struct ipmi_config_section * ipmi_config_chassis_power_conf_get (ipmi_config_state_data_t *state_data) { struct ipmi_config_section *section = NULL; char *section_comment = "The following configuration options are for configuring " "chassis power behavior." "\n" "The \"Power_Restore_Policy\" determines the behavior of the machine " "when AC power returns after a power loss. The behavior can be set to " "always power on the machine (\"On_State_AC_Apply\"), power off the " "machine (\"Off_State_AC_Apply\"), or return the power to the state that " "existed before the power loss (\"Restore_State_AC_Apply\")." "\n" "The \"Power_Cycle_Interval\" determines the time the system will be " "powered down following a power cycle command."; if (!(section = ipmi_config_section_create (state_data, "Chassis_Power_Conf", "Chassis_Power_Conf", section_comment, 0, NULL, NULL))) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Power_Restore_Policy", "Possible values: Off_State_AC_Apply/Restore_State_AC_Apply/On_State_AC_Apply", IPMI_CONFIG_CHECKOUT_KEY_COMMENTED_OUT_IF_VALUE_EMPTY, power_restore_policy_checkout, power_restore_policy_commit, power_restore_policy_number_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Power_Cycle_Interval", "Give value in seconds", IPMI_CONFIG_CHECKOUT_KEY_COMMENTED_OUT_IF_VALUE_EMPTY, power_cycle_interval_checkout, power_cycle_interval_commit, number_range_one_byte_non_zero_validate) < 0) goto cleanup; return (section); cleanup: if (section) ipmi_config_section_destroy (section); return (NULL); }
ipmi_config_err_t ipmi_config_sensors_discrete_section (ipmi_config_state_data_t *state_data, struct ipmi_config_section **section_ptr) { struct ipmi_config_section *section = NULL; char section_name[IPMI_CONFIG_MAX_SECTION_NAME_LEN + 1]; ipmi_config_err_t rv = IPMI_CONFIG_ERR_FATAL_ERROR; ipmi_config_err_t ret; assert (state_data); assert (section_ptr); memset (section_name, '\0', IPMI_CONFIG_MAX_SECTION_NAME_LEN + 1); if ((ret = ipmi_config_sensors_create_section_name (state_data, section_name, IPMI_CONFIG_MAX_SECTION_NAME_LEN)) != IPMI_CONFIG_ERR_SUCCESS) { rv = ret; if (rv == IPMI_CONFIG_ERR_FATAL_ERROR || state_data->prog_data->args->common_args.debug) pstdout_fprintf (state_data->pstate, stderr, "ipmi_config_sensors_create_section_name: %s\n", strerror (errno)); goto cleanup; } if (!(section = ipmi_config_section_create (state_data, section_name, NULL, NULL, 0, NULL, NULL))) goto cleanup; if (setup_sensor_event_enable_fields (state_data, section) < 0) goto cleanup; *section_ptr = section; return (IPMI_CONFIG_ERR_SUCCESS); cleanup: if (section) ipmi_config_section_destroy (section); return (rv); }
struct ipmi_config_section * ipmi_config_chassis_front_panel_buttons_get (ipmi_config_state_data_t *state_data) { struct ipmi_config_section *section = NULL; char *section_comment = "The following configuration options are for enabling or disabling " "button functionality on the chassis. Button may refer to a " "pushbutton, switch, or other front panel control built into the " "system chassis." "\n" "The value of the below may not be able to be checked out. Therefore " "we recommend the user configure all four fields rather than a subset " "of them, otherwise some assumptions on configure may be made."; assert (state_data); if (!(section = ipmi_config_section_create (state_data, "Chassis_Front_Panel_Buttons", "Chassis_Front_Panel_Buttons", section_comment, 0, NULL, NULL))) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Standby_Button_For_Entering_Standby", "Possible values: Yes/No", IPMI_CONFIG_CHECKOUT_KEY_COMMENTED_OUT_IF_VALUE_EMPTY, front_panel_buttons_checkout, front_panel_buttons_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Diagnostic_Interrupt_Button", "Possible values: Yes/No", IPMI_CONFIG_CHECKOUT_KEY_COMMENTED_OUT_IF_VALUE_EMPTY, front_panel_buttons_checkout, front_panel_buttons_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Reset_Button", "Possible values: Yes/No", IPMI_CONFIG_CHECKOUT_KEY_COMMENTED_OUT_IF_VALUE_EMPTY, front_panel_buttons_checkout, front_panel_buttons_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Power_Off_Button_For_Power_Off_Only", "Possible values: Yes/No", IPMI_CONFIG_CHECKOUT_KEY_COMMENTED_OUT_IF_VALUE_EMPTY, front_panel_buttons_checkout, front_panel_buttons_commit, yes_no_validate) < 0) goto cleanup; return (section); cleanup: if (section) ipmi_config_section_destroy (section); return (NULL); }
struct ipmi_config_section * ipmi_config_dcmi_dcmi_conf_section_get (ipmi_config_state_data_t *state_data) { struct ipmi_config_section *section = NULL; assert (state_data); if (!(section = ipmi_config_section_create (state_data, "DCMI_Conf", NULL, NULL, 0, NULL, NULL))) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Asset_Tag", "Give valid string", 0, asset_tag_checkout, asset_tag_commit, asset_tag_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Management_Controller_Identifier_String", "Give valid string", 0, management_controller_identifier_string_checkout, management_controller_identifier_string_commit, management_controller_identifier_string_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Power_Limit_Requested", "Give valid number in Watts", 0, power_limit_requested_checkout, power_limit_requested_commit, number_range_two_bytes_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Correction_Time_Limit", "Give valid number in milliseconds", 0, correction_time_limit_checkout, correction_time_limit_commit, number_range_four_bytes_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Management_Application_Statistics_Sampling_Period", "Give valid number in seconds", 0, management_application_statistics_sampling_period_checkout, management_application_statistics_sampling_period_commit, number_range_two_bytes_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Exception_Actions", "Give valid hex or NO_ACTION, HARD_POWER_OFF_SYSTEM, or LOG_EVENT_TO_SEL_ONLY", 0, exception_actions_checkout, exception_actions_commit, exception_actions_validate) < 0) goto cleanup; return (section); cleanup: if (section) ipmi_config_section_destroy (section); return (NULL); }
struct ipmi_config_section * ipmi_config_core_pef_conf_section_get (ipmi_config_state_data_t *state_data) { struct ipmi_config_section *section; assert (state_data); if (!(section = ipmi_config_section_create (state_data, "PEF_Conf", NULL, NULL, IPMI_CONFIG_DO_NOT_CHECKOUT | IPMI_CONFIG_DO_NOT_LIST, NULL, NULL))) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_PEF", "Possible values: Yes/No", 0, enable_pef_checkout, enable_pef_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_PEF_Event_Messages", "Possible values: Yes/No", 0, enable_pef_event_messages_checkout, enable_pef_event_messages_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_PEF_Startup_Delay", "Possible values: Yes/No", 0, enable_pef_startup_delay_checkout, enable_pef_startup_delay_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_PEF_Alert_Startup_Delay", "Possible values: Yes/No", 0, enable_pef_alert_startup_delay_checkout, enable_pef_alert_startup_delay_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Alert_Action", "Possible values: Yes/No", 0, enable_alert_action_checkout, enable_alert_action_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Power_Down_Action", "Possible values: Yes/No", 0, enable_power_down_action_checkout, enable_power_down_action_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Reset_Action", "Possible values: Yes/No", 0, enable_reset_action_checkout, enable_reset_action_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Power_Cycle_Action", "Possible values: Yes/No", 0, enable_power_cycle_action_checkout, enable_power_cycle_action_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_OEM_Action", "Possible values: Yes/No", 0, enable_oem_action_checkout, enable_oem_action_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "Enable_Diagnostic_Interrupt", "Possible values: Yes/No", 0, enable_diagnostic_interrupt_checkout, enable_diagnostic_interrupt_commit, yes_no_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "PEF_Startup_Delay", "Give value in seconds", 0, pef_startup_delay_checkout, pef_startup_delay_commit, number_range_one_byte_validate) < 0) goto cleanup; if (ipmi_config_section_add_key (state_data, section, "PEF_Alert_Startup_Delay", "Give value in seconds", 0, pef_alert_startup_delay_checkout, pef_alert_startup_delay_commit, number_range_one_byte_validate) < 0) goto cleanup; return (section); cleanup: if (section) ipmi_config_section_destroy (section); return (NULL); }