xref: /illumos-gate/usr/src/uts/sparc/v9/sys/privregs.h (revision 8119dad84d6416f13557b0ba8e2aaf9064cbcfd3)
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 2009 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef _SYS_PRIVREGS_H
27 #define	_SYS_PRIVREGS_H
28 
29 #ifdef	__cplusplus
30 extern "C" {
31 #endif
32 
33 /*
34  * This file is kernel isa dependent.
35  */
36 
37 #include <sys/fsr.h>
38 #include <v9/sys/asi.h>
39 
40 /*
41  * This file describes the cpu's privileged register set, and
42  * how the machine state is saved on the stack when a trap occurs.
43  */
44 
45 #ifndef	_ASM
46 
47 struct regs {
48 	long long	r_tstate;
49 	long long	r_g1;		/* user global regs */
50 	long long	r_g2;
51 	long long	r_g3;
52 	long long	r_g4;
53 	long long	r_g5;
54 	long long	r_g6;
55 	long long	r_g7;
56 	long long	r_o0;
57 	long long	r_o1;
58 	long long	r_o2;
59 	long long	r_o3;
60 	long long	r_o4;
61 	long long	r_o5;
62 	long long	r_o6;
63 	long long	r_o7;
64 	/*
65 	 * These are still 32b in 4u's v8/v9 hybrid
66 	 */
67 	long	r_pc;		/* program counter */
68 	long	r_npc;		/* next program counter */
69 	int	r_y;		/* the y register */
70 };
71 
72 #define	r_ps	r_tstate
73 #define	r_sp	r_o6
74 
75 #endif	/* _ASM */
76 
77 #ifdef _KERNEL
78 
79 #define	lwptoregs(lwp)	((struct regs *)((lwp)->lwp_regs))
80 #define	lwptofpu(lwp)	((kfpu_t *)((lwp)->lwp_fpu))
81 
82 /*
83  * Macros for saving/restoring registers.
84  */
85 
86 #define	SAVE_GLOBALS(RP) \
87 	stx	%g1, [RP + G1_OFF]; \
88 	stx	%g2, [RP + G2_OFF]; \
89 	stx	%g3, [RP + G3_OFF]; \
90 	stx	%g4, [RP + G4_OFF]; \
91 	stx	%g5, [RP + G5_OFF]; \
92 	stx	%g6, [RP + G6_OFF]; \
93 	stx	%g7, [RP + G7_OFF]; \
94 	mov	%y, %g1; \
95 	st	%g1, [RP + Y_OFF];
96 
97 #define	RESTORE_GLOBALS(RP) \
98 	ld	[RP + Y_OFF], %g1; \
99 	mov	%g1, %y; \
100 	ldx	[RP + G1_OFF], %g1; \
101 	ldx	[RP + G2_OFF], %g2; \
102 	ldx	[RP + G3_OFF], %g3; \
103 	ldx	[RP + G4_OFF], %g4; \
104 	ldx	[RP + G5_OFF], %g5; \
105 	ldx	[RP + G6_OFF], %g6; \
106 	ldx	[RP + G7_OFF], %g7;
107 
108 #define	SAVE_OUTS(RP) \
109 	stx	%i0, [RP + O0_OFF]; \
110 	stx	%i1, [RP + O1_OFF]; \
111 	stx	%i2, [RP + O2_OFF]; \
112 	stx	%i3, [RP + O3_OFF]; \
113 	stx	%i4, [RP + O4_OFF]; \
114 	stx	%i5, [RP + O5_OFF]; \
115 	stx	%i6, [RP + O6_OFF]; \
116 	stx	%i7, [RP + O7_OFF];
117 
118 #define	RESTORE_OUTS(RP) \
119 	ldx	[RP + O0_OFF], %i0; \
120 	ldx	[RP + O1_OFF], %i1; \
121 	ldx	[RP + O2_OFF], %i2; \
122 	ldx	[RP + O3_OFF], %i3; \
123 	ldx	[RP + O4_OFF], %i4; \
124 	ldx	[RP + O5_OFF], %i5; \
125 	ldx	[RP + O6_OFF], %i6; \
126 	ldx	[RP + O7_OFF], %i7;
127 
128 #define	SAVE_V8WINDOW(SBP) \
129 	st	%l0, [SBP + (0*4)]; \
130 	st	%l1, [SBP + (1*4)]; \
131 	st	%l2, [SBP + (2*4)]; \
132 	st	%l3, [SBP + (3*4)]; \
133 	st	%l4, [SBP + (4*4)]; \
134 	st	%l5, [SBP + (5*4)]; \
135 	st	%l6, [SBP + (6*4)]; \
136 	st	%l7, [SBP + (7*4)]; \
137 	st	%i0, [SBP + (8*4)]; \
138 	st	%i1, [SBP + (9*4)]; \
139 	st	%i2, [SBP + (10*4)]; \
140 	st	%i3, [SBP + (11*4)]; \
141 	st	%i4, [SBP + (12*4)]; \
142 	st	%i5, [SBP + (13*4)]; \
143 	st	%i6, [SBP + (14*4)]; \
144 	st	%i7, [SBP + (15*4)];
145 
146 #define	SAVE_V8WINDOW_ASI(SBP) \
147 	sta	%l0, [SBP + (0*4)]%asi; \
148 	sta	%l1, [SBP + (1*4)]%asi; \
149 	sta	%l2, [SBP + (2*4)]%asi; \
150 	sta	%l3, [SBP + (3*4)]%asi; \
151 	sta	%l4, [SBP + (4*4)]%asi; \
152 	sta	%l5, [SBP + (5*4)]%asi; \
153 	sta	%l6, [SBP + (6*4)]%asi; \
154 	sta	%l7, [SBP + (7*4)]%asi; \
155 	sta	%i0, [SBP + (8*4)]%asi; \
156 	sta	%i1, [SBP + (9*4)]%asi; \
157 	sta	%i2, [SBP + (10*4)]%asi; \
158 	sta	%i3, [SBP + (11*4)]%asi; \
159 	sta	%i4, [SBP + (12*4)]%asi; \
160 	sta	%i5, [SBP + (13*4)]%asi; \
161 	sta	%i6, [SBP + (14*4)]%asi; \
162 	sta	%i7, [SBP + (15*4)]%asi;
163 
164 #define	RESTORE_V8WINDOW(SBP) \
165 	ld	[SBP + (0*4)], %l0; \
166 	ld	[SBP + (1*4)], %l1; \
167 	ld	[SBP + (2*4)], %l2; \
168 	ld	[SBP + (3*4)], %l3; \
169 	ld	[SBP + (4*4)], %l4; \
170 	ld	[SBP + (5*4)], %l5; \
171 	ld	[SBP + (6*4)], %l6; \
172 	ld	[SBP + (7*4)], %l7; \
173 	ld	[SBP + (8*4)], %i0; \
174 	ld	[SBP + (9*4)], %i1; \
175 	ld	[SBP + (10*4)], %i2; \
176 	ld	[SBP + (11*4)], %i3; \
177 	ld	[SBP + (12*4)], %i4; \
178 	ld	[SBP + (13*4)], %i5; \
179 	ld	[SBP + (14*4)], %i6; \
180 	ld	[SBP + (15*4)], %i7;
181 
182 #define	SAVE_V9WINDOW(SBP) \
183 	stx	%l0, [SBP + (0*8)]; \
184 	stx	%l1, [SBP + (1*8)]; \
185 	stx	%l2, [SBP + (2*8)]; \
186 	stx	%l3, [SBP + (3*8)]; \
187 	stx	%l4, [SBP + (4*8)]; \
188 	stx	%l5, [SBP + (5*8)]; \
189 	stx	%l6, [SBP + (6*8)]; \
190 	stx	%l7, [SBP + (7*8)]; \
191 	stx	%i0, [SBP + (8*8)]; \
192 	stx	%i1, [SBP + (9*8)]; \
193 	stx	%i2, [SBP + (10*8)]; \
194 	stx	%i3, [SBP + (11*8)]; \
195 	stx	%i4, [SBP + (12*8)]; \
196 	stx	%i5, [SBP + (13*8)]; \
197 	stx	%i6, [SBP + (14*8)]; \
198 	stx	%i7, [SBP + (15*8)];
199 
200 #define	SAVE_V9WINDOW_ASI(SBP) \
201 	stxa	%l0, [SBP + (0*8)]%asi; \
202 	stxa	%l1, [SBP + (1*8)]%asi; \
203 	stxa	%l2, [SBP + (2*8)]%asi; \
204 	stxa	%l3, [SBP + (3*8)]%asi; \
205 	stxa	%l4, [SBP + (4*8)]%asi; \
206 	stxa	%l5, [SBP + (5*8)]%asi; \
207 	stxa	%l6, [SBP + (6*8)]%asi; \
208 	stxa	%l7, [SBP + (7*8)]%asi; \
209 	stxa	%i0, [SBP + (8*8)]%asi; \
210 	stxa	%i1, [SBP + (9*8)]%asi; \
211 	stxa	%i2, [SBP + (10*8)]%asi; \
212 	stxa	%i3, [SBP + (11*8)]%asi; \
213 	stxa	%i4, [SBP + (12*8)]%asi; \
214 	stxa	%i5, [SBP + (13*8)]%asi; \
215 	stxa	%i6, [SBP + (14*8)]%asi; \
216 	stxa	%i7, [SBP + (15*8)]%asi;
217 
218 #define	RESTORE_V9WINDOW(SBP) \
219 	ldx	[SBP + (0*8)], %l0; \
220 	ldx	[SBP + (1*8)], %l1; \
221 	ldx	[SBP + (2*8)], %l2; \
222 	ldx	[SBP + (3*8)], %l3; \
223 	ldx	[SBP + (4*8)], %l4; \
224 	ldx	[SBP + (5*8)], %l5; \
225 	ldx	[SBP + (6*8)], %l6; \
226 	ldx	[SBP + (7*8)], %l7; \
227 	ldx	[SBP + (8*8)], %i0; \
228 	ldx	[SBP + (9*8)], %i1; \
229 	ldx	[SBP + (10*8)], %i2; \
230 	ldx	[SBP + (11*8)], %i3; \
231 	ldx	[SBP + (12*8)], %i4; \
232 	ldx	[SBP + (13*8)], %i5; \
233 	ldx	[SBP + (14*8)], %i6; \
234 	ldx	[SBP + (15*8)], %i7;
235 
236 #define	STORE_FPREGS(FP) \
237 	std	%f0, [FP]; \
238 	std	%f2, [FP + 8]; \
239 	std	%f4, [FP + 16]; \
240 	std	%f6, [FP + 24]; \
241 	std	%f8, [FP + 32]; \
242 	std	%f10, [FP + 40]; \
243 	std	%f12, [FP + 48]; \
244 	std	%f14, [FP + 56]; \
245 	std	%f16, [FP + 64]; \
246 	std	%f18, [FP + 72]; \
247 	std	%f20, [FP + 80]; \
248 	std	%f22, [FP + 88]; \
249 	std	%f24, [FP + 96]; \
250 	std	%f26, [FP + 104]; \
251 	std	%f28, [FP + 112]; \
252 	std	%f30, [FP + 120]; \
253 	std	%d32, [FP + 128]; \
254 	std	%d34, [FP + 136]; \
255 	std	%d36, [FP + 144]; \
256 	std	%d38, [FP + 152]; \
257 	std	%d40, [FP + 160]; \
258 	std	%d42, [FP + 168]; \
259 	std	%d44, [FP + 176]; \
260 	std	%d46, [FP + 184]; \
261 	std	%d48, [FP + 192]; \
262 	std	%d50, [FP + 200]; \
263 	std	%d52, [FP + 208]; \
264 	std	%d54, [FP + 216]; \
265 	std	%d56, [FP + 224]; \
266 	std	%d58, [FP + 232]; \
267 	std	%d60, [FP + 240]; \
268 	std	%d62, [FP + 248];
269 
270 #define	LOAD_FPREGS(FP) \
271 	ldd	[FP], %f0; \
272 	ldd	[FP + 8], %f2; \
273 	ldd	[FP + 16], %f4; \
274 	ldd	[FP + 24], %f6; \
275 	ldd	[FP + 32], %f8; \
276 	ldd	[FP + 40], %f10; \
277 	ldd	[FP + 48], %f12; \
278 	ldd	[FP + 56], %f14; \
279 	ldd	[FP + 64], %f16; \
280 	ldd	[FP + 72], %f18; \
281 	ldd	[FP + 80], %f20; \
282 	ldd	[FP + 88], %f22; \
283 	ldd	[FP + 96], %f24; \
284 	ldd	[FP + 104], %f26; \
285 	ldd	[FP + 112], %f28; \
286 	ldd	[FP + 120], %f30; \
287 	ldd	[FP + 128], %d32; \
288 	ldd	[FP + 136], %d34; \
289 	ldd	[FP + 144], %d36; \
290 	ldd	[FP + 152], %d38; \
291 	ldd	[FP + 160], %d40; \
292 	ldd	[FP + 168], %d42; \
293 	ldd	[FP + 176], %d44; \
294 	ldd	[FP + 184], %d46; \
295 	ldd	[FP + 192], %d48; \
296 	ldd	[FP + 200], %d50; \
297 	ldd	[FP + 208], %d52; \
298 	ldd	[FP + 216], %d54; \
299 	ldd	[FP + 224], %d56; \
300 	ldd	[FP + 232], %d58; \
301 	ldd	[FP + 240], %d60; \
302 	ldd	[FP + 248], %d62;
303 
304 #define	STORE_DL_FPREGS(FP) \
305 	std	%f0, [FP]; \
306 	std	%f2, [FP + 8]; \
307 	std	%f4, [FP + 16]; \
308 	std	%f6, [FP + 24]; \
309 	std	%f8, [FP + 32]; \
310 	std	%f10, [FP + 40]; \
311 	std	%f12, [FP + 48]; \
312 	std	%f14, [FP + 56]; \
313 	std	%f16, [FP + 64]; \
314 	std	%f18, [FP + 72]; \
315 	std	%f20, [FP + 80]; \
316 	std	%f22, [FP + 88]; \
317 	std	%f24, [FP + 96]; \
318 	std	%f26, [FP + 104]; \
319 	std	%f28, [FP + 112]; \
320 	std	%f30, [FP + 120];
321 
322 #define	STORE_DU_FPREGS(FP) \
323 	std	%d32, [FP + 128]; \
324 	std	%d34, [FP + 136]; \
325 	std	%d36, [FP + 144]; \
326 	std	%d38, [FP + 152]; \
327 	std	%d40, [FP + 160]; \
328 	std	%d42, [FP + 168]; \
329 	std	%d44, [FP + 176]; \
330 	std	%d46, [FP + 184]; \
331 	std	%d48, [FP + 192]; \
332 	std	%d50, [FP + 200]; \
333 	std	%d52, [FP + 208]; \
334 	std	%d54, [FP + 216]; \
335 	std	%d56, [FP + 224]; \
336 	std	%d58, [FP + 232]; \
337 	std	%d60, [FP + 240]; \
338 	std	%d62, [FP + 248];
339 
340 #define	LOAD_DL_FPREGS(FP) \
341 	ldd	[FP], %f0; \
342 	ldd	[FP + 8], %f2; \
343 	ldd	[FP + 16], %f4; \
344 	ldd	[FP + 24], %f6; \
345 	ldd	[FP + 32], %f8; \
346 	ldd	[FP + 40], %f10; \
347 	ldd	[FP + 48], %f12; \
348 	ldd	[FP + 56], %f14; \
349 	ldd	[FP + 64], %f16; \
350 	ldd	[FP + 72], %f18; \
351 	ldd	[FP + 80], %f20; \
352 	ldd	[FP + 88], %f22; \
353 	ldd	[FP + 96], %f24; \
354 	ldd	[FP + 104], %f26; \
355 	ldd	[FP + 112], %f28; \
356 	ldd	[FP + 120], %f30;
357 
358 #define	LOAD_DU_FPREGS(FP) \
359 	ldd	[FP + 128], %d32; \
360 	ldd	[FP + 136], %d34; \
361 	ldd	[FP + 144], %d36; \
362 	ldd	[FP + 152], %d38; \
363 	ldd	[FP + 160], %d40; \
364 	ldd	[FP + 168], %d42; \
365 	ldd	[FP + 176], %d44; \
366 	ldd	[FP + 184], %d46; \
367 	ldd	[FP + 192], %d48; \
368 	ldd	[FP + 200], %d50; \
369 	ldd	[FP + 208], %d52; \
370 	ldd	[FP + 216], %d54; \
371 	ldd	[FP + 224], %d56; \
372 	ldd	[FP + 232], %d58; \
373 	ldd	[FP + 240], %d60; \
374 	ldd	[FP + 248], %d62;
375 
376 #endif /* _KERNEL */
377 
378 /*
379  * V9 privileged registers
380  */
381 
382 /*
383  * Condition Codes Register (CCR)
384  *
385  *	|-------------------------------|
386  *	|	XCC	|	ICC	|
387  *	| N | Z | V | C | N | Z | V | C |
388  *	|---|---|---|---|---|---|---|---|
389  *	7   6   5   4   3   2   1   0
390  */
391 #define	CCR_IC		0x01	/* 32b carry */
392 #define	CCR_IV		0x02	/* 32b overflow */
393 #define	CCR_IZ		0x04	/* 32b zero */
394 #define	CCR_IN		0x08	/* 32b negative */
395 #define	CCR_XC		0x10	/* 64b carry */
396 #define	CCR_XV		0x20	/* 64b overflow */
397 #define	CCR_XZ		0x40	/* 64b zero */
398 #define	CCR_XN		0x80	/* 64b negative */
399 #define	CCR_ICC		0x0F
400 #define	CCR_XCC		0xF0
401 
402 
403 /*
404  * Processor State Register (PSTATE)
405  *
406  *   |-------------------------------------------------------------|
407  *   |  IG | MG | CLE | TLE | MM | RED | PEF | AM | PRIV | IE | AG |
408  *   |-----|----|-----|-----|----|-----|-----|----|------|----|----|
409  *	11   10    9     8   7  6   5     4     3     2     1    0
410  *
411  * Note that the IG, MG, RED and AG fields are not applicable to sun4v
412  * compliant processors.
413  */
414 #ifndef GLREG
415 #define	PSTATE_AG	0x001		/* alternate globals */
416 #endif /* GLREG */
417 
418 #define	PSTATE_IE	0x002		/* interrupt enable */
419 #define	PSTATE_PRIV	0x004		/* privileged mode */
420 #define	PSTATE_AM	0x008		/* use 32b address mask */
421 #define	PSTATE_PEF	0x010		/* fp enable */
422 
423 #ifndef GLREG
424 #define	PSTATE_RED	0x020		/* red mode */
425 #endif /* GLREG */
426 
427 #define	PSTATE_MM	0x0C0		/* memory model */
428 #define	PSTATE_TLE	0x100		/* trap little endian */
429 #define	PSTATE_CLE	0x200		/* current little endian */
430 
431 #ifndef GLREG
432 #define	PSTATE_MG	0x400		/* MMU globals */
433 #define	PSTATE_IG	0x800		/* interrupt globals */
434 #endif /* GLREG */
435 
436 #define	PSTATE_BITS \
437 "\020\014IG\013MG\012CLE\011TLE\010MM-RMO\
438 \07MM-PSO\06RED\05PEF\04AM\03PRIV\02IE\01AG"
439 
440 /*
441  * Definition of MM (Memory Mode) bit field of pstate.
442  */
443 #define	PSTATE_MM_TSO	0x00		/* total store ordering */
444 #define	PSTATE_MM_PSO	0x40		/* partial store ordering */
445 #define	PSTATE_MM_RMO	0x80		/* relaxed memory ordering */
446 #define	PSTATE_MM_WC	0xC0		/* weak consistency */
447 
448 
449 /*
450  * Trap State Register (TSTATE)
451  *
452  *	|------------------------------------------|
453  *	| GL | CCR | ASI | --- | PSTATE | -- | CWP |
454  *	|----|-----|-----|-----|--------|----|-----|
455  *	42 40 39 32 31 24 23 20 19	  8 7  5 4   0
456  *
457  * Note that the GL field is applicable to sun4v compliant processors only.
458  */
459 #define	TSTATE_CWP_MASK		0x01F
460 #define	TSTATE_CWP_SHIFT	0
461 #define	TSTATE_PSTATE_MASK	0xFFF
462 #define	TSTATE_PSTATE_SHIFT	8
463 #define	TSTATE_ASI_MASK		0x0FF
464 #define	TSTATE_ASI_SHIFT	24
465 #define	TSTATE_CCR_MASK		0x0FF
466 #define	TSTATE_CCR_SHIFT	32
467 
468 #ifdef GLREG
469 #define	TSTATE_GL_MASK		0x7
470 #define	TSTATE_GL_SHIFT		40
471 #endif /* GLREG */
472 
473 /*
474  * Some handy tstate macros
475  */
476 #define	TSTATE_AG	(PSTATE_AG << TSTATE_PSTATE_SHIFT)
477 #define	TSTATE_IE	(PSTATE_IE << TSTATE_PSTATE_SHIFT)
478 #define	TSTATE_PRIV	(PSTATE_PRIV << TSTATE_PSTATE_SHIFT)
479 #define	TSTATE_AM	(PSTATE_AM << TSTATE_PSTATE_SHIFT)
480 #define	TSTATE_PEF	(PSTATE_PEF << TSTATE_PSTATE_SHIFT)
481 #define	TSTATE_MM	(PSTATE_MM << TSTATE_PSTATE_SHIFT)
482 #define	TSTATE_MM_TSO	(PSTATE_MM_TSO << TSTATE_PSTATE_SHIFT)
483 #define	TSTATE_MM_WC	(PSTATE_MM_WC << TSTATE_PSTATE_SHIFT)
484 #define	TSTATE_MG	(PSTATE_MG << TSTATE_PSTATE_SHIFT)
485 #define	TSTATE_IG	(PSTATE_IG << TSTATE_PSTATE_SHIFT)
486 #define	TSTATE_CWP	TSTATE_CWP_MASK
487 
488 /*
489  * as is 64b, but cc is 32b, so we need this hack.
490  */
491 #ifndef _ASM
492 #define	TSTATE_ICC	((long long)CCR_ICC << TSTATE_CCR_SHIFT)
493 #define	TSTATE_XCC	((long long)CCR_XCC << TSTATE_CCR_SHIFT)
494 #define	TSTATE_IC	((long long)CCR_IC << TSTATE_CCR_SHIFT)
495 #define	TSTATE_IV	((long long)CCR_IV << TSTATE_CCR_SHIFT)
496 #define	TSTATE_IN	((long long)CCR_IN << TSTATE_CCR_SHIFT)
497 #define	TSTATE_XV	((long long)CCR_XV << TSTATE_CCR_SHIFT)
498 #define	TSTATE_XZ	((long long)CCR_XZ << TSTATE_CCR_SHIFT)
499 #else
500 #define	TSTATE_ICC	(CCR_ICC << TSTATE_CCR_SHIFT)
501 #define	TSTATE_XCC	(CCR_XCC << TSTATE_CCR_SHIFT)
502 #define	TSTATE_IC	(CCR_IC << TSTATE_CCR_SHIFT)
503 #define	TSTATE_IV	(CCR_IV << TSTATE_CCR_SHIFT)
504 #define	TSTATE_IN	(CCR_IN << TSTATE_CCR_SHIFT)
505 #define	TSTATE_XV	(CCR_XV << TSTATE_CCR_SHIFT)
506 #define	TSTATE_XZ	(CCR_XZ << TSTATE_CCR_SHIFT)
507 #endif
508 #define	TSTATE_V8_UBITS (TSTATE_ICC | TSTATE_PEF)
509 
510 /*
511  * Initial kernel and user %tstate.
512  */
513 #define	PTSTATE_KERN_COMMON \
514 	(PSTATE_PRIV | PSTATE_PEF | PSTATE_MM_TSO)
515 
516 #define	TSTATE_KERN	\
517 	(PTSTATE_KERN_COMMON << TSTATE_PSTATE_SHIFT)
518 
519 #define	PSTATE_KERN	\
520 	(PTSTATE_KERN_COMMON | PSTATE_PRIV | PSTATE_IE)
521 
522 #define	TSTATE_USER32	\
523 	(((PSTATE_IE | PSTATE_PEF | PSTATE_AM) << TSTATE_PSTATE_SHIFT) | \
524 	    ((long long)ASI_PNF << TSTATE_ASI_SHIFT))
525 
526 #define	TSTATE_USER64	\
527 	(((PSTATE_IE | PSTATE_PEF) << TSTATE_PSTATE_SHIFT) | \
528 	    ((long long)ASI_PNF << TSTATE_ASI_SHIFT))
529 
530 #define	USERMODE(x)	(!((x) & TSTATE_PRIV))
531 
532 /*
533  * Window State Register (WSTATE)
534  *
535  *   |------------|
536  *   |OTHER|NORMAL|
537  *   |-----|------|
538  *    5	  3 2    0
539  */
540 #define	WSTATE_BAD	0	/* unused */
541 #define	WSTATE_U32	1	/* 32b stack */
542 #define	WSTATE_U64	2	/* 64b stack */
543 #define	WSTATE_CLEAN32	3	/* cleanwin workaround, 32b stack */
544 #define	WSTATE_CLEAN64	4	/* cleanwin workaround, 64b stack */
545 #define	WSTATE_K32	5	/* priv 32b stack */
546 #define	WSTATE_K64	6	/* priv 64b stack */
547 #define	WSTATE_KMIX	7	/* priv mixed stack */
548 
549 #define	WSTATE_CLEAN_OFFSET	2
550 #define	WSTATE_SHIFT	3	/* normal-to-other shift */
551 #define	WSTATE_MASK	7	/* mask for each set */
552 #define	WSTATE(o, n)	(((o) << WSTATE_SHIFT) | (n))
553 
554 #define	WSTATE_USER32	WSTATE(WSTATE_BAD, WSTATE_U32)
555 #define	WSTATE_USER64	WSTATE(WSTATE_BAD, WSTATE_U64)
556 #define	WSTATE_KERN	WSTATE(WSTATE_U32, WSTATE_K64)
557 
558 /*
559  * Processor Interrupt Level Register (PIL)
560  *
561  *   |-----|
562  *   | PIL |
563  *   |-----|
564  *    3   0
565  */
566 
567 /*
568  * Version Register (VER)
569  *
570  *   |-------------------------------------------------|
571  *   | manuf | impl | mask | ---- | maxtl | - | maxwin |
572  *   |-------|------|------|------|-------|---|--------|
573  *    63   48 47  32 31  24 23  16 15	8  7 5	4    0
574  */
575 #define	VER_MANUF	0xFFFF000000000000
576 #define	VER_IMPL	0x0000FFFF00000000
577 #define	VER_MASK	0x00000000FF000000
578 #define	VER_MAXTL	0x000000000000FF00
579 #define	VER_MAXWIN	0x000000000000001F
580 #define	VER_MAXTL_SHIFT	8
581 #define	VER_MAXTL_MASK	(VER_MAXTL >> VER_MAXTL_SHIFT)
582 
583 /*
584  * Tick Register (TICK)
585  *
586  *   |---------------|
587  *   | npt | counter |
588  *   |-----|---------|
589  *     63   62      0
590  *
591  * Note: UltraSparc III Stick register has the same layout. When
592  * present, we clear it too.
593  */
594 
595 #define	TICK_NPT	0x8000000000000000
596 #define	TICK_COUNTER	0x7FFFFFFFFFFFFFFF
597 
598 #ifdef	__cplusplus
599 }
600 #endif
601 
602 #endif	/* _SYS_PRIVREGS_H */
603