fpu_emulate.c revision 1.27.44.1
1 1.27.44.1 yamt /* $NetBSD: fpu_emulate.c,v 1.27.44.1 2009/05/04 08:11:25 yamt Exp $ */ 2 1.1 gwr 3 1.1 gwr /* 4 1.1 gwr * Copyright (c) 1995 Gordon W. Ross 5 1.3 briggs * some portion Copyright (c) 1995 Ken Nakata 6 1.1 gwr * All rights reserved. 7 1.1 gwr * 8 1.1 gwr * Redistribution and use in source and binary forms, with or without 9 1.1 gwr * modification, are permitted provided that the following conditions 10 1.1 gwr * are met: 11 1.1 gwr * 1. Redistributions of source code must retain the above copyright 12 1.1 gwr * notice, this list of conditions and the following disclaimer. 13 1.1 gwr * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 gwr * notice, this list of conditions and the following disclaimer in the 15 1.1 gwr * documentation and/or other materials provided with the distribution. 16 1.1 gwr * 3. The name of the author may not be used to endorse or promote products 17 1.1 gwr * derived from this software without specific prior written permission. 18 1.1 gwr * 4. All advertising materials mentioning features or use of this software 19 1.1 gwr * must display the following acknowledgement: 20 1.1 gwr * This product includes software developed by Gordon Ross 21 1.1 gwr * 22 1.1 gwr * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 gwr * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 gwr * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 gwr * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 gwr * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 gwr * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 gwr * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 gwr * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 gwr * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 gwr * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 gwr */ 33 1.1 gwr 34 1.1 gwr /* 35 1.1 gwr * mc68881 emulator 36 1.1 gwr * XXX - Just a start at it for now... 37 1.1 gwr */ 38 1.24 lukem 39 1.24 lukem #include <sys/cdefs.h> 40 1.27.44.1 yamt __KERNEL_RCSID(0, "$NetBSD: fpu_emulate.c,v 1.27.44.1 2009/05/04 08:11:25 yamt Exp $"); 41 1.20 jonathan 42 1.27 tsutsui #include <sys/param.h> 43 1.1 gwr #include <sys/types.h> 44 1.1 gwr #include <sys/signal.h> 45 1.5 briggs #include <sys/systm.h> 46 1.1 gwr #include <machine/frame.h> 47 1.1 gwr 48 1.21 briggs #if defined(DDB) && defined(DEBUG_FPE) 49 1.15 veego # include <m68k/db_machdep.h> 50 1.15 veego #endif 51 1.15 veego 52 1.3 briggs #include "fpu_emulate.h" 53 1.1 gwr 54 1.25 cl #define fpe_abort(tfp, ksi, signo, code) \ 55 1.25 cl do { \ 56 1.25 cl (ksi)->ksi_signo = (signo); \ 57 1.25 cl (ksi)->ksi_code = (code); \ 58 1.25 cl (ksi)->ksi_addr = (void *)(frame)->f_pc; \ 59 1.25 cl return -1; \ 60 1.25 cl } while (/*CONSTCOND*/0) 61 1.25 cl 62 1.27.44.1 yamt static int fpu_emul_fmovmcr(struct fpemu *fe, struct instruction *insn); 63 1.27.44.1 yamt static int fpu_emul_fmovm(struct fpemu *fe, struct instruction *insn); 64 1.27.44.1 yamt static int fpu_emul_arith(struct fpemu *fe, struct instruction *insn); 65 1.27.44.1 yamt static int fpu_emul_type1(struct fpemu *fe, struct instruction *insn); 66 1.27.44.1 yamt static int fpu_emul_brcc(struct fpemu *fe, struct instruction *insn); 67 1.27.44.1 yamt static int test_cc(struct fpemu *fe, int pred); 68 1.27.44.1 yamt static struct fpn *fpu_cmp(struct fpemu *fe); 69 1.5 briggs 70 1.21 briggs #if DEBUG_FPE 71 1.21 briggs # define DUMP_INSN(insn) \ 72 1.21 briggs printf("fpu_emulate: insn={adv=%d,siz=%d,op=%04x,w1=%04x}\n", \ 73 1.3 briggs (insn)->is_advance, (insn)->is_datasize, \ 74 1.21 briggs (insn)->is_opcode, (insn)->is_word1) 75 1.21 briggs #else 76 1.21 briggs # define DUMP_INSN(insn) 77 1.3 briggs #endif 78 1.1 gwr 79 1.1 gwr /* 80 1.1 gwr * Emulate a floating-point instruction. 81 1.1 gwr * Return zero for success, else signal number. 82 1.1 gwr * (Typically: zero, SIGFPE, SIGILL, SIGSEGV) 83 1.1 gwr */ 84 1.3 briggs int 85 1.27.44.1 yamt fpu_emulate(struct frame *frame, struct fpframe *fpf, ksiginfo_t *ksi) 86 1.1 gwr { 87 1.4 briggs static struct instruction insn; 88 1.4 briggs static struct fpemu fe; 89 1.3 briggs int word, optype, sig; 90 1.3 briggs 91 1.21 briggs 92 1.4 briggs /* initialize insn.is_datasize to tell it is *not* initialized */ 93 1.3 briggs insn.is_datasize = -1; 94 1.21 briggs 95 1.3 briggs fe.fe_frame = frame; 96 1.3 briggs fe.fe_fpframe = fpf; 97 1.3 briggs fe.fe_fpsr = fpf->fpf_fpsr; 98 1.3 briggs fe.fe_fpcr = fpf->fpf_fpcr; 99 1.1 gwr 100 1.21 briggs #if DEBUG_FPE 101 1.21 briggs printf("ENTERING fpu_emulate: FPSR=%08x, FPCR=%08x\n", 102 1.21 briggs fe.fe_fpsr, fe.fe_fpcr); 103 1.1 gwr #endif 104 1.1 gwr 105 1.13 gwr /* always set this (to avoid a warning) */ 106 1.21 briggs insn.is_pc = frame->f_pc; 107 1.21 briggs insn.is_nextpc = 0; 108 1.8 scottr if (frame->f_format == 4) { 109 1.8 scottr /* 110 1.8 scottr * A format 4 is generated by the 68{EC,LC}040. The PC is 111 1.8 scottr * already set to the instruction following the faulting 112 1.8 scottr * instruction. We need to calculate that, anyway. The 113 1.8 scottr * fslw is the PC of the faulted instruction, which is what 114 1.8 scottr * we expect to be in f_pc. 115 1.8 scottr * 116 1.8 scottr * XXX - This is a hack; it assumes we at least know the 117 1.22 is * sizes of all instructions we run across. 118 1.22 is * XXX TODO: This may not be true, so we might want to save the PC 119 1.22 is * in order to restore it later. 120 1.8 scottr */ 121 1.22 is /* insn.is_nextpc = frame->f_pc; */ 122 1.21 briggs insn.is_pc = frame->f_fmt4.f_fslw; 123 1.22 is frame->f_pc = insn.is_pc; 124 1.8 scottr } 125 1.8 scottr 126 1.21 briggs word = fusword((void *) (insn.is_pc)); 127 1.3 briggs if (word < 0) { 128 1.3 briggs #ifdef DEBUG 129 1.21 briggs printf("fpu_emulate: fault reading opcode\n"); 130 1.3 briggs #endif 131 1.25 cl fpe_abort(frame, ksi, SIGSEGV, SEGV_ACCERR); 132 1.3 briggs } 133 1.3 briggs 134 1.3 briggs if ((word & 0xf000) != 0xf000) { 135 1.3 briggs #ifdef DEBUG 136 1.21 briggs printf("fpu_emulate: not coproc. insn.: opcode=0x%x\n", word); 137 1.1 gwr #endif 138 1.25 cl fpe_abort(frame, ksi, SIGILL, ILL_ILLOPC); 139 1.3 briggs } 140 1.1 gwr 141 1.21 briggs if ((word & 0x0E00) != 0x0200) { 142 1.3 briggs #ifdef DEBUG 143 1.21 briggs printf("fpu_emulate: bad coproc. id: opcode=0x%x\n", word); 144 1.3 briggs #endif 145 1.25 cl fpe_abort(frame, ksi, SIGILL, ILL_ILLOPC); 146 1.3 briggs } 147 1.1 gwr 148 1.3 briggs insn.is_opcode = word; 149 1.3 briggs optype = (word & 0x01C0); 150 1.1 gwr 151 1.21 briggs word = fusword((void *) (insn.is_pc + 2)); 152 1.3 briggs if (word < 0) { 153 1.3 briggs #ifdef DEBUG 154 1.21 briggs printf("fpu_emulate: fault reading word1\n"); 155 1.1 gwr #endif 156 1.25 cl fpe_abort(frame, ksi, SIGSEGV, SEGV_ACCERR); 157 1.3 briggs } 158 1.3 briggs insn.is_word1 = word; 159 1.3 briggs /* all FPU instructions are at least 4-byte long */ 160 1.3 briggs insn.is_advance = 4; 161 1.3 briggs 162 1.3 briggs DUMP_INSN(&insn); 163 1.3 briggs 164 1.3 briggs /* 165 1.3 briggs * Which family (or type) of opcode is it? 166 1.3 briggs * Tests ordered by likelihood (hopefully). 167 1.3 briggs * Certainly, type 0 is the most common. 168 1.3 briggs */ 169 1.3 briggs if (optype == 0x0000) { 170 1.3 briggs /* type=0: generic */ 171 1.3 briggs if ((word & 0xc000) == 0xc000) { 172 1.21 briggs #if DEBUG_FPE 173 1.21 briggs printf("fpu_emulate: fmovm FPr\n"); 174 1.21 briggs #endif 175 1.3 briggs sig = fpu_emul_fmovm(&fe, &insn); 176 1.3 briggs } else if ((word & 0xc000) == 0x8000) { 177 1.21 briggs #if DEBUG_FPE 178 1.21 briggs printf("fpu_emulate: fmovm FPcr\n"); 179 1.21 briggs #endif 180 1.3 briggs sig = fpu_emul_fmovmcr(&fe, &insn); 181 1.3 briggs } else if ((word & 0xe000) == 0x6000) { 182 1.3 briggs /* fstore = fmove FPn,mem */ 183 1.21 briggs #if DEBUG_FPE 184 1.21 briggs printf("fpu_emulate: fmove to mem\n"); 185 1.21 briggs #endif 186 1.3 briggs sig = fpu_emul_fstore(&fe, &insn); 187 1.3 briggs } else if ((word & 0xfc00) == 0x5c00) { 188 1.3 briggs /* fmovecr */ 189 1.21 briggs #if DEBUG_FPE 190 1.21 briggs printf("fpu_emulate: fmovecr\n"); 191 1.21 briggs #endif 192 1.3 briggs sig = fpu_emul_fmovecr(&fe, &insn); 193 1.3 briggs } else if ((word & 0xa07f) == 0x26) { 194 1.3 briggs /* fscale */ 195 1.21 briggs #if DEBUG_FPE 196 1.21 briggs printf("fpu_emulate: fscale\n"); 197 1.21 briggs #endif 198 1.3 briggs sig = fpu_emul_fscale(&fe, &insn); 199 1.3 briggs } else { 200 1.21 briggs #if DEBUG_FPE 201 1.21 briggs printf("fpu_emulate: other type0\n"); 202 1.21 briggs #endif 203 1.3 briggs /* all other type0 insns are arithmetic */ 204 1.3 briggs sig = fpu_emul_arith(&fe, &insn); 205 1.1 gwr } 206 1.3 briggs if (sig == 0) { 207 1.21 briggs #if DEBUG_FPE 208 1.21 briggs printf("fpu_emulate: type 0 returned 0\n"); 209 1.21 briggs #endif 210 1.3 briggs sig = fpu_upd_excp(&fe); 211 1.1 gwr } 212 1.3 briggs } else if (optype == 0x0080 || optype == 0x00C0) { 213 1.3 briggs /* type=2 or 3: fbcc, short or long disp. */ 214 1.21 briggs #if DEBUG_FPE 215 1.21 briggs printf("fpu_emulate: fbcc %s\n", 216 1.21 briggs (optype & 0x40) ? "long" : "short"); 217 1.21 briggs #endif 218 1.3 briggs sig = fpu_emul_brcc(&fe, &insn); 219 1.3 briggs } else if (optype == 0x0040) { 220 1.3 briggs /* type=1: fdbcc, fscc, ftrapcc */ 221 1.21 briggs #if DEBUG_FPE 222 1.21 briggs printf("fpu_emulate: type1\n"); 223 1.21 briggs #endif 224 1.3 briggs sig = fpu_emul_type1(&fe, &insn); 225 1.3 briggs } else { 226 1.3 briggs /* type=4: fsave (privileged) */ 227 1.3 briggs /* type=5: frestore (privileged) */ 228 1.3 briggs /* type=6: reserved */ 229 1.3 briggs /* type=7: reserved */ 230 1.3 briggs #ifdef DEBUG 231 1.21 briggs printf("fpu_emulate: bad opcode type: opcode=0x%x\n", insn.is_opcode); 232 1.1 gwr #endif 233 1.3 briggs sig = SIGILL; 234 1.3 briggs } 235 1.3 briggs 236 1.3 briggs DUMP_INSN(&insn); 237 1.1 gwr 238 1.17 is /* 239 1.17 is * XXX it is not clear to me, if we should progress the PC always, 240 1.17 is * for SIGFPE || 0, or only for 0; however, without SIGFPE, we 241 1.17 is * don't pass the signalling regression tests. -is 242 1.17 is */ 243 1.17 is if ((sig == 0) || (sig == SIGFPE)) 244 1.3 briggs frame->f_pc += insn.is_advance; 245 1.23 chs #if defined(DDB) && defined(DEBUG_FPE) 246 1.3 briggs else { 247 1.21 briggs printf("fpu_emulate: sig=%d, opcode=%x, word1=%x\n", 248 1.3 briggs sig, insn.is_opcode, insn.is_word1); 249 1.15 veego kdb_trap(-1, (db_regs_t *)&frame); 250 1.3 briggs } 251 1.1 gwr #endif 252 1.22 is #if 0 /* XXX something is wrong */ 253 1.22 is if (frame->f_format == 4) { 254 1.21 briggs /* XXX Restore PC -- 68{EC,LC}040 only */ 255 1.22 is if (insn.is_nextpc) 256 1.22 is frame->f_pc = insn.is_nextpc; 257 1.22 is } 258 1.22 is #endif 259 1.1 gwr 260 1.21 briggs #if DEBUG_FPE 261 1.21 briggs printf("EXITING fpu_emulate: w/FPSR=%08x, FPCR=%08x\n", 262 1.21 briggs fe.fe_fpsr, fe.fe_fpcr); 263 1.21 briggs #endif 264 1.3 briggs 265 1.25 cl if (sig) 266 1.25 cl fpe_abort(frame, ksi, sig, 0); 267 1.3 briggs return (sig); 268 1.1 gwr } 269 1.1 gwr 270 1.3 briggs /* update accrued exception bits and see if there's an FP exception */ 271 1.3 briggs int 272 1.27.44.1 yamt fpu_upd_excp(struct fpemu *fe) 273 1.1 gwr { 274 1.3 briggs u_int fpsr; 275 1.3 briggs u_int fpcr; 276 1.3 briggs 277 1.3 briggs fpsr = fe->fe_fpsr; 278 1.3 briggs fpcr = fe->fe_fpcr; 279 1.3 briggs /* update fpsr accrued exception bits; each insn doesn't have to 280 1.3 briggs update this */ 281 1.3 briggs if (fpsr & (FPSR_BSUN | FPSR_SNAN | FPSR_OPERR)) { 282 1.3 briggs fpsr |= FPSR_AIOP; 283 1.3 briggs } 284 1.3 briggs if (fpsr & FPSR_OVFL) { 285 1.3 briggs fpsr |= FPSR_AOVFL; 286 1.3 briggs } 287 1.3 briggs if ((fpsr & FPSR_UNFL) && (fpsr & FPSR_INEX2)) { 288 1.3 briggs fpsr |= FPSR_AUNFL; 289 1.3 briggs } 290 1.3 briggs if (fpsr & FPSR_DZ) { 291 1.3 briggs fpsr |= FPSR_ADZ; 292 1.3 briggs } 293 1.3 briggs if (fpsr & (FPSR_INEX1 | FPSR_INEX2 | FPSR_OVFL)) { 294 1.3 briggs fpsr |= FPSR_AINEX; 295 1.3 briggs } 296 1.1 gwr 297 1.3 briggs fe->fe_fpframe->fpf_fpsr = fe->fe_fpsr = fpsr; 298 1.1 gwr 299 1.3 briggs return (fpsr & fpcr & FPSR_EXCP) ? SIGFPE : 0; 300 1.3 briggs } 301 1.1 gwr 302 1.3 briggs /* update fpsr according to fp (= result of an fp op) */ 303 1.3 briggs u_int 304 1.27.44.1 yamt fpu_upd_fpsr(struct fpemu *fe, struct fpn *fp) 305 1.3 briggs { 306 1.3 briggs u_int fpsr; 307 1.1 gwr 308 1.21 briggs #if DEBUG_FPE 309 1.21 briggs printf("fpu_upd_fpsr: previous fpsr=%08x\n", fe->fe_fpsr); 310 1.21 briggs #endif 311 1.3 briggs /* clear all condition code */ 312 1.3 briggs fpsr = fe->fe_fpsr & ~FPSR_CCB; 313 1.1 gwr 314 1.21 briggs #if DEBUG_FPE 315 1.21 briggs printf("fpu_upd_fpsr: result is a "); 316 1.21 briggs #endif 317 1.3 briggs if (fp->fp_sign) { 318 1.21 briggs #if DEBUG_FPE 319 1.21 briggs printf("negative "); 320 1.21 briggs #endif 321 1.3 briggs fpsr |= FPSR_NEG; 322 1.21 briggs #if DEBUG_FPE 323 1.3 briggs } else { 324 1.21 briggs printf("positive "); 325 1.21 briggs #endif 326 1.3 briggs } 327 1.3 briggs 328 1.3 briggs switch (fp->fp_class) { 329 1.3 briggs case FPC_SNAN: 330 1.21 briggs #if DEBUG_FPE 331 1.21 briggs printf("signaling NAN\n"); 332 1.21 briggs #endif 333 1.3 briggs fpsr |= (FPSR_NAN | FPSR_SNAN); 334 1.3 briggs break; 335 1.3 briggs case FPC_QNAN: 336 1.21 briggs #if DEBUG_FPE 337 1.21 briggs printf("quiet NAN\n"); 338 1.21 briggs #endif 339 1.3 briggs fpsr |= FPSR_NAN; 340 1.3 briggs break; 341 1.3 briggs case FPC_ZERO: 342 1.21 briggs #if DEBUG_FPE 343 1.21 briggs printf("Zero\n"); 344 1.21 briggs #endif 345 1.3 briggs fpsr |= FPSR_ZERO; 346 1.3 briggs break; 347 1.3 briggs case FPC_INF: 348 1.21 briggs #if DEBUG_FPE 349 1.21 briggs printf("Inf\n"); 350 1.21 briggs #endif 351 1.3 briggs fpsr |= FPSR_INF; 352 1.3 briggs break; 353 1.3 briggs default: 354 1.21 briggs #if DEBUG_FPE 355 1.21 briggs printf("Number\n"); 356 1.21 briggs #endif 357 1.3 briggs /* anything else is treated as if it is a number */ 358 1.3 briggs break; 359 1.3 briggs } 360 1.1 gwr 361 1.3 briggs fe->fe_fpsr = fe->fe_fpframe->fpf_fpsr = fpsr; 362 1.1 gwr 363 1.21 briggs #if DEBUG_FPE 364 1.21 briggs printf("fpu_upd_fpsr: new fpsr=%08x\n", fe->fe_fpframe->fpf_fpsr); 365 1.21 briggs #endif 366 1.1 gwr 367 1.3 briggs return fpsr; 368 1.3 briggs } 369 1.1 gwr 370 1.3 briggs static int 371 1.27.44.1 yamt fpu_emul_fmovmcr(struct fpemu *fe, struct instruction *insn) 372 1.3 briggs { 373 1.3 briggs struct frame *frame = fe->fe_frame; 374 1.3 briggs struct fpframe *fpf = fe->fe_fpframe; 375 1.5 briggs int sig; 376 1.5 briggs int reglist; 377 1.3 briggs int fpu_to_mem; 378 1.3 briggs 379 1.3 briggs /* move to/from control registers */ 380 1.3 briggs reglist = (insn->is_word1 & 0x1c00) >> 10; 381 1.3 briggs /* Bit 13 selects direction (FPU to/from Mem) */ 382 1.3 briggs fpu_to_mem = insn->is_word1 & 0x2000; 383 1.3 briggs 384 1.3 briggs insn->is_datasize = 4; 385 1.3 briggs insn->is_advance = 4; 386 1.21 briggs sig = fpu_decode_ea(frame, insn, &insn->is_ea, insn->is_opcode); 387 1.3 briggs if (sig) { return sig; } 388 1.3 briggs 389 1.3 briggs if (reglist != 1 && reglist != 2 && reglist != 4 && 390 1.21 briggs (insn->is_ea.ea_flags & EA_DIRECT)) { 391 1.3 briggs /* attempted to copy more than one FPcr to CPU regs */ 392 1.3 briggs #ifdef DEBUG 393 1.21 briggs printf("fpu_emul_fmovmcr: tried to copy too many FPcr\n"); 394 1.3 briggs #endif 395 1.3 briggs return SIGILL; 396 1.3 briggs } 397 1.1 gwr 398 1.3 briggs if (reglist & 4) { 399 1.3 briggs /* fpcr */ 400 1.21 briggs if ((insn->is_ea.ea_flags & EA_DIRECT) && 401 1.21 briggs insn->is_ea.ea_regnum >= 8 /* address reg */) { 402 1.3 briggs /* attempted to copy FPCR to An */ 403 1.3 briggs #ifdef DEBUG 404 1.21 briggs printf("fpu_emul_fmovmcr: tried to copy FPCR from/to A%d\n", 405 1.21 briggs insn->is_ea.ea_regnum & 7); 406 1.1 gwr #endif 407 1.3 briggs return SIGILL; 408 1.3 briggs } 409 1.3 briggs if (fpu_to_mem) { 410 1.21 briggs sig = fpu_store_ea(frame, insn, &insn->is_ea, 411 1.3 briggs (char *)&fpf->fpf_fpcr); 412 1.3 briggs } else { 413 1.21 briggs sig = fpu_load_ea(frame, insn, &insn->is_ea, 414 1.3 briggs (char *)&fpf->fpf_fpcr); 415 1.3 briggs } 416 1.3 briggs } 417 1.3 briggs if (sig) { return sig; } 418 1.1 gwr 419 1.3 briggs if (reglist & 2) { 420 1.3 briggs /* fpsr */ 421 1.21 briggs if ((insn->is_ea.ea_flags & EA_DIRECT) && 422 1.21 briggs insn->is_ea.ea_regnum >= 8 /* address reg */) { 423 1.3 briggs /* attempted to copy FPSR to An */ 424 1.3 briggs #ifdef DEBUG 425 1.21 briggs printf("fpu_emul_fmovmcr: tried to copy FPSR from/to A%d\n", 426 1.21 briggs insn->is_ea.ea_regnum & 7); 427 1.3 briggs #endif 428 1.3 briggs return SIGILL; 429 1.3 briggs } 430 1.3 briggs if (fpu_to_mem) { 431 1.21 briggs sig = fpu_store_ea(frame, insn, &insn->is_ea, 432 1.3 briggs (char *)&fpf->fpf_fpsr); 433 1.3 briggs } else { 434 1.21 briggs sig = fpu_load_ea(frame, insn, &insn->is_ea, 435 1.3 briggs (char *)&fpf->fpf_fpsr); 436 1.3 briggs } 437 1.3 briggs } 438 1.3 briggs if (sig) { return sig; } 439 1.3 briggs 440 1.3 briggs if (reglist & 1) { 441 1.3 briggs /* fpiar - can be moved to/from An */ 442 1.3 briggs if (fpu_to_mem) { 443 1.21 briggs sig = fpu_store_ea(frame, insn, &insn->is_ea, 444 1.3 briggs (char *)&fpf->fpf_fpiar); 445 1.3 briggs } else { 446 1.21 briggs sig = fpu_load_ea(frame, insn, &insn->is_ea, 447 1.3 briggs (char *)&fpf->fpf_fpiar); 448 1.3 briggs } 449 1.3 briggs } 450 1.3 briggs return sig; 451 1.1 gwr } 452 1.1 gwr 453 1.1 gwr /* 454 1.3 briggs * type 0: fmovem 455 1.3 briggs * Separated out of fpu_emul_type0 for efficiency. 456 1.1 gwr * In this function, we know: 457 1.3 briggs * (opcode & 0x01C0) == 0 458 1.3 briggs * (word1 & 0x8000) == 0x8000 459 1.3 briggs * 460 1.3 briggs * No conversion or rounding is done by this instruction, 461 1.3 briggs * and the FPSR is not affected. 462 1.1 gwr */ 463 1.3 briggs static int 464 1.27.44.1 yamt fpu_emul_fmovm(struct fpemu *fe, struct instruction *insn) 465 1.1 gwr { 466 1.3 briggs struct frame *frame = fe->fe_frame; 467 1.3 briggs struct fpframe *fpf = fe->fe_fpframe; 468 1.3 briggs int word1, sig; 469 1.3 briggs int reglist, regmask, regnum; 470 1.3 briggs int fpu_to_mem, order; 471 1.7 scottr int w1_post_incr; 472 1.3 briggs int *fpregs; 473 1.3 briggs 474 1.3 briggs insn->is_advance = 4; 475 1.3 briggs insn->is_datasize = 12; 476 1.3 briggs word1 = insn->is_word1; 477 1.3 briggs 478 1.3 briggs /* Bit 13 selects direction (FPU to/from Mem) */ 479 1.3 briggs fpu_to_mem = word1 & 0x2000; 480 1.3 briggs 481 1.3 briggs /* 482 1.3 briggs * Bits 12,11 select register list mode: 483 1.3 briggs * 0,0: Static reg list, pre-decr. 484 1.3 briggs * 0,1: Dynamic reg list, pre-decr. 485 1.3 briggs * 1,0: Static reg list, post-incr. 486 1.3 briggs * 1,1: Dynamic reg list, post-incr 487 1.3 briggs */ 488 1.3 briggs w1_post_incr = word1 & 0x1000; 489 1.3 briggs if (word1 & 0x0800) { 490 1.3 briggs /* dynamic reg list */ 491 1.3 briggs reglist = frame->f_regs[(word1 & 0x70) >> 4]; 492 1.3 briggs } else { 493 1.3 briggs reglist = word1; 494 1.3 briggs } 495 1.3 briggs reglist &= 0xFF; 496 1.3 briggs 497 1.3 briggs /* Get effective address. (modreg=opcode&077) */ 498 1.21 briggs sig = fpu_decode_ea(frame, insn, &insn->is_ea, insn->is_opcode); 499 1.3 briggs if (sig) { return sig; } 500 1.3 briggs 501 1.3 briggs /* Get address of soft coprocessor regs. */ 502 1.3 briggs fpregs = &fpf->fpf_regs[0]; 503 1.3 briggs 504 1.21 briggs if (insn->is_ea.ea_flags & EA_PREDECR) { 505 1.3 briggs regnum = 7; 506 1.3 briggs order = -1; 507 1.3 briggs } else { 508 1.3 briggs regnum = 0; 509 1.3 briggs order = 1; 510 1.3 briggs } 511 1.3 briggs 512 1.21 briggs regmask = 0x80; 513 1.3 briggs while ((0 <= regnum) && (regnum < 8)) { 514 1.3 briggs if (regmask & reglist) { 515 1.3 briggs if (fpu_to_mem) { 516 1.21 briggs sig = fpu_store_ea(frame, insn, &insn->is_ea, 517 1.3 briggs (char*)&fpregs[regnum * 3]); 518 1.21 briggs #if DEBUG_FPE 519 1.21 briggs printf("fpu_emul_fmovm: FP%d (%08x,%08x,%08x) saved\n", 520 1.21 briggs regnum, fpregs[regnum * 3], fpregs[regnum * 3 + 1], 521 1.21 briggs fpregs[regnum * 3 + 2]); 522 1.21 briggs #endif 523 1.3 briggs } else { /* mem to fpu */ 524 1.21 briggs sig = fpu_load_ea(frame, insn, &insn->is_ea, 525 1.3 briggs (char*)&fpregs[regnum * 3]); 526 1.21 briggs #if DEBUG_FPE 527 1.21 briggs printf("fpu_emul_fmovm: FP%d (%08x,%08x,%08x) loaded\n", 528 1.21 briggs regnum, fpregs[regnum * 3], fpregs[regnum * 3 + 1], 529 1.21 briggs fpregs[regnum * 3 + 2]); 530 1.21 briggs #endif 531 1.3 briggs } 532 1.3 briggs if (sig) { break; } 533 1.3 briggs } 534 1.3 briggs regnum += order; 535 1.21 briggs regmask >>= 1; 536 1.3 briggs } 537 1.1 gwr 538 1.3 briggs return sig; 539 1.1 gwr } 540 1.1 gwr 541 1.3 briggs static struct fpn * 542 1.27.44.1 yamt fpu_cmp(struct fpemu *fe) 543 1.1 gwr { 544 1.3 briggs struct fpn *x = &fe->fe_f1, *y = &fe->fe_f2; 545 1.1 gwr 546 1.3 briggs /* take care of special cases */ 547 1.3 briggs if (x->fp_class < 0 || y->fp_class < 0) { 548 1.3 briggs /* if either of two is a SNAN, result is SNAN */ 549 1.3 briggs x->fp_class = (y->fp_class < x->fp_class) ? y->fp_class : x->fp_class; 550 1.3 briggs } else if (x->fp_class == FPC_INF) { 551 1.3 briggs if (y->fp_class == FPC_INF) { 552 1.3 briggs /* both infinities */ 553 1.3 briggs if (x->fp_sign == y->fp_sign) { 554 1.3 briggs x->fp_class = FPC_ZERO; /* return a signed zero */ 555 1.3 briggs } else { 556 1.3 briggs x->fp_class = FPC_NUM; /* return a faked number w/x's sign */ 557 1.3 briggs x->fp_exp = 16383; 558 1.3 briggs x->fp_mant[0] = FP_1; 559 1.3 briggs } 560 1.3 briggs } else { 561 1.3 briggs /* y is a number */ 562 1.3 briggs x->fp_class = FPC_NUM; /* return a forged number w/x's sign */ 563 1.3 briggs x->fp_exp = 16383; 564 1.3 briggs x->fp_mant[0] = FP_1; 565 1.3 briggs } 566 1.3 briggs } else if (y->fp_class == FPC_INF) { 567 1.3 briggs /* x is a Num but y is an Inf */ 568 1.3 briggs /* return a forged number w/y's sign inverted */ 569 1.3 briggs x->fp_class = FPC_NUM; 570 1.3 briggs x->fp_sign = !y->fp_sign; 571 1.3 briggs x->fp_exp = 16383; 572 1.3 briggs x->fp_mant[0] = FP_1; 573 1.3 briggs } else { 574 1.3 briggs /* x and y are both numbers or zeros, or pair of a number and a zero */ 575 1.3 briggs y->fp_sign = !y->fp_sign; 576 1.3 briggs x = fpu_add(fe); /* (x - y) */ 577 1.1 gwr /* 578 1.3 briggs * FCMP does not set Inf bit in CC, so return a forged number 579 1.3 briggs * (value doesn't matter) if Inf is the result of fsub. 580 1.1 gwr */ 581 1.3 briggs if (x->fp_class == FPC_INF) { 582 1.3 briggs x->fp_class = FPC_NUM; 583 1.3 briggs x->fp_exp = 16383; 584 1.3 briggs x->fp_mant[0] = FP_1; 585 1.1 gwr } 586 1.3 briggs } 587 1.3 briggs return x; 588 1.1 gwr } 589 1.1 gwr 590 1.1 gwr /* 591 1.3 briggs * arithmetic oprations 592 1.1 gwr */ 593 1.3 briggs static int 594 1.27.44.1 yamt fpu_emul_arith(struct fpemu *fe, struct instruction *insn) 595 1.1 gwr { 596 1.3 briggs struct frame *frame = fe->fe_frame; 597 1.3 briggs u_int *fpregs = &(fe->fe_fpframe->fpf_regs[0]); 598 1.3 briggs struct fpn *res; 599 1.3 briggs int word1, sig = 0; 600 1.3 briggs int regnum, format; 601 1.3 briggs int discard_result = 0; 602 1.3 briggs u_int buf[3]; 603 1.21 briggs #if DEBUG_FPE 604 1.3 briggs int flags; 605 1.3 briggs char regname; 606 1.21 briggs #endif 607 1.16 is 608 1.16 is fe->fe_fpsr &= ~FPSR_EXCP; 609 1.3 briggs 610 1.3 briggs DUMP_INSN(insn); 611 1.3 briggs 612 1.21 briggs #if DEBUG_FPE 613 1.21 briggs printf("fpu_emul_arith: FPSR = %08x, FPCR = %08x\n", 614 1.21 briggs fe->fe_fpsr, fe->fe_fpcr); 615 1.21 briggs #endif 616 1.3 briggs 617 1.3 briggs word1 = insn->is_word1; 618 1.3 briggs format = (word1 >> 10) & 7; 619 1.3 briggs regnum = (word1 >> 7) & 7; 620 1.3 briggs 621 1.3 briggs /* fetch a source operand : may not be used */ 622 1.21 briggs #if DEBUG_FPE 623 1.21 briggs printf("fpu_emul_arith: dst/src FP%d=%08x,%08x,%08x\n", 624 1.21 briggs regnum, fpregs[regnum*3], fpregs[regnum*3+1], 625 1.21 briggs fpregs[regnum*3+2]); 626 1.21 briggs #endif 627 1.21 briggs 628 1.3 briggs fpu_explode(fe, &fe->fe_f1, FTYPE_EXT, &fpregs[regnum * 3]); 629 1.3 briggs 630 1.3 briggs DUMP_INSN(insn); 631 1.3 briggs 632 1.3 briggs /* get the other operand which is always the source */ 633 1.3 briggs if ((word1 & 0x4000) == 0) { 634 1.21 briggs #if DEBUG_FPE 635 1.21 briggs printf("fpu_emul_arith: FP%d op FP%d => FP%d\n", 636 1.21 briggs format, regnum, regnum); 637 1.21 briggs printf("fpu_emul_arith: src opr FP%d=%08x,%08x,%08x\n", 638 1.21 briggs format, fpregs[format*3], fpregs[format*3+1], 639 1.21 briggs fpregs[format*3+2]); 640 1.21 briggs #endif 641 1.3 briggs fpu_explode(fe, &fe->fe_f2, FTYPE_EXT, &fpregs[format * 3]); 642 1.3 briggs } else { 643 1.3 briggs /* the operand is in memory */ 644 1.3 briggs if (format == FTYPE_DBL) { 645 1.3 briggs insn->is_datasize = 8; 646 1.3 briggs } else if (format == FTYPE_SNG || format == FTYPE_LNG) { 647 1.3 briggs insn->is_datasize = 4; 648 1.3 briggs } else if (format == FTYPE_WRD) { 649 1.3 briggs insn->is_datasize = 2; 650 1.3 briggs } else if (format == FTYPE_BYT) { 651 1.3 briggs insn->is_datasize = 1; 652 1.3 briggs } else if (format == FTYPE_EXT) { 653 1.3 briggs insn->is_datasize = 12; 654 1.3 briggs } else { 655 1.3 briggs /* invalid or unsupported operand format */ 656 1.3 briggs sig = SIGFPE; 657 1.3 briggs return sig; 658 1.3 briggs } 659 1.1 gwr 660 1.3 briggs /* Get effective address. (modreg=opcode&077) */ 661 1.21 briggs sig = fpu_decode_ea(frame, insn, &insn->is_ea, insn->is_opcode); 662 1.3 briggs if (sig) { 663 1.21 briggs #if DEBUG_FPE 664 1.21 briggs printf("fpu_emul_arith: error in fpu_decode_ea\n"); 665 1.21 briggs #endif 666 1.3 briggs return sig; 667 1.3 briggs } 668 1.1 gwr 669 1.3 briggs DUMP_INSN(insn); 670 1.1 gwr 671 1.21 briggs #if DEBUG_FPE 672 1.21 briggs printf("fpu_emul_arith: addr mode = "); 673 1.21 briggs flags = insn->is_ea.ea_flags; 674 1.21 briggs regname = (insn->is_ea.ea_regnum & 8) ? 'a' : 'd'; 675 1.21 briggs 676 1.21 briggs if (flags & EA_DIRECT) { 677 1.21 briggs printf("%c%d\n", 678 1.21 briggs regname, insn->is_ea.ea_regnum & 7); 679 1.21 briggs } else if (flags & EA_PC_REL) { 680 1.21 briggs if (flags & EA_OFFSET) { 681 1.21 briggs printf("pc@(%d)\n", insn->is_ea.ea_offset); 682 1.3 briggs } else if (flags & EA_INDEXED) { 683 1.21 briggs printf("pc@(...)\n"); 684 1.21 briggs } 685 1.21 briggs } else if (flags & EA_PREDECR) { 686 1.21 briggs printf("%c%d@-\n", 687 1.21 briggs regname, insn->is_ea.ea_regnum & 7); 688 1.21 briggs } else if (flags & EA_POSTINCR) { 689 1.21 briggs printf("%c%d@+\n", regname, insn->is_ea.ea_regnum & 7); 690 1.21 briggs } else if (flags & EA_OFFSET) { 691 1.21 briggs printf("%c%d@(%d)\n", regname, insn->is_ea.ea_regnum & 7, 692 1.21 briggs insn->is_ea.ea_offset); 693 1.21 briggs } else if (flags & EA_INDEXED) { 694 1.21 briggs printf("%c%d@(...)\n", regname, insn->is_ea.ea_regnum & 7); 695 1.21 briggs } else if (flags & EA_ABS) { 696 1.21 briggs printf("0x%08x\n", insn->is_ea.ea_absaddr); 697 1.21 briggs } else if (flags & EA_IMMED) { 698 1.3 briggs 699 1.21 briggs printf("#0x%08x,%08x,%08x\n", insn->is_ea.ea_immed[0], 700 1.21 briggs insn->is_ea.ea_immed[1], insn->is_ea.ea_immed[2]); 701 1.21 briggs } else { 702 1.21 briggs printf("%c%d@\n", regname, insn->is_ea.ea_regnum & 7); 703 1.21 briggs } 704 1.21 briggs #endif /* DEBUG_FPE */ 705 1.3 briggs 706 1.21 briggs fpu_load_ea(frame, insn, &insn->is_ea, (char*)buf); 707 1.3 briggs if (format == FTYPE_WRD) { 708 1.3 briggs /* sign-extend */ 709 1.3 briggs buf[0] &= 0xffff; 710 1.3 briggs if (buf[0] & 0x8000) { 711 1.3 briggs buf[0] |= 0xffff0000; 712 1.3 briggs } 713 1.3 briggs format = FTYPE_LNG; 714 1.3 briggs } else if (format == FTYPE_BYT) { 715 1.3 briggs /* sign-extend */ 716 1.3 briggs buf[0] &= 0xff; 717 1.3 briggs if (buf[0] & 0x80) { 718 1.3 briggs buf[0] |= 0xffffff00; 719 1.3 briggs } 720 1.3 briggs format = FTYPE_LNG; 721 1.3 briggs } 722 1.21 briggs #if DEBUG_FPE 723 1.21 briggs printf("fpu_emul_arith: src = %08x %08x %08x, siz = %d\n", 724 1.21 briggs buf[0], buf[1], buf[2], insn->is_datasize); 725 1.21 briggs #endif 726 1.3 briggs fpu_explode(fe, &fe->fe_f2, format, buf); 727 1.3 briggs } 728 1.1 gwr 729 1.3 briggs DUMP_INSN(insn); 730 1.1 gwr 731 1.3 briggs /* An arithmetic instruction emulate function has a prototype of 732 1.3 briggs * struct fpn *fpu_op(struct fpemu *); 733 1.3 briggs 734 1.3 briggs * 1) If the instruction is monadic, then fpu_op() must use 735 1.3 briggs * fe->fe_f2 as its operand, and return a pointer to the 736 1.3 briggs * result. 737 1.3 briggs 738 1.3 briggs * 2) If the instruction is diadic, then fpu_op() must use 739 1.3 briggs * fe->fe_f1 and fe->fe_f2 as its two operands, and return a 740 1.3 briggs * pointer to the result. 741 1.3 briggs 742 1.3 briggs */ 743 1.27.44.1 yamt res = NULL; 744 1.27.44.1 yamt switch (word1 & 0x7f) { 745 1.3 briggs case 0x00: /* fmove */ 746 1.3 briggs res = &fe->fe_f2; 747 1.3 briggs break; 748 1.3 briggs 749 1.3 briggs case 0x01: /* fint */ 750 1.3 briggs res = fpu_int(fe); 751 1.3 briggs break; 752 1.3 briggs 753 1.3 briggs case 0x02: /* fsinh */ 754 1.3 briggs res = fpu_sinh(fe); 755 1.3 briggs break; 756 1.3 briggs 757 1.3 briggs case 0x03: /* fintrz */ 758 1.3 briggs res = fpu_intrz(fe); 759 1.3 briggs break; 760 1.3 briggs 761 1.3 briggs case 0x04: /* fsqrt */ 762 1.3 briggs res = fpu_sqrt(fe); 763 1.3 briggs break; 764 1.3 briggs 765 1.3 briggs case 0x06: /* flognp1 */ 766 1.3 briggs res = fpu_lognp1(fe); 767 1.3 briggs break; 768 1.3 briggs 769 1.3 briggs case 0x08: /* fetoxm1 */ 770 1.3 briggs res = fpu_etoxm1(fe); 771 1.3 briggs break; 772 1.3 briggs 773 1.3 briggs case 0x09: /* ftanh */ 774 1.3 briggs res = fpu_tanh(fe); 775 1.3 briggs break; 776 1.3 briggs 777 1.3 briggs case 0x0A: /* fatan */ 778 1.3 briggs res = fpu_atan(fe); 779 1.3 briggs break; 780 1.3 briggs 781 1.3 briggs case 0x0C: /* fasin */ 782 1.3 briggs res = fpu_asin(fe); 783 1.3 briggs break; 784 1.3 briggs 785 1.3 briggs case 0x0D: /* fatanh */ 786 1.3 briggs res = fpu_atanh(fe); 787 1.3 briggs break; 788 1.3 briggs 789 1.3 briggs case 0x0E: /* fsin */ 790 1.3 briggs res = fpu_sin(fe); 791 1.3 briggs break; 792 1.3 briggs 793 1.3 briggs case 0x0F: /* ftan */ 794 1.3 briggs res = fpu_tan(fe); 795 1.3 briggs break; 796 1.3 briggs 797 1.3 briggs case 0x10: /* fetox */ 798 1.3 briggs res = fpu_etox(fe); 799 1.3 briggs break; 800 1.3 briggs 801 1.3 briggs case 0x11: /* ftwotox */ 802 1.3 briggs res = fpu_twotox(fe); 803 1.3 briggs break; 804 1.3 briggs 805 1.3 briggs case 0x12: /* ftentox */ 806 1.3 briggs res = fpu_tentox(fe); 807 1.3 briggs break; 808 1.3 briggs 809 1.3 briggs case 0x14: /* flogn */ 810 1.3 briggs res = fpu_logn(fe); 811 1.3 briggs break; 812 1.3 briggs 813 1.3 briggs case 0x15: /* flog10 */ 814 1.3 briggs res = fpu_log10(fe); 815 1.3 briggs break; 816 1.3 briggs 817 1.3 briggs case 0x16: /* flog2 */ 818 1.3 briggs res = fpu_log2(fe); 819 1.3 briggs break; 820 1.3 briggs 821 1.3 briggs case 0x18: /* fabs */ 822 1.3 briggs fe->fe_f2.fp_sign = 0; 823 1.3 briggs res = &fe->fe_f2; 824 1.3 briggs break; 825 1.3 briggs 826 1.3 briggs case 0x19: /* fcosh */ 827 1.3 briggs res = fpu_cosh(fe); 828 1.3 briggs break; 829 1.3 briggs 830 1.3 briggs case 0x1A: /* fneg */ 831 1.3 briggs fe->fe_f2.fp_sign = !fe->fe_f2.fp_sign; 832 1.3 briggs res = &fe->fe_f2; 833 1.3 briggs break; 834 1.3 briggs 835 1.3 briggs case 0x1C: /* facos */ 836 1.3 briggs res = fpu_acos(fe); 837 1.3 briggs break; 838 1.3 briggs 839 1.3 briggs case 0x1D: /* fcos */ 840 1.3 briggs res = fpu_cos(fe); 841 1.3 briggs break; 842 1.3 briggs 843 1.3 briggs case 0x1E: /* fgetexp */ 844 1.3 briggs res = fpu_getexp(fe); 845 1.3 briggs break; 846 1.3 briggs 847 1.3 briggs case 0x1F: /* fgetman */ 848 1.3 briggs res = fpu_getman(fe); 849 1.3 briggs break; 850 1.3 briggs 851 1.3 briggs case 0x20: /* fdiv */ 852 1.3 briggs case 0x24: /* fsgldiv: cheating - better than nothing */ 853 1.3 briggs res = fpu_div(fe); 854 1.3 briggs break; 855 1.3 briggs 856 1.3 briggs case 0x21: /* fmod */ 857 1.3 briggs res = fpu_mod(fe); 858 1.3 briggs break; 859 1.3 briggs 860 1.3 briggs case 0x28: /* fsub */ 861 1.3 briggs fe->fe_f2.fp_sign = !fe->fe_f2.fp_sign; /* f2 = -f2 */ 862 1.3 briggs case 0x22: /* fadd */ 863 1.3 briggs res = fpu_add(fe); 864 1.3 briggs break; 865 1.3 briggs 866 1.3 briggs case 0x23: /* fmul */ 867 1.3 briggs case 0x27: /* fsglmul: cheating - better than nothing */ 868 1.3 briggs res = fpu_mul(fe); 869 1.3 briggs break; 870 1.3 briggs 871 1.3 briggs case 0x25: /* frem */ 872 1.3 briggs res = fpu_rem(fe); 873 1.3 briggs break; 874 1.3 briggs 875 1.3 briggs case 0x26: 876 1.3 briggs /* fscale is handled by a separate function */ 877 1.3 briggs break; 878 1.3 briggs 879 1.3 briggs case 0x30: 880 1.12 is case 0x31: 881 1.3 briggs case 0x32: 882 1.3 briggs case 0x33: 883 1.3 briggs case 0x34: 884 1.3 briggs case 0x35: 885 1.3 briggs case 0x36: 886 1.3 briggs case 0x37: /* fsincos */ 887 1.3 briggs res = fpu_sincos(fe, word1 & 7); 888 1.3 briggs break; 889 1.3 briggs 890 1.3 briggs case 0x38: /* fcmp */ 891 1.3 briggs res = fpu_cmp(fe); 892 1.3 briggs discard_result = 1; 893 1.3 briggs break; 894 1.3 briggs 895 1.3 briggs case 0x3A: /* ftst */ 896 1.3 briggs res = &fe->fe_f2; 897 1.3 briggs discard_result = 1; 898 1.3 briggs break; 899 1.3 briggs 900 1.27.44.1 yamt default: /* possibly 040/060 instructions */ 901 1.3 briggs #ifdef DEBUG 902 1.21 briggs printf("fpu_emul_arith: bad opcode=0x%x, word1=0x%x\n", 903 1.3 briggs insn->is_opcode, insn->is_word1); 904 1.3 briggs #endif 905 1.3 briggs sig = SIGILL; 906 1.3 briggs } /* switch (word1 & 0x3f) */ 907 1.1 gwr 908 1.27.44.1 yamt /* for sanity */ 909 1.27.44.1 yamt if (res == NULL) 910 1.27.44.1 yamt sig = SIGILL; 911 1.27.44.1 yamt 912 1.3 briggs if (!discard_result && sig == 0) { 913 1.3 briggs fpu_implode(fe, res, FTYPE_EXT, &fpregs[regnum * 3]); 914 1.27.44.1 yamt 915 1.27.44.1 yamt /* update fpsr according to the result of operation */ 916 1.27.44.1 yamt fpu_upd_fpsr(fe, res); 917 1.21 briggs #if DEBUG_FPE 918 1.21 briggs printf("fpu_emul_arith: %08x,%08x,%08x stored in FP%d\n", 919 1.21 briggs fpregs[regnum*3], fpregs[regnum*3+1], 920 1.21 briggs fpregs[regnum*3+2], regnum); 921 1.21 briggs } else if (sig == 0) { 922 1.27 tsutsui static const char *class_name[] = 923 1.27 tsutsui { "SNAN", "QNAN", "ZERO", "NUM", "INF" }; 924 1.21 briggs printf("fpu_emul_arith: result(%s,%c,%d,%08x,%08x,%08x) discarded\n", 925 1.3 briggs class_name[res->fp_class + 2], 926 1.3 briggs res->fp_sign ? '-' : '+', res->fp_exp, 927 1.3 briggs res->fp_mant[0], res->fp_mant[1], 928 1.21 briggs res->fp_mant[2]); 929 1.21 briggs } else { 930 1.21 briggs printf("fpu_emul_arith: received signal %d\n", sig); 931 1.21 briggs #endif 932 1.3 briggs } 933 1.3 briggs 934 1.21 briggs #if DEBUG_FPE 935 1.21 briggs printf("fpu_emul_arith: FPSR = %08x, FPCR = %08x\n", 936 1.21 briggs fe->fe_fpsr, fe->fe_fpcr); 937 1.21 briggs #endif 938 1.1 gwr 939 1.3 briggs DUMP_INSN(insn); 940 1.1 gwr 941 1.3 briggs return sig; 942 1.1 gwr } 943 1.1 gwr 944 1.3 briggs /* test condition code according to the predicate in the opcode. 945 1.3 briggs * returns -1 when the predicate evaluates to true, 0 when false. 946 1.3 briggs * signal numbers are returned when an error is detected. 947 1.1 gwr */ 948 1.3 briggs static int 949 1.27.44.1 yamt test_cc(struct fpemu *fe, int pred) 950 1.1 gwr { 951 1.3 briggs int result, sig_bsun, invert; 952 1.3 briggs int fpsr; 953 1.1 gwr 954 1.3 briggs fpsr = fe->fe_fpsr; 955 1.3 briggs invert = 0; 956 1.3 briggs fpsr &= ~FPSR_EXCP; /* clear all exceptions */ 957 1.21 briggs #if DEBUG_FPE 958 1.21 briggs printf("test_cc: fpsr=0x%08x\n", fpsr); 959 1.21 briggs #endif 960 1.3 briggs pred &= 0x3f; /* lowest 6 bits */ 961 1.3 briggs 962 1.21 briggs #if DEBUG_FPE 963 1.21 briggs printf("test_cc: "); 964 1.21 briggs #endif 965 1.1 gwr 966 1.21 briggs if (pred >= 0x20) { 967 1.3 briggs return SIGILL; 968 1.3 briggs } else if (pred & 0x10) { 969 1.3 briggs /* IEEE nonaware tests */ 970 1.3 briggs sig_bsun = 1; 971 1.21 briggs pred &= 0x0f; /* lower 4 bits */ 972 1.3 briggs } else { 973 1.3 briggs /* IEEE aware tests */ 974 1.21 briggs #if DEBUG_FPE 975 1.21 briggs printf("IEEE "); 976 1.21 briggs #endif 977 1.3 briggs sig_bsun = 0; 978 1.3 briggs } 979 1.1 gwr 980 1.21 briggs if (pred & 0x08) { 981 1.21 briggs #if DEBUG_FPE 982 1.21 briggs printf("Not "); 983 1.21 briggs #endif 984 1.3 briggs /* predicate is "NOT ..." */ 985 1.3 briggs pred ^= 0xf; /* invert */ 986 1.3 briggs invert = -1; 987 1.3 briggs } 988 1.3 briggs switch (pred) { 989 1.3 briggs case 0: /* (Signaling) False */ 990 1.21 briggs #if DEBUG_FPE 991 1.21 briggs printf("False"); 992 1.21 briggs #endif 993 1.3 briggs result = 0; 994 1.3 briggs break; 995 1.3 briggs case 1: /* (Signaling) Equal */ 996 1.21 briggs #if DEBUG_FPE 997 1.21 briggs printf("Equal"); 998 1.21 briggs #endif 999 1.3 briggs result = -((fpsr & FPSR_ZERO) == FPSR_ZERO); 1000 1.3 briggs break; 1001 1.3 briggs case 2: /* Greater Than */ 1002 1.21 briggs #if DEBUG_FPE 1003 1.21 briggs printf("GT"); 1004 1.21 briggs #endif 1005 1.3 briggs result = -((fpsr & (FPSR_NAN|FPSR_ZERO|FPSR_NEG)) == 0); 1006 1.3 briggs break; 1007 1.3 briggs case 3: /* Greater or Equal */ 1008 1.21 briggs #if DEBUG_FPE 1009 1.21 briggs printf("GE"); 1010 1.21 briggs #endif 1011 1.3 briggs result = -((fpsr & FPSR_ZERO) || 1012 1.3 briggs (fpsr & (FPSR_NAN|FPSR_NEG)) == 0); 1013 1.3 briggs break; 1014 1.3 briggs case 4: /* Less Than */ 1015 1.21 briggs #if DEBUG_FPE 1016 1.21 briggs printf("LT"); 1017 1.21 briggs #endif 1018 1.3 briggs result = -((fpsr & (FPSR_NAN|FPSR_ZERO|FPSR_NEG)) == FPSR_NEG); 1019 1.3 briggs break; 1020 1.3 briggs case 5: /* Less or Equal */ 1021 1.21 briggs #if DEBUG_FPE 1022 1.21 briggs printf("LE"); 1023 1.21 briggs #endif 1024 1.3 briggs result = -((fpsr & FPSR_ZERO) || 1025 1.3 briggs ((fpsr & (FPSR_NAN|FPSR_NEG)) == FPSR_NEG)); 1026 1.3 briggs break; 1027 1.3 briggs case 6: /* Greater or Less than */ 1028 1.21 briggs #if DEBUG_FPE 1029 1.21 briggs printf("GLT"); 1030 1.21 briggs #endif 1031 1.3 briggs result = -((fpsr & (FPSR_NAN|FPSR_ZERO)) == 0); 1032 1.3 briggs break; 1033 1.3 briggs case 7: /* Greater, Less or Equal */ 1034 1.21 briggs #if DEBUG_FPE 1035 1.21 briggs printf("GLE"); 1036 1.21 briggs #endif 1037 1.3 briggs result = -((fpsr & FPSR_NAN) == 0); 1038 1.3 briggs break; 1039 1.3 briggs default: 1040 1.3 briggs /* invalid predicate */ 1041 1.3 briggs return SIGILL; 1042 1.3 briggs } 1043 1.3 briggs result ^= invert; /* if the predicate is "NOT ...", then 1044 1.3 briggs invert the result */ 1045 1.21 briggs #if DEBUG_FPE 1046 1.21 briggs printf("=> %s (%d)\n", result ? "true" : "false", result); 1047 1.21 briggs #endif 1048 1.3 briggs /* if it's an IEEE unaware test and NAN is set, BSUN is set */ 1049 1.3 briggs if (sig_bsun && (fpsr & FPSR_NAN)) { 1050 1.3 briggs fpsr |= FPSR_BSUN; 1051 1.3 briggs } 1052 1.1 gwr 1053 1.3 briggs /* put fpsr back */ 1054 1.3 briggs fe->fe_fpframe->fpf_fpsr = fe->fe_fpsr = fpsr; 1055 1.1 gwr 1056 1.3 briggs return result; 1057 1.1 gwr } 1058 1.1 gwr 1059 1.1 gwr /* 1060 1.3 briggs * type 1: fdbcc, fscc, ftrapcc 1061 1.3 briggs * In this function, we know: 1062 1.3 briggs * (opcode & 0x01C0) == 0x0040 1063 1.1 gwr */ 1064 1.3 briggs static int 1065 1.27.44.1 yamt fpu_emul_type1(struct fpemu *fe, struct instruction *insn) 1066 1.1 gwr { 1067 1.3 briggs struct frame *frame = fe->fe_frame; 1068 1.3 briggs int advance, sig, branch, displ; 1069 1.3 briggs 1070 1.3 briggs branch = test_cc(fe, insn->is_word1); 1071 1.3 briggs fe->fe_fpframe->fpf_fpsr = fe->fe_fpsr; 1072 1.3 briggs 1073 1.3 briggs insn->is_advance = 4; 1074 1.3 briggs sig = 0; 1075 1.3 briggs 1076 1.3 briggs switch (insn->is_opcode & 070) { 1077 1.3 briggs case 010: /* fdbcc */ 1078 1.3 briggs if (branch == -1) { 1079 1.3 briggs /* advance */ 1080 1.3 briggs insn->is_advance = 6; 1081 1.3 briggs } else if (!branch) { 1082 1.3 briggs /* decrement Dn and if (Dn != -1) branch */ 1083 1.3 briggs u_int16_t count = frame->f_regs[insn->is_opcode & 7]; 1084 1.3 briggs 1085 1.3 briggs if (count-- != 0) { 1086 1.21 briggs displ = fusword((void *) (insn->is_pc + insn->is_advance)); 1087 1.3 briggs if (displ < 0) { 1088 1.3 briggs #ifdef DEBUG 1089 1.21 briggs printf("fpu_emul_type1: fault reading displacement\n"); 1090 1.3 briggs #endif 1091 1.3 briggs return SIGSEGV; 1092 1.3 briggs } 1093 1.3 briggs /* sign-extend the displacement */ 1094 1.3 briggs displ &= 0xffff; 1095 1.3 briggs if (displ & 0x8000) { 1096 1.3 briggs displ |= 0xffff0000; 1097 1.3 briggs } 1098 1.3 briggs insn->is_advance += displ; 1099 1.22 is /* XXX insn->is_nextpc = insn->is_pc + insn->is_advance; */ 1100 1.3 briggs } else { 1101 1.3 briggs insn->is_advance = 6; 1102 1.3 briggs } 1103 1.3 briggs /* write it back */ 1104 1.3 briggs frame->f_regs[insn->is_opcode & 7] &= 0xffff0000; 1105 1.3 briggs frame->f_regs[insn->is_opcode & 7] |= (u_int32_t)count; 1106 1.3 briggs } else { /* got a signal */ 1107 1.3 briggs sig = SIGFPE; 1108 1.3 briggs } 1109 1.3 briggs break; 1110 1.1 gwr 1111 1.3 briggs case 070: /* ftrapcc or fscc */ 1112 1.3 briggs advance = 4; 1113 1.3 briggs if ((insn->is_opcode & 07) >= 2) { 1114 1.3 briggs switch (insn->is_opcode & 07) { 1115 1.3 briggs case 3: /* long opr */ 1116 1.3 briggs advance += 2; 1117 1.3 briggs case 2: /* word opr */ 1118 1.3 briggs advance += 2; 1119 1.3 briggs case 4: /* no opr */ 1120 1.3 briggs break; 1121 1.3 briggs default: 1122 1.1 gwr return SIGILL; 1123 1.3 briggs break; 1124 1.3 briggs } 1125 1.1 gwr 1126 1.3 briggs if (branch == 0) { 1127 1.3 briggs /* no trap */ 1128 1.3 briggs insn->is_advance = advance; 1129 1.3 briggs sig = 0; 1130 1.3 briggs } else { 1131 1.3 briggs /* trap */ 1132 1.3 briggs sig = SIGFPE; 1133 1.3 briggs } 1134 1.3 briggs break; 1135 1.3 briggs } /* if ((insn->is_opcode & 7) < 2), fall through to FScc */ 1136 1.3 briggs 1137 1.3 briggs default: /* fscc */ 1138 1.3 briggs insn->is_advance = 4; 1139 1.3 briggs insn->is_datasize = 1; /* always byte */ 1140 1.21 briggs sig = fpu_decode_ea(frame, insn, &insn->is_ea, insn->is_opcode); 1141 1.3 briggs if (sig) { 1142 1.3 briggs break; 1143 1.3 briggs } 1144 1.3 briggs if (branch == -1 || branch == 0) { 1145 1.3 briggs /* set result */ 1146 1.21 briggs sig = fpu_store_ea(frame, insn, &insn->is_ea, (char *)&branch); 1147 1.1 gwr } else { 1148 1.3 briggs /* got an exception */ 1149 1.3 briggs sig = branch; 1150 1.3 briggs } 1151 1.3 briggs break; 1152 1.3 briggs } 1153 1.3 briggs return sig; 1154 1.3 briggs } 1155 1.1 gwr 1156 1.3 briggs /* 1157 1.3 briggs * Type 2 or 3: fbcc (also fnop) 1158 1.3 briggs * In this function, we know: 1159 1.3 briggs * (opcode & 0x0180) == 0x0080 1160 1.3 briggs */ 1161 1.3 briggs static int 1162 1.27.44.1 yamt fpu_emul_brcc(struct fpemu *fe, struct instruction *insn) 1163 1.3 briggs { 1164 1.3 briggs int displ, word2; 1165 1.5 briggs int sig; 1166 1.3 briggs 1167 1.3 briggs /* 1168 1.3 briggs * Get branch displacement. 1169 1.3 briggs */ 1170 1.3 briggs insn->is_advance = 4; 1171 1.3 briggs displ = insn->is_word1; 1172 1.3 briggs 1173 1.3 briggs if (insn->is_opcode & 0x40) { 1174 1.21 briggs word2 = fusword((void *) (insn->is_pc + insn->is_advance)); 1175 1.3 briggs if (word2 < 0) { 1176 1.3 briggs #ifdef DEBUG 1177 1.21 briggs printf("fpu_emul_brcc: fault reading word2\n"); 1178 1.3 briggs #endif 1179 1.3 briggs return SIGSEGV; 1180 1.1 gwr } 1181 1.3 briggs displ <<= 16; 1182 1.3 briggs displ |= word2; 1183 1.3 briggs insn->is_advance += 2; 1184 1.3 briggs } else /* displacement is word sized */ 1185 1.3 briggs if (displ & 0x8000) 1186 1.3 briggs displ |= 0xFFFF0000; 1187 1.3 briggs 1188 1.21 briggs /* XXX: If CC, insn->is_pc += displ */ 1189 1.3 briggs sig = test_cc(fe, insn->is_opcode); 1190 1.3 briggs fe->fe_fpframe->fpf_fpsr = fe->fe_fpsr; 1191 1.3 briggs 1192 1.3 briggs if (fe->fe_fpsr & fe->fe_fpcr & FPSR_EXCP) { 1193 1.3 briggs return SIGFPE; /* caught an exception */ 1194 1.3 briggs } 1195 1.3 briggs if (sig == -1) { 1196 1.3 briggs /* branch does take place; 2 is the offset to the 1st disp word */ 1197 1.3 briggs insn->is_advance = displ + 2; 1198 1.22 is /* XXX insn->is_nextpc = insn->is_pc + insn->is_advance; */ 1199 1.3 briggs } else if (sig) { 1200 1.3 briggs return SIGILL; /* got a signal */ 1201 1.3 briggs } 1202 1.21 briggs #if DEBUG_FPE 1203 1.21 briggs printf("fpu_emul_brcc: %s insn @ %x (%x+%x) (disp=%x)\n", 1204 1.21 briggs (sig == -1) ? "BRANCH to" : "NEXT", 1205 1.21 briggs insn->is_pc + insn->is_advance, insn->is_pc, insn->is_advance, 1206 1.21 briggs displ); 1207 1.21 briggs #endif 1208 1.3 briggs return 0; 1209 1.1 gwr } 1210
Indexes created Mon Oct 27 08:10:08 GMT 2025