xref: /freebsd/usr.sbin/bhyve/smbiostbl.c (revision 9f44a47fd07924afc035991af15d84e6585dea4f)
1 /*-
2  * SPDX-License-Identifier: BSD-2-Clause
3  *
4  * Copyright (c) 2014 Tycho Nightingale <tycho.nightingale@pluribusnetworks.com>
5  * All rights reserved.
6  *
7  * Redistribution and use in source and binary forms, with or without
8  * modification, are permitted provided that the following conditions
9  * are met:
10  * 1. Redistributions of source code must retain the above copyright
11  *    notice, this list of conditions and the following disclaimer.
12  * 2. Redistributions in binary form must reproduce the above copyright
13  *    notice, this list of conditions and the following disclaimer in the
14  *    documentation and/or other materials provided with the distribution.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND
17  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26  * SUCH DAMAGE.
27  */
28 
29 #include <sys/cdefs.h>
30 __FBSDID("$FreeBSD$");
31 
32 #include <sys/param.h>
33 
34 #include <assert.h>
35 #include <errno.h>
36 #include <md5.h>
37 #include <stdio.h>
38 #include <string.h>
39 #include <unistd.h>
40 #include <uuid.h>
41 
42 #include <machine/vmm.h>
43 #include <vmmapi.h>
44 
45 #include "bhyverun.h"
46 #include "config.h"
47 #include "debug.h"
48 #include "smbiostbl.h"
49 
50 #define	MB			(1024*1024)
51 #define	GB			(1024ULL*1024*1024)
52 
53 #define SMBIOS_BASE		0xF1000
54 
55 #define	FIRMWARE_VERSION	"14.0"
56 /* The SMBIOS specification defines the date format to be mm/dd/yyyy */
57 #define	FIRMWARE_RELEASE_DATE	"10/17/2021"
58 
59 /* BHYVE_ACPI_BASE - SMBIOS_BASE) */
60 #define	SMBIOS_MAX_LENGTH	(0xF2400 - 0xF1000)
61 
62 #define	SMBIOS_TYPE_BIOS	0
63 #define	SMBIOS_TYPE_SYSTEM	1
64 #define	SMBIOS_TYPE_BOARD	2
65 #define	SMBIOS_TYPE_CHASSIS	3
66 #define	SMBIOS_TYPE_PROCESSOR	4
67 #define	SMBIOS_TYPE_MEMARRAY	16
68 #define	SMBIOS_TYPE_MEMDEVICE	17
69 #define	SMBIOS_TYPE_MEMARRAYMAP	19
70 #define	SMBIOS_TYPE_BOOT	32
71 #define	SMBIOS_TYPE_EOT		127
72 
73 struct smbios_structure {
74 	uint8_t		type;
75 	uint8_t		length;
76 	uint16_t	handle;
77 } __packed;
78 
79 struct smbios_string {
80 	const char *node;
81 	const char *value;
82 };
83 
84 typedef int (*initializer_func_t)(const struct smbios_structure *template_entry,
85     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
86     uint16_t *n);
87 
88 struct smbios_template_entry {
89 	const struct smbios_structure	*entry;
90 	const struct smbios_string 	*strings;
91 	initializer_func_t		initializer;
92 };
93 
94 /*
95  * SMBIOS Structure Table Entry Point
96  */
97 #define	SMBIOS_ENTRY_EANCHOR	"_SM_"
98 #define	SMBIOS_ENTRY_EANCHORLEN	4
99 #define	SMBIOS_ENTRY_IANCHOR	"_DMI_"
100 #define	SMBIOS_ENTRY_IANCHORLEN	5
101 
102 struct smbios_entry_point {
103 	char		eanchor[4];	/* anchor tag */
104 	uint8_t		echecksum;	/* checksum of entry point structure */
105 	uint8_t		eplen;		/* length in bytes of entry point */
106 	uint8_t		major;		/* major version of the SMBIOS spec */
107 	uint8_t		minor;		/* minor version of the SMBIOS spec */
108 	uint16_t	maxssize;	/* maximum size in bytes of a struct */
109 	uint8_t		revision;	/* entry point structure revision */
110 	uint8_t		format[5];	/* entry point rev-specific data */
111 	char		ianchor[5];	/* intermediate anchor tag */
112 	uint8_t		ichecksum;	/* intermediate checksum */
113 	uint16_t	stlen;		/* len in bytes of structure table */
114 	uint32_t	staddr;		/* physical addr of structure table */
115 	uint16_t	stnum;		/* number of structure table entries */
116 	uint8_t		bcdrev;		/* BCD value representing DMI ver */
117 } __packed;
118 
119 /*
120  * BIOS Information
121  */
122 #define	SMBIOS_FL_ISA		0x00000010	/* ISA is supported */
123 #define	SMBIOS_FL_PCI		0x00000080	/* PCI is supported */
124 #define	SMBIOS_FL_SHADOW	0x00001000	/* BIOS shadowing is allowed */
125 #define	SMBIOS_FL_CDBOOT	0x00008000	/* Boot from CD is supported */
126 #define	SMBIOS_FL_SELBOOT	0x00010000	/* Selectable Boot supported */
127 #define	SMBIOS_FL_EDD		0x00080000	/* EDD Spec is supported */
128 
129 #define	SMBIOS_XB1_FL_ACPI	0x00000001	/* ACPI is supported */
130 
131 #define	SMBIOS_XB2_FL_BBS	0x00000001	/* BIOS Boot Specification */
132 #define	SMBIOS_XB2_FL_VM	0x00000010	/* Virtual Machine */
133 
134 struct smbios_table_type0 {
135 	struct smbios_structure	header;
136 	uint8_t			vendor;		/* vendor string */
137 	uint8_t			version;	/* version string */
138 	uint16_t		segment;	/* address segment location */
139 	uint8_t			rel_date;	/* release date */
140 	uint8_t			size;		/* rom size */
141 	uint64_t		cflags;		/* characteristics */
142 	uint8_t			xc_bytes[2];	/* characteristics ext bytes */
143 	uint8_t			sb_major_rel;	/* system bios version */
144 	uint8_t			sb_minor_rele;
145 	uint8_t			ecfw_major_rel;	/* embedded ctrl fw version */
146 	uint8_t			ecfw_minor_rel;
147 } __packed;
148 
149 /*
150  * System Information
151  */
152 #define	SMBIOS_WAKEUP_SWITCH	0x06	/* power switch */
153 
154 struct smbios_table_type1 {
155 	struct smbios_structure	header;
156 	uint8_t			manufacturer;	/* manufacturer string */
157 	uint8_t			product;	/* product name string */
158 	uint8_t			version;	/* version string */
159 	uint8_t			serial;		/* serial number string */
160 	uint8_t			uuid[16];	/* uuid byte array */
161 	uint8_t			wakeup;		/* wake-up event */
162 	uint8_t			sku;		/* sku number string */
163 	uint8_t			family;		/* family name string */
164 } __packed;
165 
166 /*
167  * Baseboard (or Module) Information
168  */
169 #define SMBIOS_BRF_HOSTING	0x1
170 #define SMBIOS_BRT_MOTHERBOARD	0xa
171 
172 struct smbios_table_type2 {
173 	struct smbios_structure	header;
174 	uint8_t			manufacturer;	/* manufacturer string */
175 	uint8_t			product;	/* product name string */
176 	uint8_t			version;	/* version string */
177 	uint8_t			serial;		/* serial number string */
178 	uint8_t			asset;		/* asset tag string */
179 	uint8_t			fflags;		/* feature flags */
180 	uint8_t			location;	/* location in chassis */
181 	uint16_t		chandle;	/* chassis handle */
182 	uint8_t			type;		/* board type */
183 	uint8_t			n_objs;		/* number of contained object handles */
184 } __packed;
185 
186 /*
187  * System Enclosure or Chassis
188  */
189 #define	SMBIOS_CHT_UNKNOWN	0x02	/* unknown */
190 #define	SMBIOS_CHT_DESKTOP	0x03	/* desktop */
191 
192 #define	SMBIOS_CHST_SAFE	0x03	/* safe */
193 
194 #define	SMBIOS_CHSC_NONE	0x03	/* none */
195 
196 struct smbios_table_type3 {
197 	struct smbios_structure	header;
198 	uint8_t			manufacturer;	/* manufacturer string */
199 	uint8_t			type;		/* type */
200 	uint8_t			version;	/* version string */
201 	uint8_t			serial;		/* serial number string */
202 	uint8_t			asset;		/* asset tag string */
203 	uint8_t			bustate;	/* boot-up state */
204 	uint8_t			psstate;	/* power supply state */
205 	uint8_t			tstate;		/* thermal state */
206 	uint8_t			security;	/* security status */
207 	uint32_t		oemdata;	/* OEM-specific data */
208 	uint8_t			uheight;	/* height in 'u's */
209 	uint8_t			cords;		/* number of power cords */
210 	uint8_t			elems;		/* number of element records */
211 	uint8_t			elemlen;	/* length of records */
212 	uint8_t			sku;		/* sku number string */
213 } __packed;
214 
215 /*
216  * Processor Information
217  */
218 #define	SMBIOS_PRT_CENTRAL	0x03	/* central processor */
219 
220 #define	SMBIOS_PRF_OTHER	0x01	/* other */
221 
222 #define	SMBIOS_PRS_PRESENT	0x40	/* socket is populated */
223 #define	SMBIOS_PRS_ENABLED	0x1	/* enabled */
224 
225 #define	SMBIOS_PRU_NONE		0x06	/* none */
226 
227 #define	SMBIOS_PFL_64B	0x04	/* 64-bit capable */
228 
229 struct smbios_table_type4 {
230 	struct smbios_structure	header;
231 	uint8_t			socket;		/* socket designation string */
232 	uint8_t			type;		/* processor type */
233 	uint8_t			family;		/* processor family */
234 	uint8_t			manufacturer;	/* manufacturer string */
235 	uint64_t		cpuid;		/* processor cpuid */
236 	uint8_t			version;	/* version string */
237 	uint8_t			voltage;	/* voltage */
238 	uint16_t		clkspeed;	/* ext clock speed in mhz */
239 	uint16_t		maxspeed;	/* maximum speed in mhz */
240 	uint16_t		curspeed;	/* current speed in mhz */
241 	uint8_t			status;		/* status */
242 	uint8_t			upgrade;	/* upgrade */
243 	uint16_t		l1handle;	/* l1 cache handle */
244 	uint16_t		l2handle;	/* l2 cache handle */
245 	uint16_t		l3handle;	/* l3 cache handle */
246 	uint8_t			serial;		/* serial number string */
247 	uint8_t			asset;		/* asset tag string */
248 	uint8_t			part;		/* part number string */
249 	uint8_t			cores;		/* cores per socket */
250 	uint8_t			ecores;		/* enabled cores */
251 	uint8_t			threads;	/* threads per socket */
252 	uint16_t		cflags;		/* processor characteristics */
253 	uint16_t		family2;	/* processor family 2 */
254 } __packed;
255 
256 /*
257  * Physical Memory Array
258  */
259 #define	SMBIOS_MAL_SYSMB	0x03	/* system board or motherboard */
260 
261 #define	SMBIOS_MAU_SYSTEM	0x03	/* system memory */
262 
263 #define	SMBIOS_MAE_NONE		0x03	/* none */
264 
265 struct smbios_table_type16 {
266 	struct smbios_structure	header;
267 	uint8_t			location;	/* physical device location */
268 	uint8_t			use;		/* device functional purpose */
269 	uint8_t			ecc;		/* err detect/correct method */
270 	uint32_t		size;		/* max mem capacity in kb */
271 	uint16_t		errhand;	/* handle of error (if any) */
272 	uint16_t		ndevs;		/* num of slots or sockets */
273 	uint64_t		xsize;		/* max mem capacity in bytes */
274 } __packed;
275 
276 /*
277  * Memory Device
278  */
279 #define	SMBIOS_MDFF_UNKNOWN	0x02	/* unknown */
280 
281 #define	SMBIOS_MDT_UNKNOWN	0x02	/* unknown */
282 
283 #define	SMBIOS_MDF_UNKNOWN	0x0004	/* unknown */
284 
285 struct smbios_table_type17 {
286 	struct smbios_structure	header;
287 	uint16_t		arrayhand;	/* handle of physl mem array */
288 	uint16_t		errhand;	/* handle of mem error data */
289 	uint16_t		twidth;		/* total width in bits */
290 	uint16_t		dwidth;		/* data width in bits */
291 	uint16_t		size;		/* size in kb or mb */
292 	uint8_t			form;		/* form factor */
293 	uint8_t			set;		/* set */
294 	uint8_t			dloc;		/* device locator string */
295 	uint8_t			bloc;		/* phys bank locator string */
296 	uint8_t			type;		/* memory type */
297 	uint16_t		flags;		/* memory characteristics */
298 	uint16_t		maxspeed;	/* maximum speed in mhz */
299 	uint8_t			manufacturer;	/* manufacturer string */
300 	uint8_t			serial;		/* serial number string */
301 	uint8_t			asset;		/* asset tag string */
302 	uint8_t			part;		/* part number string */
303 	uint8_t			attributes;	/* attributes */
304 	uint32_t		xsize;		/* extended size in mb */
305 	uint16_t		curspeed;	/* current speed in mhz */
306 	uint16_t		minvoltage;	/* minimum voltage */
307 	uint16_t		maxvoltage;	/* maximum voltage */
308 	uint16_t		curvoltage;	/* configured voltage */
309 } __packed;
310 
311 /*
312  * Memory Array Mapped Address
313  */
314 struct smbios_table_type19 {
315 	struct smbios_structure	header;
316 	uint32_t		saddr;		/* start phys addr in kb */
317 	uint32_t		eaddr;		/* end phys addr in kb */
318 	uint16_t		arrayhand;	/* physical mem array handle */
319 	uint8_t			width;		/* num of dev in row */
320 	uint64_t		xsaddr;		/* start phys addr in bytes */
321 	uint64_t		xeaddr;		/* end phys addr in bytes */
322 } __packed;
323 
324 /*
325  * System Boot Information
326  */
327 #define	SMBIOS_BOOT_NORMAL	0	/* no errors detected */
328 
329 struct smbios_table_type32 {
330 	struct smbios_structure	header;
331 	uint8_t			reserved[6];
332 	uint8_t			status;		/* boot status */
333 } __packed;
334 
335 /*
336  * End-of-Table
337  */
338 struct smbios_table_type127 {
339 	struct smbios_structure	header;
340 } __packed;
341 
342 static const struct smbios_table_type0 smbios_type0_template = {
343 	{ SMBIOS_TYPE_BIOS, sizeof (struct smbios_table_type0), 0 },
344 	1,	/* bios vendor string */
345 	2,	/* bios version string */
346 	0xF000,	/* bios address segment location */
347 	3,	/* bios release date */
348 	0x0,	/* bios size (64k * (n + 1) is the size in bytes) */
349 	SMBIOS_FL_ISA | SMBIOS_FL_PCI | SMBIOS_FL_SHADOW |
350 	    SMBIOS_FL_CDBOOT | SMBIOS_FL_EDD,
351 	{ SMBIOS_XB1_FL_ACPI, SMBIOS_XB2_FL_BBS | SMBIOS_XB2_FL_VM },
352 	0x0,	/* bios major release */
353 	0x0,	/* bios minor release */
354 	0xff,	/* embedded controller firmware major release */
355 	0xff	/* embedded controller firmware minor release */
356 };
357 
358 static const struct smbios_string smbios_type0_strings[] = {
359 	{ "bios.vendor", "BHYVE" },			/* vendor string */
360 	{ "bios.version", FIRMWARE_VERSION },		/* bios version string */
361 	{ "bios.release_date", FIRMWARE_RELEASE_DATE },	/* bios release date string */
362 	{ 0 }
363 };
364 
365 static const struct smbios_table_type1 smbios_type1_template = {
366 	{ SMBIOS_TYPE_SYSTEM, sizeof (struct smbios_table_type1), 0 },
367 	1,		/* manufacturer string */
368 	2,		/* product string */
369 	3,		/* version string */
370 	4,		/* serial number string */
371 	{ 0 },
372 	SMBIOS_WAKEUP_SWITCH,
373 	5,		/* sku string */
374 	6		/* family string */
375 };
376 
377 static int smbios_type1_initializer(const struct smbios_structure *template_entry,
378     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
379     uint16_t *n);
380 
381 static const struct smbios_string smbios_type1_strings[] = {
382 	{ "system.manufacturer", "FreeBSD" },	     /* manufacturer string */
383 	{ "system.product_name", "BHYVE" },	     /* product string */
384 	{ "system.version", "1.0" },		     /* version string */
385 	{ "system.serial_number", "None" },	     /* serial number string */
386 	{ "system.sku", "None" },		     /* sku string */
387 	{ "system.family_name", "Virtual Machine" }, /* family string */
388 	{ 0 }
389 };
390 
391 static const struct smbios_table_type2 smbios_type2_template = {
392 	{ SMBIOS_TYPE_BOARD, sizeof (struct smbios_table_type2), 0 },
393 	1,			/* manufacturer string */
394 	2,			/* product string */
395 	3,			/* version string */
396 	4,			/* serial number string */
397 	5,			/* asset tag string */
398 	SMBIOS_BRF_HOSTING,	/* feature flags */
399 	6,			/* location string */
400 	SMBIOS_CHT_DESKTOP,	/* chassis handle */
401 	SMBIOS_BRT_MOTHERBOARD,	/* board type */
402 	0
403 };
404 
405 static const struct smbios_string smbios_type2_strings[] = {
406 	{ "board.manufacturer", "FreeBSD" },	/* manufacturer string */
407 	{ "board.product_name", "BHYVE" },	/* product name string */
408 	{ "board.version", "1.0" },		/* version string */
409 	{ "board.serial_number", "None" },	/* serial number string */
410 	{ "board.asset_tag", "None" },		/* asset tag string */
411 	{ "board.location", "None" },		/* location string */
412 	{ 0 }
413 };
414 
415 static const struct smbios_table_type3 smbios_type3_template = {
416 	{ SMBIOS_TYPE_CHASSIS, sizeof (struct smbios_table_type3), 0 },
417 	1,		/* manufacturer string */
418 	SMBIOS_CHT_UNKNOWN,
419 	2,		/* version string */
420 	3,		/* serial number string */
421 	4,		/* asset tag string */
422 	SMBIOS_CHST_SAFE,
423 	SMBIOS_CHST_SAFE,
424 	SMBIOS_CHST_SAFE,
425 	SMBIOS_CHSC_NONE,
426 	0,		/* OEM specific data, we have none */
427 	0,		/* height in 'u's (0=enclosure height unspecified) */
428 	0,		/* number of power cords (0=number unspecified) */
429 	0,		/* number of contained element records */
430 	0,		/* length of records */
431 	5		/* sku number string */
432 };
433 
434 static const struct smbios_string smbios_type3_strings[] = {
435 	{ "chassis.manufacturer", "FreeBSD" },	/* manufacturer string */
436 	{ "chassis.version", "1.0" },		/* version string */
437 	{ "chassis.serial_number", "None" },	/* serial number string */
438 	{ "chassis.asset_tag", "None" },	/* asset tag string */
439 	{ "chassis.sku", "None" },		/* sku number string */
440 	{ 0 }
441 };
442 
443 static const struct smbios_table_type4 smbios_type4_template = {
444 	{ SMBIOS_TYPE_PROCESSOR, sizeof (struct smbios_table_type4), 0 },
445 	1,		/* socket designation string */
446 	SMBIOS_PRT_CENTRAL,
447 	SMBIOS_PRF_OTHER,
448 	2,		/* manufacturer string */
449 	0,		/* cpuid */
450 	3,		/* version string */
451 	0,		/* voltage */
452 	0,		/* external clock frequency in mhz (0=unknown) */
453 	0,		/* maximum frequency in mhz (0=unknown) */
454 	0,		/* current frequency in mhz (0=unknown) */
455 	SMBIOS_PRS_PRESENT | SMBIOS_PRS_ENABLED,
456 	SMBIOS_PRU_NONE,
457 	-1,		/* l1 cache handle */
458 	-1,		/* l2 cache handle */
459 	-1,		/* l3 cache handle */
460 	4,		/* serial number string */
461 	5,		/* asset tag string */
462 	6,		/* part number string */
463 	0,		/* cores per socket (0=unknown) */
464 	0,		/* enabled cores per socket (0=unknown) */
465 	0,		/* threads per socket (0=unknown) */
466 	SMBIOS_PFL_64B,
467 	SMBIOS_PRF_OTHER
468 };
469 
470 static const struct smbios_string smbios_type4_strings[] = {
471 	{ NULL, " " },		/* socket designation string */
472 	{ NULL, " " },		/* manufacturer string */
473 	{ NULL, " " },		/* version string */
474 	{ NULL, "None" },	/* serial number string */
475 	{ NULL, "None" },	/* asset tag string */
476 	{ NULL, "None" },	/* part number string */
477 	{ 0 }
478 };
479 
480 static int smbios_type4_initializer(
481     const struct smbios_structure *template_entry,
482     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
483     uint16_t *n);
484 
485 static const struct smbios_table_type16 smbios_type16_template = {
486 	{ SMBIOS_TYPE_MEMARRAY, sizeof (struct smbios_table_type16),  0 },
487 	SMBIOS_MAL_SYSMB,
488 	SMBIOS_MAU_SYSTEM,
489 	SMBIOS_MAE_NONE,
490 	0x80000000,	/* max mem capacity in kb (0x80000000=use extended) */
491 	-1,		/* handle of error (if any) */
492 	0,		/* number of slots or sockets (TBD) */
493 	0		/* extended maximum memory capacity in bytes (TBD) */
494 };
495 
496 static int smbios_type16_initializer(
497     const struct smbios_structure *template_entry,
498     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
499     uint16_t *n);
500 
501 static const struct smbios_table_type17 smbios_type17_template = {
502 	{ SMBIOS_TYPE_MEMDEVICE, sizeof (struct smbios_table_type17),  0 },
503 	-1,		/* handle of physical memory array */
504 	-1,		/* handle of memory error data */
505 	64,		/* total width in bits including ecc */
506 	64,		/* data width in bits */
507 	0,		/* size in kb or mb (0x7fff=use extended)*/
508 	SMBIOS_MDFF_UNKNOWN,
509 	0,		/* set (0x00=none, 0xff=unknown) */
510 	1,		/* device locator string */
511 	2,		/* physical bank locator string */
512 	SMBIOS_MDT_UNKNOWN,
513 	SMBIOS_MDF_UNKNOWN,
514 	0,		/* maximum memory speed in mhz (0=unknown) */
515 	3,		/* manufacturer string */
516 	4,		/* serial number string */
517 	5,		/* asset tag string */
518 	6,		/* part number string */
519 	0,		/* attributes (0=unknown rank information) */
520 	0,		/* extended size in mb (TBD) */
521 	0,		/* current speed in mhz (0=unknown) */
522 	0,		/* minimum voltage in mv (0=unknown) */
523 	0,		/* maximum voltage in mv (0=unknown) */
524 	0		/* configured voltage in mv (0=unknown) */
525 };
526 
527 static const struct smbios_string smbios_type17_strings[] = {
528 	{ NULL, " " },		/* device locator string */
529 	{ NULL, " " },		/* physical bank locator string */
530 	{ NULL, " " },		/* manufacturer string */
531 	{ NULL, "None" },	/* serial number string */
532 	{ NULL, "None" },	/* asset tag string */
533 	{ NULL, "None" },	/* part number string */
534 	{ 0 }
535 };
536 
537 static int smbios_type17_initializer(
538     const struct smbios_structure *template_entry,
539     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
540     uint16_t *n);
541 
542 static const struct smbios_table_type19 smbios_type19_template = {
543 	{ SMBIOS_TYPE_MEMARRAYMAP, sizeof (struct smbios_table_type19),  0 },
544 	0xffffffff,	/* starting phys addr in kb (0xffffffff=use ext) */
545 	0xffffffff,	/* ending phys addr in kb (0xffffffff=use ext) */
546 	-1,		/* physical memory array handle */
547 	1,		/* number of devices that form a row */
548 	0,		/* extended starting phys addr in bytes (TDB) */
549 	0		/* extended ending phys addr in bytes (TDB) */
550 };
551 
552 static int smbios_type19_initializer(
553     const struct smbios_structure *template_entry,
554     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
555     uint16_t *n);
556 
557 static struct smbios_table_type32 smbios_type32_template = {
558 	{ SMBIOS_TYPE_BOOT, sizeof (struct smbios_table_type32),  0 },
559 	{ 0, 0, 0, 0, 0, 0 },
560 	SMBIOS_BOOT_NORMAL
561 };
562 
563 static const struct smbios_table_type127 smbios_type127_template = {
564 	{ SMBIOS_TYPE_EOT, sizeof (struct smbios_table_type127),  0 }
565 };
566 
567 static int smbios_generic_initializer(
568     const struct smbios_structure *template_entry,
569     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
570     uint16_t *n);
571 
572 static struct smbios_template_entry smbios_template[] = {
573 	{ (const struct smbios_structure *)&smbios_type0_template,
574 	  smbios_type0_strings,
575 	  smbios_generic_initializer },
576 	{ (const struct smbios_structure *)&smbios_type1_template,
577 	  smbios_type1_strings,
578 	  smbios_type1_initializer },
579 	{ (const struct smbios_structure *)&smbios_type2_template,
580 	  smbios_type2_strings,
581 	  smbios_generic_initializer },
582 	{ (const struct smbios_structure *)&smbios_type3_template,
583 	  smbios_type3_strings,
584 	  smbios_generic_initializer },
585 	{ (const struct smbios_structure *)&smbios_type4_template,
586 	  smbios_type4_strings,
587 	  smbios_type4_initializer },
588 	{ (const struct smbios_structure *)&smbios_type16_template,
589 	  NULL,
590 	  smbios_type16_initializer },
591 	{ (const struct smbios_structure *)&smbios_type17_template,
592 	  smbios_type17_strings,
593 	  smbios_type17_initializer },
594 	{ (const struct smbios_structure *)&smbios_type19_template,
595 	  NULL,
596 	  smbios_type19_initializer },
597 	{ (const struct smbios_structure *)&smbios_type32_template,
598 	  NULL,
599 	  smbios_generic_initializer },
600 	{ (const struct smbios_structure *)&smbios_type127_template,
601 	  NULL,
602 	  smbios_generic_initializer },
603 	{ NULL,NULL, NULL }
604 };
605 
606 static uint64_t guest_lomem, guest_himem;
607 static uint16_t type16_handle;
608 
609 static int
610 smbios_generic_initializer(const struct smbios_structure *template_entry,
611     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
612     uint16_t *n)
613 {
614 	struct smbios_structure *entry;
615 
616 	memcpy(curaddr, template_entry, template_entry->length);
617 	entry = (struct smbios_structure *)curaddr;
618 	entry->handle = *n + 1;
619 	curaddr += entry->length;
620 	if (template_strings != NULL) {
621 		int	i;
622 
623 		for (i = 0; template_strings[i].value != NULL; i++) {
624 			const char *string;
625 			int len;
626 
627 			if (template_strings[i].node == NULL) {
628 				string = template_strings[i].value;
629 			} else {
630 				set_config_value_if_unset(
631 				    template_strings[i].node,
632 				    template_strings[i].value);
633 				string = get_config_value(
634 				    template_strings[i].node);
635 			}
636 
637 			len = strlen(string) + 1;
638 			memcpy(curaddr, string, len);
639 			curaddr += len;
640 		}
641 		*curaddr = '\0';
642 		curaddr++;
643 	} else {
644 		/* Minimum string section is double nul */
645 		*curaddr = '\0';
646 		curaddr++;
647 		*curaddr = '\0';
648 		curaddr++;
649 	}
650 	(*n)++;
651 	*endaddr = curaddr;
652 
653 	return (0);
654 }
655 
656 static int
657 smbios_type1_initializer(const struct smbios_structure *template_entry,
658     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
659     uint16_t *n)
660 {
661 	struct smbios_table_type1 *type1;
662 	const char *guest_uuid_str;
663 
664 	smbios_generic_initializer(template_entry, template_strings,
665 	    curaddr, endaddr, n);
666 	type1 = (struct smbios_table_type1 *)curaddr;
667 
668 	guest_uuid_str = get_config_value("uuid");
669 	if (guest_uuid_str != NULL) {
670 		uuid_t		uuid;
671 		uint32_t	status;
672 
673 		uuid_from_string(guest_uuid_str, &uuid, &status);
674 		if (status != uuid_s_ok) {
675 			EPRINTLN("Invalid UUID");
676 			return (-1);
677 		}
678 
679 		uuid_enc_le(&type1->uuid, &uuid);
680 	} else {
681 		MD5_CTX		mdctx;
682 		u_char		digest[16];
683 		char		hostname[MAXHOSTNAMELEN];
684 		const char	*vmname;
685 
686 		/*
687 		 * Universally unique and yet reproducible are an
688 		 * oxymoron, however reproducible is desirable in
689 		 * this case.
690 		 */
691 		if (gethostname(hostname, sizeof(hostname)))
692 			return (-1);
693 
694 		MD5Init(&mdctx);
695 		vmname = get_config_value("name");
696 		MD5Update(&mdctx, vmname, strlen(vmname));
697 		MD5Update(&mdctx, hostname, sizeof(hostname));
698 		MD5Final(digest, &mdctx);
699 
700 		/*
701 		 * Set the variant and version number.
702 		 */
703 		digest[6] &= 0x0F;
704 		digest[6] |= 0x30;	/* version 3 */
705 		digest[8] &= 0x3F;
706 		digest[8] |= 0x80;
707 
708 		memcpy(&type1->uuid, digest, sizeof (digest));
709 	}
710 
711 	return (0);
712 }
713 
714 static int
715 smbios_type4_initializer(const struct smbios_structure *template_entry,
716     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
717     uint16_t *n)
718 {
719 	int i;
720 
721 	for (i = 0; i < cpu_sockets; i++) {
722 		struct smbios_table_type4 *type4;
723 		char *p;
724 		int nstrings, len;
725 
726 		smbios_generic_initializer(template_entry, template_strings,
727 		    curaddr, endaddr, n);
728 		type4 = (struct smbios_table_type4 *)curaddr;
729 		p = curaddr + sizeof (struct smbios_table_type4);
730 		nstrings = 0;
731 		while (p < *endaddr - 1) {
732 			if (*p++ == '\0')
733 				nstrings++;
734 		}
735 		len = sprintf(*endaddr - 1, "CPU #%d", i) + 1;
736 		*endaddr += len - 1;
737 		*(*endaddr) = '\0';
738 		(*endaddr)++;
739 		type4->socket = nstrings + 1;
740 		/* Revise cores and threads after update to smbios 3.0 */
741 		if (cpu_cores > 254)
742 			type4->cores = 0;
743 		else
744 			type4->cores = cpu_cores;
745 		/* This threads is total threads in a socket */
746 		if (cpu_cores * cpu_threads > 254)
747 			type4->threads = 0;
748 		else
749 			type4->threads = cpu_cores * cpu_threads;
750 		curaddr = *endaddr;
751 	}
752 
753 	return (0);
754 }
755 
756 static int
757 smbios_type16_initializer(const struct smbios_structure *template_entry,
758     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
759     uint16_t *n)
760 {
761 	struct smbios_table_type16 *type16;
762 
763 	type16_handle = *n;
764 	smbios_generic_initializer(template_entry, template_strings,
765 	    curaddr, endaddr, n);
766 	type16 = (struct smbios_table_type16 *)curaddr;
767 	type16->xsize = guest_lomem + guest_himem;
768 	type16->ndevs = guest_himem > 0 ? 2 : 1;
769 
770 	return (0);
771 }
772 
773 static int
774 smbios_type17_initializer(const struct smbios_structure *template_entry,
775     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
776     uint16_t *n)
777 {
778 	struct smbios_table_type17 *type17;
779 	uint64_t memsize, size_KB, size_MB;
780 
781 	smbios_generic_initializer(template_entry, template_strings,
782 	    curaddr, endaddr, n);
783 	type17 = (struct smbios_table_type17 *)curaddr;
784 	type17->arrayhand = type16_handle;
785 
786 	memsize = guest_lomem + guest_himem;
787 	size_KB = memsize / 1024;
788 	size_MB = memsize / MB;
789 
790 	/* A single Type 17 entry can't represent more than ~2PB RAM */
791 	if (size_MB > 0x7FFFFFFF) {
792 		printf("Warning: guest memory too big for SMBIOS Type 17 table: "
793 			"%luMB greater than max supported 2147483647MB\n", size_MB);
794 
795 		size_MB = 0x7FFFFFFF;
796 	}
797 
798 	/* See SMBIOS 2.7.0 section 7.18 - Memory Device (Type 17) */
799 	if (size_KB <= 0x7FFF) {
800 		/* Can represent up to 32767KB with the top bit set */
801 		type17->size = size_KB | (1 << 15);
802 	} else if (size_MB < 0x7FFF) {
803 		/* Can represent up to 32766MB with the top bit unset */
804 		type17->size = size_MB & 0x7FFF;
805 	} else {
806 		type17->size = 0x7FFF;
807 		/*
808 		 * Can represent up to 2147483647MB (~2PB)
809 		 * The top bit is reserved
810 		 */
811 		type17->xsize = size_MB & 0x7FFFFFFF;
812 	}
813 
814 	return (0);
815 }
816 
817 static int
818 smbios_type19_initializer(const struct smbios_structure *template_entry,
819     const struct smbios_string *template_strings, char *curaddr, char **endaddr,
820     uint16_t *n)
821 {
822 	struct smbios_table_type19 *type19;
823 
824 	smbios_generic_initializer(template_entry, template_strings,
825 	    curaddr, endaddr, n);
826 	type19 = (struct smbios_table_type19 *)curaddr;
827 	type19->arrayhand = type16_handle;
828 	type19->xsaddr = 0;
829 	type19->xeaddr = guest_lomem;
830 
831 	if (guest_himem > 0) {
832 		curaddr = *endaddr;
833 		smbios_generic_initializer(template_entry, template_strings,
834 		    curaddr, endaddr, n);
835 		type19 = (struct smbios_table_type19 *)curaddr;
836 		type19->arrayhand = type16_handle;
837 		type19->xsaddr = 4*GB;
838 		type19->xeaddr = type19->xsaddr + guest_himem;
839 	}
840 
841 	return (0);
842 }
843 
844 static void
845 smbios_ep_initializer(struct smbios_entry_point *smbios_ep, uint32_t staddr)
846 {
847 	memset(smbios_ep, 0, sizeof(*smbios_ep));
848 	memcpy(smbios_ep->eanchor, SMBIOS_ENTRY_EANCHOR,
849 	    SMBIOS_ENTRY_EANCHORLEN);
850 	smbios_ep->eplen = 0x1F;
851 	assert(sizeof (struct smbios_entry_point) == smbios_ep->eplen);
852 	smbios_ep->major = 2;
853 	smbios_ep->minor = 6;
854 	smbios_ep->revision = 0;
855 	memcpy(smbios_ep->ianchor, SMBIOS_ENTRY_IANCHOR,
856 	    SMBIOS_ENTRY_IANCHORLEN);
857 	smbios_ep->staddr = staddr;
858 	smbios_ep->bcdrev = (smbios_ep->major & 0xf) << 4 | (smbios_ep->minor & 0xf);
859 }
860 
861 static void
862 smbios_ep_finalizer(struct smbios_entry_point *smbios_ep, uint16_t len,
863     uint16_t num, uint16_t maxssize)
864 {
865 	uint8_t	checksum;
866 	int	i;
867 
868 	smbios_ep->maxssize = maxssize;
869 	smbios_ep->stlen = len;
870 	smbios_ep->stnum = num;
871 
872 	checksum = 0;
873 	for (i = 0x10; i < 0x1f; i++) {
874 		checksum -= ((uint8_t *)smbios_ep)[i];
875 	}
876 	smbios_ep->ichecksum = checksum;
877 
878 	checksum = 0;
879 	for (i = 0; i < 0x1f; i++) {
880 		checksum -= ((uint8_t *)smbios_ep)[i];
881 	}
882 	smbios_ep->echecksum = checksum;
883 }
884 
885 int
886 smbios_build(struct vmctx *ctx)
887 {
888 	struct smbios_entry_point	*smbios_ep;
889 	uint16_t			n;
890 	uint16_t			maxssize;
891 	char				*curaddr, *startaddr, *ststartaddr;
892 	int				i;
893 	int				err;
894 
895 	guest_lomem = vm_get_lowmem_size(ctx);
896 	guest_himem = vm_get_highmem_size(ctx);
897 
898 	startaddr = paddr_guest2host(ctx, SMBIOS_BASE, SMBIOS_MAX_LENGTH);
899 	if (startaddr == NULL) {
900 		EPRINTLN("smbios table requires mapped mem");
901 		return (ENOMEM);
902 	}
903 
904 	curaddr = startaddr;
905 
906 	smbios_ep = (struct smbios_entry_point *)curaddr;
907 	smbios_ep_initializer(smbios_ep, SMBIOS_BASE +
908 	    sizeof(struct smbios_entry_point));
909 	curaddr += sizeof(struct smbios_entry_point);
910 	ststartaddr = curaddr;
911 
912 	n = 0;
913 	maxssize = 0;
914 	for (i = 0; smbios_template[i].entry != NULL; i++) {
915 		const struct smbios_structure	*entry;
916 		const struct smbios_string	*strings;
917 		initializer_func_t      initializer;
918 		char			*endaddr;
919 		size_t			size;
920 
921 		entry = smbios_template[i].entry;
922 		strings = smbios_template[i].strings;
923 		initializer = smbios_template[i].initializer;
924 
925 		err = (*initializer)(entry, strings, curaddr, &endaddr, &n);
926 		if (err != 0)
927 			return (err);
928 
929 		size = endaddr - curaddr;
930 		assert(size <= UINT16_MAX);
931 		if (size > maxssize)
932 			maxssize = (uint16_t)size;
933 		curaddr = endaddr;
934 	}
935 
936 	assert(curaddr - startaddr < SMBIOS_MAX_LENGTH);
937 	smbios_ep_finalizer(smbios_ep, curaddr - ststartaddr, n, maxssize);
938 
939 	return (0);
940 }
941