19113a79cSeschrock /* 29113a79cSeschrock * CDDL HEADER START 39113a79cSeschrock * 49113a79cSeschrock * The contents of this file are subject to the terms of the 59113a79cSeschrock * Common Development and Distribution License (the "License"). 69113a79cSeschrock * You may not use this file except in compliance with the License. 79113a79cSeschrock * 89113a79cSeschrock * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 99113a79cSeschrock * or http://www.opensolaris.org/os/licensing. 109113a79cSeschrock * See the License for the specific language governing permissions 119113a79cSeschrock * and limitations under the License. 129113a79cSeschrock * 139113a79cSeschrock * When distributing Covered Code, include this CDDL HEADER in each 149113a79cSeschrock * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 159113a79cSeschrock * If applicable, add the following below this CDDL HEADER, with the 169113a79cSeschrock * fields enclosed by brackets "[]" replaced with your own identifying 179113a79cSeschrock * information: Portions Copyright [yyyy] [name of copyright owner] 189113a79cSeschrock * 199113a79cSeschrock * CDDL HEADER END 209113a79cSeschrock */ 219113a79cSeschrock /* 222eeaed14Srobj * Copyright 2008 Sun Microsystems, Inc. All rights reserved. 239113a79cSeschrock * Use is subject to license terms. 249113a79cSeschrock */ 259113a79cSeschrock 269113a79cSeschrock #ifndef _LIBIPMI_H 279113a79cSeschrock #define _LIBIPMI_H 289113a79cSeschrock 299113a79cSeschrock #pragma ident "%Z%%M% %I% %E% SMI" 309113a79cSeschrock 319113a79cSeschrock #include <sys/bmc_intf.h> 329113a79cSeschrock #include <sys/byteorder.h> 332c32020fSeschrock #include <sys/sysmacros.h> 349113a79cSeschrock 359113a79cSeschrock /* 369113a79cSeschrock * Private interfaces for communicating with attached services over IPMI. This 379113a79cSeschrock * library is designed for system software communicating with Sun-supported 389113a79cSeschrock * service processors over /dev/bmc. It is not a generic IPMI library. 399113a79cSeschrock * 409113a79cSeschrock * Documentation references refer to "Intelligent Platform Management Interface 419113a79cSeschrock * Specification Second Generation v2.0", document revision 1.0 with Februrary 429113a79cSeschrock * 15, 2006 Markup from "IPMI v2.0 Addenda, Errata, and Clarifications Revision 439113a79cSeschrock * 3". 449113a79cSeschrock */ 459113a79cSeschrock 469113a79cSeschrock #ifdef __cplusplus 479113a79cSeschrock extern "C" { 489113a79cSeschrock #endif 499113a79cSeschrock 509113a79cSeschrock typedef struct ipmi_handle ipmi_handle_t; 519113a79cSeschrock 529113a79cSeschrock #pragma pack(1) 539113a79cSeschrock 549113a79cSeschrock /* 559113a79cSeschrock * Basic netfn definitions. See section 5.1. 569113a79cSeschrock */ 579113a79cSeschrock #define IPMI_NETFN_APP BMC_NETFN_APP 589113a79cSeschrock #define IPMI_NETFN_STORAGE BMC_NETFN_STORAGE 599113a79cSeschrock #define IPMI_NETFN_SE BMC_NETFN_SE 609113a79cSeschrock #define IPMI_NETFN_OEM 0x2e 619113a79cSeschrock 629113a79cSeschrock /* 639113a79cSeschrock * Error definitions 649113a79cSeschrock */ 659113a79cSeschrock #define EIPMI_BASE 2000 669113a79cSeschrock 672eeaed14Srobj typedef enum { 689113a79cSeschrock EIPMI_NOMEM = EIPMI_BASE, /* memory allocation failure */ 699113a79cSeschrock EIPMI_BMC_OPEN_FAILED, /* failed to open /dev/bmc */ 702eeaed14Srobj EIPMI_BMC_PUTMSG, /* failed to send message to /dev/bmc */ 712eeaed14Srobj EIPMI_BMC_GETMSG, /* failed to read response from /dev/bmc */ 729113a79cSeschrock EIPMI_BMC_RESPONSE, /* response from /dev/bmc failed */ 739113a79cSeschrock EIPMI_INVALID_COMMAND, /* invalid command */ 749113a79cSeschrock EIPMI_COMMAND_TIMEOUT, /* command timeout */ 759113a79cSeschrock EIPMI_DATA_LENGTH_EXCEEDED, /* maximum data length exceeded */ 769113a79cSeschrock EIPMI_SEND_FAILED, /* failed to send BMC request */ 772eeaed14Srobj EIPMI_UNSPECIFIED, /* unspecified BMC error */ 789113a79cSeschrock EIPMI_UNKNOWN, /* unknown error */ 799113a79cSeschrock EIPMI_BAD_RESPONSE, /* received unexpected response */ 809113a79cSeschrock EIPMI_BAD_RESPONSE_LENGTH, /* unexpected response length */ 812eeaed14Srobj EIPMI_INVALID_RESERVATION, /* invalid or cancelled reservation */ 829113a79cSeschrock EIPMI_NOT_PRESENT, /* requested entity not present */ 832eeaed14Srobj EIPMI_INVALID_REQUEST, /* malformed request data */ 842eeaed14Srobj EIPMI_BUSY, /* service processor is busy */ 852eeaed14Srobj EIPMI_NOSPACE, /* service processor is out of space */ 862eeaed14Srobj EIPMI_UNAVAILABLE, /* service processor is unavailable */ 879113a79cSeschrock EIPMI_ACCESS /* insufficient privileges */ 882eeaed14Srobj } ipmi_errno_t; 899113a79cSeschrock 909113a79cSeschrock /* 919113a79cSeschrock * Basic library functions. 929113a79cSeschrock * 939113a79cSeschrock * The ipmi_handle is the primary interface to the library. The library itself 949113a79cSeschrock * is not MT-safe, but it is safe within a single handle. Multithreaded clients 959113a79cSeschrock * should either open multiple handles, or otherwise synchronize access to the 969113a79cSeschrock * same handle. 979113a79cSeschrock * 989113a79cSeschrock * There is a single command response buffer that is stored with the handle, to 999113a79cSeschrock * simplify memory management in the caller. The memory referenced by a command 1009113a79cSeschrock * response is only valid until the next command is issued. The caller is 1019113a79cSeschrock * responsible for making a copy of the response if it is needed. 1029113a79cSeschrock */ 1039113a79cSeschrock extern ipmi_handle_t *ipmi_open(int *, char **); 1049113a79cSeschrock extern void ipmi_close(ipmi_handle_t *); 1059113a79cSeschrock 1069113a79cSeschrock extern int ipmi_errno(ipmi_handle_t *); 1079113a79cSeschrock extern const char *ipmi_errmsg(ipmi_handle_t *); 1089113a79cSeschrock 1099113a79cSeschrock /* 1109113a79cSeschrock * Raw requests. See section 5. 1119113a79cSeschrock */ 1129113a79cSeschrock typedef struct ipmi_cmd { 1139113a79cSeschrock uint8_t ic_netfn:6; 1149113a79cSeschrock uint8_t ic_lun:2; 1159113a79cSeschrock uint8_t ic_cmd; 1169113a79cSeschrock uint16_t ic_dlen; 1179113a79cSeschrock void *ic_data; 1189113a79cSeschrock } ipmi_cmd_t; 1199113a79cSeschrock 1209113a79cSeschrock extern ipmi_cmd_t *ipmi_send(ipmi_handle_t *, ipmi_cmd_t *); 1219113a79cSeschrock 1229113a79cSeschrock /* 1239113a79cSeschrock * Retrieve basic information about the IPMI device. See section 20.1 "Get 1249113a79cSeschrock * Device ID Command". 1259113a79cSeschrock */ 1269113a79cSeschrock #define IPMI_CMD_GET_DEVICEID 0x01 1279113a79cSeschrock 1289113a79cSeschrock typedef struct ipmi_deviceid { 1299113a79cSeschrock uint8_t id_devid; 1302c32020fSeschrock DECL_BITFIELD3( 1312c32020fSeschrock id_dev_rev :4, 1322c32020fSeschrock __reserved :3, 1332c32020fSeschrock id_dev_sdrs :1); 1342c32020fSeschrock DECL_BITFIELD2( 1352c32020fSeschrock id_firm_major :7, 1362c32020fSeschrock id_dev_available :1); 1379113a79cSeschrock uint8_t id_firm_minor; 1389113a79cSeschrock uint8_t id_ipmi_rev; 1399113a79cSeschrock uint8_t id_dev_support; 1409113a79cSeschrock uint8_t id_manufacturer[3]; 1419113a79cSeschrock uint16_t id_product; 1429113a79cSeschrock } ipmi_deviceid_t; 1439113a79cSeschrock 1449113a79cSeschrock #define IPMI_OEM_SUN 0x2a 1452eeaed14Srobj #define IPMI_PROD_SUN_ILOM 0x4701 1469113a79cSeschrock 1479113a79cSeschrock ipmi_deviceid_t *ipmi_get_deviceid(ipmi_handle_t *); 1489113a79cSeschrock 1499113a79cSeschrock #define ipmi_devid_manufacturer(dp) \ 1509113a79cSeschrock ((dp)->id_manufacturer[0] | \ 1519113a79cSeschrock ((dp)->id_manufacturer[1] << 8) | \ 1529113a79cSeschrock ((dp)->id_manufacturer[2] << 16)) 1539113a79cSeschrock 1542eeaed14Srobj const char *ipmi_firmware_version(ipmi_handle_t *); 1552eeaed14Srobj 1562eeaed14Srobj /* 1572eeaed14Srobj * SEL (System Event Log) commands. Currently the library only provides 1582eeaed14Srobj * commands for reading the SEL. 1592eeaed14Srobj */ 1602eeaed14Srobj 1612eeaed14Srobj /* 1622eeaed14Srobj * 31.2 Get SEL Info Command 1632eeaed14Srobj */ 1642eeaed14Srobj #define IPMI_CMD_GET_SEL_INFO 0x40 1652eeaed14Srobj 1662eeaed14Srobj typedef struct ipmi_sel_info { 1672eeaed14Srobj uint8_t isel_version; 1682eeaed14Srobj uint16_t isel_entries; 1692eeaed14Srobj uint16_t isel_free; 1702eeaed14Srobj uint32_t isel_add_ts; 1712eeaed14Srobj uint32_t isel_erase_ts; 1722eeaed14Srobj DECL_BITFIELD6( 1732eeaed14Srobj isel_supp_allocation :1, 1742eeaed14Srobj isel_supp_reserve :1, 1752eeaed14Srobj isel_supp_partial :1, 1762eeaed14Srobj isel_supp_delete :1, 1772eeaed14Srobj __reserved :3, 1782eeaed14Srobj isel_overflow :1); 1792eeaed14Srobj } ipmi_sel_info_t; 1802eeaed14Srobj 1812eeaed14Srobj extern ipmi_sel_info_t *ipmi_sel_get_info(ipmi_handle_t *); 1822eeaed14Srobj extern boolean_t ipmi_sdr_changed(ipmi_handle_t *); 1832eeaed14Srobj extern int ipmi_sdr_refresh(ipmi_handle_t *); 1842eeaed14Srobj 1852eeaed14Srobj /* 1862eeaed14Srobj * 32.1 SEL Event Records 1872eeaed14Srobj */ 1882eeaed14Srobj typedef struct ipmi_sel_event { 1892eeaed14Srobj uint16_t isel_ev_next; 1902eeaed14Srobj uint16_t isel_ev_recid; 1912eeaed14Srobj uint8_t isel_ev_rectype; 1922eeaed14Srobj uint32_t isel_ev_ts; 1932eeaed14Srobj DECL_BITFIELD2( 1942eeaed14Srobj isel_ev_software :1, 1952eeaed14Srobj isel_ev_addr_or_id :7); 1962eeaed14Srobj DECL_BITFIELD3( 1972eeaed14Srobj isel_ev_lun :2, 1982eeaed14Srobj __reserved :2, 1992eeaed14Srobj isel_ev_channel :4); 2002eeaed14Srobj uint8_t isel_ev_rev; 2012eeaed14Srobj uint8_t isel_ev_sensor_type; 2022eeaed14Srobj uint8_t isel_ev_sensor_number; 2032eeaed14Srobj DECL_BITFIELD2( 2042eeaed14Srobj isel_ev_type :7, 2052eeaed14Srobj isel_ev_dir :1); 2062eeaed14Srobj uint8_t isel_ev_data[3]; 2072eeaed14Srobj } ipmi_sel_event_t; 2082eeaed14Srobj 2092eeaed14Srobj #define IPMI_EV_REV15 0x04 2102eeaed14Srobj #define IPMI_EV_REV1 0x03 2112eeaed14Srobj 2122eeaed14Srobj #define IPMI_SEL_SYSTEM 0x02 2132eeaed14Srobj #define IPMI_SEL_OEMTS_LO 0xC0 2142eeaed14Srobj #define IPMI_SEL_OEMTS_HI 0xDF 2152eeaed14Srobj #define IPMI_SEL_OEM_LO 0xE0 2162eeaed14Srobj #define IPMI_SEL_OEM_HI 0xFF 2172eeaed14Srobj 2182eeaed14Srobj #define IPMI_EV_ASSERT 0x0 2192eeaed14Srobj #define IPMI_EV_DEASSERT 0x1 2202eeaed14Srobj 2212eeaed14Srobj /* 2222eeaed14Srobj * 32.2 OEM SEL Record (with timestamp) 2232eeaed14Srobj */ 2242eeaed14Srobj typedef struct ipmi_sel_oem_ts { 2252eeaed14Srobj uint16_t isel_oem_next; 2262eeaed14Srobj uint16_t isel_oem_id; 2272eeaed14Srobj uint8_t isel_oem_type; 2282eeaed14Srobj uint32_t isel_oem_ts; 2292eeaed14Srobj uint8_t isel_oem_devid[3]; 2302eeaed14Srobj uint8_t isel_oem_data[6]; 2312eeaed14Srobj } ipmi_sel_oem_ts_t; 2322eeaed14Srobj 2332eeaed14Srobj /* 2342eeaed14Srobj * 32.3 OEM SEL Record (no timestamp) 2352eeaed14Srobj */ 2362eeaed14Srobj typedef struct ipmi_sel_oem { 2372eeaed14Srobj uint16_t isel_oem_next; 2382eeaed14Srobj uint16_t isel_oem_id; 2392eeaed14Srobj uint8_t isel_oem_type; 2402eeaed14Srobj uint8_t isel_oem_data[13]; 2412eeaed14Srobj } ipmi_sel_oem_t; 2422eeaed14Srobj 2432eeaed14Srobj /* 2442eeaed14Srobj * 29.7 Event Data Field Formats. Consumers can cast the data field of the 2452eeaed14Srobj * event record to the appropriate type depending on the sensor class. 2462eeaed14Srobj */ 2472eeaed14Srobj 2482eeaed14Srobj typedef struct ipmi_event_threshold { 2492eeaed14Srobj DECL_BITFIELD3( 2502eeaed14Srobj iev_offset :4, 2512eeaed14Srobj iev_desc_byte3 :2, 2522eeaed14Srobj iev_desc_byte2 :2); 2532eeaed14Srobj uint8_t iev_reading; 2542eeaed14Srobj uint8_t iev_threshold; 2552eeaed14Srobj } ipmi_event_threshold_t; 2562eeaed14Srobj 2572eeaed14Srobj #define IPMI_EV_DESC_UNSPECIFIED 0x00 2582eeaed14Srobj #define IPMI_EV_DESC_TRIGGER 0x01 2592eeaed14Srobj #define IPMI_EV_DESC_OEM 0x02 2602eeaed14Srobj #define IPMI_EV_DESC_SPECIFIC 0x03 2612eeaed14Srobj 2622eeaed14Srobj typedef struct ipmi_event_discrete { 2632eeaed14Srobj DECL_BITFIELD3( 2642eeaed14Srobj iev_offset :4, 2652eeaed14Srobj iev_desc_byte3 :2, 2662eeaed14Srobj iev_desc_byte2 :2); 2672eeaed14Srobj DECL_BITFIELD2( 2682eeaed14Srobj iev_offset_type :4, 2692eeaed14Srobj iev_offset_severity :4); 2702eeaed14Srobj uint8_t iev_oem_code; 2712eeaed14Srobj } ipmi_event_discrete_t; 2722eeaed14Srobj 2732eeaed14Srobj #define IPMI_EV_DESC_PREVSTATE 0x01 2742eeaed14Srobj #define IPMI_EV_DESC_SPECIFIC 0x03 2752eeaed14Srobj 2762eeaed14Srobj typedef struct ipmi_event_oem { 2772eeaed14Srobj DECL_BITFIELD3( 2782eeaed14Srobj iev_offset :4, 2792eeaed14Srobj iev_desc_byte3 :2, 2802eeaed14Srobj iev_desc_byte2 :2); 2812eeaed14Srobj DECL_BITFIELD2( 2822eeaed14Srobj iev_offset_type :4, 2832eeaed14Srobj iev_offset_severity :4); 2842eeaed14Srobj uint8_t iev_oem_code; 2852eeaed14Srobj } ipmi_event_oem_t; 2862eeaed14Srobj 2872eeaed14Srobj /* 2882eeaed14Srobj * Get SEL Entry Command. See section 31.5. We don't support partial reads, so 2892eeaed14Srobj * this interface is quite a bit simpler than in the spec. We default to 2902eeaed14Srobj * returning event records, though the consumer should check the type field and 2912eeaed14Srobj * cast it to the appropriate type if it is no IPMI_SEL_SYSTEM. 2922eeaed14Srobj */ 2932eeaed14Srobj #define IPMI_CMD_GET_SEL_ENTRY 0x43 2942eeaed14Srobj 2952eeaed14Srobj extern ipmi_sel_event_t *ipmi_sel_get_entry(ipmi_handle_t *, uint16_t); 2962eeaed14Srobj 2972eeaed14Srobj #define IPMI_SEL_FIRST_ENTRY 0x0000 2982eeaed14Srobj #define IPMI_SEL_LAST_ENTRY 0xFFFF 2992eeaed14Srobj 3002eeaed14Srobj /* 3012eeaed14Srobj * SEL time management. See sections 31.10 and 31.11. 3022eeaed14Srobj */ 3032eeaed14Srobj #define IPMI_CMD_GET_SEL_TIME 0x48 3042eeaed14Srobj #define IPMI_CMD_SET_SEL_TIME 0x49 3052eeaed14Srobj #define IPMI_CMD_GET_SEL_UTC_OFFSET 0x5C 3062eeaed14Srobj #define IPMI_CMD_SET_SEL_UTC_OFFSET 0x5D 3072eeaed14Srobj 3082eeaed14Srobj extern int ipmi_sel_get_time(ipmi_handle_t *, uint32_t *); 3092eeaed14Srobj extern int ipmi_sel_set_time(ipmi_handle_t *, uint32_t); 3102eeaed14Srobj extern int ipmi_sel_get_utc_offset(ipmi_handle_t *, int *); 3112eeaed14Srobj extern int ipmi_sel_set_utc_offset(ipmi_handle_t *, int); 3122eeaed14Srobj 3139113a79cSeschrock /* 3149113a79cSeschrock * SDR (Sensor Device Record) requests. A cache of the current SDR repository 3152eeaed14Srobj * is kept as part of the IPMI handle and updated when necessary. This does the 3162eeaed14Srobj * work of processing the SDR names and providing an easy way to lookup 3172eeaed14Srobj * individual records and iterate over all records. 3189113a79cSeschrock */ 3199113a79cSeschrock 3209113a79cSeschrock /* 3212eeaed14Srobj * Get SDR Repository Info Command. See section 33.9. 3222eeaed14Srobj */ 3232eeaed14Srobj #define IPMI_CMD_GET_SDR_INFO 0x20 3242eeaed14Srobj 3252eeaed14Srobj typedef struct ipmi_sdr_info { 3262eeaed14Srobj uint8_t isi_version; 3272eeaed14Srobj uint16_t isi_record_count; 3282eeaed14Srobj uint16_t isi_free_space; 3292eeaed14Srobj uint32_t isi_add_ts; 3302eeaed14Srobj uint32_t isi_erase_ts; 3312eeaed14Srobj DECL_BITFIELD7( 3322eeaed14Srobj isi_supp_allocation :1, 3332eeaed14Srobj isi_supp_reserve :1, 3342eeaed14Srobj isi_supp_partial :1, 3352eeaed14Srobj isi_supp_delete :1, 3362eeaed14Srobj __reserved :1, 3372eeaed14Srobj isi_modal :2, 3382eeaed14Srobj isi_overflow :1); 3392eeaed14Srobj } ipmi_sdr_info_t; 3402eeaed14Srobj 3412eeaed14Srobj extern ipmi_sdr_info_t *ipmi_sdr_get_info(ipmi_handle_t *); 3422eeaed14Srobj 3432eeaed14Srobj /* 3449113a79cSeschrock * Reserve repository command. See section 33.11. 3459113a79cSeschrock */ 3469113a79cSeschrock #define IPMI_CMD_RESERVE_SDR_REPOSITORY 0x22 3479113a79cSeschrock 3489113a79cSeschrock /* 3499113a79cSeschrock * Get SDR command. See section 33.12. This command accesses the raw SDR 3509113a79cSeschrock * repository. Clients can also use the lookup functions to retrieve a 3519113a79cSeschrock * particular SDR record by name. 3529113a79cSeschrock * 3539113a79cSeschrock * The list of possible types is indicated in the sub-chapters of section 43. 3549113a79cSeschrock */ 3559113a79cSeschrock typedef struct ipmi_sdr { 3569113a79cSeschrock uint16_t is_id; 3579113a79cSeschrock uint8_t is_version; 3589113a79cSeschrock uint8_t is_type; 3599113a79cSeschrock uint8_t is_length; 3609113a79cSeschrock uint8_t is_record[1]; 3619113a79cSeschrock } ipmi_sdr_t; 3629113a79cSeschrock #define IPMI_CMD_GET_SDR 0x23 3639113a79cSeschrock 3649113a79cSeschrock #define IPMI_SDR_FIRST 0x0000 3659113a79cSeschrock #define IPMI_SDR_LAST 0xFFFF 3669113a79cSeschrock 3679113a79cSeschrock extern ipmi_sdr_t *ipmi_sdr_get(ipmi_handle_t *, uint16_t, uint16_t *); 3689113a79cSeschrock 3699113a79cSeschrock /* 3702eeaed14Srobj * Full Sensor Record. See 43.1 3712eeaed14Srobj */ 3722eeaed14Srobj #define IPMI_SDR_TYPE_FULL_SENSOR 0x01 3732eeaed14Srobj 3742eeaed14Srobj typedef struct ipmi_sdr_full_sensor { 3752eeaed14Srobj /* RECORD KEY BYTES */ 3762eeaed14Srobj uint8_t is_fs_owner; 3772eeaed14Srobj DECL_BITFIELD3( 3782eeaed14Srobj is_fs_sensor_lun :2, 3792eeaed14Srobj __reserved1 :2, 3802eeaed14Srobj is_fs_channel :4); 3812eeaed14Srobj uint8_t is_fs_number; 3822eeaed14Srobj /* RECORD BODY BYTES */ 3832eeaed14Srobj uint8_t is_fs_entity_id; 3842eeaed14Srobj DECL_BITFIELD2( 3852eeaed14Srobj is_fs_entity_instance :7, 3862eeaed14Srobj is_fs_entity_logical :1); 3872eeaed14Srobj DECL_BITFIELD8( 3882eeaed14Srobj is_fs_sensor_scanning_enabled :1, 3892eeaed14Srobj is_fs_event_generation_enabled :1, 3902eeaed14Srobj is_fs_init_sensor_type :1, 3912eeaed14Srobj is_fs_init_hysteresis :1, 3922eeaed14Srobj is_fs_init_thresholds :1, 3932eeaed14Srobj is_fs_init_events :1, 3942eeaed14Srobj is_fs_init_scanning :1, 3952eeaed14Srobj is_fs_settable :1); 3962eeaed14Srobj DECL_BITFIELD5( 3972eeaed14Srobj is_fs_event_support :2, 3982eeaed14Srobj is_fs_threshold_support :2, 3992eeaed14Srobj is_fs_hysteresis_support :2, 4002eeaed14Srobj is_fs_rearm_support :1, 4012eeaed14Srobj is_fs_ignore :1); 4022eeaed14Srobj uint8_t is_fs_type; 4032eeaed14Srobj uint8_t is_fs_reading_type; 4042eeaed14Srobj uint16_t is_fs_assert_mask; 4052eeaed14Srobj uint16_t is_fs_deassert_mask; 4062eeaed14Srobj uint16_t is_fs_reading_mask; 4072eeaed14Srobj DECL_BITFIELD4( 4082eeaed14Srobj is_fs_units_isprcnt :1, 4092eeaed14Srobj is_fs_mod_unit :2, 4102eeaed14Srobj is_fs_rate_unit :3, 4112eeaed14Srobj is_fs_analog_fmt :2); 4122eeaed14Srobj uint8_t is_fs_unit2; 4132eeaed14Srobj uint8_t is_fs_unit3; 4142eeaed14Srobj /* Linearization */ 4152eeaed14Srobj DECL_BITFIELD2( 4162eeaed14Srobj is_fs_sensor_linear_type :7, 4172eeaed14Srobj __reserved2 :1); 4182eeaed14Srobj /* M, Tolerance */ 4192eeaed14Srobj uint16_t is_fs_mtol; 4202eeaed14Srobj /* B, Accuracy, R exp, B exp */ 4212eeaed14Srobj uint32_t is_fs_bacc; 4222eeaed14Srobj DECL_BITFIELD4( 4232eeaed14Srobj is_fs_nominal_reading_spec :1, 4242eeaed14Srobj is_fs_normal_max_spec :1, 4252eeaed14Srobj is_fs_normal_min_spec :1, 4262eeaed14Srobj __reserved3 :5); 4272eeaed14Srobj uint8_t is_fs_nominal_reading; 4282eeaed14Srobj uint8_t is_fs_normal_maximum; 4292eeaed14Srobj uint8_t is_fs_normal_minimum; 4302eeaed14Srobj uint8_t is_fs_max; 4312eeaed14Srobj uint8_t is_fs_min; 4322eeaed14Srobj uint8_t is_fs_upper_nonrecov; 4332eeaed14Srobj uint8_t is_fs_upper_critical; 4342eeaed14Srobj uint8_t is_fs_upper_noncrit; 4352eeaed14Srobj uint8_t is_fs_lower_nonrecov; 4362eeaed14Srobj uint8_t is_fs_lower_critical; 4372eeaed14Srobj uint8_t is_fs_lower_noncrit; 4382eeaed14Srobj uint8_t is_fs_hysteresis_positive; 4392eeaed14Srobj uint8_t is_fs_hysteresis_negative; 4402eeaed14Srobj uint16_t __reserved4; 4412eeaed14Srobj uint8_t is_fs_oem; 4422eeaed14Srobj DECL_BITFIELD3( 4432eeaed14Srobj is_fs_idlen :5, 4442eeaed14Srobj __reserved5 :1, 4452eeaed14Srobj is_fs_idtype :2); 4462eeaed14Srobj char is_fs_idstring[1]; 4472eeaed14Srobj } ipmi_sdr_full_sensor_t; 4482eeaed14Srobj 4492eeaed14Srobj #define IPMI_SDR_TYPE_COMPACT_SENSOR 0x02 4502eeaed14Srobj 4512eeaed14Srobj /* 4522eeaed14Srobj * Compact Sensor Record. See section 43.2 4532eeaed14Srobj */ 4542eeaed14Srobj typedef struct ipmi_sdr_compact_sensor { 4552eeaed14Srobj /* RECORD KEY BYTES */ 4562eeaed14Srobj uint8_t is_cs_owner; 4572eeaed14Srobj DECL_BITFIELD3( 4582eeaed14Srobj is_cs_sensor_lun :2, 4592eeaed14Srobj is_cs_fru_lun :2, 4602eeaed14Srobj is_cs_channel :4); 4612eeaed14Srobj uint8_t is_cs_number; 4622eeaed14Srobj /* RECORD BODY BYTES */ 4632eeaed14Srobj uint8_t is_cs_entity_id; 4642eeaed14Srobj DECL_BITFIELD2( 4652eeaed14Srobj is_cs_entity_instance :7, 4662eeaed14Srobj is_cs_entity_logical :1); 4672eeaed14Srobj DECL_BITFIELD8( 4682eeaed14Srobj is_cs_sensor_scanning_enabled :1, 4692eeaed14Srobj is_cs_event_generation_enabled :1, 4702eeaed14Srobj is_cs_init_sensor_type :1, 4712eeaed14Srobj is_cs_init_hysteresis :1, 4722eeaed14Srobj __reserved1 :1, 4732eeaed14Srobj is_cs_init_events :1, 4742eeaed14Srobj is_cs_init_scanning :1, 4752eeaed14Srobj is_cs_settable :1); 4762eeaed14Srobj DECL_BITFIELD5( 4772eeaed14Srobj is_cs_event_support :2, 4782eeaed14Srobj is_cs_threshold_support :2, 4792eeaed14Srobj is_cs_hysteresis_support :2, 4802eeaed14Srobj is_cs_rearm_support :1, 4812eeaed14Srobj is_cs_ignore :1); 4822eeaed14Srobj uint8_t is_cs_type; 4832eeaed14Srobj uint8_t is_cs_reading_type; 4842eeaed14Srobj uint16_t is_cs_assert_mask; 4852eeaed14Srobj uint16_t is_cs_deassert_mask; 4862eeaed14Srobj uint16_t is_cs_reading_mask; 4872eeaed14Srobj DECL_BITFIELD4( 4882eeaed14Srobj is_cs_units_isprcnt :1, 4892eeaed14Srobj is_cs_mod_unit :2, 4902eeaed14Srobj is_cs_rate_unit :3, 4912eeaed14Srobj __reserved2 :2); 4922eeaed14Srobj uint8_t is_cs_unit2; 4932eeaed14Srobj uint8_t is_cs_unit3; 4942eeaed14Srobj DECL_BITFIELD3( 4952eeaed14Srobj is_cs_share_count :4, 4962eeaed14Srobj is_cs_modifier_type :2, 4972eeaed14Srobj is_cs_direction :2); 4982eeaed14Srobj DECL_BITFIELD2( 4992eeaed14Srobj is_cs_modifier_offset :7, 5002eeaed14Srobj is_cs_sharing :1); 5012eeaed14Srobj uint8_t is_cs_hysteresis_positive; 5022eeaed14Srobj uint8_t is_cs_hysteresis_negative; 5032eeaed14Srobj uint16_t __reserved3; 5042eeaed14Srobj uint8_t __reserved4; 5052eeaed14Srobj uint8_t is_cs_oem; 5062eeaed14Srobj DECL_BITFIELD3( 5072eeaed14Srobj is_cs_idlen :5, 5082eeaed14Srobj __reserved5 :1, 5092eeaed14Srobj is_cs_idtype :2); 5102eeaed14Srobj char is_cs_idstring[1]; 5112eeaed14Srobj } ipmi_sdr_compact_sensor_t; 5122eeaed14Srobj 5132eeaed14Srobj /* 5142eeaed14Srobj * Threshold sensor masks for is_cs_assert_mask and is_cs_deassert_mask. 5152eeaed14Srobj */ 5162eeaed14Srobj #define IPMI_SENSOR_RETURN_NONRECOV 0x4000 5172eeaed14Srobj #define IPMI_SENSOR_RETURN_CRIT 0x2000 5182eeaed14Srobj #define IPMI_SENSOR_RETURN_NONCRIT 0x1000 5192eeaed14Srobj 5202eeaed14Srobj #define IPMI_SENSOR_MASK_UPPER_NONRECOV_HI 0x0800 5212eeaed14Srobj #define IPMI_SENSOR_MASK_UPPER_NONRECOV_LO 0x0400 5222eeaed14Srobj #define IPMI_SENSOR_MASK_UPPER_CRIT_HI 0x0200 5232eeaed14Srobj #define IPMI_SENSOR_MASK_UPPER_CRIT_LO 0x0100 5242eeaed14Srobj #define IPMI_SENSOR_MASK_UPPER_NONCRIT_HI 0x0080 5252eeaed14Srobj #define IPMI_SENSOR_MASK_UPPER_NONCRIT_LO 0x0040 5262eeaed14Srobj #define IPMI_SENSOR_MASK_LOWER_NONRECOV_HI 0x0020 5272eeaed14Srobj #define IPMI_SENSOR_MASK_LOWER_NONRECOV_LO 0x0010 5282eeaed14Srobj #define IPMI_SENSOR_MASK_LOWER_CRIT_HI 0x0008 5292eeaed14Srobj #define IPMI_SENSOR_MASK_LOWER_CRIT_LO 0x0004 5302eeaed14Srobj #define IPMI_SENSOR_MASK_LOWER_NONCRIT_HI 0x0002 5312eeaed14Srobj #define IPMI_SENSOR_MASK_LOWER_NONCRIT_LO 0x0001 5322eeaed14Srobj 5332eeaed14Srobj /* 5342eeaed14Srobj * Threshold sensor masks for is_cs_reading_mask. 5352eeaed14Srobj */ 5362eeaed14Srobj #define IPMI_SENSOR_SETTABLE_UPPER_NONRECOV 0x2000 5372eeaed14Srobj #define IPMI_SENSOR_SETTABLE_UPPER_CRIT 0x1000 5382eeaed14Srobj #define IPMI_SENSOR_SETTABLE_UPPER_NONCRIT 0x0800 5392eeaed14Srobj #define IPMI_SENSOR_SETTABLE_LOWER_NONRECOV 0x0400 5402eeaed14Srobj #define IPMI_SENSOR_SETTABLE_LOWER_CRIT 0x0200 5412eeaed14Srobj #define IPMI_SENSOR_SETTABLE_LOWER_NONCRIT 0x0100 5422eeaed14Srobj #define IPMI_SENSOR_READABLE_UPPER_NONRECOV 0x0020 5432eeaed14Srobj #define IPMI_SENSOR_READABLE_UPPER_CRIT 0x0010 5442eeaed14Srobj #define IPMI_SENSOR_READABLE_UPPER_NONCRIT 0x0008 5452eeaed14Srobj #define IPMI_SENSOR_READABLE_LOWER_NONRECOV 0x0004 5462eeaed14Srobj #define IPMI_SENSOR_READABLE_LOWER_CRIT 0x0002 5472eeaed14Srobj #define IPMI_SENSOR_READABLE_LOWER_NONCRIT 0x0001 5482eeaed14Srobj 5492eeaed14Srobj /* 5502eeaed14Srobj * Values for is_cs_reading_type. See table 42-2. 5512eeaed14Srobj */ 5522eeaed14Srobj #define IPMI_RT_THRESHOLD 0x01 5532eeaed14Srobj #define IPMI_RT_USAGE 0x02 5542eeaed14Srobj #define IPMI_RT_STATE 0x03 5552eeaed14Srobj #define IPMI_RT_PREDFAIL 0x04 5562eeaed14Srobj #define IPMI_RT_LIMIT 0x05 5572eeaed14Srobj #define IPMI_RT_PERFORMANCE 0x06 5582eeaed14Srobj #define IPMI_RT_SEVERITY 0x07 5592eeaed14Srobj #define IPMI_RT_PRESENT 0x08 5602eeaed14Srobj #define IPMI_RT_ENABLED 0x09 5612eeaed14Srobj #define IPMI_RT_AVAILABILITY 0x0A 5622eeaed14Srobj #define IPMI_RT_REDUNDANCY 0x0B 5632eeaed14Srobj #define IPMI_RT_ACPI 0x0C 5642eeaed14Srobj #define IPMI_RT_SPECIFIC 0x6F 5652eeaed14Srobj 5662eeaed14Srobj /* 5672eeaed14Srobj * Bitmasks based on above reading types. See table 42-2 5682eeaed14Srobj */ 5692eeaed14Srobj #define IPMI_SR_THRESHOLD_LOWER_NONCRIT_LOW 0x0001 5702eeaed14Srobj #define IPMI_SR_THRESHOLD_LOWER_NONCRIT_HIGH 0x0002 5712eeaed14Srobj #define IPMI_SR_THRESHOLD_LOWER_CRIT_LOW 0x0004 5722eeaed14Srobj #define IPMI_SR_THRESHOLD_LOWER_CRIT_HIGH 0x0008 5732eeaed14Srobj #define IPMI_SR_THRESHOLD_LOWER_NONRECOV_LOW 0x0010 5742eeaed14Srobj #define IPMI_SR_THRESHOLD_LOWER_NONRECOV_HIGH 0x0020 5752eeaed14Srobj #define IPMI_SR_THRESHOLD_UPPER_NONCRIT_LOW 0x0040 5762eeaed14Srobj #define IPMI_SR_THRESHOLD_UPPER_NONCRIT_HIGH 0x0080 5772eeaed14Srobj #define IPMI_SR_THRESHOLD_UPPER_CRIT_LOW 0x0100 5782eeaed14Srobj #define IPMI_SR_THRESHOLD_UPPER_CRIT_HIGH 0x0200 5792eeaed14Srobj #define IPMI_SR_THRESHOLD_UPPER_NONRECOV_LOW 0x0400 5802eeaed14Srobj #define IPMI_SR_THRESHOLD_UPPER_NONRECOV_HIGH 0x0800 5812eeaed14Srobj 5822eeaed14Srobj #define IPMI_SR_USAGE_IDLE 0x0001 5832eeaed14Srobj #define IPMI_SR_USAGE_ACTIVE 0x0002 5842eeaed14Srobj #define IPMI_SR_USAGE_BUSY 0x0004 5852eeaed14Srobj 5862eeaed14Srobj #define IPMI_SR_STATE_DEASSERT 0x0001 5872eeaed14Srobj #define IPMI_SR_STATE_ASSERT 0x0002 5882eeaed14Srobj 5892eeaed14Srobj #define IPMI_SR_PREDFAIL_DEASSERT 0x0001 5902eeaed14Srobj #define IPMI_SR_PREDFAIL_ASSERT 0x0002 5912eeaed14Srobj 5922eeaed14Srobj #define IPMI_SR_LIMIT_NOTEXCEEDED 0x0001 5932eeaed14Srobj #define IPMI_SR_LIMIT_EXCEEDED 0x0002 5942eeaed14Srobj 5952eeaed14Srobj #define IPMI_SR_PERFORMANCE_MET 0x0001 5962eeaed14Srobj #define IPMI_SR_PERFORMANCE_LAGS 0x0002 5972eeaed14Srobj 5982eeaed14Srobj #define IPMI_SR_SEVERITY_TO_OK 0x0001 5992eeaed14Srobj #define IPMI_SR_SEVERITY_OK_TO_NONCRIT 0x0002 6002eeaed14Srobj #define IPMI_SR_SEVERITY_LESS_TO_CRIT 0x0004 6012eeaed14Srobj #define IPMI_SR_SEVERITY_LESS_TO_NONRECOV 0x0008 6022eeaed14Srobj #define IPMI_SR_SEVERITY_MORE_TO_NONCRIT 0x0010 6032eeaed14Srobj #define IPMI_SR_SEVERITY_NONRECOV_TO_CRIT 0x0020 6042eeaed14Srobj #define IPMI_SR_SEVERITY_TO_NONRECOV 0x0040 6052eeaed14Srobj #define IPMI_SR_SEVERITY_MONITOR 0x0080 6062eeaed14Srobj #define IPMI_SR_SEVERITY_INFO 0x0100 6072eeaed14Srobj 6082eeaed14Srobj #define IPMI_SR_PRESENT_DEASSERT 0x0001 6092eeaed14Srobj #define IPMI_SR_PRESENT_ASSERT 0x0002 6102eeaed14Srobj 6112eeaed14Srobj #define IPMI_SR_ENABLED_DEASSERT 0x0001 6122eeaed14Srobj #define IPMI_SR_ENABLED_ASSERT 0x0002 6132eeaed14Srobj 6142eeaed14Srobj #define IPMI_SR_AVAILABILITY_RUNNING 0x0001 6152eeaed14Srobj #define IPMI_SR_AVAILABILITY_INTEST 0x0002 6162eeaed14Srobj #define IPMI_SR_AVAILABILITY_POWEROFF 0x0004 6172eeaed14Srobj #define IPMI_SR_AVAILABILITY_ONLINE 0x0008 6182eeaed14Srobj #define IPMI_SR_AVAILABILITY_OFFLINE 0x0010 6192eeaed14Srobj #define IPMI_SR_AVAILABILITY_OFFDUTY 0x0020 6202eeaed14Srobj #define IPMI_SR_AVAILABILITY_DEGRADED 0x0040 6212eeaed14Srobj #define IPMI_SR_AVAILABILITY_POWERSAVE 0x0080 6222eeaed14Srobj #define IPMI_SR_AVAILABILITY_INSTALLERR 0x0100 6232eeaed14Srobj 6242eeaed14Srobj #define IPMI_SR_REDUNDANCY_FULL 0x0001 6252eeaed14Srobj #define IPMI_SR_REDUNDANCY_LOST 0x0002 6262eeaed14Srobj #define IPMI_SR_REDUNDANCY_DEGRADED 0x0004 6272eeaed14Srobj #define IPMI_SR_REDUNDANCY_NONE_MINIMAL 0x0008 6282eeaed14Srobj #define IPMI_SR_REDUNDANCY_NONE_REGAINED 0x0010 6292eeaed14Srobj #define IPMI_SR_REDUNDANCY_NONE_INSUFFFICIENT 0x0020 6302eeaed14Srobj #define IPMI_SR_REDUNDANCY_DEG_FROM_FULL 0x0040 6312eeaed14Srobj #define IPMI_SR_REDUNDANCY_DEG_FROM_NON 0x0080 6322eeaed14Srobj 6332eeaed14Srobj #define IPMI_SR_ACPI_DO 0x0001 6342eeaed14Srobj #define IPMI_SR_ACPI_D1 0x0002 6352eeaed14Srobj #define IPMI_SR_ACPI_D2 0x0004 6362eeaed14Srobj #define IPMI_SR_ACPI_D3 0x0008 6372eeaed14Srobj 6382eeaed14Srobj /* 6392eeaed14Srobj * Bitmasks for sensor-specific reading type (0x6F). See section 42.2. 6402eeaed14Srobj */ 6412eeaed14Srobj #define IPMI_ST_RESERVED 0x00 6422eeaed14Srobj #define IPMI_ST_TEMP 0x01 6432eeaed14Srobj #define IPMI_ST_VOLTAGE 0x02 6442eeaed14Srobj #define IPMI_ST_CURRENT 0x03 6452eeaed14Srobj #define IPMI_ST_FAN 0x04 6462eeaed14Srobj #define IPMI_ST_PHYSICAL 0x05 6472eeaed14Srobj 6482eeaed14Srobj #define IPMI_EV_PHYSICAL_GENERAL 0x0001 6492eeaed14Srobj #define IPMI_EV_PHYSICAL_BAY 0x0002 6502eeaed14Srobj #define IPMI_EV_PHYSICAL_CARD 0x0004 6512eeaed14Srobj #define IPMI_EV_PHYSICAL_PROCESSOR 0x0008 6522eeaed14Srobj #define IPMI_EV_PHYSICAL_LAN 0x0010 6532eeaed14Srobj #define IPMI_EV_PHYSICAL_DOCK 0x0020 6542eeaed14Srobj #define IPMI_EV_PHYSICAL_FAN 0x0040 6552eeaed14Srobj 6562eeaed14Srobj #define IPMI_ST_PLATFORM 0x06 6572eeaed14Srobj 6582eeaed14Srobj #define IPMI_EV_PLATFORM_SECURE 0x0001 6592eeaed14Srobj #define IPMI_EV_PLATFORM_USER_PASS 0x0002 6602eeaed14Srobj #define IPMI_EV_PLATFORM_SETUP_PASS 0x0004 6612eeaed14Srobj #define IPMI_EV_PLATFORM_NETWORK_PASS 0x0008 6622eeaed14Srobj #define IPMI_EV_PLATFORM_OTHER_PASS 0x0010 6632eeaed14Srobj #define IPMI_EV_PLATFORM_OUT_OF_BAND 0x0020 6642eeaed14Srobj 6652eeaed14Srobj #define IPMI_ST_PROCESSOR 0x07 6662eeaed14Srobj 6672eeaed14Srobj #define IPMI_EV_PROCESSOR_IERR 0x0001 6682eeaed14Srobj #define IPMI_EV_PROCESSOR_THERMAL 0x0002 6692eeaed14Srobj #define IPMI_EV_PROCESSOR_FRB1 0x0004 6702eeaed14Srobj #define IPMI_EV_PROCESSOR_FRB2 0x0008 6712eeaed14Srobj #define IPMI_EV_PROCESSOR_FRB3 0x0010 6722eeaed14Srobj #define IPMI_EV_PROCESSOR_CONFIG 0x0020 6732eeaed14Srobj #define IPMI_EV_PROCESSOR_SMBIOS 0x0040 6742eeaed14Srobj #define IPMI_EV_PROCESSOR_PRESENT 0x0080 6752eeaed14Srobj #define IPMI_EV_PROCESSOR_DISABLED 0x0100 6762eeaed14Srobj #define IPMI_EV_PROCESSOR_TERMINATOR 0x0200 6772eeaed14Srobj #define IPMI_EV_PROCESSOR_THROTTLED 0x0400 6782eeaed14Srobj 6792eeaed14Srobj #define IPMI_ST_POWER_SUPPLY 0x08 6802eeaed14Srobj 6812eeaed14Srobj #define IPMI_EV_POWER_SUPPLY_PRESENT 0x0001 6822eeaed14Srobj #define IPMI_EV_POWER_SUPPLY_FAILURE 0x0002 6832eeaed14Srobj #define IPMI_EV_POWER_SUPPLY_PREDFAIL 0x0004 6842eeaed14Srobj #define IPMI_EV_POWER_SUPPLY_INPUT_LOST 0x0008 6852eeaed14Srobj #define IPMI_EV_POWER_SUPPLY_INPUT_RANGE 0x0010 6862eeaed14Srobj #define IPMI_EV_POWER_SUPPLY_INPUT_RANGE_PRES 0x0020 6872eeaed14Srobj #define IPMI_EV_POWER_SUPPLY_CONFIG_ERR 0x0040 6882eeaed14Srobj 6892eeaed14Srobj #define IPMI_ST_POWER_UNIT 0x09 6902eeaed14Srobj 6912eeaed14Srobj #define IPMI_EV_POWER_UNIT_OFF 0x0001 6922eeaed14Srobj #define IPMI_EV_POWER_UNIT_CYCLE 0x0002 6932eeaed14Srobj #define IPMI_EV_POWER_UNIT_240_DOWN 0x0004 6942eeaed14Srobj #define IPMI_EV_POWER_UNIT_INTERLOCK_DOWN 0x0008 6952eeaed14Srobj #define IPMI_EV_POWER_UNIT_AC_LOST 0x0010 6962eeaed14Srobj #define IPMI_EV_POWER_UNIT_SOFT_FAILURE 0x0020 6972eeaed14Srobj #define IPMI_EV_POWER_UNIT_FAIL 0x0040 6982eeaed14Srobj #define IPMI_EV_POWER_UNIT_PREDFAIL 0x0080 6992eeaed14Srobj 7002eeaed14Srobj #define IPMI_ST_COOLING 0x0A 7012eeaed14Srobj #define IPMI_ST_OTHER 0x0B 7022eeaed14Srobj #define IPMI_ST_MEMORY 0x0C 7032eeaed14Srobj 7042eeaed14Srobj #define IPMI_EV_MEMORY_CE 0x0001 7052eeaed14Srobj #define IPMI_EV_MEMORY_UE 0x0002 7062eeaed14Srobj #define IPMI_EV_MEMORY_PARITY 0x0004 7072eeaed14Srobj #define IPMI_EV_MEMORY_SCRUB_FAIL 0x0008 7082eeaed14Srobj #define IPMI_EV_MEMORY_DISABLED 0x0010 7092eeaed14Srobj #define IPMI_EV_MEMORY_CE_LOG_LIMIT 0x0020 7102eeaed14Srobj #define IPMI_EV_MEMORY_PRESENT 0x0040 7112eeaed14Srobj #define IPMI_EV_MEMORY_CONFIG_ERR 0x0080 7122eeaed14Srobj #define IPMI_EV_MEMORY_SPARE 0x0100 7132eeaed14Srobj #define IPMI_EV_MEMORY_THROTTLED 0x0200 7142eeaed14Srobj #define IPMI_EV_MEMORY_OVERTEMP 0x0400 7152eeaed14Srobj 7162eeaed14Srobj #define IPMI_ST_BAY 0x0D 7172eeaed14Srobj 7182eeaed14Srobj #define IPMI_EV_BAY_PRESENT 0x0001 7192eeaed14Srobj #define IPMI_EV_BAY_FAULT 0x0002 7202eeaed14Srobj #define IPMI_EV_BAY_PREDFAIL 0x0004 7212eeaed14Srobj #define IPMI_EV_BAY_SPARE 0x0008 7222eeaed14Srobj #define IPMI_EV_BAY_CHECK 0x0010 7232eeaed14Srobj #define IPMI_EV_BAY_CRITICAL 0x0020 7242eeaed14Srobj #define IPMI_EV_BAY_FAILED 0x0040 7252eeaed14Srobj #define IPMI_EV_BAY_REBUILDING 0x0080 7262eeaed14Srobj #define IPMI_EV_BAY_ABORTED 0x0100 7272eeaed14Srobj 7282eeaed14Srobj #define IPMI_ST_POST_RESIZE 0x0E 7292eeaed14Srobj #define IPMI_ST_FIRMWARE 0x0F 7302eeaed14Srobj 7312eeaed14Srobj #define IPMI_EV_FIRMWARE_ERROR 0x0001 7322eeaed14Srobj #define IPMI_EV_FIRMWARE_HANG 0x0002 7332eeaed14Srobj #define IPMI_EV_FIRMWARE_PROGRESS 0x0004 7342eeaed14Srobj 7352eeaed14Srobj #define IPMI_ST_EVENT_LOG 0x10 7362eeaed14Srobj 7372eeaed14Srobj #define IPMI_EV_EVENT_LOG_CE 0x0001 7382eeaed14Srobj #define IPMI_EV_EVENT_LOG_TYPE 0x0002 7392eeaed14Srobj #define IPMI_EV_EVENT_LOG_RESET 0x0004 7402eeaed14Srobj #define IPMI_EV_EVENT_LOG_ALL 0x0008 7412eeaed14Srobj #define IPMI_EV_EVENT_LOG_FULL 0x0010 7422eeaed14Srobj #define IPMI_EV_EVENT_LOG_ALMOST_FULL 0x0020 7432eeaed14Srobj 7442eeaed14Srobj #define IPMI_ST_WATCHDOG1 0x11 7452eeaed14Srobj 7462eeaed14Srobj #define IPMI_EV_WATCHDOG_BIOS_RESET 0x0001 7472eeaed14Srobj #define IPMI_EV_WATCHDOG_OS_RESET 0x0002 7482eeaed14Srobj #define IPMI_EV_WATCHDOG_OS_SHUTDOWN 0x0004 7492eeaed14Srobj #define IPMI_EV_WATCHDOG_OS_PWR_DOWN 0x0008 7502eeaed14Srobj #define IPMI_EV_WATCHDOG_OS_PWR_CYCLE 0x0010 7512eeaed14Srobj #define IPMI_EV_WATCHDOG_OS_NMI_DIAG 0x0020 7522eeaed14Srobj #define IPMI_EV_WATCHDOG_EXPIRED 0x0040 7532eeaed14Srobj #define IPMI_EV_WATCHDOG_PRE_TIMEOUT_INT 0x0080 7542eeaed14Srobj 7552eeaed14Srobj #define IPMI_ST_SYSTEM 0x12 7562eeaed14Srobj 7572eeaed14Srobj #define IPMI_EV_STSTEM_RECONF 0x0001 7582eeaed14Srobj #define IPMI_EV_STSTEM_BOOT 0x0002 7592eeaed14Srobj #define IPMI_EV_STSTEM_UNKNOWN_HW_FAILURE 0x0004 7602eeaed14Srobj #define IPMI_EV_STSTEM_AUX_LOG_UPDATED 0x0008 7612eeaed14Srobj #define IPMI_EV_STSTEM_PEF_ACTION 0x0010 7622eeaed14Srobj #define IPMI_EV_SYSTEM_TIMETAMP_CLOCKSYNC 0x0020 7632eeaed14Srobj 7642eeaed14Srobj #define IPMI_ST_CRITICAL 0x13 7652eeaed14Srobj 7662eeaed14Srobj #define IPMI_EV_CRITICAL_EXT_NMI 0x0001 7672eeaed14Srobj #define IPMI_EV_CRITICAL_BUS_TIMOEOUT 0x0002 7682eeaed14Srobj #define IPMI_EV_CRITICAL_IO_NMI 0x0004 7692eeaed14Srobj #define IPMI_EV_CRITICAL_SW_NMI 0x0008 7702eeaed14Srobj #define IPMI_EV_CRITICAL_PCI_PERR 0x0010 7712eeaed14Srobj #define IPMI_EV_CRITICAL_PCI_SERR 0x0020 7722eeaed14Srobj #define IPMI_EV_CRITICAL_EISA_FAILSAFE 0x0040 7732eeaed14Srobj #define IPMI_EV_CRITICAL_BUS_CE 0x0080 7742eeaed14Srobj #define IPMI_EV_CRITICAL_BUS_UE 0x0100 7752eeaed14Srobj #define IPMI_EV_CRITICAL_FATAL_NMI 0x0200 7762eeaed14Srobj #define IPMI_EV_CRITICAL_BUS_FATAL_ERR 0x0400 7772eeaed14Srobj #define IPMI_EV_CRITICAL_BUS_DEGRADED 0x0800 7782eeaed14Srobj 7792eeaed14Srobj #define IPMI_ST_BUTTON 0x14 7802eeaed14Srobj 7812eeaed14Srobj #define IPMI_EV_BUTTON_PWR 0x0001 7822eeaed14Srobj #define IPMI_EV_BUTTON_SLEEP 0x0002 7832eeaed14Srobj #define IPMI_EV_BUTTON_RESET 0x0004 7842eeaed14Srobj #define IPMI_EV_BUTTON_FRU_LATCH 0x0008 7852eeaed14Srobj #define IPMI_EV_BUTTON_FRU_SERVICE 0x0010 7862eeaed14Srobj 7872eeaed14Srobj #define IPMI_ST_MODULE 0x15 7882eeaed14Srobj #define IPMI_ST_MICROCONTROLLER 0x16 7892eeaed14Srobj #define IPMI_ST_CARD 0x17 7902eeaed14Srobj #define IPMI_ST_CHASSIS 0x18 7912eeaed14Srobj 7922eeaed14Srobj #define IPMI_ST_CHIPSET 0x19 7932eeaed14Srobj 7942eeaed14Srobj #define IPMI_EV_CHIPSET_PWR_CTL_FAIL 0x0001 7952eeaed14Srobj 7962eeaed14Srobj #define IPMI_ST_FRU 0x1A 7972eeaed14Srobj #define IPMI_ST_CABLE 0x1B 7982eeaed14Srobj 7992eeaed14Srobj #define IPMI_EV_CABLE_CONNECTED 0x0001 8002eeaed14Srobj #define IPMI_EV_CABLE_CONFIG_ERR 0x0002 8012eeaed14Srobj 8022eeaed14Srobj #define IPMI_ST_TERMINATOR 0x1C 8032eeaed14Srobj 8042eeaed14Srobj #define IPMI_ST_BOOT 0x1D 8052eeaed14Srobj 8062eeaed14Srobj #define IPMI_EV_BOOT_BIOS_PWR_UP 0x0001 8072eeaed14Srobj #define IPMI_EV_BOOT_BIOS_HARD_RESET 0x0002 8082eeaed14Srobj #define IPMI_EV_BOOT_BIOS_WARM_RESET 0x0004 8092eeaed14Srobj #define IPMI_EV_BOOT_PXE_BOOT 0x0008 8102eeaed14Srobj #define IPMI_EV_BOOT_DIAG_BOOT 0x0010 8112eeaed14Srobj #define IPMI_EV_BOOT_OS_HARD_RESET 0x0020 8122eeaed14Srobj #define IPMI_EV_BOOT_OS_WARM_RESET 0x0040 8132eeaed14Srobj #define IPMI_EV_BOOT_SYS_RESTART 0x0080 8142eeaed14Srobj 8152eeaed14Srobj #define IPMI_ST_BOOT_ERROR 0x1E 8162eeaed14Srobj 8172eeaed14Srobj #define IPMI_EV_BOOT_ERROR_NOMEDIA 0x0001 8182eeaed14Srobj #define IPMI_EV_BOOT_ERROR_NON_BOOTABLE_DISK 0x0002 8192eeaed14Srobj #define IPMI_EV_BOOT_ERROR_NO_PXE_SERVER 0x0004 8202eeaed14Srobj #define IPMI_EV_BOOT_ERROR_INV_BOOT_SECT 0x0008 8212eeaed14Srobj #define IPMI_EV_BOOT_ERROR_USR_SELECT_TIMEOUT 0x0010 8222eeaed14Srobj 8232eeaed14Srobj #define IPMI_ST_BOOT_OS 0x1F 8242eeaed14Srobj 8252eeaed14Srobj #define IPMI_EV_BOOT_OS_A_DRV_BOOT_COMPLETE 0x0001 8262eeaed14Srobj #define IPMI_EV_BOOT_OS_C_DRV_BOOT_COMPLETE 0x0002 8272eeaed14Srobj #define IPMI_EV_BOOT_OS_PXE_BOOT_COMPLETE 0x0004 8282eeaed14Srobj #define IPMI_EV_BOOT_OS_DIAG_BOOT_COMPLETE 0x0008 8292eeaed14Srobj #define IPMI_EV_BOOT_OS_CDROM_BOOT_COMPLETE 0x0010 8302eeaed14Srobj #define IPMI_EV_BOOT_OS_ROM_BOOT_COMPLETE 0x0020 8312eeaed14Srobj #define IPMI_EV_BOOT_OS_UNSPEC_BOOT_COMPLETE 0x0040 8322eeaed14Srobj 8332eeaed14Srobj #define IPMI_ST_OS_SHUTDOWN 0x20 8342eeaed14Srobj 8352eeaed14Srobj #define IPMI_EV_OS_SHUTDOWN_LOADING 0x0001 8362eeaed14Srobj #define IPMI_EV_OS_SHUTDOWN_CRASH 0x0002 8372eeaed14Srobj #define IPMI_EV_OS_STOP_GRACEFUL 0x0004 8382eeaed14Srobj #define IPMI_EV_OS_SHUTDOWN_GRACEFUL 0x0008 8392eeaed14Srobj #define IPMI_EV_OS_SHUTDOWN_PEF 0x0010 8402eeaed14Srobj #define IPMI_EV_OS_SHUTDOWN_BMC 0x0020 8412eeaed14Srobj 8422eeaed14Srobj #define IPMI_ST_SLOT 0x21 8432eeaed14Srobj 8442eeaed14Srobj #define IPMI_EV_SLOT_FAULT_ASSERTED 0x0001 8452eeaed14Srobj #define IPMI_EV_SLOT_IDENTIFY_ASSERTED 0x0002 8462eeaed14Srobj #define IPMI_EV_SLOT_CONNECTED 0x0004 8472eeaed14Srobj #define IPMI_EV_SLOT_INSTALL_READY 0x0008 8482eeaed14Srobj #define IPMI_EV_SLOT_REMOVE_READY 0x0010 8492eeaed14Srobj #define IPMI_EV_SLOT_PWR_OFF 0x0020 8502eeaed14Srobj #define IPMI_EV_SLOT_REMOVED 0x0040 8512eeaed14Srobj #define IPMI_EV_SLOT_INTERLOCK_ASSERTED 0x0080 8522eeaed14Srobj #define IPMI_EV_SLOT_DISABLED 0x0100 8532eeaed14Srobj #define IPMI_EV_SLOT_SPARE_DEVICE 0x0200 8542eeaed14Srobj 8552eeaed14Srobj #define IPMI_ST_ACPI 0x22 8562eeaed14Srobj 8572eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S0_G0 0x0001 8582eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S1 0x0002 8592eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S2 0x0004 8602eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S3 0x0008 8612eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S4 0x0010 8622eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S5_G2_SOFT_OFF 0x0020 8632eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S4_S5_SOFT_OFF 0x0040 8642eeaed14Srobj #define IPMI_EV_ACPI_PSATTE_G3_MECH_OFF 0x0080 8652eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S1_S2_S3_SLEEP 0x0100 8662eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_G1_SLEEP 0x0200 8672eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_S5_OVERRIDE 0x0400 8682eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_LEGACY_ON 0x0800 8692eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_LEGACY_OFF 0x1000 8702eeaed14Srobj #define IPMI_EV_ACPI_PSTATE_UNKNOWN 0x2000 8712eeaed14Srobj 8722eeaed14Srobj #define IPMI_ST_WATCHDOG2 0x23 8732eeaed14Srobj 8742eeaed14Srobj #define IPMI_EV_WATCHDOG2_EXPIRED 0x0001 8752eeaed14Srobj #define IPMI_EV_WATCHDOG2_HARD_RESET 0x0002 8762eeaed14Srobj #define IPMI_EV_WATCHDOG2_PWR_DOWN 0x0004 8772eeaed14Srobj #define IPMI_EV_WATCHDOG2_PWR_CYCLE 0x0008 8782eeaed14Srobj #define IPMI_EV_WATCHDOG2_RESERVED1 0x0010 8792eeaed14Srobj #define IPMI_EV_WATCHDOG2_RESERVED2 0x0020 8802eeaed14Srobj #define IPMI_EV_WATCHDOG2_RESERVED3 0x0040 8812eeaed14Srobj #define IPMI_EV_WATCHDOG2_RESERVED4 0x0080 8822eeaed14Srobj #define IPMI_EV_WATCHDOG2_TIMEOUT_INT 0x0100 8832eeaed14Srobj 8842eeaed14Srobj #define IPMI_ST_ALERT 0x24 8852eeaed14Srobj 8862eeaed14Srobj #define IPMI_EV_ALERT_PLAT_PAGE 0x0001 8872eeaed14Srobj #define IPMI_EV_ALERT_PLAT_LAN_ALERT 0x0002 8882eeaed14Srobj #define IPMI_EV_ALERT_PLAT_EVT_TRAP 0x0004 8892eeaed14Srobj #define IPMI_EV_ALERT_PLAT_SNMP_TRAP 0x0008 8902eeaed14Srobj 8912eeaed14Srobj #define IPMI_ST_PRESENCE 0x25 8922eeaed14Srobj 8932eeaed14Srobj #define IPMI_EV_PRESENCE_PRESENT 0x0001 8942eeaed14Srobj #define IPMI_EV_PRESENCE_ABSENT 0x0002 8952eeaed14Srobj #define IPMI_EV_PRESENCE_DISABLED 0x0004 8962eeaed14Srobj 8972eeaed14Srobj #define IPMI_ST_ASIC 0x26 8982eeaed14Srobj 8992eeaed14Srobj #define IPMI_ST_LAN 0x27 9002eeaed14Srobj 9012eeaed14Srobj #define IPMI_EV_LAN_HEARTBEAT_LOST 0x0001 9022eeaed14Srobj #define IPMI_EV_LAN_HEARTBEAT 0x0002 9032eeaed14Srobj 9042eeaed14Srobj #define IPMI_ST_HEALTH 0x28 9052eeaed14Srobj 9062eeaed14Srobj #define IPMI_EV_HEALTH_SENSOR_ACC_DEGRADED 0x0001 9072eeaed14Srobj #define IPMI_EV_HEALTH_CNTLR_ACC_DEGRADED 0x0002 9082eeaed14Srobj #define IPMI_EV_HEALTH_CNTLR_OFFLINE 0x0004 9092eeaed14Srobj #define IPMI_EV_HEALTH_CNTLR_UNAVAIL 0x0008 9102eeaed14Srobj #define IPMI_EV_HEALTH_SENSOR_FAILURE 0x0010 9112eeaed14Srobj #define IPMI_EV_HEALTH_FRU_FAILURE 0x0020 9122eeaed14Srobj 9132eeaed14Srobj #define IPMI_ST_BATTERY 0x29 9142eeaed14Srobj 9152eeaed14Srobj #define IPMI_EV_BATTERY_LOW 0x0001 9162eeaed14Srobj #define IPMI_EV_BATTERY_FAILED 0x0002 9172eeaed14Srobj #define IPMI_EV_BATTERY_PRESENCE 0x0004 9182eeaed14Srobj 9192eeaed14Srobj #define IPMI_ST_AUDIT 0x2A 9202eeaed14Srobj 9212eeaed14Srobj #define IPMI_EV_AUDIT_SESSION_ACTIVATED 0x0001 9222eeaed14Srobj #define IPMI_EV_AUDIT_SESSION_DEACTIVATED 0x0002 9232eeaed14Srobj 9242eeaed14Srobj #define IPMI_ST_VERSION 0x2B 9252eeaed14Srobj 9262eeaed14Srobj #define IPMI_EV_VERSION_HW_CHANGE 0x0001 9272eeaed14Srobj #define IPMI_EV_VERSION_SW_CHANGE 0x0002 9282eeaed14Srobj #define IPMI_EV_VERSION_HW_INCOMPATIBLE 0x0004 9292eeaed14Srobj #define IPMI_EV_VERSION_SW_INCOMPATIBLE 0x0008 9302eeaed14Srobj #define IPMI_EV_VERSION_HW_INVAL 0x0010 9312eeaed14Srobj #define IPMI_EV_VERSION_SW_INVAL 0x0020 9322eeaed14Srobj #define IPMI_EV_VERSION_HW_CHANGE_SUCCESS 0x0040 9332eeaed14Srobj #define IPMI_EV_VERSION_SW_CHANGE_SUCCESS 0x0080 9342eeaed14Srobj 9352eeaed14Srobj #define IPMI_ST_FRU_STATE 0x2C 9362eeaed14Srobj 9372eeaed14Srobj #define IPMI_EV_FRU_STATE_NOT_INSTALLED 0x0001 9382eeaed14Srobj #define IPMI_EV_FRU_STATE_INACTIVE 0x0002 9392eeaed14Srobj #define IPMI_EV_FRU_STATE_ACT_REQ 0x0004 9402eeaed14Srobj #define IPMI_EV_FRU_STATE_ACT_INPROGRESS 0x0008 9412eeaed14Srobj #define IPMI_EV_FRU_STATE_ACTIVE 0x0010 9422eeaed14Srobj #define IPMI_EV_FRU_STATE_DEACT_REQ 0x0020 9432eeaed14Srobj #define IPMI_EV_FRU_STATE_DEACT_INPROGRESS 0x0040 9442eeaed14Srobj #define IPMI_EV_FRU_STATE_COMM_LOST 0x0080 9452eeaed14Srobj 9462eeaed14Srobj /* 9472eeaed14Srobj * Constants for unit type codes. See Table 43-15. 9482eeaed14Srobj */ 9492eeaed14Srobj #define IPMI_UNITS_UNSPECIFIED 0x00 9502eeaed14Srobj #define IPMI_UNITS_DEGREES_C 0x01 9512eeaed14Srobj #define IPMI_UNITS_DEGREES_F 0x02 9522eeaed14Srobj #define IPMI_UNITS_DEGREES_K 0x03 9532eeaed14Srobj #define IPMI_UNITS_VOLTS 0x04 9542eeaed14Srobj #define IPMI_UNITS_AMPS 0x05 9552eeaed14Srobj #define IPMI_UNITS_WATTS 0x06 9562eeaed14Srobj #define IPMI_UNITS_JOULES 0x07 9572eeaed14Srobj #define IPMI_UNITS_COULOMBS 0x08 9582eeaed14Srobj #define IPMI_UNITS_VA 0x09 9592eeaed14Srobj #define IPMI_UNITS_NITS 0x0A 9602eeaed14Srobj #define IPMI_UNITS_LUMEN 0x0B 9612eeaed14Srobj #define IPMI_UNITS_LUX 0x0C 9622eeaed14Srobj #define IPMI_UNITS_CANDELA 0x0D 9632eeaed14Srobj #define IPMI_UNITS_KPA 0x0E 9642eeaed14Srobj #define IPMI_UNITS_PSI 0x0F 9652eeaed14Srobj 9662eeaed14Srobj #define IPMI_UNITS_NEWTON 0x10 9672eeaed14Srobj #define IPMI_UNITS_CFM 0x11 9682eeaed14Srobj #define IPMI_UNITS_RPM 0x12 9692eeaed14Srobj #define IPMI_UNITS_HZ 0x13 9702eeaed14Srobj #define IPMI_UNITS_MICROSEC 0x14 9712eeaed14Srobj #define IPMI_UNITS_MILLISEC 0x15 9722eeaed14Srobj #define IPMI_UNITS_SECS 0x16 9732eeaed14Srobj #define IPMI_UNITS_MIN 0x17 9742eeaed14Srobj #define IPMI_UNITS_HOUR 0x18 9752eeaed14Srobj #define IPMI_UNITS_DAY 0x19 9762eeaed14Srobj #define IPMI_UNITS_WEEK 0x1A 9772eeaed14Srobj #define IPMI_UNITS_MIL 0x1B 9782eeaed14Srobj #define IPMI_UNITS_INCHES 0x1C 9792eeaed14Srobj #define IPMI_UNITS_FEET 0x1D 9802eeaed14Srobj #define IPMI_UNITS_CUB_INCH 0x1E 9812eeaed14Srobj #define IPMI_UNITS_CUB_FEET 0x1F 9822eeaed14Srobj 9832eeaed14Srobj #define IPMI_UNITS_MM 0x20 9842eeaed14Srobj #define IPMI_UNITS_CM 0x21 9852eeaed14Srobj #define IPMI_UNITS_METERS 0x22 9862eeaed14Srobj #define IPMI_UNITS_CUB_CM 0x23 9872eeaed14Srobj #define IPMI_UNITS_CUB_METER 0x24 9882eeaed14Srobj #define IPMI_UNITS_LITERS 0x25 9892eeaed14Srobj #define IPMI_UNITS_FLUID_OUNCE 0x26 9902eeaed14Srobj #define IPMI_UNITS_RADIANS 0x27 9912eeaed14Srobj #define IPMI_UNITS_STERADIANS 0x28 9922eeaed14Srobj #define IPMI_UNITS_REVOLUTIONS 0x29 9932eeaed14Srobj #define IPMI_UNITS_CYCLES 0x2A 9942eeaed14Srobj #define IPMI_UNITS_GRAVITIES 0x2B 9952eeaed14Srobj #define IPMI_UNITS_OUNCE 0x2C 9962eeaed14Srobj #define IPMI_UNITS_POUND 0x2D 9972eeaed14Srobj #define IPMI_UNITS_FOOT_POUND 0x2E 9982eeaed14Srobj #define IPMI_UNITS_OZ_INCH 0x2F 9992eeaed14Srobj 10002eeaed14Srobj #define IPMI_UNITS_GAUSS 0x30 10012eeaed14Srobj #define IPMI_UNITS_GILBERTS 0x31 10022eeaed14Srobj #define IPMI_UNITS_HENRY 0x32 10032eeaed14Srobj #define IPMI_UNITS_MILHENRY 0x33 10042eeaed14Srobj #define IPMI_UNITS_FARAD 0x34 10052eeaed14Srobj #define IPMI_UNITS_MICROFARAD 0x35 10062eeaed14Srobj #define IPMI_UNITS_OHMS 0x36 10072eeaed14Srobj #define IPMI_UNITS_SIEMENS 0x37 10082eeaed14Srobj #define IPMI_UNITS_MOLE 0x38 10092eeaed14Srobj #define IPMI_UNITS_BECQUEREL 0x39 10102eeaed14Srobj #define IPMI_UNITS_PPM 0x3A 10112eeaed14Srobj /* 0x3B is reserved */ 10122eeaed14Srobj #define IPMI_UNITS_DECIBELS 0x3C 10132eeaed14Srobj #define IPMI_UNITS_DBA 0x3D 10142eeaed14Srobj #define IPMI_UNITS_DBC 0x3E 10152eeaed14Srobj #define IPMI_UNITS_GRAY 0x3F 10162eeaed14Srobj 10172eeaed14Srobj #define IPMI_UNITS_SIEVERT 0x40 10182eeaed14Srobj #define IPMI_UNITS_COLOR_TEMP_K 0x41 10192eeaed14Srobj #define IPMI_UNITS_BIT 0x42 10202eeaed14Srobj #define IPMI_UNITS_KILOBIT 0x43 10212eeaed14Srobj #define IPMI_UNITS_MEGABIT 0x44 10222eeaed14Srobj #define IPMI_UNITS_GIGABIT 0x45 10232eeaed14Srobj #define IPMI_UNITS_BYTE 0x46 10242eeaed14Srobj #define IPMI_UNITS_KILOBYTE 0x47 10252eeaed14Srobj #define IPMI_UNITS_MEGABYTE 0x48 10262eeaed14Srobj #define IPMI_UNITS_GIGABYTE 0x49 10272eeaed14Srobj #define IPMI_UNITS_WORD 0x4A 10282eeaed14Srobj #define IPMI_UNITS_DWORD 0x4B 10292eeaed14Srobj #define IPMI_UNITS_QWORD 0x4C 10302eeaed14Srobj #define IPMI_UNITS_MEMLINE 0x4D 10312eeaed14Srobj #define IPMI_UNITS_HIT 0x4E 10322eeaed14Srobj #define IPMI_UNITS_MISS 0x4F 10332eeaed14Srobj 10342eeaed14Srobj #define IPMI_UNITS_RETRY 0x50 10352eeaed14Srobj #define IPMI_UNITS_RESET 0x51 10362eeaed14Srobj #define IPMI_UNITS_OVERFLOW 0x52 10372eeaed14Srobj #define IPMI_UNITS_UNDERRUN 0x53 10382eeaed14Srobj #define IPMI_UNITS_COLLISION 0x54 10392eeaed14Srobj #define IPMI_UNITS_PACKETS 0x55 10402eeaed14Srobj #define IPMI_UNITS_MESSAGES 0x56 10412eeaed14Srobj #define IPMI_UNITS_CHARACTERS 0x57 10422eeaed14Srobj #define IPMI_UNITS_ERROR 0x58 10432eeaed14Srobj #define IPMI_UNITS_CE 0x59 10442eeaed14Srobj #define IPMI_UNITS_UE 0x5A 10452eeaed14Srobj #define IPMI_UNITS_FATAL_ERROR 0x5B 10462eeaed14Srobj #define IPMI_UNITS_GRAMS 0x5C 10472eeaed14Srobj 10482eeaed14Srobj /* 10492eeaed14Srobj * Event-Only Record. See section 43.3. 10502eeaed14Srobj */ 10512eeaed14Srobj 10522eeaed14Srobj #define IPMI_SDR_TYPE_EVENT_ONLY 0x03 10532eeaed14Srobj 10542eeaed14Srobj typedef struct ipmi_sdr_event_only { 10552eeaed14Srobj /* RECORD KEY BYTES */ 10562eeaed14Srobj uint8_t is_eo_owner; 10572eeaed14Srobj DECL_BITFIELD3( 10582eeaed14Srobj is_eo_sensor_lun :2, 10592eeaed14Srobj is_eo_fru_lun :2, 10602eeaed14Srobj is_eo_channel :4); 10612eeaed14Srobj uint8_t is_eo_number; 10622eeaed14Srobj /* RECORD BODY BYTES */ 10632eeaed14Srobj uint8_t is_eo_entity_id; 10642eeaed14Srobj DECL_BITFIELD2( 10652eeaed14Srobj is_eo_entity_instance :7, 10662eeaed14Srobj is_eo_entity_logical :1); 10672eeaed14Srobj uint8_t is_eo_sensor_type; 10682eeaed14Srobj uint8_t is_eo_reading_type; 10692eeaed14Srobj DECL_BITFIELD3( 10702eeaed14Srobj is_eo_share_count :4, 10712eeaed14Srobj is_eo_modifier_type :2, 10722eeaed14Srobj is_eo_direction :2); 10732eeaed14Srobj DECL_BITFIELD2( 10742eeaed14Srobj is_eo_modifier_offset :7, 10752eeaed14Srobj is_eo_sharing :1); 10762eeaed14Srobj uint8_t __reserved; 10772eeaed14Srobj uint8_t is_eo_oem; 10782eeaed14Srobj DECL_BITFIELD3( 10792eeaed14Srobj is_eo_idlen :5, 10802eeaed14Srobj __reserved1 :1, 10812eeaed14Srobj is_eo_idtype :2); 10822eeaed14Srobj char is_eo_idstring[1]; 10832eeaed14Srobj } ipmi_sdr_event_only_t; 10842eeaed14Srobj 10852eeaed14Srobj /* 10862eeaed14Srobj * Entity Association Record. See section 43.4. 10872eeaed14Srobj */ 10882eeaed14Srobj 10892eeaed14Srobj #define IPMI_SDR_TYPE_ENTITY_ASSOCIATION 0x08 10902eeaed14Srobj 10912eeaed14Srobj typedef struct ipmi_sdr_entity_association { 10922eeaed14Srobj /* RECORD KEY BYTES */ 10932eeaed14Srobj uint8_t is_ea_entity_id; 10942eeaed14Srobj uint8_t is_ea_entity_instance; 10952eeaed14Srobj DECL_BITFIELD4( 10962eeaed14Srobj __reserved :5, 10972eeaed14Srobj is_ea_presence :1, 10982eeaed14Srobj is_ea_record_link :1, 10992eeaed14Srobj is_ea_range :1); 11002eeaed14Srobj /* RECORD BODY BYTES */ 11012eeaed14Srobj struct { 11022eeaed14Srobj uint8_t is_ea_sub_id; 11032eeaed14Srobj uint8_t is_ea_sub_instance; 11042eeaed14Srobj } is_ea_sub[4]; 11052eeaed14Srobj } ipmi_sdr_entity_association_t; 11062eeaed14Srobj 11072eeaed14Srobj /* 11082eeaed14Srobj * Device-relative Entity Association Record. See section 43.5. 11092eeaed14Srobj */ 11102eeaed14Srobj 11112eeaed14Srobj #define IPMI_SDR_TYPE_DEVICE_RELATIVE 0x09 11122eeaed14Srobj 11132eeaed14Srobj typedef struct ipmi_sdr_device_relative { 11142eeaed14Srobj /* RECORD KEY BYTES */ 11152eeaed14Srobj uint8_t is_dr_entity_id; 11162eeaed14Srobj uint8_t is_dr_entity_instance; 11172eeaed14Srobj DECL_BITFIELD2( 11182eeaed14Srobj __reserved1 :1, 11192eeaed14Srobj is_dr_slaveaddr :7); 11202eeaed14Srobj DECL_BITFIELD2( 11212eeaed14Srobj __reserved2 :4, 11222eeaed14Srobj is_dr_channel :4); 11232eeaed14Srobj DECL_BITFIELD4( 11242eeaed14Srobj __reserved :5, 11252eeaed14Srobj is_dr_presence :1, 11262eeaed14Srobj is_dr_record_link :1, 11272eeaed14Srobj is_dr_range :1); 11282eeaed14Srobj /* RECORD BODY BYTES */ 11292eeaed14Srobj struct { 11302eeaed14Srobj DECL_BITFIELD2( 11312eeaed14Srobj __reserved3 :1, 11322eeaed14Srobj is_dr_sub_slaveaddr :7); 11332eeaed14Srobj DECL_BITFIELD2( 11342eeaed14Srobj __reserved4 :4, 11352eeaed14Srobj is_dr_sub_channel :4); 11362eeaed14Srobj uint8_t is_ea_sub_id; 11372eeaed14Srobj uint8_t is_ea_sub_instance; 11382eeaed14Srobj } is_ea_sub[4]; 11392eeaed14Srobj } ipmi_sdr_device_relative_t; 11402eeaed14Srobj 11412eeaed14Srobj /* 11429113a79cSeschrock * Generic Device Locator Record. See section 43.7. 11439113a79cSeschrock */ 11449113a79cSeschrock 11459113a79cSeschrock #define IPMI_SDR_TYPE_GENERIC_LOCATOR 0x10 11469113a79cSeschrock 11479113a79cSeschrock typedef struct ipmi_sdr_generic_locator { 11489113a79cSeschrock /* RECORD KEY BYTES */ 11492c32020fSeschrock DECL_BITFIELD2( 11502c32020fSeschrock __reserved1 :1, 11512c32020fSeschrock is_gl_accessaddr :7); 11522c32020fSeschrock DECL_BITFIELD2( 11532c32020fSeschrock is_gl_channel_msb :1, 11542c32020fSeschrock is_gl_slaveaddr :7); 11552c32020fSeschrock DECL_BITFIELD3( 11562c32020fSeschrock is_gl_bus :3, 11572c32020fSeschrock is_gl_lun :2, 11582c32020fSeschrock is_gl_channel :3); 11599113a79cSeschrock /* RECORD BODY BYTES */ 11602c32020fSeschrock DECL_BITFIELD2( 11612c32020fSeschrock is_gl_span :3, 11622c32020fSeschrock __reserved2 :5); 11639113a79cSeschrock uint8_t __reserved3; 11649113a79cSeschrock uint8_t is_gl_type; 11659113a79cSeschrock uint8_t is_gl_modifier; 11669113a79cSeschrock uint8_t is_gl_entity; 11679113a79cSeschrock uint8_t is_gl_instance; 11689113a79cSeschrock uint8_t is_gl_oem; 11692eeaed14Srobj DECL_BITFIELD3( 11702eeaed14Srobj is_gl_idlen :5, 11712eeaed14Srobj __reserved4 :1, 11722c32020fSeschrock is_gl_idtype :2); 11739113a79cSeschrock char is_gl_idstring[1]; 11749113a79cSeschrock } ipmi_sdr_generic_locator_t; 11759113a79cSeschrock 11769113a79cSeschrock /* 11779113a79cSeschrock * FRU Device Locator Record. See section 43.8. 11789113a79cSeschrock */ 11799113a79cSeschrock 11809113a79cSeschrock #define IPMI_SDR_TYPE_FRU_LOCATOR 0x11 11819113a79cSeschrock 11829113a79cSeschrock typedef struct ipmi_sdr_fru_locator { 11839113a79cSeschrock /* RECORD KEY BYTES */ 11842c32020fSeschrock DECL_BITFIELD2( 11852c32020fSeschrock __reserved1 :1, 11862c32020fSeschrock is_fl_accessaddr :7); 11879113a79cSeschrock union { 11889113a79cSeschrock struct { 11899113a79cSeschrock uint8_t _is_fl_devid; 11909113a79cSeschrock } _logical; 11919113a79cSeschrock struct { 11922c32020fSeschrock DECL_BITFIELD2( 11932c32020fSeschrock __reserved :1, 11942c32020fSeschrock _is_fl_slaveaddr :7); 11959113a79cSeschrock } _nonintelligent; 11969113a79cSeschrock } _devid_or_slaveaddr; 11972c32020fSeschrock DECL_BITFIELD4( 11982c32020fSeschrock is_fl_bus :3, 11992c32020fSeschrock is_fl_lun :2, 12002c32020fSeschrock __reserved2 :2, 12012c32020fSeschrock is_fl_logical :1); 12022c32020fSeschrock DECL_BITFIELD2( 12032c32020fSeschrock __reserved3 :4, 12042c32020fSeschrock is_fl_channel :4); 12059113a79cSeschrock /* RECORD BODY BYTES */ 12069113a79cSeschrock uint8_t __reserved4; 12079113a79cSeschrock uint8_t is_fl_type; 12089113a79cSeschrock uint8_t is_fl_modifier; 12099113a79cSeschrock uint8_t is_fl_entity; 12109113a79cSeschrock uint8_t is_fl_instance; 12119113a79cSeschrock uint8_t is_fl_oem; 12122eeaed14Srobj DECL_BITFIELD3( 12132eeaed14Srobj is_fl_idlen :5, 12142eeaed14Srobj __reserved5 :1, 12152c32020fSeschrock is_fl_idtype :2); 12169113a79cSeschrock char is_fl_idstring[1]; 12179113a79cSeschrock } ipmi_sdr_fru_locator_t; 12189113a79cSeschrock 12199113a79cSeschrock #define is_fl_devid _devid_or_slaveaddr._logical._is_fl_devid 12209113a79cSeschrock #define is_fl_slaveaddr _devid_or_slaveaddr._nonintelligent._is_fl_slaveaddr 12219113a79cSeschrock 12229113a79cSeschrock /* 12232eeaed14Srobj * Management Controller Device Locator Record. See section 43.9 12249113a79cSeschrock */ 12252eeaed14Srobj 12262eeaed14Srobj #define IPMI_SDR_TYPE_MANAGEMENT_LOCATOR 0x12 12272eeaed14Srobj 12282eeaed14Srobj typedef struct ipmi_sdr_management_locator { 12292eeaed14Srobj /* RECORD KEY BYTES */ 12302eeaed14Srobj DECL_BITFIELD2( 12312eeaed14Srobj __reserved1 :1, 12322eeaed14Srobj is_ml_devaddr :7); 12332eeaed14Srobj DECL_BITFIELD2( 12342eeaed14Srobj is_ml_channel :4, 12352eeaed14Srobj __reserved2 :4); 12362eeaed14Srobj /* RECORD BODY BYTES */ 12372eeaed14Srobj DECL_BITFIELD7( 12382eeaed14Srobj is_ml_init_message :2, 12392eeaed14Srobj is_ml_init_log :1, 12402eeaed14Srobj is_ml_init_controller_log :1, 12412eeaed14Srobj __reserved3 :1, 12422eeaed14Srobj is_ml_static :1, 12432eeaed14Srobj is_ml_acpi_device :1, 12442eeaed14Srobj is_ml_acpi_system :1); 12452eeaed14Srobj DECL_BITFIELD8( 12462eeaed14Srobj is_ml_supp_sensor :1, 12472eeaed14Srobj is_ml_supp_sdr :1, 12482eeaed14Srobj is_ml_supp_sel :1, 12492eeaed14Srobj is_ml_supp_fru :1, 12502eeaed14Srobj is_ml_supp_event_receiver :1, 12512eeaed14Srobj is_ml_supp_event_generator :1, 12522eeaed14Srobj is_ml_supp_bridge :1, 12532eeaed14Srobj is_ml_supp_chassis :1); 12542eeaed14Srobj uint8_t __reserved4; 12552eeaed14Srobj uint16_t __reserved5; 12562eeaed14Srobj uint8_t is_ml_entity_id; 12572eeaed14Srobj uint8_t is_ml_entity_instance; 12582eeaed14Srobj uint8_t is_ml_oem; 12592eeaed14Srobj DECL_BITFIELD3( 12602eeaed14Srobj is_ml_idlen :5, 12612eeaed14Srobj __reserved6 :1, 12622eeaed14Srobj is_ml_idtype :2); 12632eeaed14Srobj char is_ml_idstring[1]; 12642eeaed14Srobj } ipmi_sdr_management_locator_t; 12652eeaed14Srobj 12662eeaed14Srobj #define IPMI_MESSAGE_INIT_ENABLE 0x0 12672eeaed14Srobj #define IPMI_MESSAGE_INIT_DISABLE 0x1 12682eeaed14Srobj #define IPMI_MESSAGE_INIT_NONE 0x2 12692eeaed14Srobj 12702eeaed14Srobj /* 12712eeaed14Srobj * Management Controller Confirmation Record. See section 43.10 12722eeaed14Srobj */ 12732eeaed14Srobj 12749113a79cSeschrock #define IPMI_SDR_TYPE_MANAGEMENT_CONFIRMATION 0x13 12752eeaed14Srobj 12762eeaed14Srobj typedef struct ipmi_sdr_management_confirmation { 12772eeaed14Srobj /* RECORD KEY BYTES */ 12782eeaed14Srobj DECL_BITFIELD2( 12792eeaed14Srobj __reserved1 :1, 12802eeaed14Srobj is_mc_slaveaddr :7); 12812eeaed14Srobj uint8_t is_mc_deviceid; 12822eeaed14Srobj DECL_BITFIELD2( 12832eeaed14Srobj is_mc_dev_revision :4, 12842eeaed14Srobj is_mc_channel :4); 12852eeaed14Srobj /* RECORD BODY BYTES */ 12862eeaed14Srobj DECL_BITFIELD2( 12872eeaed14Srobj is_mc_major_rev :7, 12882eeaed14Srobj __reserved2 :1); 12892eeaed14Srobj uint8_t is_mc_minor_rev; 12902eeaed14Srobj uint8_t is_mc_impi_ver; 12912eeaed14Srobj uint8_t is_mc_manufacturer[3]; 12922eeaed14Srobj uint16_t is_mc_product; 12932eeaed14Srobj uint8_t is_mc_guid[16]; 12942eeaed14Srobj } ipmi_sdr_management_confirmation_t; 12952eeaed14Srobj 12962eeaed14Srobj /* 12972eeaed14Srobj * BMC Message Channel Info Record. See esction 43.11. 12982eeaed14Srobj */ 12992eeaed14Srobj 13009113a79cSeschrock #define IPMI_SDR_TYPE_BMC_MESSAGE_CHANNEL 0x14 13012eeaed14Srobj 13022eeaed14Srobj typedef struct ipmi_sdr_bmc_channel { 13032eeaed14Srobj /* RECORD BODY BYTES */ 13042eeaed14Srobj struct { 13052eeaed14Srobj DECL_BITFIELD3( 13062eeaed14Srobj is_bc_protocol :4, 13072eeaed14Srobj is_bc_receive_lun :3, 13082eeaed14Srobj is_bc_transmit :1); 13092eeaed14Srobj } is_bc_channel[8]; 13102eeaed14Srobj uint8_t is_bc_interrupt_type; 13112eeaed14Srobj uint8_t is_bc_buffer_type; 13122eeaed14Srobj uint8_t __reserved; 13132eeaed14Srobj } ipmi_sdr_bmc_channel_t; 13142eeaed14Srobj 13152eeaed14Srobj /* 13162eeaed14Srobj * OEM Record. See ction 43.12. 13172eeaed14Srobj */ 13182eeaed14Srobj 13199113a79cSeschrock #define IPMI_SDR_TYPE_OEM 0xC0 13209113a79cSeschrock 13212eeaed14Srobj typedef struct ipmi_sdr_oem { 13222eeaed14Srobj uint8_t is_oem_manufacturer[3]; 13232eeaed14Srobj uint8_t is_oem_data[1]; 13242eeaed14Srobj } ipmi_sdr_oem_t; 13252eeaed14Srobj 13262eeaed14Srobj /* 13272eeaed14Srobj * Iterate over the SDR repository. This function does the work of parsing the 13282eeaed14Srobj * name when available, and keeping the repository in a consistent state. 13292eeaed14Srobj */ 13302eeaed14Srobj extern int ipmi_sdr_iter(ipmi_handle_t *, 13312eeaed14Srobj int (*)(ipmi_handle_t *, const char *, ipmi_sdr_t *, void *), void *); 13322eeaed14Srobj 13339113a79cSeschrock /* 13349113a79cSeschrock * Lookup the given sensor type by name. These functions automatically read in 13359113a79cSeschrock * and cache the complete SDR repository. 13369113a79cSeschrock */ 13372eeaed14Srobj extern ipmi_sdr_t *ipmi_sdr_lookup(ipmi_handle_t *, const char *); 13389113a79cSeschrock extern ipmi_sdr_fru_locator_t *ipmi_sdr_lookup_fru(ipmi_handle_t *, 13399113a79cSeschrock const char *); 13409113a79cSeschrock extern ipmi_sdr_generic_locator_t *ipmi_sdr_lookup_generic(ipmi_handle_t *, 13419113a79cSeschrock const char *); 13422eeaed14Srobj extern ipmi_sdr_compact_sensor_t *ipmi_sdr_lookup_compact_sensor( 13432eeaed14Srobj ipmi_handle_t *, const char *); 13442eeaed14Srobj extern ipmi_sdr_full_sensor_t *ipmi_sdr_lookup_full_sensor( 13452eeaed14Srobj ipmi_handle_t *, const char *); 13462eeaed14Srobj 13472eeaed14Srobj /* 13482eeaed14Srobj * Entity ID codes. See table 43.13. 13492eeaed14Srobj */ 13502eeaed14Srobj #define IPMI_ET_UNSPECIFIED 0x00 13512eeaed14Srobj #define IPMI_ET_OTHER 0x01 13522eeaed14Srobj #define IPMI_ET_UNKNOWN 0x02 13532eeaed14Srobj #define IPMI_ET_PROCESSOR 0x03 13542eeaed14Srobj #define IPMI_ET_DISK 0x04 13552eeaed14Srobj #define IPMI_ET_PERIPHERAL 0x05 13562eeaed14Srobj #define IPMI_ET_MANAGEMENT_MODULE 0x06 13572eeaed14Srobj #define IPMI_ET_MOTHERBOARD 0x07 13582eeaed14Srobj #define IPMI_ET_MEMORY_MODULE 0x08 13592eeaed14Srobj #define IPMI_ET_PROCESSOR_MODULE 0x09 13602eeaed14Srobj #define IPMI_ET_PSU 0x0A 13612eeaed14Srobj #define IPMI_ET_CARD 0x0B 13622eeaed14Srobj #define IPMI_ET_FRONT_PANEL 0x0C 13632eeaed14Srobj #define IPMI_ET_BACK_PANEL 0x0D 13642eeaed14Srobj #define IPMI_ET_POWER_BOARD 0x0E 13652eeaed14Srobj #define IPMI_ET_BACKPLANE 0x0F 13662eeaed14Srobj #define IPMI_ET_EXPANSION_BOARD 0x10 13672eeaed14Srobj #define IPMI_ET_OTHER_BOARD 0x11 13682eeaed14Srobj #define IPMI_ET_PROCESSOR_BOARD 0x12 13692eeaed14Srobj #define IPMI_ET_POWER_DOMAIN 0x13 13702eeaed14Srobj #define IPMI_ET_POWER_CONVERTER 0x14 13712eeaed14Srobj #define IPMI_ET_POWER_MANAGEMENT 0x15 13722eeaed14Srobj #define IPMI_ET_BACK_CHASSIS 0x16 13732eeaed14Srobj #define IPMI_ET_SYSTEM_CHASSIS 0x17 13742eeaed14Srobj #define IPMI_ET_SUB_CHASSIS 0x18 13752eeaed14Srobj #define IPMI_ET_OTHER_CHASSIS 0x19 13762eeaed14Srobj #define IPMI_ET_DISK_BAY 0x1A 13772eeaed14Srobj #define IPMI_ET_PERIPHERAL_BAY 0x1B 13782eeaed14Srobj #define IPMI_ET_DEVICE_BAY 0x1C 13792eeaed14Srobj #define IPMI_ET_FAN 0x1D 13802eeaed14Srobj #define IPMI_ET_COOLING_DOMAIN 0x1E 13812eeaed14Srobj #define IPMI_ET_CABLE 0x1F 13822eeaed14Srobj #define IPMI_ET_MEMORY_DEVICE 0x20 13832eeaed14Srobj #define IPMI_ET_MANAGEMENT_SOFTWARE 0x21 13842eeaed14Srobj #define IPMI_ET_SYSTEM_FIRMWARE 0x22 13852eeaed14Srobj #define IPMI_ET_OS 0x23 13862eeaed14Srobj #define IPMI_ET_SYSTEM_BUS 0x24 13872eeaed14Srobj #define IPMI_ET_GROUP 0x25 13882eeaed14Srobj #define IPMI_ET_REMOTE 0x26 13892eeaed14Srobj #define IPMI_ET_ENVIRONMENT 0x27 13902eeaed14Srobj #define IPMI_ET_BATTERY 0x28 13912eeaed14Srobj #define IPMI_ET_BLADE 0x29 13922eeaed14Srobj #define IPMI_ET_SWITCH 0x2A 13932eeaed14Srobj #define IPMI_ET_PROCMEM_MODULE 0x2B 13942eeaed14Srobj #define IPMI_ET_IO_MODULE 0x2C 13952eeaed14Srobj #define IPMI_ET_PROCIO_MODULE 0x2D 13962eeaed14Srobj #define IPMI_ET_CONTROLLER_FIRMWARE 0x2E 13972eeaed14Srobj #define IPMI_ET_CHANNEL 0x2F 13982eeaed14Srobj #define IPMI_ET_PCI 0x30 13992eeaed14Srobj #define IPMI_ET_PCIE 0x31 14002eeaed14Srobj #define IPMI_ET_SCSI 0x32 14012eeaed14Srobj #define IPMI_ET_SATA_SAS 0x33 14022eeaed14Srobj #define IPMI_ET_FSB 0x34 14032eeaed14Srobj #define IPMI_ET_RTC 0x35 14049113a79cSeschrock 14059113a79cSeschrock /* 14069113a79cSeschrock * Get Sensor Reading. See section 35.14. 14079113a79cSeschrock */ 14089113a79cSeschrock 14099113a79cSeschrock #define IPMI_CMD_GET_SENSOR_READING 0x2d 14109113a79cSeschrock 14119113a79cSeschrock typedef struct ipmi_sensor_reading { 14129113a79cSeschrock uint8_t isr_reading; 14132c32020fSeschrock DECL_BITFIELD4( 14142c32020fSeschrock __reserved1 :5, 14152c32020fSeschrock isr_state_unavailable :1, 14162eeaed14Srobj isr_scanning_enabled :1, 14172eeaed14Srobj isr_event_enabled :1); 14189113a79cSeschrock uint16_t isr_state; 14199113a79cSeschrock } ipmi_sensor_reading_t; 14209113a79cSeschrock 14212eeaed14Srobj #define IPMI_SENSOR_THRESHOLD_LOWER_NONCRIT 0x0001 14222eeaed14Srobj #define IPMI_SENSOR_THRESHOLD_LOWER_CRIT 0x0002 14232eeaed14Srobj #define IPMI_SENSOR_THRESHOLD_LOWER_NONRECOV 0x0004 14242eeaed14Srobj #define IPMI_SENSOR_THRESHOLD_UPPER_NONCRIT 0x0008 14252eeaed14Srobj #define IPMI_SENSOR_THRESHOLD_UPPER_CRIT 0x0010 14262eeaed14Srobj #define IPMI_SENSOR_THRESHOLD_UPPER_NONRECOV 0x0020 14272eeaed14Srobj 14289113a79cSeschrock extern ipmi_sensor_reading_t *ipmi_get_sensor_reading(ipmi_handle_t *, uint8_t); 1429*825ba0f2Srobj extern int ipmi_sdr_conv_reading(ipmi_sdr_full_sensor_t *, uint8_t, 1430*825ba0f2Srobj double *); 14319113a79cSeschrock /* 14329113a79cSeschrock * Set Sensor Reading. See section 35.14. 14339113a79cSeschrock */ 14349113a79cSeschrock #define IPMI_CMD_SET_SENSOR_READING 0x30 14359113a79cSeschrock 14369113a79cSeschrock #define IPMI_SENSOR_OP_CLEAR 0x3 /* clear '0' bits */ 14379113a79cSeschrock #define IPMI_SENSOR_OP_SET 0x2 /* set '1' bits */ 14389113a79cSeschrock #define IPMI_SENSOR_OP_EXACT 0x1 /* set bits exactly */ 14399113a79cSeschrock 14409113a79cSeschrock typedef struct ipmi_set_sensor_reading { 14419113a79cSeschrock uint8_t iss_id; 14422c32020fSeschrock DECL_BITFIELD5( 14432c32020fSeschrock iss_set_reading :1, 14442c32020fSeschrock __reserved :1, 14452c32020fSeschrock iss_deassrt_op :2, 14462c32020fSeschrock iss_assert_op :2, 14472c32020fSeschrock iss_data_bytes :2); 14489113a79cSeschrock uint8_t iss_sensor_reading; 14499113a79cSeschrock uint16_t iss_assert_state; /* optional */ 14509113a79cSeschrock uint16_t iss_deassert_state; /* optional */ 14519113a79cSeschrock uint8_t iss_event_data1; /* optional */ 14529113a79cSeschrock uint8_t iss_event_data2; /* optional */ 14539113a79cSeschrock uint8_t iss_event_data3; /* optional */ 14549113a79cSeschrock } ipmi_set_sensor_reading_t; 14559113a79cSeschrock 14569113a79cSeschrock extern int ipmi_set_sensor_reading(ipmi_handle_t *, 14579113a79cSeschrock ipmi_set_sensor_reading_t *); 14589113a79cSeschrock 14599113a79cSeschrock /* 14604557a2a1Srobj * These IPMI message id/opcodes are documented in Appendix G in the IPMI spec. 14614557a2a1Srobj * 14624557a2a1Srobj * Payloads for these two commands are described in Sections 34.1 and 34.2 of 14634557a2a1Srobj * the spec, respectively. 14644557a2a1Srobj */ 14654557a2a1Srobj #define IPMI_CMD_GET_FRU_INV_AREA 0x10 14664557a2a1Srobj #define IPMI_CMD_READ_FRU_DATA 0x11 14674557a2a1Srobj 14684557a2a1Srobj /* 14694557a2a1Srobj * Structs to hold the FRU Common Header and the FRU Product Info Area, as 14704557a2a1Srobj * described in the IPMI Platform Management FRU Information Storage 14714557a2a1Srobj * Definition (v1.1). 14724557a2a1Srobj */ 14734557a2a1Srobj typedef struct ipmi_fru_hdr 14744557a2a1Srobj { 14754557a2a1Srobj uint8_t ifh_format; 14764557a2a1Srobj uint8_t ifh_int_use_off; 14774557a2a1Srobj uint8_t ifh_chassis_info_off; 14784557a2a1Srobj uint8_t ifh_board_info_off; 14794557a2a1Srobj uint8_t ifh_product_info_off; 14804557a2a1Srobj uint8_t ifh_multi_rec_off; 14814557a2a1Srobj uint8_t ifh_pad; 14824557a2a1Srobj uint8_t ifh_chksum; 14834557a2a1Srobj } ipmi_fru_hdr_t; 14844557a2a1Srobj 14854557a2a1Srobj /* 14864557a2a1Srobj * Because only 6 bits are used to specify the length of each field in the FRU 14874557a2a1Srobj * product and board info areas, the biggest string we would ever need to hold 14884557a2a1Srobj * would be 63 chars plus a NULL. 14894557a2a1Srobj */ 14904557a2a1Srobj #define FRU_INFO_MAXLEN 64 14914557a2a1Srobj 14924557a2a1Srobj typedef struct ipmi_fru_brd_info 14934557a2a1Srobj { 14944557a2a1Srobj char ifbi_manuf_date[3]; 14954557a2a1Srobj char ifbi_manuf_name[FRU_INFO_MAXLEN]; 14964557a2a1Srobj char ifbi_board_name[FRU_INFO_MAXLEN]; 14974557a2a1Srobj char ifbi_product_serial[FRU_INFO_MAXLEN]; 14984557a2a1Srobj char ifbi_part_number[FRU_INFO_MAXLEN]; 14994557a2a1Srobj } ipmi_fru_brd_info_t; 15004557a2a1Srobj 15014557a2a1Srobj typedef struct ipmi_fru_prod_info 15024557a2a1Srobj { 15034557a2a1Srobj char ifpi_manuf_name[FRU_INFO_MAXLEN]; 15044557a2a1Srobj char ifpi_product_name[FRU_INFO_MAXLEN]; 15054557a2a1Srobj char ifpi_part_number[FRU_INFO_MAXLEN]; 15064557a2a1Srobj char ifpi_product_version[FRU_INFO_MAXLEN]; 15074557a2a1Srobj char ifpi_product_serial[FRU_INFO_MAXLEN]; 15084557a2a1Srobj char ifpi_asset_tag[FRU_INFO_MAXLEN]; 15094557a2a1Srobj } ipmi_fru_prod_info_t; 15104557a2a1Srobj 15112eeaed14Srobj extern int ipmi_fru_read(ipmi_handle_t *, ipmi_sdr_fru_locator_t *, char **); 15122eeaed14Srobj extern int ipmi_fru_parse_board(ipmi_handle_t *, char *, ipmi_fru_brd_info_t *); 15132eeaed14Srobj extern int ipmi_fru_parse_product(ipmi_handle_t *, char *, 15142eeaed14Srobj ipmi_fru_prod_info_t *); 15152eeaed14Srobj 15162eeaed14Srobj /* 15172eeaed14Srobj * Routines to convert from entity and sensors defines into text strings. 15182eeaed14Srobj */ 15192eeaed14Srobj void ipmi_entity_name(uint8_t, char *, size_t); 15202eeaed14Srobj void ipmi_sensor_type_name(uint8_t, char *, size_t); 1521*825ba0f2Srobj void ipmi_sensor_units_name(uint8_t, char *, size_t); 15222eeaed14Srobj void ipmi_sensor_reading_name(uint8_t, uint8_t, char *, size_t); 15232eeaed14Srobj 15242eeaed14Srobj /* 15252eeaed14Srobj * Entity management. IPMI has a notion of 'entities', but these are not 15262eeaed14Srobj * directly accessible from any commands. Instead, their existence is inferred 15272eeaed14Srobj * from examining the SDR repository. Since this is rather unwieldy, and 15282eeaed14Srobj * iterating over entities is a common operation, libipmi provides an entity 15292eeaed14Srobj * abstraction that hides the implementation details. This handles entity 15302eeaed14Srobj * groupings as well as SDR associations. 15312eeaed14Srobj */ 15322eeaed14Srobj typedef struct ipmi_entity { 15332eeaed14Srobj uint8_t ie_type; 15342eeaed14Srobj uint8_t ie_instance; 15352eeaed14Srobj uint8_t ie_children; 15362eeaed14Srobj boolean_t ie_logical; 15372eeaed14Srobj } ipmi_entity_t; 15382eeaed14Srobj 15392eeaed14Srobj extern int ipmi_entity_iter(ipmi_handle_t *, int (*)(ipmi_handle_t *, 15402eeaed14Srobj ipmi_entity_t *, void *), void *); 15412eeaed14Srobj extern int ipmi_entity_iter_sdr(ipmi_handle_t *, ipmi_entity_t *, 15422eeaed14Srobj int (*)(ipmi_handle_t *, ipmi_entity_t *, const char *, ipmi_sdr_t *, 15432eeaed14Srobj void *), void *); 15442eeaed14Srobj extern int ipmi_entity_iter_children(ipmi_handle_t *, ipmi_entity_t *, 15452eeaed14Srobj int (*)(ipmi_handle_t *, ipmi_entity_t *, void *), void *); 15462eeaed14Srobj extern ipmi_entity_t *ipmi_entity_lookup(ipmi_handle_t *, uint8_t, 15472eeaed14Srobj uint8_t); 15482eeaed14Srobj extern ipmi_entity_t *ipmi_entity_lookup_sdr(ipmi_handle_t *, const char *); 15492eeaed14Srobj extern ipmi_entity_t *ipmi_entity_parent(ipmi_handle_t *, ipmi_entity_t *); 15502eeaed14Srobj extern int ipmi_entity_present(ipmi_handle_t *, ipmi_entity_t *, boolean_t *); 15512eeaed14Srobj extern int ipmi_entity_present_sdr(ipmi_handle_t *, ipmi_sdr_t *, boolean_t *); 15524557a2a1Srobj 15534557a2a1Srobj /* 15541af98250Seschrock * User management. The raw functions are private to libipmi, and only the 15551af98250Seschrock * higher level abstraction (ipmi_user_t) is exported to consumers of the 15561af98250Seschrock * library. 15571af98250Seschrock */ 15581af98250Seschrock 15591af98250Seschrock #define IPMI_USER_PRIV_CALLBACK 0x1 15601af98250Seschrock #define IPMI_USER_PRIV_USER 0x2 15611af98250Seschrock #define IPMI_USER_PRIV_OPERATOR 0x3 15621af98250Seschrock #define IPMI_USER_PRIV_ADMIN 0x4 15631af98250Seschrock #define IPMI_USER_PRIV_OEM 0x5 15641af98250Seschrock #define IPMI_USER_PRIV_NONE 0xf 15651af98250Seschrock 15661af98250Seschrock typedef struct ipmi_user { 15671af98250Seschrock uint8_t iu_uid; 15681af98250Seschrock char *iu_name; 15691af98250Seschrock boolean_t iu_enabled; 15701af98250Seschrock boolean_t iu_ipmi_msg_enable; 15711af98250Seschrock boolean_t iu_link_auth_enable; 15721af98250Seschrock uint8_t iu_priv; 15731af98250Seschrock } ipmi_user_t; 15741af98250Seschrock 15751af98250Seschrock extern int ipmi_user_iter(ipmi_handle_t *, 15761af98250Seschrock int (*)(ipmi_user_t *, void *), void *); 15771af98250Seschrock extern ipmi_user_t *ipmi_user_lookup_name(ipmi_handle_t *, const char *); 15781af98250Seschrock extern ipmi_user_t *ipmi_user_lookup_id(ipmi_handle_t *, uint8_t); 15791af98250Seschrock extern int ipmi_user_set_password(ipmi_handle_t *, uint8_t, const char *); 15801af98250Seschrock 15811af98250Seschrock /* 15829113a79cSeschrock * The remaining functions are private to the implementation of the Sun ILOM 15839113a79cSeschrock * service processor. These function first check the manufacturer from the IPMI 15849113a79cSeschrock * device ID, and will return EIPMI_NOT_SUPPORTED if attempted for non-Sun 15859113a79cSeschrock * devices. 15869113a79cSeschrock */ 15879113a79cSeschrock 15889113a79cSeschrock /* 15899113a79cSeschrock * Sun OEM LED requests. 15909113a79cSeschrock */ 15919113a79cSeschrock 15929113a79cSeschrock #define IPMI_SUNOEM_LED_MODE_OFF 0 15939113a79cSeschrock #define IPMI_SUNOEM_LED_MODE_ON 1 15949113a79cSeschrock #define IPMI_SUNOEM_LED_MODE_STANDBY 2 15959113a79cSeschrock #define IPMI_SUNOEM_LED_MODE_SLOW 3 15969113a79cSeschrock #define IPMI_SUNOEM_LED_MODE_FAST 4 15979113a79cSeschrock 15989113a79cSeschrock /* 15999113a79cSeschrock * These functions take a SDR record and construct the appropriate form of the 16009113a79cSeschrock * above commands. 16019113a79cSeschrock */ 16029113a79cSeschrock extern int ipmi_sunoem_led_set(ipmi_handle_t *, 16039113a79cSeschrock ipmi_sdr_generic_locator_t *, uint8_t); 16049113a79cSeschrock extern int ipmi_sunoem_led_get(ipmi_handle_t *, 16059113a79cSeschrock ipmi_sdr_generic_locator_t *, uint8_t *); 16069113a79cSeschrock 16079113a79cSeschrock /* 16089113a79cSeschrock * Sun OEM uptime. Note that the underlying command returns the uptime in big 16099113a79cSeschrock * endian form. This wrapper automatically converts to the appropriate native 16109113a79cSeschrock * form. 16119113a79cSeschrock */ 16129113a79cSeschrock 16139113a79cSeschrock #define IPMI_CMD_SUNOEM_UPTIME 0x08 16149113a79cSeschrock 16159113a79cSeschrock extern int ipmi_sunoem_uptime(ipmi_handle_t *, uint32_t *, uint32_t *); 16169113a79cSeschrock 16179113a79cSeschrock /* 16189113a79cSeschrock * Sun OEM FRU update. The FRU information is managed through a generic 16199113a79cSeschrock * identifier, and then a type-specific data portion. The wrapper function will 16209113a79cSeschrock * automatically fill in the data length field according to which type is 16219113a79cSeschrock * specified. 16229113a79cSeschrock */ 16239113a79cSeschrock 16249113a79cSeschrock #define IPMI_CMD_SUNOEM_FRU_UPDATE 0x16 16259113a79cSeschrock 16269113a79cSeschrock #define IPMI_SUNOEM_FRU_DIMM 0x00 16279113a79cSeschrock #define IPMI_SUNOEM_FRU_CPU 0x01 16289113a79cSeschrock #define IPMI_SUNOEM_FRU_BIOS 0x02 16299113a79cSeschrock #define IPMI_SUNOEM_FRU_DISK 0x03 16309113a79cSeschrock 16319113a79cSeschrock typedef struct ipmi_sunoem_fru { 16329113a79cSeschrock uint8_t isf_type; 16339113a79cSeschrock uint8_t isf_id; 16349113a79cSeschrock uint8_t isf_datalen; 16359113a79cSeschrock union { 16369113a79cSeschrock struct { 16379113a79cSeschrock uint8_t isf_data[128]; 16389113a79cSeschrock } dimm; 16399113a79cSeschrock struct { 16409113a79cSeschrock uint32_t isf_thermtrip; 16419113a79cSeschrock uint32_t isf_eax; 16429113a79cSeschrock char isf_product[48]; 16439113a79cSeschrock } cpu; 16449113a79cSeschrock struct { 16459113a79cSeschrock char isf_part[16]; 16469113a79cSeschrock char isf_version[16]; 16479113a79cSeschrock } bios; 16489113a79cSeschrock struct { 16499113a79cSeschrock char isf_manufacturer[16]; 16509113a79cSeschrock char isf_model[28]; 16519113a79cSeschrock char isf_serial[20]; 16529113a79cSeschrock char isf_version[8]; 16539113a79cSeschrock char isf_capacity[16]; 16549113a79cSeschrock } disk; 16559113a79cSeschrock } isf_data; 16569113a79cSeschrock } ipmi_sunoem_fru_t; 16579113a79cSeschrock 16589113a79cSeschrock int ipmi_sunoem_update_fru(ipmi_handle_t *, ipmi_sunoem_fru_t *); 16599113a79cSeschrock 16609113a79cSeschrock #pragma pack() 16619113a79cSeschrock 16629113a79cSeschrock #ifdef __cplusplus 16639113a79cSeschrock } 16649113a79cSeschrock #endif 16659113a79cSeschrock 16669113a79cSeschrock #endif /* _LIBIPMI_H */ 1667