/***************************************************************************** * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * 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, see . * * *****************************************************************************/ #define TEST_CHECKS_C #define NSCORE 1 #include #include "config.h" #include "comments.h" #include "common.h" #include "statusdata.h" #include "downtime.h" #include "macros.h" #include "nagios.h" #include "broker.h" #include "perfdata.h" #include "../lib/lnag-utils.h" #include "tap.h" #include "stub_sehandlers.c" #include "stub_comments.c" #include "stub_perfdata.c" #include "stub_downtime.c" #include "stub_notifications.c" #include "stub_logging.c" #include "stub_broker.c" #include "stub_macros.c" #include "stub_workers.c" #include "stub_events.c" #include "stub_statusdata.c" #include "stub_flapping.c" #include "stub_nebmods.c" #include "stub_netutils.c" #include "stub_commands.c" #include "stub_xodtemplate.c" #define HOST_NAME "hst1" #define HOST_ADDRESS "127.0.0.1" #define HOST_COMMAND "hst1_command" #define SERVICE_NAME "svc1" #define ORIG_START_TIME 1234567890L #define ORIG_FINISH_TIME 1234567891L #define EXPECT_NOTHING 0 #define EVENT_HANDLED 1 #define NOTIFIED 2 #define LOGGED 4 #define NO_SERVICE 0,0,NULL int date_format; int test_check_debugging = FALSE; service * svc1 = NULL; host * hst1 = NULL; host * parent1 = NULL; host * parent2 = NULL; check_result * chk_result = NULL; int hst1_notifications = 0; int svc1_notifications = 0; int hst1_event_handlers = 0; int svc1_event_handlers = 0; int hst1_logs = 0; int svc1_logs = 0; int c = 0; int get_host_check_return_code(host *hst, check_result *cr); int get_service_check_return_code(service *svc, check_result *cr); void free_host(host ** hst) { if ((*hst) != NULL) { my_free((*hst)->name); my_free((*hst)->address); my_free((*hst)->plugin_output); my_free((*hst)->long_plugin_output); my_free((*hst)->perf_data); my_free((*hst)->check_command); if ((*hst)->parent_hosts != NULL) { my_free((*hst)->parent_hosts->next); my_free((*hst)->parent_hosts); } my_free((*hst)); } } void free_parent1() { free_host(&parent1); } void free_parent2() { free_host(&parent2); } void free_hst1() { free_host(&hst1); } void free_svc1() { if (svc1 != NULL) { my_free(svc1->host_name); my_free(svc1->description); my_free(svc1->plugin_output); my_free(svc1->long_plugin_output); my_free(svc1->perf_data); my_free(svc1->check_command); my_free(svc1); } } void free_chk_result() { if (chk_result != NULL) { my_free(chk_result->host_name); my_free(chk_result->service_description); my_free(chk_result->output); my_free(chk_result); } } void free_all() { free_parent1(); free_parent2(); free_hst1(); free_svc1(); free_chk_result(); } int service_notification(service *svc, int type, char *not_author, char *not_data, int options) { svc1_notifications++; return OK; } int host_notification(host *hst, int type, char *not_author, char *not_data, int options) { hst1_notifications++; return OK; } int handle_host_event(host *hst) { hst1_event_handlers++; return OK; } int handle_service_event(service *svc) { svc1_event_handlers++; return OK; } int log_host_event(host *hst) { hst1_logs++; return OK; } int log_service_event(service *svc) { svc1_logs++; return OK; } void reset_globals() { hst1_notifications = 0; svc1_notifications = 0; hst1_event_handlers = 0; svc1_event_handlers = 0; hst1_logs = 0; svc1_logs = 0; } void handle_hst1() { reset_globals(); handle_async_host_check_result(hst1, chk_result); } void handle_svc1() { reset_globals(); handle_async_service_check_result(svc1, chk_result); } void adjust_check_result_output(char * output) { my_free(chk_result->output); chk_result->output = strdup(output); } void adjust_host_output(char * output) { my_free(hst1->plugin_output); hst1->plugin_output = strdup(output); } void adjust_service_output(char * output) { my_free(svc1->plugin_output); svc1->plugin_output = strdup(output); } void create_check_result(int check_type, int return_code, char * output) { struct timeval start_time, finish_time; start_time.tv_sec = ORIG_START_TIME; start_time.tv_usec = 0L; finish_time.tv_sec = ORIG_FINISH_TIME; finish_time.tv_usec = 0L; free_chk_result(); chk_result = (check_result *) calloc(1, sizeof(check_result)); chk_result->host_name = strdup(HOST_NAME); chk_result->service_description = strdup(SERVICE_NAME); chk_result->check_options = CHECK_OPTION_NONE; chk_result->scheduled_check = TRUE; chk_result->reschedule_check = TRUE; chk_result->exited_ok = TRUE; chk_result->early_timeout = FALSE; chk_result->latency = 0.5; chk_result->start_time = start_time; chk_result->finish_time = finish_time; chk_result->return_code = return_code; chk_result->check_type = check_type; adjust_check_result_output(output); } void create_objects(int host_state, int host_state_type, char * host_output, int service_state, int service_state_type, char * service_output) { free_hst1(); free_svc1(); hst1 = (host *) calloc(1, sizeof(host)); if (service_output != NULL) { svc1 = (service *) calloc(1, sizeof(service)); } hst1->name = strdup(HOST_NAME); hst1->address = strdup(HOST_ADDRESS); hst1->check_command = strdup(HOST_COMMAND); hst1->retry_interval = 1; hst1->check_interval = 5; hst1->current_attempt = 1; hst1->max_attempts = 4; hst1->check_options = CHECK_OPTION_NONE; hst1->has_been_checked = TRUE; hst1->last_state_change = (time_t) 0L; hst1->last_hard_state_change = (time_t) 0L; hst1->last_time_up = (time_t) 0L; hst1->last_time_down = (time_t) 0L; hst1->last_time_unreachable = (time_t) 0L; hst1->last_notification = (time_t) 0L; hst1->next_notification = (time_t) 0L; hst1->last_check = (time_t) 0L; hst1->next_check = (time_t) 0L; hst1->should_be_scheduled = TRUE; hst1->last_hard_state = STATE_UP; hst1->notifications_enabled = TRUE; hst1->event_handler_enabled = TRUE; hst1->accept_passive_checks = TRUE; hst1->initial_state = STATE_UP; hst1->accept_passive_checks = TRUE; if (service_output != NULL) { svc1->host_name = strdup(HOST_NAME); svc1->description = strdup(SERVICE_NAME); svc1->host_ptr = hst1; svc1->retry_interval = 1; svc1->check_interval = 5; svc1->current_attempt = 1; svc1->max_attempts = 4; svc1->check_options = CHECK_OPTION_NONE; svc1->has_been_checked = TRUE; svc1->last_state_change = (time_t) 0L; svc1->last_hard_state_change = (time_t) 0L; svc1->last_time_ok = (time_t) 0L; svc1->last_time_warning = (time_t) 0L; svc1->last_time_unknown = (time_t) 0L; svc1->last_time_critical = (time_t) 0L; svc1->last_notification = (time_t) 0L; svc1->next_notification = (time_t) 0L; svc1->last_check = (time_t) 0L; svc1->next_check = (time_t) 0L; svc1->host_problem_at_last_check = FALSE; svc1->should_be_scheduled = TRUE; svc1->last_hard_state = STATE_OK; svc1->notifications_enabled = TRUE; svc1->event_handler_enabled = TRUE; svc1->accept_passive_checks = TRUE; svc1->initial_state = STATE_OK; svc1->accept_passive_checks = TRUE; } hst1->current_state = host_state; hst1->state_type = host_state_type; adjust_host_output(host_output); if (service_output != NULL) { svc1->current_state = service_state; svc1->state_type = service_state_type; adjust_service_output(service_output); } } void create_check_result_file(int number, char * host_name, char * service_description, char * output) { FILE * cr; char * filename = NULL; char * ok_filename = NULL; asprintf(&filename, "var/reaper/some_files/c%06d", number); asprintf(&ok_filename, "%s.ok", filename); cr = fopen(filename, "w"); if (cr == NULL) { printf("Unable to open %s for writing.\n", filename); exit(1); } if (host_name != NULL) { fprintf(cr, "host_name=%s\n", host_name); } if (service_description != NULL) { fprintf(cr, "service_description=%s\n", service_description); } if (output != NULL) { fprintf(cr, "output=%s\n", output); } fclose(cr); cr = fopen(ok_filename, "w"); if (cr == NULL) { printf("Unable to open %s for writing.\n", ok_filename); exit(1); } fclose(cr); my_free(filename); my_free(ok_filename); } void setup_parent(host ** parent, const char * host_name) { (*parent) = (host *) calloc(1, sizeof(host)); (*parent)->name = strdup(host_name); (*parent)->address = strdup(HOST_ADDRESS); (*parent)->check_command = strdup(HOST_COMMAND); (*parent)->retry_interval = 1; (*parent)->check_interval = 5; (*parent)->current_attempt = 1; (*parent)->max_attempts = 4; (*parent)->check_options = CHECK_OPTION_NONE; (*parent)->has_been_checked = TRUE; (*parent)->current_state = STATE_DOWN; } void setup_parents() { hostsmember * tmp_hsts = NULL; tmp_hsts = (hostsmember *) calloc(1, sizeof(hostsmember)); setup_parent(&parent1, "Parent 1"); setup_parent(&parent2, "Parent 2"); tmp_hsts->host_ptr = parent1; tmp_hsts->next = (hostsmember *) calloc(1, sizeof(hostsmember)); tmp_hsts->next->host_ptr = parent2; hst1->parent_hosts = tmp_hsts; } int update_program_status(int aggregated_dump) { c++; /* printf ("# In the update_program_status hook: %d\n", c); */ /* Set this to break out of event_execution_loop */ if (c > 10) { sigshutdown = TRUE; c = 0; } return OK; } int log_debug_info(int level, int verbosity, const char *fmt, ...) { va_list ap; char *buffer = NULL; if (test_check_debugging == TRUE) { va_start(ap, fmt); /* vprintf( fmt, ap ); */ vasprintf(&buffer, fmt, ap); printf("DEBUG: %s", buffer); free(buffer); va_end(ap); } return OK; } void test_hst_handler_notification_logging(int id, int bitmask) { if (bitmask & EVENT_HANDLED) { ok(hst1_event_handlers == 1, "[%d] Host event WAS handled", id); } else { ok(hst1_event_handlers == 0, "[%d] Host event was NOT handled", id); } if (bitmask & NOTIFIED) { ok(hst1_notifications == 1, "[%d] Host contacts WERE notified", id); } else { ok(hst1_notifications == 0, "[%d] Host contacts were NOT notified", id); } if (bitmask & LOGGED) { ok(hst1_logs == 1, "[%d] Host event WAS logged", id); } else { ok(hst1_logs == 0, "[%d] Host event NOT logged", id); } } void test_svc_handler_notification_logging(int id, int bitmask) { if (bitmask & EVENT_HANDLED) { ok(svc1_event_handlers == 1, "[%d] Service event WAS handled", id); } else { ok(svc1_event_handlers == 0, "[%d] Service event was NOT handled", id); } if (bitmask & NOTIFIED) { ok(svc1_notifications == 1, "[%d] Service contacts WERE notified", id); } else { ok(svc1_notifications == 0, "[%d] Service contacts were NOT notified", id); } if (bitmask & LOGGED) { ok(svc1_logs == 1, "[%d] Service event WAS logged", id); } else { ok(svc1_logs == 0, "[%d] Service event NOT logged", id); } } void run_service_tests(int check_type) { int tmp = 0; /****************************************** SERVICE CHECK TESTING ******************************************/ /* Host down/hard, Service crit/soft -> warn */ create_objects(STATE_DOWN, HARD_STATE, "host down", STATE_CRITICAL, SOFT_STATE, "service critical"); create_check_result(check_type, STATE_WARNING, "service warning"); svc1->last_notification = (time_t) 11111L; svc1->next_notification = (time_t) 22222L; svc1->no_more_notifications = TRUE; handle_svc1(); ok(svc1->last_hard_state_change == (time_t) ORIG_START_TIME, "Expected last_hard_state_change time %lu, got %lu", (time_t) ORIG_START_TIME, svc1->last_hard_state_change); ok(svc1->last_state_change == svc1->last_hard_state_change, "Got same last_state_change"); ok(svc1->last_hard_state == STATE_WARNING, "Got last hard state as warning"); ok(svc1->state_type == HARD_STATE, "Got hard state since host is down"); ok(svc1->host_problem_at_last_check == TRUE, "Got host_problem_at_last_check set to TRUE due to host failure"); ok(svc1->last_notification == (time_t) 0L, "last notification reset due to state change"); ok(svc1->next_notification == (time_t) 0L, "next notification reset due to state change"); ok(svc1->no_more_notifications == FALSE, "no_more_notifications reset due to state change"); test_svc_handler_notification_logging(1, EVENT_HANDLED | LOGGED); /* Host down/hard, Service ok/hard -> crit */ create_objects(STATE_DOWN, HARD_STATE, "host down", STATE_OK, HARD_STATE, "service ok"); create_check_result(check_type, STATE_CRITICAL, "service critical"); handle_svc1(); ok(svc1->last_hard_state_change == (time_t) ORIG_START_TIME, "Expected last_hard_state_change time %lu, got %lu", (time_t) ORIG_START_TIME, svc1->last_hard_state_change); ok(svc1->last_state_change == svc1->last_hard_state_change, "Got same last_state_change"); ok(svc1->last_hard_state == STATE_CRITICAL, "Got last hard state as critical"); ok(svc1->state_type == HARD_STATE, "Got hard state since host is down"); ok(svc1->host_problem_at_last_check == TRUE, "Got host_problem_at_last_check set to TRUE due to host failure"); ok(svc1->current_attempt == 1, "Expecting current attempt %d, got %d", 1, svc1->current_attempt); test_svc_handler_notification_logging(2, EVENT_HANDLED | LOGGED); /* Host up/hard, Service ok/soft -> warn */ create_objects(STATE_UP, HARD_STATE, "host up", STATE_OK, SOFT_STATE, "service ok"); create_check_result(check_type, STATE_WARNING, "service warning"); handle_svc1(); ok(svc1->state_type == SOFT_STATE, "Got soft state since non-ok state"); ok(svc1->current_attempt == 1, "Expecting current attempt %d, got %d", 1, svc1->current_attempt); test_svc_handler_notification_logging(3, EVENT_HANDLED | LOGGED); /* 2nd warning */ svc1->acknowledgement_type = ACKNOWLEDGEMENT_NORMAL; svc1->last_notification = (time_t) 11111L; svc1->next_notification = (time_t) 22222L; create_check_result(check_type, STATE_WARNING, "service warning"); handle_svc1(); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NORMAL, "Ack left"); ok(svc1->current_attempt == 2, "Expecting current attempt %d, got %d", 2, svc1->current_attempt); ok(svc1->last_notification == (time_t) 11111L, "Last notification not reset"); ok(svc1->next_notification == (time_t) 22222L, "Next notification not reset"); test_svc_handler_notification_logging(4, EVENT_HANDLED | LOGGED); /* 3rd warning */ create_check_result(check_type, STATE_WARNING, "service warning"); handle_svc1(); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NORMAL, "Ack left"); ok(svc1->current_attempt == 3, "Expecting current attempt %d, got %d", 3, svc1->current_attempt); test_svc_handler_notification_logging(5, EVENT_HANDLED | LOGGED); /* 4th warning (HARD change) */ create_check_result(check_type, STATE_WARNING, "service warning"); svc1->last_notification = (time_t) 11111L; svc1->next_notification = (time_t) 22222L; svc1->no_more_notifications = TRUE; chk_result->start_time.tv_sec = ORIG_START_TIME + 40L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 40L; handle_svc1(); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 40L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 40L), svc1->last_hard_state_change); ok(svc1->last_state_change == (time_t) (ORIG_START_TIME + 40L), "Got appropriate last_state_change"); ok(svc1->last_notification == (time_t) 0L, "Last notification was reset"); ok(svc1->next_notification == (time_t) 0L, "Next notification was reset"); ok(svc1->no_more_notifications == FALSE, "No more notifications was reset"); ok(svc1->last_hard_state == STATE_WARNING, "Got last hard state as warning"); ok(svc1->state_type == HARD_STATE, "Got hard state since max_attempts was reached"); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NORMAL, "Ack left"); ok(svc1->current_attempt == 4, "Expecting current attempt %d, got %d", 4, svc1->current_attempt); test_svc_handler_notification_logging(6, EVENT_HANDLED | NOTIFIED | LOGGED); /* 5th warning */ create_check_result(check_type, STATE_WARNING, "service warning"); handle_svc1(); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 40L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 40L), svc1->last_hard_state_change); ok(svc1->state_type == HARD_STATE, "Should still be a hard state"); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NORMAL, "Ack left"); ok(svc1->current_attempt == 4, "Expecting current attempt %d, got %d", 4, svc1->current_attempt); test_svc_handler_notification_logging(7, NOTIFIED); /* 6th non-ok (critical) */ create_check_result(check_type, STATE_CRITICAL, "service critical"); svc1->acknowledgement_type = ACKNOWLEDGEMENT_NORMAL; chk_result->start_time.tv_sec = ORIG_START_TIME + 60L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 60L; handle_svc1(); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 60L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 60L), svc1->last_hard_state_change); ok(svc1->state_type == HARD_STATE, "Should still be a hard state"); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NONE, "Ack reset"); ok(svc1->current_attempt == 4, "Expecting current attempt %d, got %d", 4, svc1->current_attempt); test_svc_handler_notification_logging(8, EVENT_HANDLED | NOTIFIED | LOGGED); /* 7th, critical */ create_check_result(check_type, STATE_CRITICAL, "service critical"); svc1->acknowledgement_type = ACKNOWLEDGEMENT_NORMAL; handle_svc1(); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 60L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 60L), svc1->last_hard_state_change); ok(svc1->state_type == HARD_STATE, "Should still be a hard state"); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NORMAL, "Ack left"); ok(svc1->current_attempt == 4, "Expecting current attempt %d, got %d", 4, svc1->current_attempt); test_svc_handler_notification_logging(9, NOTIFIED); /* 8th, critical, new output, and enabling stalking for critical */ create_check_result(check_type, STATE_CRITICAL, "service critical NEW"); svc1->stalking_options = OPT_CRITICAL; handle_svc1(); test_svc_handler_notification_logging(10, NOTIFIED | LOGGED); /* 9th, critical, new output, and enabling stalking only for OK */ create_check_result(check_type, STATE_CRITICAL, "service critical NEWER"); svc1->stalking_options = OPT_OK; handle_svc1(); test_svc_handler_notification_logging(11, NOTIFIED); /* change state back to ok */ create_check_result(check_type, STATE_OK, "service ok"); svc1->last_notification = (time_t) 11111L; svc1->next_notification = (time_t) 22222L; svc1->no_more_notifications = TRUE; chk_result->start_time.tv_sec = ORIG_START_TIME + 80L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 80L; handle_svc1(); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 80L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 80L), svc1->last_hard_state_change); ok(svc1->state_type == HARD_STATE, "Should still be a hard state because hard recovery"); ok(svc1->current_state == STATE_OK, "Service is ok"); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NONE, "Ack reset"); ok(svc1->last_notification == (time_t) 0L, "Last notification was reset"); ok(svc1->next_notification == (time_t) 0L, "Next notification was reset"); ok(svc1->no_more_notifications == FALSE, "No more notifications was reset"); ok(svc1->last_problem_id != 0, "Last problem ID set properly"); ok(svc1->current_problem_id == 0, "Current problem ID reset"); test_svc_handler_notification_logging(12, EVENT_HANDLED | NOTIFIED | LOGGED); /* 2nd ok */ create_check_result(check_type, STATE_OK, "service ok"); chk_result->start_time.tv_sec = ORIG_START_TIME + 90L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 90L; handle_svc1(); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 80L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 80L), svc1->last_hard_state_change); ok(svc1->state_type == HARD_STATE, "Should still be a hard state"); ok(svc1->current_state == STATE_OK, "Service is ok"); test_svc_handler_notification_logging(13, EXPECT_NOTHING ); /* 3rd ok, new output (stalking still enabled for ok) */ create_check_result(check_type, STATE_OK, "service ok NEW"); chk_result->start_time.tv_sec = ORIG_START_TIME + 90L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 90L; handle_svc1(); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 80L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 80L), svc1->last_hard_state_change); ok(svc1->state_type == HARD_STATE, "Should still be a hard state"); ok(svc1->current_state == STATE_OK, "Service is ok"); test_svc_handler_notification_logging(14, LOGGED ); /* Host up/hard, Service warn/soft -> critical */ create_objects(STATE_UP, HARD_STATE, "host up", STATE_WARNING, SOFT_STATE, "service warning"); create_check_result(check_type, STATE_CRITICAL, "service critical"); svc1->last_state_change = ORIG_START_TIME + 20L; svc1->acknowledgement_type = ACKNOWLEDGEMENT_NORMAL; chk_result->start_time.tv_sec = ORIG_START_TIME + 40L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 40L; tmp = svc1->current_event_id; handle_svc1(); ok(svc1->current_event_id > tmp, "Event id incremented appropriately current: %d, old: %d", svc1->current_event_id, tmp); ok(svc1->current_state == STATE_CRITICAL, "Service is critical"); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NONE, "Ack reset"); ok(svc1->last_state_change == (time_t) ORIG_START_TIME + 40L, "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 40L), svc1->last_state_change); ok(svc1->state_type == SOFT_STATE, "Service is still soft state"); ok(svc1->current_attempt == 2, "Expecting current attempt %d, got %d", 2, svc1->current_attempt); test_svc_handler_notification_logging(15, EVENT_HANDLED | LOGGED ); /* 3rd non-ok, critical. changing max_attempts to 3 because i'm impatient */ create_check_result(check_type, STATE_CRITICAL, "service critical"); svc1->max_attempts = 3; chk_result->start_time.tv_sec = ORIG_START_TIME + 60L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 60L; handle_svc1(); ok(svc1->current_state == STATE_CRITICAL, "Service is critical"); ok(svc1->last_state_change == (time_t) (ORIG_START_TIME + 60L), "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 60L), svc1->last_state_change); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 60L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 60L), svc1->last_hard_state_change); ok(svc1->last_hard_state == STATE_CRITICAL, "Service last hard state was critical"); ok(svc1->last_state == STATE_CRITICAL, "Service last state was critical"); ok(svc1->state_type == HARD_STATE, "Service is hard state"); ok(svc1->current_attempt == 3, "Expecting current attempt %d, got %d", 3, svc1->current_attempt); test_svc_handler_notification_logging(16, EVENT_HANDLED | NOTIFIED | LOGGED ); /* 4th crit */ create_check_result(check_type, STATE_CRITICAL, "service critical"); handle_svc1(); test_svc_handler_notification_logging(17, NOTIFIED ); /* 5th crit */ create_check_result(check_type, STATE_CRITICAL, "service critical"); handle_svc1(); test_svc_handler_notification_logging(18, NOTIFIED ); /* turn on volatility, 6th crit */ create_check_result(check_type, STATE_CRITICAL, "service critical"); svc1->is_volatile = TRUE; handle_svc1(); test_svc_handler_notification_logging(19, EVENT_HANDLED | NOTIFIED | LOGGED ); /* one more before we go to a hard recovery */ create_check_result(check_type, STATE_CRITICAL, "service critical"); tmp = svc1->current_problem_id; handle_svc1(); ok(svc1->current_problem_id == tmp, "Problem ID not reset current: %d, old: %d", svc1->current_problem_id, tmp); test_svc_handler_notification_logging(20, EVENT_HANDLED | NOTIFIED | LOGGED ); /* hard recovery */ create_check_result(check_type, STATE_OK, "service ok"); chk_result->start_time.tv_sec = ORIG_START_TIME + 120L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 120L; tmp = svc1->current_event_id; svc1->last_notification = (time_t) ORIG_START_TIME + 90L; svc1->no_more_notifications = TRUE; svc1->acknowledgement_type = ACKNOWLEDGEMENT_STICKY; handle_svc1(); ok(svc1->current_problem_id == 0, "Reset problem id %d", svc1->current_problem_id); ok(svc1->current_event_id > tmp, "Got new event id new: %d, old: %d", svc1->current_event_id, tmp); ok(svc1->no_more_notifications == FALSE, "Reset no more notifications"); ok(svc1->acknowledgement_type == ACKNOWLEDGEMENT_NONE, "Reset ack"); ok(svc1->last_notification == (time_t) 0L, "Reset last notification"); ok(svc1->current_state == STATE_OK, "Service is ok"); ok(svc1->last_state_change == (time_t) ORIG_START_TIME + 120L, "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 120L), svc1->last_state_change); ok(svc1->last_hard_state_change == (time_t) (ORIG_START_TIME + 120L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 120L), svc1->last_hard_state_change); ok(svc1->last_hard_state == STATE_OK, "Service last hard state was ok"); ok(svc1->last_state == STATE_CRITICAL, "Service last state was critical"); ok(svc1->state_type == HARD_STATE, "Service is hard state"); ok(svc1->current_attempt == 1, "Expecting current attempt %d, got %d",1, svc1->current_attempt); test_svc_handler_notification_logging(21, EVENT_HANDLED | NOTIFIED | LOGGED ); free_all(); } void run_active_host_tests() { int tmp = 0; int check_type = CHECK_TYPE_ACTIVE; /****************************************** ACTIVE HOST CHECK TESTING ******************************************/ /* Test up -> up to make sure no weird log/notify/event */ create_objects(STATE_UP, HARD_STATE, "host up", NO_SERVICE); create_check_result(check_type, STATE_OK, "host up"); handle_hst1(); test_hst_handler_notification_logging(22, EXPECT_NOTHING ); /* turn stalking on, don't change output */ create_check_result(check_type, STATE_OK, "host up"); hst1->stalking_options = OPT_UP; handle_hst1(); test_hst_handler_notification_logging(23, EXPECT_NOTHING ); /* stalking still enabled, change output */ create_check_result(check_type, STATE_OK, "host UP"); handle_hst1(); test_hst_handler_notification_logging(24, LOGGED ); /* Test that warning state checks keep the host up unless aggressive checking */ create_objects(STATE_UP, HARD_STATE, "host up", NO_SERVICE); create_check_result(check_type, STATE_WARNING, "host warning"); use_aggressive_host_checking = FALSE; hst1->max_attempts = 3; handle_hst1(); ok(hst1->current_state == STATE_UP, "Warning state is UP with no use_aggressive_host_checking"); ok(hst1->state_type == HARD_STATE, "Still hard up"); test_hst_handler_notification_logging(25, EXPECT_NOTHING ); /* now with aggressive enabled */ create_check_result(check_type, STATE_WARNING, "host warning"); use_aggressive_host_checking = TRUE; tmp = hst1->current_event_id; handle_hst1(); use_aggressive_host_checking = FALSE; ok(hst1->current_state == STATE_DOWN, "Warning state is DOWN with aggressive host checking"); ok(hst1->current_attempt == 1, "Expecting current attempt %d, got %d", 1, hst1->current_attempt); ok(hst1->current_event_id > tmp, "Got new event id new: %d, old: %d", hst1->current_event_id, tmp); test_hst_handler_notification_logging(26, EVENT_HANDLED | LOGGED ); /* host down */ create_check_result(check_type, STATE_CRITICAL, "host down"); handle_hst1(); ok(hst1->current_state == STATE_DOWN, "Host state is DOWN"); ok(hst1->state_type == SOFT_STATE, "Host state type is soft"); ok(hst1->current_attempt == 2, "Expecting current attempt %d, got %d", 2, hst1->current_attempt); test_hst_handler_notification_logging(27, EVENT_HANDLED ); /* host down (should be hard) */ create_check_result(check_type, STATE_CRITICAL, "host down"); chk_result->start_time.tv_sec = ORIG_START_TIME + 40L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 40L; handle_hst1(); ok(hst1->current_state == STATE_DOWN, "Host state is DOWN"); ok(hst1->state_type == HARD_STATE, "Host state type is hard"); ok(hst1->current_attempt == 3, "Expecting current attempt %d, got %d", 3, hst1->current_attempt); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 40L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 40L), hst1->last_hard_state_change); test_hst_handler_notification_logging(28, EVENT_HANDLED | NOTIFIED | LOGGED ); /* host down (should STILL be hard) */ create_check_result(check_type, STATE_CRITICAL, "host down"); hst1->acknowledgement_type = ACKNOWLEDGEMENT_NORMAL; chk_result->start_time.tv_sec = ORIG_START_TIME + 60L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 60L; handle_hst1(); ok(hst1->current_state == STATE_DOWN, "Host state is DOWN"); ok(hst1->state_type == HARD_STATE, "Host state type is hard"); ok(hst1->acknowledgement_type == ACKNOWLEDGEMENT_NORMAL, "Ack left"); ok(hst1->current_attempt == 3, "Expecting current attempt %d, got %d", 3, hst1->current_attempt); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 40L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 40L), hst1->last_hard_state_change); test_hst_handler_notification_logging(29, NOTIFIED ); /* lets test unreachability */ setup_parents(); create_check_result(check_type, STATE_CRITICAL, "host down"); chk_result->start_time.tv_sec = ORIG_START_TIME + 80L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 80L; handle_hst1(); ok(hst1->current_state == STATE_UNREACHABLE, "Host state is UNREACHABLE"); ok(hst1->state_type == HARD_STATE, "Host state type is hard"); ok(hst1->current_attempt == 3, "Expecting current attempt %d, got %d", 3, hst1->current_attempt); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 80L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 80L), hst1->last_hard_state_change); test_hst_handler_notification_logging(30, EVENT_HANDLED | NOTIFIED | LOGGED ); /* hard recovery */ create_check_result(check_type, STATE_OK, "host up"); tmp = hst1->current_event_id; chk_result->start_time.tv_sec = ORIG_START_TIME + 90L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 90L; hst1->last_notification = (time_t) ORIG_START_TIME + 80L; hst1->no_more_notifications = TRUE; hst1->acknowledgement_type = ACKNOWLEDGEMENT_STICKY; handle_hst1(); ok(hst1->current_problem_id == 0, "Reset problem id %d", hst1->current_problem_id); ok(hst1->current_event_id > tmp, "Got new event id new: %d, old: %d", hst1->current_event_id, tmp); ok(hst1->no_more_notifications == FALSE, "Reset no more notifications"); ok(hst1->acknowledgement_type == ACKNOWLEDGEMENT_NONE, "Reset ack"); ok(hst1->last_notification == (time_t) 0L, "Reset last notification"); ok(hst1->current_state == STATE_UP, "Host is up"); ok(hst1->last_state_change == (time_t) ORIG_START_TIME + 90L, "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 90L), hst1->last_state_change); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 90L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 90L), hst1->last_hard_state_change); ok(hst1->last_hard_state == STATE_UP, "Host last hard state was ok"); ok(hst1->last_state == STATE_CRITICAL, "Host last state was down (critical)"); ok(hst1->state_type == HARD_STATE, "Host is hard state"); ok(hst1->current_attempt == 1, "Expecting current attempt %d, got %d",1, hst1->current_attempt); test_hst_handler_notification_logging(31, EVENT_HANDLED | NOTIFIED | LOGGED ); free_all(); } void run_passive_host_tests() { int tmp1 = 0; int tmp2 = 0; int check_type = CHECK_TYPE_PASSIVE; /****************************************** PASSIVE HOST CHECK TESTING ******************************************/ /* Host up -> up */ create_objects(STATE_UP, HARD_STATE, "host up", NO_SERVICE); create_check_result(check_type, STATE_UP, "host up"); hst1->max_attempts = 3; /* this makes passive checks act just like regular checks */ passive_host_checks_are_soft = TRUE; handle_hst1(); ok(hst1->current_state == STATE_UP, "Host is up"); ok(hst1->state_type == HARD_STATE, "Host is hard state"); ok(hst1->current_attempt == 1, "Expecting current attempt %d, got %d", 1, hst1->current_attempt); test_hst_handler_notification_logging(32, EXPECT_NOTHING ); /* send in a weird return code */ create_check_result(check_type, 42, "host is right about everything"); chk_result->start_time.tv_sec = (time_t) ORIG_START_TIME + 10L; chk_result->finish_time.tv_sec = (time_t) ORIG_FINISH_TIME + 10L; hst1->max_attempts = 3; handle_hst1(); ok(hst1->current_state == 42, "Host is weird (42) (%d)", hst1->current_state); ok(hst1->state_type == SOFT_STATE, "Host is soft state"); ok(hst1->current_attempt == 1, "Expecting current attempt %d, got %d", 1, hst1->current_attempt); ok(hst1->last_state_change == (time_t) (ORIG_START_TIME + 10L), "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 10L), hst1->last_state_change); test_hst_handler_notification_logging(33, EVENT_HANDLED | LOGGED ); /* send in weird return code again */ create_check_result(check_type, 42, "host is right about everything"); chk_result->start_time.tv_sec = (time_t) ORIG_START_TIME + 20L; chk_result->finish_time.tv_sec = (time_t) ORIG_FINISH_TIME + 20L; handle_hst1(); ok(hst1->current_state == 42, "Host is weird (42) (%d)", hst1->current_state); ok(hst1->state_type == SOFT_STATE, "Host is soft state"); ok(hst1->current_attempt == 2, "Expecting current attempt %d, got %d", 2, hst1->current_attempt); test_hst_handler_notification_logging(34, EVENT_HANDLED ); /* send in weird return code again */ create_check_result(check_type, 42, "host is right about everything"); chk_result->start_time.tv_sec = (time_t) ORIG_START_TIME + 30L; chk_result->finish_time.tv_sec = (time_t) ORIG_FINISH_TIME + 30L; handle_hst1(); ok(hst1->current_state == 42, "Host is weird (42) (%d)", hst1->current_state); ok(hst1->state_type == HARD_STATE, "Host is hard state"); ok(hst1->current_attempt == 3, "Expecting current attempt %d, got %d", 3, hst1->current_attempt); ok(hst1->last_state_change == (time_t) ORIG_START_TIME + 10L, "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 10L), hst1->last_state_change); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 30L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 30L), hst1->last_hard_state_change); ok(hst1->last_hard_state == 42, "Host last hard state was 42"); ok(hst1->last_state == 42, "Host last state was 42"); test_hst_handler_notification_logging(36, EVENT_HANDLED | NOTIFIED | LOGGED ); /* hard recovery */ create_check_result(check_type, STATE_OK, "host up"); tmp1 = hst1->current_event_id; chk_result->start_time.tv_sec = ORIG_START_TIME + 40L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 40L; hst1->last_notification = (time_t) ORIG_START_TIME + 20L; hst1->no_more_notifications = TRUE; hst1->acknowledgement_type = ACKNOWLEDGEMENT_STICKY; handle_hst1(); ok(hst1->current_problem_id == 0, "Reset problem id %d", hst1->current_problem_id); ok(hst1->current_event_id > tmp1, "Got new event id new: %d, old: %d", hst1->current_event_id, tmp1); ok(hst1->no_more_notifications == FALSE, "Reset no more notifications"); ok(hst1->acknowledgement_type == ACKNOWLEDGEMENT_NONE, "Reset ack"); ok(hst1->last_notification == (time_t) 0L, "Reset last notification"); ok(hst1->current_state == STATE_UP, "Host is up"); ok(hst1->last_state_change == (time_t) ORIG_START_TIME + 40L, "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 40L), hst1->last_state_change); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 40L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 40L), hst1->last_hard_state_change); ok(hst1->last_hard_state == STATE_UP, "Host last hard state was up"); ok(hst1->last_state == 42, "Host last state was 42"); ok(hst1->state_type == HARD_STATE, "Host is hard state"); ok(hst1->current_attempt == 1, "Expecting current attempt %d, got %d",1, hst1->current_attempt); test_hst_handler_notification_logging(37, EVENT_HANDLED | NOTIFIED | LOGGED ); /* back to the default */ passive_host_checks_are_soft = FALSE; /* down (not critical like before, since now no translation happens) */ create_check_result(check_type, STATE_DOWN, "host down"); chk_result->start_time.tv_sec = ORIG_START_TIME + 50L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 50L; tmp1 = hst1->current_event_id; handle_hst1(); ok(hst1->current_problem_id > 0, "Non-zero problem id %d", hst1->current_problem_id); ok(hst1->current_event_id > tmp1, "Got new event id new: %d, old: %d", hst1->current_event_id, tmp1); ok(hst1->current_state == STATE_DOWN, "Host is down"); ok(hst1->last_hard_state == STATE_DOWN, "Host last hard state was down"); ok(hst1->last_state_change == (time_t) ORIG_START_TIME + 50L, "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 50L), hst1->last_state_change); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 50L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 50L), hst1->last_hard_state_change); ok(hst1->current_attempt == 1, "Expecting current attempt %d, got %d",1, hst1->current_attempt); test_hst_handler_notification_logging(38, EVENT_HANDLED | NOTIFIED | LOGGED ); /* down again */ create_check_result(check_type, STATE_DOWN, "host down"); hst1->acknowledgement_type = ACKNOWLEDGEMENT_NORMAL; hst1->no_more_notifications = TRUE; hst1->last_notification = (time_t) 11111L; chk_result->start_time.tv_sec = ORIG_START_TIME + 60L; chk_result->finish_time.tv_sec = ORIG_FINISH_TIME + 60L; tmp1 = hst1->current_event_id; tmp2 = hst1->current_problem_id; handle_hst1(); ok(hst1->current_problem_id == tmp2, "Got same problem id new: %d, old: %d", hst1->current_problem_id, tmp2); ok(hst1->current_event_id == tmp1, "Got same event id new: %d, old: %d", hst1->current_event_id, tmp1); ok(hst1->current_state == STATE_DOWN, "Host is down"); ok(hst1->last_hard_state == STATE_DOWN, "Host last hard state was down"); ok(hst1->no_more_notifications == TRUE, "No more notifications reatained"); ok(hst1->acknowledgement_type == ACKNOWLEDGEMENT_NORMAL, "Ack same"); ok(hst1->last_notification != (time_t)0L, "Last notification not reset"); ok(hst1->last_state_change == (time_t) ORIG_START_TIME + 50L, "Expected last_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 50L), hst1->last_state_change); ok(hst1->last_hard_state_change == (time_t) (ORIG_START_TIME + 50L), "Expected last_hard_state_change time %lu, got %lu", (time_t) (ORIG_START_TIME + 50L), hst1->last_hard_state_change); ok(hst1->current_attempt == 1, "Expecting current attempt %d, got %d",1, hst1->current_attempt); test_hst_handler_notification_logging(39, NOTIFIED ); /* soft recovery */ create_check_result(check_type, STATE_UP, "host up"); passive_host_checks_are_soft = TRUE; hst1->checks_enabled = TRUE; hst1->current_attempt = 1; hst1->current_state = STATE_DOWN; hst1->state_type = SOFT_STATE; /* after this guy, we get a reschedule event (schedule_host_check()) which creates a new event. we need to free that memory when done */ handle_hst1(); test_hst_handler_notification_logging(40, EVENT_HANDLED | LOGGED ); my_free(hst1->next_check_event); free_all(); } void run_misc_host_check_tests() { time_t now = 0L; int result = 0; int tmp1 = 0; int check_type = CHECK_TYPE_ACTIVE; time(&now); ok(handle_async_host_check_result(NULL, NULL) == ERROR, "handle check result is ERROR when objects are null"); ok(run_async_host_check(NULL, 0, 0, 0, 0, &tmp1, &now) == ERROR, "run host check is ERROR when object is null"); ok(get_host_check_return_code(NULL, NULL) == STATE_UNREACHABLE, "host check return code is STATE_UNREACHABLE when objects are null"); ok(get_service_check_return_code(NULL, NULL) == STATE_UNKNOWN, "service check return code is STATE_UNKNOWN when objects are null"); /* most of the rest of these checks just test for a bunch of specific scenarios this is the beauty of coverage reporting! */ create_objects(STATE_UP, HARD_STATE, "host up", STATE_OK, HARD_STATE, "service up"); create_check_result(check_type, STATE_DOWN, "host down"); chk_result->early_timeout = TRUE; chk_result->latency = 42; chk_result->start_time.tv_sec = now; chk_result->finish_time.tv_sec = now + 42L; handle_hst1(); ok(strstr(hst1->plugin_output, "after 42.00 seconds") != NULL, "found appropriate early timeout message, [%s]", hst1->plugin_output); create_check_result(check_type, STATE_DOWN, "host down"); chk_result->exited_ok = FALSE; handle_hst1(); ok(strstr(hst1->plugin_output, "did not exit properly") != NULL, "found appropriate exited ok message, [%s]", hst1->plugin_output); create_check_result(check_type, 126, "host down"); handle_hst1(); ok(strstr(hst1->plugin_output, "126 is out of bounds") != NULL, "found appropriate non executable message, [%s]", hst1->plugin_output); create_check_result(check_type, 127, "host down"); handle_hst1(); ok(strstr(hst1->plugin_output, "127 is out of bounds") != NULL, "found appropriate non existent message, [%s]", hst1->plugin_output); create_check_result(check_type, -1, "host down"); handle_hst1(); ok(strstr(hst1->plugin_output, "code of -1") != NULL, "found appropriate lower bound message, [%s]", hst1->plugin_output); ok(hst1->current_state == STATE_DOWN, "-1 is STATE_DOWN, %d", result); create_check_result(check_type, 4, "host down"); handle_hst1(); ok(strstr(hst1->plugin_output, "code of 4") != NULL, "found appropriate lower bound message, [%s]", hst1->plugin_output); ok(hst1->current_state == STATE_DOWN, "4 is STATE_DOWN, %d", result); create_check_result(check_type, STATE_DOWN, "host down"); my_free(hst1->check_command); hst1->check_command = NULL; handle_hst1(); ok(hst1->current_state == STATE_UP, "null check command is always alright"); /* we set this to true simply for the coverage report */ log_passive_checks = TRUE; /* we tested both objects null, but now let's test with one or the other */ result = handle_async_host_check_result(hst1, NULL); ok(result == ERROR, "handle_async_host_check_result is ERROR when hst1 is valid, but check result is null"); accept_passive_host_checks = FALSE; create_check_result(CHECK_TYPE_PASSIVE, HOST_UP, "host up"); result = handle_async_host_check_result(hst1, chk_result); ok(result == ERROR, "when accept_passive_host_checks is false, can't handle passive check result"); accept_passive_host_checks = TRUE; create_check_result(CHECK_TYPE_PASSIVE, HOST_UP, "host up"); hst1->accept_passive_checks = FALSE; result = handle_async_host_check_result(hst1, chk_result); ok(result == ERROR, "when hst->accept_passive_checks is false, can't handle passive check result"); create_check_result(check_type, HOST_UP, "host up"); hst1->is_being_freshened = TRUE; chk_result->check_options |= CHECK_OPTION_FRESHNESS_CHECK; handle_hst1(); ok(hst1->is_being_freshened == FALSE, "freshening flag was reset"); hst1->accept_passive_checks = TRUE; hst1->check_command = strdup("SOME COMMAND"); create_check_result(check_type, HOST_UP, "host up"); my_free(chk_result->output); my_free(hst1->plugin_output); handle_hst1(); ok(strstr(hst1->plugin_output, "No output returned") != NULL, "If there was no plugin output, tell us [%s]", hst1->plugin_output); /* check if the execution times are weird */ create_check_result(check_type, HOST_UP, "host up"); chk_result->finish_time.tv_sec = ORIG_FINISH_TIME - 100L; handle_hst1(); ok(hst1->execution_time == 0.0, "execution time gets fixed when finish time is before start time"); create_check_result(check_type, HOST_UP, "host up"); free_all(); } /* todo: run_parent_host_check_tests() */ void run_misc_service_check_tests() { time_t now = 0L; int result = 0; int tmp1 = 0; int check_type = CHECK_TYPE_ACTIVE; time(&now); ok(handle_async_service_check_result(NULL, NULL) == ERROR, "handle check result is ERROR when objects are null"); ok(run_async_service_check(NULL, 0, 0, 0, 0, &tmp1, &now) == ERROR, "run service check is ERROR when object is null"); } void run_reaper_tests() { /* test null dir */ my_free(check_result_path); check_result_path = NULL; ok(process_check_result_queue(check_result_path) == ERROR, "null check result path is an error"); /* bad dir */ check_result_path = strdup("/i/hope/you/dont/have/this/directory/on/your/testing/system/"); ok(process_check_result_queue(check_result_path) == ERROR, "cant open check result path is an error"); my_free(check_result_path); /* existing dir, with nothing in it */ check_result_path = nspath_absolute("./../t-tap/var/reaper/no_files", NULL); ok(process_check_result_queue(check_result_path) == 0, "0 files (as there shouldn't be)"); my_free(check_result_path); /* existing dir, with 2 check files in it */ create_check_result_file(1, "hst1", "svc1", "output"); create_check_result_file(2, "hst1", NULL, "output"); check_result_path = nspath_absolute("./../t-tap/var/reaper/some_files", NULL); ok(process_check_result_queue(check_result_path) == 2, "2 files (as there should be)"); my_free(check_result_path); test_check_debugging=FALSE; /* do sig_{shutdown,restart} work as intended */ sigshutdown = TRUE; check_result_path = nspath_absolute("./../t-tap/var/reaper/some_files", NULL); ok(process_check_result_queue(check_result_path) == 0, "0 files (as there shouldn't be)"); sigshutdown = FALSE; sigrestart = TRUE; ok(process_check_result_queue(check_result_path) == 0, "0 files (as there shouldn't be)"); /* force too long of a check */ max_check_reaper_time = -5; sigrestart = FALSE; ok(process_check_result_queue(check_result_path) == 0, "cant process if taking too long"); my_free(check_result_path); /* we already tested all of this, but just to make coverage happy */ reap_check_results(); } int main(int argc, char **argv) { char cwd[1024]; if (getcwd(cwd, sizeof(cwd)) != NULL) { printf("\n\n********** cwd: %s\n\n", cwd); } else { printf("\n\n********** cwd error!\n\n"); } time_t now = 0L; execute_host_checks = TRUE; execute_service_checks = TRUE; accept_passive_host_checks = TRUE; accept_passive_service_checks = TRUE; plan_tests(453); time(&now); run_service_tests(CHECK_TYPE_ACTIVE); run_service_tests(CHECK_TYPE_PASSIVE); /* the way host checks are handled is very different based on active/passive */ run_active_host_tests(); passive_host_checks_are_soft = TRUE; run_passive_host_tests(); run_misc_host_check_tests(now); run_reaper_tests(); return exit_status(); }