state); fprintf(fp, "\tlast_hard_state=%d\n", temp_host->last_hard_state); fprintf(fp, "\tlast_event_id=%lu\n", temp_host->last_event_id); fprintf(fp, "\tcurrent_event_id=%lu\n", temp_host->current_event_id); fprintf(fp, "\tcurrent_problem_id=%lu\n", temp_host->current_problem_id); fprintf(fp, "\tlast_problem_id=%lu\n", temp_host->last_problem_id); fprintf(fp, "\tplugin_output=%s\n", (temp_host->plugin_output == NULL) ? "" : temp_host->plugin_output); fprintf(fp, "\tlong_plugin_output=%s\n", (temp_host->long_plugin_output == NULL) ? "" : temp_host->long_plugin_output); fprintf(fp, "\tperformance_data=%s\n", (temp_host->perf_data == NULL) ? "" : temp_host->perf_data); fprintf(fp, "\tlast_check=%llu\n", (unsigned long long)temp_host->last_check); fprintf(fp, "\tnext_check=%llu\n", (unsigned long long)temp_host->next_check); fprintf(fp, "\tcheck_options=%d\n", temp_host->check_options); fprintf(fp, "\tcurrent_attempt=%d\n", temp_host->current_attempt); fprintf(fp, "\tmax_attempts=%d\n", temp_host->max_attempts); fprintf(fp, "\tstate_type=%d\n", temp_host->state_type); fprintf(fp, "\tlast_state_change=%llu\n", (unsigned long long)temp_host->last_state_change); fprintf(fp, "\tlast_hard_state_change=%llu\n", (unsigned long long)temp_host->last_hard_state_change); fprintf(fp, "\tlast_time_up=%llu\n", (unsigned long long)temp_host->last_time_up); fprintf(fp, "\tlast_time_down=%llu\n", (unsigned long long)temp_host->last_time_down); fprintf(fp, "\tlast_time_unreachable=%llu\n", (unsigned long long)temp_host->last_time_unreachable); fprintf(fp, "\tlast_notification=%llu\n", (unsigned long long)temp_host->last_notification); fprintf(fp, "\tnext_notification=%llu\n", (unsigned long long)temp_host->next_notification); fprintf(fp, "\tno_more_notifications=%d\n", temp_host->no_more_notifications); fprintf(fp, "\tcurrent_notification_number=%d\n", temp_host->current_notification_number); fprintf(fp, "\tcurrent_notification_id=%lu\n", temp_host->current_notification_id); fprintf(fp, "\tnotifications_enabled=%d\n", temp_host->notifications_enabled); fprintf(fp, "\tproblem_has_been_acknowledged=%d\n", temp_host->problem_has_been_acknowledged); fprintf(fp, "\tacknowledgement_type=%d\n", temp_host->acknowledgement_type); fprintf(fp, "\tactive_checks_enabled=%d\n", temp_host->checks_enabled); fprintf(fp, "\tpassive_checks_enabled=%d\n", temp_host->accept_passive_checks); fprintf(fp, "\tevent_handler_enabled=%d\n", temp_host->event_handler_enabled); fprintf(fp, "\tflap_detection_enabled=%d\n", temp_host->flap_detection_enabled); fprintf(fp, "\tprocess_performance_data=%d\n", temp_host->process_performance_data); fprintf(fp, "\tobsess=%d\n", temp_host->obsess); fprintf(fp, "\tlast_update=%llu\n", (unsigned long long)current_time); fprintf(fp, "\tis_flapping=%d\n", temp_host->is_flapping); fprintf(fp, "\tpercent_state_change=%.2f\n", temp_host->percent_state_change); fprintf(fp, "\tscheduled_downtime_depth=%d\n", temp_host->scheduled_downtime_depth); /* custom variables */ for(temp_customvariablesmember = temp_host->custom_variables; temp_customvariablesmember != NULL; temp_customvariablesmember = temp_customvariablesmember->next) { if(temp_customvariablesmember->variable_name) fprintf(fp, "\t_%s=%d;%s\n", temp_customvariablesmember->variable_name, temp_customvariablesmember->has_been_modified, (temp_customvariablesmember->variable_value == NULL) ? "" : temp_customvariablesmember->variable_value); } fprintf(fp, "\t}\n\n"); } /* save service status data */ for(temp_service = service_list; temp_service != NULL; temp_service = temp_service->next) { fprintf(fp, "servicestatus {\n"); fprintf(fp, "\thost_name=%s\n", temp_service->host_name); fprintf(fp, "\tservice_description=%s\n", temp_service->description); fprintf(fp, "\tmodified_attributes=%lu\n", temp_service->modified_attributes); fprintf(fp, "\tcheck_command=%s\n", (temp_service->check_command == NULL) ? "" : temp_service->check_command); fprintf(fp, "\tcheck_period=%s\n", (temp_service->check_period == NULL) ? "" : temp_service->check_period); fprintf(fp, "\tnotification_period=%s\n", (temp_service->notification_period == NULL) ? "" : temp_service->notification_period); fprintf(fp, "\tcheck_interval=%f\n", temp_service->check_interval); fprintf(fp, "\tretry_interval=%f\n", temp_service->retry_interval); fprintf(fp, "\tevent_handler=%s\n", (temp_service->event_handler == NULL) ? "" : temp_service->event_handler); fprintf(fp, "\thas_been_checked=%d\n", temp_service->has_been_checked); fprintf(fp, "\tshould_be_scheduled=%d\n", temp_service->should_be_scheduled); fprintf(fp, "\tcheck_execution_time=%.3f\n", temp_service->execution_time); fprintf(fp, "\tcheck_latency=%.3f\n", temp_service->latency); fprintf(fp, "\tcheck_type=%d\n", temp_service->check_type); fprintf(fp, "\tcurrent_state=%d\n", temp_service->current_state); fprintf(fp, "\tlast_hard_state=%d\n", temp_service->last_hard_state); fprintf(fp, "\tlast_event_id=%lu\n", temp_service->last_event_id); fprintf(fp, "\tcurrent_event_id=%lu\n", temp_service->current_event_id); fprintf(fp, "\tcurrent_problem_id=%lu\n", temp_service->current_problem_id); fprintf(fp, "\tlast_problem_id=%lu\n", temp_service->last_problem_id); fprintf(fp, "\tcurrent_attempt=%d\n", temp_service->current_attempt); fprintf(fp, "\tmax_attempts=%d\n", temp_service->max_attempts); fprintf(fp, "\tstate_type=%d\n", temp_service->state_type); fprintf(fp, "\tlast_state_change=%llu\n", (unsigned long long)temp_service->last_state_change); fprintf(fp, "\tlast_hard_state_change=%llu\n", (unsigned long long)temp_service->last_hard_state_change); fprintf(fp, "\tlast_time_ok=%llu\n", (unsigned long long)temp_service->last_time_ok); fprintf(fp, "\tlast_time_warning=%llu\n", (unsigned long long)temp_service->last_time_warning); fprintf(fp, "\tlast_time_unknown=%llu\n", (unsigned long long)temp_service->last_time_unknown); fprintf(fp, "\tlast_time_critical=%llu\n", (unsigned long long)temp_service->last_time_critical); fprintf(fp, "\tplugin_output=%s\n", (temp_service->plugin_output == NULL) ? "" : temp_service->plugin_output); fprintf(fp, "\tlong_plugin_output=%s\n", (temp_service->long_plugin_output == NULL) ? "" : temp_service->long_plugin_output); fprintf(fp, "\tperformance_data=%s\n", (temp_service->perf_data == NULL) ? "" : temp_service->perf_data); fprintf(fp, "\tlast_check=%llu\n", (unsigned long long)temp_service->last_check); fprintf(fp, "\tnext_check=%llu\n", (unsigned long long)temp_service->next_check); fprintf(fp, "\tcheck_options=%d\n", temp_service->check_options); fprintf(fp, "\tcurrent_notification_number=%d\n", temp_service->current_notification_number); fprintf(fp, "\tcurrent_notification_id=%lu\n", temp_service->current_notification_id); fprintf(fp, "\tlast_notification=%llu\n", (unsigned long long)temp_service->last_notification); fprintf(fp, "\tnext_notification=%llu\n", (unsigned long long)temp_service->next_notification); fprintf(fp, "\tno_more_notifications=%d\n", temp_service->no_more_notifications); fprintf(fp, "\tnotifications_enabled=%d\n", temp_service->notifications_enabled); fprintf(fp, "\tactive_checks_enabled=%d\n", temp_service->checks_enabled); fprintf(fp, "\tpassive_checks_enabled=%d\n", temp_service->accept_passive_checks); fprintf(fp, "\tevent_handler_enabled=%d\n", temp_service->event_handler_enabled); fprintf(fp, "\tproblem_has_been_acknowledged=%d\n", temp_service->problem_has_been_acknowledged); fprintf(fp, "\tacknowledgement_type=%d\n", temp_service->acknowledgement_type); fprintf(fp, "\tflap_detection_enabled=%d\n", temp_service->flap_detection_enabled); fprintf(fp, "\tprocess_performance_data=%d\n", temp_service->process_performance_data); fprintf(fp, "\tobsess=%d\n", temp_service->obsess); fprintf(fp, "\tlast_update=%llu\n", (unsigned long long)current_time); fprintf(fp, "\tis_flapping=%d\n", temp_service->is_flapping); fprintf(fp, "\tpercent_state_change=%.2f\n", temp_service->percent_state_change); fprintf(fp, "\tscheduled_downtime_depth=%d\n", temp_service->scheduled_downtime_depth); /* custom variables */ for(temp_customvariablesmember = temp_service->custom_variables; temp_customvariablesmember != NULL; temp_customvariablesmember = temp_customvariablesmember->next) { if(temp_customvariablesmember->variable_name) fprintf(fp, "\t_%s=%d;%s\n", temp_customvariablesmember->variable_name, temp_customvariablesmember->has_been_modified, (temp_customvariablesmember->variable_value == NULL) ? "" : temp_customvariablesmember->variable_value); } fprintf(fp, "\t}\n\n"); } /* save contact status data */ for(temp_contact = contact_list; temp_contact != NULL; temp_contact = temp_contact->next) { fprintf(fp, "contactstatus {\n"); fprintf(fp, "\tcontact_name=%s\n", temp_contact->name); fprintf(fp, "\tmodified_attributes=%lu\n", temp_contact->modified_attributes); fprintf(fp, "\tmodified_host_attributes=%lu\n", temp_contact->modified_host_attributes); fprintf(fp, "\tmodified_service_attributes=%lu\n", temp_contact->modified_service_attributes); fprintf(fp, "\thost_notification_period=%s\n", (temp_contact->host_notification_period == NULL) ? "" : temp_contact->host_notification_period); fprintf(fp, "\tservice_notification_period=%s\n", (temp_contact->service_notification_period == NULL) ? "" : temp_contact->service_notification_period); fprintf(fp, "\tlast_host_notification=%llu\n", (unsigned long long)temp_contact->last_host_notification); fprintf(fp, "\tlast_service_notification=%llu\n", (unsigned long long)temp_contact->last_service_notification); fprintf(fp, "\thost_notifications_enabled=%d\n", temp_contact->host_notifications_enabled); fprintf(fp, "\tservice_notifications_enabled=%d\n", temp_contact->service_notifications_enabled); /* custom variables */ for(temp_customvariablesmember = temp_contact->custom_variables; temp_customvariablesmember != NULL; temp_customvariablesmember = temp_customvariablesmember->next) { if(temp_customvariablesmember->variable_name) fprintf(fp, "\t_%s=%d;%s\n", temp_customvariablesmember->variable_name, temp_customvariablesmember->has_been_modified, (temp_customvariablesmember->variable_value == NULL) ? "" : temp_customvariablesmember->variable_value); } fprintf(fp, "\t}\n\n"); } /* save all comments */ for(temp_comment = comment_list; temp_comment != NULL; temp_comment = temp_comment->next) { if(temp_comment->comment_type == HOST_COMMENT) fprintf(fp, "hostcomment {\n"); else fprintf(fp, "servicecomment {\n"); fprintf(fp, "\thost_name=%s\n", temp_comment->host_name); if(temp_comment->comment_type == SERVICE_COMMENT) fprintf(fp, "\tservice_description=%s\n", temp_comment->service_description); fprintf(fp, "\tentry_type=%d\n", temp_comment->entry_type); fprintf(fp, "\tcomment_id=%lu\n", temp_comment->comment_id); fprintf(fp, "\tsource=%d\n", temp_comment->source); fprintf(fp, "\tpersistent=%d\n", temp_comment->persistent); fprintf(fp, "\tentry_time=%llu\n", (unsigned long long)temp_comment->entry_time); fprintf(fp, "\texpires=%d\n", temp_comment->expires); fprintf(fp, "\texpire_time=%llu\n", (unsigned long long)temp_comment->expire_time); fprintf(fp, "\tauthor=%s\n", temp_comment->author); fprintf(fp, "\tcomment_data=%s\n", temp_comment->comment_data); fprintf(fp, "\t}\n\n"); } /* save all downtime */ for(temp_downtime = scheduled_downtime_list; temp_downtime != NULL; temp_downtime = temp_downtime->next) { if(temp_downtime->type == HOST_DOWNTIME) fprintf(fp, "hostdowntime {\n"); else fprintf(fp, "servicedowntime {\n"); fprintf(fp, "\thost_name=%s\n", temp_downtime->host_name); if(temp_downtime->type == SERVICE_DOWNTIME) fprintf(fp, "\tservice_description=%s\n", temp_downtime->service_description); fprintf(fp, "\tdowntime_id=%lu\n", temp_downtime->downtime_id); fprintf(fp, "\tcomment_id=%lu\n", temp_downtime->comment_id); fprintf(fp, "\tentry_time=%llu\n", (unsigned long long)temp_downtime->entry_time); fprintf(fp, "\tstart_time=%llu\n", (unsigned long long)temp_downtime->start_time); fprintf(fp, "\tflex_downtime_start=%llu\n", (unsigned long long)temp_downtime->flex_downtime_start); fprintf(fp, "\tend_time=%llu\n", (unsigned long long)temp_downtime->end_time); fprintf(fp, "\ttriggered_by=%lu\n", temp_downtime->triggered_by); fprintf(fp, "\tfixed=%d\n", temp_downtime->fixed); fprintf(fp, "\tduration=%lu\n", temp_downtime->duration); fprintf(fp, "\tis_in_effect=%d\n", temp_downtime->is_in_effect); fprintf(fp, "\tstart_notification_sent=%d\n", temp_downtime->start_notification_sent); fprintf(fp, "\tauthor=%s\n", temp_downtime->author); fprintf(fp, "\tcomment=%s\n", temp_downtime->comment); fprintf(fp, "\t}\n\n"); } /* reset file permissions */ fchmod(fd, S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH); /* flush the file to disk */ fflush(fp); /* fsync the file so that it is completely written out before moving it */ fsync(fd); /* close the temp file */ result = fclose(fp); /* save/close was successful */ if(result == 0) { result = OK; /* move the temp file to the status log (overwrite the old status log) */ if(my_rename(tmp_log, status_file)) { unlink(tmp_log); logit(NSLOG_RUNTIME_ERROR, TRUE, "Error: Unable to update status data file '%s': %s", status_file, strerror(errno)); result = ERROR; } } /* a problem occurred saving the file */ else { result = ERROR; /* remove temp file and log an error */ unlink(tmp_log); logit(NSLOG_RUNTIME_ERROR, TRUE, "Error: Unable to save status file: %s", strerror(errno)); } /* free memory */ my_free(tmp_log); return result; } #endif #ifdef NSCGI /******************************************************************/ /****************** DEFAULT DATA INPUT FUNCTIONS ******************/ /******************************************************************/ /* read all program, host, and service status information */ int xsddefault_read_status_data(const char *status_file_name, int options) { #ifdef NO_MMAP char input[MAX_PLUGIN_OUTPUT_LENGTH] = ""; FILE *fp = NULL; #else char *input = NULL; mmapfile *thefile = NULL; #endif int data_type = XSDDEFAULT_NO_DATA; hoststatus *temp_hoststatus = NULL; servicestatus *temp_servicestatus = NULL; char *var = NULL; char *val = NULL; char *ptr = NULL; /* comment and downtime vars */ unsigned long comment_id = 0; int persistent = FALSE; int expires = FALSE; time_t expire_time = 0L; int entry_type = USER_COMMENT; int source = COMMENTSOURCE_INTERNAL; time_t entry_time = 0L; char *host_name = NULL; char *service_description = NULL; char *author = NULL; char *comment_data = NULL; scheduled_downtime *temp_downtime; unsigned long downtime_id = 0; time_t start_time = 0L; time_t flex_downtime_start = 0L; time_t end_time = 0L; int fixed = FALSE; unsigned long triggered_by = 0; unsigned long duration = 0L; int x = 0; int is_in_effect = FALSE; int start_notification_sent = FALSE; /* initialize some vars */ for(x = 0; x < MAX_CHECK_STATS_TYPES; x++) { program_stats[x][0] = 0; program_stats[x][1] = 0; program_stats[x][2] = 0; } /* open the status file for reading */ #ifdef NO_MMAP if((fp = fopen(status_file_name, "r")) == NULL) return ERROR; #else if((thefile = mmap_fopen(status_file_name)) == NULL) return ERROR; #endif /* Big speedup when reading status.dat in bulk */ defer_downtime_sorting = 1; defer_comment_sorting = 1; /* read all lines in the status file */ while(1) { #ifdef NO_MMAP strcpy(input, ""); if(fgets(input, sizeof(input), fp) == NULL) break; #else /* free memory */ my_free(input); /* read the next line */ if((input = mmap_fgets(thefile)) == NULL) break; #endif strip(input); /* skip blank lines and comments */ if(input[0] == '#' || input[0] == '\x0') continue; else if(!strcmp(input, "info {")) data_type = XSDDEFAULT_INFO_DATA; else if(!strcmp(input, "programstatus {")) data_type = XSDDEFAULT_PROGRAMSTATUS_DATA; else if(!strcmp(input, "hoststatus {")) { data_type = XSDDEFAULT_HOSTSTATUS_DATA; temp_hoststatus = (hoststatus *)calloc(1, sizeof(hoststatus)); } else if(!strcmp(input, "servicestatus {")) { data_type = XSDDEFAULT_SERVICESTATUS_DATA; temp_servicestatus = (servicestatus *)calloc(1, sizeof(servicestatus)); } else if(!strcmp(input, "contactstatus {")) { data_type = XSDDEFAULT_CONTACTSTATUS_DATA; /* unimplemented */ } else if(!strcmp(input, "hostcomment {")) data_type = XSDDEFAULT_HOSTCOMMENT_DATA; else if(!strcmp(input, "servicecomment {")) data_type = XSDDEFAULT_SERVICECOMMENT_DATA; else if(!strcmp(input, "hostdowntime {")) data_type = XSDDEFAULT_HOSTDOWNTIME_DATA; else if(!strcmp(input, "servicedowntime {")) data_type = XSDDEFAULT_SERVICEDOWNTIME_DATA; else if(!strcmp(input, "}")) { switch(data_type) { case XSDDEFAULT_INFO_DATA: break; case XSDDEFAULT_PROGRAMSTATUS_DATA: break; case XSDDEFAULT_HOSTSTATUS_DATA: add_host_status(temp_hoststatus); temp_hoststatus = NULL; break; case XSDDEFAULT_SERVICESTATUS_DATA: add_service_status(temp_servicestatus); temp_servicestatus = NULL; break; case XSDDEFAULT_CONTACTSTATUS_DATA: /* unimplemented */ break; case XSDDEFAULT_HOSTCOMMENT_DATA: case XSDDEFAULT_SERVICECOMMENT_DATA: /* add the comment */ add_comment((data_type == XSDDEFAULT_HOSTCOMMENT_DATA) ? HOST_COMMENT : SERVICE_COMMENT, entry_type, host_name, service_description, entry_time, author, comment_data, comment_id, persistent, expires, expire_time, source); /* free temp memory */ my_free(host_name); my_free(service_description); my_free(author); my_free(comment_data); /* reset defaults */ entry_type = USER_COMMENT; comment_id = 0; source = COMMENTSOURCE_INTERNAL; persistent = FALSE; entry_time = 0L; expires = FALSE; expire_time = 0L; break; case XSDDEFAULT_HOSTDOWNTIME_DATA: case XSDDEFAULT_SERVICEDOWNTIME_DATA: /* add the downtime */ if(data_type == XSDDEFAULT_HOSTDOWNTIME_DATA) { add_host_downtime(host_name, entry_time, author, comment_data, start_time, flex_downtime_start, end_time, fixed, triggered_by, duration, downtime_id, is_in_effect, start_notification_sent); temp_downtime = find_downtime(HOST_DOWNTIME, downtime_id); } else { add_service_downtime(host_name, service_description, entry_time, author, comment_data, start_time, flex_downtime_start, end_time, fixed, triggered_by, duration, downtime_id, is_in_effect, start_notification_sent); temp_downtime = find_downtime(SERVICE_DOWNTIME, downtime_id); } if (temp_downtime) temp_downtime->comment_id = comment_id; /* free temp memory */ my_free(host_name); my_free(service_description); my_free(author); my_free(comment_data); /* reset defaults */ downtime_id = 0; comment_id = 0; entry_time = 0L; start_time = 0L; end_time = 0L; fixed = FALSE; triggered_by = 0; duration = 0L; is_in_effect = FALSE; start_notification_sent = FALSE; break; default: break; } data_type = XSDDEFAULT_NO_DATA; } else if(data_type != XSDDEFAULT_NO_DATA) { var = strtok(input, "="); val = strtok(NULL, "\n"); if(val == NULL) continue; switch(data_type) { case XSDDEFAULT_INFO_DATA: break; case XSDDEFAULT_PROGRAMSTATUS_DATA: /* NOTE: some vars are not read, as they are not used by the CGIs (modified attributes, event handler commands, etc.) */ if(!strcmp(var, "nagios_pid")) nagios_pid = atoi(val); else if(!strcmp(var, "daemon_mode")) daemon_mode = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "program_start")) program_start = strtoul(val, NULL, 10); else if(!strcmp(var, "last_log_rotation")) last_log_rotation = strtoul(val, NULL, 10); else if(!strcmp(var, "enable_notifications")) enable_notifications = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "active_service_checks_enabled")) execute_service_checks = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "passive_service_checks_enabled")) accept_passive_service_checks = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "active_host_checks_enabled")) execute_host_checks = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "passive_host_checks_enabled")) accept_passive_host_checks = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "enable_event_handlers")) enable_event_handlers = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "obsess_over_services")) obsess_over_services = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "obsess_over_hosts")) obsess_over_hosts = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "check_service_freshness")) check_service_freshness = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "check_host_freshness")) check_host_freshness = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "enable_flap_detection")) enable_flap_detection = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "process_performance_data")) process_performance_data = (atoi(val) > 0) ? TRUE : FALSE; else if(strstr(var, "_stats")) { x = -1; if(!strcmp(var, "active_scheduled_host_check_stats")) x = ACTIVE_SCHEDULED_HOST_CHECK_STATS; if(!strcmp(var, "active_ondemand_host_check_stats")) x = ACTIVE_ONDEMAND_HOST_CHECK_STATS; if(!strcmp(var, "passive_host_check_stats")) x = PASSIVE_HOST_CHECK_STATS; if(!strcmp(var, "active_scheduled_service_check_stats")) x = ACTIVE_SCHEDULED_SERVICE_CHECK_STATS; if(!strcmp(var, "active_ondemand_service_check_stats")) x = ACTIVE_ONDEMAND_SERVICE_CHECK_STATS; if(!strcmp(var, "passive_service_check_stats")) x = PASSIVE_SERVICE_CHECK_STATS; if(!strcmp(var, "cached_host_check_stats")) x = ACTIVE_CACHED_HOST_CHECK_STATS; if(!strcmp(var, "cached_service_check_stats")) x = ACTIVE_CACHED_SERVICE_CHECK_STATS; if(!strcmp(var, "external_command_stats")) x = EXTERNAL_COMMAND_STATS; if(!strcmp(var, "parallel_host_check_stats")) x = PARALLEL_HOST_CHECK_STATS; if(!strcmp(var, "serial_host_check_stats")) x = SERIAL_HOST_CHECK_STATS; if(x >= 0) { if((ptr = strtok(val, ","))) { program_stats[x][0] = atoi(ptr); if((ptr = strtok(NULL, ","))) { program_stats[x][1] = atoi(ptr); if((ptr = strtok(NULL, "\n"))) program_stats[x][2] = atoi(ptr); } } } } break; case XSDDEFAULT_HOSTSTATUS_DATA: /* NOTE: some vars are not read, as they are not used by the CGIs (modified attributes, event handler commands, etc.) */ if(temp_hoststatus != NULL) { if(!strcmp(var, "host_name")) temp_hoststatus->host_name = (char *)strdup(val); else if(!strcmp(var, "has_been_checked")) temp_hoststatus->has_been_checked = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "should_be_scheduled")) temp_hoststatus->should_be_scheduled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "check_execution_time")) temp_hoststatus->execution_time = strtod(val, NULL); else if(!strcmp(var, "check_latency")) temp_hoststatus->latency = strtod(val, NULL); else if(!strcmp(var, "check_type")) temp_hoststatus->check_type = atoi(val); else if(!strcmp(var, "current_state")) temp_hoststatus->status = atoi(val); else if(!strcmp(var, "last_hard_state")) temp_hoststatus->last_hard_state = atoi(val); else if(!strcmp(var, "plugin_output")) { temp_hoststatus->plugin_output = (char *)strdup(val); unescape_newlines(temp_hoststatus->plugin_output); } else if(!strcmp(var, "long_plugin_output")) { temp_hoststatus->long_plugin_output = (char *)strdup(val); unescape_newlines(temp_hoststatus->long_plugin_output); } else if(!strcmp(var, "performance_data")) temp_hoststatus->perf_data = (char *)strdup(val); else if(!strcmp(var, "current_attempt")) temp_hoststatus->current_attempt = atoi(val); else if(!strcmp(var, "max_attempts")) temp_hoststatus->max_attempts = atoi(val); else if(!strcmp(var, "last_check")) temp_hoststatus->last_check = strtoul(val, NULL, 10); else if(!strcmp(var, "next_check")) temp_hoststatus->next_check = strtoul(val, NULL, 10); else if(!strcmp(var, "check_options")) temp_hoststatus->check_options = atoi(val); else if(!strcmp(var, "state_type")) temp_hoststatus->state_type = atoi(val); else if(!strcmp(var, "last_state_change")) temp_hoststatus->last_state_change = strtoul(val, NULL, 10); else if(!strcmp(var, "last_hard_state_change")) temp_hoststatus->last_hard_state_change = strtoul(val, NULL, 10); else if(!strcmp(var, "last_time_up")) temp_hoststatus->last_time_up = strtoul(val, NULL, 10); else if(!strcmp(var, "last_time_down")) temp_hoststatus->last_time_down = strtoul(val, NULL, 10); else if(!strcmp(var, "last_time_unreachable")) temp_hoststatus->last_time_unreachable = strtoul(val, NULL, 10); else if(!strcmp(var, "last_notification")) temp_hoststatus->last_notification = strtoul(val, NULL, 10); else if(!strcmp(var, "next_notification")) temp_hoststatus->next_notification = strtoul(val, NULL, 10); else if(!strcmp(var, "no_more_notifications")) temp_hoststatus->no_more_notifications = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "current_notification_number")) temp_hoststatus->current_notification_number = atoi(val); else if(!strcmp(var, "notifications_enabled")) temp_hoststatus->notifications_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "problem_has_been_acknowledged")) temp_hoststatus->problem_has_been_acknowledged = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "acknowledgement_type")) temp_hoststatus->acknowledgement_type = atoi(val); else if(!strcmp(var, "active_checks_enabled")) temp_hoststatus->checks_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "passive_checks_enabled")) temp_hoststatus->accept_passive_checks = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "event_handler_enabled")) temp_hoststatus->event_handler_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "flap_detection_enabled")) temp_hoststatus->flap_detection_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "process_performance_data")) temp_hoststatus->process_performance_data = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "obsess_over_host") || !strcmp(var, "obsess")) temp_hoststatus->obsess = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "last_update")) temp_hoststatus->last_update = strtoul(val, NULL, 10); else if(!strcmp(var, "is_flapping")) temp_hoststatus->is_flapping = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "percent_state_change")) temp_hoststatus->percent_state_change = strtod(val, NULL); else if(!strcmp(var, "scheduled_downtime_depth")) { temp_hoststatus->scheduled_downtime_depth = atoi(val); if (temp_hoststatus->scheduled_downtime_depth < 0) temp_hoststatus->scheduled_downtime_depth = 0; } } break; case XSDDEFAULT_SERVICESTATUS_DATA: /* NOTE: some vars are not read, as they are not used by the CGIs (modified attributes, event handler commands, etc.) */ if(temp_servicestatus != NULL) { if(!strcmp(var, "host_name")) temp_servicestatus->host_name = (char *)strdup(val); else if(!strcmp(var, "service_description")) temp_servicestatus->description = (char *)strdup(val); else if(!strcmp(var, "has_been_checked")) temp_servicestatus->has_been_checked = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "should_be_scheduled")) temp_servicestatus->should_be_scheduled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "check_execution_time")) temp_servicestatus->execution_time = strtod(val, NULL); else if(!strcmp(var, "check_latency")) temp_servicestatus->latency = strtod(val, NULL); else if(!strcmp(var, "check_type")) temp_servicestatus->check_type = atoi(val); else if(!strcmp(var, "current_state")) temp_servicestatus->status = atoi(val); else if(!strcmp(var, "last_hard_state")) temp_servicestatus->last_hard_state = atoi(val); else if(!strcmp(var, "current_attempt")) temp_servicestatus->current_attempt = atoi(val); else if(!strcmp(var, "max_attempts")) temp_servicestatus->max_attempts = atoi(val); else if(!strcmp(var, "state_type")) temp_servicestatus->state_type = atoi(val); else if(!strcmp(var, "last_state_change")) temp_servicestatus->last_state_change = strtoul(val, NULL, 10); else if(!strcmp(var, "last_hard_state_change")) temp_servicestatus->last_hard_state_change = strtoul(val, NULL, 10); else if(!strcmp(var, "last_time_ok")) temp_servicestatus->last_time_ok = strtoul(val, NULL, 10); else if(!strcmp(var, "last_time_warning")) temp_servicestatus->last_time_warning = strtoul(val, NULL, 10); else if(!strcmp(var, "last_time_unknown")) temp_servicestatus->last_time_unknown = strtoul(val, NULL, 10); else if(!strcmp(var, "last_time_critical")) temp_servicestatus->last_time_critical = strtoul(val, NULL, 10); else if(!strcmp(var, "plugin_output")) { temp_servicestatus->plugin_output = (char *)strdup(val); unescape_newlines(temp_servicestatus->plugin_output); } else if(!strcmp(var, "long_plugin_output")) { temp_servicestatus->long_plugin_output = (char *)strdup(val); unescape_newlines(temp_servicestatus->long_plugin_output); } else if(!strcmp(var, "performance_data")) temp_servicestatus->perf_data = (char *)strdup(val); else if(!strcmp(var, "last_check")) temp_servicestatus->last_check = strtoul(val, NULL, 10); else if(!strcmp(var, "next_check")) temp_servicestatus->next_check = strtoul(val, NULL, 10); else if(!strcmp(var, "check_options")) temp_servicestatus->check_options = atoi(val); else if(!strcmp(var, "current_notification_number")) temp_servicestatus->current_notification_number = atoi(val); else if(!strcmp(var, "last_notification")) temp_servicestatus->last_notification = strtoul(val, NULL, 10); else if(!strcmp(var, "next_notification")) temp_servicestatus->next_notification = strtoul(val, NULL, 10); else if(!strcmp(var, "no_more_notifications")) temp_servicestatus->no_more_notifications = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "notifications_enabled")) temp_servicestatus->notifications_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "active_checks_enabled")) temp_servicestatus->checks_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "passive_checks_enabled")) temp_servicestatus->accept_passive_checks = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "event_handler_enabled")) temp_servicestatus->event_handler_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "problem_has_been_acknowledged")) temp_servicestatus->problem_has_been_acknowledged = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "acknowledgement_type")) temp_servicestatus->acknowledgement_type = atoi(val); else if(!strcmp(var, "flap_detection_enabled")) temp_servicestatus->flap_detection_enabled = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "process_performance_data")) temp_servicestatus->process_performance_data = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "obsess_over_service") || !strcmp(var, "obsess")) temp_servicestatus->obsess = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "last_update")) temp_servicestatus->last_update = strtoul(val, NULL, 10); else if(!strcmp(var, "is_flapping")) temp_servicestatus->is_flapping = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "percent_state_change")) temp_servicestatus->percent_state_change = strtod(val, NULL); else if(!strcmp(var, "scheduled_downtime_depth")) { temp_servicestatus->scheduled_downtime_depth = atoi(val); if (temp_servicestatus->scheduled_downtime_depth < 0) temp_servicestatus->scheduled_downtime_depth = 0; } } break; case XSDDEFAULT_CONTACTSTATUS_DATA: /* unimplemented */ break; case XSDDEFAULT_HOSTCOMMENT_DATA: case XSDDEFAULT_SERVICECOMMENT_DATA: if(!strcmp(var, "host_name")) host_name = (char *)strdup(val); else if(!strcmp(var, "service_description")) service_description = (char *)strdup(val); else if(!strcmp(var, "entry_type")) entry_type = atoi(val); else if(!strcmp(var, "comment_id")) comment_id = strtoul(val, NULL, 10); else if(!strcmp(var, "source")) source = atoi(val); else if(!strcmp(var, "persistent")) persistent = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "entry_time")) entry_time = strtoul(val, NULL, 10); else if(!strcmp(var, "expires")) expires = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "expire_time")) expire_time = strtoul(val, NULL, 10); else if(!strcmp(var, "author")) author = (char *)strdup(val); else if(!strcmp(var, "comment_data")) comment_data = (char *)strdup(val); break; case XSDDEFAULT_HOSTDOWNTIME_DATA: case XSDDEFAULT_SERVICEDOWNTIME_DATA: if(!strcmp(var, "host_name")) host_name = (char *)strdup(val); else if(!strcmp(var, "service_description")) service_description = (char *)strdup(val); else if(!strcmp(var, "downtime_id")) downtime_id = strtoul(val, NULL, 10); else if(!strcmp(var, "comment_id")) comment_id = strtoul(val, NULL, 10); else if(!strcmp(var, "entry_time")) entry_time = strtoul(val, NULL, 10); else if(!strcmp(var, "start_time")) start_time = strtoul(val, NULL, 10); else if(!strcmp(var, "flex_downtime_start")) flex_downtime_start = strtoul(val, NULL, 10); else if(!strcmp(var, "end_time")) end_time = strtoul(val, NULL, 10); else if(!strcmp(var, "fixed")) fixed = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "triggered_by")) triggered_by = strtoul(val, NULL, 10); else if(!strcmp(var, "duration")) duration = strtoul(val, NULL, 10); else if(!strcmp(var, "is_in_effect")) is_in_effect = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "start_notification_sent")) start_notification_sent = (atoi(val) > 0) ? TRUE : FALSE; else if(!strcmp(var, "author")) author = (char *)strdup(val); else if(!strcmp(var, "comment")) comment_data = (char *)strdup(val); break; default: break; } } } /* free memory and close the file */ #ifdef NO_MMAP fclose(fp); #else my_free(input); mmap_fclose(thefile); #endif if(sort_downtime() != OK) return ERROR; if(sort_comments() != OK) return ERROR; return OK; } #endif