X-Git-Url: https://git.octo.it/?p=collectd.git;a=blobdiff_plain;f=src%2Fipmi.c;h=98cc3b057eb6c043ba7cbc7e92d671d7e7f4de35;hp=f3636fc8babc43860f440c9603ed160e42fb221a;hb=0d9f395599348e735e6f461e1c328293bef0d060;hpb=c88c2de1c9cd6795b30c34990a565d18b69221e7 diff --git a/src/ipmi.c b/src/ipmi.c index f3636fc8..98cc3b05 100644 --- a/src/ipmi.c +++ b/src/ipmi.c @@ -21,6 +21,7 @@ * Florian octo Forster * Peter Holik * Bruno Prémont + * Pavel Rochnyak **/ #include "collectd.h" @@ -29,102 +30,178 @@ #include "plugin.h" #include "utils_ignorelist.h" +#include #include #include +#include #include #include #include +#define ERR_BUF_SIZE 1024 + /* * Private data types */ struct c_ipmi_sensor_list_s; typedef struct c_ipmi_sensor_list_s c_ipmi_sensor_list_t; +struct c_ipmi_instance_s { + char *name; + ignorelist_t *ignorelist; + _Bool notify_add; + _Bool notify_remove; + _Bool notify_notpresent; + _Bool notify_conn; + _Bool sel_enabled; + _Bool sel_clear_event; + + char *host; + char *connaddr; + char *username; + char *password; + unsigned int authtype; + + _Bool connected; + ipmi_con_t *connection; + pthread_mutex_t sensor_list_lock; + c_ipmi_sensor_list_t *sensor_list; + + _Bool active; + pthread_t thread_id; + int init_in_progress; + + struct c_ipmi_instance_s *next; +}; +typedef struct c_ipmi_instance_s c_ipmi_instance_t; + struct c_ipmi_sensor_list_s { ipmi_sensor_id_t sensor_id; char sensor_name[DATA_MAX_NAME_LEN]; char sensor_type[DATA_MAX_NAME_LEN]; + char type_instance[DATA_MAX_NAME_LEN]; int sensor_not_present; c_ipmi_sensor_list_t *next; + c_ipmi_instance_t *instance; + unsigned int use; }; +struct c_ipmi_db_type_map_s { + enum ipmi_unit_type_e type; + const char *type_name; +}; +typedef struct c_ipmi_db_type_map_s c_ipmi_db_type_map_t; + /* * Module global variables */ -static pthread_mutex_t sensor_list_lock = PTHREAD_MUTEX_INITIALIZER; -static c_ipmi_sensor_list_t *sensor_list = NULL; - -static int c_ipmi_init_in_progress = 0; -static int c_ipmi_active = 0; -static pthread_t thread_id = (pthread_t)0; - -static const char *config_keys[] = {"Sensor", "IgnoreSelected", - "NotifySensorAdd", "NotifySensorRemove", - "NotifySensorNotPresent"}; -static int config_keys_num = STATIC_ARRAY_SIZE(config_keys); - -static ignorelist_t *ignorelist = NULL; - -static int c_ipmi_nofiy_add = 0; -static int c_ipmi_nofiy_remove = 0; -static int c_ipmi_nofiy_notpresent = 0; +static os_handler_t *os_handler = NULL; +static c_ipmi_instance_t *instances = NULL; /* * Misc private functions */ -static void c_ipmi_error(const char *func, int status) { - char errbuf[4096] = {0}; +static void c_ipmi_error(c_ipmi_instance_t *st, const char *func, int status) { + char errbuf[ERR_BUF_SIZE] = {0}; - if (IPMI_IS_OS_ERR(status)) { - sstrerror(IPMI_GET_OS_ERR(status), errbuf, sizeof(errbuf)); - } else if (IPMI_IS_IPMI_ERR(status)) { - ipmi_get_error_string(IPMI_GET_IPMI_ERR(status), errbuf, sizeof(errbuf)); + if (IPMI_IS_OS_ERR(status) || IPMI_IS_RMCPP_ERR(status) || + IPMI_IS_IPMI_ERR(status)) { + ipmi_get_error_string(status, errbuf, sizeof(errbuf)); } if (errbuf[0] == 0) { - ssnprintf(errbuf, sizeof(errbuf), "Unknown error %#x", status); + snprintf(errbuf, sizeof(errbuf), "Unknown error %#x", status); } errbuf[sizeof(errbuf) - 1] = 0; - ERROR("ipmi plugin: %s failed: %s", func, errbuf); + ERROR("ipmi plugin: %s failed for `%s`: %s", func, st->name, errbuf); } /* void c_ipmi_error */ +static void c_ipmi_log(os_handler_t *handler, const char *format, + enum ipmi_log_type_e log_type, va_list ap) { + char msg[ERR_BUF_SIZE]; + + vsnprintf(msg, sizeof(msg), format, ap); + + switch (log_type) { + case IPMI_LOG_INFO: + INFO("ipmi plugin: %s", msg); + break; + case IPMI_LOG_WARNING: + NOTICE("ipmi plugin: %s", msg); + break; + case IPMI_LOG_SEVERE: + WARNING("ipmi plugin: %s", msg); + break; + case IPMI_LOG_FATAL: + ERROR("ipmi plugin: %s", msg); + break; + case IPMI_LOG_ERR_INFO: + ERROR("ipmi plugin: %s", msg); + break; +#if COLLECT_DEBUG + case IPMI_LOG_DEBUG_START: + case IPMI_LOG_DEBUG: + DEBUG("ipmi plugin: %s", msg); + break; + case IPMI_LOG_DEBUG_CONT: + case IPMI_LOG_DEBUG_END: + DEBUG("%s", msg); + break; +#else + case IPMI_LOG_DEBUG_START: + case IPMI_LOG_DEBUG: + case IPMI_LOG_DEBUG_CONT: + case IPMI_LOG_DEBUG_END: + break; +#endif + } +} /* void c_ipmi_log */ + +static notification_t c_ipmi_notification_init(c_ipmi_instance_t const *st, + int severity) { + notification_t n = {severity, cdtime(), "", "", "ipmi", "", "", "", NULL}; + + sstrncpy(n.host, (st->host != NULL) ? st->host : hostname_g, sizeof(n.host)); + return n; +} /* notification_t c_ipmi_notification_init */ + /* * Sensor handlers */ /* Prototype for sensor_list_remove, so sensor_read_handler can call it. */ -static int sensor_list_remove(ipmi_sensor_t *sensor); +static int sensor_list_remove(c_ipmi_instance_t *st, ipmi_sensor_t *sensor); static void sensor_read_handler(ipmi_sensor_t *sensor, int err, enum ipmi_value_present_e value_present, unsigned int __attribute__((unused)) raw_value, - double value, - ipmi_states_t __attribute__((unused)) * states, + double value, ipmi_states_t *states, void *user_data) { value_list_t vl = VALUE_LIST_INIT; - c_ipmi_sensor_list_t *list_item = (c_ipmi_sensor_list_t *)user_data; + c_ipmi_sensor_list_t *list_item = user_data; + c_ipmi_instance_t *st = list_item->instance; + + list_item->use--; if (err != 0) { - if ((err & 0xff) == IPMI_NOT_PRESENT_CC) { + if (IPMI_IS_IPMI_ERR(err) && + IPMI_GET_IPMI_ERR(err) == IPMI_NOT_PRESENT_CC) { if (list_item->sensor_not_present == 0) { list_item->sensor_not_present = 1; - INFO("ipmi plugin: sensor_read_handler: sensor %s " + INFO("ipmi plugin: sensor_read_handler: sensor `%s` of `%s` " "not present.", - list_item->sensor_name); + list_item->sensor_name, st->name); - if (c_ipmi_nofiy_notpresent) { - notification_t n = { - NOTIF_WARNING, cdtime(), "", "", "ipmi", "", "", "", NULL}; + if (st->notify_notpresent) { + notification_t n = c_ipmi_notification_init(st, NOTIF_WARNING); - sstrncpy(n.host, hostname_g, sizeof(n.host)); - sstrncpy(n.type_instance, list_item->sensor_name, + sstrncpy(n.type_instance, list_item->type_instance, sizeof(n.type_instance)); sstrncpy(n.type, list_item->sensor_type, sizeof(n.type)); - ssnprintf(n.message, sizeof(n.message), "sensor %s not present", - list_item->sensor_name); + snprintf(n.message, sizeof(n.message), "sensor %s not present", + list_item->sensor_name); plugin_dispatch_notification(&n); } @@ -132,132 +209,219 @@ static void sensor_read_handler(ipmi_sensor_t *sensor, int err, } else if (IPMI_IS_IPMI_ERR(err) && IPMI_GET_IPMI_ERR(err) == IPMI_NOT_SUPPORTED_IN_PRESENT_STATE_CC) { - INFO("ipmi plugin: sensor_read_handler: Sensor %s not ready", - list_item->sensor_name); + INFO("ipmi plugin: sensor_read_handler: Sensor `%s` of `%s` not ready.", + list_item->sensor_name, st->name); + } else if (IPMI_IS_IPMI_ERR(err) && + IPMI_GET_IPMI_ERR(err) == IPMI_TIMEOUT_CC) { + INFO("ipmi plugin: sensor_read_handler: Sensor `%s` of `%s` timed out.", + list_item->sensor_name, st->name); } else { + char errbuf[ERR_BUF_SIZE] = {0}; + ipmi_get_error_string(err, errbuf, sizeof(errbuf) - 1); + if (IPMI_IS_IPMI_ERR(err)) - INFO("ipmi plugin: sensor_read_handler: Removing sensor %s, " - "because it failed with IPMI error %#x.", - list_item->sensor_name, IPMI_GET_IPMI_ERR(err)); + INFO("ipmi plugin: sensor_read_handler: Sensor `%s` of `%s` failed: " + "%s.", + list_item->sensor_name, st->name, errbuf); else if (IPMI_IS_OS_ERR(err)) - INFO("ipmi plugin: sensor_read_handler: Removing sensor %s, " - "because it failed with OS error %#x.", - list_item->sensor_name, IPMI_GET_OS_ERR(err)); + INFO("ipmi plugin: sensor_read_handler: Sensor `%s` of `%s` failed: " + "%s (%#x).", + list_item->sensor_name, st->name, errbuf, IPMI_GET_OS_ERR(err)); else if (IPMI_IS_RMCPP_ERR(err)) - INFO("ipmi plugin: sensor_read_handler: Removing sensor %s, " - "because it failed with RMCPP error %#x.", - list_item->sensor_name, IPMI_GET_RMCPP_ERR(err)); + INFO("ipmi plugin: sensor_read_handler: Sensor `%s` of `%s` failed: " + "%s.", + list_item->sensor_name, st->name, errbuf); else if (IPMI_IS_SOL_ERR(err)) - INFO("ipmi plugin: sensor_read_handler: Removing sensor %s, " - "because it failed with RMCPP error %#x.", - list_item->sensor_name, IPMI_GET_SOL_ERR(err)); + INFO("ipmi plugin: sensor_read_handler: Sensor `%s` of `%s` failed: " + "%s (%#x).", + list_item->sensor_name, st->name, errbuf, IPMI_GET_SOL_ERR(err)); else - INFO("ipmi plugin: sensor_read_handler: Removing sensor %s, " - "because it failed with error %#x. of class %#x", - list_item->sensor_name, err & 0xff, err & 0xffffff00); - sensor_list_remove(sensor); + INFO("ipmi plugin: sensor_read_handler: Sensor `%s` of `%s` failed " + "with error %#x. of class %#x", + list_item->sensor_name, st->name, err & 0xff, err & 0xffffff00); } return; } else if (list_item->sensor_not_present == 1) { list_item->sensor_not_present = 0; - INFO("ipmi plugin: sensor_read_handler: sensor %s present.", - list_item->sensor_name); + INFO("ipmi plugin: sensor_read_handler: sensor `%s` of `%s` present.", + list_item->sensor_name, st->name); - if (c_ipmi_nofiy_notpresent) { - notification_t n = {NOTIF_OKAY, cdtime(), "", "", "ipmi", - "", "", "", NULL}; + if (st->notify_notpresent) { + notification_t n = c_ipmi_notification_init(st, NOTIF_OKAY); - sstrncpy(n.host, hostname_g, sizeof(n.host)); - sstrncpy(n.type_instance, list_item->sensor_name, + sstrncpy(n.type_instance, list_item->type_instance, sizeof(n.type_instance)); sstrncpy(n.type, list_item->sensor_type, sizeof(n.type)); - ssnprintf(n.message, sizeof(n.message), "sensor %s present", - list_item->sensor_name); + snprintf(n.message, sizeof(n.message), "sensor %s present", + list_item->sensor_name); plugin_dispatch_notification(&n); } } if (value_present != IPMI_BOTH_VALUES_PRESENT) { - INFO("ipmi plugin: sensor_read_handler: Removing sensor %s, " + INFO("ipmi plugin: sensor_read_handler: Removing sensor `%s` of `%s`, " "because it provides %s. If you need this sensor, " "please file a bug report.", - list_item->sensor_name, + list_item->sensor_name, st->name, (value_present == IPMI_RAW_VALUE_PRESENT) ? "only the raw value" : "no value"); - sensor_list_remove(sensor); + sensor_list_remove(st, sensor); + return; + } + + if (!ipmi_is_sensor_scanning_enabled(states)) { + DEBUG("ipmi plugin: sensor_read_handler: Skipping sensor `%s` of `%s`, " + "it is in 'scanning disabled' state.", + list_item->sensor_name, st->name); + return; + } + + if (ipmi_is_initial_update_in_progress(states)) { + DEBUG("ipmi plugin: sensor_read_handler: Skipping sensor `%s` of `%s`, " + "it is in 'initial update in progress' state.", + list_item->sensor_name, st->name); return; } vl.values = &(value_t){.gauge = value}; vl.values_len = 1; + if (st->host != NULL) + sstrncpy(vl.host, st->host, sizeof(vl.host)); sstrncpy(vl.plugin, "ipmi", sizeof(vl.plugin)); sstrncpy(vl.type, list_item->sensor_type, sizeof(vl.type)); - sstrncpy(vl.type_instance, list_item->sensor_name, sizeof(vl.type_instance)); + sstrncpy(vl.type_instance, list_item->type_instance, + sizeof(vl.type_instance)); plugin_dispatch_values(&vl); } /* void sensor_read_handler */ -static int sensor_list_add(ipmi_sensor_t *sensor) { +static void sensor_get_name(ipmi_sensor_t *sensor, char *buffer, int buf_len) { + char temp[DATA_MAX_NAME_LEN] = {0}; + ipmi_entity_t *ent = ipmi_sensor_get_entity(sensor); + const char *entity_id_string = ipmi_entity_get_entity_id_string(ent); + char sensor_name[DATA_MAX_NAME_LEN] = ""; + char *sensor_name_ptr; + + if ((buffer == NULL) || (buf_len == 0)) + return; + + ipmi_sensor_get_name(sensor, temp, sizeof(temp)); + temp[sizeof(temp) - 1] = 0; + + if (entity_id_string != NULL && strlen(temp)) + snprintf(sensor_name, sizeof(sensor_name), "%s %s", temp, entity_id_string); + else if (entity_id_string != NULL) + sstrncpy(sensor_name, entity_id_string, sizeof(sensor_name)); + else + sstrncpy(sensor_name, temp, sizeof(sensor_name)); + + if (strlen(temp)) { + sstrncpy(temp, sensor_name, sizeof(temp)); + sensor_name_ptr = strstr(temp, ")."); + if (sensor_name_ptr != NULL) { + /* If name is something like "foo (123).bar", + * change that to "bar (123)". + * Both, sensor_name_ptr and sensor_id_ptr point to memory within the + * `temp' array, which holds a copy of the current `sensor_name'. */ + char *sensor_id_ptr; + + /* `sensor_name_ptr' points to ").bar". */ + sensor_name_ptr[1] = 0; + /* `temp' holds "foo (123)\0bar\0". */ + sensor_name_ptr += 2; + /* `sensor_name_ptr' now points to "bar". */ + + sensor_id_ptr = strstr(temp, "("); + if (sensor_id_ptr != NULL) { + /* `sensor_id_ptr' now points to "(123)". */ + snprintf(sensor_name, sizeof(sensor_name), "%s %s", sensor_name_ptr, + sensor_id_ptr); + } + /* else: don't touch sensor_name. */ + } + } + sstrncpy(buffer, sensor_name, buf_len); +} + +static const char *sensor_unit_to_type(ipmi_sensor_t *sensor) { + static const c_ipmi_db_type_map_t ipmi_db_type_map[] = { + {IPMI_UNIT_TYPE_WATTS, "power"}, {IPMI_UNIT_TYPE_CFM, "flow"}}; + + /* check the modifier and rate of the sensor value */ + if ((ipmi_sensor_get_modifier_unit_use(sensor) != IPMI_MODIFIER_UNIT_NONE) || + (ipmi_sensor_get_rate_unit(sensor) != IPMI_RATE_UNIT_NONE)) + return NULL; + + /* find the db type by using sensor base unit type */ + enum ipmi_unit_type_e ipmi_type = ipmi_sensor_get_base_unit(sensor); + for (int i = 0; i < STATIC_ARRAY_SIZE(ipmi_db_type_map); i++) + if (ipmi_db_type_map[i].type == ipmi_type) + return ipmi_db_type_map[i].type_name; + + return NULL; +} /* const char* sensor_unit_to_type */ + +static int sensor_list_add(c_ipmi_instance_t *st, ipmi_sensor_t *sensor) { ipmi_sensor_id_t sensor_id; c_ipmi_sensor_list_t *list_item; c_ipmi_sensor_list_t *list_prev; char buffer[DATA_MAX_NAME_LEN] = {0}; - const char *entity_id_string; - char sensor_name[DATA_MAX_NAME_LEN]; - char *sensor_name_ptr; + char *sensor_name_ptr = buffer; int sensor_type; const char *type; - ipmi_entity_t *ent = ipmi_sensor_get_entity(sensor); sensor_id = ipmi_sensor_convert_to_id(sensor); + sensor_get_name(sensor, buffer, sizeof(buffer)); + + DEBUG("ipmi plugin: sensor_list_add: Found sensor `%s` of `%s`," + " Type: %#x" + " Event reading type: %#x" + " Direction: %#x" + " Event support: %#x", + sensor_name_ptr, st->name, ipmi_sensor_get_sensor_type(sensor), + ipmi_sensor_get_event_reading_type(sensor), + ipmi_sensor_get_sensor_direction(sensor), + ipmi_sensor_get_event_support(sensor)); + + /* Both `ignorelist' and `sensor_name_ptr' may be NULL. */ + if (ignorelist_match(st->ignorelist, sensor_name_ptr) != 0) + return 0; - ipmi_sensor_get_name(sensor, buffer, sizeof(buffer)); - buffer[sizeof(buffer) - 1] = 0; + /* FIXME: Use rate unit or base unit to scale the value */ - entity_id_string = ipmi_entity_get_entity_id_string(ent); + sensor_type = ipmi_sensor_get_sensor_type(sensor); - if (entity_id_string == NULL) - sstrncpy(sensor_name, buffer, sizeof(sensor_name)); - else - ssnprintf(sensor_name, sizeof(sensor_name), "%s %s", buffer, - entity_id_string); - - sstrncpy(buffer, sensor_name, sizeof(buffer)); - sensor_name_ptr = strstr(buffer, ")."); - if (sensor_name_ptr != NULL) { - /* If name is something like "foo (123).bar", - * change that to "bar (123)". - * Both, sensor_name_ptr and sensor_id_ptr point to memory within the - * `buffer' array, which holds a copy of the current `sensor_name'. */ - char *sensor_id_ptr; - - /* `sensor_name_ptr' points to ").bar". */ - sensor_name_ptr[1] = 0; - /* `buffer' holds "foo (123)\0bar\0". */ - sensor_name_ptr += 2; - /* `sensor_name_ptr' now points to "bar". */ - - sensor_id_ptr = strstr(buffer, "("); - if (sensor_id_ptr != NULL) { - /* `sensor_id_ptr' now points to "(123)". */ - ssnprintf(sensor_name, sizeof(sensor_name), "%s %s", sensor_name_ptr, - sensor_id_ptr); - } - /* else: don't touch sensor_name. */ + /* + * ipmitool/lib/ipmi_sdr.c sdr_sensor_has_analog_reading() has a notice + * about 'Threshold sensors' and 'analog readings'. Discrete sensor may + * have analog data, but discrete sensors support is not implemented + * in Collectd yet. + * + * ipmi_sensor_id_get_reading() supports only 'Threshold' sensors. + * See lib/sensor.c:4842, stand_ipmi_sensor_get_reading() for details. + */ + if (!ipmi_sensor_get_is_readable(sensor)) { + INFO("ipmi plugin: sensor_list_add: Ignore sensor `%s` of `%s`, " + "because it isn't readable! Its type: (%#x, %s). ", + sensor_name_ptr, st->name, sensor_type, + ipmi_sensor_get_sensor_type_string(sensor)); + return -1; } - sensor_name_ptr = sensor_name; - - /* Both `ignorelist' and `plugin_instance' may be NULL. */ - if (ignorelist_match(ignorelist, sensor_name_ptr) != 0) - return (0); - /* FIXME: Use rate unit or base unit to scale the value */ + if (ipmi_sensor_get_event_reading_type(sensor) != + IPMI_EVENT_READING_TYPE_THRESHOLD) { + INFO("ipmi plugin: sensor_list_add: Ignore sensor `%s` of `%s`, " + "because it is discrete (%#x)! Its type: (%#x, %s). ", + sensor_name_ptr, st->name, sensor_type, + ipmi_sensor_get_event_reading_type(sensor), + ipmi_sensor_get_sensor_type_string(sensor)); + return -1; + } - sensor_type = ipmi_sensor_get_sensor_type(sensor); switch (sensor_type) { case IPMI_SENSOR_TYPE_TEMPERATURE: type = "temperature"; @@ -275,22 +439,31 @@ static int sensor_list_add(ipmi_sensor_t *sensor) { type = "fanspeed"; break; + case IPMI_SENSOR_TYPE_MEMORY: + type = "memory"; + break; + default: { - const char *sensor_type_str; + /* try to get collectd DB type based on sensor base unit type */ + if ((type = sensor_unit_to_type(sensor)) != NULL) + break; - sensor_type_str = ipmi_sensor_get_sensor_type_string(sensor); - INFO("ipmi plugin: sensor_list_add: Ignore sensor %s, " - "because I don't know how to handle its type (%#x, %s). " - "If you need this sensor, please file a bug report.", - sensor_name_ptr, sensor_type, sensor_type_str); - return (-1); + INFO("ipmi plugin: sensor_list_add: Ignore sensor `%s` of `%s`, " + "because I don't know how to handle its units (%#x, %#x, %#x). " + "Sensor type: (%#x, %s). If you need this sensor, please file " + "a bug report at http://collectd.org/.", + sensor_name_ptr, st->name, ipmi_sensor_get_base_unit(sensor), + ipmi_sensor_get_modifier_unit(sensor), + ipmi_sensor_get_rate_unit(sensor), sensor_type, + ipmi_sensor_get_sensor_type_string(sensor)); + return -1; } } /* switch (sensor_type) */ - pthread_mutex_lock(&sensor_list_lock); + pthread_mutex_lock(&st->sensor_list_lock); list_prev = NULL; - for (list_item = sensor_list; list_item != NULL; + for (list_item = st->sensor_list; list_item != NULL; list_item = list_item->next) { if (ipmi_cmp_sensor_id(sensor_id, list_item->sensor_id) == 0) break; @@ -298,55 +471,68 @@ static int sensor_list_add(ipmi_sensor_t *sensor) { } /* for (list_item) */ if (list_item != NULL) { - pthread_mutex_unlock(&sensor_list_lock); - return (0); + pthread_mutex_unlock(&st->sensor_list_lock); + return 0; } list_item = (c_ipmi_sensor_list_t *)calloc(1, sizeof(c_ipmi_sensor_list_t)); if (list_item == NULL) { - pthread_mutex_unlock(&sensor_list_lock); - return (-1); + pthread_mutex_unlock(&st->sensor_list_lock); + return -1; } + list_item->instance = st; list_item->sensor_id = ipmi_sensor_convert_to_id(sensor); if (list_prev != NULL) list_prev->next = list_item; else - sensor_list = list_item; + st->sensor_list = list_item; + + /* if sensor provides the percentage value, use "percent" collectd type + and add the `percent` to the type instance of the reported value */ + if (ipmi_sensor_get_percentage(sensor)) { + snprintf(list_item->type_instance, sizeof(list_item->type_instance), + "percent-%s", sensor_name_ptr); + type = "percent"; + } else { + /* use type instance as a name of the sensor */ + sstrncpy(list_item->type_instance, sensor_name_ptr, + sizeof(list_item->type_instance)); + } sstrncpy(list_item->sensor_name, sensor_name_ptr, sizeof(list_item->sensor_name)); sstrncpy(list_item->sensor_type, type, sizeof(list_item->sensor_type)); - pthread_mutex_unlock(&sensor_list_lock); + pthread_mutex_unlock(&st->sensor_list_lock); - if (c_ipmi_nofiy_add && (c_ipmi_init_in_progress == 0)) { - notification_t n = {NOTIF_OKAY, cdtime(), "", "", "ipmi", "", "", "", NULL}; + if (st->notify_add && (st->init_in_progress == 0)) { + notification_t n = c_ipmi_notification_init(st, NOTIF_OKAY); - sstrncpy(n.host, hostname_g, sizeof(n.host)); - sstrncpy(n.type_instance, list_item->sensor_name, sizeof(n.type_instance)); + sstrncpy(n.type_instance, list_item->type_instance, + sizeof(n.type_instance)); sstrncpy(n.type, list_item->sensor_type, sizeof(n.type)); - ssnprintf(n.message, sizeof(n.message), "sensor %s added", - list_item->sensor_name); + snprintf(n.message, sizeof(n.message), "sensor %s added", + list_item->sensor_name); plugin_dispatch_notification(&n); } - return (0); + return 0; } /* int sensor_list_add */ -static int sensor_list_remove(ipmi_sensor_t *sensor) { +static int sensor_list_remove(c_ipmi_instance_t *st, ipmi_sensor_t *sensor) { ipmi_sensor_id_t sensor_id; c_ipmi_sensor_list_t *list_item; c_ipmi_sensor_list_t *list_prev; sensor_id = ipmi_sensor_convert_to_id(sensor); - pthread_mutex_lock(&sensor_list_lock); + pthread_mutex_lock(&st->sensor_list_lock); list_prev = NULL; - for (list_item = sensor_list; list_item != NULL; + for (list_item = st->sensor_list; list_item != NULL; list_item = list_item->next) { if (ipmi_cmp_sensor_id(sensor_id, list_item->sensor_id) == 0) break; @@ -354,60 +540,67 @@ static int sensor_list_remove(ipmi_sensor_t *sensor) { } /* for (list_item) */ if (list_item == NULL) { - pthread_mutex_unlock(&sensor_list_lock); - return (-1); + pthread_mutex_unlock(&st->sensor_list_lock); + return -1; } if (list_prev == NULL) - sensor_list = list_item->next; + st->sensor_list = list_item->next; else list_prev->next = list_item->next; list_prev = NULL; list_item->next = NULL; - pthread_mutex_unlock(&sensor_list_lock); + pthread_mutex_unlock(&st->sensor_list_lock); - if (c_ipmi_nofiy_remove && c_ipmi_active) { - notification_t n = {NOTIF_WARNING, cdtime(), "", "", "ipmi", "", "", "", - NULL}; + if (st->notify_remove && st->active) { + notification_t n = c_ipmi_notification_init(st, NOTIF_WARNING); - sstrncpy(n.host, hostname_g, sizeof(n.host)); - sstrncpy(n.type_instance, list_item->sensor_name, sizeof(n.type_instance)); + sstrncpy(n.type_instance, list_item->type_instance, + sizeof(n.type_instance)); sstrncpy(n.type, list_item->sensor_type, sizeof(n.type)); - ssnprintf(n.message, sizeof(n.message), "sensor %s removed", - list_item->sensor_name); + snprintf(n.message, sizeof(n.message), "sensor %s removed", + list_item->sensor_name); plugin_dispatch_notification(&n); } free(list_item); - return (0); + return 0; } /* int sensor_list_remove */ -static int sensor_list_read_all(void) { - pthread_mutex_lock(&sensor_list_lock); +static int sensor_list_read_all(c_ipmi_instance_t *st) { + pthread_mutex_lock(&st->sensor_list_lock); - for (c_ipmi_sensor_list_t *list_item = sensor_list; list_item != NULL; + for (c_ipmi_sensor_list_t *list_item = st->sensor_list; list_item != NULL; list_item = list_item->next) { + DEBUG("ipmi plugin: try read sensor `%s` of `%s`, use: %d", + list_item->sensor_name, st->name, list_item->use); + + /* Reading already initiated */ + if (list_item->use) + continue; + + list_item->use++; ipmi_sensor_id_get_reading(list_item->sensor_id, sensor_read_handler, - /* user data = */ list_item); + /* user data = */ (void *)list_item); } /* for (list_item) */ - pthread_mutex_unlock(&sensor_list_lock); + pthread_mutex_unlock(&st->sensor_list_lock); - return (0); + return 0; } /* int sensor_list_read_all */ -static int sensor_list_remove_all(void) { +static int sensor_list_remove_all(c_ipmi_instance_t *st) { c_ipmi_sensor_list_t *list_item; - pthread_mutex_lock(&sensor_list_lock); + pthread_mutex_lock(&st->sensor_list_lock); - list_item = sensor_list; - sensor_list = NULL; + list_item = st->sensor_list; + st->sensor_list = NULL; - pthread_mutex_unlock(&sensor_list_lock); + pthread_mutex_unlock(&st->sensor_list_lock); while (list_item != NULL) { c_ipmi_sensor_list_t *list_next = list_item->next; @@ -417,207 +610,685 @@ static int sensor_list_remove_all(void) { list_item = list_next; } /* while (list_item) */ - return (0); + return 0; } /* int sensor_list_remove_all */ +static int sensor_convert_threshold_severity(enum ipmi_thresh_e severity) { + switch (severity) { + case IPMI_LOWER_NON_CRITICAL: + case IPMI_UPPER_NON_CRITICAL: + return NOTIF_OKAY; + case IPMI_LOWER_CRITICAL: + case IPMI_UPPER_CRITICAL: + return NOTIF_WARNING; + case IPMI_LOWER_NON_RECOVERABLE: + case IPMI_UPPER_NON_RECOVERABLE: + return NOTIF_FAILURE; + default: + return NOTIF_OKAY; + } /* switch (severity) */ +} /* int sensor_convert_threshold_severity */ + +static void add_event_common_data(notification_t *n, ipmi_sensor_t *sensor, + enum ipmi_event_dir_e dir, + ipmi_event_t *event) { + ipmi_entity_t *ent = ipmi_sensor_get_entity(sensor); + + plugin_notification_meta_add_string(n, "entity_name", + ipmi_entity_get_entity_id_string(ent)); + plugin_notification_meta_add_signed_int(n, "entity_id", + ipmi_entity_get_entity_id(ent)); + plugin_notification_meta_add_signed_int(n, "entity_instance", + ipmi_entity_get_entity_instance(ent)); + plugin_notification_meta_add_boolean(n, "assert", dir == IPMI_ASSERTION); + + if (event) + plugin_notification_meta_add_signed_int(n, "event_type", + ipmi_event_get_type(event)); +} /* void add_event_sensor_meta_data */ + +static int sensor_threshold_event_handler( + ipmi_sensor_t *sensor, enum ipmi_event_dir_e dir, + enum ipmi_thresh_e threshold, enum ipmi_event_value_dir_e high_low, + enum ipmi_value_present_e value_present, unsigned int raw_value, + double value, void *cb_data, ipmi_event_t *event) { + + c_ipmi_instance_t *st = cb_data; + + /* From the IPMI specification Chapter 2: Events. + * If a callback handles the event, then all future callbacks called due to + * the event will receive a NULL for the event. So be ready to handle a NULL + * event in all your event handlers. A NULL may also be passed to an event + * handler if the callback was not due to an event. */ + if (event == NULL) + return IPMI_EVENT_NOT_HANDLED; + + notification_t n = c_ipmi_notification_init(st, NOTIF_OKAY); + /* offset is a table index and it's represented as enum of strings that are + organized in the way - high and low for each threshold severity level */ + unsigned int offset = (2 * threshold) + high_low; + unsigned int event_type = ipmi_sensor_get_event_reading_type(sensor); + unsigned int sensor_type = ipmi_sensor_get_sensor_type(sensor); + const char *event_state = + ipmi_get_reading_name(event_type, sensor_type, offset); + sensor_get_name(sensor, n.type_instance, sizeof(n.type_instance)); + if (value_present != IPMI_NO_VALUES_PRESENT) + snprintf(n.message, sizeof(n.message), + "sensor %s received event: %s, value is %f", n.type_instance, + event_state, value); + else + snprintf(n.message, sizeof(n.message), + "sensor %s received event: %s, value not provided", + n.type_instance, event_state); + + DEBUG("Threshold event received for sensor %s", n.type_instance); + + sstrncpy(n.type, ipmi_sensor_get_sensor_type_string(sensor), sizeof(n.type)); + n.severity = sensor_convert_threshold_severity(threshold); + n.time = NS_TO_CDTIME_T(ipmi_event_get_timestamp(event)); + + plugin_notification_meta_add_string(&n, "severity", + ipmi_get_threshold_string(threshold)); + plugin_notification_meta_add_string(&n, "direction", + ipmi_get_value_dir_string(high_low)); + + switch (value_present) { + case IPMI_BOTH_VALUES_PRESENT: + plugin_notification_meta_add_double(&n, "val", value); + /* both values present, so fall-through to add raw value too */ + case IPMI_RAW_VALUE_PRESENT: { + char buf[DATA_MAX_NAME_LEN] = {0}; + snprintf(buf, sizeof(buf), "0x%2.2x", raw_value); + plugin_notification_meta_add_string(&n, "raw", buf); + } break; + default: + break; + } /* switch (value_present) */ + + add_event_common_data(&n, sensor, dir, event); + + plugin_dispatch_notification(&n); + plugin_notification_meta_free(n.meta); + + /* Delete handled ipmi event from the list */ + if (st->sel_clear_event) { + ipmi_event_delete(event, NULL, NULL); + return IPMI_EVENT_HANDLED; + } + + return IPMI_EVENT_NOT_HANDLED; +} /* int sensor_threshold_event_handler */ + +static int sensor_discrete_event_handler(ipmi_sensor_t *sensor, + enum ipmi_event_dir_e dir, int offset, + int severity, int prev_severity, + void *cb_data, ipmi_event_t *event) { + + c_ipmi_instance_t *st = cb_data; + + /* From the IPMI specification Chapter 2: Events. + * If a callback handles the event, then all future callbacks called due to + * the event will receive a NULL for the event. So be ready to handle a NULL + * event in all your event handlers. A NULL may also be passed to an event + * handler if the callback was not due to an event. */ + if (event == NULL) + return IPMI_EVENT_NOT_HANDLED; + + notification_t n = c_ipmi_notification_init(st, NOTIF_OKAY); + unsigned int event_type = ipmi_sensor_get_event_reading_type(sensor); + unsigned int sensor_type = ipmi_sensor_get_sensor_type(sensor); + const char *event_state = + ipmi_get_reading_name(event_type, sensor_type, offset); + sensor_get_name(sensor, n.type_instance, sizeof(n.type_instance)); + snprintf(n.message, sizeof(n.message), "sensor %s received event: %s", + n.type_instance, event_state); + + DEBUG("Discrete event received for sensor %s", n.type_instance); + + sstrncpy(n.type, ipmi_sensor_get_sensor_type_string(sensor), sizeof(n.type)); + n.time = NS_TO_CDTIME_T(ipmi_event_get_timestamp(event)); + + plugin_notification_meta_add_signed_int(&n, "offset", offset); + + if (severity != -1) + plugin_notification_meta_add_signed_int(&n, "severity", severity); + + if (prev_severity != -1) + plugin_notification_meta_add_signed_int(&n, "prevseverity", prev_severity); + + add_event_common_data(&n, sensor, dir, event); + + plugin_dispatch_notification(&n); + plugin_notification_meta_free(n.meta); + + /* Delete handled ipmi event from the list */ + if (st->sel_clear_event) { + ipmi_event_delete(event, NULL, NULL); + return IPMI_EVENT_HANDLED; + } + + return IPMI_EVENT_NOT_HANDLED; +} /* int sensor_discrete_event_handler */ + /* * Entity handlers */ -static void entity_sensor_update_handler( - enum ipmi_update_e op, ipmi_entity_t __attribute__((unused)) * entity, - ipmi_sensor_t *sensor, void __attribute__((unused)) * user_data) { - /* TODO: Ignore sensors we cannot read */ +static void +entity_sensor_update_handler(enum ipmi_update_e op, + ipmi_entity_t __attribute__((unused)) * entity, + ipmi_sensor_t *sensor, void *user_data) { + c_ipmi_instance_t *st = user_data; if ((op == IPMI_ADDED) || (op == IPMI_CHANGED)) { /* Will check for duplicate entries.. */ - sensor_list_add(sensor); + sensor_list_add(st, sensor); + + if (st->sel_enabled) { + int status = 0; + /* register threshold event handler */ + if (ipmi_sensor_get_event_reading_type(sensor) == + IPMI_EVENT_READING_TYPE_THRESHOLD) + status = ipmi_sensor_add_threshold_event_handler( + sensor, sensor_threshold_event_handler, st); + /* register discrete handler if discrete/specific sensor support events */ + else if (ipmi_sensor_get_event_support(sensor) != IPMI_EVENT_SUPPORT_NONE) + status = ipmi_sensor_add_discrete_event_handler( + sensor, sensor_discrete_event_handler, st); + + if (status) { + char buf[DATA_MAX_NAME_LEN] = {0}; + sensor_get_name(sensor, buf, sizeof(buf)); + ERROR("Unable to add sensor %s event handler, status: %d", buf, status); + } + } } else if (op == IPMI_DELETED) { - sensor_list_remove(sensor); + sensor_list_remove(st, sensor); + + if (st->sel_enabled) { + if (ipmi_sensor_get_event_reading_type(sensor) == + IPMI_EVENT_READING_TYPE_THRESHOLD) + ipmi_sensor_remove_threshold_event_handler( + sensor, sensor_threshold_event_handler, st); + else + ipmi_sensor_remove_discrete_event_handler( + sensor, sensor_discrete_event_handler, st); + } } } /* void entity_sensor_update_handler */ /* * Domain handlers */ -static void domain_entity_update_handler( - enum ipmi_update_e op, ipmi_domain_t __attribute__((unused)) * domain, - ipmi_entity_t *entity, void __attribute__((unused)) * user_data) { +static void +domain_entity_update_handler(enum ipmi_update_e op, + ipmi_domain_t __attribute__((unused)) * domain, + ipmi_entity_t *entity, void *user_data) { int status; + c_ipmi_instance_t *st = user_data; if (op == IPMI_ADDED) { status = ipmi_entity_add_sensor_update_handler( - entity, entity_sensor_update_handler, /* user data = */ NULL); + entity, entity_sensor_update_handler, /* user data = */ (void *)st); if (status != 0) { - c_ipmi_error("ipmi_entity_add_sensor_update_handler", status); + c_ipmi_error(st, "ipmi_entity_add_sensor_update_handler", status); } } else if (op == IPMI_DELETED) { status = ipmi_entity_remove_sensor_update_handler( - entity, entity_sensor_update_handler, /* user data = */ NULL); + entity, entity_sensor_update_handler, /* user data = */ (void *)st); if (status != 0) { - c_ipmi_error("ipmi_entity_remove_sensor_update_handler", status); + c_ipmi_error(st, "ipmi_entity_remove_sensor_update_handler", status); } } } /* void domain_entity_update_handler */ +static void smi_event_handler(ipmi_con_t __attribute__((unused)) * ipmi, + const ipmi_addr_t __attribute__((unused)) * addr, + unsigned int __attribute__((unused)) addr_len, + ipmi_event_t *event, void *cb_data) { + unsigned int type = ipmi_event_get_type(event); + ipmi_domain_t *domain = cb_data; + + DEBUG("%s: Event received: type %u", __FUNCTION__, type); + + if (type != 0x02) + /* It's not a standard IPMI event. */ + return; + + /* force domain to reread SELs */ + ipmi_domain_reread_sels(domain, NULL, NULL); +} + static void domain_connection_change_handler(ipmi_domain_t *domain, int err, unsigned int conn_num, unsigned int port_num, int still_connected, void *user_data) { - int status; DEBUG("domain_connection_change_handler (domain = %p, err = %i, " "conn_num = %u, port_num = %u, still_connected = %i, " - "user_data = %p);\n", + "user_data = %p);", (void *)domain, err, conn_num, port_num, still_connected, user_data); - status = ipmi_domain_add_entity_update_handler( - domain, domain_entity_update_handler, /* user data = */ NULL); - if (status != 0) { - c_ipmi_error("ipmi_domain_add_entity_update_handler", status); + c_ipmi_instance_t *st = user_data; + + if (err != 0) + c_ipmi_error(st, "domain_connection_change_handler", err); + + if (!still_connected) { + + if (st->notify_conn && st->connected && st->init_in_progress == 0) { + notification_t n = c_ipmi_notification_init(st, NOTIF_FAILURE); + + sstrncpy(n.message, "IPMI connection lost", sizeof(n.plugin)); + + plugin_dispatch_notification(&n); + } + + st->connected = 0; + return; } -} /* void domain_connection_change_handler */ -static int thread_init(os_handler_t **ret_os_handler) { - os_handler_t *os_handler; - ipmi_con_t *smi_connection = NULL; - ipmi_domain_id_t domain_id; - int status; + if (st->notify_conn && !st->connected && st->init_in_progress == 0) { + notification_t n = c_ipmi_notification_init(st, NOTIF_OKAY); - os_handler = ipmi_posix_thread_setup_os_handler(SIGIO); - if (os_handler == NULL) { - ERROR("ipmi plugin: ipmi_posix_thread_setup_os_handler failed."); - return (-1); + sstrncpy(n.message, "IPMI connection restored", sizeof(n.plugin)); + + plugin_dispatch_notification(&n); } - ipmi_init(os_handler); + st->connected = 1; - status = ipmi_smi_setup_con(/* if_num = */ 0, os_handler, - /* user data = */ NULL, &smi_connection); + int status = ipmi_domain_add_entity_update_handler( + domain, domain_entity_update_handler, /* user data = */ st); if (status != 0) { - c_ipmi_error("ipmi_smi_setup_con", status); - return (-1); + c_ipmi_error(st, "ipmi_domain_add_entity_update_handler", status); } - ipmi_open_option_t open_option[1] = {[0] = {.option = IPMI_OPEN_OPTION_ALL, - {.ival = 1}}}; + status = st->connection->add_event_handler(st->connection, smi_event_handler, + (void *)domain); + if (status != 0) + c_ipmi_error(st, "Failed to register smi event handler", status); +} /* void domain_connection_change_handler */ + +static int c_ipmi_thread_init(c_ipmi_instance_t *st) { + ipmi_domain_id_t domain_id; + int status; + + if (st->connaddr != NULL) { + status = ipmi_ip_setup_con( + &st->connaddr, &(char *){IPMI_LAN_STD_PORT_STR}, 1, st->authtype, + (unsigned int)IPMI_PRIVILEGE_USER, st->username, strlen(st->username), + st->password, strlen(st->password), os_handler, + /* user data = */ NULL, &st->connection); + if (status != 0) { + c_ipmi_error(st, "ipmi_ip_setup_con", status); + return -1; + } + } else { + status = ipmi_smi_setup_con(/* if_num = */ 0, os_handler, + /* user data = */ NULL, &st->connection); + if (status != 0) { + c_ipmi_error(st, "ipmi_smi_setup_con", status); + return -1; + } + } + + ipmi_open_option_t opts[] = { + {.option = IPMI_OPEN_OPTION_ALL, {.ival = 1}}, +#ifdef IPMI_OPEN_OPTION_USE_CACHE + /* OpenIPMI-2.0.17 and later: Disable SDR cache in local file */ + {.option = IPMI_OPEN_OPTION_USE_CACHE, {.ival = 0}}, +#endif + }; + + /* + * NOTE: Domain names must be unique. There is static `domains_list` common + * to all threads inside lib/domain.c and some ops are done by name. + */ status = ipmi_open_domain( - "mydomain", &smi_connection, /* num_con = */ 1, - domain_connection_change_handler, /* user data = */ NULL, - /* domain_fully_up_handler = */ NULL, /* user data = */ NULL, open_option, - sizeof(open_option) / sizeof(open_option[0]), &domain_id); + st->name, &st->connection, /* num_con = */ 1, + domain_connection_change_handler, /* user data = */ (void *)st, + /* domain_fully_up_handler = */ NULL, /* user data = */ NULL, opts, + STATIC_ARRAY_SIZE(opts), &domain_id); if (status != 0) { - c_ipmi_error("ipmi_open_domain", status); - return (-1); + c_ipmi_error(st, "ipmi_open_domain", status); + return -1; } - *ret_os_handler = os_handler; - return (0); -} /* int thread_init */ + return 0; +} /* int c_ipmi_thread_init */ -static void *thread_main(void __attribute__((unused)) * user_data) { - int status; - os_handler_t *os_handler = NULL; +static void *c_ipmi_thread_main(void *user_data) { + c_ipmi_instance_t *st = user_data; - status = thread_init(&os_handler); + int status = c_ipmi_thread_init(st); if (status != 0) { - ERROR("ipmi plugin: thread_init failed.\n"); - return ((void *)-1); + ERROR("ipmi plugin: c_ipmi_thread_init failed."); + st->active = 0; + return (void *)-1; } - while (c_ipmi_active != 0) { + while (st->active != 0) { struct timeval tv = {1, 0}; os_handler->perform_one_op(os_handler, &tv); } + return (void *)0; +} /* void *c_ipmi_thread_main */ - ipmi_posix_thread_free_os_handler(os_handler); - - return ((void *)0); -} /* void *thread_main */ - -static int c_ipmi_config(const char *key, const char *value) { - if (ignorelist == NULL) - ignorelist = ignorelist_create(/* invert = */ 1); - if (ignorelist == NULL) - return (1); - - if (strcasecmp("Sensor", key) == 0) { - ignorelist_add(ignorelist, value); - } else if (strcasecmp("IgnoreSelected", key) == 0) { - int invert = 1; - if (IS_TRUE(value)) - invert = 0; - ignorelist_set_invert(ignorelist, invert); - } else if (strcasecmp("NotifySensorAdd", key) == 0) { - if (IS_TRUE(value)) - c_ipmi_nofiy_add = 1; - } else if (strcasecmp("NotifySensorRemove", key) == 0) { - if (IS_TRUE(value)) - c_ipmi_nofiy_remove = 1; - } else if (strcasecmp("NotifySensorNotPresent", key) == 0) { - if (IS_TRUE(value)) - c_ipmi_nofiy_notpresent = 1; - } else { - return (-1); +static c_ipmi_instance_t *c_ipmi_init_instance() { + c_ipmi_instance_t *st; + + st = calloc(1, sizeof(*st)); + if (st == NULL) { + ERROR("ipmi plugin: calloc failed."); + return NULL; } - return (0); -} /* int c_ipmi_config */ + st->name = strdup("main"); + if (st->name == NULL) { + sfree(st); + ERROR("ipmi plugin: strdup() failed."); + return NULL; + } -static int c_ipmi_init(void) { - int status; + st->ignorelist = ignorelist_create(/* invert = */ 1); + if (st->ignorelist == NULL) { + sfree(st->name); + sfree(st); + ERROR("ipmi plugin: ignorelist_create() failed."); + return NULL; + } - /* Don't send `ADD' notifications during startup (~ 1 minute) */ - time_t iv = CDTIME_T_TO_TIME_T(plugin_get_interval()); - c_ipmi_init_in_progress = 1 + (60 / iv); + st->sensor_list = NULL; + pthread_mutex_init(&st->sensor_list_lock, /* attr = */ NULL); + + st->host = NULL; + st->connaddr = NULL; + st->username = NULL; + st->password = NULL; + st->authtype = IPMI_AUTHTYPE_DEFAULT; + + st->next = NULL; + + return st; +} /* c_ipmi_instance_t *c_ipmi_init_instance */ + +static void c_ipmi_free_instance(c_ipmi_instance_t *st) { + if (st == NULL) + return; + + assert(st->next == NULL); - c_ipmi_active = 1; + sfree(st->name); + sfree(st->host); + sfree(st->connaddr); + sfree(st->username); + sfree(st->password); + + ignorelist_free(st->ignorelist); + pthread_mutex_destroy(&st->sensor_list_lock); + sfree(st); +} /* void c_ipmi_free_instance */ + +static void c_ipmi_add_instance(c_ipmi_instance_t *instance) { + if (instances == NULL) { + instances = instance; + return; + } + + c_ipmi_instance_t *last = instances; + + while (last->next != NULL) + last = last->next; + + last->next = instance; +} /* void c_ipmi_add_instance */ + +static int c_ipmi_config_add_instance(oconfig_item_t *ci) { + int status = 0; + c_ipmi_instance_t *st = c_ipmi_init_instance(); + if (st == NULL) + return ENOMEM; + + if (strcasecmp(ci->key, "Instance") == 0) + status = cf_util_get_string(ci, &st->name); - status = plugin_thread_create(&thread_id, /* attr = */ NULL, thread_main, - /* user data = */ NULL, "ipmi"); if (status != 0) { - c_ipmi_active = 0; - thread_id = (pthread_t)0; - ERROR("ipmi plugin: pthread_create failed."); - return (-1); + c_ipmi_free_instance(st); + return status; } - return (0); -} /* int c_ipmi_init */ + for (int i = 0; i < ci->children_num; i++) { + oconfig_item_t *child = ci->children + i; + + if (strcasecmp("Sensor", child->key) == 0) { + char *value = NULL; + status = cf_util_get_string(child, &value); + if (status != 0) + break; + ignorelist_add(st->ignorelist, value); + sfree(value); + } else if (strcasecmp("IgnoreSelected", child->key) == 0) { + _Bool t; + status = cf_util_get_boolean(child, &t); + if (status != 0) + break; + ignorelist_set_invert(st->ignorelist, /* invert = */ !t); + } else if (strcasecmp("NotifyIPMIConnectionState", child->key) == 0) { + status = cf_util_get_boolean(child, &st->notify_conn); + } else if (strcasecmp("NotifySensorAdd", child->key) == 0) { + status = cf_util_get_boolean(child, &st->notify_add); + } else if (strcasecmp("NotifySensorRemove", child->key) == 0) { + status = cf_util_get_boolean(child, &st->notify_remove); + } else if (strcasecmp("NotifySensorNotPresent", child->key) == 0) { + status = cf_util_get_boolean(child, &st->notify_notpresent); + } else if (strcasecmp("SELEnabled", child->key) == 0) { + status = cf_util_get_boolean(child, &st->sel_enabled); + } else if (strcasecmp("SELClearEvent", child->key) == 0) { + status = cf_util_get_boolean(child, &st->sel_clear_event); + } else if (strcasecmp("Host", child->key) == 0) + status = cf_util_get_string(child, &st->host); + else if (strcasecmp("Address", child->key) == 0) + status = cf_util_get_string(child, &st->connaddr); + else if (strcasecmp("Username", child->key) == 0) + status = cf_util_get_string(child, &st->username); + else if (strcasecmp("Password", child->key) == 0) + status = cf_util_get_string(child, &st->password); + else if (strcasecmp("AuthType", child->key) == 0) { + char tmp[8]; + status = cf_util_get_string_buffer(child, tmp, sizeof(tmp)); + if (status != 0) + break; + + if (strcasecmp("MD5", tmp) == 0) + st->authtype = IPMI_AUTHTYPE_MD5; + else if (strcasecmp("rmcp+", tmp) == 0) + st->authtype = IPMI_AUTHTYPE_RMCP_PLUS; + else + WARNING("ipmi plugin: The value \"%s\" is not valid for the " + "\"AuthType\" option.", + tmp); + } else { + WARNING("ipmi plugin: Option `%s' not allowed here.", child->key); + status = -1; + } -static int c_ipmi_read(void) { - if ((c_ipmi_active == 0) || (thread_id == (pthread_t)0)) { + if (status != 0) + break; + } + + if (status != 0) { + c_ipmi_free_instance(st); + return status; + } + + c_ipmi_add_instance(st); + + return 0; +} /* int c_ipmi_config_add_instance */ + +static int c_ipmi_config(oconfig_item_t *ci) { + _Bool have_instance_block = 0; + + for (int i = 0; i < ci->children_num; i++) { + oconfig_item_t *child = ci->children + i; + + if (strcasecmp("Instance", child->key) == 0) { + int status = c_ipmi_config_add_instance(child); + if (status != 0) + return status; + + have_instance_block = 1; + } else if (!have_instance_block) { + /* Non-instance option: Assume legacy configuration (without + * blocks) and call c_ipmi_config_add_instance with the block. + */ + WARNING("ipmi plugin: Legacy configuration found! Please update your " + "config file."); + return c_ipmi_config_add_instance(ci); + } else { + WARNING("ipmi plugin: The configuration option " + "\"%s\" is not allowed here. Did you " + "forget to add an block " + "around the configuration?", + child->key); + return -1; + } + } /* for (ci->children) */ + + return 0; +} /* int c_ipmi_config */ + +static int c_ipmi_read(user_data_t *user_data) { + c_ipmi_instance_t *st = user_data->data; + + if (st->active == 0) { INFO("ipmi plugin: c_ipmi_read: I'm not active, returning false."); - return (-1); + return -1; } - sensor_list_read_all(); + if (st->connected == 0) + return 0; + + sensor_list_read_all(st); - if (c_ipmi_init_in_progress > 0) - c_ipmi_init_in_progress--; + if (st->init_in_progress > 0) + st->init_in_progress--; else - c_ipmi_init_in_progress = 0; + st->init_in_progress = 0; - return (0); + return 0; } /* int c_ipmi_read */ +static int c_ipmi_init(void) { + c_ipmi_instance_t *st; + char callback_name[3 * DATA_MAX_NAME_LEN]; + + if (os_handler != NULL) { + return 0; + } + + os_handler = ipmi_posix_thread_setup_os_handler(SIGIO); + if (os_handler == NULL) { + ERROR("ipmi plugin: ipmi_posix_thread_setup_os_handler failed."); + return -1; + } + + os_handler->set_log_handler(os_handler, c_ipmi_log); + + if (ipmi_init(os_handler) != 0) { + ERROR("ipmi plugin: ipmi_init() failed."); + os_handler->free_os_handler(os_handler); + return -1; + }; + + if (instances == NULL) { + /* No instances were configured, let's start a default instance. */ + st = c_ipmi_init_instance(); + if (st == NULL) + return ENOMEM; + + c_ipmi_add_instance(st); + } + + /* Don't send `ADD' notifications during startup (~ 1 minute) */ + int cycles = 1 + (int)(TIME_T_TO_CDTIME_T(60) / plugin_get_interval()); + + st = instances; + while (NULL != st) { + /* The `st->name` is used as "domain name" for ipmi_open_domain(). + * That value should be unique, so we do plugin_register_complex_read() + * at first as it checks the uniqueness. */ + snprintf(callback_name, sizeof(callback_name), "ipmi/%s", st->name); + + user_data_t ud = { + .data = st, + }; + + int status = plugin_register_complex_read( + /* group = */ "ipmi", + /* name = */ callback_name, + /* callback = */ c_ipmi_read, + /* interval = */ 0, + /* user_data = */ &ud); + + if (status != 0) { + st = st->next; + continue; + } + + st->init_in_progress = cycles; + st->active = 1; + + status = plugin_thread_create(&st->thread_id, /* attr = */ NULL, + c_ipmi_thread_main, + /* user data = */ (void *)st, "ipmi"); + + if (status != 0) { + st->active = 0; + st->thread_id = (pthread_t){0}; + + plugin_unregister_read(callback_name); + + ERROR("ipmi plugin: pthread_create failed for `%s`.", callback_name); + } + + st = st->next; + } + + return 0; +} /* int c_ipmi_init */ + static int c_ipmi_shutdown(void) { - c_ipmi_active = 0; + c_ipmi_instance_t *st = instances; + instances = NULL; + + while (st != NULL) { + c_ipmi_instance_t *next = st->next; + + st->next = NULL; + st->active = 0; + + if (!pthread_equal(st->thread_id, (pthread_t){0})) { + pthread_join(st->thread_id, NULL); + st->thread_id = (pthread_t){0}; + } + + sensor_list_remove_all(st); + c_ipmi_free_instance(st); - if (thread_id != (pthread_t)0) { - pthread_join(thread_id, NULL); - thread_id = (pthread_t)0; + st = next; } - sensor_list_remove_all(); + os_handler->free_os_handler(os_handler); + os_handler = NULL; - return (0); + return 0; } /* int c_ipmi_shutdown */ void module_register(void) { - plugin_register_config("ipmi", c_ipmi_config, config_keys, config_keys_num); + plugin_register_complex_config("ipmi", c_ipmi_config); plugin_register_init("ipmi", c_ipmi_init); - plugin_register_read("ipmi", c_ipmi_read); plugin_register_shutdown("ipmi", c_ipmi_shutdown); } /* void module_register */