xref: /illumos-gate/usr/src/uts/sun4u/opl/sys/opl_hwdesc.h (revision 6e375c8351497b82ffa4f33cbf61d712999b4605)
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 2007 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_SYS_OPL_HWDESC_H
27 #define	_SYS_OPL_HWDESC_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #ifdef	__cplusplus
32 extern "C" {
33 #endif
34 
35 /*
36  * Hardware Descriptor.
37  */
38 
39 #define	HWD_SBS_PER_DOMAIN		32  /* System boards per domain */
40 #define	HWD_CPUS_PER_CORE		4   /* Strands per physical core */
41 #define	HWD_CORES_PER_CPU_CHIP		4   /* Cores per processor chip */
42 #define	HWD_CPU_CHIPS_PER_CMU		4   /* Processor chips per CMU */
43 #define	HWD_SCS_PER_CMU			4   /* System controllers per CMU */
44 #define	HWD_DIMMS_PER_CMU		32  /* Memory DIMMs per CMU */
45 #define	HWD_IOCS_PER_IOU		2   /* Oberon chips per I/O unit */
46 #define	HWD_PCI_CHANNELS_PER_IOC	2   /* PCI channels per Oberon chip */
47 #define	HWD_LEAVES_PER_PCI_CHANNEL	2   /* Leaves per PCI channel */
48 #define	HWD_PCI_CHANNELS_PER_SB		4   /* PCI channels per system board */
49 #define	HWD_CMU_CHANNEL			4   /* CMU channel number */
50 #define	HWD_IO_BOATS_PER_IOU		6   /* I/O boats per I/O unit */
51 #define	HWD_BANKS_PER_CMU		8   /* Memory banks per CMU */
52 #define	HWD_MAX_MEM_CHUNKS		8   /* Chunks per board */
53 
54 typedef uint32_t	hwd_stat_t;	/* component status */
55 
56 /*
57  * Values for hwd_stat_t.
58  */
59 #define	HWD_STAT_UNKNOWN	0x0000	/* No status yet */
60 #define	HWD_STAT_PRESENT	0x0001	/* Present */
61 #define	HWD_STAT_MISS		0x0002	/* Missing */
62 #define	HWD_STAT_MISCONFIG	0x0003	/* Misconfigured */
63 #define	HWD_STAT_PASS		0x0004	/* Ok */
64 #define	HWD_STAT_FAIL		0x0080	/* Failed by XSCF */
65 #define	HWD_STAT_FAIL_OBP	0x0081	/* Failed by POST/OBP */
66 #define	HWD_STAT_FAIL_OS	0x0082	/* Failed by OS */
67 
68 #define	HWD_STAT_FAILED		0x0080
69 
70 #define	HWD_MASK_NOT_USED	0x8000	/* If this bit is set, the component */
71 					/* is not used (even if it presents) */
72 
73 #define	HWD_STATUS_FAILED(stat)		((stat) & HWD_STAT_FAILED)
74 #define	HWD_STATUS_OK(stat)		((stat) == HWD_STAT_PASS)
75 #define	HWD_STATUS_PRESENT(stat)	\
76 		((stat) & (HWD_STAT_PRESENT | HWD_STAT_PASS))
77 #define	HWD_STATUS_NONE(stat)			\
78 		(((stat) == HWD_STAT_UNKNOWN) || ((stat) == HWD_STAT_MISS))
79 
80 #define	HWD_VERSION_MAJOR	1
81 #define	HWD_VERSION_MINOR	1
82 
83 /*
84  * Hardware Descriptor Header.
85  *
86  * Some fields occur repeatedly in different structures:
87  *
88  * spare*	This field is for future use.
89  *
90  * filler*	This field is used to show alignment. This could also
91  *		be used in the future for something.
92  *
93  * check_sum	This contains the check sum of the structure it resides in.
94  */
95 typedef struct {
96 	uint32_t	hdr_magic;		/* magic code ('HWDE') */
97 	struct hwdesc_version {
98 		uint16_t	major;
99 		uint16_t	minor;
100 	} hdr_version;		/* structure version */
101 
102 	/*
103 	 * Domain Identifier. The OPL system can have
104 	 * upto 24 domains so domain id can be 0 - 23.
105 	 */
106 	uint8_t		hdr_domain_id;
107 	char		hdr_filler[3];
108 
109 	/*
110 	 * offsets from the beginning of the header to:
111 	 * - SB status information (hwd_sb_status_t)
112 	 * - domain information (hwd_domain_info_t)
113 	 * - SB information (hwd_sb_info_t).
114 	 */
115 	uint32_t	hdr_sb_status_offset;
116 	uint32_t	hdr_domain_info_offset;
117 	uint32_t	hdr_sb_info_offset;
118 
119 	uint32_t	hdr_spare[9];
120 	uint32_t	hdr_check_sum;
121 } hwd_header_t;
122 
123 /*
124  * SB Status
125  */
126 typedef struct {
127 	hwd_stat_t	sb_status[HWD_SBS_PER_DOMAIN];	/* status of all LSBs */
128 	/* PSB number of respective LSB */
129 	uint8_t		sb_psb_number[HWD_SBS_PER_DOMAIN];
130 	uint32_t	sb_spare[7];
131 	uint32_t	sb_check_sum;
132 } hwd_sb_status_t;
133 
134 /*
135  * SP -> Domain Information.
136  */
137 typedef struct {
138 	uint32_t	dinf_reset_factor;	/* domain reset reason */
139 	uint32_t	dinf_host_id;		/* domain unique id */
140 	uint64_t	dinf_system_frequency;	/* Hz */
141 	uint64_t	dinf_stick_frequency;	/* Hz */
142 	uint32_t	dinf_scf_command_timeout; /* SCF i/f timeout seconds */
143 	uint32_t	dinf_model_info;	/* FF1/2 DC1/2/3 */
144 	uint8_t		dinf_mac_address[6];	/* system MAC address */
145 	uint8_t		dinf_filler1[10];
146 	uint8_t		dinf_dr_status;		/* 0: DR capable, !0: no DR */
147 	uint8_t		dinf_filler2[7];
148 	/*
149 	 * Specification of degeneracy operation of POST by XSCF
150 	 *	0x00: off
151 	 *	0x20: component
152 	 *	0x40: board
153 	 *	0x80: system
154 	 */
155 	uint8_t		dinf_config_policy;
156 	/*
157 	 * Specification of diagnosis operation of POST by XSCF
158 	 *	0x00: off
159 	 *	0x20: min
160 	 *	0x40: max
161 	 */
162 	uint8_t		dinf_diag_level;
163 	/*
164 	 * Specification of boot operation of OBP by XSCF
165 	 *	0x00: It follows other settings.
166 	 *	0x80: Auto boot is not done.
167 	 */
168 	uint8_t		dinf_boot_mode;
169 	uint8_t		dinf_spare1[5];
170 	int64_t		dinf_cpu_start_time;	/* seconds since the Epoch */
171 	char		dinf_banner_name[64];	/* system banner string */
172 	char		dinf_platform_token[64]; /* platform name */
173 	uint32_t	dinf_floating_board_bitmap;	/* bit 0 = SB0 ... */
174 	char		dinf_chassis_sn[16];
175 	uint32_t	dinf_brand_control;
176 	uint32_t	dinf_spare2[7];
177 	uint32_t	dinf_check_sum;
178 } hwd_domain_info_t;
179 
180 /*
181  * CPU Strand
182  */
183 typedef struct {
184 	hwd_stat_t	cpu_status;
185 	char		cpu_component_name[32];
186 	uint16_t	cpu_cpuid;		/* 0x0000, 0x0001, ... 0x01ff */
187 	uint16_t	cpu_filler;
188 	uint32_t	cpu_spare[6];
189 } hwd_cpu_t;
190 
191 /*
192  * CPU Core
193  */
194 typedef struct {
195 	hwd_stat_t	core_status;
196 	char		core_component_name[32];
197 	uint32_t	core_filler1;
198 	uint64_t	core_frequency;			/* Hz */
199 	uint64_t	core_config;			/* bus config reg */
200 	uint64_t	core_version;			/* processor VER */
201 	uint16_t	core_manufacturer;		/* VER.manuf */
202 	uint16_t	core_implementation;		/* VER.impl */
203 	uint8_t		core_mask;			/* VER.mask */
204 	uint8_t		core_filler2[3];
205 	uint32_t	core_l1_icache_size;
206 	uint16_t	core_l1_icache_line_size;
207 	uint16_t	core_l1_icache_associativity;
208 	uint32_t	core_num_itlb_entries;
209 	uint32_t	core_l1_dcache_size;
210 	uint16_t	core_l1_dcache_line_size;
211 	uint16_t	core_l1_dcache_associativity;
212 	uint32_t	core_num_dtlb_entries;
213 	uint32_t	core_spare1[4];
214 	uint32_t	core_l2_cache_size;
215 	uint16_t	core_l2_cache_line_size;
216 	uint16_t	core_l2_cache_associativity;
217 	uint32_t	core_l2_cache_sharing;		/* bit N:coreN */
218 	uint32_t	core_spare2[5];
219 	hwd_cpu_t	core_cpus[HWD_CPUS_PER_CORE];
220 	uint32_t	core_spare3[4];
221 } hwd_core_t;
222 
223 /*
224  * CPU Chip
225  */
226 typedef struct {
227 	hwd_stat_t	chip_status;
228 	char		chip_component_name[32]; /* example: "CPU#x" */
229 	char		chip_fru_name[32];	/* example: "CPU#x" */
230 	char		chip_compatible[32];	/* example: "FJSV,SPARC64-VI" */
231 	/*
232 	 * Jupiter Bus Device ID
233 	 * 0x0400, 0x0408, ... , 0x05f8
234 	 */
235 	uint16_t	chip_portid;
236 	uint16_t	chip_filler;
237 	uint32_t	chip_spare1[6];
238 	hwd_core_t	chip_cores[HWD_CORES_PER_CPU_CHIP];
239 	uint32_t	chip_spare2[4];
240 } hwd_cpu_chip_t;
241 
242 /*
243  * SC
244  */
245 typedef struct {
246 	hwd_stat_t	sc_status;
247 	uint32_t	sc_filler;
248 	/*
249 	 * Top address of SC registers in this XSB
250 	 */
251 	uint64_t	sc_register_address;
252 } hwd_sc_t;
253 
254 /*
255  * Bank
256  */
257 typedef struct {
258 	hwd_stat_t	bank_status;
259 	hwd_stat_t	bank_cs_status[2];	/* DIMM pair status */
260 	uint32_t	bank_filler1;
261 	uint64_t	bank_register_address;	/* address of mem patrol regs */
262 	uint8_t		bank_mac_ocd;		/* calibrated MAC OCD value */
263 	uint8_t		bank_filler2[3];
264 	uint8_t		bank_dimm_ocd[4][2];	/* calibrated DIMM OCD value */
265 	uint32_t	bank_tune;		/* for POST use */
266 	uint32_t	bank_spare[2];
267 } hwd_bank_t;
268 
269 /*
270  * Chunk
271  */
272 typedef struct {
273 	uint64_t	chnk_start_address;
274 	uint64_t	chnk_size;
275 } hwd_chunk_t;
276 
277 /*
278  * Dimm
279  */
280 typedef struct {
281 	hwd_stat_t	dimm_status;
282 	uint32_t	dimm_filler1;
283 	uint64_t	dimm_capacity;			/* bytes */
284 	uint64_t	dimm_available_capacity;	/* bytes */
285 	uint8_t		dimm_rank;			/* 1 or 2 */
286 	uint8_t		dimm_filler2[7];
287 	char		dimm_component_name[32];	/* "MEM#xyz" */
288 	char		dimm_fru_name[32];		/* "MEM#xyz" */
289 } hwd_dimm_t;
290 
291 /*
292  * CS
293  */
294 typedef struct {
295 	hwd_stat_t	cs_status;
296 	uint8_t		cs_number_of_dimms;
297 	uint8_t		cs_filler[3];
298 	uint64_t	cs_available_capacity;
299 	uint64_t	cs_dimm_capacity;
300 	uint8_t		cs_dimm_badd[8];   /* Value to initialize MAC by POST */
301 	uint16_t	cs_dimm_add[8];    /* Value to initialize MAC by POST */
302 	uint8_t		cs_pa_mac_table[64]; /* PA <-> MAC address conversion */
303 } hwd_cs_t;
304 
305 /*
306  * Memory
307  */
308 typedef struct {
309 	uint64_t	mem_start_address;	/* Memory start for this LSB */
310 	uint64_t	mem_size;		/* Memory size for this LSB */
311 	hwd_bank_t	mem_banks[HWD_BANKS_PER_CMU];
312 	/*
313 	 * Mirroring mode:
314 	 *	0x00 or 0x01
315 	 *	0x00 : not 'memory mirror mode'
316 	 *	0x01 : 'memory mirror mode'
317 	 */
318 	uint8_t		mem_mirror_mode;	/* mirroring mode */
319 	/*
320 	 * Memory configuration:
321 	 *	0x01 : 1 divided mode
322 	 *	0x02 : 2 divided mode
323 	 *	0x04 : 4 divided mode
324 	 *
325 	 * It is always set to 0x04 at the XSB mode.
326 	 */
327 	uint8_t		mem_division_mode;
328 	uint8_t		mem_piece_number;	/* 0-3 memory slot group used */
329 	uint8_t		mem_cs_interleave;	/* 1:cs interleave, 0:not */
330 	uint32_t	mem_filler[3];
331 	uint8_t		mem_available_bitmap[512];	/* for POST use */
332 	uint8_t		mem_degrade_bitmap[16384];	/* for POST use */
333 	hwd_chunk_t	mem_chunks[HWD_MAX_MEM_CHUNKS];
334 	hwd_dimm_t	mem_dimms[HWD_DIMMS_PER_CMU];
335 	hwd_cs_t	mem_cs[2];
336 } hwd_memory_t;
337 
338 typedef struct {
339 	hwd_stat_t	scf_status;
340 	char		scf_component_name[32];		/* "SCFI#z" */
341 } hwd_scf_interface_t;
342 
343 typedef struct {
344 	hwd_stat_t	tty_status;
345 	char		tty_component_name[32];		/* "TTY#z" */
346 } hwd_tty_t;
347 
348 typedef struct {
349 	uint8_t		fver_major;		/* firmware major version */
350 	uint8_t		fver_minor;		/* firmware minor version */
351 	uint8_t		fver_local;		/* firmware local version */
352 	uint8_t		fver_filler;
353 } hwd_fmem_version_t;
354 
355 typedef struct {
356 	hwd_stat_t		fmem_status;	/* status of flash */
357 	char			fmem_component_name[32];
358 	uint8_t			fmem_used;	/* non-zero: fmem is used */
359 	uint8_t			fmem_filler[3];
360 	hwd_fmem_version_t	fmem_version;
361 	uint32_t		fmem_spare;
362 } hwd_fmem_t;
363 
364 /*
365  * CMU CH
366  */
367 typedef struct {
368 	hwd_stat_t		chan_status;
369 	/*
370 	 * CMU_CH port ID
371 	 *	LSB0 is 0x0008, LSB1 is 0x0018, ... , LSB15 is 0x00f8
372 	 */
373 	uint16_t		chan_portid;
374 	uint16_t		chan_filler;
375 	char			chan_component_name[32];	/* "U2P#z" */
376 	hwd_scf_interface_t	chan_scf_interface;
377 	hwd_tty_t		chan_serial;
378 	hwd_fmem_t		chan_fmem[2];
379 } hwd_cmu_chan_t;
380 
381 /*
382  * CMU
383  */
384 typedef struct {
385 	char		cmu_component_name[32];	/* example: "CxS0y" */
386 	char		cmu_fru_name[32];	/* example: "Cabinet#x-CMU#y" */
387 
388 	hwd_cpu_chip_t	cmu_cpu_chips[HWD_CPU_CHIPS_PER_CMU];	/* CPU */
389 	hwd_sc_t	cmu_scs[HWD_SCS_PER_CMU];		/* SC */
390 	hwd_memory_t	cmu_memory;				/* Memory */
391 	hwd_cmu_chan_t	cmu_ch;					/* CMU CH */
392 	uint32_t	cmu_spare[32];
393 } hwd_cmu_t;
394 
395 typedef struct {
396 	hwd_stat_t	slot_status;
397 	char		slot_name[16];
398 } hwd_slot_t;
399 
400 /*
401  * IO Boat
402  */
403 typedef struct {
404 	hwd_stat_t	iob_status;
405 	char		iob_component_name[32];
406 	char		iob_fru_name[32];
407 	/*
408 	 * IO_Boat type
409 	 *	0x01 : PCI-X Slot Type
410 	 *	0x02 : PCI Express Slot Type
411 	 */
412 	uint32_t	iob_type;		/* PCI-X or PCI Express */
413 	uint64_t	iob_io_box_info;	/* location of I/O */
414 	/*
415 	 * Information of switch on IO_boat
416 	 * use only switch_status[0] when PCI-X type IO_boat
417 	 */
418 	hwd_stat_t	iob_switch_status[3];	/* PCIE switch statuses */
419 	/*
420 	 * Information of bridge on IO_boat
421 	 * use only when PCI-X type IO_boat
422 	 */
423 	hwd_stat_t	iob_bridge_status[3];	/* PCIX bridge statuses */
424 	hwd_slot_t	iob_slot[6];		/* PCI slot names */
425 	uint32_t	iob_spare[8];
426 } hwd_io_boat_t;
427 
428 /* IOU PCI Express Slot */
429 typedef struct {
430 	uint32_t	iou_type;    /* 0: empty, 1: card, 2: IO boat */
431 	hwd_slot_t	iou_slot;
432 	hwd_io_boat_t	iou_io_boat;
433 } hwd_iou_slot_t;
434 
435 typedef struct {
436 	hwd_stat_t	ff_onb_switch_status;
437 	uint8_t		ff_onb_filler[64];
438 	hwd_stat_t	ff_onb_bridge_status;
439 	hwd_stat_t	ff_onb_sas_status;
440 	hwd_stat_t	ff_onb_gbe_status;
441 	hwd_iou_slot_t	ff_onb_slot;
442 	hwd_slot_t	ff_onb_xslot;
443 } hwd_ff_onboard_t;
444 
445 typedef struct {
446 	hwd_stat_t	ioua_status; /* IOUA status */
447 	char		ioua_component_name[32];
448 	char		ioua_fru_name[32];
449 	hwd_stat_t	ioua_bridge_status;
450 	hwd_stat_t	ioua_sas_status;
451 	hwd_stat_t	ioua_gbe_status;
452 } hwd_ioua_t;
453 
454 typedef struct {
455 	uint8_t		iou_desc_filler[80];
456 	hwd_iou_slot_t	iou_desc_slot;
457 } hwd_iou_slot_desc_t;
458 
459 typedef struct {
460 	hwd_stat_t	leaf_status;
461 	uint16_t	leaf_port_id;		/* portid (logical leaf id) */
462 	uint8_t		leaf_filler[6];
463 	uint32_t	leaf_slot_type;		/* card or boat */
464 	union {
465 		hwd_ff_onboard_t	leaf_ff_onboard;
466 		hwd_ioua_t		leaf_ioua;
467 		hwd_iou_slot_desc_t	leaf_iou_slot;
468 		uint8_t			leaf_spare[448];
469 	} leaf_u;
470 	uint64_t	leaf_cfgio_offset;	/* config space offset */
471 	uint64_t	leaf_cfgio_size;	/* config space size */
472 	uint64_t	leaf_mem32_offset;	/* offset of mem32 area */
473 	uint64_t	leaf_mem32_size;	/* size of mem32 area */
474 	uint64_t	leaf_mem64_offset;	/* offset of mem64 area */
475 	uint64_t	leaf_mem64_size;	/* size of mem64 area */
476 } hwd_leaf_t;
477 
478 /*
479  * PCI CH
480  */
481 typedef struct {
482 	hwd_stat_t	pci_status;		/* PCI CH status */
483 	char		pci_component_name[32];
484 	char		pci_fru_name[32];
485 	uint8_t		pci_filler[12];
486 	hwd_leaf_t	pci_leaf[HWD_LEAVES_PER_PCI_CHANNEL];
487 } hwd_pci_ch_t;
488 
489 /*
490  * System Board
491  */
492 typedef struct {
493 	/*
494 	 * SB
495 	 */
496 	hwd_stat_t	sb_status;
497 	uint8_t		sb_mode;		/* 0:PSB 1:XSB */
498 	uint8_t		sb_psb_number;		/* PSB number for this LSB */
499 	uint8_t		sb_filler1[10];
500 
501 	hwd_cmu_t	sb_cmu;				/* CMU */
502 
503 	hwd_pci_ch_t	sb_pci_ch[HWD_PCI_CHANNELS_PER_SB]; /* PCI CH */
504 
505 	uint32_t	sb_spare[31];
506 	uint32_t	sb_check_sum;
507 } hwd_sb_t;
508 
509 #define	HWD_DATA_SIZE	(36 * 1024)   /* Size of HWD data from SCF */
510 
511 #ifdef	__cplusplus
512 }
513 #endif
514 
515 #endif	/* _SYS_OPL_HWDESC_H */
516