xref: /titanic_52/usr/src/uts/sun4u/vm/mach_sfmmu.h (revision bdfc6d18da790deeec2e0eb09c625902defe2498)
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, Version 1.0 only
6  * (the "License").  You may not use this file except in compliance
7  * with the License.
8  *
9  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10  * or http://www.opensolaris.org/os/licensing.
11  * See the License for the specific language governing permissions
12  * and limitations under the License.
13  *
14  * When distributing Covered Code, include this CDDL HEADER in each
15  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16  * If applicable, add the following below this CDDL HEADER, with the
17  * fields enclosed by brackets "[]" replaced with your own identifying
18  * information: Portions Copyright [yyyy] [name of copyright owner]
19  *
20  * CDDL HEADER END
21  */
22 /*
23  * Copyright 2005 Sun Microsystems, Inc.  All rights reserved.
24  * Use is subject to license terms.
25  */
26 
27 /*
28  * VM - Hardware Address Translation management.
29  *
30  * This file describes the contents of the sun reference mmu (sfmmu)
31  * specific hat data structures and the sfmmu specific hat procedures.
32  * The machine independent interface is described in <vm/hat.h>.
33  */
34 
35 #ifndef _VM_MACH_SFMMU_H
36 #define	_VM_MACH_SFMMU_H
37 
38 #pragma ident	"%Z%%M%	%I%	%E% SMI"
39 
40 #include <sys/x_call.h>
41 #include <sys/cheetahregs.h>
42 #include <sys/spitregs.h>
43 #ifdef	__cplusplus
44 extern "C" {
45 #endif
46 
47 /*
48  * Define UTSB_PHYS if user TSB is always accessed via physical address.
49  * On sun4u platform, user TSB is accessed via virtual address.
50  */
51 #undef	UTSB_PHYS
52 
53 #ifdef _ASM
54 
55 /*
56  * This macro is used in the MMU code to check if TL should be lowered from
57  * 2 to 1 to pop trapstat's state.  See the block comment in trapstat.c
58  * for details.
59  */
60 
61 #define	TSTAT_CHECK_TL1(label, scr1, scr2)			\
62 	rdpr	%tpc, scr1;					\
63 	sethi	%hi(KERNELBASE), scr2;				\
64 	or	scr2, %lo(KERNELBASE), scr2; 			\
65 	cmp	scr1, scr2; 					\
66 	bgeu	%xcc, 9f;					\
67 	nop;							\
68 	ba	label;						\
69 	wrpr	%g0, 1, %tl;					\
70 9:
71 
72 
73 /*
74  * The following macros allow us to share majority of the
75  * SFMMU code between sun4u and sun4v platforms.
76  */
77 
78 #define	SETUP_TSB_ASI(qlp, tmp)					\
79 	movrz	qlp, ASI_N, tmp;				\
80 	movrnz	qlp, ASI_MEM, tmp;				\
81 	mov	tmp, %asi
82 
83 #define	SETUP_UTSB_ATOMIC_ASI(tmp1, tmp2)			\
84 	mov	ASI_NQUAD_LD, %asi
85 /*
86  * Macro to swtich to alternate global register on sun4u platforms
87  * (not applicable to sun4v platforms)
88  */
89 #define	USE_ALTERNATE_GLOBALS(scr)				\
90 	rdpr	%pstate, scr;					\
91 	wrpr	scr, PSTATE_MG | PSTATE_AG, %pstate
92 
93 /*
94  * Macro to set %gl register value on sun4v platforms
95  * (not applicable to sun4u platforms)
96  */
97 #define	SET_GL_REG(val)
98 
99 /*
100  * Get MMU data tag access register value
101  *
102  * In:
103  *   tagacc, scr1 = scratch registers
104  * Out:
105  *   tagacc = MMU data tag access register value
106  */
107 #define	GET_MMU_D_TAGACC(tagacc, scr1)				\
108 	mov	MMU_TAG_ACCESS, scr1;				\
109 	ldxa	[scr1]ASI_DMMU, tagacc
110 
111 /*
112  * Get MMU data tag target register
113  *
114  * In:
115  *   ttarget, scr1 = scratch registers
116  * Out:
117  *   ttarget = MMU data tag target register value
118  */
119 #define	GET_MMU_D_TTARGET(ttarget, scr1)			\
120 	ldxa	[%g0]ASI_DMMU, ttarget
121 
122 /*
123  * Get MMU data/instruction tag access register values
124  *
125  * In:
126  *   dtagacc, itagacc, scr1, scr2 = scratch registers
127  * Out:
128  *   dtagacc = MMU data tag access register value
129  *   itagacc = MMU instruction tag access register value
130  */
131 #define	GET_MMU_BOTH_TAGACC(dtagacc, itagacc, scr1, scr2)	\
132 	mov	MMU_TAG_ACCESS, scr1;				\
133 	ldxa	[scr1]ASI_DMMU, dtagacc;			\
134 	ldxa	[scr1]ASI_IMMU, itagacc
135 
136 /*
137  * Get MMU data fault address from the tag access register
138  *
139  * In:
140  *   daddr, scr1 = scratch registers
141  * Out:
142  *   daddr = MMU data fault address
143  */
144 #define	GET_MMU_D_ADDR(daddr, scr1)				\
145 	mov	MMU_TAG_ACCESS, scr1;				\
146 	ldxa	[scr1]ASI_DMMU, daddr;				\
147 	set	TAGACC_CTX_MASK, scr1;				\
148 	andn	daddr, scr1, daddr
149 
150 
151 /*
152  * Load ITLB entry
153  *
154  * In:
155  *   tte = reg containing tte
156  *   scr1, scr2, scr3, scr4 = scratch registers (not used)
157  */
158 #define	ITLB_STUFF(tte, scr1, scr2, scr3, scr4)			\
159 	stxa	tte, [%g0]ASI_ITLB_IN
160 
161 /*
162  * Load DTLB entry
163  *
164  * In:
165  *   tte = reg containing tte
166  *   scr1, scr2, scr3, scr4 = scratch register (not used)
167  */
168 #define	DTLB_STUFF(tte, scr1, scr2, scr3, scr4)			\
169 	stxa	tte, [%g0]ASI_DTLB_IN
170 
171 
172 /*
173  * Returns PFN given the TTE and vaddr
174  *
175  * In:
176  *   tte = reg containing tte
177  *   vaddr = reg containing vaddr
178  *   scr1, scr2, scr3 = scratch registers
179  * Out:
180  *   tte = PFN value
181  */
182 #define	TTETOPFN(tte, vaddr, label, scr1, scr2, scr3)			\
183 	srlx	tte, TTE_SZ_SHFT, scr1;					\
184 	and	scr1, TTE_SZ_BITS, scr1;	/* scr1 = tte_size */	\
185 	srlx	tte, TTE_SZ2_SHFT, scr3;				\
186 	and	scr3, TTE_SZ2_BITS, scr3;	/* scr3 = tte_size2 */	\
187 	or	scr1, scr3, scr1;					\
188 	sllx	scr1, 1, scr2;						\
189 	add	scr2, scr1, scr2;		/* mulx 3 */		\
190 	sllx	tte, TTE_PA_LSHIFT, tte;				\
191 	add	scr2, MMU_PAGESHIFT + TTE_PA_LSHIFT, scr3;		\
192 	/* BEGIN CSTYLED */						\
193 	brz,pt	scr2, label/**/1;					\
194 	  srlx	tte, scr3, tte;						\
195 	/* END CSTYLED */						\
196 	sllx	tte, scr2, tte;						\
197 	set	1, scr1;						\
198 	add	scr2, MMU_PAGESHIFT, scr3;				\
199 	sllx	scr1, scr3, scr1;					\
200 	sub	scr1, 1, scr1;		/* g2=TTE_PAGE_OFFSET(ttesz) */	\
201 	and	vaddr, scr1, scr2;					\
202 	srln	scr2, MMU_PAGESHIFT, scr2;				\
203 	or	tte, scr2, tte;						\
204 	/* CSTYLED */							\
205 label/**/1:
206 
207 
208 /*
209  * TTE_SET_REF_ML is a macro that updates the reference bit if it is
210  * not already set.
211  *
212  * Parameters:
213  * tte      = reg containing tte
214  * ttepa    = physical pointer to tte
215  * tteva    = virtual ptr to tte
216  * tsbarea  = tsb miss area
217  * tmp1     = tmp reg
218  * label    = temporary label
219  */
220 
221 #define	TTE_SET_REF_ML(tte, ttepa, tteva, tsbarea, tmp1, label)		\
222 	/* BEGIN CSTYLED */						\
223 	/* check reference bit */					\
224 	andcc	tte, TTE_REF_INT, %g0;					\
225 	bnz,pt	%xcc, label/**/4;	/* if ref bit set-skip ahead */	\
226 	  nop;								\
227 	GET_CPU_IMPL(tmp1);						\
228 	cmp	tmp1, CHEETAH_IMPL;					\
229 	bl,a	%icc, label/**/1;					\
230 	/* update reference bit */					\
231 	lduh	[tsbarea + TSBMISS_DMASK], tmp1;			\
232 	stxa	%g0, [ttepa]ASI_DC_INVAL; /* flush line from dcache */	\
233 	membar	#Sync;							\
234 	ba	label/**/2;						\
235 label/**/1:								\
236 	and	tteva, tmp1, tmp1;					\
237 	stxa	%g0, [tmp1]ASI_DC_TAG; /* flush line from dcache */	\
238 	membar	#Sync;							\
239 label/**/2:								\
240 	or	tte, TTE_REF_INT, tmp1;					\
241 	casxa	[ttepa]ASI_MEM, tte, tmp1; 	/* update ref bit */	\
242 	cmp	tte, tmp1;						\
243 	bne,a,pn %xcc, label/**/2;					\
244 	ldxa	[ttepa]ASI_MEM, tte;	/* MMU_READTTE through pa */	\
245 	or	tte, TTE_REF_INT, tte;					\
246 label/**/4:								\
247 	/* END CSTYLED */
248 
249 
250 /*
251  * TTE_SET_REFMOD_ML is a macro that updates the reference and modify bits
252  * if not already set.
253  *
254  * Parameters:
255  * tte      = reg containing tte
256  * ttepa    = physical pointer to tte
257  * tteva    = virtual ptr to tte
258  * tsbarea  = tsb miss area
259  * tmp1     = tmp reg
260  * label    = temporary label
261  * exitlabel = label where to jump to if write perm bit not set.
262  */
263 
264 #define	TTE_SET_REFMOD_ML(tte, ttepa, tteva, tsbarea, tmp1, label,	\
265 	exitlabel)							\
266 	/* BEGIN CSTYLED */						\
267 	/* check reference bit */					\
268 	andcc	tte, TTE_WRPRM_INT, %g0;				\
269 	bz,pn	%xcc, exitlabel;	/* exit if wr_perm not set */	\
270 	  nop;								\
271 	andcc	tte, TTE_HWWR_INT, %g0;					\
272 	bnz,pn	%xcc, label/**/4;	/* nothing to do */		\
273 	  nop;								\
274 	GET_CPU_IMPL(tmp1);						\
275 	cmp	tmp1, CHEETAH_IMPL;					\
276 	bl,a	%icc, label/**/1;					\
277 	/* update reference bit */					\
278 	lduh	[tsbarea + TSBMISS_DMASK], tmp1;			\
279 	stxa    %g0, [ttepa]ASI_DC_INVAL; /* flush line from dcache */ 	\
280 	membar	#Sync;							\
281 	ba	label/**/2;						\
282 label/**/1:								\
283 	and	tteva, tmp1, tmp1;					\
284 	stxa	%g0, [tmp1]ASI_DC_TAG; /* flush line from dcache */	\
285 	membar	#Sync;							\
286 label/**/2:								\
287 	or	tte, TTE_HWWR_INT | TTE_REF_INT, tmp1;			\
288 	casxa	[ttepa]ASI_MEM, tte, tmp1; /* update ref/mod bit */	\
289 	cmp	tte, tmp1;						\
290 	bne,a,pn %xcc, label/**/2;					\
291 	  ldxa	[ttepa]ASI_MEM, tte;	/* MMU_READTTE through pa */	\
292 	or	tte, TTE_HWWR_INT | TTE_REF_INT, tte;			\
293 label/**/4:								\
294 	/* END CSTYLED */
295 
296 
297 /*
298  * Synthesize TSB base register contents for a process with
299  * a single TSB.
300  *
301  * We patch the virtual address mask in at runtime since the
302  * number of significant virtual address bits in the TSB VA
303  * can vary depending upon the TSB slab size being used on the
304  * machine.
305  *
306  * In:
307  *   tsbinfo = TSB info pointer (ro)
308  *   vabase = value of utsb_vabase (ro)
309  * Out:
310  *   tsbreg = value to program into TSB base register
311  */
312 
313 #define	MAKE_TSBREG(tsbreg, tsbinfo, vabase, tmp1, tmp2, label)		\
314 	/* BEGIN CSTYLED */						\
315 	ldx	[tsbinfo + TSBINFO_VADDR], tmp1;			\
316 	.global	label/**/_tsbreg_vamask					;\
317 label/**/_tsbreg_vamask:						\
318 	or	%g0, RUNTIME_PATCH, tsbreg;				\
319 	lduh	[tsbinfo + TSBINFO_SZCODE], tmp2;			\
320 	sllx	tsbreg, TSBREG_VAMASK_SHIFT, tsbreg;			\
321 	or	vabase, tmp2, tmp2;					\
322 	and	tmp1, tsbreg, tsbreg;					\
323 	or	tsbreg, tmp2, tsbreg;					\
324 	/* END CSTYLED */
325 
326 
327 /*
328  * Synthesize TSB base register contents for a process with
329  * two TSBs.  See hat_sfmmu.h for the layout of the TSB base
330  * register in this case.
331  *
332  * In:
333  *   tsb1 = pointer to first TSB info (ro)
334  *   tsb2 = pointer to second TSB info (ro)
335  * Out:
336  *   tsbreg = value to program into TSB base register
337  */
338 #define	MAKE_TSBREG_SECTSB(tsbreg, tsb1, tsb2, tmp1, tmp2, tmp3, label)	\
339 	/* BEGIN CSTYLED */						\
340 	set	TSBREG_MSB_CONST, tmp3					;\
341 	sllx	tmp3, TSBREG_MSB_SHIFT, tsbreg				;\
342 	.global	label/**/_tsbreg_vamask					;\
343 label/**/_tsbreg_vamask:						;\
344 	or	%g0, RUNTIME_PATCH, tmp3				;\
345 	sll	tmp3, TSBREG_VAMASK_SHIFT, tmp3				;\
346 	ldx	[tsb1 + TSBINFO_VADDR], tmp1				;\
347 	ldx	[tsb2 + TSBINFO_VADDR], tmp2				;\
348 	and	tmp1, tmp3, tmp1					;\
349 	and	tmp2, tmp3, tmp2					;\
350 	sllx	tmp2, TSBREG_SECTSB_MKSHIFT, tmp2			;\
351 	or	tmp1, tmp2, tmp3					;\
352 	or	tsbreg, tmp3, tsbreg					;\
353 	lduh	[tsb1 + TSBINFO_SZCODE], tmp1				;\
354 	lduh	[tsb2 + TSBINFO_SZCODE], tmp2				;\
355 	and	tmp1, TSB_SOFTSZ_MASK, tmp1				;\
356 	and	tmp2, TSB_SOFTSZ_MASK, tmp2				;\
357 	sllx	tmp2, TSBREG_SECSZ_SHIFT, tmp2				;\
358 	or	tmp1, tmp2, tmp3					;\
359 	or	tsbreg, tmp3, tsbreg					;\
360 	/* END CSTYLED */
361 
362 /*
363  * Load TSB base register.  In the single TSB case this register
364  * contains utsb_vabase, bits 21:13 of tsbinfo->tsb_va, and the
365  * TSB size code in bits 2:0.  See hat_sfmmu.h for the layout in
366  * the case where we have multiple TSBs per process.
367  *
368  * In:
369  *   tsbreg = value to load (ro)
370  */
371 #define	LOAD_TSBREG(tsbreg, tmp1, tmp2)					\
372 	mov	MMU_TSB, tmp1;						\
373 	sethi	%hi(FLUSH_ADDR), tmp2;					\
374 	stxa	tsbreg, [tmp1]ASI_DMMU;		/* dtsb reg */		\
375 	stxa	tsbreg, [tmp1]ASI_IMMU;		/* itsb reg */		\
376 	flush	tmp2
377 
378 /*
379  * Load the locked TSB TLB entry.
380  *
381  * In:
382  *   tsbinfo = tsb_info pointer as va (ro)
383  *   tteidx = shifted index into TLB to load the locked entry (ro)
384  *   va = virtual address at which to load the locked TSB entry (ro)
385  * Out:
386  * Scratch:
387  *   tmp
388  */
389 #define	LOAD_TSBTTE(tsbinfo, tteidx, va, tmp)				\
390 	mov	MMU_TAG_ACCESS, tmp;					\
391 	stxa	va, [tmp]ASI_DMMU;		/* set tag access */	\
392 	membar	#Sync;							\
393 	ldx	[tsbinfo + TSBINFO_TTE], tmp;	/* fetch locked tte */	\
394 	stxa	tmp, [tteidx]ASI_DTLB_ACCESS;	/* load locked tte */	\
395 	membar	#Sync
396 
397 
398 /*
399  * In the current implementation, TSBs usually come from physically
400  * contiguous chunks of memory up to 4MB in size, but 8K TSBs may be
401  * allocated from 8K chunks of memory under certain conditions.  To
402  * prevent aliasing in the virtual address cache when the TSB slab is
403  * 8K in size we must align the reserved (TL>0) TSB virtual address to
404  * have the same low-order bits as the kernel (TL=0) TSB virtual address,
405  * and map 8K TSBs with an 8K TTE.  In cases where the TSB reserved VA
406  * range is smaller than the assumed 4M we will patch the shift at
407  * runtime; otherwise we leave it alone (which is why RUNTIME_PATCH
408  * constant doesn't appear below).
409  *
410  * In:
411  *   tsbinfo (ro)
412  *   resva: reserved VA base for this TSB
413  * Out:
414  *   resva: corrected VA for this TSB
415  */
416 #define	RESV_OFFSET(tsbinfo, resva, tmp1, label)			\
417 	/* BEGIN CSTYLED */						\
418 	lduh	[tsbinfo + TSBINFO_SZCODE], tmp1			;\
419 	brgz,pn	tmp1, 9f						;\
420 	  nop								;\
421 	ldx	[tsbinfo + TSBINFO_VADDR], tmp1				;\
422 	.global	label/**/_resv_offset					;\
423 label/**/_resv_offset:							;\
424 	sllx	tmp1, (64 - MMU_PAGESHIFT4M), tmp1			;\
425 	srlx	tmp1, (64 - MMU_PAGESHIFT4M), tmp1			;\
426 	or	tmp1, resva, resva					;\
427 9:	/* END CSYLED */
428 
429 /*
430  * Determine the pointer of the entry in the first TSB to probe given
431  * the 8K TSB pointer register contents.
432  *
433  * In:
434  *   tsbp8k = 8K TSB pointer register (ro)
435  *   tmp = scratch register
436  *   label = label for hot patching of utsb_vabase
437  *
438  * Out: tsbe_ptr = TSB entry address
439  *
440  * Note: This function is patched at runtime for performance reasons.
441  * 	 Any changes here require sfmmu_patch_utsb fixed.
442  */
443 
444 #define	GET_1ST_TSBE_PTR(tsbp8k, tsbe_ptr, tmp, label)			\
445 	/* BEGIN CSTYLED */						\
446 label/**/_get_1st_tsbe_ptr:						;\
447 	RUNTIME_PATCH_SETX(tsbe_ptr, tmp)				;\
448 	/* tsbeptr = contents of utsb_vabase */				;\
449 	/* clear upper bits leaving just bits 21:0 of TSB ptr. */	;\
450 	sllx	tsbp8k, TSBREG_FIRTSB_SHIFT, tmp			;\
451 	/* finish clear */						;\
452 	srlx	tmp, TSBREG_FIRTSB_SHIFT, tmp				;\
453 	/* or-in bits 41:22 of the VA to form the real pointer. */	;\
454 	or	tsbe_ptr, tmp, tsbe_ptr					\
455 	/* END CSTYLED */
456 
457 
458 /*
459  * Will probe the first TSB, and if it finds a match, will insert it
460  * into the TLB and retry.
461  *
462  * tsbe_ptr = precomputed first TSB entry pointer (in, ro)
463  * vpg_4m = 4M virtual page number for tag matching  (in, ro)
464  * label = where to branch to if this is a miss (text)
465  * %asi = atomic ASI to use for the TSB access
466  *
467  * For trapstat, we have to explicily use these registers.
468  * g4 = location tag will be retrieved into from TSB (out)
469  * g5 = location data(tte) will be retrieved into from TSB (out)
470  */
471 #define	PROBE_1ST_DTSB(tsbe_ptr, vpg_4m, label)	/* g4/g5 clobbered */	\
472 	/* BEGIN CSTYLED */						\
473 	ldda	[tsbe_ptr]%asi, %g4	/* g4 = tag, g5 = data */	;\
474 	cmp	%g4, vpg_4m		/* compare tag w/ TSB */	;\
475 	bne,pn	%xcc, label/**/1	/* branch if !match */		;\
476 	  nop								;\
477 	TT_TRACE(trace_tsbhit)						;\
478 	DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)				;\
479 	/* trapstat expects tte in %g5 */				;\
480 	retry				/* retry faulted instruction */	;\
481 label/**/1:								\
482 	/* END CSTYLED */
483 
484 
485 /*
486  * Same as above, only if the TTE doesn't have the execute
487  * bit set, will branch to exec_fault directly.
488  */
489 #define	PROBE_1ST_ITSB(tsbe_ptr, vpg_4m, label)				\
490 	/* BEGIN CSTYLED */						\
491 	ldda	[tsbe_ptr]%asi, %g4	/* g4 = tag, g5 = data */	;\
492 	cmp	%g4, vpg_4m		/* compare tag w/ TSB */	;\
493 	bne,pn	%xcc, label/**/1	/* branch if !match */		;\
494 	  nop								;\
495 	andcc	%g5, TTE_EXECPRM_INT, %g0  /* check execute bit */	;\
496 	bz,pn	%icc, exec_fault					;\
497 	  nop								;\
498 	TT_TRACE(trace_tsbhit)						;\
499 	ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)				;\
500 	retry				/* retry faulted instruction */	;\
501 label/**/1:								\
502 	/* END CSTYLED */
503 
504 
505 /*
506  * Determine the base address of the second TSB given the 8K TSB
507  * pointer register contents.
508  *
509  * In:
510  *   tsbp8k = 8K TSB pointer register (ro)
511  *   tmp = scratch register
512  *   label = label for hot patching of utsb_vabase
513  *
514  * Out:
515  *   tsbbase = TSB base address
516  *
517  * Note: This function is patched at runtime for performance reasons.
518  *	 Any changes here require sfmmu_patch_utsb fixed.
519  */
520 
521 #define	GET_2ND_TSB_BASE(tsbp8k, tsbbase, tmp, label)			\
522 	/* BEGIN CSTYLED */						\
523 label/**/_get_2nd_tsb_base:						;\
524 	RUNTIME_PATCH_SETX(tsbbase, tmp)				;\
525 	/* tsbbase = contents of utsb4m_vabase */			;\
526 	/* clear upper bits leaving just bits 21:xx of TSB addr. */	;\
527 	sllx	tsbp8k, TSBREG_SECTSB_LSHIFT, tmp			;\
528 	/* clear lower bits leaving just 21:13 in 8:0 */		;\
529 	srlx	tmp, (TSBREG_SECTSB_RSHIFT + MMU_PAGESHIFT), tmp	;\
530 	/* adjust TSB offset to bits 21:13 */				;\
531 	sllx	tmp, MMU_PAGESHIFT, tmp					;\
532 	or	tsbbase, tmp, tsbbase					;\
533 	/* END CSTYLED */
534 
535 /*
536  * Determine the size code of the second TSB given the 8K TSB
537  * pointer register contents.
538  *
539  * In:
540  *   tsbp8k = 8K TSB pointer register (ro)
541  * Out:
542  *   size = TSB size code
543  */
544 
545 #define	GET_2ND_TSB_SIZE(tsbp8k, size)					\
546 	srlx	tsbp8k, TSBREG_SECSZ_SHIFT, size;			\
547 	and	size, TSB_SOFTSZ_MASK, size
548 
549 /*
550  * Get the location in the 2nd TSB of the tsbe for this fault.
551  * Assumes that the second TSB only contains 4M mappings.
552  *
553  * In:
554  *   tagacc = tag access register (clobbered)
555  *   tsbp8k = contents of TSB8K pointer register (ro)
556  *   tmp1, tmp2 = scratch registers
557  *   label = label at which to patch in reserved TSB 4M VA range
558  * Out:
559  *   tsbe_ptr = pointer to the tsbe in the 2nd TSB
560  */
561 #define	GET_2ND_TSBE_PTR(tagacc, tsbp8k, tsbe_ptr, tmp1, tmp2, label)	\
562 	GET_2ND_TSB_BASE(tsbp8k, tsbe_ptr, tmp2, label);		\
563 	/* tsbe_ptr = TSB base address, tmp2 = junk */			\
564 	GET_2ND_TSB_SIZE(tsbp8k, tmp1);					\
565 	/* tmp1 = TSB size code */					\
566 	GET_TSBE_POINTER(MMU_PAGESHIFT4M, tsbe_ptr, tagacc, tmp1, tmp2)
567 
568 
569 /*
570  * vpg_4m = 4M virtual page number for tag matching (in)
571  * tsbe_ptr = precomputed second TSB entry pointer (in)
572  * label = label to use to make branch targets unique (text)
573  *
574  * For trapstat, we have to explicity use these registers.
575  * g4 = tag portion of TSBE (out)
576  * g5 = data portion of TSBE (out)
577  */
578 #define	PROBE_2ND_DTSB(tsbe_ptr, vpg_4m, label)				\
579 	/* BEGIN CSTYLED */						\
580 	ldda	[tsbe_ptr]%asi, %g4	/* g4 = tag, g5 = data */	;\
581 	/* since we are looking at 2nd tsb, if it's valid, it must be 4M */ ;\
582 	cmp	%g4, vpg_4m						;\
583 	bne,pn	%xcc, label/**/1					;\
584 	  nop								;\
585 	mov	tsbe_ptr, %g1		/* trace_tsbhit wants ptr in %g1 */ ;\
586 	TT_TRACE(trace_tsbhit)						;\
587 	DTLB_STUFF(%g5, %g1, %g2, %g3, %g4)				;\
588 	/* trapstat expects tte in %g5 */				;\
589 	retry				/* retry faulted instruction */	;\
590 label/**/1:								\
591 	/* END CSTYLED */
592 
593 
594 /*
595  * Same as above, with the following additions:
596  * If the TTE found is not executable, branch directly
597  * to exec_fault.  If a TSB miss, branch to TSB miss handler.
598  */
599 #define	PROBE_2ND_ITSB(tsbe_ptr, vpg_4m)				\
600 	/* BEGIN CSTYLED */						\
601 	ldda	[tsbe_ptr]%asi, %g4	/* g4 = tag, g5 = data */	;\
602 	cmp	%g4, vpg_4m		/* compare tag w/ TSB */	;\
603 	bne,pn	%xcc, sfmmu_tsb_miss_tt	/* branch if !match */		;\
604 	  nop								;\
605 	andcc	%g5, TTE_EXECPRM_INT, %g0  /* check execute bit */	;\
606 	bz,pn	%icc, exec_fault					;\
607 	  mov	tsbe_ptr, %g1		/* trap trace wants ptr in %g1 */ ;\
608 	TT_TRACE(trace_tsbhit)						;\
609 	ITLB_STUFF(%g5, %g1, %g2, %g3, %g4)				;\
610 	retry				/* retry faulted instruction */	\
611 	/* END CSTYLED */
612 
613 #endif /* _ASM */
614 
615 #ifdef	__cplusplus
616 }
617 #endif
618 
619 #endif	/* _VM_MACH_SFMMU_H */
620