xref: /illumos-gate/usr/src/uts/sparc/sys/fpu/fpu_simulator.h (revision 002c70ff32f5df6f93c15f88d351ce26443e6ee7)
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 2006 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_SYS_FPU_FPU_SIMULATOR_H
27 #define	_SYS_FPU_FPU_SIMULATOR_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 /* SunOS-4.0 1.10	*/
31 
32 /*
33  * sparc floating-point simulator definitions.
34  */
35 
36 #ifndef	_ASM
37 #include <sys/types.h>
38 #include <sys/ieeefp.h>
39 #include <vm/seg.h>
40 #include <sys/kstat.h>
41 #endif /* _ASM */
42 
43 #ifdef	__cplusplus
44 extern "C" {
45 #endif
46 
47 /*
48  * Constants to decode/extract "fitos" instruction fields
49  */
50 #define	FITOS_INSTR_MASK	0xc1f83fe0
51 #define	FITOS_INSTR		0x81a01880
52 #define	FITOS_RS2_SHIFT		0
53 #define	FITOS_RD_SHIFT		25
54 #define	FITOS_REG_MASK		0x1f
55 
56 #ifndef _ASM
57 /*	PUBLIC TYPES	*/
58 
59 enum fcc_type {			/* relationships */
60 	fcc_equal	= 0,
61 	fcc_less	= 1,
62 	fcc_greater	= 2,
63 	fcc_unordered	= 3
64 };
65 
66 enum cc_type {			/* icc/fcc number */
67 	fcc_0	= 0,
68 	fcc_1	= 1,
69 	fcc_2	= 2,
70 	fcc_3	= 3,
71 	icc	= 4,
72 	xcc	= 6
73 };
74 
75 /* FSR types. */
76 
77 enum ftt_type {			/* types of traps */
78 	ftt_none	= 0,
79 	ftt_ieee	= 1,
80 	ftt_unfinished	= 2,
81 	ftt_unimplemented = 3,
82 	ftt_sequence	= 4,
83 	ftt_alignment	= 5,	/* defined by software convention only */
84 	ftt_fault	= 6,	/* defined by software convention only */
85 	ftt_7		= 7
86 };
87 
88 typedef	struct {		/* sparc V9 FSR. */
89 	unsigned int			: 26;
90 	unsigned int		fcc3	: 2;	/* fp condition code 3 */
91 	unsigned int		fcc2	: 2;	/* fp condition code 2 */
92 	unsigned int		fcc1	: 2;	/* fp condition code 1 */
93 						/* enum fp_direction_type */
94 	unsigned int		rnd	: 2;	/* rounding direction */
95 	unsigned int		rnp	: 2;	/* for v7 compatibility only */
96 	unsigned int		tem	: 5;	/* trap enable mask */
97 	unsigned int		 ns	: 1;	/* non-standard */
98 	unsigned int			: 5;
99 						/* enum ftt_type */
100 	unsigned int 		ftt	: 3;	/* FPU trap type */
101 	unsigned int		qne	: 1;	/* FPQ not empty */
102 	unsigned int		 pr	: 1;	/* partial result */
103 						/* enum fcc_type */
104 	unsigned int 		fcc	: 2;	/* fp condition code 0 */
105 	unsigned int		aexc	: 5;	/* accumulated exceptions */
106 	unsigned int		cexc	: 5;	/* current exception */
107 } fsr_types;
108 
109 /*
110  * The C compiler and the C spec do not support bitfields in a long long,
111  * as per fsr_types above, so don't hold your breath waiting for this
112  * workaround cruft to disappear.
113  */
114 
115 typedef union {
116 	fsr_types	fsr;
117 	uint64_t	ll;
118 } fsr_type;
119 
120 #define	fcc3	fsr.fcc3
121 #define	fcc2	fsr.fcc2
122 #define	fcc1	fsr.fcc1
123 #define	fcc0	fsr.fcc
124 #define	rnd	fsr.rnd
125 #define	rnp	fsr.rnp
126 #define	tem	fsr.tem
127 #define	aexc	fsr.aexc
128 #define	cexc	fsr.cexc
129 
130 typedef			/* FPU register viewed as single components. */
131 	struct {
132 	uint32_t sign :		1;
133 	uint32_t exponent :	8;
134 	uint32_t significand : 23;
135 } single_type;
136 
137 typedef			/* FPU register viewed as double components. */
138 	struct {
139 	uint32_t sign :		1;
140 	uint32_t exponent :    11;
141 	uint32_t significand : 20;
142 } double_type;
143 
144 typedef			/* FPU register viewed as extended components. */
145 	struct {
146 	uint32_t sign :		 1;
147 	uint32_t exponent :	15;
148 	uint32_t significand :	16;
149 } extended_type;
150 
151 typedef			/* FPU register with multiple data views. */
152 	union {
153 	int32_t		int32_reg;
154 	int64_t		int64_reg;
155 	uint32_t	uint32_reg;
156 	uint64_t	uint64_reg;
157 	float		float_reg;
158 	single_type	single_reg;
159 	double_type	double_reg;
160 	extended_type	extended_reg;
161 } freg_type;
162 
163 enum fp_op_type {		/* Type specifiers in FPU instructions. */
164 	fp_op_int32	= 0,	/* Not in hardware, but convenient to define. */
165 	fp_op_single	= 1,
166 	fp_op_double	= 2,
167 	fp_op_extended	= 3,
168 	fp_op_int64	= 4
169 };
170 
171 enum fp_opcode {	/* FPU op codes, minus precision and leading 0. */
172 	fmovs		= 0x0,
173 	fnegs		= 0x1,
174 	fabss		= 0x2,
175 	fp_op_3 = 3, fp_op_4 = 4, fp_op_5 = 5, fp_op_6 = 6, fp_op_7 = 7,
176 	fp_op_8		= 0x8,
177 	fp_op_9		= 0x9,
178 	fsqrt		= 0xa,
179 	fp_op_b = 0xb, fp_op_c = 0xc, fp_op_d = 0xd,
180 	fp_op_e = 0xe, fp_op_f = 0xf,
181 	fadd		= 0x10,
182 	fsub		= 0x11,
183 	fmul		= 0x12,
184 	fdiv		= 0x13,
185 	fcmp		= 0x14,
186 	fcmpe		= 0x15,
187 	fp_op_16 = 0x16, fp_op_17 = 0x17,
188 	fp_op_18	= 0x18,
189 	fp_op_19	= 0x19,
190 	fsmuld		= 0x1a,
191 	fdmulx		= 0x1b,
192 	ftoll		= 0x20,
193 	flltos		= 0x21,
194 	flltod		= 0x22,
195 	flltox		= 0x23,
196 	fp_op_24 = 0x24, fp_op_25 = 0x25, fp_op_26 = 0x26, fp_op_27 = 0x27,
197 	fp_op_28 = 0x28, fp_op_29 = 0x29, fp_op_2a = 0x2a, fp_op_2b = 0x2b,
198 	fp_op_2c = 0x2c, fp_op_2d = 0x2d, fp_op_2e = 0x2e, fp_op_2f = 0x2f,
199 	fp_op_30	= 0x30,
200 	fitos		= 0x31,
201 	fitod		= 0x32,
202 	fitox		= 0x33,
203 	ftoi		= 0x34,
204 	fp_op_35 = 0x35, fp_op_36 = 0x36, fp_op_37 = 0x37,
205 	ft_op_38	= 0x38,
206 	fp_op_39 = 0x39, fp_op_3a = 0x3a, fp_op_3b = 0x3b,
207 	fp_op_3c	= 0x3c,
208 	fp_op_3d = 0x3d, fp_op_3e = 0x3e, fp_op_3f = 0x3f
209 };
210 
211 typedef			/* FPU instruction. */
212 	struct {
213 	uint32_t		hibits	: 2;	/* Top two bits. */
214 	uint32_t		rd	: 5;	/* Destination. */
215 	uint32_t		op3	: 6;	/* Main op code. */
216 	uint32_t		rs1	: 5;	/* First operand. */
217 	uint32_t		ibit	: 1;	/* I format bit. */
218 	uint32_t /* enum fp_opcode */  opcode : 6; /* Floating-point op code. */
219 	uint32_t /* enum fp_op_type */ prec   : 2; /* Precision. */
220 	uint32_t		rs2	: 5;	/* Second operand. */
221 } fp_inst_type;
222 
223 enum fp_op_fma_var {	/* IMPDEP2B FMA-fused instr. variations */
224 	fmadd	=	0,
225 	fmsub	=	1,
226 	fnmsub	=	2,
227 	fnmadd	=	3
228 };
229 
230 typedef		/* IMPDEP2B FPU FMA-fused instruction. */
231 	struct {
232 	uint32_t		hibits	: 2;	/* Top two bits. */
233 	uint32_t		rd	: 5;	/* Destination. */
234 	uint32_t		op3	: 6;	/* Main op code. */
235 	uint32_t		rs1	: 5;	/* First operand. */
236 	uint32_t		rs3	: 5;	/* Third operand */
237 	uint32_t /* enum fp_op_fma_var */ var : 2; /* Instr. variation */
238 	uint32_t		sz	: 2;	/* Size */
239 	uint32_t		rs2	: 5;	/* Second operand. */
240 } fp_fma_inst_type;
241 
242 typedef			/* Integer condition code. */
243 	struct {
244 	uint32_t			: 28;	/* the unused part */
245 	uint32_t		n	: 1;	/* Negative bit. */
246 	uint32_t		z	: 1;	/* Zero bit. */
247 	uint32_t		v	: 1;	/* Overflow bit. */
248 	uint32_t		c	: 1;	/* Carry bit. */
249 } ccr_type;
250 
251 typedef			/* FPU data used by simulator. */
252 	struct {
253 	uint_t			fp_fsrtem;
254 	enum fp_direction_type	fp_direction;
255 	enum fp_precision_type	fp_precision;
256 	uint_t			fp_current_exceptions;
257 	kfpu_t			*fp_current_pfregs;
258 	void			(*fp_current_read_freg) ();
259 	void			(*fp_current_write_freg) ();
260 	void			(*fp_current_read_dreg) ();
261 	void			(*fp_current_write_dreg) ();
262 	uint64_t		(*fp_current_read_gsr) (kfpu_t *);
263 	void			(*fp_current_write_gsr) (uint64_t, kfpu_t *);
264 	int			fp_trapcode;
265 	char			*fp_trapaddr;
266 	struct	regs		*fp_traprp;
267 	enum	seg_rw		fp_traprw;
268 } fp_simd_type;
269 
270 /*
271  * FPU related kstat structures
272  */
273 struct fpustat_kstat  {
274 	struct kstat_named		fpu_ieee_traps;
275 	struct kstat_named		fpu_unfinished_traps;
276 	struct kstat_named		fpu_unimplemented_traps;
277 };
278 
279 struct fpuinfo_kstat {
280 	struct kstat_named		fpu_sim_fmovs;
281 	struct kstat_named		fpu_sim_fmovd;
282 	struct kstat_named		fpu_sim_fmovq;
283 	struct kstat_named		fpu_sim_fnegs;
284 	struct kstat_named		fpu_sim_fnegd;
285 	struct kstat_named		fpu_sim_fnegq;
286 	struct kstat_named		fpu_sim_fabss;
287 	struct kstat_named		fpu_sim_fabsd;
288 	struct kstat_named		fpu_sim_fabsq;
289 	struct kstat_named		fpu_sim_fsqrts;
290 	struct kstat_named		fpu_sim_fsqrtd;
291 	struct kstat_named		fpu_sim_fsqrtq;
292 	struct kstat_named		fpu_sim_fadds;
293 	struct kstat_named		fpu_sim_faddd;
294 	struct kstat_named		fpu_sim_faddq;
295 	struct kstat_named		fpu_sim_fsubs;
296 	struct kstat_named		fpu_sim_fsubd;
297 	struct kstat_named		fpu_sim_fsubq;
298 	struct kstat_named		fpu_sim_fmuls;
299 	struct kstat_named		fpu_sim_fmuld;
300 	struct kstat_named		fpu_sim_fmulq;
301 	struct kstat_named		fpu_sim_fdivs;
302 	struct kstat_named		fpu_sim_fdivd;
303 	struct kstat_named		fpu_sim_fdivq;
304 	struct kstat_named		fpu_sim_fcmps;
305 	struct kstat_named		fpu_sim_fcmpd;
306 	struct kstat_named		fpu_sim_fcmpq;
307 	struct kstat_named		fpu_sim_fcmpes;
308 	struct kstat_named		fpu_sim_fcmped;
309 	struct kstat_named		fpu_sim_fcmpeq;
310 	struct kstat_named		fpu_sim_fsmuld;
311 	struct kstat_named		fpu_sim_fdmulx;
312 	struct kstat_named		fpu_sim_fstox;
313 	struct kstat_named		fpu_sim_fdtox;
314 	struct kstat_named		fpu_sim_fqtox;
315 	struct kstat_named		fpu_sim_fxtos;
316 	struct kstat_named		fpu_sim_fxtod;
317 	struct kstat_named		fpu_sim_fxtoq;
318 	struct kstat_named		fpu_sim_fitos;
319 	struct kstat_named		fpu_sim_fitod;
320 	struct kstat_named		fpu_sim_fitoq;
321 	struct kstat_named		fpu_sim_fstoi;
322 	struct kstat_named		fpu_sim_fdtoi;
323 	struct kstat_named		fpu_sim_fqtoi;
324 	struct kstat_named		fpu_sim_fmovcc;
325 	struct kstat_named		fpu_sim_fmovr;
326 	struct kstat_named		fpu_sim_fmadds;
327 	struct kstat_named		fpu_sim_fmaddd;
328 	struct kstat_named		fpu_sim_fmsubs;
329 	struct kstat_named		fpu_sim_fmsubd;
330 	struct kstat_named		fpu_sim_fnmadds;
331 	struct kstat_named		fpu_sim_fnmaddd;
332 	struct kstat_named		fpu_sim_fnmsubs;
333 	struct kstat_named		fpu_sim_fnmsubd;
334 	struct kstat_named		fpu_sim_invalid;
335 };
336 
337 struct visinfo_kstat {
338 	struct kstat_named		vis_edge8;
339 	struct kstat_named		vis_edge8n;
340 	struct kstat_named		vis_edge8l;
341 	struct kstat_named		vis_edge8ln;
342 	struct kstat_named		vis_edge16;
343 	struct kstat_named		vis_edge16n;
344 	struct kstat_named		vis_edge16l;
345 	struct kstat_named		vis_edge16ln;
346 	struct kstat_named		vis_edge32;
347 	struct kstat_named		vis_edge32n;
348 	struct kstat_named		vis_edge32l;
349 	struct kstat_named		vis_edge32ln;
350 	struct kstat_named		vis_array8;
351 	struct kstat_named		vis_array16;
352 	struct kstat_named		vis_array32;
353 	struct kstat_named		vis_bmask;
354 	struct kstat_named		vis_fcmple16;
355 	struct kstat_named		vis_fcmpne16;
356 	struct kstat_named		vis_fcmpgt16;
357 	struct kstat_named		vis_fcmpeq16;
358 	struct kstat_named		vis_fcmple32;
359 	struct kstat_named		vis_fcmpne32;
360 	struct kstat_named		vis_fcmpgt32;
361 	struct kstat_named		vis_fcmpeq32;
362 	struct kstat_named		vis_fmul8x16;
363 	struct kstat_named		vis_fmul8x16au;
364 	struct kstat_named		vis_fmul8x16al;
365 	struct kstat_named		vis_fmul8sux16;
366 	struct kstat_named		vis_fmul8ulx16;
367 	struct kstat_named		vis_fmuld8sux16;
368 	struct kstat_named		vis_fmuld8ulx16;
369 	struct kstat_named		vis_fpack16;
370 	struct kstat_named		vis_fpack32;
371 	struct kstat_named		vis_fpackfix;
372 	struct kstat_named		vis_fexpand;
373 	struct kstat_named		vis_fpmerge;
374 	struct kstat_named		vis_pdist;
375 	struct kstat_named		vis_bshuffle;
376 };
377 
378 #define	VISINFO_KSTAT(opcode)	{					\
379 	extern void __dtrace_probe___visinfo_##opcode(uint64_t *);	\
380 	uint64_t *stataddr = &visinfo.opcode.value.ui64;		\
381 	__dtrace_probe___visinfo_##opcode(stataddr);       		\
382 	atomic_add_64(&visinfo.opcode.value.ui64, 1);			\
383 }
384 
385 
386 /* PUBLIC FUNCTIONS */
387 
388 #ifdef	__STDC__
389 
390 /*
391  * fpu_vis_sim simulates FPU VIS Partial load store instructions; reads and
392  * writes FPU data registers directly or works with the PCB image if fpu_exists
393  * is 0.
394  */
395 extern enum ftt_type fpu_vis_sim(fp_simd_type *pfpsd, fp_inst_type *pinst,
396 	struct regs *pregs, fsr_type *pfsr, uint64_t gsr, uint32_t inst);
397 /*
398  * fpu_simulator simulates FPU instructions only; reads and writes FPU data
399  * registers directly.
400  */
401 extern enum ftt_type fpu_simulator(fp_simd_type *pfpsd, fp_inst_type *pinst,
402 	fsr_type *pfsr, uint64_t gsr, uint32_t inst);
403 /*
404  * fp_emulator simulates FPU and CPU-FPU instructions; reads and writes FPU
405  * data registers from image in pfpu.
406  */
407 extern enum ftt_type fp_emulator(fp_simd_type *pfpsd, fp_inst_type *pinst,
408 	struct regs *rp, void *prw, kfpu_t *pfpu);
409 /*
410  * fp_traps handles passing exception conditions to the kernel.
411  * It is called after fp_simulator or fp_emulator fail (return a non-zero ftt).
412  */
413 extern void fp_traps(fp_simd_type *pfpsd, enum ftt_type ftt, struct regs *rp);
414 
415 /*
416  * fp_kstat_update tracks fpu exception conditions.
417  * It is called after a hardware trap returns a non-zero ftt.
418  */
419 extern void fp_kstat_update(enum ftt_type ftt);
420 
421 /*
422  * fp_precise handles floating point unimplemented and unfinished traps,
423  * for sparc V9 hardware. These traps are normally passed along to the
424  * fpu_simulator, to see if it can run the unimplemented instruction or
425  * finish the unfinished instruction. Needless to say, this takes time.
426  */
427 extern void fp_precise(struct regs *rp);
428 
429 /*
430  * fpu_trap handles V9 floating point ieee and other floating point traps.
431  * It is called after fp_simulator or fp_emulator fail (return a non-zero ftt),
432  * and from the _fp_ieee_exception trap handler.
433  */
434 extern void fpu_trap(struct regs *rp, caddr_t addr, uint32_t type,
435 			uint32_t code);
436 
437 #else	/* ! __STDC__ */
438 
439 /*
440  * fpu_simulator simulates FPU instructions only; reads and writes FPU data
441  * registers directly.
442  */
443 extern enum ftt_type fpu_simulator(
444 	fp_simd_type	*pfpsd,	 /* Pointer to FPU simulator data */
445 	fp_inst_type	*pinst,	 /* Pointer to FPU instruction to simulate. */
446 	fsr_type	*pfsr,	 /* Pointer to image of FSR to read & write. */
447 	int		instr);	 /* Instruction to emulate. */
448 
449 /*
450  * fp_emulator simulates FPU and CPU-FPU instructions; reads and writes FPU
451  * data registers from image in pfpu.
452  */
453 extern enum ftt_type fp_emulator(
454 	fp_simd_type	*pfpsd,	   /* Pointer to FPU simulator data */
455 	fp_inst_type	*pinst,    /* Pointer to FPU instruction to simulate. */
456 	struct regs	*pregs,    /* Pointer to PCB image of registers. */
457 	struct rwindow	*pwindow,  /* Pointer to locals and ins. */
458 	struct fpu	*pfpu);	   /* Pointer to FPU register block. */
459 
460 /*
461  * fp_traps handles passing exception conditions to the kernel.
462  * It is called after fp_simulator or fp_emulator fail (return a non-zero ftt).
463  */
464 extern void fp_traps(
465 	fp_simd_type	*pfpsd,	 /* Pointer to FPU simulator data */
466 	enum ftt_type	ftt,	 /* Type of trap. */
467 	struct regs	*rp);	 /* Pointer to PCB image of registers. */
468 
469 /*
470  * fp_kstat_update tracks fpu exception conditions.
471  * It is called after a hardware trap returns a non-zero ftt.
472  */
473 extern void fp_kstat_update(enum ftt_type ftt);	/* Type of trap. */
474 
475 /*
476  * fp_precise handles floating point unimplemented and unfinished traps,
477  * for sparc V9 hardware. These traps are normally passed along to the
478  * fpu_simulator, to see if it can run the unimplemented instruction or
479  * finish the unfinished instruction. Needless to say, this takes time.
480  */
481 extern void fp_precise(
482 	struct regs *rp);	/* Pointer to PCB image of registers. */
483 
484 /*
485  * fpu_trap handles V9 floating point ieee and other floating point traps.
486  * It is called after fp_simulator or fp_emulator fail (return a non-zero ftt),
487  * and from the _fp_ieee_exception trap handler.
488  */
489 extern void fpu_trap(
490 	struct regs *rp,	/* Pointer to PCB image of registers. */
491 	caddr_t addr,		/* Address of trapping instruction. */
492 	uint32_t type,		/* Type of trapping exception. */
493 	uint32_t code);		/* Trap code -> si_code. */
494 
495 #endif	/* __STDC__ */
496 #endif /* _ASM */
497 
498 #ifdef	__cplusplus
499 }
500 #endif
501 
502 #endif	/* _SYS_FPU_FPU_SIMULATOR_H */
503