xref: /illumos-gate/usr/src/lib/libipmi/common/libipmi.h (revision 66582b606a8194f7f3ba5b3a3a6dca5b0d346361)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved.
23  * Copyright (c) 2018, Joyent, Inc. All rights reserved.
24  */
25 
26 #ifndef	_LIBIPMI_H
27 #define	_LIBIPMI_H
28 
29 #include <sys/byteorder.h>
30 #include <sys/nvpair.h>
31 #include <sys/sysmacros.h>
32 
33 /*
34  * Private interfaces for communicating with attached services over IPMI.  This
35  * library is designed for system software communicating with Illumos-supported
36  * service processors over /dev/ipmi0.  It is not a generic IPMI library.
37  *
38  * Documentation references refer to "Intelligent Platform Management Interface
39  * Specification Second Generation v2.0", document revision 1.0 with Februrary
40  * 15, 2006 Markup from "IPMI v2.0 Addenda, Errata, and Clarifications Revision
41  * 3".
42  */
43 
44 #ifdef	__cplusplus
45 extern "C" {
46 #endif
47 
48 typedef struct ipmi_handle ipmi_handle_t;
49 
50 #pragma pack(1)
51 
52 /*
53  * Basic netfn definitions.  See section 5.1.
54  */
55 #define	IPMI_NETFN_CHASSIS		0x0
56 #define	IPMI_NETFN_BRIDGE		0x2
57 #define	IPMI_NETFN_SE			0x4
58 #define	IPMI_NETFN_APP			0x6
59 #define	IPMI_NETFN_FIRMWARE		0x8
60 #define	IPMI_NETFN_STORAGE		0xa
61 #define	IPMI_NETFN_TRANSPORT		0x0C
62 #define	IPMI_NETFN_OEM			0x2e
63 
64 /*
65  * Error definitions
66  */
67 #define	EIPMI_BASE	2000
68 
69 typedef enum {
70 	EIPMI_NOMEM = EIPMI_BASE,	/* memory allocation failure */
71 	EIPMI_BMC_OPEN_FAILED,		/* failed to open /dev/ipmi0 */
72 	EIPMI_BMC_PUTMSG,	/* failed to send message to /dev/ipmi0 */
73 	EIPMI_BMC_GETMSG,	/* failed to read response from /dev/ipmi0 */
74 	EIPMI_BMC_RESPONSE,		/* response from /dev/ipmi0 failed */
75 	EIPMI_INVALID_COMMAND,		/* invalid command */
76 	EIPMI_COMMAND_TIMEOUT,		/* command timeout */
77 	EIPMI_DATA_LENGTH_EXCEEDED,	/* maximum data length exceeded */
78 	EIPMI_SEND_FAILED,		/* failed to send BMC request */
79 	EIPMI_UNSPECIFIED,		/* unspecified BMC error */
80 	EIPMI_UNKNOWN,			/* unknown error */
81 	EIPMI_BAD_RESPONSE,		/* received unexpected response */
82 	EIPMI_BAD_RESPONSE_LENGTH,	/* unexpected response length */
83 	EIPMI_INVALID_RESERVATION,	/* invalid or cancelled reservation */
84 	EIPMI_NOT_PRESENT,		/* requested entity not present */
85 	EIPMI_INVALID_REQUEST,		/* malformed request data */
86 	EIPMI_BUSY,			/* service processor is busy */
87 	EIPMI_NOSPACE,			/* service processor is out of space */
88 	EIPMI_UNAVAILABLE,		/* service processor is unavailable */
89 	EIPMI_ACCESS,			/* insufficient privileges */
90 	EIPMI_BADPARAM,			/* parameter is not supported */
91 	EIPMI_READONLY,			/* attempt to write read-only param */
92 	EIPMI_WRITEONLY,		/* attempt to read write-only param */
93 	EIPMI_LAN_OPEN_FAILED,		/* failed to open socket */
94 	EIPMI_LAN_PING_FAILED,		/* RMCP Ping message failed */
95 	EIPMI_LAN_PASSWD_NOTSUP, /* password authentication not supported */
96 	EIPMI_LAN_CHALLENGE,		/* failure getting challenge */
97 	EIPMI_LAN_SESSION,		/* failure activating session */
98 	EIPMI_LAN_SETPRIV		/* failure setting session privs */
99 } ipmi_errno_t;
100 
101 /*
102  * Basic library functions.
103  *
104  * The ipmi_handle is the primary interface to the library.  The library itself
105  * is not MT-safe, but it is safe within a single handle.  Multithreaded clients
106  * should either open multiple handles, or otherwise synchronize access to the
107  * same handle.
108  *
109  * There is a single command response buffer that is stored with the handle, to
110  * simplify memory management in the caller.  The memory referenced by a command
111  * response is only valid until the next command is issued.  The caller is
112  * responsible for making a copy of the response if it is needed.
113  */
114 extern ipmi_handle_t *ipmi_open(int *, char **, uint_t xport_type, nvlist_t *);
115 
116 /*
117  * Constants for nvpair names for the params nvlist that is passed to
118  * ipmi_open().  If the IPMI_TRANSPORT_BMC is desired, then it is sufficient
119  * to just specify NULL for the params nvlist.
120  *
121  * For IPMI_TRANSPORT_LAN, the params nvlist must contain the following
122  * nvpairs:
123  *
124  * IPMI_LAN_HOST, IPMI_LAN_USER, IPMI_LAN_PASSWD
125  *
126  * IPMI_LAN_PORT is optional and will default to 623
127  * IPMI_LAN_PRIVLVL is optional and will default to admin
128  * IPMI_LAN_TIMEOUT is optional and will default to 3 seconds
129  * IPMI_LAN_NUM_RETIES is optional and will default to 5
130  */
131 #define	IPMI_TRANSPORT_TYPE	"transport-type"
132 #define	IPMI_TRANSPORT_BMC	0x01
133 #define	IPMI_TRANSPORT_LAN	0x02
134 
135 #define	IPMI_LAN_HOST		"lan-host"
136 #define	IPMI_LAN_PORT		"lan-port"
137 #define	IPMI_LAN_USER		"lan-user"
138 #define	IPMI_LAN_PASSWD		"lan-passwd"
139 #define	IPMI_LAN_PRIVLVL	"lan-privlvl"
140 #define	IPMI_LAN_TIMEOUT	"lan-timeout"
141 #define	IPMI_LAN_NUM_RETRIES	"lan-num-retries"
142 
143 extern void ipmi_close(ipmi_handle_t *);
144 
145 extern int ipmi_errno(ipmi_handle_t *);
146 extern const char *ipmi_errmsg(ipmi_handle_t *);
147 
148 /*
149  * Raw requests.  See section 5.
150  */
151 typedef struct ipmi_cmd {
152 	uint8_t		ic_netfn:6;
153 	uint8_t		ic_lun:2;
154 	uint8_t		ic_cmd;
155 	uint16_t	ic_dlen;
156 	void		*ic_data;
157 } ipmi_cmd_t;
158 
159 extern ipmi_cmd_t *ipmi_send(ipmi_handle_t *, ipmi_cmd_t *);
160 
161 /*
162  * Retrieve basic information about the IPMI device.  See section 20.1 "Get
163  * Device ID Command".
164  */
165 #define	IPMI_CMD_GET_DEVICEID		0x01
166 
167 typedef struct ipmi_deviceid {
168 	uint8_t		id_devid;
169 	DECL_BITFIELD3(
170 	    id_dev_rev		:4,
171 	    __reserved		:3,
172 	    id_dev_sdrs		:1);
173 	DECL_BITFIELD2(
174 	    id_firm_major	:7,
175 	    id_dev_available	:1);
176 	uint8_t		id_firm_minor;
177 	uint8_t		id_ipmi_rev;
178 	uint8_t		id_dev_support;
179 	uint8_t		id_manufacturer[3];
180 	uint8_t		id_product[2];
181 } ipmi_deviceid_t;
182 
183 #define	IPMI_OEM_SUN		0x2a
184 #define	IPMI_PROD_SUN_ILOM	0x4701
185 
186 ipmi_deviceid_t *ipmi_get_deviceid(ipmi_handle_t *);
187 
188 #define	ipmi_devid_manufacturer(dp)		\
189 	((dp)->id_manufacturer[0] |		\
190 	((dp)->id_manufacturer[1] << 8) |	\
191 	((dp)->id_manufacturer[2] << 16))
192 
193 #define	ipmi_devid_product(dp)		\
194 	((dp)->id_product[0] |		\
195 	((dp)->id_product[1] << 8))
196 
197 const char *ipmi_firmware_version(ipmi_handle_t *);
198 
199 /*
200  * Get Channel Auth Caps.  See section 22.13.
201  */
202 typedef struct ipmi_channel_auth_caps {
203 	uint8_t cap_channel;
204 	DECL_BITFIELD3(
205 	    cap_authtype	:6,
206 	    __reserved1		:1,
207 	    cap_ipmirev2	:1);
208 	DECL_BITFIELD5(
209 	    cap_anon		:3,
210 	    cap_peruser		:1,
211 	    cap_permesg		:1,
212 	    cap_kgstatus	:1,
213 	    __reserved2		:2);
214 	uint8_t cap_ext;
215 	uint8_t cap_oemid[3];
216 	uint8_t cap_oemaux;
217 } ipmi_channel_auth_caps_t;
218 
219 #define	IPMI_CMD_GET_CHANNEL_AUTH_CAPS	0x38
220 extern ipmi_channel_auth_caps_t *ipmi_get_channel_auth_caps(ipmi_handle_t *,
221     uint8_t, uint8_t);
222 
223 /*
224  * Get Channel Info.  See section 22.24.
225  */
226 typedef struct ipmi_channel_info {
227 	DECL_BITFIELD2(
228 	    ici_number		:4,
229 	    __reserved1		:4);
230 	DECL_BITFIELD2(
231 	    ici_medium		:7,
232 	    __reserved2		:1);
233 	DECL_BITFIELD2(
234 	    ici_protocol	:5,
235 	    __reserved3		:3);
236 	DECL_BITFIELD3(
237 	    ici_session_count	:6,
238 	    ici_single_session	:1,
239 	    ici_multi_Session	:1);
240 	uint8_t		ici_vendor[3];
241 	uint8_t		ici_auxinfo[2];
242 } ipmi_channel_info_t;
243 
244 #define	IPMI_CMD_GET_CHANNEL_INFO	0x42
245 
246 /*
247  * Channel Numbers.  See section 6.3.
248  */
249 #define	IPMI_CHANNEL_PRIMARY		0x0
250 #define	IPMI_CHANNEL_MIN		0x1
251 #define	IPMI_CHANNEL_MAX		0xB
252 #define	IPMI_CHANNEL_CURRENT		0xE
253 #define	IPMI_CHANNEL_SYSTEM		0xF
254 
255 extern ipmi_channel_info_t *ipmi_get_channel_info(ipmi_handle_t *, int);
256 
257 /*
258  * Channel Protocol Types.  See section 6.4.
259  */
260 #define	IPMI_PROTOCOL_IPMB		0x1
261 #define	IPMI_PROTOCOL_ICMB		0x2
262 #define	IPMI_PROTOCOL_SMBUS		0x4
263 #define	IPMI_PROTOCOL_KCS		0x5
264 #define	IPMI_PROTOCOL_SMIC		0x6
265 #define	IPMI_PROTOCOL_BT10		0x7
266 #define	IPMI_PROTOCOL_BT15		0x8
267 #define	IPMI_PROTOCOL_TMODE		0x9
268 #define	IPMI_PROTOCOL_OEM1		0xC
269 #define	IPMI_PROTOCOL_OEM2		0xD
270 #define	IPMI_PROTOCOL_OEM3		0xE
271 #define	IPMI_PROTOCOL_OEM4		0xF
272 
273 /*
274  * Channel Medium Types.  See section 6.5.
275  */
276 #define	IPMI_MEDIUM_IPMB		0x1
277 #define	IPMI_MEDIUM_ICMB10		0x2
278 #define	IPMI_MEDIUM_ICMB09		0x3
279 #define	IPMI_MEDIUM_8023LAN		0x4
280 #define	IPMI_MEDIUM_RS232		0x5
281 #define	IPMI_MEDIUM_OTHERLAN		0x6
282 #define	IPMI_MEDIUM_PCISMBUS		0x7
283 #define	IPMI_MEDIUM_SMBUS10		0x8
284 #define	IPMI_MEDIUM_SMBUS20		0x9
285 #define	IPMI_MEDIUM_USB1		0xA
286 #define	IPMI_MEDIUM_USB2		0xB
287 #define	IPMI_MEDIUM_SYSTEM		0xC
288 
289 /*
290  * LAN Configuration.  See section 23.  While the underlying mechanism is
291  * implemented via a sequence of get/set parameter commands, we assume that
292  * consumers prefer to get and set information in chunks, and therefore expose
293  * the configuration as a structure, with some of the less useful fields
294  * removed.  When making changes, the consumer specifies which fields to apply
295  * along with the structure the library takes care of the rest of the work.
296  *
297  * This can be expanded in the future as needed.
298  */
299 
300 typedef struct ipmi_lan_config {
301 	boolean_t	ilc_set_in_progress;
302 	uint32_t	ilc_ipaddr;
303 	uint8_t		ilc_ipaddr_source;
304 	uint8_t		ilc_macaddr[6];
305 	uint32_t	ilc_subnet;
306 	uint32_t	ilc_gateway_addr;
307 } ipmi_lan_config_t;
308 
309 #define	IPMI_LAN_SRC_UNSPECIFIED	0x0
310 #define	IPMI_LAN_SRC_STATIC		0x1
311 #define	IPMI_LAN_SRC_DHCP		0x2
312 #define	IPMI_LAN_SRC_BIOS		0x3
313 #define	IPMI_LAN_SRC_OTHER		0x4
314 
315 #define	IPMI_LAN_SET_IPADDR		0x01
316 #define	IPMI_LAN_SET_IPADDR_SOURCE	0x02
317 #define	IPMI_LAN_SET_MACADDR		0x04
318 #define	IPMI_LAN_SET_SUBNET		0x08
319 #define	IPMI_LAN_SET_GATEWAY_ADDR	0x10
320 
321 #define	IPMI_CMD_SET_LAN_CONFIG		0x01
322 #define	IPMI_CMD_GET_LAN_CONFIG		0x02
323 
324 extern int ipmi_lan_get_config(ipmi_handle_t *, int,
325     ipmi_lan_config_t *);
326 extern int ipmi_lan_set_config(ipmi_handle_t *, int, ipmi_lan_config_t *, int);
327 
328 /*
329  * SEL (System Event Log) commands.  Currently the library only provides
330  * commands for reading the SEL.
331  */
332 
333 /*
334  * 31.2 Get SEL Info Command
335  */
336 #define	IPMI_CMD_GET_SEL_INFO		0x40
337 
338 typedef struct ipmi_sel_info {
339 	uint8_t		isel_version;
340 	uint16_t	isel_entries;
341 	uint16_t	isel_free;
342 	uint32_t	isel_add_ts;
343 	uint32_t	isel_erase_ts;
344 	DECL_BITFIELD6(
345 	    isel_supp_allocation	:1,
346 	    isel_supp_reserve		:1,
347 	    isel_supp_partial		:1,
348 	    isel_supp_delete		:1,
349 	    __reserved			:3,
350 	    isel_overflow		:1);
351 } ipmi_sel_info_t;
352 
353 extern ipmi_sel_info_t *ipmi_sel_get_info(ipmi_handle_t *);
354 extern boolean_t ipmi_sdr_changed(ipmi_handle_t *);
355 extern int ipmi_sdr_refresh(ipmi_handle_t *);
356 
357 /*
358  * 32.1 SEL Event Records
359  */
360 typedef struct ipmi_sel_event {
361 	uint16_t	isel_ev_next;
362 	uint16_t	isel_ev_recid;
363 	uint8_t		isel_ev_rectype;
364 	uint32_t	isel_ev_ts;
365 	DECL_BITFIELD2(
366 	    isel_ev_software	:1,
367 	    isel_ev_addr_or_id	:7);
368 	DECL_BITFIELD3(
369 	    isel_ev_lun		:2,
370 	    __reserved		:2,
371 	    isel_ev_channel	:4);
372 	uint8_t		isel_ev_rev;
373 	uint8_t		isel_ev_sensor_type;
374 	uint8_t		isel_ev_sensor_number;
375 	DECL_BITFIELD2(
376 	    isel_ev_type	:7,
377 	    isel_ev_dir		:1);
378 	uint8_t		isel_ev_data[3];
379 } ipmi_sel_event_t;
380 
381 #define	IPMI_EV_REV15		0x04
382 #define	IPMI_EV_REV1		0x03
383 
384 #define	IPMI_SEL_SYSTEM		0x02
385 #define	IPMI_SEL_OEMTS_LO	0xC0
386 #define	IPMI_SEL_OEMTS_HI	0xDF
387 #define	IPMI_SEL_OEM_LO		0xE0
388 #define	IPMI_SEL_OEM_HI		0xFF
389 
390 #define	IPMI_EV_ASSERT		0x0
391 #define	IPMI_EV_DEASSERT	0x1
392 
393 /*
394  * 32.2 OEM SEL Record (with timestamp)
395  */
396 typedef struct ipmi_sel_oem_ts {
397 	uint16_t	isel_oem_next;
398 	uint16_t	isel_oem_id;
399 	uint8_t		isel_oem_type;
400 	uint32_t	isel_oem_ts;
401 	uint8_t		isel_oem_devid[3];
402 	uint8_t		isel_oem_data[6];
403 } ipmi_sel_oem_ts_t;
404 
405 /*
406  * 32.3 OEM SEL Record (no timestamp)
407  */
408 typedef struct ipmi_sel_oem {
409 	uint16_t	isel_oem_next;
410 	uint16_t	isel_oem_id;
411 	uint8_t		isel_oem_type;
412 	uint8_t		isel_oem_data[13];
413 } ipmi_sel_oem_t;
414 
415 /*
416  * 29.3 Platform Event Message Command.
417  */
418 typedef struct ipmi_platform_event_message {
419 	uint8_t		ipem_generator;
420 	uint8_t		ipem_rev;
421 	uint8_t		ipem_sensor_type;
422 	uint8_t		ipem_sensor_num;
423 	DECL_BITFIELD2(
424 	    ipem_event_type	:7,
425 	    ipem_event_dir	:1);
426 	uint8_t		ipem_event_data[3];
427 } ipmi_platform_event_message_t;
428 
429 #define	IPMI_CMD_PLATFORM_EVENT_MESSAGE	0x02
430 
431 extern int ipmi_event_platform_message(ipmi_handle_t *,
432     ipmi_platform_event_message_t *);
433 
434 /*
435  * 29.7 Event Data Field Formats.  Consumers can cast the data field of the
436  * event record to the appropriate type depending on the sensor class.
437  */
438 
439 typedef struct ipmi_event_threshold {
440 	DECL_BITFIELD3(
441 	    iev_offset		:4,
442 	    iev_desc_byte3	:2,
443 	    iev_desc_byte2	:2);
444 	uint8_t		iev_reading;
445 	uint8_t		iev_threshold;
446 } ipmi_event_threshold_t;
447 
448 #define	IPMI_EV_DESC_UNSPECIFIED	0x00
449 #define	IPMI_EV_DESC_TRIGGER		0x01
450 #define	IPMI_EV_DESC_OEM		0x02
451 #define	IPMI_EV_DESC_SPECIFIC		0x03
452 
453 typedef struct ipmi_event_discrete {
454 	DECL_BITFIELD3(
455 	    iev_offset		:4,
456 	    iev_desc_byte3	:2,
457 	    iev_desc_byte2	:2);
458 	DECL_BITFIELD2(
459 	    iev_offset_type	:4,
460 	    iev_offset_severity	:4);
461 	uint8_t		iev_oem_code;
462 } ipmi_event_discrete_t;
463 
464 #define	IPMI_EV_DESC_PREVSTATE		0x01
465 #define	IPMI_EV_DESC_SPECIFIC		0x03
466 
467 typedef struct ipmi_event_oem {
468 	DECL_BITFIELD3(
469 	    iev_offset		:4,
470 	    iev_desc_byte3	:2,
471 	    iev_desc_byte2	:2);
472 	DECL_BITFIELD2(
473 	    iev_offset_type	:4,
474 	    iev_offset_severity	:4);
475 	uint8_t		iev_oem_code;
476 } ipmi_event_oem_t;
477 
478 /*
479  * Get SEL Entry Command.  See section 31.5.  We don't support partial reads, so
480  * this interface is quite a bit simpler than in the spec.  We default to
481  * returning event records, though the consumer should check the type field and
482  * cast it to the appropriate type if it is no IPMI_SEL_SYSTEM.
483  */
484 #define	IPMI_CMD_GET_SEL_ENTRY		0x43
485 
486 extern ipmi_sel_event_t *ipmi_sel_get_entry(ipmi_handle_t *, uint16_t);
487 
488 #define	IPMI_SEL_FIRST_ENTRY		0x0000
489 #define	IPMI_SEL_LAST_ENTRY		0xFFFF
490 
491 /*
492  * SEL time management.  See sections 31.10 and 31.11.
493  */
494 #define	IPMI_CMD_GET_SEL_TIME		0x48
495 #define	IPMI_CMD_SET_SEL_TIME		0x49
496 #define	IPMI_CMD_GET_SEL_UTC_OFFSET	0x5C
497 #define	IPMI_CMD_SET_SEL_UTC_OFFSET	0x5D
498 
499 extern int ipmi_sel_get_time(ipmi_handle_t *, uint32_t *);
500 extern int ipmi_sel_set_time(ipmi_handle_t *, uint32_t);
501 extern int ipmi_sel_get_utc_offset(ipmi_handle_t *, int *);
502 extern int ipmi_sel_set_utc_offset(ipmi_handle_t *, int);
503 
504 /*
505  * SDR (Sensor Device Record) requests.  A cache of the current SDR repository
506  * is kept as part of the IPMI handle and updated when necessary.  This does the
507  * work of processing the SDR names and providing an easy way to lookup
508  * individual records and iterate over all records.
509  */
510 
511 /*
512  * Get SDR Repository Info Command.  See section 33.9.
513  */
514 #define	IPMI_CMD_GET_SDR_INFO		0x20
515 
516 typedef struct ipmi_sdr_info {
517 	uint8_t		isi_version;
518 	uint16_t	isi_record_count;
519 	uint16_t	isi_free_space;
520 	uint32_t	isi_add_ts;
521 	uint32_t	isi_erase_ts;
522 	DECL_BITFIELD7(
523 	    isi_supp_allocation		:1,
524 	    isi_supp_reserve		:1,
525 	    isi_supp_partial		:1,
526 	    isi_supp_delete		:1,
527 	    __reserved			:1,
528 	    isi_modal			:2,
529 	    isi_overflow		:1);
530 } ipmi_sdr_info_t;
531 
532 extern ipmi_sdr_info_t *ipmi_sdr_get_info(ipmi_handle_t *);
533 
534 /*
535  * Reserve repository command.  See section 33.11.
536  */
537 #define	IPMI_CMD_RESERVE_SDR_REPOSITORY	0x22
538 
539 /*
540  * Get SDR command.  See section 33.12.  This command accesses the raw SDR
541  * repository.  Clients can also use the lookup functions to retrieve a
542  * particular SDR record by name.
543  *
544  * The list of possible types is indicated in the sub-chapters of section 43.
545  */
546 typedef struct ipmi_sdr {
547 	uint16_t	is_id;
548 	uint8_t		is_version;
549 	uint8_t		is_type;
550 	uint8_t		is_length;
551 	uint8_t		is_record[1];
552 } ipmi_sdr_t;
553 #define	IPMI_CMD_GET_SDR		0x23
554 
555 #define	IPMI_SDR_FIRST			0x0000
556 #define	IPMI_SDR_LAST			0xFFFF
557 
558 extern ipmi_sdr_t *ipmi_sdr_get(ipmi_handle_t *, uint16_t, uint16_t *);
559 
560 /*
561  * Full Sensor Record.  See 43.1
562  */
563 #define	IPMI_SDR_TYPE_FULL_SENSOR		0x01
564 
565 typedef struct ipmi_sdr_full_sensor {
566 	/* RECORD KEY BYTES */
567 	uint8_t		is_fs_owner;
568 	DECL_BITFIELD3(
569 	    is_fs_sensor_lun			:2,
570 	    __reserved1				:2,
571 	    is_fs_channel			:4);
572 	uint8_t		is_fs_number;
573 	/* RECORD BODY BYTES */
574 	uint8_t		is_fs_entity_id;
575 	DECL_BITFIELD2(
576 	    is_fs_entity_instance		:7,
577 	    is_fs_entity_logical		:1);
578 	DECL_BITFIELD8(
579 	    is_fs_sensor_scanning_enabled	:1,
580 	    is_fs_event_generation_enabled	:1,
581 	    is_fs_init_sensor_type		:1,
582 	    is_fs_init_hysteresis		:1,
583 	    is_fs_init_thresholds		:1,
584 	    is_fs_init_events			:1,
585 	    is_fs_init_scanning			:1,
586 	    is_fs_settable			:1);
587 	DECL_BITFIELD5(
588 	    is_fs_event_support			:2,
589 	    is_fs_threshold_support		:2,
590 	    is_fs_hysteresis_support		:2,
591 	    is_fs_rearm_support			:1,
592 	    is_fs_ignore			:1);
593 	uint8_t		is_fs_type;
594 	uint8_t		is_fs_reading_type;
595 	uint16_t	is_fs_assert_mask;
596 	uint16_t	is_fs_deassert_mask;
597 	uint16_t	is_fs_reading_mask;
598 	DECL_BITFIELD4(
599 	    is_fs_units_isprcnt			:1,
600 	    is_fs_mod_unit			:2,
601 	    is_fs_rate_unit			:3,
602 	    is_fs_analog_fmt			:2);
603 	uint8_t		is_fs_unit2;
604 	uint8_t		is_fs_unit3;
605 	/* Linearization */
606 	DECL_BITFIELD2(
607 	    is_fs_sensor_linear_type		:7,
608 	    __reserved2				:1);
609 	/* M, Tolerance */
610 	uint16_t	is_fs_mtol;
611 	/* B, Accuracy, R exp, B exp */
612 	uint32_t	is_fs_bacc;
613 	DECL_BITFIELD4(
614 	    is_fs_nominal_reading_spec		:1,
615 	    is_fs_normal_max_spec		:1,
616 	    is_fs_normal_min_spec		:1,
617 	    __reserved3				:5);
618 	uint8_t	is_fs_nominal_reading;
619 	uint8_t	is_fs_normal_maximum;
620 	uint8_t	is_fs_normal_minimum;
621 	uint8_t	is_fs_max;
622 	uint8_t	is_fs_min;
623 	uint8_t is_fs_upper_nonrecov;
624 	uint8_t	is_fs_upper_critical;
625 	uint8_t	is_fs_upper_noncrit;
626 	uint8_t	is_fs_lower_nonrecov;
627 	uint8_t	is_fs_lower_critical;
628 	uint8_t	is_fs_lower_noncrit;
629 	uint8_t		is_fs_hysteresis_positive;
630 	uint8_t		is_fs_hysteresis_negative;
631 	uint16_t	__reserved4;
632 	uint8_t		is_fs_oem;
633 	DECL_BITFIELD3(
634 	    is_fs_idlen				:5,
635 	    __reserved5				:1,
636 	    is_fs_idtype			:2);
637 	char		is_fs_idstring[1];
638 } ipmi_sdr_full_sensor_t;
639 
640 #define	IPMI_SDR_TYPE_COMPACT_SENSOR		0x02
641 
642 /*
643  * Compact Sensor Record.  See section 43.2
644  */
645 typedef struct ipmi_sdr_compact_sensor {
646 	/* RECORD KEY BYTES */
647 	uint8_t		is_cs_owner;
648 	DECL_BITFIELD3(
649 	    is_cs_sensor_lun			:2,
650 	    is_cs_fru_lun			:2,
651 	    is_cs_channel			:4);
652 	uint8_t		is_cs_number;
653 	/* RECORD BODY BYTES */
654 	uint8_t		is_cs_entity_id;
655 	DECL_BITFIELD2(
656 	    is_cs_entity_instance		:7,
657 	    is_cs_entity_logical		:1);
658 	DECL_BITFIELD8(
659 	    is_cs_sensor_scanning_enabled	:1,
660 	    is_cs_event_generation_enabled	:1,
661 	    is_cs_init_sensor_type		:1,
662 	    is_cs_init_hysteresis		:1,
663 	    __reserved1				:1,
664 	    is_cs_init_events			:1,
665 	    is_cs_init_scanning			:1,
666 	    is_cs_settable			:1);
667 	DECL_BITFIELD5(
668 	    is_cs_event_support			:2,
669 	    is_cs_threshold_support		:2,
670 	    is_cs_hysteresis_support		:2,
671 	    is_cs_rearm_support			:1,
672 	    is_cs_ignore			:1);
673 	uint8_t		is_cs_type;
674 	uint8_t		is_cs_reading_type;
675 	uint16_t	is_cs_assert_mask;
676 	uint16_t	is_cs_deassert_mask;
677 	uint16_t	is_cs_reading_mask;
678 	DECL_BITFIELD4(
679 	    is_cs_units_isprcnt			:1,
680 	    is_cs_mod_unit			:2,
681 	    is_cs_rate_unit			:3,
682 	    __reserved2				:2);
683 	uint8_t		is_cs_unit2;
684 	uint8_t		is_cs_unit3;
685 	DECL_BITFIELD3(
686 	    is_cs_share_count			:4,
687 	    is_cs_modifier_type			:2,
688 	    is_cs_direction			:2);
689 	DECL_BITFIELD2(
690 	    is_cs_modifier_offset		:7,
691 	    is_cs_sharing			:1);
692 	uint8_t		is_cs_hysteresis_positive;
693 	uint8_t		is_cs_hysteresis_negative;
694 	uint16_t	__reserved3;
695 	uint8_t		__reserved4;
696 	uint8_t		is_cs_oem;
697 	DECL_BITFIELD3(
698 	    is_cs_idlen				:5,
699 	    __reserved5				:1,
700 	    is_cs_idtype			:2);
701 	char		is_cs_idstring[1];
702 } ipmi_sdr_compact_sensor_t;
703 
704 /*
705  * Threshold sensor masks for is_cs_assert_mask and is_cs_deassert_mask.
706  */
707 #define	IPMI_SENSOR_RETURN_NONRECOV	0x4000
708 #define	IPMI_SENSOR_RETURN_CRIT		0x2000
709 #define	IPMI_SENSOR_RETURN_NONCRIT	0x1000
710 
711 #define	IPMI_SENSOR_MASK_UPPER_NONRECOV_HI	0x0800
712 #define	IPMI_SENSOR_MASK_UPPER_NONRECOV_LO	0x0400
713 #define	IPMI_SENSOR_MASK_UPPER_CRIT_HI		0x0200
714 #define	IPMI_SENSOR_MASK_UPPER_CRIT_LO		0x0100
715 #define	IPMI_SENSOR_MASK_UPPER_NONCRIT_HI	0x0080
716 #define	IPMI_SENSOR_MASK_UPPER_NONCRIT_LO	0x0040
717 #define	IPMI_SENSOR_MASK_LOWER_NONRECOV_HI	0x0020
718 #define	IPMI_SENSOR_MASK_LOWER_NONRECOV_LO	0x0010
719 #define	IPMI_SENSOR_MASK_LOWER_CRIT_HI		0x0008
720 #define	IPMI_SENSOR_MASK_LOWER_CRIT_LO		0x0004
721 #define	IPMI_SENSOR_MASK_LOWER_NONCRIT_HI	0x0002
722 #define	IPMI_SENSOR_MASK_LOWER_NONCRIT_LO	0x0001
723 
724 /*
725  * Threshold sensor masks for is_cs_reading_mask.
726  */
727 #define	IPMI_SENSOR_SETTABLE_UPPER_NONRECOV	0x2000
728 #define	IPMI_SENSOR_SETTABLE_UPPER_CRIT		0x1000
729 #define	IPMI_SENSOR_SETTABLE_UPPER_NONCRIT	0x0800
730 #define	IPMI_SENSOR_SETTABLE_LOWER_NONRECOV	0x0400
731 #define	IPMI_SENSOR_SETTABLE_LOWER_CRIT		0x0200
732 #define	IPMI_SENSOR_SETTABLE_LOWER_NONCRIT	0x0100
733 #define	IPMI_SENSOR_READABLE_UPPER_NONRECOV	0x0020
734 #define	IPMI_SENSOR_READABLE_UPPER_CRIT		0x0010
735 #define	IPMI_SENSOR_READABLE_UPPER_NONCRIT	0x0008
736 #define	IPMI_SENSOR_READABLE_LOWER_NONRECOV	0x0004
737 #define	IPMI_SENSOR_READABLE_LOWER_CRIT		0x0002
738 #define	IPMI_SENSOR_READABLE_LOWER_NONCRIT	0x0001
739 
740 /*
741  * Values for is_cs_reading_type.  See table 42-2.
742  */
743 #define	IPMI_RT_THRESHOLD			0x01
744 #define	IPMI_RT_USAGE				0x02
745 #define	IPMI_RT_STATE				0x03
746 #define	IPMI_RT_PREDFAIL			0x04
747 #define	IPMI_RT_LIMIT				0x05
748 #define	IPMI_RT_PERFORMANCE			0x06
749 #define	IPMI_RT_SEVERITY			0x07
750 #define	IPMI_RT_PRESENT				0x08
751 #define	IPMI_RT_ENABLED				0x09
752 #define	IPMI_RT_AVAILABILITY			0x0A
753 #define	IPMI_RT_REDUNDANCY			0x0B
754 #define	IPMI_RT_ACPI				0x0C
755 #define	IPMI_RT_SPECIFIC			0x6F
756 
757 /*
758  * Bitmasks based on above reading types.  See table 42-2
759  */
760 #define	IPMI_SR_THRESHOLD_LOWER_NONCRIT_LOW	0x0001
761 #define	IPMI_SR_THRESHOLD_LOWER_NONCRIT_HIGH	0x0002
762 #define	IPMI_SR_THRESHOLD_LOWER_CRIT_LOW	0x0004
763 #define	IPMI_SR_THRESHOLD_LOWER_CRIT_HIGH	0x0008
764 #define	IPMI_SR_THRESHOLD_LOWER_NONRECOV_LOW	0x0010
765 #define	IPMI_SR_THRESHOLD_LOWER_NONRECOV_HIGH	0x0020
766 #define	IPMI_SR_THRESHOLD_UPPER_NONCRIT_LOW	0x0040
767 #define	IPMI_SR_THRESHOLD_UPPER_NONCRIT_HIGH	0x0080
768 #define	IPMI_SR_THRESHOLD_UPPER_CRIT_LOW	0x0100
769 #define	IPMI_SR_THRESHOLD_UPPER_CRIT_HIGH	0x0200
770 #define	IPMI_SR_THRESHOLD_UPPER_NONRECOV_LOW	0x0400
771 #define	IPMI_SR_THRESHOLD_UPPER_NONRECOV_HIGH	0x0800
772 
773 #define	IPMI_SR_USAGE_IDLE			0x0001
774 #define	IPMI_SR_USAGE_ACTIVE			0x0002
775 #define	IPMI_SR_USAGE_BUSY			0x0004
776 
777 #define	IPMI_SR_STATE_DEASSERT			0x0001
778 #define	IPMI_SR_STATE_ASSERT			0x0002
779 
780 #define	IPMI_SR_PREDFAIL_DEASSERT		0x0001
781 #define	IPMI_SR_PREDFAIL_ASSERT			0x0002
782 
783 #define	IPMI_SR_LIMIT_NOTEXCEEDED		0x0001
784 #define	IPMI_SR_LIMIT_EXCEEDED			0x0002
785 
786 #define	IPMI_SR_PERFORMANCE_MET			0x0001
787 #define	IPMI_SR_PERFORMANCE_LAGS		0x0002
788 
789 #define	IPMI_SR_SEVERITY_TO_OK			0x0001
790 #define	IPMI_SR_SEVERITY_OK_TO_NONCRIT		0x0002
791 #define	IPMI_SR_SEVERITY_LESS_TO_CRIT		0x0004
792 #define	IPMI_SR_SEVERITY_LESS_TO_NONRECOV	0x0008
793 #define	IPMI_SR_SEVERITY_MORE_TO_NONCRIT	0x0010
794 #define	IPMI_SR_SEVERITY_NONRECOV_TO_CRIT	0x0020
795 #define	IPMI_SR_SEVERITY_TO_NONRECOV		0x0040
796 #define	IPMI_SR_SEVERITY_MONITOR		0x0080
797 #define	IPMI_SR_SEVERITY_INFO			0x0100
798 
799 #define	IPMI_SR_PRESENT_DEASSERT		0x0001
800 #define	IPMI_SR_PRESENT_ASSERT			0x0002
801 
802 #define	IPMI_SR_ENABLED_DEASSERT		0x0001
803 #define	IPMI_SR_ENABLED_ASSERT			0x0002
804 
805 #define	IPMI_SR_AVAILABILITY_RUNNING		0x0001
806 #define	IPMI_SR_AVAILABILITY_INTEST		0x0002
807 #define	IPMI_SR_AVAILABILITY_POWEROFF		0x0004
808 #define	IPMI_SR_AVAILABILITY_ONLINE		0x0008
809 #define	IPMI_SR_AVAILABILITY_OFFLINE		0x0010
810 #define	IPMI_SR_AVAILABILITY_OFFDUTY		0x0020
811 #define	IPMI_SR_AVAILABILITY_DEGRADED		0x0040
812 #define	IPMI_SR_AVAILABILITY_POWERSAVE		0x0080
813 #define	IPMI_SR_AVAILABILITY_INSTALLERR		0x0100
814 
815 #define	IPMI_SR_REDUNDANCY_FULL			0x0001
816 #define	IPMI_SR_REDUNDANCY_LOST			0x0002
817 #define	IPMI_SR_REDUNDANCY_DEGRADED		0x0004
818 #define	IPMI_SR_REDUNDANCY_NONE_MINIMAL		0x0008
819 #define	IPMI_SR_REDUNDANCY_NONE_REGAINED	0x0010
820 #define	IPMI_SR_REDUNDANCY_NONE_INSUFFFICIENT	0x0020
821 #define	IPMI_SR_REDUNDANCY_DEG_FROM_FULL	0x0040
822 #define	IPMI_SR_REDUNDANCY_DEG_FROM_NON		0x0080
823 
824 #define	IPMI_SR_ACPI_DO				0x0001
825 #define	IPMI_SR_ACPI_D1				0x0002
826 #define	IPMI_SR_ACPI_D2				0x0004
827 #define	IPMI_SR_ACPI_D3				0x0008
828 
829 /*
830  * Bitmasks for sensor-specific reading type (0x6F).  See section 42.2.
831  */
832 #define	IPMI_ST_RESERVED			0x00
833 #define	IPMI_ST_TEMP				0x01
834 #define	IPMI_ST_VOLTAGE				0x02
835 #define	IPMI_ST_CURRENT				0x03
836 #define	IPMI_ST_FAN				0x04
837 #define	IPMI_ST_PHYSICAL			0x05
838 
839 #define	IPMI_EV_PHYSICAL_GENERAL		0x0001
840 #define	IPMI_EV_PHYSICAL_BAY			0x0002
841 #define	IPMI_EV_PHYSICAL_CARD			0x0004
842 #define	IPMI_EV_PHYSICAL_PROCESSOR		0x0008
843 #define	IPMI_EV_PHYSICAL_LAN			0x0010
844 #define	IPMI_EV_PHYSICAL_DOCK			0x0020
845 #define	IPMI_EV_PHYSICAL_FAN			0x0040
846 
847 #define	IPMI_ST_PLATFORM			0x06
848 
849 #define	IPMI_EV_PLATFORM_SECURE			0x0001
850 #define	IPMI_EV_PLATFORM_USER_PASS		0x0002
851 #define	IPMI_EV_PLATFORM_SETUP_PASS		0x0004
852 #define	IPMI_EV_PLATFORM_NETWORK_PASS		0x0008
853 #define	IPMI_EV_PLATFORM_OTHER_PASS		0x0010
854 #define	IPMI_EV_PLATFORM_OUT_OF_BAND		0x0020
855 
856 #define	IPMI_ST_PROCESSOR			0x07
857 
858 #define	IPMI_EV_PROCESSOR_IERR			0x0001
859 #define	IPMI_EV_PROCESSOR_THERMAL		0x0002
860 #define	IPMI_EV_PROCESSOR_FRB1			0x0004
861 #define	IPMI_EV_PROCESSOR_FRB2			0x0008
862 #define	IPMI_EV_PROCESSOR_FRB3			0x0010
863 #define	IPMI_EV_PROCESSOR_CONFIG		0x0020
864 #define	IPMI_EV_PROCESSOR_SMBIOS		0x0040
865 #define	IPMI_EV_PROCESSOR_PRESENT		0x0080
866 #define	IPMI_EV_PROCESSOR_DISABLED		0x0100
867 #define	IPMI_EV_PROCESSOR_TERMINATOR		0x0200
868 #define	IPMI_EV_PROCESSOR_THROTTLED		0x0400
869 
870 #define	IPMI_ST_POWER_SUPPLY			0x08
871 
872 #define	IPMI_EV_POWER_SUPPLY_PRESENT		0x0001
873 #define	IPMI_EV_POWER_SUPPLY_FAILURE		0x0002
874 #define	IPMI_EV_POWER_SUPPLY_PREDFAIL		0x0004
875 #define	IPMI_EV_POWER_SUPPLY_INPUT_LOST		0x0008
876 #define	IPMI_EV_POWER_SUPPLY_INPUT_RANGE	0x0010
877 #define	IPMI_EV_POWER_SUPPLY_INPUT_RANGE_PRES	0x0020
878 #define	IPMI_EV_POWER_SUPPLY_CONFIG_ERR		0x0040
879 
880 #define	IPMI_ST_POWER_UNIT			0x09
881 
882 #define	IPMI_EV_POWER_UNIT_OFF			0x0001
883 #define	IPMI_EV_POWER_UNIT_CYCLE		0x0002
884 #define	IPMI_EV_POWER_UNIT_240_DOWN		0x0004
885 #define	IPMI_EV_POWER_UNIT_INTERLOCK_DOWN	0x0008
886 #define	IPMI_EV_POWER_UNIT_AC_LOST		0x0010
887 #define	IPMI_EV_POWER_UNIT_SOFT_FAILURE		0x0020
888 #define	IPMI_EV_POWER_UNIT_FAIL			0x0040
889 #define	IPMI_EV_POWER_UNIT_PREDFAIL		0x0080
890 
891 #define	IPMI_ST_COOLING				0x0A
892 #define	IPMI_ST_OTHER				0x0B
893 #define	IPMI_ST_MEMORY				0x0C
894 
895 #define	IPMI_EV_MEMORY_CE			0x0001
896 #define	IPMI_EV_MEMORY_UE			0x0002
897 #define	IPMI_EV_MEMORY_PARITY			0x0004
898 #define	IPMI_EV_MEMORY_SCRUB_FAIL		0x0008
899 #define	IPMI_EV_MEMORY_DISABLED			0x0010
900 #define	IPMI_EV_MEMORY_CE_LOG_LIMIT		0x0020
901 #define	IPMI_EV_MEMORY_PRESENT			0x0040
902 #define	IPMI_EV_MEMORY_CONFIG_ERR		0x0080
903 #define	IPMI_EV_MEMORY_SPARE			0x0100
904 #define	IPMI_EV_MEMORY_THROTTLED		0x0200
905 #define	IPMI_EV_MEMORY_OVERTEMP			0x0400
906 
907 #define	IPMI_ST_BAY				0x0D
908 
909 #define	IPMI_EV_BAY_PRESENT			0x0001
910 #define	IPMI_EV_BAY_FAULT			0x0002
911 #define	IPMI_EV_BAY_PREDFAIL			0x0004
912 #define	IPMI_EV_BAY_SPARE			0x0008
913 #define	IPMI_EV_BAY_CHECK			0x0010
914 #define	IPMI_EV_BAY_CRITICAL			0x0020
915 #define	IPMI_EV_BAY_FAILED			0x0040
916 #define	IPMI_EV_BAY_REBUILDING			0x0080
917 #define	IPMI_EV_BAY_ABORTED			0x0100
918 
919 #define	IPMI_ST_POST_RESIZE			0x0E
920 #define	IPMI_ST_FIRMWARE			0x0F
921 
922 #define	IPMI_EV_FIRMWARE_ERROR			0x0001
923 #define	IPMI_EV_FIRMWARE_HANG			0x0002
924 #define	IPMI_EV_FIRMWARE_PROGRESS		0x0004
925 
926 #define	IPMI_ST_EVENT_LOG			0x10
927 
928 #define	IPMI_EV_EVENT_LOG_CE			0x0001
929 #define	IPMI_EV_EVENT_LOG_TYPE			0x0002
930 #define	IPMI_EV_EVENT_LOG_RESET			0x0004
931 #define	IPMI_EV_EVENT_LOG_ALL			0x0008
932 #define	IPMI_EV_EVENT_LOG_FULL			0x0010
933 #define	IPMI_EV_EVENT_LOG_ALMOST_FULL		0x0020
934 
935 #define	IPMI_ST_WATCHDOG1			0x11
936 
937 #define	IPMI_EV_WATCHDOG_BIOS_RESET		0x0001
938 #define	IPMI_EV_WATCHDOG_OS_RESET		0x0002
939 #define	IPMI_EV_WATCHDOG_OS_SHUTDOWN		0x0004
940 #define	IPMI_EV_WATCHDOG_OS_PWR_DOWN		0x0008
941 #define	IPMI_EV_WATCHDOG_OS_PWR_CYCLE		0x0010
942 #define	IPMI_EV_WATCHDOG_OS_NMI_DIAG		0x0020
943 #define	IPMI_EV_WATCHDOG_EXPIRED		0x0040
944 #define	IPMI_EV_WATCHDOG_PRE_TIMEOUT_INT	0x0080
945 
946 #define	IPMI_ST_SYSTEM				0x12
947 
948 #define	IPMI_EV_STSTEM_RECONF			0x0001
949 #define	IPMI_EV_STSTEM_BOOT			0x0002
950 #define	IPMI_EV_STSTEM_UNKNOWN_HW_FAILURE	0x0004
951 #define	IPMI_EV_STSTEM_AUX_LOG_UPDATED		0x0008
952 #define	IPMI_EV_STSTEM_PEF_ACTION		0x0010
953 #define	IPMI_EV_SYSTEM_TIMETAMP_CLOCKSYNC	0x0020
954 
955 #define	IPMI_ST_CRITICAL			0x13
956 
957 #define	IPMI_EV_CRITICAL_EXT_NMI		0x0001
958 #define	IPMI_EV_CRITICAL_BUS_TIMOEOUT		0x0002
959 #define	IPMI_EV_CRITICAL_IO_NMI			0x0004
960 #define	IPMI_EV_CRITICAL_SW_NMI			0x0008
961 #define	IPMI_EV_CRITICAL_PCI_PERR		0x0010
962 #define	IPMI_EV_CRITICAL_PCI_SERR		0x0020
963 #define	IPMI_EV_CRITICAL_EISA_FAILSAFE		0x0040
964 #define	IPMI_EV_CRITICAL_BUS_CE			0x0080
965 #define	IPMI_EV_CRITICAL_BUS_UE			0x0100
966 #define	IPMI_EV_CRITICAL_FATAL_NMI		0x0200
967 #define	IPMI_EV_CRITICAL_BUS_FATAL_ERR		0x0400
968 #define	IPMI_EV_CRITICAL_BUS_DEGRADED		0x0800
969 
970 #define	IPMI_ST_BUTTON				0x14
971 
972 #define	IPMI_EV_BUTTON_PWR			0x0001
973 #define	IPMI_EV_BUTTON_SLEEP			0x0002
974 #define	IPMI_EV_BUTTON_RESET			0x0004
975 #define	IPMI_EV_BUTTON_FRU_LATCH		0x0008
976 #define	IPMI_EV_BUTTON_FRU_SERVICE		0x0010
977 
978 #define	IPMI_ST_MODULE				0x15
979 #define	IPMI_ST_MICROCONTROLLER			0x16
980 #define	IPMI_ST_CARD				0x17
981 #define	IPMI_ST_CHASSIS				0x18
982 
983 #define	IPMI_ST_CHIPSET				0x19
984 
985 #define	IPMI_EV_CHIPSET_PWR_CTL_FAIL		0x0001
986 
987 #define	IPMI_ST_FRU				0x1A
988 #define	IPMI_ST_CABLE				0x1B
989 
990 #define	IPMI_EV_CABLE_CONNECTED			0x0001
991 #define	IPMI_EV_CABLE_CONFIG_ERR		0x0002
992 
993 #define	IPMI_ST_TERMINATOR			0x1C
994 
995 #define	IPMI_ST_BOOT				0x1D
996 
997 #define	IPMI_EV_BOOT_BIOS_PWR_UP		0x0001
998 #define	IPMI_EV_BOOT_BIOS_HARD_RESET		0x0002
999 #define	IPMI_EV_BOOT_BIOS_WARM_RESET		0x0004
1000 #define	IPMI_EV_BOOT_PXE_BOOT			0x0008
1001 #define	IPMI_EV_BOOT_DIAG_BOOT			0x0010
1002 #define	IPMI_EV_BOOT_OS_HARD_RESET		0x0020
1003 #define	IPMI_EV_BOOT_OS_WARM_RESET		0x0040
1004 #define	IPMI_EV_BOOT_SYS_RESTART		0x0080
1005 
1006 #define	IPMI_ST_BOOT_ERROR			0x1E
1007 
1008 #define	IPMI_EV_BOOT_ERROR_NOMEDIA		0x0001
1009 #define	IPMI_EV_BOOT_ERROR_NON_BOOTABLE_DISK	0x0002
1010 #define	IPMI_EV_BOOT_ERROR_NO_PXE_SERVER	0x0004
1011 #define	IPMI_EV_BOOT_ERROR_INV_BOOT_SECT	0x0008
1012 #define	IPMI_EV_BOOT_ERROR_USR_SELECT_TIMEOUT	0x0010
1013 
1014 #define	IPMI_ST_BOOT_OS				0x1F
1015 
1016 #define	IPMI_EV_BOOT_OS_A_DRV_BOOT_COMPLETE	0x0001
1017 #define	IPMI_EV_BOOT_OS_C_DRV_BOOT_COMPLETE	0x0002
1018 #define	IPMI_EV_BOOT_OS_PXE_BOOT_COMPLETE	0x0004
1019 #define	IPMI_EV_BOOT_OS_DIAG_BOOT_COMPLETE	0x0008
1020 #define	IPMI_EV_BOOT_OS_CDROM_BOOT_COMPLETE	0x0010
1021 #define	IPMI_EV_BOOT_OS_ROM_BOOT_COMPLETE	0x0020
1022 #define	IPMI_EV_BOOT_OS_UNSPEC_BOOT_COMPLETE	0x0040
1023 
1024 #define	IPMI_ST_OS_SHUTDOWN			0x20
1025 
1026 #define	IPMI_EV_OS_SHUTDOWN_LOADING		0x0001
1027 #define	IPMI_EV_OS_SHUTDOWN_CRASH		0x0002
1028 #define	IPMI_EV_OS_STOP_GRACEFUL		0x0004
1029 #define	IPMI_EV_OS_SHUTDOWN_GRACEFUL		0x0008
1030 #define	IPMI_EV_OS_SHUTDOWN_PEF			0x0010
1031 #define	IPMI_EV_OS_SHUTDOWN_BMC			0x0020
1032 
1033 #define	IPMI_ST_SLOT				0x21
1034 
1035 #define	IPMI_EV_SLOT_FAULT_ASSERTED		0x0001
1036 #define	IPMI_EV_SLOT_IDENTIFY_ASSERTED		0x0002
1037 #define	IPMI_EV_SLOT_CONNECTED			0x0004
1038 #define	IPMI_EV_SLOT_INSTALL_READY		0x0008
1039 #define	IPMI_EV_SLOT_REMOVE_READY		0x0010
1040 #define	IPMI_EV_SLOT_PWR_OFF			0x0020
1041 #define	IPMI_EV_SLOT_REMOVED			0x0040
1042 #define	IPMI_EV_SLOT_INTERLOCK_ASSERTED		0x0080
1043 #define	IPMI_EV_SLOT_DISABLED			0x0100
1044 #define	IPMI_EV_SLOT_SPARE_DEVICE		0x0200
1045 
1046 #define	IPMI_ST_ACPI				0x22
1047 
1048 #define	IPMI_EV_ACPI_PSTATE_S0_G0		0x0001
1049 #define	IPMI_EV_ACPI_PSTATE_S1			0x0002
1050 #define	IPMI_EV_ACPI_PSTATE_S2			0x0004
1051 #define	IPMI_EV_ACPI_PSTATE_S3			0x0008
1052 #define	IPMI_EV_ACPI_PSTATE_S4			0x0010
1053 #define	IPMI_EV_ACPI_PSTATE_S5_G2_SOFT_OFF	0x0020
1054 #define	IPMI_EV_ACPI_PSTATE_S4_S5_SOFT_OFF	0x0040
1055 #define	IPMI_EV_ACPI_PSATTE_G3_MECH_OFF		0x0080
1056 #define	IPMI_EV_ACPI_PSTATE_S1_S2_S3_SLEEP	0x0100
1057 #define	IPMI_EV_ACPI_PSTATE_G1_SLEEP		0x0200
1058 #define	IPMI_EV_ACPI_PSTATE_S5_OVERRIDE		0x0400
1059 #define	IPMI_EV_ACPI_PSTATE_LEGACY_ON		0x0800
1060 #define	IPMI_EV_ACPI_PSTATE_LEGACY_OFF		0x1000
1061 #define	IPMI_EV_ACPI_PSTATE_UNKNOWN		0x2000
1062 
1063 #define	IPMI_ST_WATCHDOG2			0x23
1064 
1065 #define	IPMI_EV_WATCHDOG2_EXPIRED		0x0001
1066 #define	IPMI_EV_WATCHDOG2_HARD_RESET		0x0002
1067 #define	IPMI_EV_WATCHDOG2_PWR_DOWN		0x0004
1068 #define	IPMI_EV_WATCHDOG2_PWR_CYCLE		0x0008
1069 #define	IPMI_EV_WATCHDOG2_RESERVED1		0x0010
1070 #define	IPMI_EV_WATCHDOG2_RESERVED2		0x0020
1071 #define	IPMI_EV_WATCHDOG2_RESERVED3		0x0040
1072 #define	IPMI_EV_WATCHDOG2_RESERVED4		0x0080
1073 #define	IPMI_EV_WATCHDOG2_TIMEOUT_INT		0x0100
1074 
1075 #define	IPMI_ST_ALERT				0x24
1076 
1077 #define	IPMI_EV_ALERT_PLAT_PAGE			0x0001
1078 #define	IPMI_EV_ALERT_PLAT_LAN_ALERT		0x0002
1079 #define	IPMI_EV_ALERT_PLAT_EVT_TRAP		0x0004
1080 #define	IPMI_EV_ALERT_PLAT_SNMP_TRAP		0x0008
1081 
1082 #define	IPMI_ST_PRESENCE			0x25
1083 
1084 #define	IPMI_EV_PRESENCE_PRESENT		0x0001
1085 #define	IPMI_EV_PRESENCE_ABSENT			0x0002
1086 #define	IPMI_EV_PRESENCE_DISABLED		0x0004
1087 
1088 #define	IPMI_ST_ASIC				0x26
1089 
1090 #define	IPMI_ST_LAN				0x27
1091 
1092 #define	IPMI_EV_LAN_HEARTBEAT_LOST		0x0001
1093 #define	IPMI_EV_LAN_HEARTBEAT			0x0002
1094 
1095 #define	IPMI_ST_HEALTH				0x28
1096 
1097 #define	IPMI_EV_HEALTH_SENSOR_ACC_DEGRADED	0x0001
1098 #define	IPMI_EV_HEALTH_CNTLR_ACC_DEGRADED	0x0002
1099 #define	IPMI_EV_HEALTH_CNTLR_OFFLINE		0x0004
1100 #define	IPMI_EV_HEALTH_CNTLR_UNAVAIL		0x0008
1101 #define	IPMI_EV_HEALTH_SENSOR_FAILURE		0x0010
1102 #define	IPMI_EV_HEALTH_FRU_FAILURE		0x0020
1103 
1104 #define	IPMI_ST_BATTERY				0x29
1105 
1106 #define	IPMI_EV_BATTERY_LOW			0x0001
1107 #define	IPMI_EV_BATTERY_FAILED			0x0002
1108 #define	IPMI_EV_BATTERY_PRESENCE		0x0004
1109 
1110 #define	IPMI_ST_AUDIT				0x2A
1111 
1112 #define	IPMI_EV_AUDIT_SESSION_ACTIVATED		0x0001
1113 #define	IPMI_EV_AUDIT_SESSION_DEACTIVATED	0x0002
1114 
1115 #define	IPMI_ST_VERSION				0x2B
1116 
1117 #define	IPMI_EV_VERSION_HW_CHANGE		0x0001
1118 #define	IPMI_EV_VERSION_SW_CHANGE		0x0002
1119 #define	IPMI_EV_VERSION_HW_INCOMPATIBLE		0x0004
1120 #define	IPMI_EV_VERSION_SW_INCOMPATIBLE		0x0008
1121 #define	IPMI_EV_VERSION_HW_INVAL		0x0010
1122 #define	IPMI_EV_VERSION_SW_INVAL		0x0020
1123 #define	IPMI_EV_VERSION_HW_CHANGE_SUCCESS	0x0040
1124 #define	IPMI_EV_VERSION_SW_CHANGE_SUCCESS	0x0080
1125 
1126 #define	IPMI_ST_FRU_STATE			0x2C
1127 
1128 #define	IPMI_EV_FRU_STATE_NOT_INSTALLED		0x0001
1129 #define	IPMI_EV_FRU_STATE_INACTIVE		0x0002
1130 #define	IPMI_EV_FRU_STATE_ACT_REQ		0x0004
1131 #define	IPMI_EV_FRU_STATE_ACT_INPROGRESS	0x0008
1132 #define	IPMI_EV_FRU_STATE_ACTIVE		0x0010
1133 #define	IPMI_EV_FRU_STATE_DEACT_REQ		0x0020
1134 #define	IPMI_EV_FRU_STATE_DEACT_INPROGRESS	0x0040
1135 #define	IPMI_EV_FRU_STATE_COMM_LOST		0x0080
1136 
1137 /*
1138  * Constants for unit type codes.  See Table 43-15.
1139  */
1140 #define	IPMI_UNITS_UNSPECIFIED			0x00
1141 #define	IPMI_UNITS_DEGREES_C			0x01
1142 #define	IPMI_UNITS_DEGREES_F			0x02
1143 #define	IPMI_UNITS_DEGREES_K			0x03
1144 #define	IPMI_UNITS_VOLTS			0x04
1145 #define	IPMI_UNITS_AMPS				0x05
1146 #define	IPMI_UNITS_WATTS			0x06
1147 #define	IPMI_UNITS_JOULES			0x07
1148 #define	IPMI_UNITS_COULOMBS			0x08
1149 #define	IPMI_UNITS_VA				0x09
1150 #define	IPMI_UNITS_NITS				0x0A
1151 #define	IPMI_UNITS_LUMEN			0x0B
1152 #define	IPMI_UNITS_LUX				0x0C
1153 #define	IPMI_UNITS_CANDELA			0x0D
1154 #define	IPMI_UNITS_KPA				0x0E
1155 #define	IPMI_UNITS_PSI				0x0F
1156 
1157 #define	IPMI_UNITS_NEWTON			0x10
1158 #define	IPMI_UNITS_CFM				0x11
1159 #define	IPMI_UNITS_RPM				0x12
1160 #define	IPMI_UNITS_HZ				0x13
1161 #define	IPMI_UNITS_MICROSEC			0x14
1162 #define	IPMI_UNITS_MILLISEC			0x15
1163 #define	IPMI_UNITS_SECS				0x16
1164 #define	IPMI_UNITS_MIN				0x17
1165 #define	IPMI_UNITS_HOUR				0x18
1166 #define	IPMI_UNITS_DAY				0x19
1167 #define	IPMI_UNITS_WEEK				0x1A
1168 #define	IPMI_UNITS_MIL				0x1B
1169 #define	IPMI_UNITS_INCHES			0x1C
1170 #define	IPMI_UNITS_FEET				0x1D
1171 #define	IPMI_UNITS_CUB_INCH			0x1E
1172 #define	IPMI_UNITS_CUB_FEET			0x1F
1173 
1174 #define	IPMI_UNITS_MM				0x20
1175 #define	IPMI_UNITS_CM				0x21
1176 #define	IPMI_UNITS_METERS			0x22
1177 #define	IPMI_UNITS_CUB_CM			0x23
1178 #define	IPMI_UNITS_CUB_METER			0x24
1179 #define	IPMI_UNITS_LITERS			0x25
1180 #define	IPMI_UNITS_FLUID_OUNCE			0x26
1181 #define	IPMI_UNITS_RADIANS			0x27
1182 #define	IPMI_UNITS_STERADIANS			0x28
1183 #define	IPMI_UNITS_REVOLUTIONS			0x29
1184 #define	IPMI_UNITS_CYCLES			0x2A
1185 #define	IPMI_UNITS_GRAVITIES			0x2B
1186 #define	IPMI_UNITS_OUNCE			0x2C
1187 #define	IPMI_UNITS_POUND			0x2D
1188 #define	IPMI_UNITS_FOOT_POUND			0x2E
1189 #define	IPMI_UNITS_OZ_INCH			0x2F
1190 
1191 #define	IPMI_UNITS_GAUSS			0x30
1192 #define	IPMI_UNITS_GILBERTS			0x31
1193 #define	IPMI_UNITS_HENRY			0x32
1194 #define	IPMI_UNITS_MILHENRY			0x33
1195 #define	IPMI_UNITS_FARAD			0x34
1196 #define	IPMI_UNITS_MICROFARAD			0x35
1197 #define	IPMI_UNITS_OHMS				0x36
1198 #define	IPMI_UNITS_SIEMENS			0x37
1199 #define	IPMI_UNITS_MOLE				0x38
1200 #define	IPMI_UNITS_BECQUEREL			0x39
1201 #define	IPMI_UNITS_PPM				0x3A
1202 /* 0x3B is reserved */
1203 #define	IPMI_UNITS_DECIBELS			0x3C
1204 #define	IPMI_UNITS_DBA				0x3D
1205 #define	IPMI_UNITS_DBC				0x3E
1206 #define	IPMI_UNITS_GRAY				0x3F
1207 
1208 #define	IPMI_UNITS_SIEVERT			0x40
1209 #define	IPMI_UNITS_COLOR_TEMP_K			0x41
1210 #define	IPMI_UNITS_BIT				0x42
1211 #define	IPMI_UNITS_KILOBIT			0x43
1212 #define	IPMI_UNITS_MEGABIT			0x44
1213 #define	IPMI_UNITS_GIGABIT			0x45
1214 #define	IPMI_UNITS_BYTE				0x46
1215 #define	IPMI_UNITS_KILOBYTE			0x47
1216 #define	IPMI_UNITS_MEGABYTE			0x48
1217 #define	IPMI_UNITS_GIGABYTE			0x49
1218 #define	IPMI_UNITS_WORD				0x4A
1219 #define	IPMI_UNITS_DWORD			0x4B
1220 #define	IPMI_UNITS_QWORD			0x4C
1221 #define	IPMI_UNITS_MEMLINE			0x4D
1222 #define	IPMI_UNITS_HIT				0x4E
1223 #define	IPMI_UNITS_MISS				0x4F
1224 
1225 #define	IPMI_UNITS_RETRY			0x50
1226 #define	IPMI_UNITS_RESET			0x51
1227 #define	IPMI_UNITS_OVERFLOW			0x52
1228 #define	IPMI_UNITS_UNDERRUN			0x53
1229 #define	IPMI_UNITS_COLLISION			0x54
1230 #define	IPMI_UNITS_PACKETS			0x55
1231 #define	IPMI_UNITS_MESSAGES			0x56
1232 #define	IPMI_UNITS_CHARACTERS			0x57
1233 #define	IPMI_UNITS_ERROR			0x58
1234 #define	IPMI_UNITS_CE				0x59
1235 #define	IPMI_UNITS_UE				0x5A
1236 #define	IPMI_UNITS_FATAL_ERROR			0x5B
1237 #define	IPMI_UNITS_GRAMS			0x5C
1238 
1239 /*
1240  * Event-Only Record.  See section 43.3.
1241  */
1242 
1243 #define	IPMI_SDR_TYPE_EVENT_ONLY		0x03
1244 
1245 typedef struct ipmi_sdr_event_only {
1246 	/* RECORD KEY BYTES */
1247 	uint8_t		is_eo_owner;
1248 	DECL_BITFIELD3(
1249 	    is_eo_sensor_lun			:2,
1250 	    is_eo_fru_lun			:2,
1251 	    is_eo_channel			:4);
1252 	uint8_t		is_eo_number;
1253 	/* RECORD BODY BYTES */
1254 	uint8_t		is_eo_entity_id;
1255 	DECL_BITFIELD2(
1256 	    is_eo_entity_instance		:7,
1257 	    is_eo_entity_logical		:1);
1258 	uint8_t		is_eo_sensor_type;
1259 	uint8_t		is_eo_reading_type;
1260 	DECL_BITFIELD3(
1261 	    is_eo_share_count			:4,
1262 	    is_eo_modifier_type			:2,
1263 	    is_eo_direction			:2);
1264 	DECL_BITFIELD2(
1265 	    is_eo_modifier_offset		:7,
1266 	    is_eo_sharing			:1);
1267 	uint8_t		__reserved;
1268 	uint8_t		is_eo_oem;
1269 	DECL_BITFIELD3(
1270 	    is_eo_idlen				:5,
1271 	    __reserved1				:1,
1272 	    is_eo_idtype			:2);
1273 	char		is_eo_idstring[1];
1274 } ipmi_sdr_event_only_t;
1275 
1276 /*
1277  * Entity Association Record.  See section 43.4.
1278  */
1279 
1280 #define	IPMI_SDR_TYPE_ENTITY_ASSOCIATION	0x08
1281 
1282 typedef struct ipmi_sdr_entity_association {
1283 	/* RECORD KEY BYTES */
1284 	uint8_t		is_ea_entity_id;
1285 	uint8_t		is_ea_entity_instance;
1286 	DECL_BITFIELD4(
1287 	    __reserved		:5,
1288 	    is_ea_presence	:1,
1289 	    is_ea_record_link	:1,
1290 	    is_ea_range		:1);
1291 	/* RECORD BODY BYTES */
1292 	struct {
1293 		uint8_t		is_ea_sub_id;
1294 		uint8_t		is_ea_sub_instance;
1295 	} is_ea_sub[4];
1296 } ipmi_sdr_entity_association_t;
1297 
1298 /*
1299  * Device-relative Entity Association Record.  See section 43.5.
1300  */
1301 
1302 #define	IPMI_SDR_TYPE_DEVICE_RELATIVE		0x09
1303 
1304 typedef struct ipmi_sdr_device_relative {
1305 	/* RECORD KEY BYTES */
1306 	uint8_t		is_dr_entity_id;
1307 	uint8_t		is_dr_entity_instance;
1308 	DECL_BITFIELD2(
1309 	    __reserved1			:1,
1310 	    is_dr_slaveaddr		:7);
1311 	DECL_BITFIELD2(
1312 	    __reserved2			:4,
1313 	    is_dr_channel		:4);
1314 	DECL_BITFIELD4(
1315 	    __reserved			:5,
1316 	    is_dr_presence		:1,
1317 	    is_dr_record_link		:1,
1318 	    is_dr_range			:1);
1319 	/* RECORD BODY BYTES */
1320 	struct {
1321 		DECL_BITFIELD2(
1322 		    __reserved3		:1,
1323 		    is_dr_sub_slaveaddr	:7);
1324 		DECL_BITFIELD2(
1325 		    __reserved4		:4,
1326 		    is_dr_sub_channel	:4);
1327 		uint8_t		is_ea_sub_id;
1328 		uint8_t		is_ea_sub_instance;
1329 	} is_ea_sub[4];
1330 } ipmi_sdr_device_relative_t;
1331 
1332 /*
1333  * Generic Device Locator Record.  See section 43.7.
1334  */
1335 
1336 #define	IPMI_SDR_TYPE_GENERIC_LOCATOR		0x10
1337 
1338 typedef struct ipmi_sdr_generic_locator {
1339 	/* RECORD KEY BYTES */
1340 	DECL_BITFIELD2(
1341 	    __reserved1		:1,
1342 	    is_gl_accessaddr	:7);
1343 	DECL_BITFIELD2(
1344 	    is_gl_channel_msb	:1,
1345 	    is_gl_slaveaddr	:7);
1346 	DECL_BITFIELD3(
1347 	    is_gl_bus		:3,
1348 	    is_gl_lun		:2,
1349 	    is_gl_channel	:3);
1350 	/* RECORD BODY BYTES */
1351 	DECL_BITFIELD2(
1352 	    is_gl_span		:3,
1353 	    __reserved2		:5);
1354 	uint8_t		__reserved3;
1355 	uint8_t		is_gl_type;
1356 	uint8_t		is_gl_modifier;
1357 	uint8_t		is_gl_entity;
1358 	uint8_t		is_gl_instance;
1359 	uint8_t		is_gl_oem;
1360 	DECL_BITFIELD3(
1361 	    is_gl_idlen		:5,
1362 	    __reserved4		:1,
1363 	    is_gl_idtype	:2);
1364 	char		is_gl_idstring[1];
1365 } ipmi_sdr_generic_locator_t;
1366 
1367 /*
1368  * FRU Device Locator Record.  See section 43.8.
1369  */
1370 
1371 #define	IPMI_SDR_TYPE_FRU_LOCATOR		0x11
1372 
1373 typedef struct ipmi_sdr_fru_locator {
1374 	/* RECORD KEY BYTES */
1375 	DECL_BITFIELD2(
1376 	    __reserved1		:1,
1377 	    is_fl_accessaddr	:7);
1378 	union {
1379 		struct {
1380 			uint8_t	_is_fl_devid;
1381 		} _logical;
1382 		struct {
1383 			DECL_BITFIELD2(
1384 			    __reserved		:1,
1385 			    _is_fl_slaveaddr	:7);
1386 		} _nonintelligent;
1387 	} _devid_or_slaveaddr;
1388 	DECL_BITFIELD4(
1389 	    is_fl_bus		:3,
1390 	    is_fl_lun		:2,
1391 	    __reserved2		:2,
1392 	    is_fl_logical	:1);
1393 	DECL_BITFIELD2(
1394 	    __reserved3		:4,
1395 	    is_fl_channel	:4);
1396 	/* RECORD BODY BYTES */
1397 	uint8_t		__reserved4;
1398 	uint8_t		is_fl_type;
1399 	uint8_t		is_fl_modifier;
1400 	uint8_t		is_fl_entity;
1401 	uint8_t		is_fl_instance;
1402 	uint8_t		is_fl_oem;
1403 	DECL_BITFIELD3(
1404 	    is_fl_idlen		:5,
1405 	    __reserved5		:1,
1406 	    is_fl_idtype	:2);
1407 	char		is_fl_idstring[1];
1408 } ipmi_sdr_fru_locator_t;
1409 
1410 #define	is_fl_devid	_devid_or_slaveaddr._logical._is_fl_devid
1411 #define	is_fl_slaveaddr	_devid_or_slaveaddr._nonintelligent._is_fl_slaveaddr
1412 
1413 /*
1414  * Management Controller Device Locator Record.  See section 43.9
1415  */
1416 
1417 #define	IPMI_SDR_TYPE_MANAGEMENT_LOCATOR	0x12
1418 
1419 typedef struct ipmi_sdr_management_locator {
1420 	/* RECORD KEY BYTES */
1421 	DECL_BITFIELD2(
1422 	    __reserved1			:1,
1423 	    is_ml_devaddr		:7);
1424 	DECL_BITFIELD2(
1425 	    is_ml_channel		:4,
1426 	    __reserved2			:4);
1427 	/* RECORD BODY BYTES */
1428 	DECL_BITFIELD7(
1429 	    is_ml_init_message		:2,
1430 	    is_ml_init_log		:1,
1431 	    is_ml_init_controller_log	:1,
1432 	    __reserved3			:1,
1433 	    is_ml_static		:1,
1434 	    is_ml_acpi_device		:1,
1435 	    is_ml_acpi_system		:1);
1436 	DECL_BITFIELD8(
1437 	    is_ml_supp_sensor		:1,
1438 	    is_ml_supp_sdr		:1,
1439 	    is_ml_supp_sel		:1,
1440 	    is_ml_supp_fru		:1,
1441 	    is_ml_supp_event_receiver	:1,
1442 	    is_ml_supp_event_generator	:1,
1443 	    is_ml_supp_bridge		:1,
1444 	    is_ml_supp_chassis		:1);
1445 	uint8_t		__reserved4;
1446 	uint16_t	__reserved5;
1447 	uint8_t		is_ml_entity_id;
1448 	uint8_t		is_ml_entity_instance;
1449 	uint8_t		is_ml_oem;
1450 	DECL_BITFIELD3(
1451 	    is_ml_idlen		:5,
1452 	    __reserved6		:1,
1453 	    is_ml_idtype	:2);
1454 	char		is_ml_idstring[1];
1455 } ipmi_sdr_management_locator_t;
1456 
1457 #define	IPMI_MESSAGE_INIT_ENABLE		0x0
1458 #define	IPMI_MESSAGE_INIT_DISABLE		0x1
1459 #define	IPMI_MESSAGE_INIT_NONE			0x2
1460 
1461 /*
1462  *  Management Controller Confirmation Record.  See section 43.10
1463  */
1464 
1465 #define	IPMI_SDR_TYPE_MANAGEMENT_CONFIRMATION	0x13
1466 
1467 typedef struct ipmi_sdr_management_confirmation {
1468 	/* RECORD KEY BYTES */
1469 	DECL_BITFIELD2(
1470 	    __reserved1		:1,
1471 	    is_mc_slaveaddr	:7);
1472 	uint8_t		is_mc_deviceid;
1473 	DECL_BITFIELD2(
1474 	    is_mc_dev_revision	:4,
1475 	    is_mc_channel	:4);
1476 	/* RECORD BODY BYTES */
1477 	DECL_BITFIELD2(
1478 	    is_mc_major_rev	:7,
1479 	    __reserved2		:1);
1480 	uint8_t		is_mc_minor_rev;
1481 	uint8_t		is_mc_impi_ver;
1482 	uint8_t		is_mc_manufacturer[3];
1483 	uint16_t	is_mc_product;
1484 	uint8_t		is_mc_guid[16];
1485 } ipmi_sdr_management_confirmation_t;
1486 
1487 /*
1488  * BMC Message Channel Info Record.  See esction 43.11.
1489  */
1490 
1491 #define	IPMI_SDR_TYPE_BMC_MESSAGE_CHANNEL	0x14
1492 
1493 typedef struct ipmi_sdr_bmc_channel {
1494 	/* RECORD BODY BYTES */
1495 	struct {
1496 		DECL_BITFIELD3(
1497 		    is_bc_protocol	:4,
1498 		    is_bc_receive_lun	:3,
1499 		    is_bc_transmit	:1);
1500 	} is_bc_channel[8];
1501 	uint8_t		is_bc_interrupt_type;
1502 	uint8_t		is_bc_buffer_type;
1503 	uint8_t		__reserved;
1504 } ipmi_sdr_bmc_channel_t;
1505 
1506 /*
1507  * OEM Record.  See ction 43.12.
1508  */
1509 
1510 #define	IPMI_SDR_TYPE_OEM			0xC0
1511 
1512 typedef struct ipmi_sdr_oem {
1513 	uint8_t		is_oem_manufacturer[3];
1514 	uint8_t		is_oem_data[1];
1515 } ipmi_sdr_oem_t;
1516 
1517 /*
1518  * Iterate over the SDR repository.  This function does the work of parsing the
1519  * name when available, and keeping the repository in a consistent state.
1520  */
1521 extern int ipmi_sdr_iter(ipmi_handle_t *,
1522     int (*)(ipmi_handle_t *, const char *, ipmi_sdr_t *, void *), void *);
1523 
1524 /*
1525  * Lookup the given sensor type by name or a combination of name and entity
1526  * ID/instance.  These functions automatically read in and cache the complete
1527  * SDR repository.
1528  */
1529 extern ipmi_sdr_t *ipmi_sdr_lookup(ipmi_handle_t *, const char *);
1530 extern ipmi_sdr_t *ipmi_sdr_lookup_precise(ipmi_handle_t *, const char *,
1531     uint8_t, uint8_t);
1532 extern ipmi_sdr_fru_locator_t *ipmi_sdr_lookup_fru(ipmi_handle_t *,
1533     const char *);
1534 extern ipmi_sdr_generic_locator_t *ipmi_sdr_lookup_generic(ipmi_handle_t *,
1535     const char *);
1536 extern ipmi_sdr_compact_sensor_t *ipmi_sdr_lookup_compact_sensor(
1537     ipmi_handle_t *, const char *);
1538 extern ipmi_sdr_full_sensor_t *ipmi_sdr_lookup_full_sensor(
1539     ipmi_handle_t *, const char *);
1540 
1541 /*
1542  * Entity ID codes.  See table 43.13.
1543  */
1544 #define	IPMI_ET_UNSPECIFIED		0x00
1545 #define	IPMI_ET_OTHER			0x01
1546 #define	IPMI_ET_UNKNOWN			0x02
1547 #define	IPMI_ET_PROCESSOR		0x03
1548 #define	IPMI_ET_DISK			0x04
1549 #define	IPMI_ET_PERIPHERAL		0x05
1550 #define	IPMI_ET_MANAGEMENT_MODULE	0x06
1551 #define	IPMI_ET_MOTHERBOARD		0x07
1552 #define	IPMI_ET_MEMORY_MODULE		0x08
1553 #define	IPMI_ET_PROCESSOR_MODULE	0x09
1554 #define	IPMI_ET_PSU			0x0A
1555 #define	IPMI_ET_CARD			0x0B
1556 #define	IPMI_ET_FRONT_PANEL		0x0C
1557 #define	IPMI_ET_BACK_PANEL		0x0D
1558 #define	IPMI_ET_POWER_BOARD		0x0E
1559 #define	IPMI_ET_BACKPLANE		0x0F
1560 #define	IPMI_ET_EXPANSION_BOARD		0x10
1561 #define	IPMI_ET_OTHER_BOARD		0x11
1562 #define	IPMI_ET_PROCESSOR_BOARD		0x12
1563 #define	IPMI_ET_POWER_DOMAIN		0x13
1564 #define	IPMI_ET_POWER_CONVERTER		0x14
1565 #define	IPMI_ET_POWER_MANAGEMENT	0x15
1566 #define	IPMI_ET_BACK_CHASSIS		0x16
1567 #define	IPMI_ET_SYSTEM_CHASSIS		0x17
1568 #define	IPMI_ET_SUB_CHASSIS		0x18
1569 #define	IPMI_ET_OTHER_CHASSIS		0x19
1570 #define	IPMI_ET_DISK_BAY		0x1A
1571 #define	IPMI_ET_PERIPHERAL_BAY		0x1B
1572 #define	IPMI_ET_DEVICE_BAY		0x1C
1573 #define	IPMI_ET_FAN			0x1D
1574 #define	IPMI_ET_COOLING_DOMAIN		0x1E
1575 #define	IPMI_ET_CABLE			0x1F
1576 #define	IPMI_ET_MEMORY_DEVICE		0x20
1577 #define	IPMI_ET_MANAGEMENT_SOFTWARE	0x21
1578 #define	IPMI_ET_SYSTEM_FIRMWARE		0x22
1579 #define	IPMI_ET_OS			0x23
1580 #define	IPMI_ET_SYSTEM_BUS		0x24
1581 #define	IPMI_ET_GROUP			0x25
1582 #define	IPMI_ET_REMOTE			0x26
1583 #define	IPMI_ET_ENVIRONMENT		0x27
1584 #define	IPMI_ET_BATTERY			0x28
1585 #define	IPMI_ET_BLADE			0x29
1586 #define	IPMI_ET_SWITCH			0x2A
1587 #define	IPMI_ET_PROCMEM_MODULE		0x2B
1588 #define	IPMI_ET_IO_MODULE		0x2C
1589 #define	IPMI_ET_PROCIO_MODULE		0x2D
1590 #define	IPMI_ET_CONTROLLER_FIRMWARE	0x2E
1591 #define	IPMI_ET_CHANNEL			0x2F
1592 #define	IPMI_ET_PCI			0x30
1593 #define	IPMI_ET_PCIE			0x31
1594 #define	IPMI_ET_SCSI			0x32
1595 #define	IPMI_ET_SATA_SAS		0x33
1596 #define	IPMI_ET_FSB			0x34
1597 #define	IPMI_ET_RTC			0x35
1598 
1599 /*
1600  * Get Sensor Threshold.  See section 35.9
1601  */
1602 #define	IPMI_CMD_GET_SENSOR_THRESHOLDS	0x27
1603 
1604 typedef struct ipmi_sensor_thresholds {
1605 	uint8_t ithr_readable_mask;
1606 	uint8_t ithr_lower_noncrit;
1607 	uint8_t ithr_lower_crit;
1608 	uint8_t ithr_lower_nonrec;
1609 	uint8_t ithr_upper_noncrit;
1610 	uint8_t ithr_upper_crit;
1611 	uint8_t ithr_upper_nonrec;
1612 } ipmi_sensor_thresholds_t;
1613 
1614 extern int ipmi_get_sensor_thresholds(ipmi_handle_t *,
1615     ipmi_sensor_thresholds_t *, uint8_t);
1616 
1617 /*
1618  * Get Sensor Reading.  See section 35.14.
1619  */
1620 
1621 #define	IPMI_CMD_GET_SENSOR_READING	0x2d
1622 
1623 typedef struct ipmi_sensor_reading {
1624 	uint8_t		isr_reading;
1625 	DECL_BITFIELD4(
1626 	    __reserved1			:5,
1627 	    isr_state_unavailable	:1,
1628 	    isr_scanning_enabled	:1,
1629 	    isr_event_enabled		:1);
1630 	uint16_t	isr_state;
1631 } ipmi_sensor_reading_t;
1632 
1633 #define	IPMI_SENSOR_THRESHOLD_LOWER_NONCRIT		0x0001
1634 #define	IPMI_SENSOR_THRESHOLD_LOWER_CRIT		0x0002
1635 #define	IPMI_SENSOR_THRESHOLD_LOWER_NONRECOV		0x0004
1636 #define	IPMI_SENSOR_THRESHOLD_UPPER_NONCRIT		0x0008
1637 #define	IPMI_SENSOR_THRESHOLD_UPPER_CRIT		0x0010
1638 #define	IPMI_SENSOR_THRESHOLD_UPPER_NONRECOV		0x0020
1639 
1640 extern ipmi_sensor_reading_t *ipmi_get_sensor_reading(ipmi_handle_t *, uint8_t);
1641 extern int ipmi_sdr_conv_reading(ipmi_sdr_full_sensor_t *, uint8_t,
1642     double *);
1643 /*
1644  * Set Sensor Reading.  See section 35.14.
1645  */
1646 #define	IPMI_CMD_SET_SENSOR_READING	0x30
1647 
1648 #define	IPMI_SENSOR_OP_CLEAR	0x3	/* clear '0' bits */
1649 #define	IPMI_SENSOR_OP_SET	0x2	/* set '1' bits */
1650 #define	IPMI_SENSOR_OP_EXACT	0x1	/* set bits exactly */
1651 
1652 typedef struct ipmi_set_sensor_reading {
1653 	uint8_t		iss_id;
1654 	DECL_BITFIELD5(
1655 	    iss_set_reading		:1,
1656 	    __reserved			:1,
1657 	    iss_deassrt_op		:2,
1658 	    iss_assert_op		:2,
1659 	    iss_data_bytes		:2);
1660 	uint8_t		iss_sensor_reading;
1661 	uint16_t	iss_assert_state;	/* optional */
1662 	uint16_t	iss_deassert_state;	/* optional */
1663 	uint8_t		iss_event_data1;	/* optional */
1664 	uint8_t		iss_event_data2;	/* optional */
1665 	uint8_t		iss_event_data3;	/* optional */
1666 } ipmi_set_sensor_reading_t;
1667 
1668 extern int ipmi_set_sensor_reading(ipmi_handle_t *,
1669     ipmi_set_sensor_reading_t *);
1670 
1671 /*
1672  * These IPMI message id/opcodes are documented in Appendix G in the IPMI spec.
1673  *
1674  * Payloads for these two commands are described in Sections 34.1 and 34.2 of
1675  * the spec, respectively.
1676  */
1677 #define	IPMI_CMD_GET_FRU_INV_AREA	0x10
1678 #define	IPMI_CMD_READ_FRU_DATA		0x11
1679 
1680 /*
1681  * Structs to hold the FRU Common Header and the FRU Product Info Area, as
1682  * described in the IPMI Platform Management FRU Information Storage
1683  * Definition (v1.1).
1684  */
1685 typedef struct ipmi_fru_hdr
1686 {
1687 	uint8_t		ifh_format;
1688 	uint8_t		ifh_int_use_off;
1689 	uint8_t		ifh_chassis_info_off;
1690 	uint8_t		ifh_board_info_off;
1691 	uint8_t		ifh_product_info_off;
1692 	uint8_t		ifh_multi_rec_off;
1693 	uint8_t		ifh_pad;
1694 	uint8_t		ifh_chksum;
1695 } ipmi_fru_hdr_t;
1696 
1697 /*
1698  * Because only 6 bits are used to specify the length of each field in the FRU
1699  * product and board info areas, the biggest string we would ever need to hold
1700  * would be 63 chars plus a NULL.
1701  */
1702 #define	FRU_INFO_MAXLEN	64
1703 
1704 typedef struct ipmi_fru_brd_info
1705 {
1706 	char	ifbi_manuf_date[3];
1707 	char	ifbi_manuf_name[FRU_INFO_MAXLEN];
1708 	char	ifbi_board_name[FRU_INFO_MAXLEN];
1709 	char	ifbi_product_serial[FRU_INFO_MAXLEN];
1710 	char	ifbi_part_number[FRU_INFO_MAXLEN];
1711 } ipmi_fru_brd_info_t;
1712 
1713 typedef struct ipmi_fru_prod_info
1714 {
1715 	char	ifpi_manuf_name[FRU_INFO_MAXLEN];
1716 	char	ifpi_product_name[FRU_INFO_MAXLEN];
1717 	char	ifpi_part_number[FRU_INFO_MAXLEN];
1718 	char	ifpi_product_version[FRU_INFO_MAXLEN];
1719 	char	ifpi_product_serial[FRU_INFO_MAXLEN];
1720 	char	ifpi_asset_tag[FRU_INFO_MAXLEN];
1721 } ipmi_fru_prod_info_t;
1722 
1723 extern int ipmi_fru_read(ipmi_handle_t *, ipmi_sdr_fru_locator_t *, char **);
1724 extern int ipmi_fru_parse_board(ipmi_handle_t *, char *, ipmi_fru_brd_info_t *);
1725 extern int ipmi_fru_parse_product(ipmi_handle_t *, char *,
1726     ipmi_fru_prod_info_t *);
1727 
1728 /*
1729  * Routines to convert from entity and sensors defines into text strings.
1730  */
1731 void ipmi_entity_name(uint8_t, char *, size_t);
1732 void ipmi_sensor_type_name(uint8_t, char *, size_t);
1733 void ipmi_sensor_units_name(uint8_t, char *, size_t);
1734 void ipmi_sensor_reading_name(uint8_t, uint8_t, char *, size_t);
1735 
1736 /*
1737  * Entity management.  IPMI has a notion of 'entities', but these are not
1738  * directly accessible from any commands.  Instead, their existence is inferred
1739  * from examining the SDR repository.  Since this is rather unwieldy, and
1740  * iterating over entities is a common operation, libipmi provides an entity
1741  * abstraction that hides the implementation details.  This handles entity
1742  * groupings as well as SDR associations.
1743  */
1744 typedef struct ipmi_entity {
1745 	uint8_t		ie_type;
1746 	uint8_t		ie_instance;
1747 	uint8_t		ie_children;
1748 	boolean_t	ie_logical;
1749 } ipmi_entity_t;
1750 
1751 extern int ipmi_entity_iter(ipmi_handle_t *, int (*)(ipmi_handle_t *,
1752     ipmi_entity_t *, void *), void *);
1753 extern int ipmi_entity_iter_sdr(ipmi_handle_t *, ipmi_entity_t *,
1754     int (*)(ipmi_handle_t *, ipmi_entity_t *, const char *, ipmi_sdr_t *,
1755     void *), void *);
1756 extern int ipmi_entity_iter_children(ipmi_handle_t *, ipmi_entity_t *,
1757     int (*)(ipmi_handle_t *, ipmi_entity_t *, void *), void *);
1758 extern ipmi_entity_t *ipmi_entity_lookup(ipmi_handle_t *, uint8_t,
1759     uint8_t);
1760 extern ipmi_entity_t *ipmi_entity_lookup_sdr(ipmi_handle_t *, const char *);
1761 extern ipmi_entity_t *ipmi_entity_parent(ipmi_handle_t *, ipmi_entity_t *);
1762 extern int ipmi_entity_present(ipmi_handle_t *, ipmi_entity_t *, boolean_t *);
1763 extern int ipmi_entity_present_sdr(ipmi_handle_t *, ipmi_sdr_t *, boolean_t *);
1764 
1765 /*
1766  * User management.  The raw functions are private to libipmi, and only the
1767  * higher level abstraction (ipmi_user_t) is exported to consumers of the
1768  * library.
1769  */
1770 
1771 #define	IPMI_USER_PRIV_CALLBACK		0x1
1772 #define	IPMI_USER_PRIV_USER		0x2
1773 #define	IPMI_USER_PRIV_OPERATOR		0x3
1774 #define	IPMI_USER_PRIV_ADMIN		0x4
1775 #define	IPMI_USER_PRIV_OEM		0x5
1776 #define	IPMI_USER_PRIV_NONE		0xf
1777 
1778 typedef struct ipmi_user {
1779 	uint8_t		iu_uid;
1780 	char		*iu_name;
1781 	boolean_t	iu_enabled;
1782 	boolean_t	iu_ipmi_msg_enable;
1783 	boolean_t	iu_link_auth_enable;
1784 	uint8_t		iu_priv;
1785 } ipmi_user_t;
1786 
1787 extern int ipmi_user_iter(ipmi_handle_t *,
1788     int (*)(ipmi_user_t *, void *), void *);
1789 extern ipmi_user_t *ipmi_user_lookup_name(ipmi_handle_t *, const char *);
1790 extern ipmi_user_t *ipmi_user_lookup_id(ipmi_handle_t *, uint8_t);
1791 extern int ipmi_user_set_password(ipmi_handle_t *, uint8_t, const char *);
1792 
1793 /*
1794  * The remaining functions are private to the implementation of the Sun ILOM
1795  * service processor.  These function first check the manufacturer from the IPMI
1796  * device ID, and will return EIPMI_NOT_SUPPORTED if attempted for non-Sun
1797  * devices.
1798  */
1799 boolean_t ipmi_is_sun_ilom(ipmi_deviceid_t *);
1800 
1801 /*
1802  * Sun OEM LED requests.
1803  */
1804 
1805 #define	IPMI_SUNOEM_LED_MODE_OFF	0
1806 #define	IPMI_SUNOEM_LED_MODE_ON		1
1807 #define	IPMI_SUNOEM_LED_MODE_STANDBY	2
1808 #define	IPMI_SUNOEM_LED_MODE_SLOW	3
1809 #define	IPMI_SUNOEM_LED_MODE_FAST	4
1810 
1811 /*
1812  * These functions take a SDR record and construct the appropriate form of the
1813  * above commands.
1814  */
1815 extern int ipmi_sunoem_led_set(ipmi_handle_t *,
1816     ipmi_sdr_generic_locator_t *, uint8_t);
1817 extern int ipmi_sunoem_led_get(ipmi_handle_t *,
1818     ipmi_sdr_generic_locator_t *, uint8_t *);
1819 
1820 /*
1821  * Sun OEM uptime.  Note that the underlying command returns the uptime in big
1822  * endian form.  This wrapper automatically converts to the appropriate native
1823  * form.
1824  */
1825 
1826 #define	IPMI_CMD_SUNOEM_UPTIME		0x08
1827 
1828 extern int ipmi_sunoem_uptime(ipmi_handle_t *, uint32_t *, uint32_t *);
1829 
1830 /*
1831  * Sun OEM FRU update.  The FRU information is managed through a generic
1832  * identifier, and then a type-specific data portion.  The wrapper function will
1833  * automatically fill in the data length field according to which type is
1834  * specified.
1835  */
1836 
1837 #define	IPMI_CMD_SUNOEM_FRU_UPDATE	0x16
1838 
1839 #define	IPMI_SUNOEM_FRU_DIMM	0x00
1840 #define	IPMI_SUNOEM_FRU_CPU	0x01
1841 #define	IPMI_SUNOEM_FRU_BIOS	0x02
1842 #define	IPMI_SUNOEM_FRU_DISK	0x03
1843 
1844 typedef struct ipmi_sunoem_fru {
1845 	uint8_t				isf_type;
1846 	uint8_t				isf_id;
1847 	uint8_t				isf_datalen;
1848 	union {
1849 		struct {
1850 			uint8_t		isf_data[128];
1851 		} dimm;
1852 		struct {
1853 			uint32_t	isf_thermtrip;
1854 			uint32_t	isf_eax;
1855 			char		isf_product[48];
1856 		} cpu;
1857 		struct {
1858 			char		isf_part[16];
1859 			char		isf_version[16];
1860 		} bios;
1861 		struct {
1862 			char		isf_manufacturer[16];
1863 			char		isf_model[28];
1864 			char		isf_serial[20];
1865 			char		isf_version[8];
1866 			char		isf_capacity[16];
1867 		} disk;
1868 	} isf_data;
1869 } ipmi_sunoem_fru_t;
1870 
1871 int ipmi_sunoem_update_fru(ipmi_handle_t *, ipmi_sunoem_fru_t *);
1872 
1873 /*
1874  * See section 28.2
1875  */
1876 #define	IPMI_CMD_GET_CHASSIS_STATUS		0x01
1877 
1878 /*
1879  * flags for ichs_current_pwr_state field
1880  */
1881 #define	IPMI_CURR_PWR_STATE_ON		0x01
1882 #define	IPMI_CURR_PWR_STATE_OVERLOAD	0x02
1883 #define	IPMI_CURR_PWR_STATE_INTERLOCK	0x04
1884 #define	IPMI_CURR_PWR_STATE_FAULT	0x08
1885 #define	IPMI_CURR_PWR_STATE_CNTL_FAULT	0x10
1886 
1887 /*
1888  * flags for ichs_last_pwr_state field
1889  */
1890 #define	IPMI_LAST_PWR_STATE_ACFAILED	0x01
1891 #define	IPMI_LAST_PWR_STATE_OVERLOAD	0x02
1892 #define	IPMI_LAST_PWR_STATE_INTERLOCK	0x04
1893 #define	IPMI_LAST_PWR_STATE_FAULT	0x08
1894 #define	IPMI_LAST_PWR_STATE_CMD_ON	0x10
1895 
1896 /*
1897  * flags for the ichs_pwr_restore_policy field
1898  */
1899 #define	IPMI_PWR_POLICY_REMAIN_OFF	0x0
1900 #define	IPMI_PWR_POLICY_RESTORE		0x1
1901 #define	IPMI_PWR_POLICY_POWER_ON	0x2
1902 #define	IPMI_PWR_POLICY_UNKNOWN		0x3
1903 
1904 typedef struct ipmi_chassis_status {
1905 	DECL_BITFIELD3(
1906 	    ichs_current_pwr_state	:5,
1907 	    ichs_pwr_restore_policy	:2,
1908 	    __reserved1			:1);
1909 	DECL_BITFIELD2(
1910 	    ichs_last_pwr_state		:5,
1911 	    __reserved2			:3);
1912 	DECL_BITFIELD7(
1913 	    ichs_intrusion_asserted	:1,
1914 	    ichs_front_panel_disabled	:1,
1915 	    ichs_drive_fault_asserted	:1,
1916 	    ichs_fan_fault_asserted	:1,
1917 	    ichs_identify_state		:2,
1918 	    ichs_identify_supported	:1,
1919 	    __reserved3			:1);
1920 } ipmi_chassis_status_t;
1921 
1922 extern ipmi_chassis_status_t *ipmi_chassis_status(ipmi_handle_t *);
1923 
1924 /*
1925  * See section 28.5
1926  */
1927 #define	IPMI_CMD_CHASSIS_IDENTIFY	0x04
1928 int ipmi_chassis_identify(ipmi_handle_t *, boolean_t);
1929 
1930 #pragma pack()
1931 
1932 #ifdef	__cplusplus
1933 }
1934 #endif
1935 
1936 #endif	/* _LIBIPMI_H */
1937