xref: /titanic_51/usr/src/uts/sfmmu/ml/sfmmu_asm.s (revision fc3af78a71855c71878866a294572d00e6720533)
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 2008 Sun Microsystems, Inc.  All rights reserved.
23 * Use is subject to license terms.
24 */
25
26/*
27 * SFMMU primitives.  These primitives should only be used by sfmmu
28 * routines.
29 */
30
31#if defined(lint)
32#include <sys/types.h>
33#else	/* lint */
34#include "assym.h"
35#endif	/* lint */
36
37#include <sys/asm_linkage.h>
38#include <sys/machtrap.h>
39#include <sys/machasi.h>
40#include <sys/sun4asi.h>
41#include <sys/pte.h>
42#include <sys/mmu.h>
43#include <vm/hat_sfmmu.h>
44#include <vm/seg_spt.h>
45#include <sys/machparam.h>
46#include <sys/privregs.h>
47#include <sys/scb.h>
48#include <sys/intreg.h>
49#include <sys/machthread.h>
50#include <sys/intr.h>
51#include <sys/clock.h>
52#include <sys/trapstat.h>
53
54#ifdef TRAPTRACE
55#include <sys/traptrace.h>
56
57/*
58 * Tracing macro. Adds two instructions if TRAPTRACE is defined.
59 */
60#define	TT_TRACE(label)		\
61	ba	label		;\
62	rd	%pc, %g7
63#else
64
65#define	TT_TRACE(label)
66
67#endif /* TRAPTRACE */
68
69#ifndef	lint
70
71#if (TTE_SUSPEND_SHIFT > 0)
72#define	TTE_SUSPEND_INT_SHIFT(reg)				\
73	sllx	reg, TTE_SUSPEND_SHIFT, reg
74#else
75#define	TTE_SUSPEND_INT_SHIFT(reg)
76#endif
77
78#endif /* lint */
79
80#ifndef	lint
81
82/*
83 * Assumes TSBE_TAG is 0
84 * Assumes TSBE_INTHI is 0
85 * Assumes TSBREG.split is 0
86 */
87
88#if TSBE_TAG != 0
89#error "TSB_UPDATE and TSB_INVALIDATE assume TSBE_TAG = 0"
90#endif
91
92#if TSBTAG_INTHI != 0
93#error "TSB_UPDATE and TSB_INVALIDATE assume TSBTAG_INTHI = 0"
94#endif
95
96/*
97 * The following code assumes the tsb is not split.
98 *
99 * With TSBs no longer shared between processes, it's no longer
100 * necessary to hash the context bits into the tsb index to get
101 * tsb coloring; the new implementation treats the TSB as a
102 * direct-mapped, virtually-addressed cache.
103 *
104 * In:
105 *    vpshift = virtual page shift; e.g. 13 for 8K TTEs (constant or ro)
106 *    tsbbase = base address of TSB (clobbered)
107 *    tagacc = tag access register (clobbered)
108 *    szc = size code of TSB (ro)
109 *    tmp = scratch reg
110 * Out:
111 *    tsbbase = pointer to entry in TSB
112 */
113#define	GET_TSBE_POINTER(vpshift, tsbbase, tagacc, szc, tmp)		\
114	mov	TSB_ENTRIES(0), tmp	/* nentries in TSB size 0 */	;\
115	srlx	tagacc, vpshift, tagacc 				;\
116	sllx	tmp, szc, tmp		/* tmp = nentries in TSB */	;\
117	sub	tmp, 1, tmp		/* mask = nentries - 1 */	;\
118	and	tagacc, tmp, tmp	/* tsbent = virtpage & mask */	;\
119	sllx	tmp, TSB_ENTRY_SHIFT, tmp	/* entry num --> ptr */	;\
120	add	tsbbase, tmp, tsbbase	/* add entry offset to TSB base */
121
122/*
123 * When the kpm TSB is used it is assumed that it is direct mapped
124 * using (vaddr>>vpshift)%tsbsz as the index.
125 *
126 * Note that, for now, the kpm TSB and kernel TSB are the same for
127 * each mapping size.  However that need not always be the case.  If
128 * the trap handlers are updated to search a different TSB for kpm
129 * addresses than for kernel addresses then kpm_tsbbase and kpm_tsbsz
130 * (and/or kpmsm_tsbbase/kpmsm_tsbsz) may be entirely independent.
131 *
132 * In:
133 *    vpshift = virtual page shift; e.g. 13 for 8K TTEs (constant or ro)
134 *    vaddr = virtual address (clobbered)
135 *    tsbp, szc, tmp = scratch
136 * Out:
137 *    tsbp = pointer to entry in TSB
138 */
139#define	GET_KPM_TSBE_POINTER(vpshift, tsbp, vaddr, szc, tmp)		\
140	cmp	vpshift, MMU_PAGESHIFT					;\
141	bne,pn	%icc, 1f		/* branch if large case */	;\
142	  sethi	%hi(kpmsm_tsbsz), szc					;\
143	sethi	%hi(kpmsm_tsbbase), tsbp				;\
144	ld	[szc + %lo(kpmsm_tsbsz)], szc				;\
145	ldx	[tsbp + %lo(kpmsm_tsbbase)], tsbp			;\
146	ba,pt	%icc, 2f						;\
147	  nop								;\
1481:	sethi	%hi(kpm_tsbsz), szc					;\
149	sethi	%hi(kpm_tsbbase), tsbp					;\
150	ld	[szc + %lo(kpm_tsbsz)], szc				;\
151	ldx	[tsbp + %lo(kpm_tsbbase)], tsbp				;\
1522:	GET_TSBE_POINTER(vpshift, tsbp, vaddr, szc, tmp)
153
154/*
155 * Lock the TSBE at virtual address tsbep.
156 *
157 * tsbep = TSBE va (ro)
158 * tmp1, tmp2 = scratch registers (clobbered)
159 * label = label to jump to if we fail to lock the tsb entry
160 * %asi = ASI to use for TSB access
161 *
162 * NOTE that we flush the TSB using fast VIS instructions that
163 * set all 1's in the TSB tag, so TSBTAG_LOCKED|TSBTAG_INVALID must
164 * not be treated as a locked entry or we'll get stuck spinning on
165 * an entry that isn't locked but really invalid.
166 */
167
168#if defined(UTSB_PHYS)
169
170#define	TSB_LOCK_ENTRY(tsbep, tmp1, tmp2, label)			\
171	lda	[tsbep]ASI_MEM, tmp1					;\
172	sethi	%hi(TSBTAG_LOCKED), tmp2				;\
173	cmp	tmp1, tmp2 						;\
174	be,a,pn	%icc, label		/* if locked ignore */		;\
175	  nop								;\
176	casa	[tsbep]ASI_MEM, tmp1, tmp2				;\
177	cmp	tmp1, tmp2 						;\
178	bne,a,pn %icc, label		/* didn't lock so ignore */	;\
179	  nop								;\
180	/* tsbe lock acquired */					;\
181	membar #StoreStore
182
183#else /* UTSB_PHYS */
184
185#define	TSB_LOCK_ENTRY(tsbep, tmp1, tmp2, label)			\
186	lda	[tsbep]%asi, tmp1					;\
187	sethi	%hi(TSBTAG_LOCKED), tmp2				;\
188	cmp	tmp1, tmp2 						;\
189	be,a,pn	%icc, label		/* if locked ignore */		;\
190	  nop								;\
191	casa	[tsbep]%asi, tmp1, tmp2					;\
192	cmp	tmp1, tmp2 						;\
193	bne,a,pn %icc, label		/* didn't lock so ignore */	;\
194	  nop								;\
195	/* tsbe lock acquired */					;\
196	membar #StoreStore
197
198#endif /* UTSB_PHYS */
199
200/*
201 * Atomically write TSBE at virtual address tsbep.
202 *
203 * tsbep = TSBE va (ro)
204 * tte = TSBE TTE (ro)
205 * tagtarget = TSBE tag (ro)
206 * %asi = ASI to use for TSB access
207 */
208
209#if defined(UTSB_PHYS)
210
211#define	TSB_INSERT_UNLOCK_ENTRY(tsbep, tte, tagtarget, tmp1)		\
212	add	tsbep, TSBE_TTE, tmp1					;\
213	stxa	tte, [tmp1]ASI_MEM		/* write tte data */	;\
214	membar #StoreStore						;\
215	add	tsbep, TSBE_TAG, tmp1					;\
216	stxa	tagtarget, [tmp1]ASI_MEM	/* write tte tag & unlock */
217
218#else /* UTSB_PHYS */
219
220#define	TSB_INSERT_UNLOCK_ENTRY(tsbep, tte, tagtarget,tmp1)		\
221	stxa	tte, [tsbep + TSBE_TTE]%asi	/* write tte data */	;\
222	membar #StoreStore						;\
223	stxa	tagtarget, [tsbep + TSBE_TAG]%asi /* write tte tag & unlock */
224
225#endif /* UTSB_PHYS */
226
227/*
228 * Load an entry into the TSB at TL > 0.
229 *
230 * tsbep = pointer to the TSBE to load as va (ro)
231 * tte = value of the TTE retrieved and loaded (wo)
232 * tagtarget = tag target register.  To get TSBE tag to load,
233 *   we need to mask off the context and leave only the va (clobbered)
234 * ttepa = pointer to the TTE to retrieve/load as pa (ro)
235 * tmp1, tmp2 = scratch registers
236 * label = label to jump to if we fail to lock the tsb entry
237 * %asi = ASI to use for TSB access
238 */
239
240#if defined(UTSB_PHYS)
241
242#define	TSB_UPDATE_TL(tsbep, tte, tagtarget, ttepa, tmp1, tmp2, label) \
243	TSB_LOCK_ENTRY(tsbep, tmp1, tmp2, label)			;\
244	/*								;\
245	 * I don't need to update the TSB then check for the valid tte.	;\
246	 * TSB invalidate will spin till the entry is unlocked.	Note,	;\
247	 * we always invalidate the hash table before we unload the TSB.;\
248	 */								;\
249	sllx	tagtarget, TTARGET_VA_SHIFT, tagtarget			;\
250	ldxa	[ttepa]ASI_MEM, tte					;\
251	TTE_CLR_SOFTEXEC_ML(tte)					;\
252	srlx	tagtarget, TTARGET_VA_SHIFT, tagtarget			;\
253	sethi	%hi(TSBTAG_INVALID), tmp2				;\
254	add	tsbep, TSBE_TAG, tmp1					;\
255	brgez,a,pn tte, label						;\
256	 sta	tmp2, [tmp1]ASI_MEM			/* unlock */	;\
257	TSB_INSERT_UNLOCK_ENTRY(tsbep, tte, tagtarget, tmp1)		;\
258label:
259
260#else /* UTSB_PHYS */
261
262#define	TSB_UPDATE_TL(tsbep, tte, tagtarget, ttepa, tmp1, tmp2, label) \
263	TSB_LOCK_ENTRY(tsbep, tmp1, tmp2, label)			;\
264	/*								;\
265	 * I don't need to update the TSB then check for the valid tte.	;\
266	 * TSB invalidate will spin till the entry is unlocked.	Note,	;\
267	 * we always invalidate the hash table before we unload the TSB.;\
268	 */								;\
269	sllx	tagtarget, TTARGET_VA_SHIFT, tagtarget			;\
270	ldxa	[ttepa]ASI_MEM, tte					;\
271	srlx	tagtarget, TTARGET_VA_SHIFT, tagtarget			;\
272	sethi	%hi(TSBTAG_INVALID), tmp2				;\
273	brgez,a,pn tte, label						;\
274	 sta	tmp2, [tsbep + TSBE_TAG]%asi		/* unlock */	;\
275	TSB_INSERT_UNLOCK_ENTRY(tsbep, tte, tagtarget, tmp1)		;\
276label:
277
278#endif /* UTSB_PHYS */
279
280/*
281 * Load a 32M/256M Panther TSB entry into the TSB at TL > 0,
282 *   for ITLB synthesis.
283 *
284 * tsbep = pointer to the TSBE to load as va (ro)
285 * tte = 4M pfn offset (in), value of the TTE retrieved and loaded (out)
286 *   with exec_perm turned off and exec_synth turned on
287 * tagtarget = tag target register.  To get TSBE tag to load,
288 *   we need to mask off the context and leave only the va (clobbered)
289 * ttepa = pointer to the TTE to retrieve/load as pa (ro)
290 * tmp1, tmp2 = scratch registers
291 * label = label to use for branch (text)
292 * %asi = ASI to use for TSB access
293 */
294
295#define	TSB_UPDATE_TL_PN(tsbep, tte, tagtarget, ttepa, tmp1, tmp2, label) \
296	TSB_LOCK_ENTRY(tsbep, tmp1, tmp2, label)			;\
297	/*								;\
298	 * I don't need to update the TSB then check for the valid tte.	;\
299	 * TSB invalidate will spin till the entry is unlocked.	Note,	;\
300	 * we always invalidate the hash table before we unload the TSB.;\
301	 * Or in 4M pfn offset to TTE and set the exec_perm bit to 0	;\
302	 * and exec_synth bit to 1.					;\
303	 */								;\
304	sllx	tagtarget, TTARGET_VA_SHIFT, tagtarget			;\
305	mov	tte, tmp1						;\
306	ldxa	[ttepa]ASI_MEM, tte					;\
307	srlx	tagtarget, TTARGET_VA_SHIFT, tagtarget			;\
308	sethi	%hi(TSBTAG_INVALID), tmp2				;\
309	brgez,a,pn tte, label						;\
310	 sta	tmp2, [tsbep + TSBE_TAG]%asi		/* unlock */	;\
311	or	tte, tmp1, tte						;\
312	andn	tte, TTE_EXECPRM_INT, tte				;\
313	or	tte, TTE_E_SYNTH_INT, tte				;\
314	TSB_INSERT_UNLOCK_ENTRY(tsbep, tte, tagtarget, tmp1)		;\
315label:
316
317/*
318 * Build a 4M pfn offset for a Panther 32M/256M page, for ITLB synthesis.
319 *
320 * tte = value of the TTE, used to get tte_size bits (ro)
321 * tagaccess = tag access register, used to get 4M pfn bits (ro)
322 * pfn = 4M pfn bits shifted to offset for tte (out)
323 * tmp1 = scratch register
324 * label = label to use for branch (text)
325 */
326
327#define	GET_4M_PFN_OFF(tte, tagaccess, pfn, tmp, label)			\
328	/*								;\
329	 * Get 4M bits from tagaccess for 32M, 256M pagesizes.		;\
330	 * Return them, shifted, in pfn.				;\
331	 */								;\
332	srlx	tagaccess, MMU_PAGESHIFT4M, tagaccess			;\
333	srlx	tte, TTE_SZ_SHFT, tmp		/* isolate the */	;\
334	andcc	tmp, TTE_SZ_BITS, %g0		/* tte_size bits */	;\
335	bz,a,pt %icc, label/**/f		/* if 0, is */		;\
336	  and	tagaccess, 0x7, tagaccess	/* 32M page size */	;\
337	and	tagaccess, 0x3f, tagaccess /* else 256M page size */	;\
338label:									;\
339	sllx	tagaccess, MMU_PAGESHIFT4M, pfn
340
341/*
342 * Add 4M TTE size code to a tte for a Panther 32M/256M page,
343 * for ITLB synthesis.
344 *
345 * tte = value of the TTE, used to get tte_size bits (rw)
346 * tmp1 = scratch register
347 */
348
349#define	SET_TTE4M_PN(tte, tmp)						\
350	/*								;\
351	 * Set 4M pagesize tte bits. 					;\
352	 */								;\
353	set	TTE4M, tmp						;\
354	sllx	tmp, TTE_SZ_SHFT, tmp					;\
355	or	tte, tmp, tte
356
357/*
358 * Load an entry into the TSB at TL=0.
359 *
360 * tsbep = pointer to the TSBE to load as va (ro)
361 * tteva = pointer to the TTE to load as va (ro)
362 * tagtarget = TSBE tag to load (which contains no context), synthesized
363 * to match va of MMU tag target register only (ro)
364 * tmp1, tmp2 = scratch registers (clobbered)
365 * label = label to use for branches (text)
366 * %asi = ASI to use for TSB access
367 */
368
369#if defined(UTSB_PHYS)
370
371#define	TSB_UPDATE(tsbep, tteva, tagtarget, tmp1, tmp2, label)		\
372	/* can't rd tteva after locking tsb because it can tlb miss */	;\
373	ldx	[tteva], tteva			/* load tte */		;\
374	TTE_CLR_SOFTEXEC_ML(tteva)					;\
375	TSB_LOCK_ENTRY(tsbep, tmp1, tmp2, label)			;\
376	sethi	%hi(TSBTAG_INVALID), tmp2				;\
377	add	tsbep, TSBE_TAG, tmp1					;\
378	brgez,a,pn tteva, label						;\
379	 sta	tmp2, [tmp1]ASI_MEM			/* unlock */	;\
380	TSB_INSERT_UNLOCK_ENTRY(tsbep, tteva, tagtarget, tmp1)		;\
381label:
382
383#else /* UTSB_PHYS */
384
385#define	TSB_UPDATE(tsbep, tteva, tagtarget, tmp1, tmp2, label)		\
386	/* can't rd tteva after locking tsb because it can tlb miss */	;\
387	ldx	[tteva], tteva			/* load tte */		;\
388	TSB_LOCK_ENTRY(tsbep, tmp1, tmp2, label)			;\
389	sethi	%hi(TSBTAG_INVALID), tmp2				;\
390	brgez,a,pn tteva, label						;\
391	 sta	tmp2, [tsbep + TSBE_TAG]%asi		/* unlock */	;\
392	TSB_INSERT_UNLOCK_ENTRY(tsbep, tteva, tagtarget, tmp1)		;\
393label:
394
395#endif /* UTSB_PHYS */
396
397/*
398 * Invalidate a TSB entry in the TSB.
399 *
400 * NOTE: TSBE_TAG is assumed to be zero.  There is a compile time check
401 *	 about this earlier to ensure this is true.  Thus when we are
402 *	 directly referencing tsbep below, we are referencing the tte_tag
403 *	 field of the TSBE.  If this  offset ever changes, the code below
404 *	 will need to be modified.
405 *
406 * tsbep = pointer to TSBE as va (ro)
407 * tag = invalidation is done if this matches the TSBE tag (ro)
408 * tmp1 - tmp3 = scratch registers (clobbered)
409 * label = label name to use for branches (text)
410 * %asi = ASI to use for TSB access
411 */
412
413#if defined(UTSB_PHYS)
414
415#define	TSB_INVALIDATE(tsbep, tag, tmp1, tmp2, tmp3, label)		\
416	lda	[tsbep]ASI_MEM, tmp1	/* tmp1 = tsbe tag */		;\
417	sethi	%hi(TSBTAG_LOCKED), tmp2				;\
418label/**/1:								;\
419	cmp	tmp1, tmp2		/* see if tsbe is locked, if */	;\
420	be,a,pn	%icc, label/**/1	/* so, loop until unlocked */	;\
421	  lda	[tsbep]ASI_MEM, tmp1	/* reloading value each time */	;\
422	ldxa	[tsbep]ASI_MEM, tmp3	/* tmp3 = tsbe tag */		;\
423	cmp	tag, tmp3		/* compare tags */		;\
424	bne,pt	%xcc, label/**/2	/* if different, do nothing */	;\
425	  sethi	%hi(TSBTAG_INVALID), tmp3				;\
426	casa	[tsbep]ASI_MEM, tmp1, tmp3 /* try to set tag invalid */	;\
427	cmp	tmp1, tmp3		/* if not successful */		;\
428	bne,a,pn %icc, label/**/1	/* start over from the top */	;\
429	  lda	[tsbep]ASI_MEM, tmp1	/* reloading tsbe tag */	;\
430label/**/2:
431
432#else /* UTSB_PHYS */
433
434#define	TSB_INVALIDATE(tsbep, tag, tmp1, tmp2, tmp3, label)		\
435	lda	[tsbep]%asi, tmp1	/* tmp1 = tsbe tag */		;\
436	sethi	%hi(TSBTAG_LOCKED), tmp2				;\
437label/**/1:								;\
438	cmp	tmp1, tmp2		/* see if tsbe is locked, if */	;\
439	be,a,pn	%icc, label/**/1	/* so, loop until unlocked */	;\
440	  lda	[tsbep]%asi, tmp1	/* reloading value each time */	;\
441	ldxa	[tsbep]%asi, tmp3	/* tmp3 = tsbe tag */		;\
442	cmp	tag, tmp3		/* compare tags */		;\
443	bne,pt	%xcc, label/**/2	/* if different, do nothing */	;\
444	  sethi	%hi(TSBTAG_INVALID), tmp3				;\
445	casa	[tsbep]%asi, tmp1, tmp3	/* try to set tag invalid */	;\
446	cmp	tmp1, tmp3		/* if not successful */		;\
447	bne,a,pn %icc, label/**/1	/* start over from the top */	;\
448	  lda	[tsbep]%asi, tmp1	/* reloading tsbe tag */	;\
449label/**/2:
450
451#endif /* UTSB_PHYS */
452
453#if TSB_SOFTSZ_MASK < TSB_SZ_MASK
454#error	- TSB_SOFTSZ_MASK too small
455#endif
456
457
458/*
459 * An implementation of setx which will be hot patched at run time.
460 * since it is being hot patched, there is no value passed in.
461 * Thus, essentially we are implementing
462 *	setx value, tmp, dest
463 * where value is RUNTIME_PATCH (aka 0) in this case.
464 */
465#define	RUNTIME_PATCH_SETX(dest, tmp)					\
466	sethi	%hh(RUNTIME_PATCH), tmp					;\
467	sethi	%lm(RUNTIME_PATCH), dest				;\
468	or	tmp, %hm(RUNTIME_PATCH), tmp				;\
469	or	dest, %lo(RUNTIME_PATCH), dest				;\
470	sllx	tmp, 32, tmp						;\
471	nop				/* for perf reasons */		;\
472	or	tmp, dest, dest		/* contents of patched value */
473
474#endif /* lint */
475
476
477#if defined (lint)
478
479/*
480 * sfmmu related subroutines
481 */
482uint_t
483sfmmu_disable_intrs()
484{ return(0); }
485
486/* ARGSUSED */
487void
488sfmmu_enable_intrs(uint_t pstate_save)
489{}
490
491/* ARGSUSED */
492int
493sfmmu_alloc_ctx(sfmmu_t *sfmmup, int allocflag, struct cpu *cp, int shflag)
494{ return(0); }
495
496/*
497 * Use cas, if tte has changed underneath us then reread and try again.
498 * In the case of a retry, it will update sttep with the new original.
499 */
500/* ARGSUSED */
501int
502sfmmu_modifytte(tte_t *sttep, tte_t *stmodttep, tte_t *dttep)
503{ return(0); }
504
505/*
506 * Use cas, if tte has changed underneath us then return 1, else return 0
507 */
508/* ARGSUSED */
509int
510sfmmu_modifytte_try(tte_t *sttep, tte_t *stmodttep, tte_t *dttep)
511{ return(0); }
512
513/* ARGSUSED */
514void
515sfmmu_copytte(tte_t *sttep, tte_t *dttep)
516{}
517
518/*ARGSUSED*/
519struct tsbe *
520sfmmu_get_tsbe(uint64_t tsbeptr, caddr_t vaddr, int vpshift, int tsb_szc)
521{ return(0); }
522
523/*ARGSUSED*/
524uint64_t
525sfmmu_make_tsbtag(caddr_t va)
526{ return(0); }
527
528#else	/* lint */
529
530	.seg	".data"
531	.global	sfmmu_panic1
532sfmmu_panic1:
533	.asciz	"sfmmu_asm: interrupts already disabled"
534
535	.global	sfmmu_panic3
536sfmmu_panic3:
537	.asciz	"sfmmu_asm: sfmmu_vatopfn called for user"
538
539	.global	sfmmu_panic4
540sfmmu_panic4:
541	.asciz	"sfmmu_asm: 4M tsb pointer mis-match"
542
543	.global	sfmmu_panic5
544sfmmu_panic5:
545	.asciz	"sfmmu_asm: no unlocked TTEs in TLB 0"
546
547	.global	sfmmu_panic6
548sfmmu_panic6:
549	.asciz	"sfmmu_asm: interrupts not disabled"
550
551	.global	sfmmu_panic7
552sfmmu_panic7:
553	.asciz	"sfmmu_asm: kernel as"
554
555	.global	sfmmu_panic8
556sfmmu_panic8:
557	.asciz	"sfmmu_asm: gnum is zero"
558
559	.global	sfmmu_panic9
560sfmmu_panic9:
561	.asciz	"sfmmu_asm: cnum is greater than MAX_SFMMU_CTX_VAL"
562
563	.global	sfmmu_panic10
564sfmmu_panic10:
565	.asciz	"sfmmu_asm: valid SCD with no 3rd scd TSB"
566
567        ENTRY(sfmmu_disable_intrs)
568        rdpr    %pstate, %o0
569#ifdef DEBUG
570	PANIC_IF_INTR_DISABLED_PSTR(%o0, sfmmu_di_l0, %g1)
571#endif /* DEBUG */
572        retl
573          wrpr   %o0, PSTATE_IE, %pstate
574        SET_SIZE(sfmmu_disable_intrs)
575
576	ENTRY(sfmmu_enable_intrs)
577        retl
578          wrpr    %g0, %o0, %pstate
579        SET_SIZE(sfmmu_enable_intrs)
580
581/*
582 * This routine is called both by resume() and sfmmu_get_ctx() to
583 * allocate a new context for the process on a MMU.
584 * if allocflag == 1, then alloc ctx when HAT mmu cnum == INVALID .
585 * if allocflag == 0, then do not alloc ctx if HAT mmu cnum == INVALID, which
586 * is the case when sfmmu_alloc_ctx is called from resume().
587 *
588 * The caller must disable interrupts before entering this routine.
589 * To reduce ctx switch overhead, the code contains both 'fast path' and
590 * 'slow path' code. The fast path code covers the common case where only
591 * a quick check is needed and the real ctx allocation is not required.
592 * It can be done without holding the per-process (PP) lock.
593 * The 'slow path' code must be protected by the PP Lock and performs ctx
594 * allocation.
595 * Hardware context register and HAT mmu cnum are updated accordingly.
596 *
597 * %o0 - sfmmup
598 * %o1 - allocflag
599 * %o2 - CPU
600 * %o3 - sfmmu private/shared flag
601 *
602 * ret - 0: no ctx is allocated
603 *       1: a ctx is allocated
604 */
605        ENTRY_NP(sfmmu_alloc_ctx)
606
607#ifdef DEBUG
608	sethi   %hi(ksfmmup), %g1
609	ldx     [%g1 + %lo(ksfmmup)], %g1
610	cmp     %g1, %o0
611	bne,pt   %xcc, 0f
612	  nop
613
614	sethi   %hi(panicstr), %g1		! if kernel as, panic
615        ldx     [%g1 + %lo(panicstr)], %g1
616        tst     %g1
617        bnz,pn  %icc, 7f
618          nop
619
620	sethi	%hi(sfmmu_panic7), %o0
621	call	panic
622	  or	%o0, %lo(sfmmu_panic7), %o0
623
6247:
625	retl
626	  mov	%g0, %o0			! %o0 = ret = 0
627
6280:
629	PANIC_IF_INTR_ENABLED_PSTR(sfmmu_ei_l1, %g1)
630#endif /* DEBUG */
631
632	mov	%o3, %g1			! save sfmmu pri/sh flag in %g1
633
634	! load global mmu_ctxp info
635	ldx	[%o2 + CPU_MMU_CTXP], %o3		! %o3 = mmu_ctx_t ptr
636        lduw	[%o2 + CPU_MMU_IDX], %g2		! %g2 = mmu index
637
638	! load global mmu_ctxp gnum
639	ldx	[%o3 + MMU_CTX_GNUM], %o4		! %o4 = mmu_ctxp->gnum
640
641#ifdef DEBUG
642	cmp	%o4, %g0		! mmu_ctxp->gnum should never be 0
643	bne,pt	%xcc, 3f
644	  nop
645
646	sethi   %hi(panicstr), %g1	! test if panicstr is already set
647        ldx     [%g1 + %lo(panicstr)], %g1
648        tst     %g1
649        bnz,pn  %icc, 1f
650          nop
651
652	sethi	%hi(sfmmu_panic8), %o0
653	call	panic
654	  or	%o0, %lo(sfmmu_panic8), %o0
6551:
656	retl
657	  mov	%g0, %o0			! %o0 = ret = 0
6583:
659#endif
660
661	! load HAT sfmmu_ctxs[mmuid] gnum, cnum
662
663	sllx	%g2, SFMMU_MMU_CTX_SHIFT, %g2
664	add	%o0, %g2, %g2		! %g2 = &sfmmu_ctxs[mmuid] - SFMMU_CTXS
665
666	/*
667	 * %g5 = sfmmu gnum returned
668	 * %g6 = sfmmu cnum returned
669	 * %g2 = &sfmmu_ctxs[mmuid] - SFMMU_CTXS
670	 * %g4 = scratch
671	 *
672	 * Fast path code, do a quick check.
673	 */
674	SFMMU_MMUID_GNUM_CNUM(%g2, %g5, %g6, %g4)
675
676	cmp	%g6, INVALID_CONTEXT		! hat cnum == INVALID ??
677	bne,pt	%icc, 1f			! valid hat cnum, check gnum
678	  nop
679
680	! cnum == INVALID, check allocflag
681	mov	%g0, %g4	! %g4 = ret = 0
682	brz,pt  %o1, 8f		! allocflag == 0, skip ctx allocation, bail
683	  mov	%g6, %o1
684
685	! (invalid HAT cnum) && (allocflag == 1)
686	ba,pt	%icc, 2f
687	  nop
6881:
689	! valid HAT cnum, check gnum
690	cmp	%g5, %o4
691	mov	1, %g4				!%g4 = ret = 1
692	be,a,pt	%icc, 8f			! gnum unchanged, go to done
693	  mov	%g6, %o1
694
6952:
696	/*
697	 * Grab per process (PP) sfmmu_ctx_lock spinlock,
698	 * followed by the 'slow path' code.
699	 */
700	ldstub	[%o0 + SFMMU_CTX_LOCK], %g3	! %g3 = per process (PP) lock
7013:
702	brz	%g3, 5f
703	  nop
7044:
705	brnz,a,pt       %g3, 4b				! spin if lock is 1
706	  ldub	[%o0 + SFMMU_CTX_LOCK], %g3
707	ba	%xcc, 3b				! retry the lock
708	  ldstub	[%o0 + SFMMU_CTX_LOCK], %g3    ! %g3 = PP lock
709
7105:
711	membar  #LoadLoad
712	/*
713	 * %g5 = sfmmu gnum returned
714	 * %g6 = sfmmu cnum returned
715	 * %g2 = &sfmmu_ctxs[mmuid] - SFMMU_CTXS
716	 * %g4 = scratch
717	 */
718	SFMMU_MMUID_GNUM_CNUM(%g2, %g5, %g6, %g4)
719
720	cmp	%g6, INVALID_CONTEXT		! hat cnum == INVALID ??
721	bne,pt	%icc, 1f			! valid hat cnum, check gnum
722	  nop
723
724	! cnum == INVALID, check allocflag
725	mov	%g0, %g4	! %g4 = ret = 0
726	brz,pt	%o1, 2f		! allocflag == 0, called from resume, set hw
727	  mov	%g6, %o1
728
729	! (invalid HAT cnum) && (allocflag == 1)
730	ba,pt	%icc, 6f
731	  nop
7321:
733	! valid HAT cnum, check gnum
734	cmp	%g5, %o4
735	mov	1, %g4				! %g4 = ret  = 1
736	be,a,pt	%icc, 2f			! gnum unchanged, go to done
737	  mov	%g6, %o1
738
739	ba,pt	%icc, 6f
740	  nop
7412:
742	membar  #LoadStore|#StoreStore
743	ba,pt %icc, 8f
744	  clrb  [%o0 + SFMMU_CTX_LOCK]
7456:
746	/*
747	 * We get here if we do not have a valid context, or
748	 * the HAT gnum does not match global gnum. We hold
749	 * sfmmu_ctx_lock spinlock. Allocate that context.
750	 *
751	 * %o3 = mmu_ctxp
752	 */
753	add	%o3, MMU_CTX_CNUM, %g3
754	ld	[%o3 + MMU_CTX_NCTXS], %g4
755
756	/*
757         * %g2 = &sfmmu_ctx_t[mmuid] - SFMMU_CTXS;
758         * %g3 = mmu cnum address
759	 * %g4 = mmu nctxs
760	 *
761	 * %o0 = sfmmup
762	 * %o1 = mmu current cnum value (used as new cnum)
763	 * %o4 = mmu gnum
764	 *
765	 * %o5 = scratch
766	 */
767	ld	[%g3], %o1
7680:
769	cmp	%o1, %g4
770	bl,a,pt %icc, 1f
771	  add	%o1, 1, %o5		! %o5 = mmu_ctxp->cnum + 1
772
773	/*
774	 * cnum reachs max, bail, so wrap around can be performed later.
775	 */
776	set	INVALID_CONTEXT, %o1
777	mov	%g0, %g4		! %g4 = ret = 0
778
779	membar  #LoadStore|#StoreStore
780	ba,pt	%icc, 8f
781	  clrb	[%o0 + SFMMU_CTX_LOCK]
7821:
783	! %g3 = addr of mmu_ctxp->cnum
784	! %o5 = mmu_ctxp->cnum + 1
785	cas	[%g3], %o1, %o5
786	cmp	%o1, %o5
787	bne,a,pn %xcc, 0b	! cas failed
788	  ld	[%g3], %o1
789
790#ifdef DEBUG
791        set	MAX_SFMMU_CTX_VAL, %o5
792	cmp	%o1, %o5
793	ble,pt %icc, 2f
794	  nop
795
796	sethi	%hi(sfmmu_panic9), %o0
797	call	panic
798	  or	%o0, %lo(sfmmu_panic9), %o0
7992:
800#endif
801	! update hat gnum and cnum
802	sllx	%o4, SFMMU_MMU_GNUM_RSHIFT, %o4
803	or	%o4, %o1, %o4
804	stx	%o4, [%g2 + SFMMU_CTXS]
805
806	membar  #LoadStore|#StoreStore
807	clrb	[%o0 + SFMMU_CTX_LOCK]
808
809	mov	1, %g4			! %g4 = ret = 1
8108:
811	/*
812	 * program the secondary context register
813	 *
814	 * %o1 = cnum
815	 * %g1 = sfmmu private/shared flag (0:private,  1:shared)
816	 */
817
818	/*
819	 * When we come here and context is invalid, we want to set both
820	 * private and shared ctx regs to INVALID. In order to
821	 * do so, we set the sfmmu priv/shared flag to 'private' regardless
822	 * so that private ctx reg will be set to invalid.
823	 * Note that on sun4v values written to private context register are
824	 * automatically written to corresponding shared context register as
825	 * well. On sun4u SET_SECCTX() will invalidate shared context register
826	 * when it sets a private secondary context register.
827	 */
828
829	cmp	%o1, INVALID_CONTEXT
830	be,a,pn	%icc, 9f
831	  clr	%g1
8329:
833
834#ifdef	sun4u
835	ldub	[%o0 + SFMMU_CEXT], %o2
836	sll	%o2, CTXREG_EXT_SHIFT, %o2
837	or	%o1, %o2, %o1
838#endif /* sun4u */
839
840	SET_SECCTX(%o1, %g1, %o4, %o5, alloc_ctx_lbl1)
841
842        retl
843          mov   %g4, %o0                        ! %o0 = ret
844
845	SET_SIZE(sfmmu_alloc_ctx)
846
847	ENTRY_NP(sfmmu_modifytte)
848	ldx	[%o2], %g3			/* current */
849	ldx	[%o0], %g1			/* original */
8502:
851	ldx	[%o1], %g2			/* modified */
852	cmp	%g2, %g3			/* is modified = current? */
853	be,a,pt	%xcc,1f				/* yes, don't write */
854	stx	%g3, [%o0]			/* update new original */
855	casx	[%o2], %g1, %g2
856	cmp	%g1, %g2
857	be,pt	%xcc, 1f			/* cas succeeded - return */
858	  nop
859	ldx	[%o2], %g3			/* new current */
860	stx	%g3, [%o0]			/* save as new original */
861	ba,pt	%xcc, 2b
862	  mov	%g3, %g1
8631:	retl
864	membar	#StoreLoad
865	SET_SIZE(sfmmu_modifytte)
866
867	ENTRY_NP(sfmmu_modifytte_try)
868	ldx	[%o1], %g2			/* modified */
869	ldx	[%o2], %g3			/* current */
870	ldx	[%o0], %g1			/* original */
871	cmp	%g3, %g2			/* is modified = current? */
872	be,a,pn %xcc,1f				/* yes, don't write */
873	mov	0, %o1				/* as if cas failed. */
874
875	casx	[%o2], %g1, %g2
876	membar	#StoreLoad
877	cmp	%g1, %g2
878	movne	%xcc, -1, %o1			/* cas failed. */
879	move	%xcc, 1, %o1			/* cas succeeded. */
8801:
881	stx	%g2, [%o0]			/* report "current" value */
882	retl
883	mov	%o1, %o0
884	SET_SIZE(sfmmu_modifytte_try)
885
886	ENTRY_NP(sfmmu_copytte)
887	ldx	[%o0], %g1
888	retl
889	stx	%g1, [%o1]
890	SET_SIZE(sfmmu_copytte)
891
892
893	/*
894	 * Calculate a TSB entry pointer for the given TSB, va, pagesize.
895	 * %o0 = TSB base address (in), pointer to TSB entry (out)
896	 * %o1 = vaddr (in)
897	 * %o2 = vpshift (in)
898	 * %o3 = tsb size code (in)
899	 * %o4 = scratch register
900	 */
901	ENTRY_NP(sfmmu_get_tsbe)
902	GET_TSBE_POINTER(%o2, %o0, %o1, %o3, %o4)
903	retl
904	nop
905	SET_SIZE(sfmmu_get_tsbe)
906
907	/*
908	 * Return a TSB tag for the given va.
909	 * %o0 = va (in/clobbered)
910	 * %o0 = va shifted to be in tsb tag format (with no context) (out)
911	 */
912	ENTRY_NP(sfmmu_make_tsbtag)
913	retl
914	srln	%o0, TTARGET_VA_SHIFT, %o0
915	SET_SIZE(sfmmu_make_tsbtag)
916
917#endif /* lint */
918
919/*
920 * Other sfmmu primitives
921 */
922
923
924#if defined (lint)
925void
926sfmmu_patch_ktsb(void)
927{
928}
929
930void
931sfmmu_kpm_patch_tlbm(void)
932{
933}
934
935void
936sfmmu_kpm_patch_tsbm(void)
937{
938}
939
940void
941sfmmu_patch_shctx(void)
942{
943}
944
945/* ARGSUSED */
946void
947sfmmu_load_tsbe(struct tsbe *tsbep, uint64_t vaddr, tte_t *ttep, int phys)
948{
949}
950
951/* ARGSUSED */
952void
953sfmmu_unload_tsbe(struct tsbe *tsbep, uint64_t vaddr, int phys)
954{
955}
956
957/* ARGSUSED */
958void
959sfmmu_kpm_load_tsb(caddr_t addr, tte_t *ttep, int vpshift)
960{
961}
962
963/* ARGSUSED */
964void
965sfmmu_kpm_unload_tsb(caddr_t addr, int vpshift)
966{
967}
968
969#else /* lint */
970
971#define	I_SIZE		4
972
973	ENTRY_NP(sfmmu_fix_ktlb_traptable)
974	/*
975	 * %o0 = start of patch area
976	 * %o1 = size code of TSB to patch
977	 * %o3 = scratch
978	 */
979	/* fix sll */
980	ld	[%o0], %o3			/* get sll */
981	sub	%o3, %o1, %o3			/* decrease shift by tsb szc */
982	st	%o3, [%o0]			/* write sll */
983	flush	%o0
984	/* fix srl */
985	add	%o0, I_SIZE, %o0		/* goto next instr. */
986	ld	[%o0], %o3			/* get srl */
987	sub	%o3, %o1, %o3			/* decrease shift by tsb szc */
988	st	%o3, [%o0]			/* write srl */
989	retl
990	flush	%o0
991	SET_SIZE(sfmmu_fix_ktlb_traptable)
992
993	ENTRY_NP(sfmmu_fixup_ktsbbase)
994	/*
995	 * %o0 = start of patch area
996	 * %o5 = kernel virtual or physical tsb base address
997	 * %o2, %o3 are used as scratch registers.
998	 */
999	/* fixup sethi instruction */
1000	ld	[%o0], %o3
1001	srl	%o5, 10, %o2			! offset is bits 32:10
1002	or	%o3, %o2, %o3			! set imm22
1003	st	%o3, [%o0]
1004	/* fixup offset of lduw/ldx */
1005	add	%o0, I_SIZE, %o0		! next instr
1006	ld	[%o0], %o3
1007	and	%o5, 0x3ff, %o2			! set imm13 to bits 9:0
1008	or	%o3, %o2, %o3
1009	st	%o3, [%o0]
1010	retl
1011	flush	%o0
1012	SET_SIZE(sfmmu_fixup_ktsbbase)
1013
1014	ENTRY_NP(sfmmu_fixup_setx)
1015	/*
1016	 * %o0 = start of patch area
1017	 * %o4 = 64 bit value to patch
1018	 * %o2, %o3 are used as scratch registers.
1019	 *
1020	 * Note: Assuming that all parts of the instructions which need to be
1021	 *	 patched correspond to RUNTIME_PATCH (aka 0)
1022	 *
1023	 * Note the implementation of setx which is being patched is as follows:
1024	 *
1025	 * sethi   %hh(RUNTIME_PATCH), tmp
1026	 * sethi   %lm(RUNTIME_PATCH), dest
1027	 * or      tmp, %hm(RUNTIME_PATCH), tmp
1028	 * or      dest, %lo(RUNTIME_PATCH), dest
1029	 * sllx    tmp, 32, tmp
1030	 * nop
1031	 * or      tmp, dest, dest
1032	 *
1033	 * which differs from the implementation in the
1034	 * "SPARC Architecture Manual"
1035	 */
1036	/* fixup sethi instruction */
1037	ld	[%o0], %o3
1038	srlx	%o4, 42, %o2			! bits [63:42]
1039	or	%o3, %o2, %o3			! set imm22
1040	st	%o3, [%o0]
1041	/* fixup sethi instruction */
1042	add	%o0, I_SIZE, %o0		! next instr
1043	ld	[%o0], %o3
1044	sllx	%o4, 32, %o2			! clear upper bits
1045	srlx	%o2, 42, %o2			! bits [31:10]
1046	or	%o3, %o2, %o3			! set imm22
1047	st	%o3, [%o0]
1048	/* fixup or instruction */
1049	add	%o0, I_SIZE, %o0		! next instr
1050	ld	[%o0], %o3
1051	srlx	%o4, 32, %o2			! bits [63:32]
1052	and	%o2, 0x3ff, %o2			! bits [41:32]
1053	or	%o3, %o2, %o3			! set imm
1054	st	%o3, [%o0]
1055	/* fixup or instruction */
1056	add	%o0, I_SIZE, %o0		! next instr
1057	ld	[%o0], %o3
1058	and	%o4, 0x3ff, %o2			! bits [9:0]
1059	or	%o3, %o2, %o3			! set imm
1060	st	%o3, [%o0]
1061	retl
1062	flush	%o0
1063	SET_SIZE(sfmmu_fixup_setx)
1064
1065	ENTRY_NP(sfmmu_fixup_or)
1066	/*
1067	 * %o0 = start of patch area
1068	 * %o4 = 32 bit value to patch
1069	 * %o2, %o3 are used as scratch registers.
1070	 * Note: Assuming that all parts of the instructions which need to be
1071	 *	 patched correspond to RUNTIME_PATCH (aka 0)
1072	 */
1073	ld	[%o0], %o3
1074	and	%o4, 0x3ff, %o2			! bits [9:0]
1075	or	%o3, %o2, %o3			! set imm
1076	st	%o3, [%o0]
1077	retl
1078	flush	%o0
1079	SET_SIZE(sfmmu_fixup_or)
1080
1081	ENTRY_NP(sfmmu_fixup_shiftx)
1082	/*
1083	 * %o0 = start of patch area
1084	 * %o4 = signed int immediate value to add to sllx/srlx imm field
1085	 * %o2, %o3 are used as scratch registers.
1086	 *
1087	 * sllx/srlx store the 6 bit immediate value in the lowest order bits
1088	 * so we do a simple add.  The caller must be careful to prevent
1089	 * overflow, which could easily occur if the initial value is nonzero!
1090	 */
1091	ld	[%o0], %o3			! %o3 = instruction to patch
1092	and	%o3, 0x3f, %o2			! %o2 = existing imm value
1093	add	%o2, %o4, %o2			! %o2 = new imm value
1094	andn	%o3, 0x3f, %o3			! clear old imm value
1095	and	%o2, 0x3f, %o2			! truncate new imm value
1096	or	%o3, %o2, %o3			! set new imm value
1097	st	%o3, [%o0]			! store updated instruction
1098	retl
1099	flush	%o0
1100	SET_SIZE(sfmmu_fixup_shiftx)
1101
1102	ENTRY_NP(sfmmu_fixup_mmu_asi)
1103	/*
1104	 * Patch imm_asi of all ldda instructions in the MMU
1105	 * trap handlers.  We search MMU_PATCH_INSTR instructions
1106	 * starting from the itlb miss handler (trap 0x64).
1107	 * %o0 = address of tt[0,1]_itlbmiss
1108	 * %o1 = imm_asi to setup, shifted by appropriate offset.
1109	 * %o3 = number of instructions to search
1110	 * %o4 = reserved by caller: called from leaf routine
1111	 */
11121:	ldsw	[%o0], %o2			! load instruction to %o2
1113	brgez,pt %o2, 2f
1114	  srl	%o2, 30, %o5
1115	btst	1, %o5				! test bit 30; skip if not set
1116	bz,pt	%icc, 2f
1117	  sllx	%o2, 39, %o5			! bit 24 -> bit 63
1118	srlx	%o5, 58, %o5			! isolate op3 part of opcode
1119	xor	%o5, 0x13, %o5			! 01 0011 binary == ldda
1120	brnz,pt	%o5, 2f				! skip if not a match
1121	  or	%o2, %o1, %o2			! or in imm_asi
1122	st	%o2, [%o0]			! write patched instruction
11232:	dec	%o3
1124	brnz,a,pt %o3, 1b			! loop until we're done
1125	  add	%o0, I_SIZE, %o0
1126	retl
1127	flush	%o0
1128	SET_SIZE(sfmmu_fixup_mmu_asi)
1129
1130	/*
1131	 * Patch immediate ASI used to access the TSB in the
1132	 * trap table.
1133	 * inputs: %o0 = value of ktsb_phys
1134	 */
1135	ENTRY_NP(sfmmu_patch_mmu_asi)
1136	mov	%o7, %o4			! save return pc in %o4
1137	movrnz	%o0, ASI_QUAD_LDD_PHYS, %o3
1138	movrz	%o0, ASI_NQUAD_LD, %o3
1139	sll	%o3, 5, %o1			! imm_asi offset
1140	mov	6, %o3				! number of instructions
1141	sethi	%hi(dktsb), %o0			! to search
1142	call	sfmmu_fixup_mmu_asi		! patch kdtlb miss
1143	  or	%o0, %lo(dktsb), %o0
1144	mov	6, %o3				! number of instructions
1145	sethi	%hi(dktsb4m), %o0		! to search
1146	call	sfmmu_fixup_mmu_asi		! patch kdtlb4m miss
1147	  or	%o0, %lo(dktsb4m), %o0
1148	mov	6, %o3				! number of instructions
1149	sethi	%hi(iktsb), %o0			! to search
1150	call	sfmmu_fixup_mmu_asi		! patch kitlb miss
1151	  or	%o0, %lo(iktsb), %o0
1152	mov	6, %o3				! number of instructions
1153	sethi	%hi(iktsb4m), %o0		! to search
1154	call	sfmmu_fixup_mmu_asi		! patch kitlb4m miss
1155	  or	%o0, %lo(iktsb4m), %o0
1156	mov	%o4, %o7			! retore return pc -- leaf
1157	retl
1158	nop
1159	SET_SIZE(sfmmu_patch_mmu_asi)
1160
1161	ENTRY_NP(sfmmu_patch_ktsb)
1162	/*
1163	 * We need to fix iktsb, dktsb, et. al.
1164	 */
1165	save	%sp, -SA(MINFRAME), %sp
1166	set	ktsb_phys, %o1
1167	ld	[%o1], %o4
1168	set	ktsb_base, %o5
1169	set	ktsb4m_base, %l1
1170	brz,pt	%o4, 1f
1171	  nop
1172	set	ktsb_pbase, %o5
1173	set	ktsb4m_pbase, %l1
11741:
1175	sethi	%hi(ktsb_szcode), %o1
1176	ld	[%o1 + %lo(ktsb_szcode)], %o1	/* %o1 = ktsb size code */
1177
1178	sethi	%hi(iktsb), %o0
1179	call	sfmmu_fix_ktlb_traptable
1180	  or	%o0, %lo(iktsb), %o0
1181
1182	sethi	%hi(dktsb), %o0
1183	call	sfmmu_fix_ktlb_traptable
1184	  or	%o0, %lo(dktsb), %o0
1185
1186	sethi	%hi(ktsb4m_szcode), %o1
1187	ld	[%o1 + %lo(ktsb4m_szcode)], %o1	/* %o1 = ktsb4m size code */
1188
1189	sethi	%hi(iktsb4m), %o0
1190	call	sfmmu_fix_ktlb_traptable
1191	  or	%o0, %lo(iktsb4m), %o0
1192
1193	sethi	%hi(dktsb4m), %o0
1194	call	sfmmu_fix_ktlb_traptable
1195	  or	%o0, %lo(dktsb4m), %o0
1196
1197#ifndef sun4v
1198	mov	ASI_N, %o2
1199	movrnz	%o4, ASI_MEM, %o2	! setup kernel 32bit ASI to patch
1200	mov	%o2, %o4		! sfmmu_fixup_or needs this in %o4
1201	sethi	%hi(tsb_kernel_patch_asi), %o0
1202	call	sfmmu_fixup_or
1203	  or	%o0, %lo(tsb_kernel_patch_asi), %o0
1204#endif /* !sun4v */
1205
1206	ldx 	[%o5], %o4		! load ktsb base addr (VA or PA)
1207
1208	sethi	%hi(dktsbbase), %o0
1209	call	sfmmu_fixup_setx	! patch value of ktsb base addr
1210	  or	%o0, %lo(dktsbbase), %o0
1211
1212	sethi	%hi(iktsbbase), %o0
1213	call	sfmmu_fixup_setx	! patch value of ktsb base addr
1214	  or	%o0, %lo(iktsbbase), %o0
1215
1216	sethi	%hi(sfmmu_kprot_patch_ktsb_base), %o0
1217	call	sfmmu_fixup_setx	! patch value of ktsb base addr
1218	  or	%o0, %lo(sfmmu_kprot_patch_ktsb_base), %o0
1219
1220#ifdef sun4v
1221	sethi	%hi(sfmmu_dslow_patch_ktsb_base), %o0
1222	call	sfmmu_fixup_setx	! patch value of ktsb base addr
1223	  or	%o0, %lo(sfmmu_dslow_patch_ktsb_base), %o0
1224#endif /* sun4v */
1225
1226	ldx 	[%l1], %o4		! load ktsb4m base addr (VA or PA)
1227
1228	sethi	%hi(dktsb4mbase), %o0
1229	call	sfmmu_fixup_setx	! patch value of ktsb4m base addr
1230	  or	%o0, %lo(dktsb4mbase), %o0
1231
1232	sethi	%hi(iktsb4mbase), %o0
1233	call	sfmmu_fixup_setx	! patch value of ktsb4m base addr
1234	  or	%o0, %lo(iktsb4mbase), %o0
1235
1236	sethi	%hi(sfmmu_kprot_patch_ktsb4m_base), %o0
1237	call	sfmmu_fixup_setx	! patch value of ktsb4m base addr
1238	  or	%o0, %lo(sfmmu_kprot_patch_ktsb4m_base), %o0
1239
1240#ifdef sun4v
1241	sethi	%hi(sfmmu_dslow_patch_ktsb4m_base), %o0
1242	call	sfmmu_fixup_setx	! patch value of ktsb4m base addr
1243	  or	%o0, %lo(sfmmu_dslow_patch_ktsb4m_base), %o0
1244#endif /* sun4v */
1245
1246	set	ktsb_szcode, %o4
1247	ld	[%o4], %o4
1248	sethi	%hi(sfmmu_kprot_patch_ktsb_szcode), %o0
1249	call	sfmmu_fixup_or		! patch value of ktsb_szcode
1250	  or	%o0, %lo(sfmmu_kprot_patch_ktsb_szcode), %o0
1251
1252#ifdef sun4v
1253	sethi	%hi(sfmmu_dslow_patch_ktsb_szcode), %o0
1254	call	sfmmu_fixup_or		! patch value of ktsb_szcode
1255	  or	%o0, %lo(sfmmu_dslow_patch_ktsb_szcode), %o0
1256#endif /* sun4v */
1257
1258	set	ktsb4m_szcode, %o4
1259	ld	[%o4], %o4
1260	sethi	%hi(sfmmu_kprot_patch_ktsb4m_szcode), %o0
1261	call	sfmmu_fixup_or		! patch value of ktsb4m_szcode
1262	  or	%o0, %lo(sfmmu_kprot_patch_ktsb4m_szcode), %o0
1263
1264#ifdef sun4v
1265	sethi	%hi(sfmmu_dslow_patch_ktsb4m_szcode), %o0
1266	call	sfmmu_fixup_or		! patch value of ktsb4m_szcode
1267	  or	%o0, %lo(sfmmu_dslow_patch_ktsb4m_szcode), %o0
1268#endif /* sun4v */
1269
1270	ret
1271	restore
1272	SET_SIZE(sfmmu_patch_ktsb)
1273
1274	ENTRY_NP(sfmmu_kpm_patch_tlbm)
1275	/*
1276	 * Fixup trap handlers in common segkpm case.  This is reserved
1277	 * for future use should kpm TSB be changed to be other than the
1278	 * kernel TSB.
1279	 */
1280	retl
1281	nop
1282	SET_SIZE(sfmmu_kpm_patch_tlbm)
1283
1284	ENTRY_NP(sfmmu_kpm_patch_tsbm)
1285	/*
1286	 * nop the branch to sfmmu_kpm_dtsb_miss_small
1287	 * in the case where we are using large pages for
1288	 * seg_kpm (and hence must probe the second TSB for
1289	 * seg_kpm VAs)
1290	 */
1291	set	dktsb4m_kpmcheck_small, %o0
1292	MAKE_NOP_INSTR(%o1)
1293	st	%o1, [%o0]
1294	flush	%o0
1295	retl
1296	nop
1297	SET_SIZE(sfmmu_kpm_patch_tsbm)
1298
1299	ENTRY_NP(sfmmu_patch_utsb)
1300#ifdef UTSB_PHYS
1301	retl
1302	nop
1303#else /* UTSB_PHYS */
1304	/*
1305	 * We need to hot patch utsb_vabase and utsb4m_vabase
1306	 */
1307	save	%sp, -SA(MINFRAME), %sp
1308
1309	/* patch value of utsb_vabase */
1310	set	utsb_vabase, %o1
1311	ldx	[%o1], %o4
1312	sethi	%hi(sfmmu_uprot_get_1st_tsbe_ptr), %o0
1313	call	sfmmu_fixup_setx
1314	  or	%o0, %lo(sfmmu_uprot_get_1st_tsbe_ptr), %o0
1315	sethi	%hi(sfmmu_uitlb_get_1st_tsbe_ptr), %o0
1316	call	sfmmu_fixup_setx
1317	  or	%o0, %lo(sfmmu_uitlb_get_1st_tsbe_ptr), %o0
1318	sethi	%hi(sfmmu_udtlb_get_1st_tsbe_ptr), %o0
1319	call	sfmmu_fixup_setx
1320	  or	%o0, %lo(sfmmu_udtlb_get_1st_tsbe_ptr), %o0
1321
1322	/* patch value of utsb4m_vabase */
1323	set	utsb4m_vabase, %o1
1324	ldx	[%o1], %o4
1325	sethi	%hi(sfmmu_uprot_get_2nd_tsb_base), %o0
1326	call	sfmmu_fixup_setx
1327	  or	%o0, %lo(sfmmu_uprot_get_2nd_tsb_base), %o0
1328	sethi	%hi(sfmmu_uitlb_get_2nd_tsb_base), %o0
1329	call	sfmmu_fixup_setx
1330	  or	%o0, %lo(sfmmu_uitlb_get_2nd_tsb_base), %o0
1331	sethi	%hi(sfmmu_udtlb_get_2nd_tsb_base), %o0
1332	call	sfmmu_fixup_setx
1333	  or	%o0, %lo(sfmmu_udtlb_get_2nd_tsb_base), %o0
1334
1335	/*
1336	 * Patch TSB base register masks and shifts if needed.
1337	 * By default the TSB base register contents are set up for 4M slab.
1338	 * If we're using a smaller slab size and reserved VA range we need
1339	 * to patch up those values here.
1340	 */
1341	set	tsb_slab_shift, %o1
1342	set	MMU_PAGESHIFT4M, %o4
1343	lduw	[%o1], %o3
1344	subcc	%o4, %o3, %o4
1345	bz,pt	%icc, 1f
1346	  /* delay slot safe */
1347
1348	/* patch reserved VA range size if needed. */
1349	sethi	%hi(sfmmu_tsb_1st_resv_offset), %o0
1350	call	sfmmu_fixup_shiftx
1351	  or	%o0, %lo(sfmmu_tsb_1st_resv_offset), %o0
1352	call	sfmmu_fixup_shiftx
1353	  add	%o0, I_SIZE, %o0
1354	sethi	%hi(sfmmu_tsb_2nd_resv_offset), %o0
1355	call	sfmmu_fixup_shiftx
1356	  or	%o0, %lo(sfmmu_tsb_2nd_resv_offset), %o0
1357	call	sfmmu_fixup_shiftx
1358	  add	%o0, I_SIZE, %o0
13591:
1360	/* patch TSBREG_VAMASK used to set up TSB base register */
1361	set	tsb_slab_mask, %o1
1362	ldx	[%o1], %o4
1363	sethi	%hi(sfmmu_tsb_1st_tsbreg_vamask), %o0
1364	call	sfmmu_fixup_or
1365	  or	%o0, %lo(sfmmu_tsb_1st_tsbreg_vamask), %o0
1366	sethi	%hi(sfmmu_tsb_2nd_tsbreg_vamask), %o0
1367	call	sfmmu_fixup_or
1368	  or	%o0, %lo(sfmmu_tsb_2nd_tsbreg_vamask), %o0
1369
1370	ret
1371	restore
1372#endif /* UTSB_PHYS */
1373	SET_SIZE(sfmmu_patch_utsb)
1374
1375	ENTRY_NP(sfmmu_patch_shctx)
1376#ifdef sun4u
1377	retl
1378	  nop
1379#else /* sun4u */
1380	set	sfmmu_shctx_cpu_mondo_patch, %o0
1381	MAKE_JMP_INSTR(5, %o1, %o2)	! jmp       %g5
1382	st	%o1, [%o0]
1383	flush	%o0
1384	MAKE_NOP_INSTR(%o1)
1385	add	%o0, I_SIZE, %o0	! next instr
1386	st	%o1, [%o0]
1387	flush	%o0
1388
1389	set	sfmmu_shctx_user_rtt_patch, %o0
1390	st      %o1, [%o0]		! nop 1st instruction
1391	flush	%o0
1392	add     %o0, I_SIZE, %o0
1393	st      %o1, [%o0]		! nop 2nd instruction
1394	flush	%o0
1395	add     %o0, I_SIZE, %o0
1396	st      %o1, [%o0]		! nop 3rd instruction
1397	flush	%o0
1398	add     %o0, I_SIZE, %o0
1399	st      %o1, [%o0]		! nop 4th instruction
1400	retl
1401	flush	%o0
1402#endif /* sun4u */
1403	SET_SIZE(sfmmu_patch_shctx)
1404
1405	/*
1406	 * Routine that loads an entry into a tsb using virtual addresses.
1407	 * Locking is required since all cpus can use the same TSB.
1408	 * Note that it is no longer required to have a valid context
1409	 * when calling this function.
1410	 */
1411	ENTRY_NP(sfmmu_load_tsbe)
1412	/*
1413	 * %o0 = pointer to tsbe to load
1414	 * %o1 = tsb tag
1415	 * %o2 = virtual pointer to TTE
1416	 * %o3 = 1 if physical address in %o0 else 0
1417	 */
1418	rdpr	%pstate, %o5
1419#ifdef DEBUG
1420	PANIC_IF_INTR_DISABLED_PSTR(%o5, sfmmu_di_l2, %g1)
1421#endif /* DEBUG */
1422
1423	wrpr	%o5, PSTATE_IE, %pstate		/* disable interrupts */
1424
1425	SETUP_TSB_ASI(%o3, %g3)
1426	TSB_UPDATE(%o0, %o2, %o1, %g1, %g2, locked_tsb_l8)
1427
1428	wrpr	%g0, %o5, %pstate		/* enable interrupts */
1429
1430	retl
1431	membar	#StoreStore|#StoreLoad
1432	SET_SIZE(sfmmu_load_tsbe)
1433
1434	/*
1435	 * Flush TSB of a given entry if the tag matches.
1436	 */
1437	ENTRY(sfmmu_unload_tsbe)
1438	/*
1439	 * %o0 = pointer to tsbe to be flushed
1440	 * %o1 = tag to match
1441	 * %o2 = 1 if physical address in %o0 else 0
1442	 */
1443	SETUP_TSB_ASI(%o2, %g1)
1444	TSB_INVALIDATE(%o0, %o1, %g1, %o2, %o3, unload_tsbe)
1445	retl
1446	membar	#StoreStore|#StoreLoad
1447	SET_SIZE(sfmmu_unload_tsbe)
1448
1449	/*
1450	 * Routine that loads a TTE into the kpm TSB from C code.
1451	 * Locking is required since kpm TSB is shared among all CPUs.
1452	 */
1453	ENTRY_NP(sfmmu_kpm_load_tsb)
1454	/*
1455	 * %o0 = vaddr
1456	 * %o1 = ttep
1457	 * %o2 = virtpg to TSB index shift (e.g. TTE pagesize shift)
1458	 */
1459	rdpr	%pstate, %o5			! %o5 = saved pstate
1460#ifdef DEBUG
1461	PANIC_IF_INTR_DISABLED_PSTR(%o5, sfmmu_di_l3, %g1)
1462#endif /* DEBUG */
1463	wrpr	%o5, PSTATE_IE, %pstate		! disable interrupts
1464
1465#ifndef sun4v
1466	sethi	%hi(ktsb_phys), %o4
1467	mov	ASI_N, %o3
1468	ld	[%o4 + %lo(ktsb_phys)], %o4
1469	movrnz	%o4, ASI_MEM, %o3
1470	mov	%o3, %asi
1471#endif /* !sun4v */
1472	mov	%o0, %g1			! %g1 = vaddr
1473
1474	/* GET_KPM_TSBE_POINTER(vpshift, tsbp, vaddr (clobbers), tmp1, tmp2) */
1475	GET_KPM_TSBE_POINTER(%o2, %g2, %g1, %o3, %o4)
1476	/* %g2 = tsbep, %g1 clobbered */
1477
1478	srlx	%o0, TTARGET_VA_SHIFT, %g1;	! %g1 = tag target
1479	/* TSB_UPDATE(tsbep, tteva, tagtarget, tmp1, tmp2, label) */
1480	TSB_UPDATE(%g2, %o1, %g1, %o3, %o4, locked_tsb_l9)
1481
1482	wrpr	%g0, %o5, %pstate		! enable interrupts
1483	retl
1484	  membar #StoreStore|#StoreLoad
1485	SET_SIZE(sfmmu_kpm_load_tsb)
1486
1487	/*
1488	 * Routine that shoots down a TTE in the kpm TSB or in the
1489	 * kernel TSB depending on virtpg. Locking is required since
1490	 * kpm/kernel TSB is shared among all CPUs.
1491	 */
1492	ENTRY_NP(sfmmu_kpm_unload_tsb)
1493	/*
1494	 * %o0 = vaddr
1495	 * %o1 = virtpg to TSB index shift (e.g. TTE page shift)
1496	 */
1497#ifndef sun4v
1498	sethi	%hi(ktsb_phys), %o4
1499	mov	ASI_N, %o3
1500	ld	[%o4 + %lo(ktsb_phys)], %o4
1501	movrnz	%o4, ASI_MEM, %o3
1502	mov	%o3, %asi
1503#endif /* !sun4v */
1504	mov	%o0, %g1			! %g1 = vaddr
1505
1506	/* GET_KPM_TSBE_POINTER(vpshift, tsbp, vaddr (clobbers), tmp1, tmp2) */
1507	GET_KPM_TSBE_POINTER(%o1, %g2, %g1, %o3, %o4)
1508	/* %g2 = tsbep, %g1 clobbered */
1509
1510	srlx	%o0, TTARGET_VA_SHIFT, %g1;	! %g1 = tag target
1511	/* TSB_INVALIDATE(tsbep, tag, tmp1, tmp2, tmp3, label) */
1512	TSB_INVALIDATE(%g2, %g1, %o3, %o4, %o1, kpm_tsbinval)
1513
1514	retl
1515	  membar	#StoreStore|#StoreLoad
1516	SET_SIZE(sfmmu_kpm_unload_tsb)
1517
1518#endif /* lint */
1519
1520
1521#if defined (lint)
1522
1523/*ARGSUSED*/
1524pfn_t
1525sfmmu_ttetopfn(tte_t *tte, caddr_t vaddr)
1526{ return(0); }
1527
1528#else /* lint */
1529
1530	ENTRY_NP(sfmmu_ttetopfn)
1531	ldx	[%o0], %g1			/* read tte */
1532	TTETOPFN(%g1, %o1, sfmmu_ttetopfn_l1, %g2, %g3, %g4)
1533	/*
1534	 * g1 = pfn
1535	 */
1536	retl
1537	mov	%g1, %o0
1538	SET_SIZE(sfmmu_ttetopfn)
1539
1540#endif /* !lint */
1541
1542/*
1543 * These macros are used to update global sfmmu hme hash statistics
1544 * in perf critical paths. It is only enabled in debug kernels or
1545 * if SFMMU_STAT_GATHER is defined
1546 */
1547#if defined(DEBUG) || defined(SFMMU_STAT_GATHER)
1548#define	HAT_HSEARCH_DBSTAT(hatid, tsbarea, tmp1, tmp2)			\
1549	ldn	[tsbarea + TSBMISS_KHATID], tmp1			;\
1550	mov	HATSTAT_KHASH_SEARCH, tmp2				;\
1551	cmp	tmp1, hatid						;\
1552	movne	%ncc, HATSTAT_UHASH_SEARCH, tmp2			;\
1553	set	sfmmu_global_stat, tmp1					;\
1554	add	tmp1, tmp2, tmp1					;\
1555	ld	[tmp1], tmp2						;\
1556	inc	tmp2							;\
1557	st	tmp2, [tmp1]
1558
1559#define	HAT_HLINK_DBSTAT(hatid, tsbarea, tmp1, tmp2)			\
1560	ldn	[tsbarea + TSBMISS_KHATID], tmp1			;\
1561	mov	HATSTAT_KHASH_LINKS, tmp2				;\
1562	cmp	tmp1, hatid						;\
1563	movne	%ncc, HATSTAT_UHASH_LINKS, tmp2				;\
1564	set	sfmmu_global_stat, tmp1					;\
1565	add	tmp1, tmp2, tmp1					;\
1566	ld	[tmp1], tmp2						;\
1567	inc	tmp2							;\
1568	st	tmp2, [tmp1]
1569
1570
1571#else /* DEBUG || SFMMU_STAT_GATHER */
1572
1573#define	HAT_HSEARCH_DBSTAT(hatid, tsbarea, tmp1, tmp2)
1574
1575#define	HAT_HLINK_DBSTAT(hatid, tsbarea, tmp1, tmp2)
1576
1577#endif  /* DEBUG || SFMMU_STAT_GATHER */
1578
1579/*
1580 * This macro is used to update global sfmmu kstas in non
1581 * perf critical areas so they are enabled all the time
1582 */
1583#define	HAT_GLOBAL_STAT(statname, tmp1, tmp2)				\
1584	sethi	%hi(sfmmu_global_stat), tmp1				;\
1585	add	tmp1, statname, tmp1					;\
1586	ld	[tmp1 + %lo(sfmmu_global_stat)], tmp2			;\
1587	inc	tmp2							;\
1588	st	tmp2, [tmp1 + %lo(sfmmu_global_stat)]
1589
1590/*
1591 * These macros are used to update per cpu stats in non perf
1592 * critical areas so they are enabled all the time
1593 */
1594#define	HAT_PERCPU_STAT32(tsbarea, stat, tmp1)				\
1595	ld	[tsbarea + stat], tmp1					;\
1596	inc	tmp1							;\
1597	st	tmp1, [tsbarea + stat]
1598
1599/*
1600 * These macros are used to update per cpu stats in non perf
1601 * critical areas so they are enabled all the time
1602 */
1603#define	HAT_PERCPU_STAT16(tsbarea, stat, tmp1)				\
1604	lduh	[tsbarea + stat], tmp1					;\
1605	inc	tmp1							;\
1606	stuh	tmp1, [tsbarea + stat]
1607
1608#if defined(KPM_TLBMISS_STATS_GATHER)
1609	/*
1610	 * Count kpm dtlb misses separately to allow a different
1611	 * evaluation of hme and kpm tlbmisses. kpm tsb hits can
1612	 * be calculated by (kpm_dtlb_misses - kpm_tsb_misses).
1613	 */
1614#define	KPM_TLBMISS_STAT_INCR(tagacc, val, tsbma, tmp1, label)		\
1615	brgez	tagacc, label	/* KPM VA? */				;\
1616	nop								;\
1617	CPU_INDEX(tmp1, tsbma)						;\
1618	sethi	%hi(kpmtsbm_area), tsbma				;\
1619	sllx	tmp1, KPMTSBM_SHIFT, tmp1				;\
1620	or	tsbma, %lo(kpmtsbm_area), tsbma				;\
1621	add	tsbma, tmp1, tsbma		/* kpmtsbm area */	;\
1622	/* VA range check */						;\
1623	ldx	[tsbma + KPMTSBM_VBASE], val				;\
1624	cmp	tagacc, val						;\
1625	blu,pn	%xcc, label						;\
1626	  ldx	[tsbma + KPMTSBM_VEND], tmp1				;\
1627	cmp	tagacc, tmp1						;\
1628	bgeu,pn	%xcc, label						;\
1629	  lduw	[tsbma + KPMTSBM_DTLBMISS], val				;\
1630	inc	val							;\
1631	st	val, [tsbma + KPMTSBM_DTLBMISS]				;\
1632label:
1633#else
1634#define	KPM_TLBMISS_STAT_INCR(tagacc, val, tsbma, tmp1, label)
1635#endif	/* KPM_TLBMISS_STATS_GATHER */
1636
1637#if defined (lint)
1638/*
1639 * The following routines are jumped to from the mmu trap handlers to do
1640 * the setting up to call systrap.  They are separate routines instead of
1641 * being part of the handlers because the handlers would exceed 32
1642 * instructions and since this is part of the slow path the jump
1643 * cost is irrelevant.
1644 */
1645void
1646sfmmu_pagefault(void)
1647{
1648}
1649
1650void
1651sfmmu_mmu_trap(void)
1652{
1653}
1654
1655void
1656sfmmu_window_trap(void)
1657{
1658}
1659
1660void
1661sfmmu_kpm_exception(void)
1662{
1663}
1664
1665#else /* lint */
1666
1667#ifdef	PTL1_PANIC_DEBUG
1668	.seg	".data"
1669	.global	test_ptl1_panic
1670test_ptl1_panic:
1671	.word	0
1672	.align	8
1673
1674	.seg	".text"
1675	.align	4
1676#endif	/* PTL1_PANIC_DEBUG */
1677
1678
1679	ENTRY_NP(sfmmu_pagefault)
1680	SET_GL_REG(1)
1681	USE_ALTERNATE_GLOBALS(%g5)
1682	GET_MMU_BOTH_TAGACC(%g5 /*dtag*/, %g2 /*itag*/, %g6, %g4)
1683	rdpr	%tt, %g6
1684	cmp	%g6, FAST_IMMU_MISS_TT
1685	be,a,pn	%icc, 1f
1686	  mov	T_INSTR_MMU_MISS, %g3
1687	cmp	%g6, T_INSTR_MMU_MISS
1688	be,a,pn	%icc, 1f
1689	  mov	T_INSTR_MMU_MISS, %g3
1690	mov	%g5, %g2
1691	mov	T_DATA_PROT, %g3		/* arg2 = traptype */
1692	cmp	%g6, FAST_DMMU_MISS_TT
1693	move	%icc, T_DATA_MMU_MISS, %g3	/* arg2 = traptype */
1694	cmp	%g6, T_DATA_MMU_MISS
1695	move	%icc, T_DATA_MMU_MISS, %g3	/* arg2 = traptype */
1696
1697#ifdef  PTL1_PANIC_DEBUG
1698	/* check if we want to test the tl1 panic */
1699	sethi	%hi(test_ptl1_panic), %g4
1700	ld	[%g4 + %lo(test_ptl1_panic)], %g1
1701	st	%g0, [%g4 + %lo(test_ptl1_panic)]
1702	cmp	%g1, %g0
1703	bne,a,pn %icc, ptl1_panic
1704	  or	%g0, PTL1_BAD_DEBUG, %g1
1705#endif	/* PTL1_PANIC_DEBUG */
17061:
1707	HAT_GLOBAL_STAT(HATSTAT_PAGEFAULT, %g6, %g4)
1708	/*
1709	 * g2 = tag access reg
1710	 * g3.l = type
1711	 * g3.h = 0
1712	 */
1713	sethi	%hi(trap), %g1
1714	or	%g1, %lo(trap), %g1
17152:
1716	ba,pt	%xcc, sys_trap
1717	  mov	-1, %g4
1718	SET_SIZE(sfmmu_pagefault)
1719
1720	ENTRY_NP(sfmmu_mmu_trap)
1721	SET_GL_REG(1)
1722	USE_ALTERNATE_GLOBALS(%g5)
1723	GET_MMU_BOTH_TAGACC(%g5 /*dtag*/, %g2 /*itag*/, %g4, %g6)
1724	rdpr	%tt, %g6
1725	cmp	%g6, FAST_IMMU_MISS_TT
1726	be,a,pn	%icc, 1f
1727	  mov	T_INSTR_MMU_MISS, %g3
1728	cmp	%g6, T_INSTR_MMU_MISS
1729	be,a,pn	%icc, 1f
1730	  mov	T_INSTR_MMU_MISS, %g3
1731	mov	%g5, %g2
1732	mov	T_DATA_PROT, %g3		/* arg2 = traptype */
1733	cmp	%g6, FAST_DMMU_MISS_TT
1734	move	%icc, T_DATA_MMU_MISS, %g3	/* arg2 = traptype */
1735	cmp	%g6, T_DATA_MMU_MISS
1736	move	%icc, T_DATA_MMU_MISS, %g3	/* arg2 = traptype */
17371:
1738	/*
1739	 * g2 = tag access reg
1740	 * g3 = type
1741	 */
1742	sethi	%hi(sfmmu_tsbmiss_exception), %g1
1743	or	%g1, %lo(sfmmu_tsbmiss_exception), %g1
1744	ba,pt	%xcc, sys_trap
1745	  mov	-1, %g4
1746	/*NOTREACHED*/
1747	SET_SIZE(sfmmu_mmu_trap)
1748
1749	ENTRY_NP(sfmmu_suspend_tl)
1750	SET_GL_REG(1)
1751	USE_ALTERNATE_GLOBALS(%g5)
1752	GET_MMU_BOTH_TAGACC(%g5 /*dtag*/, %g2 /*itag*/, %g4, %g3)
1753	rdpr	%tt, %g6
1754	cmp	%g6, FAST_IMMU_MISS_TT
1755	be,a,pn	%icc, 1f
1756	  mov	T_INSTR_MMU_MISS, %g3
1757	mov	%g5, %g2
1758	cmp	%g6, FAST_DMMU_MISS_TT
1759	move	%icc, T_DATA_MMU_MISS, %g3
1760	movne	%icc, T_DATA_PROT, %g3
17611:
1762	sethi	%hi(sfmmu_tsbmiss_suspended), %g1
1763	or	%g1, %lo(sfmmu_tsbmiss_suspended), %g1
1764	/* g1 = TL0 handler, g2 = tagacc, g3 = trap type */
1765	ba,pt	%xcc, sys_trap
1766	  mov	PIL_15, %g4
1767	/*NOTREACHED*/
1768	SET_SIZE(sfmmu_suspend_tl)
1769
1770	/*
1771	 * No %g registers in use at this point.
1772	 */
1773	ENTRY_NP(sfmmu_window_trap)
1774	rdpr	%tpc, %g1
1775#ifdef sun4v
1776#ifdef DEBUG
1777	/* We assume previous %gl was 1 */
1778	rdpr	%tstate, %g4
1779	srlx	%g4, TSTATE_GL_SHIFT, %g4
1780	and	%g4, TSTATE_GL_MASK, %g4
1781	cmp	%g4, 1
1782	bne,a,pn %icc, ptl1_panic
1783	  mov	PTL1_BAD_WTRAP, %g1
1784#endif /* DEBUG */
1785	/* user miss at tl>1. better be the window handler or user_rtt */
1786	/* in user_rtt? */
1787	set	rtt_fill_start, %g4
1788	cmp	%g1, %g4
1789	blu,pn %xcc, 6f
1790	 .empty
1791	set	rtt_fill_end, %g4
1792	cmp	%g1, %g4
1793	bgeu,pn %xcc, 6f
1794	 nop
1795	set	fault_rtt_fn1, %g1
1796	wrpr	%g0, %g1, %tnpc
1797	ba,a	7f
17986:
1799	! must save this trap level before descending trap stack
1800	! no need to save %tnpc, either overwritten or discarded
1801	! already got it: rdpr	%tpc, %g1
1802	rdpr	%tstate, %g6
1803	rdpr	%tt, %g7
1804	! trap level saved, go get underlying trap type
1805	rdpr	%tl, %g5
1806	sub	%g5, 1, %g3
1807	wrpr	%g3, %tl
1808	rdpr	%tt, %g2
1809	wrpr	%g5, %tl
1810	! restore saved trap level
1811	wrpr	%g1, %tpc
1812	wrpr	%g6, %tstate
1813	wrpr	%g7, %tt
1814#else /* sun4v */
1815	/* user miss at tl>1. better be the window handler */
1816	rdpr	%tl, %g5
1817	sub	%g5, 1, %g3
1818	wrpr	%g3, %tl
1819	rdpr	%tt, %g2
1820	wrpr	%g5, %tl
1821#endif /* sun4v */
1822	and	%g2, WTRAP_TTMASK, %g4
1823	cmp	%g4, WTRAP_TYPE
1824	bne,pn	%xcc, 1f
1825	 nop
1826	/* tpc should be in the trap table */
1827	set	trap_table, %g4
1828	cmp	%g1, %g4
1829	blt,pn %xcc, 1f
1830	 .empty
1831	set	etrap_table, %g4
1832	cmp	%g1, %g4
1833	bge,pn %xcc, 1f
1834	 .empty
1835	andn	%g1, WTRAP_ALIGN, %g1	/* 128 byte aligned */
1836	add	%g1, WTRAP_FAULTOFF, %g1
1837	wrpr	%g0, %g1, %tnpc
18387:
1839	/*
1840	 * some wbuf handlers will call systrap to resolve the fault
1841	 * we pass the trap type so they figure out the correct parameters.
1842	 * g5 = trap type, g6 = tag access reg
1843	 */
1844
1845	/*
1846	 * only use g5, g6, g7 registers after we have switched to alternate
1847	 * globals.
1848	 */
1849	SET_GL_REG(1)
1850	USE_ALTERNATE_GLOBALS(%g5)
1851	GET_MMU_D_TAGACC(%g6 /*dtag*/, %g5 /*scratch*/)
1852	rdpr	%tt, %g7
1853	cmp	%g7, FAST_IMMU_MISS_TT
1854	be,a,pn	%icc, ptl1_panic
1855	  mov	PTL1_BAD_WTRAP, %g1
1856	cmp	%g7, T_INSTR_MMU_MISS
1857	be,a,pn	%icc, ptl1_panic
1858	  mov	PTL1_BAD_WTRAP, %g1
1859	mov	T_DATA_PROT, %g5
1860	cmp	%g7, FAST_DMMU_MISS_TT
1861	move	%icc, T_DATA_MMU_MISS, %g5
1862	cmp	%g7, T_DATA_MMU_MISS
1863	move	%icc, T_DATA_MMU_MISS, %g5
1864	! XXXQ AGS re-check out this one
1865	done
18661:
1867	CPU_PADDR(%g1, %g4)
1868	add	%g1, CPU_TL1_HDLR, %g1
1869	lda	[%g1]ASI_MEM, %g4
1870	brnz,a,pt %g4, sfmmu_mmu_trap
1871	  sta	%g0, [%g1]ASI_MEM
1872	ba,pt	%icc, ptl1_panic
1873	  mov	PTL1_BAD_TRAP, %g1
1874	SET_SIZE(sfmmu_window_trap)
1875
1876	ENTRY_NP(sfmmu_kpm_exception)
1877	/*
1878	 * We have accessed an unmapped segkpm address or a legal segkpm
1879	 * address which is involved in a VAC alias conflict prevention.
1880	 * Before we go to trap(), check to see if CPU_DTRACE_NOFAULT is
1881	 * set. If it is, we will instead note that a fault has occurred
1882	 * by setting CPU_DTRACE_BADADDR and issue a "done" (instead of
1883	 * a "retry"). This will step over the faulting instruction.
1884	 * Note that this means that a legal segkpm address involved in
1885	 * a VAC alias conflict prevention (a rare case to begin with)
1886	 * cannot be used in DTrace.
1887	 */
1888	CPU_INDEX(%g1, %g2)
1889	set	cpu_core, %g2
1890	sllx	%g1, CPU_CORE_SHIFT, %g1
1891	add	%g1, %g2, %g1
1892	lduh	[%g1 + CPUC_DTRACE_FLAGS], %g2
1893	andcc	%g2, CPU_DTRACE_NOFAULT, %g0
1894	bz	0f
1895	or	%g2, CPU_DTRACE_BADADDR, %g2
1896	stuh	%g2, [%g1 + CPUC_DTRACE_FLAGS]
1897	GET_MMU_D_ADDR(%g3, /*scratch*/ %g4)
1898	stx	%g3, [%g1 + CPUC_DTRACE_ILLVAL]
1899	done
19000:
1901	TSTAT_CHECK_TL1(1f, %g1, %g2)
19021:
1903	SET_GL_REG(1)
1904	USE_ALTERNATE_GLOBALS(%g5)
1905	GET_MMU_D_TAGACC(%g2 /* tagacc */, %g4 /*scratch*/)
1906	mov	T_DATA_MMU_MISS, %g3	/* arg2 = traptype */
1907	/*
1908	 * g2=tagacc g3.l=type g3.h=0
1909	 */
1910	sethi	%hi(trap), %g1
1911	or	%g1, %lo(trap), %g1
1912	ba,pt	%xcc, sys_trap
1913	mov	-1, %g4
1914	SET_SIZE(sfmmu_kpm_exception)
1915
1916#endif /* lint */
1917
1918#if defined (lint)
1919
1920void
1921sfmmu_tsb_miss(void)
1922{
1923}
1924
1925void
1926sfmmu_kpm_dtsb_miss(void)
1927{
1928}
1929
1930void
1931sfmmu_kpm_dtsb_miss_small(void)
1932{
1933}
1934
1935#else /* lint */
1936
1937#if (IMAP_SEG != 0)
1938#error - ism_map->ism_seg offset is not zero
1939#endif
1940
1941/*
1942 * Copies ism mapping for this ctx in param "ism" if this is a ISM
1943 * tlb miss and branches to label "ismhit". If this is not an ISM
1944 * process or an ISM tlb miss it falls thru.
1945 *
1946 * Checks to see if the vaddr passed in via tagacc is in an ISM segment for
1947 * this process.
1948 * If so, it will branch to label "ismhit".  If not, it will fall through.
1949 *
1950 * Also hat_unshare() will set the context for this process to INVALID_CONTEXT
1951 * so that any other threads of this process will not try and walk the ism
1952 * maps while they are being changed.
1953 *
1954 * NOTE: We will never have any holes in our ISM maps. sfmmu_share/unshare
1955 *       will make sure of that. This means we can terminate our search on
1956 *       the first zero mapping we find.
1957 *
1958 * Parameters:
1959 * tagacc	= (pseudo-)tag access register (vaddr + ctx) (in)
1960 * tsbmiss	= address of tsb miss area (in)
1961 * ismseg	= contents of ism_seg for this ism map (out)
1962 * ismhat	= physical address of imap_ismhat for this ism map (out)
1963 * tmp1		= scratch reg (CLOBBERED)
1964 * tmp2		= scratch reg (CLOBBERED)
1965 * tmp3		= scratch reg (CLOBBERED)
1966 * label:    temporary labels
1967 * ismhit:   label where to jump to if an ism dtlb miss
1968 * exitlabel:label where to jump if hat is busy due to hat_unshare.
1969 */
1970#define ISM_CHECK(tagacc, tsbmiss, ismseg, ismhat, tmp1, tmp2, tmp3 \
1971	label, ismhit)							\
1972	ldx	[tsbmiss + TSBMISS_ISMBLKPA], tmp1 /* tmp1 = &ismblk */	;\
1973	brlz,pt  tmp1, label/**/3		/* exit if -1 */	;\
1974	  add	tmp1, IBLK_MAPS, ismhat	/* ismhat = &ismblk.map[0] */	;\
1975label/**/1:								;\
1976	ldxa	[ismhat]ASI_MEM, ismseg	/* ismblk.map[0].ism_seg */	;\
1977	mov	tmp1, tmp3	/* update current ismblkpa head */	;\
1978label/**/2:								;\
1979	brz,pt  ismseg, label/**/3		/* no mapping */	;\
1980	  add	ismhat, IMAP_VB_SHIFT, tmp1 /* tmp1 = vb_shift addr */	;\
1981	lduba	[tmp1]ASI_MEM, tmp1 		/* tmp1 = vb shift*/	;\
1982	srlx	ismseg, tmp1, tmp2		/* tmp2 = vbase */	;\
1983	srlx	tagacc, tmp1, tmp1		/* tmp1 =  va seg*/	;\
1984	sub	tmp1, tmp2, tmp2		/* tmp2 = va - vbase */	;\
1985	add	ismhat, IMAP_SZ_MASK, tmp1 /* tmp1 = sz_mask addr */	;\
1986	lda	[tmp1]ASI_MEM, tmp1		/* tmp1 = sz_mask */	;\
1987	and	ismseg, tmp1, tmp1		/* tmp1 = size */	;\
1988	cmp	tmp2, tmp1		 	/* check va <= offset*/	;\
1989	blu,a,pt  %xcc, ismhit			/* ism hit */		;\
1990	  add	ismhat, IMAP_ISMHAT, ismhat 	/* ismhat = &ism_sfmmu*/ ;\
1991									;\
1992	add	ismhat, ISM_MAP_SZ, ismhat /* ismhat += sizeof(map) */ 	;\
1993	add	tmp3, (IBLK_MAPS + ISM_MAP_SLOTS * ISM_MAP_SZ), tmp1	;\
1994	cmp	ismhat, tmp1						;\
1995	bl,pt	%xcc, label/**/2		/* keep looking  */	;\
1996	  ldxa	[ismhat]ASI_MEM, ismseg	/* ismseg = map[ismhat] */	;\
1997									;\
1998	add	tmp3, IBLK_NEXTPA, tmp1					;\
1999	ldxa	[tmp1]ASI_MEM, tmp1		/* check blk->nextpa */	;\
2000	brgez,pt tmp1, label/**/1		/* continue if not -1*/	;\
2001	  add	tmp1, IBLK_MAPS, ismhat	/* ismhat = &ismblk.map[0]*/	;\
2002label/**/3:
2003
2004/*
2005 * Returns the hme hash bucket (hmebp) given the vaddr, and the hatid
2006 * It also returns the virtual pg for vaddr (ie. vaddr << hmeshift)
2007 * Parameters:
2008 * tagacc = reg containing virtual address
2009 * hatid = reg containing sfmmu pointer
2010 * hmeshift = constant/register to shift vaddr to obtain vapg
2011 * hmebp = register where bucket pointer will be stored
2012 * vapg = register where virtual page will be stored
2013 * tmp1, tmp2 = tmp registers
2014 */
2015
2016
2017#define	HMEHASH_FUNC_ASM(tagacc, hatid, tsbarea, hmeshift, hmebp,	\
2018	vapg, label, tmp1, tmp2)					\
2019	sllx	tagacc, TAGACC_CTX_LSHIFT, tmp1				;\
2020	brnz,a,pt tmp1, label/**/1					;\
2021	  ld    [tsbarea + TSBMISS_UHASHSZ], hmebp			;\
2022	ld	[tsbarea + TSBMISS_KHASHSZ], hmebp			;\
2023	ba,pt	%xcc, label/**/2					;\
2024	  ldx	[tsbarea + TSBMISS_KHASHSTART], tmp1			;\
2025label/**/1:								;\
2026	ldx	[tsbarea + TSBMISS_UHASHSTART], tmp1			;\
2027label/**/2:								;\
2028	srlx	tagacc, hmeshift, vapg					;\
2029	xor	vapg, hatid, tmp2	/* hatid ^ (vaddr >> shift) */	;\
2030	and	tmp2, hmebp, hmebp	/* index into hme_hash */	;\
2031	mulx	hmebp, HMEBUCK_SIZE, hmebp				;\
2032	add	hmebp, tmp1, hmebp
2033
2034/*
2035 * hashtag includes bspage + hashno (64 bits).
2036 */
2037
2038#define	MAKE_HASHTAG(vapg, hatid, hmeshift, hashno, hblktag)		\
2039	sllx	vapg, hmeshift, vapg					;\
2040	mov	hashno, hblktag						;\
2041	sllx	hblktag, HTAG_REHASH_SHIFT, hblktag			;\
2042	or	vapg, hblktag, hblktag
2043
2044/*
2045 * Function to traverse hmeblk hash link list and find corresponding match.
2046 * The search is done using physical pointers. It returns the physical address
2047 * pointer to the hmeblk that matches with the tag provided.
2048 * Parameters:
2049 * hmebp	= register that points to hme hash bucket, also used as
2050 *		  tmp reg (clobbered)
2051 * hmeblktag	= register with hmeblk tag match
2052 * hatid	= register with hatid
2053 * hmeblkpa	= register where physical ptr will be stored
2054 * tmp1		= tmp reg
2055 * label: temporary label
2056 */
2057
2058#define	HMEHASH_SEARCH(hmebp, hmeblktag, hatid, hmeblkpa, tsbarea, 	\
2059	tmp1, label)							\
2060	add     hmebp, HMEBUCK_NEXTPA, hmeblkpa				;\
2061	ldxa    [hmeblkpa]ASI_MEM, hmeblkpa				;\
2062	HAT_HSEARCH_DBSTAT(hatid, tsbarea, hmebp, tmp1)			;\
2063label/**/1:								;\
2064	cmp	hmeblkpa, HMEBLK_ENDPA					;\
2065	be,pn   %xcc, label/**/2					;\
2066	HAT_HLINK_DBSTAT(hatid, tsbarea, hmebp, tmp1)			;\
2067	add	hmeblkpa, HMEBLK_TAG, hmebp				;\
2068	ldxa	[hmebp]ASI_MEM, tmp1	 /* read 1st part of tag */	;\
2069	add	hmebp, CLONGSIZE, hmebp					;\
2070	ldxa	[hmebp]ASI_MEM, hmebp 	/* read 2nd part of tag */	;\
2071	xor	tmp1, hmeblktag, tmp1					;\
2072	xor	hmebp, hatid, hmebp					;\
2073	or	hmebp, tmp1, hmebp					;\
2074	brz,pn	hmebp, label/**/2	/* branch on hit */		;\
2075	  add	hmeblkpa, HMEBLK_NEXTPA, hmebp				;\
2076	ba,pt	%xcc, label/**/1					;\
2077	  ldxa	[hmebp]ASI_MEM, hmeblkpa	/* hmeblk ptr pa */	;\
2078label/**/2:
2079
2080/*
2081 * Function to traverse hmeblk hash link list and find corresponding match.
2082 * The search is done using physical pointers. It returns the physical address
2083 * pointer to the hmeblk that matches with the tag
2084 * provided.
2085 * Parameters:
2086 * hmeblktag	= register with hmeblk tag match (rid field is 0)
2087 * hatid	= register with hatid (pointer to SRD)
2088 * hmeblkpa	= register where physical ptr will be stored
2089 * tmp1		= tmp reg
2090 * tmp2		= tmp reg
2091 * label: temporary label
2092 */
2093
2094#define	HMEHASH_SEARCH_SHME(hmeblktag, hatid, hmeblkpa, tsbarea,	\
2095	tmp1, tmp2, label)			 			\
2096label/**/1:								;\
2097	cmp	hmeblkpa, HMEBLK_ENDPA					;\
2098	be,pn   %xcc, label/**/4					;\
2099	HAT_HLINK_DBSTAT(hatid, tsbarea, tmp1, tmp2)			;\
2100	add	hmeblkpa, HMEBLK_TAG, tmp2				;\
2101	ldxa	[tmp2]ASI_MEM, tmp1	 /* read 1st part of tag */	;\
2102	add	tmp2, CLONGSIZE, tmp2					;\
2103	ldxa	[tmp2]ASI_MEM, tmp2 	/* read 2nd part of tag */	;\
2104	xor	tmp1, hmeblktag, tmp1					;\
2105	xor	tmp2, hatid, tmp2					;\
2106	brz,pn	tmp2, label/**/3	/* branch on hit */		;\
2107	  add	hmeblkpa, HMEBLK_NEXTPA, tmp2				;\
2108label/**/2:								;\
2109	ba,pt	%xcc, label/**/1					;\
2110	  ldxa	[tmp2]ASI_MEM, hmeblkpa	/* hmeblk ptr pa */		;\
2111label/**/3:								;\
2112	cmp	tmp1, SFMMU_MAX_HME_REGIONS				;\
2113	bgeu,pt	%xcc, label/**/2					;\
2114	  add	hmeblkpa, HMEBLK_NEXTPA, tmp2				;\
2115	and	tmp1, BT_ULMASK, tmp2					;\
2116	srlx	tmp1, BT_ULSHIFT, tmp1					;\
2117	sllx	tmp1, CLONGSHIFT, tmp1					;\
2118	add	tsbarea, tmp1, tmp1					;\
2119	ldx	[tmp1 + TSBMISS_SHMERMAP], tmp1				;\
2120	srlx	tmp1, tmp2, tmp1					;\
2121	btst	0x1, tmp1						;\
2122	bz,pn	%xcc, label/**/2					;\
2123	  add	hmeblkpa, HMEBLK_NEXTPA, tmp2				;\
2124label/**/4:
2125
2126#if ((1 << SFHME_SHIFT) != SFHME_SIZE)
2127#error HMEBLK_TO_HMENT assumes sf_hment is power of 2 in size
2128#endif
2129
2130/*
2131 * HMEBLK_TO_HMENT is a macro that given an hmeblk and a vaddr returns
2132 * he offset for the corresponding hment.
2133 * Parameters:
2134 * In:
2135 *	vaddr = register with virtual address
2136 *	hmeblkpa = physical pointer to hme_blk
2137 * Out:
2138 *	hmentoff = register where hment offset will be stored
2139 *	hmemisc = hblk_misc
2140 * Scratch:
2141 *	tmp1
2142 */
2143#define	HMEBLK_TO_HMENT(vaddr, hmeblkpa, hmentoff, hmemisc, tmp1, label1)\
2144	add	hmeblkpa, HMEBLK_MISC, hmentoff				;\
2145	lda	[hmentoff]ASI_MEM, hmemisc 				;\
2146	andcc	hmemisc, HBLK_SZMASK, %g0				;\
2147	bnz,a,pn  %icc, label1		/* if sz != TTE8K branch */	;\
2148	  or	%g0, HMEBLK_HME1, hmentoff				;\
2149	srl	vaddr, MMU_PAGESHIFT, tmp1				;\
2150	and	tmp1, NHMENTS - 1, tmp1		/* tmp1 = index */	;\
2151	sllx	tmp1, SFHME_SHIFT, tmp1					;\
2152	add	tmp1, HMEBLK_HME1, hmentoff				;\
2153label1:
2154
2155/*
2156 * GET_TTE is a macro that returns a TTE given a tag and hatid.
2157 *
2158 * tagacc	= (pseudo-)tag access register (in)
2159 * hatid	= sfmmu pointer for TSB miss (in)
2160 * tte		= tte for TLB miss if found, otherwise clobbered (out)
2161 * hmeblkpa	= PA of hment if found, otherwise clobbered (out)
2162 * tsbarea	= pointer to the tsbmiss area for this cpu. (in)
2163 * hmemisc	= hblk_misc if TTE is found (out), otherwise clobbered
2164 * hmeshift	= constant/register to shift VA to obtain the virtual pfn
2165 *		  for this page size.
2166 * hashno	= constant/register hash number
2167 * tmp		= temp value - clobbered
2168 * label	= temporary label for branching within macro.
2169 * foundlabel	= label to jump to when tte is found.
2170 * suspendlabel= label to jump to when tte is suspended.
2171 * exitlabel	= label to jump to when tte is not found.
2172 *
2173 */
2174#define GET_TTE(tagacc, hatid, tte, hmeblkpa, tsbarea, hmemisc, hmeshift, \
2175		 hashno, tmp, label, foundlabel, suspendlabel, exitlabel) \
2176									;\
2177	stn	tagacc, [tsbarea + (TSBMISS_SCRATCH + TSB_TAGACC)]	;\
2178	stn	hatid, [tsbarea + (TSBMISS_SCRATCH + TSBMISS_HATID)]	;\
2179	HMEHASH_FUNC_ASM(tagacc, hatid, tsbarea, hmeshift, tte,		\
2180		hmeblkpa, label/**/5, hmemisc, tmp)			;\
2181									;\
2182	/*								;\
2183	 * tagacc = tagacc						;\
2184	 * hatid = hatid						;\
2185	 * tsbarea = tsbarea						;\
2186	 * tte   = hmebp (hme bucket pointer)				;\
2187	 * hmeblkpa  = vapg  (virtual page)				;\
2188	 * hmemisc, tmp = scratch					;\
2189	 */								;\
2190	MAKE_HASHTAG(hmeblkpa, hatid, hmeshift, hashno, hmemisc)	;\
2191	or	hmemisc, SFMMU_INVALID_SHMERID, hmemisc			;\
2192									;\
2193	/*								;\
2194	 * tagacc = tagacc						;\
2195	 * hatid = hatid						;\
2196	 * tte   = hmebp						;\
2197	 * hmeblkpa  = CLOBBERED					;\
2198	 * hmemisc  = htag_bspage+hashno+invalid_rid			;\
2199	 * tmp  = scratch						;\
2200	 */								;\
2201	stn	tte, [tsbarea + (TSBMISS_SCRATCH + TSBMISS_HMEBP)]	;\
2202	HMEHASH_SEARCH(tte, hmemisc, hatid, hmeblkpa, 	 		\
2203		tsbarea, tagacc, label/**/1)				;\
2204	/*								;\
2205	 * tagacc = CLOBBERED						;\
2206	 * tte = CLOBBERED						;\
2207	 * hmeblkpa = hmeblkpa						;\
2208	 * tmp = scratch						;\
2209	 */								;\
2210	cmp	hmeblkpa, HMEBLK_ENDPA					;\
2211	bne,pn   %xcc, label/**/4       /* branch if hmeblk found */    ;\
2212	  ldn	[tsbarea + (TSBMISS_SCRATCH + TSB_TAGACC)], tagacc	;\
2213	ba,pt	%xcc, exitlabel		/* exit if hblk not found */	;\
2214	  nop								;\
2215label/**/4:								;\
2216	/*								;\
2217	 * We have found the hmeblk containing the hment.		;\
2218	 * Now we calculate the corresponding tte.			;\
2219	 *								;\
2220	 * tagacc = tagacc						;\
2221	 * hatid = hatid						;\
2222	 * tte   = clobbered						;\
2223	 * hmeblkpa  = hmeblkpa						;\
2224	 * hmemisc  = hblktag						;\
2225	 * tmp = scratch						;\
2226	 */								;\
2227	HMEBLK_TO_HMENT(tagacc, hmeblkpa, hatid, hmemisc, tte,		\
2228		label/**/2)						;\
2229									;\
2230	/*								;\
2231	 * tagacc = tagacc						;\
2232	 * hatid = hmentoff						;\
2233	 * tte   = clobbered						;\
2234	 * hmeblkpa  = hmeblkpa						;\
2235	 * hmemisc  = hblk_misc						;\
2236	 * tmp = scratch						;\
2237	 */								;\
2238									;\
2239	add	hatid, SFHME_TTE, hatid					;\
2240	add	hmeblkpa, hatid, hmeblkpa				;\
2241	ldxa	[hmeblkpa]ASI_MEM, tte	/* MMU_READTTE through pa */	;\
2242	ldn	[tsbarea + (TSBMISS_SCRATCH + TSBMISS_HMEBP)], hatid 	;\
2243	set	TTE_SUSPEND, hatid					;\
2244	TTE_SUSPEND_INT_SHIFT(hatid)					;\
2245	btst	tte, hatid						;\
2246	bz,pt	%xcc, foundlabel					;\
2247	ldn	[tsbarea + (TSBMISS_SCRATCH + TSBMISS_HATID)], hatid	;\
2248									;\
2249	/*								;\
2250	 * Mapping is suspended, so goto suspend label.			;\
2251	 */								;\
2252	ba,pt	%xcc, suspendlabel					;\
2253	  nop
2254
2255/*
2256 * GET_SHME_TTE is similar to GET_TTE() except it searches
2257 * shared hmeblks via HMEHASH_SEARCH_SHME() macro.
2258 * If valid tte is found, hmemisc = shctx flag, i.e., shme is
2259 * either 0 (not part of scd) or 1 (part of scd).
2260 */
2261#define GET_SHME_TTE(tagacc, hatid, tte, hmeblkpa, tsbarea, hmemisc, 	\
2262		hmeshift, hashno, tmp, label, foundlabel,		\
2263		suspendlabel, exitlabel)				\
2264									;\
2265	stn	tagacc, [tsbarea + (TSBMISS_SCRATCH + TSB_TAGACC)]	;\
2266	stn	hatid, [tsbarea + (TSBMISS_SCRATCH + TSBMISS_HATID)]	;\
2267	HMEHASH_FUNC_ASM(tagacc, hatid, tsbarea, hmeshift, tte,		\
2268		hmeblkpa, label/**/5, hmemisc, tmp)			;\
2269									;\
2270	/*								;\
2271	 * tagacc = tagacc						;\
2272	 * hatid = hatid						;\
2273	 * tsbarea = tsbarea						;\
2274	 * tte   = hmebp (hme bucket pointer)				;\
2275	 * hmeblkpa  = vapg  (virtual page)				;\
2276	 * hmemisc, tmp = scratch					;\
2277	 */								;\
2278	MAKE_HASHTAG(hmeblkpa, hatid, hmeshift, hashno, hmemisc)	;\
2279									;\
2280	/*								;\
2281	 * tagacc = tagacc						;\
2282	 * hatid = hatid						;\
2283	 * tsbarea = tsbarea						;\
2284	 * tte   = hmebp						;\
2285	 * hmemisc  = htag_bspage + hashno + 0 (for rid)		;\
2286	 * hmeblkpa  = CLOBBERED					;\
2287	 * tmp = scratch						;\
2288	 */								;\
2289	stn	tte, [tsbarea + (TSBMISS_SCRATCH + TSBMISS_HMEBP)]	;\
2290									;\
2291	add     tte, HMEBUCK_NEXTPA, hmeblkpa				;\
2292	ldxa    [hmeblkpa]ASI_MEM, hmeblkpa				;\
2293	HAT_HSEARCH_DBSTAT(hatid, tsbarea, tagacc, tte)			;\
2294									;\
2295label/**/8:								;\
2296	HMEHASH_SEARCH_SHME(hmemisc, hatid, hmeblkpa,			\
2297		tsbarea, tagacc, tte, label/**/1)			;\
2298	/*								;\
2299	 * tagacc = CLOBBERED						;\
2300	 * tte = CLOBBERED						;\
2301	 * hmeblkpa = hmeblkpa						;\
2302	 * tmp = scratch						;\
2303	 */								;\
2304	cmp	hmeblkpa, HMEBLK_ENDPA					;\
2305	bne,pn   %xcc, label/**/4       /* branch if hmeblk found */    ;\
2306	  ldn	[tsbarea + (TSBMISS_SCRATCH + TSB_TAGACC)], tagacc	;\
2307	ba,pt	%xcc, exitlabel		/* exit if hblk not found */	;\
2308	  nop								;\
2309label/**/4:								;\
2310	/*								;\
2311	 * We have found the hmeblk containing the hment.		;\
2312	 * Now we calculate the corresponding tte.			;\
2313	 *								;\
2314	 * tagacc = tagacc						;\
2315	 * hatid = hatid						;\
2316	 * tte   = clobbered						;\
2317	 * hmeblkpa  = hmeblkpa						;\
2318	 * hmemisc  = hblktag						;\
2319	 * tsbarea = tsbmiss area					;\
2320	 * tmp = scratch						;\
2321	 */								;\
2322	HMEBLK_TO_HMENT(tagacc, hmeblkpa, hatid, hmemisc, tte,		\
2323		label/**/2)						;\
2324									;\
2325	/*								;\
2326	 * tagacc = tagacc						;\
2327	 * hatid = hmentoff						;\
2328	 * tte = clobbered						;\
2329	 * hmeblkpa  = hmeblkpa						;\
2330	 * hmemisc  = hblk_misc						;\
2331	 * tsbarea = tsbmiss area					;\
2332	 * tmp = scratch						;\
2333	 */								;\
2334									;\
2335	add	hatid, SFHME_TTE, hatid					;\
2336	add	hmeblkpa, hatid, hmeblkpa				;\
2337	ldxa	[hmeblkpa]ASI_MEM, tte	/* MMU_READTTE through pa */	;\
2338	brlz,pt tte, label/**/6						;\
2339	  nop								;\
2340	btst	HBLK_SZMASK, hmemisc					;\
2341	bnz,a,pt %icc, label/**/7					;\
2342	  ldn	[tsbarea + (TSBMISS_SCRATCH + TSBMISS_HMEBP)], hatid 	;\
2343									;\
2344	/*								;\
2345 	 * We found an invalid 8K tte in shme.				;\
2346	 * it may not belong to shme's region since			;\
2347	 * region size/alignment granularity is 8K but different	;\
2348	 * regions don't share hmeblks. Continue the search.		;\
2349	 */								;\
2350	sub	hmeblkpa, hatid, hmeblkpa				;\
2351	ldn	[tsbarea + (TSBMISS_SCRATCH + TSBMISS_HATID)], hatid	;\
2352	srlx	tagacc, hmeshift, tte					;\
2353	add	hmeblkpa, HMEBLK_NEXTPA, hmeblkpa			;\
2354	ldxa	[hmeblkpa]ASI_MEM, hmeblkpa				;\
2355	MAKE_HASHTAG(tte, hatid, hmeshift, hashno, hmemisc)		;\
2356	ba,a,pt	%xcc, label/**/8					;\
2357label/**/6:								;\
2358	GET_SCDSHMERMAP(tsbarea, hmeblkpa, hatid, hmemisc)		;\
2359	ldn	[tsbarea + (TSBMISS_SCRATCH + TSBMISS_HMEBP)], hatid 	;\
2360label/**/7:								;\
2361	set	TTE_SUSPEND, hatid					;\
2362	TTE_SUSPEND_INT_SHIFT(hatid)					;\
2363	btst	tte, hatid						;\
2364	bz,pt	%xcc, foundlabel					;\
2365	ldn	[tsbarea + (TSBMISS_SCRATCH + TSBMISS_HATID)], hatid	;\
2366									;\
2367	/*								;\
2368	 * Mapping is suspended, so goto suspend label.			;\
2369	 */								;\
2370	ba,pt	%xcc, suspendlabel					;\
2371	  nop
2372
2373	/*
2374	 * KERNEL PROTECTION HANDLER
2375	 *
2376	 * g1 = tsb8k pointer register (clobbered)
2377	 * g2 = tag access register (ro)
2378	 * g3 - g7 = scratch registers
2379	 *
2380	 * Note: This function is patched at runtime for performance reasons.
2381	 * 	 Any changes here require sfmmu_patch_ktsb fixed.
2382	 */
2383	ENTRY_NP(sfmmu_kprot_trap)
2384	mov	%g2, %g7		! TSB pointer macro clobbers tagacc
2385sfmmu_kprot_patch_ktsb_base:
2386	RUNTIME_PATCH_SETX(%g1, %g6)
2387	/* %g1 = contents of ktsb_base or ktsb_pbase */
2388sfmmu_kprot_patch_ktsb_szcode:
2389	or	%g0, RUNTIME_PATCH, %g3	! ktsb_szcode (hot patched)
2390
2391	GET_TSBE_POINTER(MMU_PAGESHIFT, %g1, %g7, %g3, %g5)
2392	! %g1 = First TSB entry pointer, as TSB miss handler expects
2393
2394	mov	%g2, %g7		! TSB pointer macro clobbers tagacc
2395sfmmu_kprot_patch_ktsb4m_base:
2396	RUNTIME_PATCH_SETX(%g3, %g6)
2397	/* %g3 = contents of ktsb4m_base or ktsb4m_pbase */
2398sfmmu_kprot_patch_ktsb4m_szcode:
2399	or	%g0, RUNTIME_PATCH, %g6	! ktsb4m_szcode (hot patched)
2400
2401	GET_TSBE_POINTER(MMU_PAGESHIFT4M, %g3, %g7, %g6, %g5)
2402	! %g3 = 4M tsb entry pointer, as TSB miss handler expects
2403
2404        CPU_TSBMISS_AREA(%g6, %g7)
2405        HAT_PERCPU_STAT16(%g6, TSBMISS_KPROTS, %g7)
2406	ba,pt	%xcc, sfmmu_tsb_miss_tt
2407	  nop
2408
2409	/*
2410	 * USER PROTECTION HANDLER
2411	 *
2412	 * g1 = tsb8k pointer register (ro)
2413	 * g2 = tag access register (ro)
2414	 * g3 = faulting context (clobbered, currently not used)
2415	 * g4 - g7 = scratch registers
2416	 */
2417	ALTENTRY(sfmmu_uprot_trap)
2418#ifdef sun4v
2419	GET_1ST_TSBE_PTR(%g2, %g1, %g4, %g5)
2420	/* %g1 = first TSB entry ptr now, %g2 preserved */
2421
2422	GET_UTSBREG(SCRATCHPAD_UTSBREG2, %g3)	/* get 2nd utsbreg */
2423	brlz,pt %g3, 9f				/* check for 2nd TSB */
2424	  nop
2425
2426	GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
2427	/* %g3 = second TSB entry ptr now, %g2 preserved */
2428
2429#else /* sun4v */
2430#ifdef UTSB_PHYS
2431	/* g1 = first TSB entry ptr */
2432	GET_UTSBREG(SCRATCHPAD_UTSBREG2, %g3)
2433	brlz,pt %g3, 9f			/* check for 2nd TSB */
2434	  nop
2435
2436	GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
2437	/* %g3 = second TSB entry ptr now, %g2 preserved */
2438#else /* UTSB_PHYS */
2439	brgez,pt %g1, 9f		/* check for 2nd TSB */
2440	  mov	-1, %g3			/* set second tsbe ptr to -1 */
2441
2442	mov	%g2, %g7
2443	GET_2ND_TSBE_PTR(%g7, %g1, %g3, %g4, %g5, sfmmu_uprot)
2444	/* %g3 = second TSB entry ptr now, %g7 clobbered */
2445	mov	%g1, %g7
2446	GET_1ST_TSBE_PTR(%g7, %g1, %g5, sfmmu_uprot)
2447#endif /* UTSB_PHYS */
2448#endif /* sun4v */
24499:
2450	CPU_TSBMISS_AREA(%g6, %g7)
2451	HAT_PERCPU_STAT16(%g6, TSBMISS_UPROTS, %g7)
2452	ba,pt	%xcc, sfmmu_tsb_miss_tt		/* branch TSB miss handler */
2453	  nop
2454
2455	/*
2456	 * Kernel 8K page iTLB miss.  We also get here if we took a
2457	 * fast instruction access mmu miss trap while running in
2458	 * invalid context.
2459	 *
2460	 * %g1 = 8K TSB pointer register (not used, clobbered)
2461	 * %g2 = tag access register (used)
2462	 * %g3 = faulting context id (used)
2463	 * %g7 = TSB tag to match (used)
2464	 */
2465	.align	64
2466	ALTENTRY(sfmmu_kitlb_miss)
2467	brnz,pn %g3, tsb_tl0_noctxt
2468	  nop
2469
2470	/* kernel miss */
2471	/* get kernel tsb pointer */
2472	/* we patch the next set of instructions at run time */
2473	/* NOTE: any changes here require sfmmu_patch_ktsb fixed */
2474iktsbbase:
2475	RUNTIME_PATCH_SETX(%g4, %g5)
2476	/* %g4 = contents of ktsb_base or ktsb_pbase */
2477
2478iktsb:	sllx	%g2, 64-(TAGACC_SHIFT + TSB_START_SIZE + RUNTIME_PATCH), %g1
2479	srlx	%g1, 64-(TSB_START_SIZE + TSB_ENTRY_SHIFT + RUNTIME_PATCH), %g1
2480	or	%g4, %g1, %g1			! form tsb ptr
2481	ldda	[%g1]RUNTIME_PATCH, %g4		! %g4 = tag, %g5 = data
2482	cmp	%g4, %g7
2483	bne,pn	%xcc, iktsb4mbase		! check 4m ktsb
2484	  srlx    %g2, MMU_PAGESHIFT4M, %g3	! use 4m virt-page as TSB index
2485
2486	andcc %g5, TTE_EXECPRM_INT, %g0		! check exec bit
2487	bz,pn	%icc, exec_fault
2488	  nop
2489	TT_TRACE(trace_tsbhit)			! 2 instr traptrace
2490	ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)
2491	retry
2492
2493iktsb4mbase:
2494        RUNTIME_PATCH_SETX(%g4, %g6)
2495        /* %g4 = contents of ktsb4m_base or ktsb4m_pbase */
2496iktsb4m:
2497	sllx    %g3, 64-(TSB_START_SIZE + RUNTIME_PATCH), %g3
2498        srlx    %g3, 64-(TSB_START_SIZE + TSB_ENTRY_SHIFT + RUNTIME_PATCH), %g3
2499	add	%g4, %g3, %g3			! %g3 = 4m tsbe ptr
2500	ldda	[%g3]RUNTIME_PATCH, %g4		! %g4 = tag, %g5 = data
2501	cmp	%g4, %g7
2502	bne,pn	%xcc, sfmmu_tsb_miss_tt		! branch on miss
2503	  andcc %g5, TTE_EXECPRM_INT, %g0		! check exec bit
2504	bz,pn	%icc, exec_fault
2505	  nop
2506	TT_TRACE(trace_tsbhit)			! 2 instr traptrace
2507	ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)
2508	retry
2509
2510	/*
2511	 * Kernel dTLB miss.  We also get here if we took a fast data
2512	 * access mmu miss trap while running in invalid context.
2513	 *
2514	 * Note: for now we store kpm TTEs in the kernel TSB as usual.
2515	 *	We select the TSB miss handler to branch to depending on
2516	 *	the virtual address of the access.  In the future it may
2517	 *	be desirable to separate kpm TTEs into their own TSB,
2518	 *	in which case all that needs to be done is to set
2519	 *	kpm_tsbbase/kpm_tsbsz to point to the new TSB and branch
2520	 *	early in the miss if we detect a kpm VA to a new handler.
2521	 *
2522	 * %g1 = 8K TSB pointer register (not used, clobbered)
2523	 * %g2 = tag access register (used)
2524	 * %g3 = faulting context id (used)
2525	 */
2526	.align	64
2527	ALTENTRY(sfmmu_kdtlb_miss)
2528	brnz,pn	%g3, tsb_tl0_noctxt		/* invalid context? */
2529	  nop
2530
2531	/* Gather some stats for kpm misses in the TLB. */
2532	/* KPM_TLBMISS_STAT_INCR(tagacc, val, tsbma, tmp1, label) */
2533	KPM_TLBMISS_STAT_INCR(%g2, %g4, %g5, %g6, kpmtlbm_stat_out)
2534
2535	/*
2536	 * Get first TSB offset and look for 8K/64K/512K mapping
2537	 * using the 8K virtual page as the index.
2538	 *
2539	 * We patch the next set of instructions at run time;
2540	 * any changes here require sfmmu_patch_ktsb changes too.
2541	 */
2542dktsbbase:
2543	RUNTIME_PATCH_SETX(%g7, %g6)
2544	/* %g7 = contents of ktsb_base or ktsb_pbase */
2545
2546dktsb:	sllx	%g2, 64-(TAGACC_SHIFT + TSB_START_SIZE + RUNTIME_PATCH), %g1
2547	srlx	%g1, 64-(TSB_START_SIZE + TSB_ENTRY_SHIFT + RUNTIME_PATCH), %g1
2548
2549	/*
2550	 * At this point %g1 is our index into the TSB.
2551	 * We just masked off enough bits of the VA depending
2552	 * on our TSB size code.
2553	 */
2554	ldda	[%g7 + %g1]RUNTIME_PATCH, %g4	! %g4 = tag, %g5 = data
2555	srlx	%g2, TAG_VALO_SHIFT, %g6	! make tag to compare
2556	cmp	%g6, %g4			! compare tag
2557	bne,pn	%xcc, dktsb4m_kpmcheck_small
2558	  add	%g7, %g1, %g1			/* form tsb ptr */
2559	TT_TRACE(trace_tsbhit)
2560	DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)
2561	/* trapstat expects tte in %g5 */
2562	retry
2563
2564	/*
2565	 * If kpm is using large pages, the following instruction needs
2566	 * to be patched to a nop at boot time (by sfmmu_kpm_patch_tsbm)
2567	 * so that we will probe the 4M TSB regardless of the VA.  In
2568	 * the case kpm is using small pages, we know no large kernel
2569	 * mappings are located above 0x80000000.00000000 so we skip the
2570	 * probe as an optimization.
2571	 */
2572dktsb4m_kpmcheck_small:
2573	brlz,pn %g2, sfmmu_kpm_dtsb_miss_small
2574	  /* delay slot safe, below */
2575
2576	/*
2577	 * Get second TSB offset and look for 4M mapping
2578	 * using 4M virtual page as the TSB index.
2579	 *
2580	 * Here:
2581	 * %g1 = 8K TSB pointer.  Don't squash it.
2582	 * %g2 = tag access register (we still need it)
2583	 */
2584	srlx	%g2, MMU_PAGESHIFT4M, %g3
2585
2586	/*
2587	 * We patch the next set of instructions at run time;
2588	 * any changes here require sfmmu_patch_ktsb changes too.
2589	 */
2590dktsb4mbase:
2591	RUNTIME_PATCH_SETX(%g7, %g6)
2592	/* %g7 = contents of ktsb4m_base or ktsb4m_pbase */
2593dktsb4m:
2594	sllx	%g3, 64-(TSB_START_SIZE + RUNTIME_PATCH), %g3
2595	srlx	%g3, 64-(TSB_START_SIZE + TSB_ENTRY_SHIFT + RUNTIME_PATCH), %g3
2596
2597	/*
2598	 * At this point %g3 is our index into the TSB.
2599	 * We just masked off enough bits of the VA depending
2600	 * on our TSB size code.
2601	 */
2602	ldda	[%g7 + %g3]RUNTIME_PATCH, %g4	! %g4 = tag, %g5 = data
2603	srlx	%g2, TAG_VALO_SHIFT, %g6	! make tag to compare
2604	cmp	%g6, %g4			! compare tag
2605
2606dktsb4m_tsbmiss:
2607	bne,pn	%xcc, dktsb4m_kpmcheck
2608	  add	%g7, %g3, %g3			! %g3 = kernel second TSB ptr
2609	TT_TRACE(trace_tsbhit)
2610	/* we don't check TTE size here since we assume 4M TSB is separate */
2611	DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)
2612	/* trapstat expects tte in %g5 */
2613	retry
2614
2615	/*
2616	 * So, we failed to find a valid TTE to match the faulting
2617	 * address in either TSB.  There are a few cases that could land
2618	 * us here:
2619	 *
2620	 * 1) This is a kernel VA below 0x80000000.00000000.  We branch
2621	 *    to sfmmu_tsb_miss_tt to handle the miss.
2622	 * 2) We missed on a kpm VA, and we didn't find the mapping in the
2623	 *    4M TSB.  Let segkpm handle it.
2624	 *
2625	 * Note that we shouldn't land here in the case of a kpm VA when
2626	 * kpm_smallpages is active -- we handled that case earlier at
2627	 * dktsb4m_kpmcheck_small.
2628	 *
2629	 * At this point:
2630	 *  g1 = 8K-indexed primary TSB pointer
2631	 *  g2 = tag access register
2632	 *  g3 = 4M-indexed secondary TSB pointer
2633	 */
2634dktsb4m_kpmcheck:
2635	cmp	%g2, %g0
2636	bl,pn	%xcc, sfmmu_kpm_dtsb_miss
2637	  nop
2638	ba,a,pt	%icc, sfmmu_tsb_miss_tt
2639	  nop
2640
2641#ifdef sun4v
2642	/*
2643	 * User instruction miss w/ single TSB.
2644	 * The first probe covers 8K, 64K, and 512K page sizes,
2645	 * because 64K and 512K mappings are replicated off 8K
2646	 * pointer.
2647	 *
2648	 * g1 = tsb8k pointer register
2649	 * g2 = tag access register
2650	 * g3 - g6 = scratch registers
2651	 * g7 = TSB tag to match
2652	 */
2653	.align	64
2654	ALTENTRY(sfmmu_uitlb_fastpath)
2655
2656	PROBE_1ST_ITSB(%g1, %g7, uitlb_fast_8k_probefail)
2657	/* g4 - g5 = clobbered by PROBE_1ST_ITSB */
2658	ba,pn	%xcc, sfmmu_tsb_miss_tt
2659	  mov	-1, %g3
2660
2661	/*
2662	 * User data miss w/ single TSB.
2663	 * The first probe covers 8K, 64K, and 512K page sizes,
2664	 * because 64K and 512K mappings are replicated off 8K
2665	 * pointer.
2666	 *
2667	 * g1 = tsb8k pointer register
2668	 * g2 = tag access register
2669	 * g3 - g6 = scratch registers
2670	 * g7 = TSB tag to match
2671	 */
2672	.align 64
2673	ALTENTRY(sfmmu_udtlb_fastpath)
2674
2675	PROBE_1ST_DTSB(%g1, %g7, udtlb_fast_8k_probefail)
2676	/* g4 - g5 = clobbered by PROBE_1ST_DTSB */
2677	ba,pn	%xcc, sfmmu_tsb_miss_tt
2678	  mov	-1, %g3
2679
2680	/*
2681	 * User instruction miss w/ multiple TSBs (sun4v).
2682	 * The first probe covers 8K, 64K, and 512K page sizes,
2683	 * because 64K and 512K mappings are replicated off 8K
2684	 * pointer.  Second probe covers 4M page size only.
2685	 *
2686	 * Just like sfmmu_udtlb_slowpath, except:
2687	 *   o Uses ASI_ITLB_IN
2688	 *   o checks for execute permission
2689	 *   o No ISM prediction.
2690	 *
2691	 * g1 = tsb8k pointer register
2692	 * g2 = tag access register
2693	 * g3 - g6 = scratch registers
2694	 * g7 = TSB tag to match
2695	 */
2696	.align	64
2697	ALTENTRY(sfmmu_uitlb_slowpath)
2698
2699	GET_1ST_TSBE_PTR(%g2, %g1, %g4, %g5)
2700	PROBE_1ST_ITSB(%g1, %g7, uitlb_8k_probefail)
2701	/* g4 - g5 = clobbered here */
2702
2703	GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
2704	/* g1 = first TSB pointer, g3 = second TSB pointer */
2705	srlx	%g2, TAG_VALO_SHIFT, %g7
2706	PROBE_2ND_ITSB(%g3, %g7)
2707	/* NOT REACHED */
2708
2709#else /* sun4v */
2710
2711	/*
2712	 * User instruction miss w/ multiple TSBs (sun4u).
2713	 * The first probe covers 8K, 64K, and 512K page sizes,
2714	 * because 64K and 512K mappings are replicated off 8K
2715	 * pointer.  Probe of 1st TSB has already been done prior to entry
2716	 * into this routine. For the UTSB_PHYS case we probe up to 3
2717	 * valid other TSBs in the following order:
2718	 * 1) shared TSB for 4M-256M pages
2719	 * 2) private TSB for 4M-256M pages
2720	 * 3) shared TSB for 8K-512K pages
2721	 *
2722	 * For the non UTSB_PHYS case we probe the 2nd TSB here that backs
2723	 * 4M-256M pages.
2724	 *
2725	 * Just like sfmmu_udtlb_slowpath, except:
2726	 *   o Uses ASI_ITLB_IN
2727	 *   o checks for execute permission
2728	 *   o No ISM prediction.
2729	 *
2730	 * g1 = tsb8k pointer register
2731	 * g2 = tag access register
2732	 * g4 - g6 = scratch registers
2733	 * g7 = TSB tag to match
2734	 */
2735	.align	64
2736	ALTENTRY(sfmmu_uitlb_slowpath)
2737
2738#ifdef UTSB_PHYS
2739
2740       GET_UTSBREG(SCRATCHPAD_UTSBREG4, %g6)
2741        brlz,pt %g6, 1f
2742          nop
2743        GET_4TH_TSBE_PTR(%g2, %g6, %g4, %g5)
2744        PROBE_4TH_ITSB(%g6, %g7, uitlb_4m_scd_probefail)
27451:
2746        GET_UTSBREG(SCRATCHPAD_UTSBREG2, %g3)
2747        brlz,pt %g3, 2f
2748          nop
2749        GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
2750        PROBE_2ND_ITSB(%g3, %g7, uitlb_4m_probefail)
27512:
2752        GET_UTSBREG(SCRATCHPAD_UTSBREG3, %g6)
2753        brlz,pt %g6, sfmmu_tsb_miss_tt
2754          nop
2755        GET_3RD_TSBE_PTR(%g2, %g6, %g4, %g5)
2756        PROBE_3RD_ITSB(%g6, %g7, uitlb_8K_scd_probefail)
2757        ba,pn   %xcc, sfmmu_tsb_miss_tt
2758          nop
2759
2760#else /* UTSB_PHYS */
2761	mov	%g1, %g3	/* save tsb8k reg in %g3 */
2762	GET_1ST_TSBE_PTR(%g3, %g1, %g5, sfmmu_uitlb)
2763	PROBE_1ST_ITSB(%g1, %g7, uitlb_8k_probefail)
2764	mov	%g2, %g6	/* GET_2ND_TSBE_PTR clobbers tagacc */
2765	mov	%g3, %g7	/* copy tsb8k reg in %g7 */
2766	GET_2ND_TSBE_PTR(%g6, %g7, %g3, %g4, %g5, sfmmu_uitlb)
2767       /* g1 = first TSB pointer, g3 = second TSB pointer */
2768        srlx    %g2, TAG_VALO_SHIFT, %g7
2769        PROBE_2ND_ITSB(%g3, %g7, isynth)
2770	ba,pn	%xcc, sfmmu_tsb_miss_tt
2771	  nop
2772
2773#endif /* UTSB_PHYS */
2774#endif /* sun4v */
2775
2776#if defined(sun4u) && defined(UTSB_PHYS)
2777
2778        /*
2779	 * We come here for ism predict DTLB_MISS case or if
2780	 * if probe in first TSB failed.
2781         */
2782
2783        .align 64
2784        ALTENTRY(sfmmu_udtlb_slowpath_noismpred)
2785
2786	/*
2787         * g1 = tsb8k pointer register
2788         * g2 = tag access register
2789         * g4 - %g6 = scratch registers
2790         * g7 = TSB tag to match
2791	 */
2792
2793	/*
2794	 * ISM non-predict probe order
2795         * probe 1ST_TSB (8K index)
2796         * probe 2ND_TSB (4M index)
2797         * probe 4TH_TSB (4M index)
2798         * probe 3RD_TSB (8K index)
2799	 *
2800	 * We already probed first TSB in DTLB_MISS handler.
2801	 */
2802
2803        /*
2804         * Private 2ND TSB 4M-256 pages
2805         */
2806	GET_UTSBREG(SCRATCHPAD_UTSBREG2, %g3)
2807	brlz,pt %g3, 1f
2808	  nop
2809        GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
2810        PROBE_2ND_DTSB(%g3, %g7, udtlb_4m_probefail)
2811
2812	/*
2813	 * Shared Context 4TH TSB 4M-256 pages
2814	 */
28151:
2816	GET_UTSBREG(SCRATCHPAD_UTSBREG4, %g6)
2817	brlz,pt %g6, 2f
2818	  nop
2819        GET_4TH_TSBE_PTR(%g2, %g6, %g4, %g5)
2820        PROBE_4TH_DTSB(%g6, %g7, udtlb_4m_shctx_probefail)
2821
2822        /*
2823         * Shared Context 3RD TSB 8K-512K pages
2824         */
28252:
2826	GET_UTSBREG(SCRATCHPAD_UTSBREG3, %g6)
2827	brlz,pt %g6, sfmmu_tsb_miss_tt
2828	  nop
2829        GET_3RD_TSBE_PTR(%g2, %g6, %g4, %g5)
2830        PROBE_3RD_DTSB(%g6, %g7, udtlb_8k_shctx_probefail)
2831	ba,pn	%xcc, sfmmu_tsb_miss_tt
2832	  nop
2833
2834	.align 64
2835        ALTENTRY(sfmmu_udtlb_slowpath_ismpred)
2836
2837	/*
2838         * g1 = tsb8k pointer register
2839         * g2 = tag access register
2840         * g4 - g6 = scratch registers
2841         * g7 = TSB tag to match
2842	 */
2843
2844	/*
2845	 * ISM predict probe order
2846	 * probe 4TH_TSB (4M index)
2847	 * probe 2ND_TSB (4M index)
2848	 * probe 1ST_TSB (8K index)
2849	 * probe 3RD_TSB (8K index)
2850
2851	/*
2852	 * Shared Context 4TH TSB 4M-256 pages
2853	 */
2854	GET_UTSBREG(SCRATCHPAD_UTSBREG4, %g6)
2855	brlz,pt %g6, 4f
2856	  nop
2857        GET_4TH_TSBE_PTR(%g2, %g6, %g4, %g5)
2858        PROBE_4TH_DTSB(%g6, %g7, udtlb_4m_shctx_probefail2)
2859
2860        /*
2861         * Private 2ND TSB 4M-256 pages
2862         */
28634:
2864	GET_UTSBREG(SCRATCHPAD_UTSBREG2, %g3)
2865	brlz,pt %g3, 5f
2866	  nop
2867        GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
2868        PROBE_2ND_DTSB(%g3, %g7, udtlb_4m_probefail2)
2869
28705:
2871        PROBE_1ST_DTSB(%g1, %g7, udtlb_8k_first_probefail2)
2872
2873        /*
2874         * Shared Context 3RD TSB 8K-512K pages
2875         */
2876	GET_UTSBREG(SCRATCHPAD_UTSBREG3, %g6)
2877	brlz,pt %g6, 6f
2878	  nop
2879        GET_3RD_TSBE_PTR(%g2, %g6, %g4, %g5)
2880        PROBE_3RD_DTSB(%g6, %g7, udtlb_8k_shctx_probefail2)
28816:
2882	ba,pn	%xcc, sfmmu_tsb_miss_tt /* ISM Predict and ISM non-predict path */
2883	  nop
2884
2885#else /* sun4u && UTSB_PHYS */
2886
2887       .align 64
2888        ALTENTRY(sfmmu_udtlb_slowpath)
2889
2890	srax	%g2, PREDISM_BASESHIFT, %g6	/* g6 > 0 : ISM predicted */
2891	brgz,pn %g6, udtlb_miss_probesecond	/* check for ISM */
2892	  mov	%g1, %g3
2893
2894udtlb_miss_probefirst:
2895	/*
2896	 * g1 = 8K TSB pointer register
2897	 * g2 = tag access register
2898	 * g3 = (potentially) second TSB entry ptr
2899	 * g6 = ism pred.
2900	 * g7 = vpg_4m
2901	 */
2902#ifdef sun4v
2903	GET_1ST_TSBE_PTR(%g2, %g1, %g4, %g5)
2904	PROBE_1ST_DTSB(%g1, %g7, udtlb_first_probefail)
2905
2906	/*
2907	 * Here:
2908	 *   g1 = first TSB pointer
2909	 *   g2 = tag access reg
2910	 *   g3 = second TSB ptr IFF ISM pred. (else don't care)
2911	 */
2912	brgz,pn	%g6, sfmmu_tsb_miss_tt
2913	  nop
2914#else /* sun4v */
2915	mov	%g1, %g4
2916	GET_1ST_TSBE_PTR(%g4, %g1, %g5, sfmmu_udtlb)
2917	PROBE_1ST_DTSB(%g1, %g7, udtlb_first_probefail)
2918
2919	/*
2920	 * Here:
2921	 *   g1 = first TSB pointer
2922	 *   g2 = tag access reg
2923	 *   g3 = second TSB ptr IFF ISM pred. (else don't care)
2924	 */
2925	brgz,pn	%g6, sfmmu_tsb_miss_tt
2926	  nop
2927	ldxa	[%g0]ASI_DMMU_TSB_8K, %g3
2928	/* fall through in 8K->4M probe order */
2929#endif /* sun4v */
2930
2931udtlb_miss_probesecond:
2932	/*
2933	 * Look in the second TSB for the TTE
2934	 * g1 = First TSB entry ptr if !ISM pred, TSB8K ptr reg if ISM pred.
2935	 * g2 = tag access reg
2936	 * g3 = 8K TSB pointer register
2937	 * g6 = ism pred.
2938	 * g7 = vpg_4m
2939	 */
2940#ifdef sun4v
2941	/* GET_2ND_TSBE_PTR(tagacc, tsbe_ptr, tmp1, tmp2) */
2942	GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
2943	/* %g2 is okay, no need to reload, %g3 = second tsbe ptr */
2944#else /* sun4v */
2945	mov	%g3, %g7
2946	GET_2ND_TSBE_PTR(%g2, %g7, %g3, %g4, %g5, sfmmu_udtlb)
2947	/* %g2 clobbered, %g3 =second tsbe ptr */
2948	mov	MMU_TAG_ACCESS, %g2
2949	ldxa	[%g2]ASI_DMMU, %g2
2950#endif /* sun4v */
2951
2952	srlx	%g2, TAG_VALO_SHIFT, %g7
2953	PROBE_2ND_DTSB(%g3, %g7, udtlb_4m_probefail)
2954	/* g4 - g5 = clobbered here; %g7 still vpg_4m at this point */
2955	brgz,pn	%g6, udtlb_miss_probefirst
2956	  nop
2957
2958	/* fall through to sfmmu_tsb_miss_tt */
2959#endif /* sun4u && UTSB_PHYS */
2960
2961
2962	ALTENTRY(sfmmu_tsb_miss_tt)
2963	TT_TRACE(trace_tsbmiss)
2964	/*
2965	 * We get here if there is a TSB miss OR a write protect trap.
2966	 *
2967	 * g1 = First TSB entry pointer
2968	 * g2 = tag access register
2969	 * g3 = 4M TSB entry pointer; -1 if no 2nd TSB
2970	 * g4 - g7 = scratch registers
2971	 */
2972
2973	ALTENTRY(sfmmu_tsb_miss)
2974
2975	/*
2976	 * If trapstat is running, we need to shift the %tpc and %tnpc to
2977	 * point to trapstat's TSB miss return code (note that trapstat
2978	 * itself will patch the correct offset to add).
2979	 */
2980	rdpr	%tl, %g7
2981	cmp	%g7, 1
2982	ble,pt	%xcc, 0f
2983	  sethi	%hi(KERNELBASE), %g6
2984	rdpr	%tpc, %g7
2985	or	%g6, %lo(KERNELBASE), %g6
2986	cmp	%g7, %g6
2987	bgeu,pt	%xcc, 0f
2988	/* delay slot safe */
2989
2990	ALTENTRY(tsbmiss_trapstat_patch_point)
2991	add	%g7, RUNTIME_PATCH, %g7	/* must match TSTAT_TSBMISS_INSTR */
2992	wrpr	%g7, %tpc
2993	add	%g7, 4, %g7
2994	wrpr	%g7, %tnpc
29950:
2996	CPU_TSBMISS_AREA(%g6, %g7)
2997	stn	%g1, [%g6 + TSBMISS_TSBPTR]	/* save 1ST tsb pointer */
2998	stn	%g3, [%g6 + TSBMISS_TSBPTR4M]	/* save 2ND tsb pointer */
2999
3000	sllx	%g2, TAGACC_CTX_LSHIFT, %g3
3001	brz,a,pn %g3, 1f			/* skip ahead if kernel */
3002	  ldn	[%g6 + TSBMISS_KHATID], %g7
3003	srlx	%g3, TAGACC_CTX_LSHIFT, %g3	/* g3 = ctxnum */
3004	ldn	[%g6 + TSBMISS_UHATID], %g7     /* g7 = hatid */
3005
3006	HAT_PERCPU_STAT32(%g6, TSBMISS_UTSBMISS, %g5)
3007
3008	cmp	%g3, INVALID_CONTEXT
3009	be,pn	%icc, tsb_tl0_noctxt		/* no ctx miss exception */
3010	  stn	%g7, [%g6 + (TSBMISS_SCRATCH + TSBMISS_HATID)]
3011
3012#if defined(sun4v) || defined(UTSB_PHYS)
3013        ldub    [%g6 + TSBMISS_URTTEFLAGS], %g7	/* clear ctx1 flag set from */
3014        andn    %g7, HAT_CHKCTX1_FLAG, %g7	/* the previous tsb miss    */
3015        stub    %g7, [%g6 + TSBMISS_URTTEFLAGS]
3016#endif /* sun4v || UTSB_PHYS */
3017
3018	ISM_CHECK(%g2, %g6, %g3, %g4, %g5, %g7, %g1, tsb_l1, tsb_ism)
3019	/*
3020	 * The miss wasn't in an ISM segment.
3021	 *
3022	 * %g1 %g3, %g4, %g5, %g7 all clobbered
3023	 * %g2 = (pseudo) tag access
3024	 */
3025
3026	ba,pt	%icc, 2f
3027	  ldn	[%g6 + (TSBMISS_SCRATCH + TSBMISS_HATID)], %g7
3028
30291:
3030	HAT_PERCPU_STAT32(%g6, TSBMISS_KTSBMISS, %g5)
3031	/*
3032	 * 8K and 64K hash.
3033	 */
30342:
3035
3036	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3037		MMU_PAGESHIFT64K, TTE64K, %g5, tsb_l8K, tsb_checktte,
3038		sfmmu_suspend_tl, tsb_512K)
3039	/* NOT REACHED */
3040
3041tsb_512K:
3042	sllx	%g2, TAGACC_CTX_LSHIFT, %g5
3043	brz,pn	%g5, 3f
3044	  ldub	[%g6 + TSBMISS_UTTEFLAGS], %g4
3045	and	%g4, HAT_512K_FLAG, %g5
3046
3047	/*
3048	 * Note that there is a small window here where we may have
3049	 * a 512k page in the hash list but have not set the HAT_512K_FLAG
3050	 * flag yet, so we will skip searching the 512k hash list.
3051	 * In this case we will end up in pagefault which will find
3052	 * the mapping and return.  So, in this instance we will end up
3053	 * spending a bit more time resolving this TSB miss, but it can
3054	 * only happen once per process and even then, the chances of that
3055	 * are very small, so it's not worth the extra overhead it would
3056	 * take to close this window.
3057	 */
3058	brz,pn	%g5, tsb_4M
3059	  nop
30603:
3061	/*
3062	 * 512K hash
3063	 */
3064
3065	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3066		MMU_PAGESHIFT512K, TTE512K, %g5, tsb_l512K, tsb_checktte,
3067		sfmmu_suspend_tl, tsb_4M)
3068	/* NOT REACHED */
3069
3070tsb_4M:
3071	sllx	%g2, TAGACC_CTX_LSHIFT, %g5
3072	brz,pn	%g5, 4f
3073	  ldub	[%g6 + TSBMISS_UTTEFLAGS], %g4
3074	and	%g4, HAT_4M_FLAG, %g5
3075	brz,pn	%g5, tsb_32M
3076	  nop
30774:
3078	/*
3079	 * 4M hash
3080	 */
3081
3082	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3083		MMU_PAGESHIFT4M, TTE4M, %g5, tsb_l4M, tsb_checktte,
3084		sfmmu_suspend_tl, tsb_32M)
3085	/* NOT REACHED */
3086
3087tsb_32M:
3088	sllx	%g2, TAGACC_CTX_LSHIFT, %g5
3089#ifdef	sun4v
3090        brz,pn	%g5, 6f
3091#else
3092	brz,pn  %g5, tsb_pagefault
3093#endif
3094	  ldub	[%g6 + TSBMISS_UTTEFLAGS], %g4
3095	and	%g4, HAT_32M_FLAG, %g5
3096	brz,pn	%g5, tsb_256M
3097	  nop
30985:
3099	/*
3100	 * 32M hash
3101	 */
3102
3103	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3104		MMU_PAGESHIFT32M, TTE32M, %g5, tsb_l32M, tsb_checktte,
3105		sfmmu_suspend_tl, tsb_256M)
3106	/* NOT REACHED */
3107
3108#if defined(sun4u) && !defined(UTSB_PHYS)
3109#define tsb_shme        tsb_pagefault
3110#endif
3111tsb_256M:
3112	ldub	[%g6 + TSBMISS_UTTEFLAGS], %g4
3113	and	%g4, HAT_256M_FLAG, %g5
3114	brz,pn	%g5, tsb_shme
3115	  nop
31166:
3117	/*
3118	 * 256M hash
3119	 */
3120
3121	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3122	    MMU_PAGESHIFT256M, TTE256M, %g5, tsb_l256M, tsb_checktte,
3123	    sfmmu_suspend_tl, tsb_shme)
3124	/* NOT REACHED */
3125
3126tsb_checktte:
3127	/*
3128	 * g1 = hblk_misc
3129	 * g2 = tagacc
3130	 * g3 = tte
3131	 * g4 = tte pa
3132	 * g6 = tsbmiss area
3133	 * g7 = hatid
3134	 */
3135	brlz,a,pt %g3, tsb_validtte
3136	  rdpr	%tt, %g7
3137
3138#if defined(sun4u) && !defined(UTSB_PHYS)
3139#undef tsb_shme
3140	ba      tsb_pagefault
3141	  nop
3142#else /* sun4u && !UTSB_PHYS */
3143
3144tsb_shme:
3145	/*
3146	 * g2 = tagacc
3147	 * g6 = tsbmiss area
3148	 */
3149	sllx	%g2, TAGACC_CTX_LSHIFT, %g5
3150	brz,pn	%g5, tsb_pagefault
3151	  nop
3152	ldx	[%g6 + TSBMISS_SHARED_UHATID], %g7	/* g7 = srdp */
3153	brz,pn	%g7, tsb_pagefault
3154	  nop
3155
3156	GET_SHME_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3157		MMU_PAGESHIFT64K, TTE64K, %g5, tsb_shme_l8K, tsb_shme_checktte,
3158		sfmmu_suspend_tl, tsb_shme_512K)
3159	/* NOT REACHED */
3160
3161tsb_shme_512K:
3162	ldub	[%g6 + TSBMISS_URTTEFLAGS], %g4
3163	and	%g4, HAT_512K_FLAG, %g5
3164	brz,pn	%g5, tsb_shme_4M
3165	  nop
3166
3167	/*
3168	 * 512K hash
3169	 */
3170
3171	GET_SHME_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3172		MMU_PAGESHIFT512K, TTE512K, %g5, tsb_shme_l512K, tsb_shme_checktte,
3173		sfmmu_suspend_tl, tsb_shme_4M)
3174	/* NOT REACHED */
3175
3176tsb_shme_4M:
3177	ldub	[%g6 + TSBMISS_URTTEFLAGS], %g4
3178	and	%g4, HAT_4M_FLAG, %g5
3179	brz,pn	%g5, tsb_shme_32M
3180	  nop
31814:
3182	/*
3183	 * 4M hash
3184	 */
3185	GET_SHME_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3186		MMU_PAGESHIFT4M, TTE4M, %g5, tsb_shme_l4M, tsb_shme_checktte,
3187		sfmmu_suspend_tl, tsb_shme_32M)
3188	/* NOT REACHED */
3189
3190tsb_shme_32M:
3191	ldub	[%g6 + TSBMISS_URTTEFLAGS], %g4
3192	and	%g4, HAT_32M_FLAG, %g5
3193	brz,pn	%g5, tsb_shme_256M
3194	  nop
3195
3196	/*
3197	 * 32M hash
3198	 */
3199
3200	GET_SHME_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3201		MMU_PAGESHIFT32M, TTE32M, %g5, tsb_shme_l32M, tsb_shme_checktte,
3202		sfmmu_suspend_tl, tsb_shme_256M)
3203	/* NOT REACHED */
3204
3205tsb_shme_256M:
3206	ldub	[%g6 + TSBMISS_URTTEFLAGS], %g4
3207	and	%g4, HAT_256M_FLAG, %g5
3208	brz,pn	%g5, tsb_pagefault
3209	  nop
3210
3211	/*
3212	 * 256M hash
3213	 */
3214
3215	GET_SHME_TTE(%g2, %g7, %g3, %g4, %g6, %g1,
3216	    MMU_PAGESHIFT256M, TTE256M, %g5, tsb_shme_l256M, tsb_shme_checktte,
3217	    sfmmu_suspend_tl, tsb_pagefault)
3218	/* NOT REACHED */
3219
3220tsb_shme_checktte:
3221
3222	brgez,pn %g3, tsb_pagefault
3223	  rdpr	%tt, %g7
3224	/*
3225	 * g1 = ctx1 flag
3226	 * g3 = tte
3227	 * g4 = tte pa
3228	 * g6 = tsbmiss area
3229	 * g7 = tt
3230	 */
3231
3232	brz,pt  %g1, tsb_validtte
3233	  nop
3234	ldub    [%g6 + TSBMISS_URTTEFLAGS], %g1
3235	  or	%g1, HAT_CHKCTX1_FLAG, %g1
3236	stub    %g1, [%g6 + TSBMISS_URTTEFLAGS]
3237
3238	SAVE_CTX1(%g7, %g2, %g1, tsb_shmel)
3239#endif /* sun4u && !UTSB_PHYS */
3240
3241tsb_validtte:
3242	/*
3243	 * g3 = tte
3244	 * g4 = tte pa
3245	 * g6 = tsbmiss area
3246	 * g7 = tt
3247	 */
3248
3249	/*
3250	 * Set ref/mod bits if this is a prot trap.  Usually, it isn't.
3251	 */
3252	cmp	%g7, FAST_PROT_TT
3253	bne,pt	%icc, 4f
3254	  nop
3255
3256	TTE_SET_REFMOD_ML(%g3, %g4, %g6, %g7, %g5, tsb_lset_refmod,
3257	    tsb_protfault)
3258
3259	GET_MMU_D_TTARGET(%g2, %g7)		/* %g2 = ttarget */
3260#ifdef sun4v
3261	MMU_FAULT_STATUS_AREA(%g7)
3262	ldx	[%g7 + MMFSA_D_ADDR], %g5	/* load fault addr for later */
3263#else /* sun4v */
3264	mov     MMU_TAG_ACCESS, %g5
3265	ldxa    [%g5]ASI_DMMU, %g5
3266#endif /* sun4v */
3267	ba,pt	%xcc, tsb_update_tl1
3268	  nop
32694:
3270	/*
3271	 * ITLB translation was found but execute permission is
3272	 * disabled. If we have software execute permission (soft exec
3273	 * bit is set), then enable hardware execute permission.
3274	 * Otherwise continue with a protection violation.
3275	 */
3276	cmp     %g7, T_INSTR_MMU_MISS
3277	be,pn	%icc, 5f
3278	  andcc   %g3, TTE_EXECPRM_INT, %g0	/* check execute bit is set */
3279	cmp     %g7, FAST_IMMU_MISS_TT
3280	bne,pt %icc, 3f
3281	  andcc   %g3, TTE_EXECPRM_INT, %g0	/* check execute bit is set */
32825:
3283	bnz,pn %icc, 3f
3284	  TTE_CHK_SOFTEXEC_ML(%g3)		/* check soft execute */
3285	bz,pn %icc, tsb_protfault
3286	  nop
3287	TTE_SET_EXEC_ML(%g3, %g4, %g7, tsb_lset_exec)
32883:
3289	/*
3290	 * Set reference bit if not already set
3291	 */
3292	TTE_SET_REF_ML(%g3, %g4, %g6, %g7, %g5, tsb_lset_ref)
3293
3294	/*
3295	 * Now, load into TSB/TLB.  At this point:
3296	 * g3 = tte
3297	 * g4 = patte
3298	 * g6 = tsbmiss area
3299	 */
3300	rdpr	%tt, %g7
3301#ifdef sun4v
3302	MMU_FAULT_STATUS_AREA(%g2)
3303	cmp	%g7, T_INSTR_MMU_MISS
3304	be,a,pt	%icc, 9f
3305	  nop
3306	cmp	%g7, FAST_IMMU_MISS_TT
3307	be,a,pt	%icc, 9f
3308	  nop
3309	add	%g2, MMFSA_D_, %g2
33109:
3311	ldx	[%g2 + MMFSA_CTX_], %g7
3312	sllx	%g7, TTARGET_CTX_SHIFT, %g7
3313	ldx	[%g2 + MMFSA_ADDR_], %g2
3314	mov	%g2, %g5		! load the fault addr for later use
3315	srlx	%g2, TTARGET_VA_SHIFT, %g2
3316	or	%g2, %g7, %g2
3317#else /* sun4v */
3318	mov     MMU_TAG_ACCESS, %g5
3319	cmp     %g7, FAST_IMMU_MISS_TT
3320	be,a,pt %icc, 9f
3321	   ldxa  [%g0]ASI_IMMU, %g2
3322	ldxa    [%g0]ASI_DMMU, %g2
3323	ba,pt   %icc, tsb_update_tl1
3324	   ldxa  [%g5]ASI_DMMU, %g5
33259:
3326	ldxa    [%g5]ASI_IMMU, %g5
3327#endif /* sun4v */
3328
3329tsb_update_tl1:
3330	TTE_CLR_SOFTEXEC_ML(%g3)
3331	srlx	%g2, TTARGET_CTX_SHIFT, %g7
3332	brz,pn	%g7, tsb_kernel
3333#ifdef sun4v
3334	  and	%g3, TTE_SZ_BITS, %g7	! assumes TTE_SZ_SHFT is 0
3335#else  /* sun4v */
3336	  srlx	%g3, TTE_SZ_SHFT, %g7
3337#endif /* sun4v */
3338
3339tsb_user:
3340#ifdef sun4v
3341	cmp	%g7, TTE4M
3342	bge,pn	%icc, tsb_user4m
3343	  nop
3344#else /* sun4v */
3345	cmp	%g7, TTESZ_VALID | TTE4M
3346	be,pn	%icc, tsb_user4m
3347	  srlx	%g3, TTE_SZ2_SHFT, %g7
3348	andcc	%g7, TTE_SZ2_BITS, %g7		! check 32/256MB
3349#ifdef ITLB_32M_256M_SUPPORT
3350	bnz,pn	%icc, tsb_user4m
3351	  nop
3352#else /* ITLB_32M_256M_SUPPORT */
3353	bnz,a,pn %icc, tsb_user_pn_synth
3354	 nop
3355#endif /* ITLB_32M_256M_SUPPORT */
3356#endif /* sun4v */
3357
3358tsb_user8k:
3359#if defined(sun4v) || defined(UTSB_PHYS)
3360	ldub	[%g6 + TSBMISS_URTTEFLAGS], %g7
3361	and	%g7, HAT_CHKCTX1_FLAG, %g1
3362	brz,a,pn %g1, 1f
3363	  ldn	[%g6 + TSBMISS_TSBPTR], %g1		! g1 = 1ST TSB ptr
3364	GET_UTSBREG_SHCTX(%g6, TSBMISS_TSBSCDPTR, %g1)
3365	brlz,a,pn %g1, ptl1_panic			! if no shared 3RD tsb
3366	  mov PTL1_NO_SCDTSB8K, %g1			! panic
3367        GET_3RD_TSBE_PTR(%g5, %g1, %g6, %g7)
33681:
3369#else /* defined(sun4v) || defined(UTSB_PHYS) */
3370	ldn   [%g6 + TSBMISS_TSBPTR], %g1             ! g1 = 1ST TSB ptr
3371#endif /* defined(sun4v) || defined(UTSB_PHYS) */
3372
3373#ifndef UTSB_PHYS
3374	mov	ASI_N, %g7	! user TSBs accessed by VA
3375	mov	%g7, %asi
3376#endif /* !UTSB_PHYS */
3377
3378	TSB_UPDATE_TL(%g1, %g3, %g2, %g4, %g7, %g6, locked_tsb_l3)
3379
3380	rdpr    %tt, %g5
3381#ifdef sun4v
3382	cmp	%g5, T_INSTR_MMU_MISS
3383	be,a,pn	%xcc, 9f
3384	  mov	%g3, %g5
3385#endif /* sun4v */
3386	cmp	%g5, FAST_IMMU_MISS_TT
3387	be,pn	%xcc, 9f
3388	  mov	%g3, %g5
3389
3390	DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3391	! trapstat wants TTE in %g5
3392	retry
33939:
3394	ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3395	! trapstat wants TTE in %g5
3396	retry
3397
3398tsb_user4m:
3399#if defined(sun4v) || defined(UTSB_PHYS)
3400	ldub	[%g6 + TSBMISS_URTTEFLAGS], %g7
3401	and	%g7, HAT_CHKCTX1_FLAG, %g1
3402	brz,a,pn %g1, 4f
3403	  ldn	[%g6 + TSBMISS_TSBPTR4M], %g1		! g1 = 2ND TSB ptr
3404	GET_UTSBREG_SHCTX(%g6, TSBMISS_TSBSCDPTR4M, %g1)! g1 = 4TH TSB ptr
3405	brlz,a,pn %g1, 5f				! if no shared 4TH TSB
3406	  nop
3407        GET_4TH_TSBE_PTR(%g5, %g1, %g6, %g7)
3408
3409#else /* defined(sun4v) || defined(UTSB_PHYS) */
3410	ldn   [%g6 + TSBMISS_TSBPTR4M], %g1             ! g1 = 2ND TSB ptr
3411#endif /* defined(sun4v) || defined(UTSB_PHYS) */
34124:
3413	brlz,pn %g1, 5f	/* Check to see if we have 2nd TSB programmed */
3414	  nop
3415
3416#ifndef UTSB_PHYS
3417	mov	ASI_N, %g7	! user TSBs accessed by VA
3418	mov	%g7, %asi
3419#endif /* UTSB_PHYS */
3420
3421        TSB_UPDATE_TL(%g1, %g3, %g2, %g4, %g7, %g6, locked_tsb_l4)
3422
34235:
3424	rdpr    %tt, %g5
3425#ifdef sun4v
3426        cmp     %g5, T_INSTR_MMU_MISS
3427        be,a,pn %xcc, 9f
3428          mov   %g3, %g5
3429#endif /* sun4v */
3430        cmp     %g5, FAST_IMMU_MISS_TT
3431        be,pn   %xcc, 9f
3432        mov     %g3, %g5
3433
3434        DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3435        ! trapstat wants TTE in %g5
3436        retry
34379:
3438        ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3439        ! trapstat wants TTE in %g5
3440        retry
3441
3442#if !defined(sun4v) && !defined(ITLB_32M_256M_SUPPORT)
3443	/*
3444	 * Panther ITLB synthesis.
3445	 * The Panther 32M and 256M ITLB code simulates these two large page
3446	 * sizes with 4M pages, to provide support for programs, for example
3447	 * Java, that may copy instructions into a 32M or 256M data page and
3448	 * then execute them. The code below generates the 4M pfn bits and
3449	 * saves them in the modified 32M/256M ttes in the TSB. If the tte is
3450	 * stored in the DTLB to map a 32M/256M page, the 4M pfn offset bits
3451	 * are ignored by the hardware.
3452	 *
3453	 * Now, load into TSB/TLB.  At this point:
3454	 * g2 = tagtarget
3455	 * g3 = tte
3456	 * g4 = patte
3457	 * g5 = tt
3458	 * g6 = tsbmiss area
3459	 */
3460tsb_user_pn_synth:
3461	rdpr %tt, %g5
3462	cmp    %g5, FAST_IMMU_MISS_TT
3463	be,pt	%xcc, tsb_user_itlb_synth	/* ITLB miss */
3464	  andcc %g3, TTE_EXECPRM_INT, %g0	/* is execprm bit set */
3465	bz,pn %icc, 4b				/* if not, been here before */
3466	  ldn	[%g6 + TSBMISS_TSBPTR4M], %g1	/* g1 = tsbp */
3467	brlz,a,pn %g1, 5f			/* no 2nd tsb */
3468	  mov	%g3, %g5
3469
3470	mov	MMU_TAG_ACCESS, %g7
3471	ldxa	[%g7]ASI_DMMU, %g6		/* get tag access va */
3472	GET_4M_PFN_OFF(%g3, %g6, %g5, %g7, 1)	/* make 4M pfn offset */
3473
3474	mov	ASI_N, %g7	/* user TSBs always accessed by VA */
3475	mov	%g7, %asi
3476	TSB_UPDATE_TL_PN(%g1, %g5, %g2, %g4, %g7, %g3, locked_tsb_l5) /* update TSB */
34775:
3478        DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3479        retry
3480
3481tsb_user_itlb_synth:
3482	ldn	[%g6 + TSBMISS_TSBPTR4M], %g1		/* g1 =  2ND TSB */
3483
3484	mov	MMU_TAG_ACCESS, %g7
3485	ldxa	[%g7]ASI_IMMU, %g6		/* get tag access va */
3486	GET_4M_PFN_OFF(%g3, %g6, %g5, %g7, 2)	/* make 4M pfn offset */
3487	brlz,a,pn %g1, 7f	/* Check to see if we have 2nd TSB programmed */
3488	  or	%g5, %g3, %g5			/* add 4M bits to TTE */
3489
3490	mov	ASI_N, %g7	/* user TSBs always accessed by VA */
3491	mov	%g7, %asi
3492	TSB_UPDATE_TL_PN(%g1, %g5, %g2, %g4, %g7, %g3, locked_tsb_l6) /* update TSB */
34937:
3494	SET_TTE4M_PN(%g5, %g7)			/* add TTE4M pagesize to TTE */
3495        ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3496        retry
3497#endif /* sun4v && ITLB_32M_256M_SUPPORT */
3498
3499tsb_kernel:
3500	rdpr	%tt, %g5
3501#ifdef sun4v
3502	cmp	%g7, TTE4M
3503	bge,pn	%icc, 5f
3504#else
3505	cmp	%g7, TTESZ_VALID | TTE4M	! no 32M or 256M support
3506	be,pn	%icc, 5f
3507#endif /* sun4v */
3508	  nop
3509	ldn	[%g6 + TSBMISS_TSBPTR], %g1	! g1 = 8K TSB ptr
3510	ba,pt	%xcc, 6f
3511	  nop
35125:
3513	ldn	[%g6 + TSBMISS_TSBPTR4M], %g1	! g1 = 4M TSB ptr
3514	brlz,pn	%g1, 3f		/* skip programming if 4M TSB ptr is -1 */
3515	  nop
35166:
3517#ifndef sun4v
3518tsb_kernel_patch_asi:
3519	or	%g0, RUNTIME_PATCH, %g6
3520	mov	%g6, %asi	! XXX avoid writing to %asi !!
3521#endif
3522	TSB_UPDATE_TL(%g1, %g3, %g2, %g4, %g7, %g6, locked_tsb_l7)
35233:
3524#ifdef sun4v
3525	cmp	%g5, T_INSTR_MMU_MISS
3526	be,a,pn	%icc, 1f
3527	  mov	%g3, %g5			! trapstat wants TTE in %g5
3528#endif /* sun4v */
3529	cmp	%g5, FAST_IMMU_MISS_TT
3530	be,pn	%icc, 1f
3531	  mov	%g3, %g5			! trapstat wants TTE in %g5
3532	DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3533	! trapstat wants TTE in %g5
3534	retry
35351:
3536	ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)
3537	! trapstat wants TTE in %g5
3538	retry
3539
3540tsb_ism:
3541	/*
3542	 * This is an ISM [i|d]tlb miss.  We optimize for largest
3543	 * page size down to smallest.
3544	 *
3545	 * g2 = vaddr + ctx(or ctxtype (sun4v)) aka (pseudo-)tag access
3546	 *	register
3547	 * g3 = ismmap->ism_seg
3548	 * g4 = physical address of ismmap->ism_sfmmu
3549	 * g6 = tsbmiss area
3550	 */
3551	ldna	[%g4]ASI_MEM, %g7		/* g7 = ism hatid */
3552	brz,a,pn %g7, ptl1_panic		/* if zero jmp ahead */
3553	  mov	PTL1_BAD_ISM, %g1
3554						/* g5 = pa of imap_vb_shift */
3555	sub	%g4, (IMAP_ISMHAT - IMAP_VB_SHIFT), %g5
3556	lduba	[%g5]ASI_MEM, %g4		/* g4 = imap_vb_shift */
3557	srlx	%g3, %g4, %g3			/* clr size field */
3558	set	TAGACC_CTX_MASK, %g1		/* mask off ctx number */
3559	sllx    %g3, %g4, %g3                   /* g3 = ism vbase */
3560	and     %g2, %g1, %g4                   /* g4 = ctx number */
3561	andn    %g2, %g1, %g1                   /* g1 = tlb miss vaddr */
3562	sub     %g1, %g3, %g2                   /* g2 = offset in ISM seg */
3563	or      %g2, %g4, %g2                   /* g2 = (pseudo-)tagacc */
3564	sub     %g5, (IMAP_VB_SHIFT - IMAP_HATFLAGS), %g5
3565	lduha   [%g5]ASI_MEM, %g4               /* g5 = pa of imap_hatflags */
3566#if defined(sun4v) || defined(UTSB_PHYS)
3567	and     %g4, HAT_CTX1_FLAG, %g5         /* g5 = imap_hatflags */
3568	brz,pt %g5, tsb_chk4M_ism
3569	  nop
3570	ldub    [%g6 + TSBMISS_URTTEFLAGS], %g5
3571	or      %g5, HAT_CHKCTX1_FLAG, %g5
3572	stub    %g5, [%g6 + TSBMISS_URTTEFLAGS]
3573	rdpr    %tt, %g5
3574	SAVE_CTX1(%g5, %g3, %g1, tsb_shctxl)
3575#endif /* defined(sun4v) || defined(UTSB_PHYS) */
3576
3577	/*
3578	 * ISM pages are always locked down.
3579	 * If we can't find the tte then pagefault
3580	 * and let the spt segment driver resolve it.
3581	 *
3582	 * g2 = tagacc w/ISM vaddr (offset in ISM seg)
3583	 * g4 = imap_hatflags
3584	 * g6 = tsb miss area
3585	 * g7 = ISM hatid
3586	 */
3587
3588tsb_chk4M_ism:
3589	and	%g4, HAT_4M_FLAG, %g5		/* g4 = imap_hatflags */
3590	brnz,pt	%g5, tsb_ism_4M			/* branch if 4M pages */
3591	  nop
3592
3593tsb_ism_32M:
3594	and	%g4, HAT_32M_FLAG, %g5		/* check default 32M next */
3595	brz,pn	%g5, tsb_ism_256M
3596	  nop
3597
3598	/*
3599	 * 32M hash.
3600	 */
3601
3602	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1, MMU_PAGESHIFT32M,
3603	    TTE32M, %g5, tsb_ism_l32M, tsb_ism_32M_found, sfmmu_suspend_tl,
3604	    tsb_ism_4M)
3605	/* NOT REACHED */
3606
3607tsb_ism_32M_found:
3608	brlz,a,pt %g3, tsb_validtte
3609	  rdpr	%tt, %g7
3610	ba,pt	%xcc, tsb_ism_4M
3611	  nop
3612
3613tsb_ism_256M:
3614	and	%g4, HAT_256M_FLAG, %g5		/* 256M is last resort */
3615	brz,a,pn %g5, ptl1_panic
3616	  mov	PTL1_BAD_ISM, %g1
3617
3618	/*
3619	 * 256M hash.
3620	 */
3621	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1, MMU_PAGESHIFT256M,
3622	    TTE256M, %g5, tsb_ism_l256M, tsb_ism_256M_found, sfmmu_suspend_tl,
3623	    tsb_ism_4M)
3624
3625tsb_ism_256M_found:
3626	brlz,a,pt %g3, tsb_validtte
3627	  rdpr	%tt, %g7
3628
3629tsb_ism_4M:
3630	/*
3631	 * 4M hash.
3632	 */
3633	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1, MMU_PAGESHIFT4M,
3634	    TTE4M, %g5, tsb_ism_l4M, tsb_ism_4M_found, sfmmu_suspend_tl,
3635	    tsb_ism_8K)
3636	/* NOT REACHED */
3637
3638tsb_ism_4M_found:
3639	brlz,a,pt %g3, tsb_validtte
3640	  rdpr	%tt, %g7
3641
3642tsb_ism_8K:
3643	/*
3644	 * 8K and 64K hash.
3645	 */
3646
3647	GET_TTE(%g2, %g7, %g3, %g4, %g6, %g1, MMU_PAGESHIFT64K,
3648	    TTE64K, %g5, tsb_ism_l8K, tsb_ism_8K_found, sfmmu_suspend_tl,
3649	    tsb_pagefault)
3650	/* NOT REACHED */
3651
3652tsb_ism_8K_found:
3653	brlz,a,pt %g3, tsb_validtte
3654	  rdpr	%tt, %g7
3655
3656tsb_pagefault:
3657	rdpr	%tt, %g7
3658	cmp	%g7, FAST_PROT_TT
3659	be,a,pn	%icc, tsb_protfault
3660	  wrpr	%g0, FAST_DMMU_MISS_TT, %tt
3661
3662tsb_protfault:
3663	/*
3664	 * we get here if we couldn't find a valid tte in the hash.
3665	 *
3666	 * If user and we are at tl>1 we go to window handling code.
3667	 *
3668	 * If kernel and the fault is on the same page as our stack
3669	 * pointer, then we know the stack is bad and the trap handler
3670	 * will fail, so we call ptl1_panic with PTL1_BAD_STACK.
3671	 *
3672	 * If this is a kernel trap and tl>1, panic.
3673	 *
3674	 * Otherwise we call pagefault.
3675	 */
3676	cmp	%g7, FAST_IMMU_MISS_TT
3677#ifdef sun4v
3678	MMU_FAULT_STATUS_AREA(%g4)
3679	ldx	[%g4 + MMFSA_I_CTX], %g5
3680	ldx	[%g4 + MMFSA_D_CTX], %g4
3681	move	%icc, %g5, %g4
3682	cmp	%g7, T_INSTR_MMU_MISS
3683	move	%icc, %g5, %g4
3684#else
3685	mov	MMU_TAG_ACCESS, %g4
3686	ldxa	[%g4]ASI_DMMU, %g2
3687	ldxa	[%g4]ASI_IMMU, %g5
3688	move	%icc, %g5, %g2
3689	cmp	%g7, T_INSTR_MMU_MISS
3690	move	%icc, %g5, %g2
3691	sllx	%g2, TAGACC_CTX_LSHIFT, %g4
3692#endif /* sun4v */
3693	brnz,pn	%g4, 3f				/* skip if not kernel */
3694	  rdpr	%tl, %g5
3695
3696	add	%sp, STACK_BIAS, %g3
3697	srlx	%g3, MMU_PAGESHIFT, %g3
3698	srlx	%g2, MMU_PAGESHIFT, %g4
3699	cmp	%g3, %g4
3700	be,a,pn	%icc, ptl1_panic		/* panic if bad %sp */
3701	  mov	PTL1_BAD_STACK, %g1
3702
3703	cmp	%g5, 1
3704	ble,pt	%icc, 2f
3705	  nop
3706	TSTAT_CHECK_TL1(2f, %g1, %g2)
3707	rdpr	%tt, %g2
3708	cmp	%g2, FAST_PROT_TT
3709	mov	PTL1_BAD_KPROT_FAULT, %g1
3710	movne	%icc, PTL1_BAD_KMISS, %g1
3711	ba,pt	%icc, ptl1_panic
3712	  nop
3713
37142:
3715	/*
3716	 * We are taking a pagefault in the kernel on a kernel address.  If
3717	 * CPU_DTRACE_NOFAULT is set in the cpuc_dtrace_flags, we don't actually
3718	 * want to call sfmmu_pagefault -- we will instead note that a fault
3719	 * has occurred by setting CPU_DTRACE_BADADDR and issue a "done"
3720	 * (instead of a "retry").  This will step over the faulting
3721	 * instruction.
3722	 */
3723	CPU_INDEX(%g1, %g2)
3724	set	cpu_core, %g2
3725	sllx	%g1, CPU_CORE_SHIFT, %g1
3726	add	%g1, %g2, %g1
3727	lduh	[%g1 + CPUC_DTRACE_FLAGS], %g2
3728	andcc	%g2, CPU_DTRACE_NOFAULT, %g0
3729	bz	sfmmu_pagefault
3730	or	%g2, CPU_DTRACE_BADADDR, %g2
3731	stuh	%g2, [%g1 + CPUC_DTRACE_FLAGS]
3732	GET_MMU_D_ADDR(%g3, %g4)
3733	stx	%g3, [%g1 + CPUC_DTRACE_ILLVAL]
3734	done
3735
37363:
3737	cmp	%g5, 1
3738	ble,pt	%icc, 4f
3739	  nop
3740	TSTAT_CHECK_TL1(4f, %g1, %g2)
3741	ba,pt	%icc, sfmmu_window_trap
3742	  nop
3743
37444:
3745	/*
3746	 * We are taking a pagefault on a non-kernel address.  If we are in
3747	 * the kernel (e.g., due to a copyin()), we will check cpuc_dtrace_flags
3748	 * and (if CPU_DTRACE_NOFAULT is set) will proceed as outlined above.
3749	 */
3750	CPU_INDEX(%g1, %g2)
3751	set	cpu_core, %g2
3752	sllx	%g1, CPU_CORE_SHIFT, %g1
3753	add	%g1, %g2, %g1
3754	lduh	[%g1 + CPUC_DTRACE_FLAGS], %g2
3755	andcc	%g2, CPU_DTRACE_NOFAULT, %g0
3756	bz	sfmmu_mmu_trap
3757	or	%g2, CPU_DTRACE_BADADDR, %g2
3758	stuh	%g2, [%g1 + CPUC_DTRACE_FLAGS]
3759	GET_MMU_D_ADDR(%g3, %g4)
3760	stx	%g3, [%g1 + CPUC_DTRACE_ILLVAL]
3761
3762	/*
3763	 * Be sure that we're actually taking this miss from the kernel --
3764	 * otherwise we have managed to return to user-level with
3765	 * CPU_DTRACE_NOFAULT set in cpuc_dtrace_flags.
3766	 */
3767	rdpr	%tstate, %g2
3768	btst	TSTATE_PRIV, %g2
3769	bz,a	ptl1_panic
3770	  mov	PTL1_BAD_DTRACE_FLAGS, %g1
3771	done
3772
3773	ALTENTRY(tsb_tl0_noctxt)
3774	/*
3775	 * If we have no context, check to see if CPU_DTRACE_NOFAULT is set;
3776	 * if it is, indicated that we have faulted and issue a done.
3777	 */
3778	CPU_INDEX(%g5, %g6)
3779	set	cpu_core, %g6
3780	sllx	%g5, CPU_CORE_SHIFT, %g5
3781	add	%g5, %g6, %g5
3782	lduh	[%g5 + CPUC_DTRACE_FLAGS], %g6
3783	andcc	%g6, CPU_DTRACE_NOFAULT, %g0
3784	bz	1f
3785	or	%g6, CPU_DTRACE_BADADDR, %g6
3786	stuh	%g6, [%g5 + CPUC_DTRACE_FLAGS]
3787	GET_MMU_D_ADDR(%g3, %g4)
3788	stx	%g3, [%g5 + CPUC_DTRACE_ILLVAL]
3789
3790	/*
3791	 * Be sure that we're actually taking this miss from the kernel --
3792	 * otherwise we have managed to return to user-level with
3793	 * CPU_DTRACE_NOFAULT set in cpuc_dtrace_flags.
3794	 */
3795	rdpr	%tstate, %g5
3796	btst	TSTATE_PRIV, %g5
3797	bz,a	ptl1_panic
3798	  mov	PTL1_BAD_DTRACE_FLAGS, %g1
3799	TSTAT_CHECK_TL1(2f, %g1, %g2);
38002:
3801	done
3802
38031:
3804	rdpr	%tt, %g5
3805	cmp	%g5, FAST_IMMU_MISS_TT
3806#ifdef sun4v
3807	MMU_FAULT_STATUS_AREA(%g2)
3808	be,a,pt	%icc, 2f
3809	  ldx	[%g2 + MMFSA_I_CTX], %g3
3810	cmp	%g5, T_INSTR_MMU_MISS
3811	be,a,pt	%icc, 2f
3812	  ldx	[%g2 + MMFSA_I_CTX], %g3
3813	ldx	[%g2 + MMFSA_D_CTX], %g3
38142:
3815#else
3816	mov	MMU_TAG_ACCESS, %g2
3817	be,a,pt	%icc, 2f
3818	  ldxa	[%g2]ASI_IMMU, %g3
3819	ldxa	[%g2]ASI_DMMU, %g3
38202:	sllx	%g3, TAGACC_CTX_LSHIFT, %g3
3821#endif /* sun4v */
3822	brz,a,pn %g3, ptl1_panic		! panic if called for kernel
3823	  mov	PTL1_BAD_CTX_STEAL, %g1		! since kernel ctx was stolen
3824	rdpr	%tl, %g5
3825	cmp	%g5, 1
3826	ble,pt	%icc, sfmmu_mmu_trap
3827	  nop
3828	TSTAT_CHECK_TL1(sfmmu_mmu_trap, %g1, %g2)
3829	ba,pt	%icc, sfmmu_window_trap
3830	  nop
3831	SET_SIZE(sfmmu_tsb_miss)
3832#endif  /* lint */
3833
3834#if defined (lint)
3835/*
3836 * This routine will look for a user or kernel vaddr in the hash
3837 * structure.  It returns a valid pfn or PFN_INVALID.  It doesn't
3838 * grab any locks.  It should only be used by other sfmmu routines.
3839 */
3840/* ARGSUSED */
3841pfn_t
3842sfmmu_vatopfn(caddr_t vaddr, sfmmu_t *sfmmup, tte_t *ttep)
3843{
3844	return(0);
3845}
3846
3847/* ARGSUSED */
3848pfn_t
3849sfmmu_kvaszc2pfn(caddr_t vaddr, int hashno)
3850{
3851	return(0);
3852}
3853
3854#else /* lint */
3855
3856	ENTRY_NP(sfmmu_vatopfn)
3857 	/*
3858 	 * disable interrupts
3859 	 */
3860 	rdpr	%pstate, %o3
3861#ifdef DEBUG
3862	PANIC_IF_INTR_DISABLED_PSTR(%o3, sfmmu_di_l5, %g1)
3863#endif
3864	/*
3865	 * disable interrupts to protect the TSBMISS area
3866	 */
3867	andn    %o3, PSTATE_IE, %o5
3868	wrpr    %o5, 0, %pstate
3869
3870	/*
3871	 * o0 = vaddr
3872	 * o1 = sfmmup
3873	 * o2 = ttep
3874	 */
3875	CPU_TSBMISS_AREA(%g1, %o5)
3876	ldn	[%g1 + TSBMISS_KHATID], %o4
3877	cmp	%o4, %o1
3878	bne,pn	%ncc, vatopfn_nokernel
3879	  mov	TTE64K, %g5			/* g5 = rehash # */
3880	mov %g1,%o5				/* o5 = tsbmiss_area */
3881	/*
3882	 * o0 = vaddr
3883	 * o1 & o4 = hatid
3884	 * o2 = ttep
3885	 * o5 = tsbmiss area
3886	 */
3887	mov	HBLK_RANGE_SHIFT, %g6
38881:
3889
3890	/*
3891	 * o0 = vaddr
3892	 * o1 = sfmmup
3893	 * o2 = ttep
3894	 * o3 = old %pstate
3895	 * o4 = hatid
3896	 * o5 = tsbmiss
3897	 * g5 = rehash #
3898	 * g6 = hmeshift
3899	 *
3900	 * The first arg to GET_TTE is actually tagaccess register
3901	 * not just vaddr. Since this call is for kernel we need to clear
3902	 * any lower vaddr bits that would be interpreted as ctx bits.
3903	 */
3904	set     TAGACC_CTX_MASK, %g1
3905	andn    %o0, %g1, %o0
3906	GET_TTE(%o0, %o4, %g1, %g2, %o5, %g4, %g6, %g5, %g3,
3907		vatopfn_l1, kvtop_hblk_found, tsb_suspend, kvtop_nohblk)
3908
3909kvtop_hblk_found:
3910	/*
3911	 * o0 = vaddr
3912	 * o1 = sfmmup
3913	 * o2 = ttep
3914	 * g1 = tte
3915	 * g2 = tte pa
3916	 * g3 = scratch
3917	 * o2 = tsbmiss area
3918	 * o1 = hat id
3919	 */
3920	brgez,a,pn %g1, 6f			/* if tte invalid goto tl0 */
3921	  mov	-1, %o0				/* output = -1 (PFN_INVALID) */
3922	stx %g1,[%o2]				/* put tte into *ttep */
3923	TTETOPFN(%g1, %o0, vatopfn_l2, %g2, %g3, %g4)
3924	/*
3925	 * o0 = vaddr
3926	 * o1 = sfmmup
3927	 * o2 = ttep
3928	 * g1 = pfn
3929	 */
3930	ba,pt	%xcc, 6f
3931	  mov	%g1, %o0
3932
3933kvtop_nohblk:
3934	/*
3935	 * we get here if we couldn't find valid hblk in hash.  We rehash
3936	 * if neccesary.
3937	 */
3938	ldn	[%o5 + (TSBMISS_SCRATCH + TSB_TAGACC)], %o0
3939#ifdef sun4v
3940	cmp	%g5, MAX_HASHCNT
3941#else
3942	cmp	%g5, DEFAULT_MAX_HASHCNT	/* no 32/256M kernel pages */
3943#endif /* sun4v */
3944	be,a,pn	%icc, 6f
3945	  mov	-1, %o0				/* output = -1 (PFN_INVALID) */
3946	mov	%o1, %o4			/* restore hatid */
3947#ifdef sun4v
3948        add	%g5, 2, %g5
3949	cmp	%g5, 3
3950	move	%icc, MMU_PAGESHIFT4M, %g6
3951	ba,pt	%icc, 1b
3952	movne	%icc, MMU_PAGESHIFT256M, %g6
3953#else
3954        inc	%g5
3955	cmp	%g5, 2
3956	move	%icc, MMU_PAGESHIFT512K, %g6
3957	ba,pt	%icc, 1b
3958	movne	%icc, MMU_PAGESHIFT4M, %g6
3959#endif /* sun4v */
39606:
3961	retl
3962 	  wrpr	%g0, %o3, %pstate		/* re-enable interrupts */
3963
3964tsb_suspend:
3965	/*
3966	 * o0 = vaddr
3967	 * o1 = sfmmup
3968	 * o2 = ttep
3969	 * g1 = tte
3970	 * g2 = tte pa
3971	 * g3 = tte va
3972	 * o2 = tsbmiss area  use o5 instead of o2 for tsbmiss
3973	 */
3974	stx %g1,[%o2]				/* put tte into *ttep */
3975	brgez,a,pn %g1, 8f			/* if tte invalid goto 8: */
3976	  sub	%g0, 1, %o0			/* output = PFN_INVALID */
3977	sub	%g0, 2, %o0			/* output = PFN_SUSPENDED */
39788:
3979	retl
3980	 wrpr	%g0, %o3, %pstate		/* enable interrupts */
3981
3982vatopfn_nokernel:
3983	/*
3984	 * This routine does NOT support user addresses
3985	 * There is a routine in C that supports this.
3986	 * The only reason why we don't have the C routine
3987	 * support kernel addresses as well is because
3988	 * we do va_to_pa while holding the hashlock.
3989	 */
3990 	wrpr	%g0, %o3, %pstate		/* re-enable interrupts */
3991	save	%sp, -SA(MINFRAME), %sp
3992	sethi	%hi(sfmmu_panic3), %o0
3993	call	panic
3994	 or	%o0, %lo(sfmmu_panic3), %o0
3995
3996	SET_SIZE(sfmmu_vatopfn)
3997
3998	/*
3999	 * %o0 = vaddr
4000	 * %o1 = hashno (aka szc)
4001	 *
4002	 *
4003	 * This routine is similar to sfmmu_vatopfn() but will only look for
4004	 * a kernel vaddr in the hash structure for the specified rehash value.
4005	 * It's just an optimization for the case when pagesize for a given
4006	 * va range is already known (e.g. large page heap) and we don't want
4007	 * to start the search with rehash value 1 as sfmmu_vatopfn() does.
4008	 *
4009	 * Returns valid pfn or PFN_INVALID if
4010	 * tte for specified rehash # is not found, invalid or suspended.
4011	 */
4012	ENTRY_NP(sfmmu_kvaszc2pfn)
4013 	/*
4014 	 * disable interrupts
4015 	 */
4016 	rdpr	%pstate, %o3
4017#ifdef DEBUG
4018	PANIC_IF_INTR_DISABLED_PSTR(%o3, sfmmu_di_l6, %g1)
4019#endif
4020	/*
4021	 * disable interrupts to protect the TSBMISS area
4022	 */
4023	andn    %o3, PSTATE_IE, %o5
4024	wrpr    %o5, 0, %pstate
4025
4026	CPU_TSBMISS_AREA(%g1, %o5)
4027	ldn	[%g1 + TSBMISS_KHATID], %o4
4028	sll	%o1, 1, %g6
4029	add	%g6, %o1, %g6
4030	add	%g6, MMU_PAGESHIFT, %g6
4031	/*
4032	 * %o0 = vaddr
4033	 * %o1 = hashno
4034	 * %o3 = old %pstate
4035	 * %o4 = ksfmmup
4036	 * %g1 = tsbmiss area
4037	 * %g6 = hmeshift
4038	 */
4039
4040	/*
4041	 * The first arg to GET_TTE is actually tagaccess register
4042	 * not just vaddr. Since this call is for kernel we need to clear
4043	 * any lower vaddr bits that would be interpreted as ctx bits.
4044	 */
4045	srlx	%o0, MMU_PAGESHIFT, %o0
4046	sllx	%o0, MMU_PAGESHIFT, %o0
4047	GET_TTE(%o0, %o4, %g3, %g4, %g1, %o5, %g6, %o1, %g5,
4048		kvaszc2pfn_l1, kvaszc2pfn_hblk_found, kvaszc2pfn_nohblk,
4049		kvaszc2pfn_nohblk)
4050
4051kvaszc2pfn_hblk_found:
4052	/*
4053	 * %g3 = tte
4054	 * %o0 = vaddr
4055	 */
4056	brgez,a,pn %g3, 1f			/* check if tte is invalid */
4057	  mov	-1, %o0				/* output = -1 (PFN_INVALID) */
4058	TTETOPFN(%g3, %o0, kvaszc2pfn_l2, %g2, %g4, %g5)
4059	/*
4060	 * g3 = pfn
4061	 */
4062	ba,pt	%xcc, 1f
4063	  mov	%g3, %o0
4064
4065kvaszc2pfn_nohblk:
4066	mov	-1, %o0
4067
40681:
4069	retl
4070 	  wrpr	%g0, %o3, %pstate		/* re-enable interrupts */
4071
4072	SET_SIZE(sfmmu_kvaszc2pfn)
4073
4074#endif /* lint */
4075
4076
4077
4078#if !defined(lint)
4079
4080/*
4081 * kpm lock used between trap level tsbmiss handler and kpm C level.
4082 */
4083#define KPMLOCK_ENTER(kpmlckp, tmp1, label1, asi)			\
4084	mov     0xff, tmp1						;\
4085label1:									;\
4086	casa    [kpmlckp]asi, %g0, tmp1					;\
4087	brnz,pn tmp1, label1						;\
4088	mov     0xff, tmp1						;\
4089	membar  #LoadLoad
4090
4091#define KPMLOCK_EXIT(kpmlckp, asi)					\
4092	membar  #LoadStore|#StoreStore					;\
4093	sta     %g0, [kpmlckp]asi
4094
4095/*
4096 * Lookup a memseg for a given pfn and if found, return the physical
4097 * address of the corresponding struct memseg in mseg, otherwise
4098 * return MSEG_NULLPTR_PA. The kpmtsbm pointer must be provided in
4099 * tsbmp, %asi is assumed to be ASI_MEM.
4100 * This lookup is done by strictly traversing only the physical memseg
4101 * linkage. The more generic approach, to check the virtual linkage
4102 * before using the physical (used e.g. with hmehash buckets), cannot
4103 * be used here. Memory DR operations can run in parallel to this
4104 * lookup w/o any locks and updates of the physical and virtual linkage
4105 * cannot be done atomically wrt. to each other. Because physical
4106 * address zero can be valid physical address, MSEG_NULLPTR_PA acts
4107 * as "physical NULL" pointer.
4108 */
4109#define	PAGE_NUM2MEMSEG_NOLOCK_PA(pfn, mseg, tsbmp, tmp1, tmp2, tmp3, label) \
4110	sethi	%hi(mhash_per_slot), tmp3 /* no tsbmp use due to DR */	;\
4111	ldx	[tmp3 + %lo(mhash_per_slot)], mseg			;\
4112	udivx	pfn, mseg, mseg						;\
4113	ldx	[tsbmp + KPMTSBM_MSEGPHASHPA], tmp1			;\
4114	and	mseg, SFMMU_N_MEM_SLOTS - 1, mseg			;\
4115	sllx	mseg, SFMMU_MEM_HASH_ENTRY_SHIFT, mseg			;\
4116	add	tmp1, mseg, tmp1					;\
4117	ldxa	[tmp1]%asi, mseg					;\
4118	cmp	mseg, MSEG_NULLPTR_PA					;\
4119	be,pn	%xcc, label/**/1		/* if not found */	;\
4120	  nop								;\
4121	ldxa	[mseg + MEMSEG_PAGES_BASE]%asi, tmp1			;\
4122	cmp	pfn, tmp1			/* pfn - pages_base */	;\
4123	blu,pn	%xcc, label/**/1					;\
4124	  ldxa	[mseg + MEMSEG_PAGES_END]%asi, tmp2			;\
4125	cmp	pfn, tmp2			/* pfn - pages_end */	;\
4126	bgeu,pn	%xcc, label/**/1					;\
4127	  sub	pfn, tmp1, tmp1			/* pfn - pages_base */	;\
4128	mulx	tmp1, PAGE_SIZE, tmp1					;\
4129	ldxa	[mseg + MEMSEG_PAGESPA]%asi, tmp2	/* pages */	;\
4130	add	tmp2, tmp1, tmp1			/* pp */	;\
4131	lduwa	[tmp1 + PAGE_PAGENUM]%asi, tmp2				;\
4132	cmp	tmp2, pfn						;\
4133	be,pt	%xcc, label/**/_ok			/* found */	;\
4134label/**/1:								;\
4135	/* brute force lookup */					;\
4136	sethi	%hi(memsegspa), tmp3 /* no tsbmp use due to DR */	;\
4137	ldx	[tmp3 + %lo(memsegspa)], mseg				;\
4138label/**/2:								;\
4139	cmp	mseg, MSEG_NULLPTR_PA					;\
4140	be,pn	%xcc, label/**/_ok		/* if not found */	;\
4141	  nop								;\
4142	ldxa	[mseg + MEMSEG_PAGES_BASE]%asi, tmp1			;\
4143	cmp	pfn, tmp1			/* pfn - pages_base */	;\
4144	blu,a,pt %xcc, label/**/2					;\
4145	  ldxa	[mseg + MEMSEG_NEXTPA]%asi, mseg			;\
4146	ldxa	[mseg + MEMSEG_PAGES_END]%asi, tmp2			;\
4147	cmp	pfn, tmp2			/* pfn - pages_end */	;\
4148	bgeu,a,pt %xcc, label/**/2					;\
4149	  ldxa	[mseg + MEMSEG_NEXTPA]%asi, mseg			;\
4150label/**/_ok:
4151
4152	/*
4153	 * kpm tsb miss handler large pages
4154	 * g1 = 8K kpm TSB entry pointer
4155	 * g2 = tag access register
4156	 * g3 = 4M kpm TSB entry pointer
4157	 */
4158	ALTENTRY(sfmmu_kpm_dtsb_miss)
4159	TT_TRACE(trace_tsbmiss)
4160
4161	CPU_INDEX(%g7, %g6)
4162	sethi	%hi(kpmtsbm_area), %g6
4163	sllx	%g7, KPMTSBM_SHIFT, %g7
4164	or	%g6, %lo(kpmtsbm_area), %g6
4165	add	%g6, %g7, %g6			/* g6 = kpmtsbm ptr */
4166
4167	/* check enable flag */
4168	ldub	[%g6 + KPMTSBM_FLAGS], %g4
4169	and	%g4, KPMTSBM_ENABLE_FLAG, %g5
4170	brz,pn	%g5, sfmmu_tsb_miss		/* if kpm not enabled */
4171	  nop
4172
4173	/* VA range check */
4174	ldx	[%g6 + KPMTSBM_VBASE], %g7
4175	cmp	%g2, %g7
4176	blu,pn	%xcc, sfmmu_tsb_miss
4177	  ldx	[%g6 + KPMTSBM_VEND], %g5
4178	cmp	%g2, %g5
4179	bgeu,pn	%xcc, sfmmu_tsb_miss
4180	  stx	%g3, [%g6 + KPMTSBM_TSBPTR]
4181
4182	/*
4183	 * check TL tsbmiss handling flag
4184	 * bump tsbmiss counter
4185	 */
4186	lduw	[%g6 + KPMTSBM_TSBMISS], %g5
4187#ifdef	DEBUG
4188	and	%g4, KPMTSBM_TLTSBM_FLAG, %g3
4189	inc	%g5
4190	brz,pn	%g3, sfmmu_kpm_exception
4191	  st	%g5, [%g6 + KPMTSBM_TSBMISS]
4192#else
4193	inc	%g5
4194	st	%g5, [%g6 + KPMTSBM_TSBMISS]
4195#endif
4196	/*
4197	 * At this point:
4198	 *  g1 = 8K kpm TSB pointer (not used)
4199	 *  g2 = tag access register
4200	 *  g3 = clobbered
4201	 *  g6 = per-CPU kpm tsbmiss area
4202	 *  g7 = kpm_vbase
4203	 */
4204
4205	/* vaddr2pfn */
4206	ldub	[%g6 + KPMTSBM_SZSHIFT], %g3
4207	sub	%g2, %g7, %g4			/* paddr = vaddr-kpm_vbase */
4208	srax    %g4, %g3, %g2			/* which alias range (r) */
4209	brnz,pn	%g2, sfmmu_kpm_exception	/* if (r != 0) goto C handler */
4210	  srlx	%g4, MMU_PAGESHIFT, %g2		/* %g2 = pfn */
4211
4212	/*
4213	 * Setup %asi
4214	 * mseg_pa = page_numtomemseg_nolock(pfn)
4215	 * if (mseg_pa == NULL) sfmmu_kpm_exception
4216	 * g2=pfn
4217	 */
4218	mov	ASI_MEM, %asi
4219	PAGE_NUM2MEMSEG_NOLOCK_PA(%g2, %g3, %g6, %g4, %g5, %g7, kpmtsbmp2m)
4220	cmp	%g3, MSEG_NULLPTR_PA
4221	be,pn	%xcc, sfmmu_kpm_exception	/* if mseg not found */
4222	  nop
4223
4224	/*
4225	 * inx = ptokpmp((kpmptop((ptopkpmp(pfn))) - mseg_pa->kpm_pbase));
4226	 * g2=pfn g3=mseg_pa
4227	 */
4228	ldub	[%g6 + KPMTSBM_KPMP2PSHFT], %g5
4229	ldxa	[%g3 + MEMSEG_KPM_PBASE]%asi, %g7
4230	srlx	%g2, %g5, %g4
4231	sllx	%g4, %g5, %g4
4232	sub	%g4, %g7, %g4
4233	srlx	%g4, %g5, %g4
4234
4235	/*
4236	 * Validate inx value
4237	 * g2=pfn g3=mseg_pa g4=inx
4238	 */
4239#ifdef	DEBUG
4240	ldxa	[%g3 + MEMSEG_KPM_NKPMPGS]%asi, %g5
4241	cmp	%g4, %g5			/* inx - nkpmpgs */
4242	bgeu,pn	%xcc, sfmmu_kpm_exception	/* if out of range */
4243	  ld	[%g6 + KPMTSBM_KPMPTABLESZ], %g7
4244#else
4245	ld	[%g6 + KPMTSBM_KPMPTABLESZ], %g7
4246#endif
4247	/*
4248	 * kp = &mseg_pa->kpm_pages[inx]
4249	 */
4250	sllx	%g4, KPMPAGE_SHIFT, %g4		/* kpm_pages offset */
4251	ldxa	[%g3 + MEMSEG_KPM_PAGES]%asi, %g5 /* kpm_pages */
4252	add	%g5, %g4, %g5			/* kp */
4253
4254	/*
4255	 * KPMP_HASH(kp)
4256	 * g2=pfn g3=mseg_pa g4=offset g5=kp g7=kpmp_table_sz
4257	 */
4258	ldub	[%g6 + KPMTSBM_KPMPSHIFT], %g1	/* kpmp_shift */
4259	sub	%g7, 1, %g7			/* mask */
4260	srlx	%g5, %g1, %g1			/* x = ksp >> kpmp_shift */
4261	add	%g5, %g1, %g5			/* y = ksp + x */
4262	and 	%g5, %g7, %g5			/* hashinx = y & mask */
4263
4264	/*
4265	 * Calculate physical kpm_page pointer
4266	 * g2=pfn g3=mseg_pa g4=offset g5=hashinx
4267	 */
4268	ldxa	[%g3 + MEMSEG_KPM_PAGESPA]%asi, %g1 /* kpm_pagespa */
4269	add	%g1, %g4, %g1			/* kp_pa */
4270
4271	/*
4272	 * Calculate physical hash lock address
4273	 * g1=kp_refcntc_pa g2=pfn g5=hashinx
4274	 */
4275	ldx	[%g6 + KPMTSBM_KPMPTABLEPA], %g4 /* kpmp_tablepa */
4276	sllx	%g5, KPMHLK_SHIFT, %g5
4277	add	%g4, %g5, %g3
4278	add	%g3, KPMHLK_LOCK, %g3		/* hlck_pa */
4279
4280	/*
4281	 * Assemble tte
4282	 * g1=kp_pa g2=pfn g3=hlck_pa
4283	 */
4284#ifdef sun4v
4285	sethi	%hi(TTE_VALID_INT), %g5		/* upper part */
4286	sllx	%g5, 32, %g5
4287	mov	(TTE_CP_INT|TTE_CV_INT|TTE_PRIV_INT|TTE_HWWR_INT), %g4
4288	or	%g4, TTE4M, %g4
4289	or	%g5, %g4, %g5
4290#else
4291	sethi	%hi(TTE_VALID_INT), %g4
4292	mov	TTE4M, %g5
4293	sllx	%g5, TTE_SZ_SHFT_INT, %g5
4294	or	%g5, %g4, %g5			/* upper part */
4295	sllx	%g5, 32, %g5
4296	mov	(TTE_CP_INT|TTE_CV_INT|TTE_PRIV_INT|TTE_HWWR_INT), %g4
4297	or	%g5, %g4, %g5
4298#endif
4299	sllx	%g2, MMU_PAGESHIFT, %g4
4300	or	%g5, %g4, %g5			/* tte */
4301	ldx	[%g6 + KPMTSBM_TSBPTR], %g4
4302	GET_MMU_D_TTARGET(%g2, %g7)		/* %g2 = ttarget */
4303
4304	/*
4305	 * tsb dropin
4306	 * g1=kp_pa g2=ttarget g3=hlck_pa g4=kpmtsbp4m g5=tte g6=kpmtsbm_area
4307	 */
4308
4309	/* KPMLOCK_ENTER(kpmlckp, tmp1, label1, asi) */
4310	KPMLOCK_ENTER(%g3, %g7, kpmtsbmhdlr1, ASI_MEM)
4311
4312	/* use C-handler if there's no go for dropin */
4313	ldsha	[%g1 + KPMPAGE_REFCNTC]%asi, %g7 /* kp_refcntc */
4314	cmp	%g7, -1
4315	bne,pn	%xcc, 5f	/* use C-handler if there's no go for dropin */
4316	  nop
4317
4318#ifdef	DEBUG
4319	/* double check refcnt */
4320	ldsha	[%g1 + KPMPAGE_REFCNT]%asi, %g7
4321	brz,pn	%g7, 5f			/* let C-handler deal with this */
4322	  nop
4323#endif
4324
4325#ifndef sun4v
4326	ldub	[%g6 + KPMTSBM_FLAGS], %g7
4327	mov	ASI_N, %g1
4328	andcc	%g7, KPMTSBM_TSBPHYS_FLAG, %g0
4329	movnz	%icc, ASI_MEM, %g1
4330	mov	%g1, %asi
4331#endif
4332
4333	/*
4334	 * TSB_LOCK_ENTRY(tsbp, tmp1, tmp2, label) (needs %asi set)
4335	 * If we fail to lock the TSB entry then just load the tte into the
4336	 * TLB.
4337	 */
4338	TSB_LOCK_ENTRY(%g4, %g1, %g7, locked_tsb_l1)
4339
4340	/* TSB_INSERT_UNLOCK_ENTRY(tsbp, tte, tagtarget, tmp) */
4341	TSB_INSERT_UNLOCK_ENTRY(%g4, %g5, %g2, %g7)
4342locked_tsb_l1:
4343	DTLB_STUFF(%g5, %g1, %g2, %g4, %g6)
4344
4345	/* KPMLOCK_EXIT(kpmlckp, asi) */
4346	KPMLOCK_EXIT(%g3, ASI_MEM)
4347
4348	/*
4349	 * If trapstat is running, we need to shift the %tpc and %tnpc to
4350	 * point to trapstat's TSB miss return code (note that trapstat
4351	 * itself will patch the correct offset to add).
4352	 * Note: TTE is expected in %g5 (allows per pagesize reporting).
4353	 */
4354	rdpr	%tl, %g7
4355	cmp	%g7, 1
4356	ble	%icc, 0f
4357	sethi	%hi(KERNELBASE), %g6
4358	rdpr	%tpc, %g7
4359	or	%g6, %lo(KERNELBASE), %g6
4360	cmp	%g7, %g6
4361	bgeu	%xcc, 0f
4362	ALTENTRY(tsbmiss_trapstat_patch_point_kpm)
4363	add	%g7, RUNTIME_PATCH, %g7	/* must match TSTAT_TSBMISS_INSTR */
4364	wrpr	%g7, %tpc
4365	add	%g7, 4, %g7
4366	wrpr	%g7, %tnpc
43670:
4368	retry
43695:
4370	/* g3=hlck_pa */
4371	KPMLOCK_EXIT(%g3, ASI_MEM)
4372	ba,pt	%icc, sfmmu_kpm_exception
4373	  nop
4374	SET_SIZE(sfmmu_kpm_dtsb_miss)
4375
4376	/*
4377	 * kpm tsbmiss handler for smallpages
4378	 * g1 = 8K kpm TSB pointer
4379	 * g2 = tag access register
4380	 * g3 = 4M kpm TSB pointer
4381	 */
4382	ALTENTRY(sfmmu_kpm_dtsb_miss_small)
4383	TT_TRACE(trace_tsbmiss)
4384	CPU_INDEX(%g7, %g6)
4385	sethi	%hi(kpmtsbm_area), %g6
4386	sllx	%g7, KPMTSBM_SHIFT, %g7
4387	or	%g6, %lo(kpmtsbm_area), %g6
4388	add	%g6, %g7, %g6			/* g6 = kpmtsbm ptr */
4389
4390	/* check enable flag */
4391	ldub	[%g6 + KPMTSBM_FLAGS], %g4
4392	and	%g4, KPMTSBM_ENABLE_FLAG, %g5
4393	brz,pn	%g5, sfmmu_tsb_miss		/* if kpm not enabled */
4394	  nop
4395
4396	/*
4397	 * VA range check
4398	 * On fail: goto sfmmu_tsb_miss
4399	 */
4400	ldx	[%g6 + KPMTSBM_VBASE], %g7
4401	cmp	%g2, %g7
4402	blu,pn	%xcc, sfmmu_tsb_miss
4403	  ldx	[%g6 + KPMTSBM_VEND], %g5
4404	cmp	%g2, %g5
4405	bgeu,pn	%xcc, sfmmu_tsb_miss
4406	  stx	%g1, [%g6 + KPMTSBM_TSBPTR]	/* save 8K kpm TSB pointer */
4407
4408	/*
4409	 * check TL tsbmiss handling flag
4410	 * bump tsbmiss counter
4411	 */
4412	lduw	[%g6 + KPMTSBM_TSBMISS], %g5
4413#ifdef	DEBUG
4414	and	%g4, KPMTSBM_TLTSBM_FLAG, %g1
4415	inc	%g5
4416	brz,pn	%g1, sfmmu_kpm_exception
4417	  st	%g5, [%g6 + KPMTSBM_TSBMISS]
4418#else
4419	inc	%g5
4420	st	%g5, [%g6 + KPMTSBM_TSBMISS]
4421#endif
4422	/*
4423	 * At this point:
4424	 *  g1 = clobbered
4425	 *  g2 = tag access register
4426	 *  g3 = 4M kpm TSB pointer (not used)
4427	 *  g6 = per-CPU kpm tsbmiss area
4428	 *  g7 = kpm_vbase
4429	 */
4430
4431	/*
4432	 * Assembly implementation of SFMMU_KPM_VTOP(vaddr, paddr)
4433	 * which is defined in mach_kpm.h. Any changes in that macro
4434	 * should also be ported back to this assembly code.
4435	 */
4436	ldub	[%g6 + KPMTSBM_SZSHIFT], %g3	/* g3 = kpm_size_shift */
4437	sub	%g2, %g7, %g4			/* paddr = vaddr-kpm_vbase */
4438	srax    %g4, %g3, %g7			/* which alias range (r) */
4439	brz,pt	%g7, 2f
4440	  sethi   %hi(vac_colors_mask), %g5
4441	ld	[%g5 + %lo(vac_colors_mask)], %g5
4442
4443	srlx	%g2, MMU_PAGESHIFT, %g1		/* vaddr >> MMU_PAGESHIFT */
4444	and	%g1, %g5, %g1			/* g1 = v */
4445	sllx	%g7, %g3, %g5			/* g5 = r << kpm_size_shift */
4446	cmp	%g7, %g1			/* if (r > v) */
4447	bleu,pn %xcc, 1f
4448	  sub   %g4, %g5, %g4			/* paddr -= r << kpm_size_shift */
4449	sub	%g7, %g1, %g5			/* g5 = r - v */
4450	sllx	%g5, MMU_PAGESHIFT, %g7		/* (r-v) << MMU_PAGESHIFT */
4451	add	%g4, %g7, %g4			/* paddr += (r-v)<<MMU_PAGESHIFT */
4452	ba	2f
4453	  nop
44541:
4455	sllx	%g7, MMU_PAGESHIFT, %g5		/* else */
4456	sub	%g4, %g5, %g4			/* paddr -= r << MMU_PAGESHIFT */
4457
4458	/*
4459	 * paddr2pfn
4460	 *  g1 = vcolor (not used)
4461	 *  g2 = tag access register
4462	 *  g3 = clobbered
4463	 *  g4 = paddr
4464	 *  g5 = clobbered
4465	 *  g6 = per-CPU kpm tsbmiss area
4466	 *  g7 = clobbered
4467	 */
44682:
4469	srlx	%g4, MMU_PAGESHIFT, %g2		/* g2 = pfn */
4470
4471	/*
4472	 * Setup %asi
4473	 * mseg_pa = page_numtomemseg_nolock_pa(pfn)
4474	 * if (mseg not found) sfmmu_kpm_exception
4475	 * g2=pfn g6=per-CPU kpm tsbmiss area
4476	 * g4 g5 g7 for scratch use.
4477	 */
4478	mov	ASI_MEM, %asi
4479	PAGE_NUM2MEMSEG_NOLOCK_PA(%g2, %g3, %g6, %g4, %g5, %g7, kpmtsbmsp2m)
4480	cmp	%g3, MSEG_NULLPTR_PA
4481	be,pn	%xcc, sfmmu_kpm_exception	/* if mseg not found */
4482	  nop
4483
4484	/*
4485	 * inx = pfn - mseg_pa->kpm_pbase
4486	 * g2=pfn  g3=mseg_pa  g6=per-CPU kpm tsbmiss area
4487	 */
4488	ldxa	[%g3 + MEMSEG_KPM_PBASE]%asi, %g7
4489	sub	%g2, %g7, %g4
4490
4491#ifdef	DEBUG
4492	/*
4493	 * Validate inx value
4494	 * g2=pfn g3=mseg_pa g4=inx g6=per-CPU tsbmiss area
4495	 */
4496	ldxa	[%g3 + MEMSEG_KPM_NKPMPGS]%asi, %g5
4497	cmp	%g4, %g5			/* inx - nkpmpgs */
4498	bgeu,pn	%xcc, sfmmu_kpm_exception	/* if out of range */
4499	  ld	[%g6 + KPMTSBM_KPMPTABLESZ], %g7
4500#else
4501	ld	[%g6 + KPMTSBM_KPMPTABLESZ], %g7
4502#endif
4503	/* ksp = &mseg_pa->kpm_spages[inx] */
4504	ldxa	[%g3 + MEMSEG_KPM_SPAGES]%asi, %g5
4505	add	%g5, %g4, %g5			/* ksp */
4506
4507	/*
4508	 * KPMP_SHASH(kp)
4509	 * g2=pfn g3=mseg_pa g4=inx g5=ksp
4510	 * g6=per-CPU kpm tsbmiss area  g7=kpmp_stable_sz
4511	 */
4512	ldub	[%g6 + KPMTSBM_KPMPSHIFT], %g1	/* kpmp_shift */
4513	sub	%g7, 1, %g7			/* mask */
4514	sllx	%g5, %g1, %g1			/* x = ksp << kpmp_shift */
4515	add	%g5, %g1, %g5			/* y = ksp + x */
4516	and 	%g5, %g7, %g5			/* hashinx = y & mask */
4517
4518	/*
4519	 * Calculate physical kpm_spage pointer
4520	 * g2=pfn g3=mseg_pa g4=offset g5=hashinx
4521	 * g6=per-CPU kpm tsbmiss area
4522	 */
4523	ldxa	[%g3 + MEMSEG_KPM_PAGESPA]%asi, %g1 /* kpm_spagespa */
4524	add	%g1, %g4, %g1			/* ksp_pa */
4525
4526	/*
4527	 * Calculate physical hash lock address.
4528	 * Note: Changes in kpm_shlk_t must be reflected here.
4529	 * g1=ksp_pa g2=pfn g5=hashinx
4530	 * g6=per-CPU kpm tsbmiss area
4531	 */
4532	ldx	[%g6 + KPMTSBM_KPMPTABLEPA], %g4 /* kpmp_stablepa */
4533	sllx	%g5, KPMSHLK_SHIFT, %g5
4534	add	%g4, %g5, %g3			/* hlck_pa */
4535
4536	/*
4537	 * Assemble non-cacheable tte initially
4538	 * g1=ksp_pa g2=pfn g3=hlck_pa
4539	 * g6=per-CPU kpm tsbmiss area
4540	 */
4541	sethi	%hi(TTE_VALID_INT), %g5		/* upper part */
4542	sllx	%g5, 32, %g5
4543	mov	(TTE_CP_INT|TTE_PRIV_INT|TTE_HWWR_INT), %g4
4544	or	%g5, %g4, %g5
4545	sllx	%g2, MMU_PAGESHIFT, %g4
4546	or	%g5, %g4, %g5			/* tte */
4547	ldx	[%g6 + KPMTSBM_TSBPTR], %g4
4548	GET_MMU_D_TTARGET(%g2, %g7)		/* %g2 = ttarget */
4549
4550	/*
4551	 * tsb dropin
4552	 * g1=ksp_pa g2=ttarget g3=hlck_pa g4=ktsbp g5=tte (non-cacheable)
4553	 * g6=per-CPU kpm tsbmiss area  g7=scratch register
4554	 */
4555
4556	/* KPMLOCK_ENTER(kpmlckp, tmp1, label1, asi) */
4557	KPMLOCK_ENTER(%g3, %g7, kpmtsbsmlock, ASI_MEM)
4558
4559	/* use C-handler if there's no go for dropin */
4560	ldsba	[%g1 + KPMSPAGE_MAPPED]%asi, %g7	/* kp_mapped */
4561	andcc	%g7, KPM_MAPPED_GO, %g0			/* go or no go ? */
4562	bz,pt	%icc, 5f				/* no go */
4563	  nop
4564	and	%g7, KPM_MAPPED_MASK, %g7		/* go */
4565	cmp	%g7, KPM_MAPPEDS			/* cacheable ? */
4566	be,a,pn	%xcc, 3f
4567	  or	%g5, TTE_CV_INT, %g5			/* cacheable */
45683:
4569#ifndef sun4v
4570	ldub	[%g6 + KPMTSBM_FLAGS], %g7
4571	mov	ASI_N, %g1
4572	andcc	%g7, KPMTSBM_TSBPHYS_FLAG, %g0
4573	movnz	%icc, ASI_MEM, %g1
4574	mov	%g1, %asi
4575#endif
4576
4577	/*
4578	 * TSB_LOCK_ENTRY(tsbp, tmp1, tmp2, label) (needs %asi set)
4579	 * If we fail to lock the TSB entry then just load the tte into the
4580	 * TLB.
4581	 */
4582	TSB_LOCK_ENTRY(%g4, %g1, %g7, locked_tsb_l2)
4583
4584	/* TSB_INSERT_UNLOCK_ENTRY(tsbp, tte, tagtarget, tmp) */
4585	TSB_INSERT_UNLOCK_ENTRY(%g4, %g5, %g2, %g7)
4586locked_tsb_l2:
4587	DTLB_STUFF(%g5, %g2, %g4, %g5, %g6)
4588
4589	/* KPMLOCK_EXIT(kpmlckp, asi) */
4590	KPMLOCK_EXIT(%g3, ASI_MEM)
4591
4592	/*
4593	 * If trapstat is running, we need to shift the %tpc and %tnpc to
4594	 * point to trapstat's TSB miss return code (note that trapstat
4595	 * itself will patch the correct offset to add).
4596	 * Note: TTE is expected in %g5 (allows per pagesize reporting).
4597	 */
4598	rdpr	%tl, %g7
4599	cmp	%g7, 1
4600	ble	%icc, 0f
4601	sethi	%hi(KERNELBASE), %g6
4602	rdpr	%tpc, %g7
4603	or	%g6, %lo(KERNELBASE), %g6
4604	cmp	%g7, %g6
4605	bgeu	%xcc, 0f
4606	ALTENTRY(tsbmiss_trapstat_patch_point_kpm_small)
4607	add	%g7, RUNTIME_PATCH, %g7	/* must match TSTAT_TSBMISS_INSTR */
4608	wrpr	%g7, %tpc
4609	add	%g7, 4, %g7
4610	wrpr	%g7, %tnpc
46110:
4612	retry
46135:
4614	/* g3=hlck_pa */
4615	KPMLOCK_EXIT(%g3, ASI_MEM)
4616	ba,pt	%icc, sfmmu_kpm_exception
4617	  nop
4618	SET_SIZE(sfmmu_kpm_dtsb_miss_small)
4619
4620#if (1<< KPMTSBM_SHIFT) != KPMTSBM_SIZE
4621#error - KPMTSBM_SHIFT does not correspond to size of kpmtsbm struct
4622#endif
4623
4624#endif /* lint */
4625
4626#ifdef	lint
4627/*
4628 * Enable/disable tsbmiss handling at trap level for a kpm (large) page.
4629 * Called from C-level, sets/clears "go" indication for trap level handler.
4630 * khl_lock is a low level spin lock to protect the kp_tsbmtl field.
4631 * Assumed that &kp->kp_refcntc is checked for zero or -1 at C-level.
4632 * Assumes khl_mutex is held when called from C-level.
4633 */
4634/* ARGSUSED */
4635void
4636sfmmu_kpm_tsbmtl(short *kp_refcntc, uint_t *khl_lock, int cmd)
4637{
4638}
4639
4640/*
4641 * kpm_smallpages: stores val to byte at address mapped within
4642 * low level lock brackets. The old value is returned.
4643 * Called from C-level.
4644 */
4645/* ARGSUSED */
4646int
4647sfmmu_kpm_stsbmtl(uchar_t *mapped, uint_t *kshl_lock, int val)
4648{
4649	return (0);
4650}
4651
4652#else /* lint */
4653
4654	.seg	".data"
4655sfmmu_kpm_tsbmtl_panic:
4656	.ascii	"sfmmu_kpm_tsbmtl: interrupts disabled"
4657	.byte	0
4658sfmmu_kpm_stsbmtl_panic:
4659	.ascii	"sfmmu_kpm_stsbmtl: interrupts disabled"
4660	.byte	0
4661	.align	4
4662	.seg	".text"
4663
4664	ENTRY_NP(sfmmu_kpm_tsbmtl)
4665	rdpr	%pstate, %o3
4666	/*
4667	 * %o0 = &kp_refcntc
4668	 * %o1 = &khl_lock
4669	 * %o2 = 0/1 (off/on)
4670	 * %o3 = pstate save
4671	 */
4672#ifdef DEBUG
4673	andcc	%o3, PSTATE_IE, %g0		/* if interrupts already */
4674	bnz,pt %icc, 1f				/* disabled, panic	 */
4675	  nop
4676	save	%sp, -SA(MINFRAME), %sp
4677	sethi	%hi(sfmmu_kpm_tsbmtl_panic), %o0
4678	call	panic
4679	 or	%o0, %lo(sfmmu_kpm_tsbmtl_panic), %o0
4680	ret
4681	restore
46821:
4683#endif /* DEBUG */
4684	wrpr	%o3, PSTATE_IE, %pstate		/* disable interrupts */
4685
4686	KPMLOCK_ENTER(%o1, %o4, kpmtsbmtl1, ASI_N)
4687	mov	-1, %o5
4688	brz,a	%o2, 2f
4689	  mov	0, %o5
46902:
4691	sth	%o5, [%o0]
4692	KPMLOCK_EXIT(%o1, ASI_N)
4693
4694	retl
4695	  wrpr	%g0, %o3, %pstate		/* enable interrupts */
4696	SET_SIZE(sfmmu_kpm_tsbmtl)
4697
4698	ENTRY_NP(sfmmu_kpm_stsbmtl)
4699	rdpr	%pstate, %o3
4700	/*
4701	 * %o0 = &mapped
4702	 * %o1 = &kshl_lock
4703	 * %o2 = val
4704	 * %o3 = pstate save
4705	 */
4706#ifdef DEBUG
4707	andcc	%o3, PSTATE_IE, %g0		/* if interrupts already */
4708	bnz,pt %icc, 1f				/* disabled, panic	 */
4709	  nop
4710	save	%sp, -SA(MINFRAME), %sp
4711	sethi	%hi(sfmmu_kpm_stsbmtl_panic), %o0
4712	call	panic
4713	  or	%o0, %lo(sfmmu_kpm_stsbmtl_panic), %o0
4714	ret
4715	restore
47161:
4717#endif /* DEBUG */
4718	wrpr	%o3, PSTATE_IE, %pstate		/* disable interrupts */
4719
4720	KPMLOCK_ENTER(%o1, %o4, kpmstsbmtl1, ASI_N)
4721	ldsb	[%o0], %o5
4722	stb	%o2, [%o0]
4723	KPMLOCK_EXIT(%o1, ASI_N)
4724
4725	and	%o5, KPM_MAPPED_MASK, %o0	/* return old val */
4726	retl
4727	  wrpr	%g0, %o3, %pstate		/* enable interrupts */
4728	SET_SIZE(sfmmu_kpm_stsbmtl)
4729
4730#endif /* lint */
4731
4732#ifndef lint
4733#ifdef sun4v
4734	/*
4735	 * User/kernel data miss w// multiple TSBs
4736	 * The first probe covers 8K, 64K, and 512K page sizes,
4737	 * because 64K and 512K mappings are replicated off 8K
4738	 * pointer.  Second probe covers 4M page size only.
4739	 *
4740	 * MMU fault area contains miss address and context.
4741	 */
4742	ALTENTRY(sfmmu_slow_dmmu_miss)
4743	GET_MMU_D_PTAGACC_CTXTYPE(%g2, %g3)	! %g2 = ptagacc, %g3 = ctx type
4744
4745slow_miss_common:
4746	/*
4747	 *  %g2 = tagacc register (needed for sfmmu_tsb_miss_tt)
4748	 *  %g3 = ctx (cannot be INVALID_CONTEXT)
4749	 */
4750	brnz,pt	%g3, 8f			! check for user context
4751	  nop
4752
4753	/*
4754	 * Kernel miss
4755	 * Get 8K and 4M TSB pointers in %g1 and %g3 and
4756	 * branch to sfmmu_tsb_miss_tt to handle it.
4757	 */
4758	mov	%g2, %g7		! TSB pointer macro clobbers tagacc
4759sfmmu_dslow_patch_ktsb_base:
4760	RUNTIME_PATCH_SETX(%g1, %g6)	! %g1 = contents of ktsb_pbase
4761sfmmu_dslow_patch_ktsb_szcode:
4762	or	%g0, RUNTIME_PATCH, %g3	! ktsb_szcode (hot patched)
4763
4764	GET_TSBE_POINTER(MMU_PAGESHIFT, %g1, %g7, %g3, %g5)
4765	! %g1 = First TSB entry pointer, as TSB miss handler expects
4766
4767	mov	%g2, %g7		! TSB pointer macro clobbers tagacc
4768sfmmu_dslow_patch_ktsb4m_base:
4769	RUNTIME_PATCH_SETX(%g3, %g6)	! %g3 = contents of ktsb4m_pbase
4770sfmmu_dslow_patch_ktsb4m_szcode:
4771	or	%g0, RUNTIME_PATCH, %g6	! ktsb4m_szcode (hot patched)
4772
4773	GET_TSBE_POINTER(MMU_PAGESHIFT4M, %g3, %g7, %g6, %g5)
4774	! %g3 = 4M tsb entry pointer, as TSB miss handler expects
4775	ba,a,pt	%xcc, sfmmu_tsb_miss_tt
4776	.empty
4777
47788:
4779	/*
4780	 * User miss
4781	 * Get first TSB pointer in %g1
4782	 * Get second TSB pointer (or NULL if no second TSB) in %g3
4783	 * Branch to sfmmu_tsb_miss_tt to handle it
4784	 */
4785	GET_1ST_TSBE_PTR(%g2, %g1, %g4, %g5)
4786	/* %g1 = first TSB entry ptr now, %g2 preserved */
4787
4788	GET_UTSBREG(SCRATCHPAD_UTSBREG2, %g3)	/* get 2nd utsbreg */
4789	brlz,pt %g3, sfmmu_tsb_miss_tt		/* done if no 2nd TSB */
4790	  nop
4791
4792	GET_2ND_TSBE_PTR(%g2, %g3, %g4, %g5)
4793	/* %g3 = second TSB entry ptr now, %g2 preserved */
47949:
4795	ba,a,pt	%xcc, sfmmu_tsb_miss_tt
4796	.empty
4797	SET_SIZE(sfmmu_slow_dmmu_miss)
4798
4799
4800	/*
4801	 * User/kernel instruction miss w/ multiple TSBs
4802	 * The first probe covers 8K, 64K, and 512K page sizes,
4803	 * because 64K and 512K mappings are replicated off 8K
4804	 * pointer.  Second probe covers 4M page size only.
4805	 *
4806	 * MMU fault area contains miss address and context.
4807	 */
4808	ALTENTRY(sfmmu_slow_immu_miss)
4809	GET_MMU_I_PTAGACC_CTXTYPE(%g2, %g3)
4810	ba,a,pt	%xcc, slow_miss_common
4811	SET_SIZE(sfmmu_slow_immu_miss)
4812
4813#endif /* sun4v */
4814#endif	/* lint */
4815
4816#ifndef lint
4817
4818/*
4819 * Per-CPU tsbmiss areas to avoid cache misses in TSB miss handlers.
4820 */
4821	.seg	".data"
4822	.align	64
4823	.global tsbmiss_area
4824tsbmiss_area:
4825	.skip	(TSBMISS_SIZE * NCPU)
4826
4827	.align	64
4828	.global kpmtsbm_area
4829kpmtsbm_area:
4830	.skip	(KPMTSBM_SIZE * NCPU)
4831#endif	/* lint */
4832