1
/*	$NetBSD: fpu_emu.c,v 1.14 2005/12/11 12:18:42 christos Exp $ */
2

3
/*-
4
 * SPDX-License-Identifier: BSD-4-Clause
5
 *
6
 * Copyright 2001 Wasabi Systems, Inc.
7
 * All rights reserved.
8
 *
9
 * Written by Eduardo Horvath and Simon Burge for Wasabi Systems, Inc.
10
 *
11
 * Redistribution and use in source and binary forms, with or without
12
 * modification, are permitted provided that the following conditions
13
 * are met:
14
 * 1. Redistributions of source code must retain the above copyright
15
 *    notice, this list of conditions and the following disclaimer.
16
 * 2. Redistributions in binary form must reproduce the above copyright
17
 *    notice, this list of conditions and the following disclaimer in the
18
 *    documentation and/or other materials provided with the distribution.
19
 * 3. All advertising materials mentioning features or use of this software
20
 *    must display the following acknowledgement:
21
 *      This product includes software developed for the NetBSD Project by
22
 *      Wasabi Systems, Inc.
23
 * 4. The name of Wasabi Systems, Inc. may not be used to endorse
24
 *    or promote products derived from this software without specific prior
25
 *    written permission.
26
 *
27
 * THIS SOFTWARE IS PROVIDED BY WASABI SYSTEMS, INC. ``AS IS'' AND
28
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
29
 * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
30
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL WASABI SYSTEMS, INC
31
 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
32
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
33
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
34
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
35
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
36
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
37
 * POSSIBILITY OF SUCH DAMAGE.
38
 */
39

40
/*
41
 * Copyright (c) 1992, 1993
42
 *	The Regents of the University of California.  All rights reserved.
43
 *
44
 * This software was developed by the Computer Systems Engineering group
45
 * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
46
 * contributed to Berkeley.
47
 *
48
 * All advertising materials mentioning features or use of this software
49
 * must display the following acknowledgement:
50
 *	This product includes software developed by the University of
51
 *	California, Lawrence Berkeley Laboratory.
52
 *
53
 * Redistribution and use in source and binary forms, with or without
54
 * modification, are permitted provided that the following conditions
55
 * are met:
56
 * 1. Redistributions of source code must retain the above copyright
57
 *    notice, this list of conditions and the following disclaimer.
58
 * 2. Redistributions in binary form must reproduce the above copyright
59
 *    notice, this list of conditions and the following disclaimer in the
60
 *    documentation and/or other materials provided with the distribution.
61
 * 3. Neither the name of the University nor the names of its contributors
62
 *    may be used to endorse or promote products derived from this software
63
 *    without specific prior written permission.
64
 *
65
 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
66
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
67
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
68
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
69
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
70
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
71
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
72
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
73
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
74
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
75
 * SUCH DAMAGE.
76
 */
77

78
#include <sys/cdefs.h>
79
#include "opt_ddb.h"
80

81
#include <sys/param.h>
82
#include <sys/systm.h>
83
#include <sys/kdb.h>
84
#include <sys/kernel.h>
85
#include <sys/proc.h>
86
#include <sys/sysctl.h>
87
#include <sys/signal.h>
88
#include <sys/syslog.h>
89
#include <sys/signalvar.h>
90

91
#include <machine/fpu.h>
92

93
#include <powerpc/fpu/fpu_emu.h>
94
#include <powerpc/fpu/fpu_extern.h>
95
#include <powerpc/fpu/fpu_instr.h>
96

97
static SYSCTL_NODE(_hw, OID_AUTO, fpu_emu, CTLFLAG_RW | CTLFLAG_MPSAFE, 0,
98
    "FPU emulator");
99

100
#define	FPU_EMU_EVCNT_DECL(name)					\
101
static u_int fpu_emu_evcnt_##name;					\
102
SYSCTL_INT(_hw_fpu_emu, OID_AUTO, evcnt_##name, CTLFLAG_RD,		\
103
    &fpu_emu_evcnt_##name, 0, "")
104

105
#define	FPU_EMU_EVCNT_INCR(name)	fpu_emu_evcnt_##name++
106

107
FPU_EMU_EVCNT_DECL(stfiwx);
108
FPU_EMU_EVCNT_DECL(fpstore);
109
FPU_EMU_EVCNT_DECL(fpload);
110
FPU_EMU_EVCNT_DECL(fcmpu);
111
FPU_EMU_EVCNT_DECL(frsp);
112
FPU_EMU_EVCNT_DECL(fctiw);
113
FPU_EMU_EVCNT_DECL(fcmpo);
114
FPU_EMU_EVCNT_DECL(mtfsb1);
115
FPU_EMU_EVCNT_DECL(fnegabs);
116
FPU_EMU_EVCNT_DECL(mcrfs);
117
FPU_EMU_EVCNT_DECL(mtfsb0);
118
FPU_EMU_EVCNT_DECL(fmr);
119
FPU_EMU_EVCNT_DECL(mtfsfi);
120
FPU_EMU_EVCNT_DECL(fnabs);
121
FPU_EMU_EVCNT_DECL(fabs);
122
FPU_EMU_EVCNT_DECL(mffs);
123
FPU_EMU_EVCNT_DECL(mtfsf);
124
FPU_EMU_EVCNT_DECL(fctid);
125
FPU_EMU_EVCNT_DECL(fcfid);
126
FPU_EMU_EVCNT_DECL(fdiv);
127
FPU_EMU_EVCNT_DECL(fsub);
128
FPU_EMU_EVCNT_DECL(fadd);
129
FPU_EMU_EVCNT_DECL(fsqrt);
130
FPU_EMU_EVCNT_DECL(fsel);
131
FPU_EMU_EVCNT_DECL(fpres);
132
FPU_EMU_EVCNT_DECL(fmul);
133
FPU_EMU_EVCNT_DECL(frsqrte);
134
FPU_EMU_EVCNT_DECL(fmulsub);
135
FPU_EMU_EVCNT_DECL(fmuladd);
136
FPU_EMU_EVCNT_DECL(fnmsub);
137
FPU_EMU_EVCNT_DECL(fnmadd);
138

139
/* FPSR exception masks */
140
#define FPSR_EX_MSK	(FPSCR_VX|FPSCR_OX|FPSCR_UX|FPSCR_ZX|		\
141
			FPSCR_XX|FPSCR_VXSNAN|FPSCR_VXISI|FPSCR_VXIDI|	\
142
			FPSCR_VXZDZ|FPSCR_VXIMZ|FPSCR_VXVC|FPSCR_VXSOFT|\
143
			FPSCR_VXSQRT|FPSCR_VXCVI)
144
#define	FPSR_EX		(FPSCR_VE|FPSCR_OE|FPSCR_UE|FPSCR_ZE|FPSCR_XE)
145
#define	FPSR_EXOP	(FPSR_EX_MSK&(~FPSR_EX))
146

147
int fpe_debug = 0;
148

149
#ifdef DEBUG
150
vm_offset_t opc_disasm(vm_offset_t, int);
151

152
/*
153
 * Dump a `fpn' structure.
154
 */
155
void
156
fpu_dumpfpn(struct fpn *fp)
157
{
158
	static const char *class[] = {
159
		"SNAN", "QNAN", "ZERO", "NUM", "INF"
160
	};
161

162
	printf("%s %c.%x %x %x %xE%d", class[fp->fp_class + 2],
163
		fp->fp_sign ? '-' : ' ',
164
		fp->fp_mant[0],	fp->fp_mant[1],
165
		fp->fp_mant[2], fp->fp_mant[3], 
166
		fp->fp_exp);
167
}
168
#endif
169

170
/*
171
 * fpu_execute returns the following error numbers (0 = no error):
172
 */
173
#define	FPE		1	/* take a floating point exception */
174
#define	NOTFPU		2	/* not an FPU instruction */
175
#define	FAULT		3
176

177
/*
178
 * Emulate a floating-point instruction.
179
 * Return zero for success, else signal number.
180
 * (Typically: zero, SIGFPE, SIGILL, SIGSEGV)
181
 */
182
int
183
fpu_emulate(struct trapframe *frame, struct fpu *fpf)
184
{
185
	union instr insn;
186
	struct fpemu fe;
187
	int sig;
188

189
	/* initialize insn.is_datasize to tell it is *not* initialized */
190
	fe.fe_fpstate = fpf;
191
	fe.fe_cx = 0;
192

193
	/* always set this (to avoid a warning) */
194

195
	if (copyin((void *) (frame->srr0), &insn.i_int, sizeof (insn.i_int))) {
196
#ifdef DEBUG
197
		printf("fpu_emulate: fault reading opcode\n");
198
#endif
199
		return SIGSEGV;
200
	}
201

202
	DPRINTF(FPE_EX, ("fpu_emulate: emulating insn %x at %p\n",
203
	    insn.i_int, (void *)frame->srr0));
204

205
	if ((insn.i_any.i_opcd == OPC_TWI) ||
206
	    ((insn.i_any.i_opcd == OPC_integer_31) &&
207
	    (insn.i_x.i_xo == OPC31_TW))) {
208
		/* Check for the two trap insns. */
209
		DPRINTF(FPE_EX, ("fpu_emulate: SIGTRAP\n"));
210
		return (SIGTRAP);
211
	}
212
	sig = 0;
213
	switch (fpu_execute(frame, &fe, &insn)) {
214
	case 0:
215
		DPRINTF(FPE_EX, ("fpu_emulate: success\n"));
216
		frame->srr0 += 4;
217
		break;
218

219
	case FPE:
220
		DPRINTF(FPE_EX, ("fpu_emulate: SIGFPE\n"));
221
		sig = SIGFPE;
222
		break;
223

224
	case FAULT:
225
		DPRINTF(FPE_EX, ("fpu_emulate: SIGSEGV\n"));
226
		sig = SIGSEGV;
227
		break;
228

229
	case NOTFPU:
230
	default:
231
		DPRINTF(FPE_EX, ("fpu_emulate: SIGILL\n"));
232
#ifdef DEBUG
233
		if (fpe_debug & FPE_EX) {
234
			printf("fpu_emulate:  illegal insn %x at %p:",
235
			insn.i_int, (void *) (frame->srr0));
236
			opc_disasm(frame->srr0, insn.i_int);
237
		}
238
#endif
239
		sig = SIGILL;
240
#ifdef DEBUG
241
		if (fpe_debug & FPE_EX)
242
			kdb_enter(KDB_WHY_UNSET, "illegal instruction");
243
#endif
244
		break;
245
	}
246

247
	return (sig);
248
}
249

250
/*
251
 * Execute an FPU instruction (one that runs entirely in the FPU; not
252
 * FBfcc or STF, for instance).  On return, fe->fe_fs->fs_fsr will be
253
 * modified to reflect the setting the hardware would have left.
254
 *
255
 * Note that we do not catch all illegal opcodes, so you can, for instance,
256
 * multiply two integers this way.
257
 */
258
int
259
fpu_execute(struct trapframe *tf, struct fpemu *fe, union instr *insn)
260
{
261
	struct fpn *fp;
262
	union instr instr = *insn;
263
	int *a;
264
	vm_offset_t addr;
265
	int ra, rb, rc, rt, type, mask, fsr, cx, bf, setcr;
266
	unsigned int cond;
267
	struct fpu *fs;
268

269
	/* Setup work. */
270
	fp = NULL;
271
	fs = fe->fe_fpstate;
272
	fe->fe_fpscr = ((int *)&fs->fpscr)[1];
273

274
	/*
275
	 * On PowerPC all floating point values are stored in registers
276
	 * as doubles, even when used for single precision operations.
277
	 */
278
	type = FTYPE_DBL;
279
	cond = instr.i_any.i_rc;
280
	setcr = 0;
281
	bf = 0;	/* XXX gcc */
282

283
#if defined(DDB) && defined(DEBUG)
284
	if (fpe_debug & FPE_EX) {
285
		vm_offset_t loc = tf->srr0;
286

287
		printf("Trying to emulate: %p ", (void *)loc);
288
		opc_disasm(loc, instr.i_int);
289
	}
290
#endif
291

292
	/*
293
	 * `Decode' and execute instruction.
294
	 */
295

296
	if ((instr.i_any.i_opcd >= OPC_LFS && instr.i_any.i_opcd <= OPC_STFDU) ||
297
	    instr.i_any.i_opcd == OPC_integer_31) {
298
		/*
299
		 * Handle load/store insns:
300
		 *
301
		 * Convert to/from single if needed, calculate addr,
302
		 * and update index reg if needed.
303
		 */
304
		double buf;
305
		size_t size = sizeof(float);
306
		int store, update;
307

308
		cond = 0; /* ld/st never set condition codes */
309

310
		if (instr.i_any.i_opcd == OPC_integer_31) {
311
			if (instr.i_x.i_xo == OPC31_STFIWX) {
312
				FPU_EMU_EVCNT_INCR(stfiwx);
313

314
				/* Store as integer */
315
				ra = instr.i_x.i_ra;
316
				rb = instr.i_x.i_rb;
317
				DPRINTF(FPE_INSN,
318
					("reg %d has %jx reg %d has %jx\n",
319
					ra, (uintmax_t)tf->fixreg[ra], rb,
320
					(uintmax_t)tf->fixreg[rb]));
321

322
				addr = tf->fixreg[rb];
323
				if (ra != 0)
324
					addr += tf->fixreg[ra];
325
				rt = instr.i_x.i_rt;
326
				a = (int *)&fs->fpr[rt].fpr;
327
				DPRINTF(FPE_INSN,
328
					("fpu_execute: Store INT %x at %p\n",
329
						a[1], (void *)addr));
330
				if (copyout(&a[1], (void *)addr, sizeof(int)))
331
					return (FAULT);
332
				return (0);
333
			}
334

335
			if ((instr.i_x.i_xo & OPC31_FPMASK) != OPC31_FPOP)
336
				/* Not an indexed FP load/store op */
337
				return (NOTFPU);
338

339
			store = (instr.i_x.i_xo & 0x80);
340
			if (instr.i_x.i_xo & 0x40)
341
				size = sizeof(double);
342
			else
343
				type = FTYPE_SNG;
344
			update = (instr.i_x.i_xo & 0x20);
345
			
346
			/* calculate EA of load/store */
347
			ra = instr.i_x.i_ra;
348
			rb = instr.i_x.i_rb;
349
			DPRINTF(FPE_INSN, ("reg %d has %jx reg %d has %jx\n",
350
				ra, (uintmax_t)tf->fixreg[ra], rb,
351
				(uintmax_t)tf->fixreg[rb]));
352
			addr = tf->fixreg[rb];
353
			if (ra != 0)
354
				addr += tf->fixreg[ra];
355
			rt = instr.i_x.i_rt;
356
		} else {
357
			store = instr.i_d.i_opcd & 0x4;
358
			if (instr.i_d.i_opcd & 0x2)
359
				size = sizeof(double);
360
			else
361
				type = FTYPE_SNG;
362
			update = instr.i_d.i_opcd & 0x1;
363

364
			/* calculate EA of load/store */
365
			ra = instr.i_d.i_ra;
366
			addr = instr.i_d.i_d;
367
			DPRINTF(FPE_INSN, ("reg %d has %jx displ %jx\n",
368
				ra, (uintmax_t)tf->fixreg[ra],
369
				(uintmax_t)addr));
370
			if (ra != 0)
371
				addr += tf->fixreg[ra];
372
			rt = instr.i_d.i_rt;
373
		}
374

375
		if (update && ra == 0)
376
			return (NOTFPU);
377

378
		if (store) {
379
			/* Store */
380
			FPU_EMU_EVCNT_INCR(fpstore);
381
			if (type != FTYPE_DBL) {
382
				DPRINTF(FPE_INSN,
383
					("fpu_execute: Store SNG at %p\n",
384
						(void *)addr));
385
				fpu_explode(fe, fp = &fe->fe_f1, FTYPE_DBL, rt);
386
				fpu_implode(fe, fp, type, (void *)&buf);
387
				if (copyout(&buf, (void *)addr, size))
388
					return (FAULT);
389
			} else {
390
				DPRINTF(FPE_INSN, 
391
					("fpu_execute: Store DBL at %p\n",
392
						(void *)addr));
393
				if (copyout(&fs->fpr[rt].fpr, (void *)addr,
394
				    size))
395
					return (FAULT);
396
			}
397
		} else {
398
			/* Load */
399
			FPU_EMU_EVCNT_INCR(fpload);
400
			DPRINTF(FPE_INSN, ("fpu_execute: Load from %p\n",
401
				(void *)addr));
402
			if (copyin((const void *)addr, &fs->fpr[rt].fpr,
403
			    size))
404
				return (FAULT);
405
			if (type != FTYPE_DBL) {
406
				fpu_explode(fe, fp = &fe->fe_f1, type, rt);
407
				fpu_implode(fe, fp, FTYPE_DBL, 
408
					(u_int *)&fs->fpr[rt].fpr);
409
			}
410
		}
411
		if (update) 
412
			tf->fixreg[ra] = addr;
413
		/* Complete. */
414
		return (0);
415
#ifdef notyet
416
	} else if (instr.i_any.i_opcd == OPC_load_st_62) {
417
		/* These are 64-bit extensions */
418
		return (NOTFPU);
419
#endif
420
	} else if (instr.i_any.i_opcd == OPC_sp_fp_59 ||
421
		instr.i_any.i_opcd == OPC_dp_fp_63) {
422
		if (instr.i_any.i_opcd == OPC_dp_fp_63 &&
423
		    !(instr.i_a.i_xo & OPC63M_MASK)) {
424
			/* Format X */
425
			rt = instr.i_x.i_rt;
426
			ra = instr.i_x.i_ra;
427
			rb = instr.i_x.i_rb;
428

429
			/* One of the special opcodes.... */
430
			switch (instr.i_x.i_xo) {
431
			case	OPC63_FCMPU:
432
				FPU_EMU_EVCNT_INCR(fcmpu);
433
				DPRINTF(FPE_INSN, ("fpu_execute: FCMPU\n"));
434
				rt >>= 2;
435
				fpu_explode(fe, &fe->fe_f1, type, ra);
436
				fpu_explode(fe, &fe->fe_f2, type, rb);
437
				fpu_compare(fe, 0);
438
				/* Make sure we do the condition regs. */
439
				cond = 0;
440
				/* N.B.: i_rs is already left shifted by two. */
441
				bf = instr.i_x.i_rs & 0xfc;
442
				setcr = 1;
443
				break;
444

445
			case	OPC63_FRSP:
446
				/*
447
				 * Convert to single: 
448
				 *
449
				 * PowerPC uses this to round a double
450
				 * precision value to single precision,
451
				 * but values in registers are always 
452
				 * stored in double precision format.
453
				 */
454
				FPU_EMU_EVCNT_INCR(frsp);
455
				DPRINTF(FPE_INSN, ("fpu_execute: FRSP\n"));
456
				fpu_explode(fe, fp = &fe->fe_f1, FTYPE_DBL, rb);
457
				fpu_implode(fe, fp, FTYPE_SNG, 
458
					(u_int *)&fs->fpr[rt].fpr);
459
				fpu_explode(fe, fp = &fe->fe_f1, FTYPE_SNG, rt);
460
				type = FTYPE_DBL;
461
				break;
462
			case	OPC63_FCTIW:
463
			case	OPC63_FCTIWZ:
464
				FPU_EMU_EVCNT_INCR(fctiw);
465
				DPRINTF(FPE_INSN, ("fpu_execute: FCTIW\n"));
466
				fpu_explode(fe, fp = &fe->fe_f1, type, rb);
467
				type = FTYPE_INT;
468
				break;
469
			case	OPC63_FCMPO:
470
				FPU_EMU_EVCNT_INCR(fcmpo);
471
				DPRINTF(FPE_INSN, ("fpu_execute: FCMPO\n"));
472
				rt >>= 2;
473
				fpu_explode(fe, &fe->fe_f1, type, ra);
474
				fpu_explode(fe, &fe->fe_f2, type, rb);
475
				fpu_compare(fe, 1);
476
				/* Make sure we do the condition regs. */
477
				cond = 0;
478
				/* N.B.: i_rs is already left shifted by two. */
479
				bf = instr.i_x.i_rs & 0xfc;
480
				setcr = 1;
481
				break;
482
			case	OPC63_MTFSB1:
483
				FPU_EMU_EVCNT_INCR(mtfsb1);
484
				DPRINTF(FPE_INSN, ("fpu_execute: MTFSB1\n"));
485
				fe->fe_fpscr |= 
486
					(~(FPSCR_VX|FPSR_EX) & (1<<(31-rt)));
487
				break;
488
			case	OPC63_FNEG:
489
				FPU_EMU_EVCNT_INCR(fnegabs);
490
				DPRINTF(FPE_INSN, ("fpu_execute: FNEGABS\n"));
491
				memcpy(&fs->fpr[rt].fpr, &fs->fpr[rb].fpr,
492
					sizeof(double));
493
				a = (int *)&fs->fpr[rt].fpr;
494
				*a ^= (1U << 31);
495
				break;
496
			case	OPC63_MCRFS:
497
				FPU_EMU_EVCNT_INCR(mcrfs);
498
				DPRINTF(FPE_INSN, ("fpu_execute: MCRFS\n"));
499
				cond = 0;
500
				rt &= 0x1c;
501
				ra &= 0x1c;
502
				/* Extract the bits we want */
503
				mask = (fe->fe_fpscr >> (28 - ra)) & 0xf;
504
				/* Clear the bits we copied. */
505
				fe->fe_cx =
506
					(FPSR_EX_MSK | (0xf << (28 - ra)));
507
				fe->fe_fpscr &= fe->fe_cx;
508
				/* Now shove them in the right part of cr */
509
				tf->cr &= ~(0xf << (28 - rt));
510
				tf->cr |= (mask << (28 - rt));
511
				break;
512
			case	OPC63_MTFSB0:
513
				FPU_EMU_EVCNT_INCR(mtfsb0);
514
				DPRINTF(FPE_INSN, ("fpu_execute: MTFSB0\n"));
515
				fe->fe_fpscr &=
516
					((FPSCR_VX|FPSR_EX) & ~(1<<(31-rt)));
517
				break;
518
			case	OPC63_FMR:
519
				FPU_EMU_EVCNT_INCR(fmr);
520
				DPRINTF(FPE_INSN, ("fpu_execute: FMR\n"));
521
				memcpy(&fs->fpr[rt].fpr, &fs->fpr[rb].fpr,
522
					sizeof(double));
523
				break;
524
			case	OPC63_MTFSFI:
525
				FPU_EMU_EVCNT_INCR(mtfsfi);
526
				DPRINTF(FPE_INSN, ("fpu_execute: MTFSFI\n"));
527
				rb >>= 1;
528
				rt &= 0x1c; /* Already left-shifted 4 */
529
				fe->fe_cx = rb << (28 - rt);
530
				mask = 0xf<<(28 - rt);
531
				fe->fe_fpscr = (fe->fe_fpscr & ~mask) | 
532
					fe->fe_cx;
533
/* XXX weird stuff about OX, FX, FEX, and VX should be handled */
534
				break;
535
			case	OPC63_FNABS:
536
				FPU_EMU_EVCNT_INCR(fnabs);
537
				DPRINTF(FPE_INSN, ("fpu_execute: FABS\n"));
538
				memcpy(&fs->fpr[rt].fpr, &fs->fpr[rb].fpr,
539
					sizeof(double));
540
				a = (int *)&fs->fpr[rt].fpr;
541
				*a |= (1U << 31);
542
				break;
543
			case	OPC63_FABS:
544
				FPU_EMU_EVCNT_INCR(fabs);
545
				DPRINTF(FPE_INSN, ("fpu_execute: FABS\n"));
546
				memcpy(&fs->fpr[rt].fpr, &fs->fpr[rb].fpr,
547
					sizeof(double));
548
				a = (int *)&fs->fpr[rt].fpr;
549
				*a &= ~(1U << 31);
550
				break;
551
			case	OPC63_MFFS:
552
				FPU_EMU_EVCNT_INCR(mffs);
553
				DPRINTF(FPE_INSN, ("fpu_execute: MFFS\n"));
554
				memcpy(&fs->fpr[rt].fpr, &fs->fpscr,
555
					sizeof(fs->fpscr));
556
				break;
557
			case	OPC63_MTFSF:
558
				FPU_EMU_EVCNT_INCR(mtfsf);
559
				DPRINTF(FPE_INSN, ("fpu_execute: MTFSF\n"));
560
				if ((rt = instr.i_xfl.i_flm) == -1)
561
					mask = -1;
562
				else {
563
					mask = 0;
564
					/* Convert 1 bit -> 4 bits */
565
					for (ra = 0; ra < 8; ra ++)
566
						if (rt & (1<<ra))
567
							mask |= (0xf<<(4*ra));
568
				}
569
				a = (int *)&fs->fpr[rt].fpr;
570
				fe->fe_cx = mask & a[1];
571
				fe->fe_fpscr = (fe->fe_fpscr&~mask) | 
572
					(fe->fe_cx);
573
/* XXX weird stuff about OX, FX, FEX, and VX should be handled */
574
				break;
575
			case	OPC63_FCTID:
576
			case	OPC63_FCTIDZ:
577
				FPU_EMU_EVCNT_INCR(fctid);
578
				DPRINTF(FPE_INSN, ("fpu_execute: FCTID\n"));
579
				fpu_explode(fe, fp = &fe->fe_f1, type, rb);
580
				type = FTYPE_LNG;
581
				break;
582
			case	OPC63_FCFID:
583
				FPU_EMU_EVCNT_INCR(fcfid);
584
				DPRINTF(FPE_INSN, ("fpu_execute: FCFID\n"));
585
				type = FTYPE_LNG;
586
				fpu_explode(fe, fp = &fe->fe_f1, type, rb);
587
				type = FTYPE_DBL;
588
				break;
589
			default:
590
				return (NOTFPU);
591
				break;
592
			}
593
		} else {
594
			/* Format A */
595
			rt = instr.i_a.i_frt;
596
			ra = instr.i_a.i_fra;
597
			rb = instr.i_a.i_frb;
598
			rc = instr.i_a.i_frc;
599

600
			/*
601
			 * All arithmetic operations work on registers, which
602
			 * are stored as doubles.
603
			 */
604
			type = FTYPE_DBL;
605
			switch ((unsigned int)instr.i_a.i_xo) {
606
			case	OPC59_FDIVS:
607
				FPU_EMU_EVCNT_INCR(fdiv);
608
				DPRINTF(FPE_INSN, ("fpu_execute: FDIV\n"));
609
				fpu_explode(fe, &fe->fe_f1, type, ra);
610
				fpu_explode(fe, &fe->fe_f2, type, rb);
611
				fp = fpu_div(fe);
612
				break;
613
			case	OPC59_FSUBS:
614
				FPU_EMU_EVCNT_INCR(fsub);
615
				DPRINTF(FPE_INSN, ("fpu_execute: FSUB\n"));
616
				fpu_explode(fe, &fe->fe_f1, type, ra);
617
				fpu_explode(fe, &fe->fe_f2, type, rb);
618
				fp = fpu_sub(fe);
619
				break;
620
			case	OPC59_FADDS:
621
				FPU_EMU_EVCNT_INCR(fadd);
622
				DPRINTF(FPE_INSN, ("fpu_execute: FADD\n"));
623
				fpu_explode(fe, &fe->fe_f1, type, ra);
624
				fpu_explode(fe, &fe->fe_f2, type, rb);
625
				fp = fpu_add(fe);
626
				break;
627
			case	OPC59_FSQRTS:
628
				FPU_EMU_EVCNT_INCR(fsqrt);
629
				DPRINTF(FPE_INSN, ("fpu_execute: FSQRT\n"));
630
				fpu_explode(fe, &fe->fe_f1, type, rb);
631
				fp = fpu_sqrt(fe);
632
				break;
633
			case	OPC63M_FSEL:
634
				FPU_EMU_EVCNT_INCR(fsel);
635
				DPRINTF(FPE_INSN, ("fpu_execute: FSEL\n"));
636
				a = (int *)&fe->fe_fpstate->fpr[ra].fpr;
637
				if ((*a & 0x80000000) && (*a & 0x7fffffff)) 
638
					/* fra < 0 */
639
					rc = rb;
640
				DPRINTF(FPE_INSN, ("f%d => f%d\n", rc, rt));
641
				memcpy(&fs->fpr[rt].fpr, &fs->fpr[rc].fpr,
642
					sizeof(double));
643
				break;
644
			case	OPC59_FRES:
645
				FPU_EMU_EVCNT_INCR(fpres);
646
				DPRINTF(FPE_INSN, ("fpu_execute: FPRES\n"));
647
				fpu_explode(fe, &fe->fe_f1, type, rb);
648
				fp = fpu_sqrt(fe);
649
				/* now we've gotta overwrite the dest reg */
650
				*((int *)&fe->fe_fpstate->fpr[rt].fpr) = 1;
651
				fpu_explode(fe, &fe->fe_f1, FTYPE_INT, rt);
652
				fpu_div(fe);
653
				break;
654
			case	OPC59_FMULS:
655
				FPU_EMU_EVCNT_INCR(fmul);
656
				DPRINTF(FPE_INSN, ("fpu_execute: FMUL\n"));
657
				fpu_explode(fe, &fe->fe_f1, type, ra);
658
				fpu_explode(fe, &fe->fe_f2, type, rc);
659
				fp = fpu_mul(fe);
660
				break;
661
			case	OPC63M_FRSQRTE:
662
				/* Reciprocal sqrt() estimate */
663
				FPU_EMU_EVCNT_INCR(frsqrte);
664
				DPRINTF(FPE_INSN, ("fpu_execute: FRSQRTE\n"));
665
				fpu_explode(fe, &fe->fe_f1, type, rb);
666
				fp = fpu_sqrt(fe);
667
				fe->fe_f2 = *fp;
668
				/* now we've gotta overwrite the dest reg */
669
				*((int *)&fe->fe_fpstate->fpr[rt].fpr) = 1;
670
				fpu_explode(fe, &fe->fe_f1, FTYPE_INT, rt);
671
				fpu_div(fe);
672
				break;
673
			case	OPC59_FMSUBS:
674
				FPU_EMU_EVCNT_INCR(fmulsub);
675
				DPRINTF(FPE_INSN, ("fpu_execute: FMULSUB\n"));
676
				fpu_explode(fe, &fe->fe_f1, type, ra);
677
				fpu_explode(fe, &fe->fe_f2, type, rc);
678
				fp = fpu_mul(fe);
679
				fe->fe_f1 = *fp;
680
				fpu_explode(fe, &fe->fe_f2, type, rb);
681
				fp = fpu_sub(fe);
682
				break;
683
			case	OPC59_FMADDS:
684
				FPU_EMU_EVCNT_INCR(fmuladd);
685
				DPRINTF(FPE_INSN, ("fpu_execute: FMULADD\n"));
686
				fpu_explode(fe, &fe->fe_f1, type, ra);
687
				fpu_explode(fe, &fe->fe_f2, type, rc);
688
				fp = fpu_mul(fe);
689
				fe->fe_f1 = *fp;
690
				fpu_explode(fe, &fe->fe_f2, type, rb);
691
				fp = fpu_add(fe);
692
				break;
693
			case	OPC59_FNMSUBS:
694
				FPU_EMU_EVCNT_INCR(fnmsub);
695
				DPRINTF(FPE_INSN, ("fpu_execute: FNMSUB\n"));
696
				fpu_explode(fe, &fe->fe_f1, type, ra);
697
				fpu_explode(fe, &fe->fe_f2, type, rc);
698
				fp = fpu_mul(fe);
699
				fe->fe_f1 = *fp;
700
				fpu_explode(fe, &fe->fe_f2, type, rb);
701
				fp = fpu_sub(fe);
702
				/* Negate */
703
				fp->fp_sign ^= 1;
704
				break;
705
			case	OPC59_FNMADDS:
706
				FPU_EMU_EVCNT_INCR(fnmadd);
707
				DPRINTF(FPE_INSN, ("fpu_execute: FNMADD\n"));
708
				fpu_explode(fe, &fe->fe_f1, type, ra);
709
				fpu_explode(fe, &fe->fe_f2, type, rc);
710
				fp = fpu_mul(fe);
711
				fe->fe_f1 = *fp;
712
				fpu_explode(fe, &fe->fe_f2, type, rb);
713
				fp = fpu_add(fe);
714
				/* Negate */
715
				fp->fp_sign ^= 1;
716
				break;
717
			default:
718
				return (NOTFPU);
719
				break;
720
			}
721

722
			/* If the instruction was single precision, round */
723
			if (!(instr.i_any.i_opcd & 0x4)) {
724
				fpu_implode(fe, fp, FTYPE_SNG, 
725
					(u_int *)&fs->fpr[rt].fpr);
726
				fpu_explode(fe, fp = &fe->fe_f1, FTYPE_SNG, rt);
727
			}
728
		}
729
	} else {
730
		return (NOTFPU);
731
	}
732

733
	/*
734
	 * ALU operation is complete.  Collapse the result and then check
735
	 * for exceptions.  If we got any, and they are enabled, do not
736
	 * alter the destination register, just stop with an exception.
737
	 * Otherwise set new current exceptions and accrue.
738
	 */
739
	if (fp)
740
		fpu_implode(fe, fp, type, (u_int *)&fs->fpr[rt].fpr);
741
	cx = fe->fe_cx;
742
	fsr = fe->fe_fpscr;
743
	if (cx != 0) {
744
		fsr &= ~FPSCR_FX;
745
		if ((cx^fsr)&FPSR_EX_MSK)
746
			fsr |= FPSCR_FX;
747
		mask = fsr & FPSR_EX;
748
		mask <<= (25-3);
749
		if (cx & mask) 
750
			fsr |= FPSCR_FEX;
751
		if (cx & FPSCR_FPRF) {
752
			/* Need to replace CC */
753
			fsr &= ~FPSCR_FPRF;
754
		}
755
		if (cx & (FPSR_EXOP))
756
			fsr |= FPSCR_VX;
757
		fsr |= cx;
758
		DPRINTF(FPE_INSN, ("fpu_execute: cx %x, fsr %x\n", cx, fsr));
759
	}
760

761
	if (cond) {
762
		cond = fsr & 0xf0000000;
763
		/* Isolate condition codes */
764
		cond >>= 28;
765
		/* Move fpu condition codes to cr[1] */
766
		tf->cr &= (0x0f000000);
767
		tf->cr |= (cond<<24);
768
		DPRINTF(FPE_INSN, ("fpu_execute: cr[1] <= %x\n", cond));
769
	}
770

771
	if (setcr) {
772
		cond = fsr & FPSCR_FPCC;
773
		/* Isolate condition codes */
774
		cond <<= 16;
775
		/* Move fpu condition codes to cr[1] */
776
		tf->cr &= ~(0xf0000000>>bf);
777
		tf->cr |= (cond>>bf);
778
		DPRINTF(FPE_INSN, ("fpu_execute: cr[%d] (cr=%jx) <= %x\n",
779
			bf/4, (uintmax_t)tf->cr, cond));
780
	}
781

782
	((int *)&fs->fpscr)[1] = fsr;
783
	if (fsr & FPSCR_FEX)
784
		return(FPE);
785
	return (0);	/* success */
786
}
787

788