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Linus Torvalds1da177e2005-04-16 15:20:36 -07001#ifndef _ASM_IA64_PAL_H
2#define _ASM_IA64_PAL_H
3
4/*
5 * Processor Abstraction Layer definitions.
6 *
7 * This is based on Intel IA-64 Architecture Software Developer's Manual rev 1.0
8 * chapter 11 IA-64 Processor Abstraction Layer
9 *
10 * Copyright (C) 1998-2001 Hewlett-Packard Co
11 * David Mosberger-Tang <davidm@hpl.hp.com>
12 * Stephane Eranian <eranian@hpl.hp.com>
13 * Copyright (C) 1999 VA Linux Systems
14 * Copyright (C) 1999 Walt Drummond <drummond@valinux.com>
15 * Copyright (C) 1999 Srinivasa Prasad Thirumalachar <sprasad@sprasad.engr.sgi.com>
16 *
17 * 99/10/01 davidm Make sure we pass zero for reserved parameters.
18 * 00/03/07 davidm Updated pal_cache_flush() to be in sync with PAL v2.6.
19 * 00/03/23 cfleck Modified processor min-state save area to match updated PAL & SAL info
20 * 00/05/24 eranian Updated to latest PAL spec, fix structures bugs, added
21 * 00/05/25 eranian Support for stack calls, and static physical calls
22 * 00/06/18 eranian Support for stacked physical calls
23 */
24
25/*
26 * Note that some of these calls use a static-register only calling
27 * convention which has nothing to do with the regular calling
28 * convention.
29 */
30#define PAL_CACHE_FLUSH 1 /* flush i/d cache */
31#define PAL_CACHE_INFO 2 /* get detailed i/d cache info */
32#define PAL_CACHE_INIT 3 /* initialize i/d cache */
33#define PAL_CACHE_SUMMARY 4 /* get summary of cache heirarchy */
34#define PAL_MEM_ATTRIB 5 /* list supported memory attributes */
35#define PAL_PTCE_INFO 6 /* purge TLB info */
36#define PAL_VM_INFO 7 /* return supported virtual memory features */
37#define PAL_VM_SUMMARY 8 /* return summary on supported vm features */
38#define PAL_BUS_GET_FEATURES 9 /* return processor bus interface features settings */
39#define PAL_BUS_SET_FEATURES 10 /* set processor bus features */
40#define PAL_DEBUG_INFO 11 /* get number of debug registers */
41#define PAL_FIXED_ADDR 12 /* get fixed component of processors's directed address */
42#define PAL_FREQ_BASE 13 /* base frequency of the platform */
43#define PAL_FREQ_RATIOS 14 /* ratio of processor, bus and ITC frequency */
44#define PAL_PERF_MON_INFO 15 /* return performance monitor info */
45#define PAL_PLATFORM_ADDR 16 /* set processor interrupt block and IO port space addr */
46#define PAL_PROC_GET_FEATURES 17 /* get configurable processor features & settings */
47#define PAL_PROC_SET_FEATURES 18 /* enable/disable configurable processor features */
48#define PAL_RSE_INFO 19 /* return rse information */
49#define PAL_VERSION 20 /* return version of PAL code */
50#define PAL_MC_CLEAR_LOG 21 /* clear all processor log info */
51#define PAL_MC_DRAIN 22 /* drain operations which could result in an MCA */
52#define PAL_MC_EXPECTED 23 /* set/reset expected MCA indicator */
53#define PAL_MC_DYNAMIC_STATE 24 /* get processor dynamic state */
54#define PAL_MC_ERROR_INFO 25 /* get processor MCA info and static state */
55#define PAL_MC_RESUME 26 /* Return to interrupted process */
56#define PAL_MC_REGISTER_MEM 27 /* Register memory for PAL to use during MCAs and inits */
57#define PAL_HALT 28 /* enter the low power HALT state */
58#define PAL_HALT_LIGHT 29 /* enter the low power light halt state*/
59#define PAL_COPY_INFO 30 /* returns info needed to relocate PAL */
60#define PAL_CACHE_LINE_INIT 31 /* init tags & data of cache line */
61#define PAL_PMI_ENTRYPOINT 32 /* register PMI memory entry points with the processor */
62#define PAL_ENTER_IA_32_ENV 33 /* enter IA-32 system environment */
63#define PAL_VM_PAGE_SIZE 34 /* return vm TC and page walker page sizes */
64
65#define PAL_MEM_FOR_TEST 37 /* get amount of memory needed for late processor test */
66#define PAL_CACHE_PROT_INFO 38 /* get i/d cache protection info */
67#define PAL_REGISTER_INFO 39 /* return AR and CR register information*/
68#define PAL_SHUTDOWN 40 /* enter processor shutdown state */
69#define PAL_PREFETCH_VISIBILITY 41 /* Make Processor Prefetches Visible */
Suresh Siddhae927ecb2005-04-25 13:25:06 -070070#define PAL_LOGICAL_TO_PHYSICAL 42 /* returns information on logical to physical processor mapping */
Linus Torvalds1da177e2005-04-16 15:20:36 -070071
72#define PAL_COPY_PAL 256 /* relocate PAL procedures and PAL PMI */
73#define PAL_HALT_INFO 257 /* return the low power capabilities of processor */
74#define PAL_TEST_PROC 258 /* perform late processor self-test */
75#define PAL_CACHE_READ 259 /* read tag & data of cacheline for diagnostic testing */
76#define PAL_CACHE_WRITE 260 /* write tag & data of cacheline for diagnostic testing */
77#define PAL_VM_TR_READ 261 /* read contents of translation register */
Venkatesh Pallipadi4db86992005-07-29 16:15:00 -070078#define PAL_GET_PSTATE 262 /* get the current P-state */
79#define PAL_SET_PSTATE 263 /* set the P-state */
Linus Torvalds1da177e2005-04-16 15:20:36 -070080
81#ifndef __ASSEMBLY__
82
83#include <linux/types.h>
84#include <asm/fpu.h>
85
86/*
87 * Data types needed to pass information into PAL procedures and
88 * interpret information returned by them.
89 */
90
91/* Return status from the PAL procedure */
92typedef s64 pal_status_t;
93
94#define PAL_STATUS_SUCCESS 0 /* No error */
95#define PAL_STATUS_UNIMPLEMENTED (-1) /* Unimplemented procedure */
96#define PAL_STATUS_EINVAL (-2) /* Invalid argument */
97#define PAL_STATUS_ERROR (-3) /* Error */
98#define PAL_STATUS_CACHE_INIT_FAIL (-4) /* Could not initialize the
99 * specified level and type of
100 * cache without sideeffects
101 * and "restrict" was 1
102 */
103
104/* Processor cache level in the heirarchy */
105typedef u64 pal_cache_level_t;
106#define PAL_CACHE_LEVEL_L0 0 /* L0 */
107#define PAL_CACHE_LEVEL_L1 1 /* L1 */
108#define PAL_CACHE_LEVEL_L2 2 /* L2 */
109
110
111/* Processor cache type at a particular level in the heirarchy */
112
113typedef u64 pal_cache_type_t;
114#define PAL_CACHE_TYPE_INSTRUCTION 1 /* Instruction cache */
115#define PAL_CACHE_TYPE_DATA 2 /* Data or unified cache */
116#define PAL_CACHE_TYPE_INSTRUCTION_DATA 3 /* Both Data & Instruction */
117
118
119#define PAL_CACHE_FLUSH_INVALIDATE 1 /* Invalidate clean lines */
120#define PAL_CACHE_FLUSH_CHK_INTRS 2 /* check for interrupts/mc while flushing */
121
122/* Processor cache line size in bytes */
123typedef int pal_cache_line_size_t;
124
125/* Processor cache line state */
126typedef u64 pal_cache_line_state_t;
127#define PAL_CACHE_LINE_STATE_INVALID 0 /* Invalid */
128#define PAL_CACHE_LINE_STATE_SHARED 1 /* Shared */
129#define PAL_CACHE_LINE_STATE_EXCLUSIVE 2 /* Exclusive */
130#define PAL_CACHE_LINE_STATE_MODIFIED 3 /* Modified */
131
132typedef struct pal_freq_ratio {
133 u64 den : 32, num : 32; /* numerator & denominator */
134} itc_ratio, proc_ratio;
135
136typedef union pal_cache_config_info_1_s {
137 struct {
138 u64 u : 1, /* 0 Unified cache ? */
139 at : 2, /* 2-1 Cache mem attr*/
140 reserved : 5, /* 7-3 Reserved */
141 associativity : 8, /* 16-8 Associativity*/
142 line_size : 8, /* 23-17 Line size */
143 stride : 8, /* 31-24 Stride */
144 store_latency : 8, /*39-32 Store latency*/
145 load_latency : 8, /* 47-40 Load latency*/
146 store_hints : 8, /* 55-48 Store hints*/
147 load_hints : 8; /* 63-56 Load hints */
148 } pcci1_bits;
149 u64 pcci1_data;
150} pal_cache_config_info_1_t;
151
152typedef union pal_cache_config_info_2_s {
153 struct {
154 u64 cache_size : 32, /*cache size in bytes*/
155
156
157 alias_boundary : 8, /* 39-32 aliased addr
158 * separation for max
159 * performance.
160 */
161 tag_ls_bit : 8, /* 47-40 LSb of addr*/
162 tag_ms_bit : 8, /* 55-48 MSb of addr*/
163 reserved : 8; /* 63-56 Reserved */
164 } pcci2_bits;
165 u64 pcci2_data;
166} pal_cache_config_info_2_t;
167
168
169typedef struct pal_cache_config_info_s {
170 pal_status_t pcci_status;
171 pal_cache_config_info_1_t pcci_info_1;
172 pal_cache_config_info_2_t pcci_info_2;
173 u64 pcci_reserved;
174} pal_cache_config_info_t;
175
176#define pcci_ld_hints pcci_info_1.pcci1_bits.load_hints
177#define pcci_st_hints pcci_info_1.pcci1_bits.store_hints
178#define pcci_ld_latency pcci_info_1.pcci1_bits.load_latency
179#define pcci_st_latency pcci_info_1.pcci1_bits.store_latency
180#define pcci_stride pcci_info_1.pcci1_bits.stride
181#define pcci_line_size pcci_info_1.pcci1_bits.line_size
182#define pcci_assoc pcci_info_1.pcci1_bits.associativity
183#define pcci_cache_attr pcci_info_1.pcci1_bits.at
184#define pcci_unified pcci_info_1.pcci1_bits.u
185#define pcci_tag_msb pcci_info_2.pcci2_bits.tag_ms_bit
186#define pcci_tag_lsb pcci_info_2.pcci2_bits.tag_ls_bit
187#define pcci_alias_boundary pcci_info_2.pcci2_bits.alias_boundary
188#define pcci_cache_size pcci_info_2.pcci2_bits.cache_size
189
190
191
192/* Possible values for cache attributes */
193
194#define PAL_CACHE_ATTR_WT 0 /* Write through cache */
195#define PAL_CACHE_ATTR_WB 1 /* Write back cache */
196#define PAL_CACHE_ATTR_WT_OR_WB 2 /* Either write thru or write
197 * back depending on TLB
198 * memory attributes
199 */
200
201
202/* Possible values for cache hints */
203
204#define PAL_CACHE_HINT_TEMP_1 0 /* Temporal level 1 */
205#define PAL_CACHE_HINT_NTEMP_1 1 /* Non-temporal level 1 */
206#define PAL_CACHE_HINT_NTEMP_ALL 3 /* Non-temporal all levels */
207
208/* Processor cache protection information */
209typedef union pal_cache_protection_element_u {
210 u32 pcpi_data;
211 struct {
212 u32 data_bits : 8, /* # data bits covered by
213 * each unit of protection
214 */
215
216 tagprot_lsb : 6, /* Least -do- */
217 tagprot_msb : 6, /* Most Sig. tag address
218 * bit that this
219 * protection covers.
220 */
221 prot_bits : 6, /* # of protection bits */
222 method : 4, /* Protection method */
223 t_d : 2; /* Indicates which part
224 * of the cache this
225 * protection encoding
226 * applies.
227 */
228 } pcp_info;
229} pal_cache_protection_element_t;
230
231#define pcpi_cache_prot_part pcp_info.t_d
232#define pcpi_prot_method pcp_info.method
233#define pcpi_prot_bits pcp_info.prot_bits
234#define pcpi_tagprot_msb pcp_info.tagprot_msb
235#define pcpi_tagprot_lsb pcp_info.tagprot_lsb
236#define pcpi_data_bits pcp_info.data_bits
237
238/* Processor cache part encodings */
239#define PAL_CACHE_PROT_PART_DATA 0 /* Data protection */
240#define PAL_CACHE_PROT_PART_TAG 1 /* Tag protection */
241#define PAL_CACHE_PROT_PART_TAG_DATA 2 /* Tag+data protection (tag is
242 * more significant )
243 */
244#define PAL_CACHE_PROT_PART_DATA_TAG 3 /* Data+tag protection (data is
245 * more significant )
246 */
247#define PAL_CACHE_PROT_PART_MAX 6
248
249
250typedef struct pal_cache_protection_info_s {
251 pal_status_t pcpi_status;
252 pal_cache_protection_element_t pcp_info[PAL_CACHE_PROT_PART_MAX];
253} pal_cache_protection_info_t;
254
255
256/* Processor cache protection method encodings */
257#define PAL_CACHE_PROT_METHOD_NONE 0 /* No protection */
258#define PAL_CACHE_PROT_METHOD_ODD_PARITY 1 /* Odd parity */
259#define PAL_CACHE_PROT_METHOD_EVEN_PARITY 2 /* Even parity */
260#define PAL_CACHE_PROT_METHOD_ECC 3 /* ECC protection */
261
262
263/* Processor cache line identification in the heirarchy */
264typedef union pal_cache_line_id_u {
265 u64 pclid_data;
266 struct {
267 u64 cache_type : 8, /* 7-0 cache type */
268 level : 8, /* 15-8 level of the
269 * cache in the
270 * heirarchy.
271 */
272 way : 8, /* 23-16 way in the set
273 */
274 part : 8, /* 31-24 part of the
275 * cache
276 */
277 reserved : 32; /* 63-32 is reserved*/
278 } pclid_info_read;
279 struct {
280 u64 cache_type : 8, /* 7-0 cache type */
281 level : 8, /* 15-8 level of the
282 * cache in the
283 * heirarchy.
284 */
285 way : 8, /* 23-16 way in the set
286 */
287 part : 8, /* 31-24 part of the
288 * cache
289 */
290 mesi : 8, /* 39-32 cache line
291 * state
292 */
293 start : 8, /* 47-40 lsb of data to
294 * invert
295 */
296 length : 8, /* 55-48 #bits to
297 * invert
298 */
299 trigger : 8; /* 63-56 Trigger error
300 * by doing a load
301 * after the write
302 */
303
304 } pclid_info_write;
305} pal_cache_line_id_u_t;
306
307#define pclid_read_part pclid_info_read.part
308#define pclid_read_way pclid_info_read.way
309#define pclid_read_level pclid_info_read.level
310#define pclid_read_cache_type pclid_info_read.cache_type
311
312#define pclid_write_trigger pclid_info_write.trigger
313#define pclid_write_length pclid_info_write.length
314#define pclid_write_start pclid_info_write.start
315#define pclid_write_mesi pclid_info_write.mesi
316#define pclid_write_part pclid_info_write.part
317#define pclid_write_way pclid_info_write.way
318#define pclid_write_level pclid_info_write.level
319#define pclid_write_cache_type pclid_info_write.cache_type
320
321/* Processor cache line part encodings */
322#define PAL_CACHE_LINE_ID_PART_DATA 0 /* Data */
323#define PAL_CACHE_LINE_ID_PART_TAG 1 /* Tag */
324#define PAL_CACHE_LINE_ID_PART_DATA_PROT 2 /* Data protection */
325#define PAL_CACHE_LINE_ID_PART_TAG_PROT 3 /* Tag protection */
326#define PAL_CACHE_LINE_ID_PART_DATA_TAG_PROT 4 /* Data+tag
327 * protection
328 */
329typedef struct pal_cache_line_info_s {
330 pal_status_t pcli_status; /* Return status of the read cache line
331 * info call.
332 */
333 u64 pcli_data; /* 64-bit data, tag, protection bits .. */
334 u64 pcli_data_len; /* data length in bits */
335 pal_cache_line_state_t pcli_cache_line_state; /* mesi state */
336
337} pal_cache_line_info_t;
338
339
340/* Machine Check related crap */
341
342/* Pending event status bits */
343typedef u64 pal_mc_pending_events_t;
344
345#define PAL_MC_PENDING_MCA (1 << 0)
346#define PAL_MC_PENDING_INIT (1 << 1)
347
348/* Error information type */
349typedef u64 pal_mc_info_index_t;
350
351#define PAL_MC_INFO_PROCESSOR 0 /* Processor */
352#define PAL_MC_INFO_CACHE_CHECK 1 /* Cache check */
353#define PAL_MC_INFO_TLB_CHECK 2 /* Tlb check */
354#define PAL_MC_INFO_BUS_CHECK 3 /* Bus check */
355#define PAL_MC_INFO_REQ_ADDR 4 /* Requestor address */
356#define PAL_MC_INFO_RESP_ADDR 5 /* Responder address */
357#define PAL_MC_INFO_TARGET_ADDR 6 /* Target address */
358#define PAL_MC_INFO_IMPL_DEP 7 /* Implementation
359 * dependent
360 */
361
362
363typedef struct pal_process_state_info_s {
364 u64 reserved1 : 2,
365 rz : 1, /* PAL_CHECK processor
366 * rendezvous
367 * successful.
368 */
369
370 ra : 1, /* PAL_CHECK attempted
371 * a rendezvous.
372 */
373 me : 1, /* Distinct multiple
374 * errors occurred
375 */
376
377 mn : 1, /* Min. state save
378 * area has been
379 * registered with PAL
380 */
381
382 sy : 1, /* Storage integrity
383 * synched
384 */
385
386
387 co : 1, /* Continuable */
388 ci : 1, /* MC isolated */
389 us : 1, /* Uncontained storage
390 * damage.
391 */
392
393
394 hd : 1, /* Non-essential hw
395 * lost (no loss of
396 * functionality)
397 * causing the
398 * processor to run in
399 * degraded mode.
400 */
401
402 tl : 1, /* 1 => MC occurred
403 * after an instr was
404 * executed but before
405 * the trap that
406 * resulted from instr
407 * execution was
408 * generated.
409 * (Trap Lost )
410 */
411 mi : 1, /* More information available
412 * call PAL_MC_ERROR_INFO
413 */
414 pi : 1, /* Precise instruction pointer */
415 pm : 1, /* Precise min-state save area */
416
417 dy : 1, /* Processor dynamic
418 * state valid
419 */
420
421
422 in : 1, /* 0 = MC, 1 = INIT */
423 rs : 1, /* RSE valid */
424 cm : 1, /* MC corrected */
425 ex : 1, /* MC is expected */
426 cr : 1, /* Control regs valid*/
427 pc : 1, /* Perf cntrs valid */
428 dr : 1, /* Debug regs valid */
429 tr : 1, /* Translation regs
430 * valid
431 */
432 rr : 1, /* Region regs valid */
433 ar : 1, /* App regs valid */
434 br : 1, /* Branch regs valid */
435 pr : 1, /* Predicate registers
436 * valid
437 */
438
439 fp : 1, /* fp registers valid*/
440 b1 : 1, /* Preserved bank one
441 * general registers
442 * are valid
443 */
444 b0 : 1, /* Preserved bank zero
445 * general registers
446 * are valid
447 */
448 gr : 1, /* General registers
449 * are valid
450 * (excl. banked regs)
451 */
452 dsize : 16, /* size of dynamic
453 * state returned
454 * by the processor
455 */
456
457 reserved2 : 11,
458 cc : 1, /* Cache check */
459 tc : 1, /* TLB check */
460 bc : 1, /* Bus check */
461 rc : 1, /* Register file check */
462 uc : 1; /* Uarch check */
463
464} pal_processor_state_info_t;
465
466typedef struct pal_cache_check_info_s {
467 u64 op : 4, /* Type of cache
468 * operation that
469 * caused the machine
470 * check.
471 */
472 level : 2, /* Cache level */
473 reserved1 : 2,
474 dl : 1, /* Failure in data part
475 * of cache line
476 */
477 tl : 1, /* Failure in tag part
478 * of cache line
479 */
480 dc : 1, /* Failure in dcache */
481 ic : 1, /* Failure in icache */
482 mesi : 3, /* Cache line state */
483 mv : 1, /* mesi valid */
484 way : 5, /* Way in which the
485 * error occurred
486 */
487 wiv : 1, /* Way field valid */
488 reserved2 : 10,
489
490 index : 20, /* Cache line index */
491 reserved3 : 2,
492
493 is : 1, /* instruction set (1 == ia32) */
494 iv : 1, /* instruction set field valid */
495 pl : 2, /* privilege level */
496 pv : 1, /* privilege level field valid */
497 mcc : 1, /* Machine check corrected */
498 tv : 1, /* Target address
499 * structure is valid
500 */
501 rq : 1, /* Requester identifier
502 * structure is valid
503 */
504 rp : 1, /* Responder identifier
505 * structure is valid
506 */
507 pi : 1; /* Precise instruction pointer
508 * structure is valid
509 */
510} pal_cache_check_info_t;
511
512typedef struct pal_tlb_check_info_s {
513
514 u64 tr_slot : 8, /* Slot# of TR where
515 * error occurred
516 */
517 trv : 1, /* tr_slot field is valid */
518 reserved1 : 1,
519 level : 2, /* TLB level where failure occurred */
520 reserved2 : 4,
521 dtr : 1, /* Fail in data TR */
522 itr : 1, /* Fail in inst TR */
523 dtc : 1, /* Fail in data TC */
524 itc : 1, /* Fail in inst. TC */
525 op : 4, /* Cache operation */
526 reserved3 : 30,
527
528 is : 1, /* instruction set (1 == ia32) */
529 iv : 1, /* instruction set field valid */
530 pl : 2, /* privilege level */
531 pv : 1, /* privilege level field valid */
532 mcc : 1, /* Machine check corrected */
533 tv : 1, /* Target address
534 * structure is valid
535 */
536 rq : 1, /* Requester identifier
537 * structure is valid
538 */
539 rp : 1, /* Responder identifier
540 * structure is valid
541 */
542 pi : 1; /* Precise instruction pointer
543 * structure is valid
544 */
545} pal_tlb_check_info_t;
546
547typedef struct pal_bus_check_info_s {
548 u64 size : 5, /* Xaction size */
549 ib : 1, /* Internal bus error */
550 eb : 1, /* External bus error */
551 cc : 1, /* Error occurred
552 * during cache-cache
553 * transfer.
554 */
555 type : 8, /* Bus xaction type*/
556 sev : 5, /* Bus error severity*/
557 hier : 2, /* Bus hierarchy level */
558 reserved1 : 1,
559 bsi : 8, /* Bus error status
560 * info
561 */
562 reserved2 : 22,
563
564 is : 1, /* instruction set (1 == ia32) */
565 iv : 1, /* instruction set field valid */
566 pl : 2, /* privilege level */
567 pv : 1, /* privilege level field valid */
568 mcc : 1, /* Machine check corrected */
569 tv : 1, /* Target address
570 * structure is valid
571 */
572 rq : 1, /* Requester identifier
573 * structure is valid
574 */
575 rp : 1, /* Responder identifier
576 * structure is valid
577 */
578 pi : 1; /* Precise instruction pointer
579 * structure is valid
580 */
581} pal_bus_check_info_t;
582
583typedef struct pal_reg_file_check_info_s {
584 u64 id : 4, /* Register file identifier */
585 op : 4, /* Type of register
586 * operation that
587 * caused the machine
588 * check.
589 */
590 reg_num : 7, /* Register number */
591 rnv : 1, /* reg_num valid */
592 reserved2 : 38,
593
594 is : 1, /* instruction set (1 == ia32) */
595 iv : 1, /* instruction set field valid */
596 pl : 2, /* privilege level */
597 pv : 1, /* privilege level field valid */
598 mcc : 1, /* Machine check corrected */
599 reserved3 : 3,
600 pi : 1; /* Precise instruction pointer
601 * structure is valid
602 */
603} pal_reg_file_check_info_t;
604
605typedef struct pal_uarch_check_info_s {
606 u64 sid : 5, /* Structure identification */
607 level : 3, /* Level of failure */
608 array_id : 4, /* Array identification */
609 op : 4, /* Type of
610 * operation that
611 * caused the machine
612 * check.
613 */
614 way : 6, /* Way of structure */
615 wv : 1, /* way valid */
616 xv : 1, /* index valid */
617 reserved1 : 8,
618 index : 8, /* Index or set of the uarch
619 * structure that failed.
620 */
621 reserved2 : 24,
622
623 is : 1, /* instruction set (1 == ia32) */
624 iv : 1, /* instruction set field valid */
625 pl : 2, /* privilege level */
626 pv : 1, /* privilege level field valid */
627 mcc : 1, /* Machine check corrected */
628 tv : 1, /* Target address
629 * structure is valid
630 */
631 rq : 1, /* Requester identifier
632 * structure is valid
633 */
634 rp : 1, /* Responder identifier
635 * structure is valid
636 */
637 pi : 1; /* Precise instruction pointer
638 * structure is valid
639 */
640} pal_uarch_check_info_t;
641
642typedef union pal_mc_error_info_u {
643 u64 pmei_data;
644 pal_processor_state_info_t pme_processor;
645 pal_cache_check_info_t pme_cache;
646 pal_tlb_check_info_t pme_tlb;
647 pal_bus_check_info_t pme_bus;
648 pal_reg_file_check_info_t pme_reg_file;
649 pal_uarch_check_info_t pme_uarch;
650} pal_mc_error_info_t;
651
652#define pmci_proc_unknown_check pme_processor.uc
653#define pmci_proc_bus_check pme_processor.bc
654#define pmci_proc_tlb_check pme_processor.tc
655#define pmci_proc_cache_check pme_processor.cc
656#define pmci_proc_dynamic_state_size pme_processor.dsize
657#define pmci_proc_gpr_valid pme_processor.gr
658#define pmci_proc_preserved_bank0_gpr_valid pme_processor.b0
659#define pmci_proc_preserved_bank1_gpr_valid pme_processor.b1
660#define pmci_proc_fp_valid pme_processor.fp
661#define pmci_proc_predicate_regs_valid pme_processor.pr
662#define pmci_proc_branch_regs_valid pme_processor.br
663#define pmci_proc_app_regs_valid pme_processor.ar
664#define pmci_proc_region_regs_valid pme_processor.rr
665#define pmci_proc_translation_regs_valid pme_processor.tr
666#define pmci_proc_debug_regs_valid pme_processor.dr
667#define pmci_proc_perf_counters_valid pme_processor.pc
668#define pmci_proc_control_regs_valid pme_processor.cr
669#define pmci_proc_machine_check_expected pme_processor.ex
670#define pmci_proc_machine_check_corrected pme_processor.cm
671#define pmci_proc_rse_valid pme_processor.rs
672#define pmci_proc_machine_check_or_init pme_processor.in
673#define pmci_proc_dynamic_state_valid pme_processor.dy
674#define pmci_proc_operation pme_processor.op
675#define pmci_proc_trap_lost pme_processor.tl
676#define pmci_proc_hardware_damage pme_processor.hd
677#define pmci_proc_uncontained_storage_damage pme_processor.us
678#define pmci_proc_machine_check_isolated pme_processor.ci
679#define pmci_proc_continuable pme_processor.co
680#define pmci_proc_storage_intergrity_synced pme_processor.sy
681#define pmci_proc_min_state_save_area_regd pme_processor.mn
682#define pmci_proc_distinct_multiple_errors pme_processor.me
683#define pmci_proc_pal_attempted_rendezvous pme_processor.ra
684#define pmci_proc_pal_rendezvous_complete pme_processor.rz
685
686
687#define pmci_cache_level pme_cache.level
688#define pmci_cache_line_state pme_cache.mesi
689#define pmci_cache_line_state_valid pme_cache.mv
690#define pmci_cache_line_index pme_cache.index
691#define pmci_cache_instr_cache_fail pme_cache.ic
692#define pmci_cache_data_cache_fail pme_cache.dc
693#define pmci_cache_line_tag_fail pme_cache.tl
694#define pmci_cache_line_data_fail pme_cache.dl
695#define pmci_cache_operation pme_cache.op
696#define pmci_cache_way_valid pme_cache.wv
697#define pmci_cache_target_address_valid pme_cache.tv
698#define pmci_cache_way pme_cache.way
699#define pmci_cache_mc pme_cache.mc
700
701#define pmci_tlb_instr_translation_cache_fail pme_tlb.itc
702#define pmci_tlb_data_translation_cache_fail pme_tlb.dtc
703#define pmci_tlb_instr_translation_reg_fail pme_tlb.itr
704#define pmci_tlb_data_translation_reg_fail pme_tlb.dtr
705#define pmci_tlb_translation_reg_slot pme_tlb.tr_slot
706#define pmci_tlb_mc pme_tlb.mc
707
708#define pmci_bus_status_info pme_bus.bsi
709#define pmci_bus_req_address_valid pme_bus.rq
710#define pmci_bus_resp_address_valid pme_bus.rp
711#define pmci_bus_target_address_valid pme_bus.tv
712#define pmci_bus_error_severity pme_bus.sev
713#define pmci_bus_transaction_type pme_bus.type
714#define pmci_bus_cache_cache_transfer pme_bus.cc
715#define pmci_bus_transaction_size pme_bus.size
716#define pmci_bus_internal_error pme_bus.ib
717#define pmci_bus_external_error pme_bus.eb
718#define pmci_bus_mc pme_bus.mc
719
720/*
721 * NOTE: this min_state_save area struct only includes the 1KB
722 * architectural state save area. The other 3 KB is scratch space
723 * for PAL.
724 */
725
726typedef struct pal_min_state_area_s {
727 u64 pmsa_nat_bits; /* nat bits for saved GRs */
728 u64 pmsa_gr[15]; /* GR1 - GR15 */
729 u64 pmsa_bank0_gr[16]; /* GR16 - GR31 */
730 u64 pmsa_bank1_gr[16]; /* GR16 - GR31 */
731 u64 pmsa_pr; /* predicate registers */
732 u64 pmsa_br0; /* branch register 0 */
733 u64 pmsa_rsc; /* ar.rsc */
734 u64 pmsa_iip; /* cr.iip */
735 u64 pmsa_ipsr; /* cr.ipsr */
736 u64 pmsa_ifs; /* cr.ifs */
737 u64 pmsa_xip; /* previous iip */
738 u64 pmsa_xpsr; /* previous psr */
739 u64 pmsa_xfs; /* previous ifs */
740 u64 pmsa_br1; /* branch register 1 */
741 u64 pmsa_reserved[70]; /* pal_min_state_area should total to 1KB */
742} pal_min_state_area_t;
743
744
745struct ia64_pal_retval {
746 /*
747 * A zero status value indicates call completed without error.
748 * A negative status value indicates reason of call failure.
749 * A positive status value indicates success but an
750 * informational value should be printed (e.g., "reboot for
751 * change to take effect").
752 */
753 s64 status;
754 u64 v0;
755 u64 v1;
756 u64 v2;
757};
758
759/*
760 * Note: Currently unused PAL arguments are generally labeled
761 * "reserved" so the value specified in the PAL documentation
762 * (generally 0) MUST be passed. Reserved parameters are not optional
763 * parameters.
764 */
765extern struct ia64_pal_retval ia64_pal_call_static (u64, u64, u64, u64, u64);
766extern struct ia64_pal_retval ia64_pal_call_stacked (u64, u64, u64, u64);
767extern struct ia64_pal_retval ia64_pal_call_phys_static (u64, u64, u64, u64);
768extern struct ia64_pal_retval ia64_pal_call_phys_stacked (u64, u64, u64, u64);
769extern void ia64_save_scratch_fpregs (struct ia64_fpreg *);
770extern void ia64_load_scratch_fpregs (struct ia64_fpreg *);
771
772#define PAL_CALL(iprv,a0,a1,a2,a3) do { \
773 struct ia64_fpreg fr[6]; \
774 ia64_save_scratch_fpregs(fr); \
775 iprv = ia64_pal_call_static(a0, a1, a2, a3, 0); \
776 ia64_load_scratch_fpregs(fr); \
777} while (0)
778
779#define PAL_CALL_IC_OFF(iprv,a0,a1,a2,a3) do { \
780 struct ia64_fpreg fr[6]; \
781 ia64_save_scratch_fpregs(fr); \
782 iprv = ia64_pal_call_static(a0, a1, a2, a3, 1); \
783 ia64_load_scratch_fpregs(fr); \
784} while (0)
785
786#define PAL_CALL_STK(iprv,a0,a1,a2,a3) do { \
787 struct ia64_fpreg fr[6]; \
788 ia64_save_scratch_fpregs(fr); \
789 iprv = ia64_pal_call_stacked(a0, a1, a2, a3); \
790 ia64_load_scratch_fpregs(fr); \
791} while (0)
792
793#define PAL_CALL_PHYS(iprv,a0,a1,a2,a3) do { \
794 struct ia64_fpreg fr[6]; \
795 ia64_save_scratch_fpregs(fr); \
796 iprv = ia64_pal_call_phys_static(a0, a1, a2, a3); \
797 ia64_load_scratch_fpregs(fr); \
798} while (0)
799
800#define PAL_CALL_PHYS_STK(iprv,a0,a1,a2,a3) do { \
801 struct ia64_fpreg fr[6]; \
802 ia64_save_scratch_fpregs(fr); \
803 iprv = ia64_pal_call_phys_stacked(a0, a1, a2, a3); \
804 ia64_load_scratch_fpregs(fr); \
805} while (0)
806
807typedef int (*ia64_pal_handler) (u64, ...);
808extern ia64_pal_handler ia64_pal;
809extern void ia64_pal_handler_init (void *);
810
811extern ia64_pal_handler ia64_pal;
812
813extern pal_cache_config_info_t l0d_cache_config_info;
814extern pal_cache_config_info_t l0i_cache_config_info;
815extern pal_cache_config_info_t l1_cache_config_info;
816extern pal_cache_config_info_t l2_cache_config_info;
817
818extern pal_cache_protection_info_t l0d_cache_protection_info;
819extern pal_cache_protection_info_t l0i_cache_protection_info;
820extern pal_cache_protection_info_t l1_cache_protection_info;
821extern pal_cache_protection_info_t l2_cache_protection_info;
822
823extern pal_cache_config_info_t pal_cache_config_info_get(pal_cache_level_t,
824 pal_cache_type_t);
825
826extern pal_cache_protection_info_t pal_cache_protection_info_get(pal_cache_level_t,
827 pal_cache_type_t);
828
829
830extern void pal_error(int);
831
832
833/* Useful wrappers for the current list of pal procedures */
834
835typedef union pal_bus_features_u {
836 u64 pal_bus_features_val;
837 struct {
838 u64 pbf_reserved1 : 29;
839 u64 pbf_req_bus_parking : 1;
840 u64 pbf_bus_lock_mask : 1;
841 u64 pbf_enable_half_xfer_rate : 1;
842 u64 pbf_reserved2 : 22;
843 u64 pbf_disable_xaction_queueing : 1;
844 u64 pbf_disable_resp_err_check : 1;
845 u64 pbf_disable_berr_check : 1;
846 u64 pbf_disable_bus_req_internal_err_signal : 1;
847 u64 pbf_disable_bus_req_berr_signal : 1;
848 u64 pbf_disable_bus_init_event_check : 1;
849 u64 pbf_disable_bus_init_event_signal : 1;
850 u64 pbf_disable_bus_addr_err_check : 1;
851 u64 pbf_disable_bus_addr_err_signal : 1;
852 u64 pbf_disable_bus_data_err_check : 1;
853 } pal_bus_features_s;
854} pal_bus_features_u_t;
855
856extern void pal_bus_features_print (u64);
857
858/* Provide information about configurable processor bus features */
859static inline s64
860ia64_pal_bus_get_features (pal_bus_features_u_t *features_avail,
861 pal_bus_features_u_t *features_status,
862 pal_bus_features_u_t *features_control)
863{
864 struct ia64_pal_retval iprv;
865 PAL_CALL_PHYS(iprv, PAL_BUS_GET_FEATURES, 0, 0, 0);
866 if (features_avail)
867 features_avail->pal_bus_features_val = iprv.v0;
868 if (features_status)
869 features_status->pal_bus_features_val = iprv.v1;
870 if (features_control)
871 features_control->pal_bus_features_val = iprv.v2;
872 return iprv.status;
873}
874
875/* Enables/disables specific processor bus features */
876static inline s64
877ia64_pal_bus_set_features (pal_bus_features_u_t feature_select)
878{
879 struct ia64_pal_retval iprv;
880 PAL_CALL_PHYS(iprv, PAL_BUS_SET_FEATURES, feature_select.pal_bus_features_val, 0, 0);
881 return iprv.status;
882}
883
884/* Get detailed cache information */
885static inline s64
886ia64_pal_cache_config_info (u64 cache_level, u64 cache_type, pal_cache_config_info_t *conf)
887{
888 struct ia64_pal_retval iprv;
889
890 PAL_CALL(iprv, PAL_CACHE_INFO, cache_level, cache_type, 0);
891
892 if (iprv.status == 0) {
893 conf->pcci_status = iprv.status;
894 conf->pcci_info_1.pcci1_data = iprv.v0;
895 conf->pcci_info_2.pcci2_data = iprv.v1;
896 conf->pcci_reserved = iprv.v2;
897 }
898 return iprv.status;
899
900}
901
902/* Get detailed cche protection information */
903static inline s64
904ia64_pal_cache_prot_info (u64 cache_level, u64 cache_type, pal_cache_protection_info_t *prot)
905{
906 struct ia64_pal_retval iprv;
907
908 PAL_CALL(iprv, PAL_CACHE_PROT_INFO, cache_level, cache_type, 0);
909
910 if (iprv.status == 0) {
911 prot->pcpi_status = iprv.status;
912 prot->pcp_info[0].pcpi_data = iprv.v0 & 0xffffffff;
913 prot->pcp_info[1].pcpi_data = iprv.v0 >> 32;
914 prot->pcp_info[2].pcpi_data = iprv.v1 & 0xffffffff;
915 prot->pcp_info[3].pcpi_data = iprv.v1 >> 32;
916 prot->pcp_info[4].pcpi_data = iprv.v2 & 0xffffffff;
917 prot->pcp_info[5].pcpi_data = iprv.v2 >> 32;
918 }
919 return iprv.status;
920}
921
922/*
923 * Flush the processor instruction or data caches. *PROGRESS must be
924 * initialized to zero before calling this for the first time..
925 */
926static inline s64
927ia64_pal_cache_flush (u64 cache_type, u64 invalidate, u64 *progress, u64 *vector)
928{
929 struct ia64_pal_retval iprv;
Xu, Anthonyf15ac582006-01-09 10:36:35 +0800930 PAL_CALL(iprv, PAL_CACHE_FLUSH, cache_type, invalidate, *progress);
Linus Torvalds1da177e2005-04-16 15:20:36 -0700931 if (vector)
932 *vector = iprv.v0;
933 *progress = iprv.v1;
934 return iprv.status;
935}
936
937
938/* Initialize the processor controlled caches */
939static inline s64
940ia64_pal_cache_init (u64 level, u64 cache_type, u64 rest)
941{
942 struct ia64_pal_retval iprv;
943 PAL_CALL(iprv, PAL_CACHE_INIT, level, cache_type, rest);
944 return iprv.status;
945}
946
947/* Initialize the tags and data of a data or unified cache line of
948 * processor controlled cache to known values without the availability
949 * of backing memory.
950 */
951static inline s64
952ia64_pal_cache_line_init (u64 physical_addr, u64 data_value)
953{
954 struct ia64_pal_retval iprv;
955 PAL_CALL(iprv, PAL_CACHE_LINE_INIT, physical_addr, data_value, 0);
956 return iprv.status;
957}
958
959
960/* Read the data and tag of a processor controlled cache line for diags */
961static inline s64
962ia64_pal_cache_read (pal_cache_line_id_u_t line_id, u64 physical_addr)
963{
964 struct ia64_pal_retval iprv;
965 PAL_CALL(iprv, PAL_CACHE_READ, line_id.pclid_data, physical_addr, 0);
966 return iprv.status;
967}
968
969/* Return summary information about the heirarchy of caches controlled by the processor */
970static inline s64
971ia64_pal_cache_summary (u64 *cache_levels, u64 *unique_caches)
972{
973 struct ia64_pal_retval iprv;
974 PAL_CALL(iprv, PAL_CACHE_SUMMARY, 0, 0, 0);
975 if (cache_levels)
976 *cache_levels = iprv.v0;
977 if (unique_caches)
978 *unique_caches = iprv.v1;
979 return iprv.status;
980}
981
982/* Write the data and tag of a processor-controlled cache line for diags */
983static inline s64
984ia64_pal_cache_write (pal_cache_line_id_u_t line_id, u64 physical_addr, u64 data)
985{
986 struct ia64_pal_retval iprv;
987 PAL_CALL(iprv, PAL_CACHE_WRITE, line_id.pclid_data, physical_addr, data);
988 return iprv.status;
989}
990
991
992/* Return the parameters needed to copy relocatable PAL procedures from ROM to memory */
993static inline s64
994ia64_pal_copy_info (u64 copy_type, u64 num_procs, u64 num_iopics,
995 u64 *buffer_size, u64 *buffer_align)
996{
997 struct ia64_pal_retval iprv;
998 PAL_CALL(iprv, PAL_COPY_INFO, copy_type, num_procs, num_iopics);
999 if (buffer_size)
1000 *buffer_size = iprv.v0;
1001 if (buffer_align)
1002 *buffer_align = iprv.v1;
1003 return iprv.status;
1004}
1005
1006/* Copy relocatable PAL procedures from ROM to memory */
1007static inline s64
1008ia64_pal_copy_pal (u64 target_addr, u64 alloc_size, u64 processor, u64 *pal_proc_offset)
1009{
1010 struct ia64_pal_retval iprv;
1011 PAL_CALL(iprv, PAL_COPY_PAL, target_addr, alloc_size, processor);
1012 if (pal_proc_offset)
1013 *pal_proc_offset = iprv.v0;
1014 return iprv.status;
1015}
1016
1017/* Return the number of instruction and data debug register pairs */
1018static inline s64
1019ia64_pal_debug_info (u64 *inst_regs, u64 *data_regs)
1020{
1021 struct ia64_pal_retval iprv;
1022 PAL_CALL(iprv, PAL_DEBUG_INFO, 0, 0, 0);
1023 if (inst_regs)
1024 *inst_regs = iprv.v0;
1025 if (data_regs)
1026 *data_regs = iprv.v1;
1027
1028 return iprv.status;
1029}
1030
1031#ifdef TBD
1032/* Switch from IA64-system environment to IA-32 system environment */
1033static inline s64
1034ia64_pal_enter_ia32_env (ia32_env1, ia32_env2, ia32_env3)
1035{
1036 struct ia64_pal_retval iprv;
1037 PAL_CALL(iprv, PAL_ENTER_IA_32_ENV, ia32_env1, ia32_env2, ia32_env3);
1038 return iprv.status;
1039}
1040#endif
1041
1042/* Get unique geographical address of this processor on its bus */
1043static inline s64
1044ia64_pal_fixed_addr (u64 *global_unique_addr)
1045{
1046 struct ia64_pal_retval iprv;
1047 PAL_CALL(iprv, PAL_FIXED_ADDR, 0, 0, 0);
1048 if (global_unique_addr)
1049 *global_unique_addr = iprv.v0;
1050 return iprv.status;
1051}
1052
1053/* Get base frequency of the platform if generated by the processor */
1054static inline s64
1055ia64_pal_freq_base (u64 *platform_base_freq)
1056{
1057 struct ia64_pal_retval iprv;
1058 PAL_CALL(iprv, PAL_FREQ_BASE, 0, 0, 0);
1059 if (platform_base_freq)
1060 *platform_base_freq = iprv.v0;
1061 return iprv.status;
1062}
1063
1064/*
1065 * Get the ratios for processor frequency, bus frequency and interval timer to
1066 * to base frequency of the platform
1067 */
1068static inline s64
1069ia64_pal_freq_ratios (struct pal_freq_ratio *proc_ratio, struct pal_freq_ratio *bus_ratio,
1070 struct pal_freq_ratio *itc_ratio)
1071{
1072 struct ia64_pal_retval iprv;
1073 PAL_CALL(iprv, PAL_FREQ_RATIOS, 0, 0, 0);
1074 if (proc_ratio)
1075 *(u64 *)proc_ratio = iprv.v0;
1076 if (bus_ratio)
1077 *(u64 *)bus_ratio = iprv.v1;
1078 if (itc_ratio)
1079 *(u64 *)itc_ratio = iprv.v2;
1080 return iprv.status;
1081}
1082
1083/* Make the processor enter HALT or one of the implementation dependent low
1084 * power states where prefetching and execution are suspended and cache and
1085 * TLB coherency is not maintained.
1086 */
1087static inline s64
1088ia64_pal_halt (u64 halt_state)
1089{
1090 struct ia64_pal_retval iprv;
1091 PAL_CALL(iprv, PAL_HALT, halt_state, 0, 0);
1092 return iprv.status;
1093}
1094
1095typedef union pal_power_mgmt_info_u {
1096 u64 ppmi_data;
1097 struct {
1098 u64 exit_latency : 16,
1099 entry_latency : 16,
1100 power_consumption : 28,
1101 im : 1,
1102 co : 1,
1103 reserved : 2;
1104 } pal_power_mgmt_info_s;
1105} pal_power_mgmt_info_u_t;
1106
1107/* Return information about processor's optional power management capabilities. */
1108static inline s64
1109ia64_pal_halt_info (pal_power_mgmt_info_u_t *power_buf)
1110{
1111 struct ia64_pal_retval iprv;
1112 PAL_CALL_STK(iprv, PAL_HALT_INFO, (unsigned long) power_buf, 0, 0);
1113 return iprv.status;
1114}
1115
Venkatesh Pallipadi4db86992005-07-29 16:15:00 -07001116/* Get the current P-state information */
1117static inline s64
1118ia64_pal_get_pstate (u64 *pstate_index)
1119{
1120 struct ia64_pal_retval iprv;
1121 PAL_CALL_STK(iprv, PAL_GET_PSTATE, 0, 0, 0);
1122 *pstate_index = iprv.v0;
1123 return iprv.status;
1124}
1125
1126/* Set the P-state */
1127static inline s64
1128ia64_pal_set_pstate (u64 pstate_index)
1129{
1130 struct ia64_pal_retval iprv;
1131 PAL_CALL_STK(iprv, PAL_SET_PSTATE, pstate_index, 0, 0);
1132 return iprv.status;
1133}
1134
Linus Torvalds1da177e2005-04-16 15:20:36 -07001135/* Cause the processor to enter LIGHT HALT state, where prefetching and execution are
1136 * suspended, but cache and TLB coherency is maintained.
1137 */
1138static inline s64
1139ia64_pal_halt_light (void)
1140{
1141 struct ia64_pal_retval iprv;
1142 PAL_CALL(iprv, PAL_HALT_LIGHT, 0, 0, 0);
1143 return iprv.status;
1144}
1145
1146/* Clear all the processor error logging registers and reset the indicator that allows
1147 * the error logging registers to be written. This procedure also checks the pending
1148 * machine check bit and pending INIT bit and reports their states.
1149 */
1150static inline s64
1151ia64_pal_mc_clear_log (u64 *pending_vector)
1152{
1153 struct ia64_pal_retval iprv;
1154 PAL_CALL(iprv, PAL_MC_CLEAR_LOG, 0, 0, 0);
1155 if (pending_vector)
1156 *pending_vector = iprv.v0;
1157 return iprv.status;
1158}
1159
1160/* Ensure that all outstanding transactions in a processor are completed or that any
1161 * MCA due to thes outstanding transaction is taken.
1162 */
1163static inline s64
1164ia64_pal_mc_drain (void)
1165{
1166 struct ia64_pal_retval iprv;
1167 PAL_CALL(iprv, PAL_MC_DRAIN, 0, 0, 0);
1168 return iprv.status;
1169}
1170
1171/* Return the machine check dynamic processor state */
1172static inline s64
1173ia64_pal_mc_dynamic_state (u64 offset, u64 *size, u64 *pds)
1174{
1175 struct ia64_pal_retval iprv;
1176 PAL_CALL(iprv, PAL_MC_DYNAMIC_STATE, offset, 0, 0);
1177 if (size)
1178 *size = iprv.v0;
1179 if (pds)
1180 *pds = iprv.v1;
1181 return iprv.status;
1182}
1183
1184/* Return processor machine check information */
1185static inline s64
1186ia64_pal_mc_error_info (u64 info_index, u64 type_index, u64 *size, u64 *error_info)
1187{
1188 struct ia64_pal_retval iprv;
1189 PAL_CALL(iprv, PAL_MC_ERROR_INFO, info_index, type_index, 0);
1190 if (size)
1191 *size = iprv.v0;
1192 if (error_info)
1193 *error_info = iprv.v1;
1194 return iprv.status;
1195}
1196
1197/* Inform PALE_CHECK whether a machine check is expected so that PALE_CHECK willnot
1198 * attempt to correct any expected machine checks.
1199 */
1200static inline s64
1201ia64_pal_mc_expected (u64 expected, u64 *previous)
1202{
1203 struct ia64_pal_retval iprv;
1204 PAL_CALL(iprv, PAL_MC_EXPECTED, expected, 0, 0);
1205 if (previous)
1206 *previous = iprv.v0;
1207 return iprv.status;
1208}
1209
1210/* Register a platform dependent location with PAL to which it can save
1211 * minimal processor state in the event of a machine check or initialization
1212 * event.
1213 */
1214static inline s64
1215ia64_pal_mc_register_mem (u64 physical_addr)
1216{
1217 struct ia64_pal_retval iprv;
1218 PAL_CALL(iprv, PAL_MC_REGISTER_MEM, physical_addr, 0, 0);
1219 return iprv.status;
1220}
1221
1222/* Restore minimal architectural processor state, set CMC interrupt if necessary
1223 * and resume execution
1224 */
1225static inline s64
1226ia64_pal_mc_resume (u64 set_cmci, u64 save_ptr)
1227{
1228 struct ia64_pal_retval iprv;
1229 PAL_CALL(iprv, PAL_MC_RESUME, set_cmci, save_ptr, 0);
1230 return iprv.status;
1231}
1232
1233/* Return the memory attributes implemented by the processor */
1234static inline s64
1235ia64_pal_mem_attrib (u64 *mem_attrib)
1236{
1237 struct ia64_pal_retval iprv;
1238 PAL_CALL(iprv, PAL_MEM_ATTRIB, 0, 0, 0);
1239 if (mem_attrib)
1240 *mem_attrib = iprv.v0 & 0xff;
1241 return iprv.status;
1242}
1243
1244/* Return the amount of memory needed for second phase of processor
1245 * self-test and the required alignment of memory.
1246 */
1247static inline s64
1248ia64_pal_mem_for_test (u64 *bytes_needed, u64 *alignment)
1249{
1250 struct ia64_pal_retval iprv;
1251 PAL_CALL(iprv, PAL_MEM_FOR_TEST, 0, 0, 0);
1252 if (bytes_needed)
1253 *bytes_needed = iprv.v0;
1254 if (alignment)
1255 *alignment = iprv.v1;
1256 return iprv.status;
1257}
1258
1259typedef union pal_perf_mon_info_u {
1260 u64 ppmi_data;
1261 struct {
1262 u64 generic : 8,
1263 width : 8,
1264 cycles : 8,
1265 retired : 8,
1266 reserved : 32;
1267 } pal_perf_mon_info_s;
1268} pal_perf_mon_info_u_t;
1269
1270/* Return the performance monitor information about what can be counted
1271 * and how to configure the monitors to count the desired events.
1272 */
1273static inline s64
1274ia64_pal_perf_mon_info (u64 *pm_buffer, pal_perf_mon_info_u_t *pm_info)
1275{
1276 struct ia64_pal_retval iprv;
1277 PAL_CALL(iprv, PAL_PERF_MON_INFO, (unsigned long) pm_buffer, 0, 0);
1278 if (pm_info)
1279 pm_info->ppmi_data = iprv.v0;
1280 return iprv.status;
1281}
1282
1283/* Specifies the physical address of the processor interrupt block
1284 * and I/O port space.
1285 */
1286static inline s64
1287ia64_pal_platform_addr (u64 type, u64 physical_addr)
1288{
1289 struct ia64_pal_retval iprv;
1290 PAL_CALL(iprv, PAL_PLATFORM_ADDR, type, physical_addr, 0);
1291 return iprv.status;
1292}
1293
1294/* Set the SAL PMI entrypoint in memory */
1295static inline s64
1296ia64_pal_pmi_entrypoint (u64 sal_pmi_entry_addr)
1297{
1298 struct ia64_pal_retval iprv;
1299 PAL_CALL(iprv, PAL_PMI_ENTRYPOINT, sal_pmi_entry_addr, 0, 0);
1300 return iprv.status;
1301}
1302
1303struct pal_features_s;
1304/* Provide information about configurable processor features */
1305static inline s64
1306ia64_pal_proc_get_features (u64 *features_avail,
1307 u64 *features_status,
1308 u64 *features_control)
1309{
1310 struct ia64_pal_retval iprv;
1311 PAL_CALL_PHYS(iprv, PAL_PROC_GET_FEATURES, 0, 0, 0);
1312 if (iprv.status == 0) {
1313 *features_avail = iprv.v0;
1314 *features_status = iprv.v1;
1315 *features_control = iprv.v2;
1316 }
1317 return iprv.status;
1318}
1319
1320/* Enable/disable processor dependent features */
1321static inline s64
1322ia64_pal_proc_set_features (u64 feature_select)
1323{
1324 struct ia64_pal_retval iprv;
1325 PAL_CALL_PHYS(iprv, PAL_PROC_SET_FEATURES, feature_select, 0, 0);
1326 return iprv.status;
1327}
1328
1329/*
1330 * Put everything in a struct so we avoid the global offset table whenever
1331 * possible.
1332 */
1333typedef struct ia64_ptce_info_s {
1334 u64 base;
1335 u32 count[2];
1336 u32 stride[2];
1337} ia64_ptce_info_t;
1338
1339/* Return the information required for the architected loop used to purge
1340 * (initialize) the entire TC
1341 */
1342static inline s64
1343ia64_get_ptce (ia64_ptce_info_t *ptce)
1344{
1345 struct ia64_pal_retval iprv;
1346
1347 if (!ptce)
1348 return -1;
1349
1350 PAL_CALL(iprv, PAL_PTCE_INFO, 0, 0, 0);
1351 if (iprv.status == 0) {
1352 ptce->base = iprv.v0;
1353 ptce->count[0] = iprv.v1 >> 32;
1354 ptce->count[1] = iprv.v1 & 0xffffffff;
1355 ptce->stride[0] = iprv.v2 >> 32;
1356 ptce->stride[1] = iprv.v2 & 0xffffffff;
1357 }
1358 return iprv.status;
1359}
1360
1361/* Return info about implemented application and control registers. */
1362static inline s64
1363ia64_pal_register_info (u64 info_request, u64 *reg_info_1, u64 *reg_info_2)
1364{
1365 struct ia64_pal_retval iprv;
1366 PAL_CALL(iprv, PAL_REGISTER_INFO, info_request, 0, 0);
1367 if (reg_info_1)
1368 *reg_info_1 = iprv.v0;
1369 if (reg_info_2)
1370 *reg_info_2 = iprv.v1;
1371 return iprv.status;
1372}
1373
1374typedef union pal_hints_u {
1375 u64 ph_data;
1376 struct {
1377 u64 si : 1,
1378 li : 1,
1379 reserved : 62;
1380 } pal_hints_s;
1381} pal_hints_u_t;
1382
1383/* Return information about the register stack and RSE for this processor
1384 * implementation.
1385 */
1386static inline s64
1387ia64_pal_rse_info (u64 *num_phys_stacked, pal_hints_u_t *hints)
1388{
1389 struct ia64_pal_retval iprv;
1390 PAL_CALL(iprv, PAL_RSE_INFO, 0, 0, 0);
1391 if (num_phys_stacked)
1392 *num_phys_stacked = iprv.v0;
1393 if (hints)
1394 hints->ph_data = iprv.v1;
1395 return iprv.status;
1396}
1397
1398/* Cause the processor to enter SHUTDOWN state, where prefetching and execution are
1399 * suspended, but cause cache and TLB coherency to be maintained.
1400 * This is usually called in IA-32 mode.
1401 */
1402static inline s64
1403ia64_pal_shutdown (void)
1404{
1405 struct ia64_pal_retval iprv;
1406 PAL_CALL(iprv, PAL_SHUTDOWN, 0, 0, 0);
1407 return iprv.status;
1408}
1409
1410/* Perform the second phase of processor self-test. */
1411static inline s64
1412ia64_pal_test_proc (u64 test_addr, u64 test_size, u64 attributes, u64 *self_test_state)
1413{
1414 struct ia64_pal_retval iprv;
1415 PAL_CALL(iprv, PAL_TEST_PROC, test_addr, test_size, attributes);
1416 if (self_test_state)
1417 *self_test_state = iprv.v0;
1418 return iprv.status;
1419}
1420
1421typedef union pal_version_u {
1422 u64 pal_version_val;
1423 struct {
1424 u64 pv_pal_b_rev : 8;
1425 u64 pv_pal_b_model : 8;
1426 u64 pv_reserved1 : 8;
1427 u64 pv_pal_vendor : 8;
1428 u64 pv_pal_a_rev : 8;
1429 u64 pv_pal_a_model : 8;
1430 u64 pv_reserved2 : 16;
1431 } pal_version_s;
1432} pal_version_u_t;
1433
1434
1435/* Return PAL version information */
1436static inline s64
1437ia64_pal_version (pal_version_u_t *pal_min_version, pal_version_u_t *pal_cur_version)
1438{
1439 struct ia64_pal_retval iprv;
1440 PAL_CALL_PHYS(iprv, PAL_VERSION, 0, 0, 0);
1441 if (pal_min_version)
1442 pal_min_version->pal_version_val = iprv.v0;
1443
1444 if (pal_cur_version)
1445 pal_cur_version->pal_version_val = iprv.v1;
1446
1447 return iprv.status;
1448}
1449
1450typedef union pal_tc_info_u {
1451 u64 pti_val;
1452 struct {
1453 u64 num_sets : 8,
1454 associativity : 8,
1455 num_entries : 16,
1456 pf : 1,
1457 unified : 1,
1458 reduce_tr : 1,
1459 reserved : 29;
1460 } pal_tc_info_s;
1461} pal_tc_info_u_t;
1462
1463#define tc_reduce_tr pal_tc_info_s.reduce_tr
1464#define tc_unified pal_tc_info_s.unified
1465#define tc_pf pal_tc_info_s.pf
1466#define tc_num_entries pal_tc_info_s.num_entries
1467#define tc_associativity pal_tc_info_s.associativity
1468#define tc_num_sets pal_tc_info_s.num_sets
1469
1470
1471/* Return information about the virtual memory characteristics of the processor
1472 * implementation.
1473 */
1474static inline s64
1475ia64_pal_vm_info (u64 tc_level, u64 tc_type, pal_tc_info_u_t *tc_info, u64 *tc_pages)
1476{
1477 struct ia64_pal_retval iprv;
1478 PAL_CALL(iprv, PAL_VM_INFO, tc_level, tc_type, 0);
1479 if (tc_info)
1480 tc_info->pti_val = iprv.v0;
1481 if (tc_pages)
1482 *tc_pages = iprv.v1;
1483 return iprv.status;
1484}
1485
1486/* Get page size information about the virtual memory characteristics of the processor
1487 * implementation.
1488 */
1489static inline s64
1490ia64_pal_vm_page_size (u64 *tr_pages, u64 *vw_pages)
1491{
1492 struct ia64_pal_retval iprv;
1493 PAL_CALL(iprv, PAL_VM_PAGE_SIZE, 0, 0, 0);
1494 if (tr_pages)
1495 *tr_pages = iprv.v0;
1496 if (vw_pages)
1497 *vw_pages = iprv.v1;
1498 return iprv.status;
1499}
1500
1501typedef union pal_vm_info_1_u {
1502 u64 pvi1_val;
1503 struct {
1504 u64 vw : 1,
1505 phys_add_size : 7,
1506 key_size : 8,
1507 max_pkr : 8,
1508 hash_tag_id : 8,
1509 max_dtr_entry : 8,
1510 max_itr_entry : 8,
1511 max_unique_tcs : 8,
1512 num_tc_levels : 8;
1513 } pal_vm_info_1_s;
1514} pal_vm_info_1_u_t;
1515
1516typedef union pal_vm_info_2_u {
1517 u64 pvi2_val;
1518 struct {
1519 u64 impl_va_msb : 8,
1520 rid_size : 8,
1521 reserved : 48;
1522 } pal_vm_info_2_s;
1523} pal_vm_info_2_u_t;
1524
1525/* Get summary information about the virtual memory characteristics of the processor
1526 * implementation.
1527 */
1528static inline s64
1529ia64_pal_vm_summary (pal_vm_info_1_u_t *vm_info_1, pal_vm_info_2_u_t *vm_info_2)
1530{
1531 struct ia64_pal_retval iprv;
1532 PAL_CALL(iprv, PAL_VM_SUMMARY, 0, 0, 0);
1533 if (vm_info_1)
1534 vm_info_1->pvi1_val = iprv.v0;
1535 if (vm_info_2)
1536 vm_info_2->pvi2_val = iprv.v1;
1537 return iprv.status;
1538}
1539
1540typedef union pal_itr_valid_u {
1541 u64 piv_val;
1542 struct {
1543 u64 access_rights_valid : 1,
1544 priv_level_valid : 1,
1545 dirty_bit_valid : 1,
1546 mem_attr_valid : 1,
1547 reserved : 60;
1548 } pal_tr_valid_s;
1549} pal_tr_valid_u_t;
1550
1551/* Read a translation register */
1552static inline s64
1553ia64_pal_tr_read (u64 reg_num, u64 tr_type, u64 *tr_buffer, pal_tr_valid_u_t *tr_valid)
1554{
1555 struct ia64_pal_retval iprv;
1556 PAL_CALL_PHYS_STK(iprv, PAL_VM_TR_READ, reg_num, tr_type,(u64)ia64_tpa(tr_buffer));
1557 if (tr_valid)
1558 tr_valid->piv_val = iprv.v0;
1559 return iprv.status;
1560}
1561
1562/*
1563 * PAL_PREFETCH_VISIBILITY transaction types
1564 */
1565#define PAL_VISIBILITY_VIRTUAL 0
1566#define PAL_VISIBILITY_PHYSICAL 1
1567
1568/*
1569 * PAL_PREFETCH_VISIBILITY return codes
1570 */
1571#define PAL_VISIBILITY_OK 1
1572#define PAL_VISIBILITY_OK_REMOTE_NEEDED 0
1573#define PAL_VISIBILITY_INVAL_ARG -2
1574#define PAL_VISIBILITY_ERROR -3
1575
1576static inline s64
1577ia64_pal_prefetch_visibility (s64 trans_type)
1578{
1579 struct ia64_pal_retval iprv;
1580 PAL_CALL(iprv, PAL_PREFETCH_VISIBILITY, trans_type, 0, 0);
1581 return iprv.status;
1582}
1583
Suresh Siddhae927ecb2005-04-25 13:25:06 -07001584/* data structure for getting information on logical to physical mappings */
1585typedef union pal_log_overview_u {
1586 struct {
1587 u64 num_log :16, /* Total number of logical
1588 * processors on this die
1589 */
1590 tpc :8, /* Threads per core */
1591 reserved3 :8, /* Reserved */
1592 cpp :8, /* Cores per processor */
1593 reserved2 :8, /* Reserved */
1594 ppid :8, /* Physical processor ID */
1595 reserved1 :8; /* Reserved */
1596 } overview_bits;
1597 u64 overview_data;
1598} pal_log_overview_t;
1599
1600typedef union pal_proc_n_log_info1_u{
1601 struct {
1602 u64 tid :16, /* Thread id */
1603 reserved2 :16, /* Reserved */
1604 cid :16, /* Core id */
1605 reserved1 :16; /* Reserved */
1606 } ppli1_bits;
1607 u64 ppli1_data;
1608} pal_proc_n_log_info1_t;
1609
1610typedef union pal_proc_n_log_info2_u {
1611 struct {
1612 u64 la :16, /* Logical address */
1613 reserved :48; /* Reserved */
1614 } ppli2_bits;
1615 u64 ppli2_data;
1616} pal_proc_n_log_info2_t;
1617
1618typedef struct pal_logical_to_physical_s
1619{
1620 pal_log_overview_t overview;
1621 pal_proc_n_log_info1_t ppli1;
1622 pal_proc_n_log_info2_t ppli2;
1623} pal_logical_to_physical_t;
1624
1625#define overview_num_log overview.overview_bits.num_log
1626#define overview_tpc overview.overview_bits.tpc
1627#define overview_cpp overview.overview_bits.cpp
1628#define overview_ppid overview.overview_bits.ppid
1629#define log1_tid ppli1.ppli1_bits.tid
1630#define log1_cid ppli1.ppli1_bits.cid
1631#define log2_la ppli2.ppli2_bits.la
1632
1633/* Get information on logical to physical processor mappings. */
1634static inline s64
1635ia64_pal_logical_to_phys(u64 proc_number, pal_logical_to_physical_t *mapping)
1636{
1637 struct ia64_pal_retval iprv;
1638
1639 PAL_CALL(iprv, PAL_LOGICAL_TO_PHYSICAL, proc_number, 0, 0);
1640
1641 if (iprv.status == PAL_STATUS_SUCCESS)
1642 {
1643 if (proc_number == 0)
1644 mapping->overview.overview_data = iprv.v0;
1645 mapping->ppli1.ppli1_data = iprv.v1;
1646 mapping->ppli2.ppli2_data = iprv.v2;
1647 }
1648
1649 return iprv.status;
1650}
Linus Torvalds1da177e2005-04-16 15:20:36 -07001651#endif /* __ASSEMBLY__ */
1652
1653#endif /* _ASM_IA64_PAL_H */