static void event_enable_masks_read(ipmi_sensor_t *sensor, int err, ipmi_event_state_t *state, void *cb_data) { struct ohoi_sensor_event_enable_masks *p = cb_data; int rv; p->done = 1; if (err) { dbg("Sensor event enable reading error 0x%x", err); p->rvalue = SA_ERR_HPI_INTERNAL_ERROR; return; } p->enable = SAHPI_FALSE; rv = ipmi_event_state_get_events_enabled(state); if (rv) p->enable = SAHPI_TRUE; convert_to_ohoi_event_states(sensor, state, &p->assert, &p->deassert); }
static void event_enable_masks_read(ipmi_sensor_t *sensor, int err, ipmi_event_state_t *state, void *cb_data) { struct ohoi_sensor_event_enable_masks *p = cb_data; int rv; p->done = 1; if (err) { dbg("Sensor event enable reading error"); p->rvalue = SA_ERR_HPI_INTERNAL_ERROR; return; } p->enable = SAHPI_FALSE; rv = ipmi_event_state_get_events_enabled(state); if (rv) p->enable = SAHPI_TRUE; p->assert = (SaHpiEventStateT)state->__assertion_events; p->deassert = (SaHpiEventStateT)state->__deassertion_events; }
static void enables_read(ipmi_sensor_t *sensor, int err, ipmi_event_state_t *state, void *cb_data) { struct ohoi_sensor_enables *p = cb_data; int rv; if (err) { dbg("Sensor event enables reading error"); p->done = 1; return; } p->sensor_enables->SensorStatus = 0; rv = ipmi_event_state_get_events_enabled(state); if (rv) p->sensor_enables->SensorStatus |= SAHPI_SENSTAT_EVENTS_ENABLED; rv = ipmi_event_state_get_scanning_enabled(state); if (rv) p->sensor_enables->SensorStatus |= SAHPI_SENSTAT_SCAN_ENABLED; rv = ipmi_event_state_get_busy(state); if (rv) p->sensor_enables->SensorStatus |= SAHPI_SENSTAT_BUSY; p->sensor_enables->AssertEvents = (SaHpiEventStateT) state->__assertion_events; p->sensor_enables->DeassertEvents = (SaHpiEventStateT) state->__deassertion_events; p->done = 1; }
static void sensor_get_event_enables_done(ipmi_sensor_t *sensor, int err, ipmi_event_state_t *states, void *cb_data) { ipmi_cmd_info_t *cmd_info = cb_data; ipmi_cmdlang_t *cmdlang = ipmi_cmdinfo_get_cmdlang(cmd_info); char sensor_name[IPMI_SENSOR_NAME_LEN]; int rv; int val; ipmi_cmdlang_lock(cmd_info); if (err) { cmdlang->errstr = "Error reading sensor event enables"; cmdlang->err = err; ipmi_sensor_get_name(sensor, cmdlang->objstr, cmdlang->objstr_len); cmdlang->location = "cmd_sensor.c(sensor_get_event_enables_done)"; goto out; } ipmi_sensor_get_name(sensor, sensor_name, sizeof(sensor_name)); ipmi_cmdlang_out(cmd_info, "Sensor", NULL); ipmi_cmdlang_down(cmd_info); ipmi_cmdlang_out(cmd_info, "Name", sensor_name); ipmi_cmdlang_out_bool(cmd_info, "Event Messages Enabled", ipmi_event_state_get_events_enabled(states)); ipmi_cmdlang_out_bool(cmd_info, "Sensor Scanning Enabled", ipmi_event_state_get_scanning_enabled(states)); ipmi_cmdlang_out_bool(cmd_info, "Busy", ipmi_event_state_get_busy(states)); if (ipmi_sensor_get_event_reading_type(sensor) == IPMI_EVENT_READING_TYPE_THRESHOLD) { enum ipmi_thresh_e thresh; enum ipmi_event_value_dir_e value_dir; enum ipmi_event_dir_e dir; for (thresh = IPMI_LOWER_NON_CRITICAL; thresh <= IPMI_UPPER_NON_RECOVERABLE; thresh++) { for (value_dir = IPMI_GOING_LOW; value_dir <= IPMI_GOING_HIGH; value_dir++) { for (dir = IPMI_ASSERTION; dir <= IPMI_DEASSERTION; dir++) { char th_name[50]; rv = ipmi_sensor_threshold_event_supported(sensor, thresh, value_dir, dir, &val); if (rv || !val) continue; ipmi_cmdlang_out(cmd_info, "Threshold", NULL); ipmi_cmdlang_down(cmd_info); snprintf(th_name, sizeof(th_name), "%s %s %s", ipmi_get_threshold_string(thresh), ipmi_get_value_dir_string(value_dir), ipmi_get_event_dir_string(dir)); ipmi_cmdlang_out(cmd_info, "Name", th_name); ipmi_cmdlang_out_bool(cmd_info, "Enabled", ipmi_is_threshold_event_set (states, thresh, value_dir, dir)); ipmi_cmdlang_up(cmd_info); } } } } else { int offset; const char *str; for (offset=0; offset<15; offset++) { rv = ipmi_sensor_discrete_event_readable(sensor, offset, &val); if (rv || !val) continue; ipmi_cmdlang_out(cmd_info, "Event", NULL); ipmi_cmdlang_down(cmd_info); ipmi_cmdlang_out_int(cmd_info, "Offset", offset); str = ipmi_sensor_reading_name_string(sensor, offset); if (strcmp(str, "unknown") != 0) ipmi_cmdlang_out(cmd_info, "Name", str); rv = ipmi_sensor_discrete_event_supported(sensor, offset, IPMI_ASSERTION, &val); if (!rv && val) { ipmi_cmdlang_out_bool(cmd_info, "Assertion Enabled", ipmi_is_discrete_event_set (states, offset, IPMI_ASSERTION)); } rv = ipmi_sensor_discrete_event_supported(sensor, offset, IPMI_DEASSERTION, &val); if (!rv && val) { ipmi_cmdlang_out_bool(cmd_info, "Deassertion Enabled", ipmi_is_discrete_event_set (states, offset, IPMI_DEASSERTION)); } ipmi_cmdlang_up(cmd_info); } } ipmi_cmdlang_up(cmd_info); out: ipmi_cmdlang_unlock(cmd_info); ipmi_cmdlang_cmd_info_put(cmd_info); }