/***************************************************************************** * * BROKER.C - Event broker 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. * *****************************************************************************/ #include "../include/config.h" #include "../include/common.h" #include "../include/nagios.h" #include "../include/broker.h" #include "../include/nebcallbacks.h" #include "../include/nebstructs.h" #include "../include/nebmods.h" #ifdef USE_EVENT_BROKER /******************************************************************/ /************************* EVENT FUNCTIONS ************************/ /******************************************************************/ /* sends program data (starts, restarts, stops, etc.) to broker */ void broker_program_state(int type, int flags, int attr, struct timeval *timestamp) { nebstruct_process_data ds; if(!(event_broker_options & BROKER_PROGRAM_STATE)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); /* make callbacks */ neb_make_callbacks(NEBCALLBACK_PROCESS_DATA, (void *)&ds); return; } /* send timed event data to broker */ void broker_timed_event(int type, int flags, int attr, timed_event *event, struct timeval *timestamp) { nebstruct_timed_event_data ds; if(!(event_broker_options & BROKER_TIMED_EVENTS)) return; if(event == NULL) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.event_type = event->event_type; ds.recurring = event->recurring; ds.run_time = event->run_time; ds.event_data = event->event_data; ds.event_ptr = (void *)event; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_TIMED_EVENT_DATA, (void *)&ds); return; } /* send log data to broker */ void broker_log_data(int type, int flags, int attr, char *data, unsigned long data_type, time_t entry_time, struct timeval *timestamp) { nebstruct_log_data ds; if(!(event_broker_options & BROKER_LOGGED_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.entry_time = entry_time; ds.data_type = data_type; ds.data = data; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_LOG_DATA, (void *)&ds); return; } /* send system command data to broker */ void broker_system_command(int type, int flags, int attr, struct timeval start_time, struct timeval end_time, double exectime, int timeout, int early_timeout, int retcode, char *cmd, char *output, struct timeval *timestamp) { nebstruct_system_command_data ds; if(!(event_broker_options & BROKER_SYSTEM_COMMANDS)) return; if(cmd == NULL) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.start_time = start_time; ds.end_time = end_time; ds.timeout = timeout; ds.command_line = cmd; ds.early_timeout = early_timeout; ds.execution_time = exectime; ds.return_code = retcode; ds.output = output; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_SYSTEM_COMMAND_DATA, (void *)&ds); return; } /* send event handler data to broker */ int broker_event_handler(int type, int flags, int attr, int eventhandler_type, void *data, int state, int state_type, struct timeval start_time, struct timeval end_time, double exectime, int timeout, int early_timeout, int retcode, char *cmd, char *cmdline, char *output, struct timeval *timestamp) { service *temp_service = NULL; host *temp_host = NULL; char *command_buf = NULL; char *command_name = NULL; char *command_args = NULL; nebstruct_event_handler_data ds; int return_code = OK; if(!(event_broker_options & BROKER_EVENT_HANDLERS)) return return_code; if(data == NULL) return ERROR; /* get command name/args */ if(cmd != NULL) { command_buf = (char *)strdup(cmd); command_name = strtok(command_buf, "!"); command_args = strtok(NULL, "\x0"); } /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.eventhandler_type = eventhandler_type; if(eventhandler_type == SERVICE_EVENTHANDLER || eventhandler_type == GLOBAL_SERVICE_EVENTHANDLER) { temp_service = (service *)data; ds.host_name = temp_service->host_name; ds.service_description = temp_service->description; } else { temp_host = (host *)data; ds.host_name = temp_host->name; ds.service_description = NULL; } ds.object_ptr = data; ds.state = state; ds.state_type = state_type; ds.start_time = start_time; ds.end_time = end_time; ds.timeout = timeout; ds.command_name = command_name; ds.command_args = command_args; ds.command_line = cmdline; ds.early_timeout = early_timeout; ds.execution_time = exectime; ds.return_code = retcode; ds.output = output; /* make callbacks */ return_code = neb_make_callbacks(NEBCALLBACK_EVENT_HANDLER_DATA, (void *)&ds); /* free memory */ my_free(command_buf); return return_code; } /* send host check data to broker */ int broker_host_check(int type, int flags, int attr, host *hst, int check_type, int state, int state_type, struct timeval start_time, struct timeval end_time, char *cmd, double latency, double exectime, int timeout, int early_timeout, int retcode, char *cmdline, char *output, char *long_output, char *perfdata, struct timeval *timestamp, check_result *cr) { char *command_buf = NULL; char *command_name = NULL; char *command_args = NULL; nebstruct_host_check_data ds; int return_code = OK; if(!(event_broker_options & BROKER_HOST_CHECKS)) return OK; if(hst == NULL) return ERROR; /* get command name/args */ if(cmd != NULL) { command_buf = (char *)strdup(cmd); command_name = strtok(command_buf, "!"); command_args = strtok(NULL, "\x0"); } /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.host_name = hst->name; ds.object_ptr = (void *)hst; ds.check_type = check_type; ds.current_attempt = hst->current_attempt; ds.max_attempts = hst->max_attempts; ds.state = state; ds.state_type = state_type; ds.timeout = timeout; ds.command_name = command_name; ds.command_args = command_args; ds.command_line = cmdline; ds.start_time = start_time; ds.end_time = end_time; ds.early_timeout = early_timeout; ds.execution_time = exectime; ds.latency = latency; ds.return_code = retcode; ds.output = output; ds.long_output = long_output; ds.perf_data = perfdata; ds.check_result_ptr = cr; /* make callbacks */ return_code = neb_make_callbacks(NEBCALLBACK_HOST_CHECK_DATA, (void *)&ds); /* free data */ my_free(command_buf); return return_code; } /* send service check data to broker */ int broker_service_check(int type, int flags, int attr, service *svc, int check_type, struct timeval start_time, struct timeval end_time, char *cmd, double latency, double exectime, int timeout, int early_timeout, int retcode, char *cmdline, struct timeval *timestamp, check_result *cr) { char *command_buf = NULL; char *command_name = NULL; char *command_args = NULL; nebstruct_service_check_data ds; int return_code = OK; if(!(event_broker_options & BROKER_SERVICE_CHECKS)) return OK; if(svc == NULL) return ERROR; /* get command name/args */ if(cmd != NULL) { command_buf = (char *)strdup(cmd); command_name = strtok(command_buf, "!"); command_args = strtok(NULL, "\x0"); } /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.host_name = svc->host_name; ds.service_description = svc->description; ds.object_ptr = (void *)svc; ds.check_type = check_type; ds.current_attempt = svc->current_attempt; ds.max_attempts = svc->max_attempts; ds.state = svc->current_state; ds.state_type = svc->state_type; ds.timeout = timeout; ds.command_name = command_name; ds.command_args = command_args; ds.command_line = cmdline; ds.start_time = start_time; ds.end_time = end_time; ds.early_timeout = early_timeout; ds.execution_time = exectime; ds.latency = latency; ds.return_code = retcode; ds.output = svc->plugin_output; ds.long_output = svc->long_plugin_output; ds.perf_data = svc->perf_data; ds.check_result_ptr = cr; /* make callbacks */ return_code = neb_make_callbacks(NEBCALLBACK_SERVICE_CHECK_DATA, (void *)&ds); /* free data */ my_free(command_buf); return return_code; } /* send comment data to broker */ void broker_comment_data(int type, int flags, int attr, int comment_type, int entry_type, char *host_name, char *svc_description, time_t entry_time, char *author_name, char *comment_data, int persistent, int source, int expires, time_t expire_time, unsigned long comment_id, struct timeval *timestamp) { nebstruct_comment_data ds; if(!(event_broker_options & BROKER_COMMENT_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.comment_type = comment_type; ds.entry_type = entry_type; ds.host_name = host_name; ds.service_description = svc_description; ds.object_ptr = NULL; /* not implemented yet */ ds.entry_time = entry_time; ds.author_name = author_name; ds.comment_data = comment_data; ds.persistent = persistent; ds.source = source; ds.expires = expires; ds.expire_time = expire_time; ds.comment_id = comment_id; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_COMMENT_DATA, (void *)&ds); return; } /* send downtime data to broker */ void broker_downtime_data(int type, int flags, int attr, int downtime_type, char *host_name, char *svc_description, time_t entry_time, char *author_name, char *comment_data, time_t start_time, time_t end_time, int fixed, unsigned long triggered_by, unsigned long duration, unsigned long downtime_id, struct timeval *timestamp) { nebstruct_downtime_data ds; if(!(event_broker_options & BROKER_DOWNTIME_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.downtime_type = downtime_type; ds.host_name = host_name; ds.service_description = svc_description; ds.object_ptr = NULL; /* not implemented yet */ ds.entry_time = entry_time; ds.author_name = author_name; ds.comment_data = comment_data; ds.start_time = start_time; ds.end_time = end_time; ds.fixed = fixed; ds.duration = duration; ds.triggered_by = triggered_by; ds.downtime_id = downtime_id; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_DOWNTIME_DATA, (void *)&ds); return; } /* send flapping data to broker */ void broker_flapping_data(int type, int flags, int attr, int flapping_type, void *data, double percent_change, double high_threshold, double low_threshold, struct timeval *timestamp) { nebstruct_flapping_data ds; host *temp_host = NULL; service *temp_service = NULL; if(!(event_broker_options & BROKER_FLAPPING_DATA)) return; if(data == NULL) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.flapping_type = flapping_type; if(flapping_type == SERVICE_FLAPPING) { temp_service = (service *)data; ds.host_name = temp_service->host_name; ds.service_description = temp_service->description; ds.comment_id = temp_service->flapping_comment_id; } else { temp_host = (host *)data; ds.host_name = temp_host->name; ds.service_description = NULL; ds.comment_id = temp_host->flapping_comment_id; } ds.object_ptr = data; ds.percent_change = percent_change; ds.high_threshold = high_threshold; ds.low_threshold = low_threshold; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_FLAPPING_DATA, (void *)&ds); return; } /* sends program status updates to broker */ void broker_program_status(int type, int flags, int attr, struct timeval *timestamp) { nebstruct_program_status_data ds; if(!(event_broker_options & BROKER_STATUS_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.program_start = program_start; ds.pid = nagios_pid; ds.daemon_mode = daemon_mode; ds.last_log_rotation = last_log_rotation; ds.notifications_enabled = enable_notifications; ds.active_service_checks_enabled = execute_service_checks; ds.passive_service_checks_enabled = accept_passive_service_checks; ds.active_host_checks_enabled = execute_host_checks; ds.passive_host_checks_enabled = accept_passive_host_checks; ds.event_handlers_enabled = enable_event_handlers; ds.flap_detection_enabled = enable_flap_detection; ds.process_performance_data = process_performance_data; ds.obsess_over_hosts = obsess_over_hosts; ds.obsess_over_services = obsess_over_services; ds.modified_host_attributes = modified_host_process_attributes; ds.modified_service_attributes = modified_service_process_attributes; ds.global_host_event_handler = global_host_event_handler; ds.global_service_event_handler = global_service_event_handler; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_PROGRAM_STATUS_DATA, (void *)&ds); return; } /* sends host status updates to broker */ void broker_host_status(int type, int flags, int attr, host *hst, struct timeval *timestamp) { nebstruct_host_status_data ds; if(!(event_broker_options & BROKER_STATUS_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.object_ptr = (void *)hst; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_HOST_STATUS_DATA, (void *)&ds); return; } /* sends service status updates to broker */ void broker_service_status(int type, int flags, int attr, service *svc, struct timeval *timestamp) { nebstruct_service_status_data ds; if(!(event_broker_options & BROKER_STATUS_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.object_ptr = (void *)svc; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_SERVICE_STATUS_DATA, (void *)&ds); return; } /* sends contact status updates to broker */ void broker_contact_status(int type, int flags, int attr, contact *cntct, struct timeval *timestamp) { nebstruct_service_status_data ds; if(!(event_broker_options & BROKER_STATUS_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.object_ptr = (void *)cntct; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_CONTACT_STATUS_DATA, (void *)&ds); return; } /* send notification data to broker */ int broker_notification_data(int type, int flags, int attr, int notification_type, int reason_type, struct timeval start_time, struct timeval end_time, void *data, char *ack_author, char *ack_data, int escalated, int contacts_notified, struct timeval *timestamp) { nebstruct_notification_data ds; host *temp_host = NULL; service *temp_service = NULL; int return_code = OK; if(!(event_broker_options & BROKER_NOTIFICATIONS)) return return_code; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.notification_type = notification_type; ds.start_time = start_time; ds.end_time = end_time; ds.reason_type = reason_type; if(notification_type == SERVICE_NOTIFICATION) { temp_service = (service *)data; ds.host_name = temp_service->host_name; ds.service_description = temp_service->description; ds.state = temp_service->current_state; ds.output = temp_service->plugin_output; } else { temp_host = (host *)data; ds.host_name = temp_host->name; ds.service_description = NULL; ds.state = temp_host->current_state; ds.output = temp_host->plugin_output; } ds.object_ptr = data; ds.ack_author = ack_author; ds.ack_data = ack_data; ds.escalated = escalated; ds.contacts_notified = contacts_notified; /* make callbacks */ return_code = neb_make_callbacks(NEBCALLBACK_NOTIFICATION_DATA, (void *)&ds); return return_code; } /* send contact notification data to broker */ int broker_contact_notification_data(int type, int flags, int attr, int notification_type, int reason_type, struct timeval start_time, struct timeval end_time, void *data, contact *cntct, char *ack_author, char *ack_data, int escalated, struct timeval *timestamp) { nebstruct_contact_notification_data ds; host *temp_host = NULL; service *temp_service = NULL; int return_code = OK; if(!(event_broker_options & BROKER_NOTIFICATIONS)) return return_code; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.notification_type = notification_type; ds.start_time = start_time; ds.end_time = end_time; ds.reason_type = reason_type; ds.contact_name = cntct->name; if(notification_type == SERVICE_NOTIFICATION) { temp_service = (service *)data; ds.host_name = temp_service->host_name; ds.service_description = temp_service->description; ds.state = temp_service->current_state; ds.output = temp_service->plugin_output; } else { temp_host = (host *)data; ds.host_name = temp_host->name; ds.service_description = NULL; ds.state = temp_host->current_state; ds.output = temp_host->plugin_output; } ds.object_ptr = data; ds.contact_ptr = (void *)cntct; ds.ack_author = ack_author; ds.ack_data = ack_data; ds.escalated = escalated; /* make callbacks */ return_code = neb_make_callbacks(NEBCALLBACK_CONTACT_NOTIFICATION_DATA, (void *)&ds); return return_code; } /* send contact notification data to broker */ int broker_contact_notification_method_data(int type, int flags, int attr, int notification_type, int reason_type, struct timeval start_time, struct timeval end_time, void *data, contact *cntct, char *cmd, char *ack_author, char *ack_data, int escalated, struct timeval *timestamp) { nebstruct_contact_notification_method_data ds; host *temp_host = NULL; service *temp_service = NULL; char *command_buf = NULL; char *command_name = NULL; char *command_args = NULL; int return_code = OK; if(!(event_broker_options & BROKER_NOTIFICATIONS)) return return_code; /* get command name/args */ if(cmd != NULL) { command_buf = (char *)strdup(cmd); command_name = strtok(command_buf, "!"); command_args = strtok(NULL, "\x0"); } /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.notification_type = notification_type; ds.start_time = start_time; ds.end_time = end_time; ds.reason_type = reason_type; ds.contact_name = cntct->name; ds.command_name = command_name; ds.command_args = command_args; if(notification_type == SERVICE_NOTIFICATION) { temp_service = (service *)data; ds.host_name = temp_service->host_name; ds.service_description = temp_service->description; ds.state = temp_service->current_state; ds.output = temp_service->plugin_output; } else { temp_host = (host *)data; ds.host_name = temp_host->name; ds.service_description = NULL; ds.state = temp_host->current_state; ds.output = temp_host->plugin_output; } ds.object_ptr = data; ds.contact_ptr = (void *)cntct; ds.ack_author = ack_author; ds.ack_data = ack_data; ds.escalated = escalated; /* make callbacks */ return_code = neb_make_callbacks(NEBCALLBACK_CONTACT_NOTIFICATION_METHOD_DATA, (void *)&ds); /* free memory */ my_free(command_buf); return return_code; } /* sends adaptive programs updates to broker */ void broker_adaptive_program_data(int type, int flags, int attr, int command_type, unsigned long modhattr, unsigned long modhattrs, unsigned long modsattr, unsigned long modsattrs, struct timeval *timestamp) { nebstruct_adaptive_program_data ds; if(!(event_broker_options & BROKER_ADAPTIVE_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.command_type = command_type; ds.modified_host_attribute = modhattr; ds.modified_host_attributes = modhattrs; ds.modified_service_attribute = modsattr; ds.modified_service_attributes = modsattrs; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_ADAPTIVE_PROGRAM_DATA, (void *)&ds); return; } /* sends adaptive host updates to broker */ void broker_adaptive_host_data(int type, int flags, int attr, host *hst, int command_type, unsigned long modattr, unsigned long modattrs, struct timeval *timestamp) { nebstruct_adaptive_host_data ds; if(!(event_broker_options & BROKER_ADAPTIVE_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.command_type = command_type; ds.modified_attribute = modattr; ds.modified_attributes = modattrs; ds.object_ptr = (void *)hst; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_ADAPTIVE_HOST_DATA, (void *)&ds); return; } /* sends adaptive service updates to broker */ void broker_adaptive_service_data(int type, int flags, int attr, service *svc, int command_type, unsigned long modattr, unsigned long modattrs, struct timeval *timestamp) { nebstruct_adaptive_service_data ds; if(!(event_broker_options & BROKER_ADAPTIVE_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.command_type = command_type; ds.modified_attribute = modattr; ds.modified_attributes = modattrs; ds.object_ptr = (void *)svc; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_ADAPTIVE_SERVICE_DATA, (void *)&ds); return; } /* sends adaptive contact updates to broker */ void broker_adaptive_contact_data(int type, int flags, int attr, contact *cntct, int command_type, unsigned long modattr, unsigned long modattrs, unsigned long modhattr, unsigned long modhattrs, unsigned long modsattr, unsigned long modsattrs, struct timeval *timestamp) { nebstruct_adaptive_contact_data ds; if(!(event_broker_options & BROKER_ADAPTIVE_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.command_type = command_type; ds.modified_attribute = modattr; ds.modified_attributes = modattrs; ds.modified_host_attribute = modhattr; ds.modified_host_attributes = modhattrs; ds.modified_service_attribute = modsattr; ds.modified_service_attributes = modsattrs; ds.object_ptr = (void *)cntct; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_ADAPTIVE_CONTACT_DATA, (void *)&ds); return; } /* sends external commands to broker */ void broker_external_command(int type, int flags, int attr, int command_type, time_t entry_time, char *command_string, char *command_args, struct timeval *timestamp) { nebstruct_external_command_data ds; if(!(event_broker_options & BROKER_EXTERNALCOMMAND_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.command_type = command_type; ds.entry_time = entry_time; ds.command_string = command_string; ds.command_args = command_args; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_EXTERNAL_COMMAND_DATA, (void *)&ds); return; } /* brokers aggregated status dumps */ void broker_aggregated_status_data(int type, int flags, int attr, struct timeval *timestamp) { nebstruct_aggregated_status_data ds; if(!(event_broker_options & BROKER_STATUS_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); /* make callbacks */ neb_make_callbacks(NEBCALLBACK_AGGREGATED_STATUS_DATA, (void *)&ds); return; } /* brokers retention data */ void broker_retention_data(int type, int flags, int attr, struct timeval *timestamp) { nebstruct_retention_data ds; if(!(event_broker_options & BROKER_RETENTION_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); /* make callbacks */ neb_make_callbacks(NEBCALLBACK_RETENTION_DATA, (void *)&ds); return; } /* send acknowledgement data to broker */ void broker_acknowledgement_data(int type, int flags, int attr, int acknowledgement_type, void *data, char *ack_author, char *ack_data, int subtype, int notify_contacts, int persistent_comment, struct timeval *timestamp) { nebstruct_acknowledgement_data ds; host *temp_host = NULL; service *temp_service = NULL; if(!(event_broker_options & BROKER_ACKNOWLEDGEMENT_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.acknowledgement_type = acknowledgement_type; if(acknowledgement_type == SERVICE_ACKNOWLEDGEMENT) { temp_service = (service *)data; ds.host_name = temp_service->host_name; ds.service_description = temp_service->description; ds.state = temp_service->current_state; } else { temp_host = (host *)data; ds.host_name = temp_host->name; ds.service_description = NULL; ds.state = temp_host->current_state; } ds.object_ptr = data; ds.author_name = ack_author; ds.comment_data = ack_data; ds.is_sticky = (subtype == ACKNOWLEDGEMENT_STICKY) ? TRUE : FALSE; ds.notify_contacts = notify_contacts; ds.persistent_comment = persistent_comment; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_ACKNOWLEDGEMENT_DATA, (void *)&ds); return; } /* send state change data to broker */ void broker_statechange_data(int type, int flags, int attr, int statechange_type, void *data, int state, int state_type, int current_attempt, int max_attempts, struct timeval *timestamp) { nebstruct_statechange_data ds; host *temp_host = NULL; service *temp_service = NULL; if(!(event_broker_options & BROKER_STATECHANGE_DATA)) return; /* fill struct with relevant data */ ds.type = type; ds.flags = flags; ds.attr = attr; ds.timestamp = get_broker_timestamp(timestamp); ds.statechange_type = statechange_type; if(statechange_type == SERVICE_STATECHANGE) { temp_service = (service *)data; ds.host_name = temp_service->host_name; ds.service_description = temp_service->description; ds.output = temp_service->plugin_output; ds.longoutput = temp_service->long_plugin_output; } else { temp_host = (host *)data; ds.host_name = temp_host->name; ds.service_description = NULL; ds.output = temp_host->plugin_output; ds.longoutput = temp_host->long_plugin_output; } ds.object_ptr = data; ds.state = state; ds.state_type = state_type; ds.current_attempt = current_attempt; ds.max_attempts = max_attempts; /* make callbacks */ neb_make_callbacks(NEBCALLBACK_STATE_CHANGE_DATA, (void *)&ds); return; } /******************************************************************/ /************************ UTILITY FUNCTIONS ***********************/ /******************************************************************/ /* gets timestamp for use by broker */ struct timeval get_broker_timestamp(struct timeval *timestamp) { struct timeval tv; if(timestamp == NULL) gettimeofday(&tv, NULL); else tv = *timestamp; return tv; } #endif