fpu_calcea.c revision 1.12.2.2
1 1.12.2.2 jdolecek /* $NetBSD: fpu_calcea.c,v 1.12.2.2 2002/10/10 18:33:41 jdolecek Exp $ */ 2 1.1 briggs 3 1.1 briggs /* 4 1.1 briggs * Copyright (c) 1995 Gordon W. Ross 5 1.1 briggs * portion Copyright (c) 1995 Ken Nakata 6 1.1 briggs * All rights reserved. 7 1.1 briggs * 8 1.1 briggs * Redistribution and use in source and binary forms, with or without 9 1.1 briggs * modification, are permitted provided that the following conditions 10 1.1 briggs * are met: 11 1.1 briggs * 1. Redistributions of source code must retain the above copyright 12 1.1 briggs * notice, this list of conditions and the following disclaimer. 13 1.1 briggs * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 briggs * notice, this list of conditions and the following disclaimer in the 15 1.1 briggs * documentation and/or other materials provided with the distribution. 16 1.1 briggs * 3. The name of the author may not be used to endorse or promote products 17 1.1 briggs * derived from this software without specific prior written permission. 18 1.1 briggs * 4. All advertising materials mentioning features or use of this software 19 1.1 briggs * must display the following acknowledgement: 20 1.1 briggs * This product includes software developed by Gordon Ross 21 1.1 briggs * 22 1.1 briggs * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 briggs * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 briggs * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 briggs * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 briggs * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 briggs * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 briggs * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 briggs * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 briggs * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 briggs * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 briggs */ 33 1.1 briggs 34 1.3 briggs #include <sys/param.h> 35 1.1 briggs #include <sys/signal.h> 36 1.4 briggs #include <sys/systm.h> 37 1.1 briggs #include <machine/frame.h> 38 1.10 is #include <m68k/m68k.h> 39 1.1 briggs 40 1.1 briggs #include "fpu_emulate.h" 41 1.1 briggs 42 1.1 briggs /* 43 1.1 briggs * Prototypes of static functions 44 1.1 briggs */ 45 1.1 briggs static int decode_ea6 __P((struct frame *frame, struct instruction *insn, 46 1.1 briggs struct insn_ea *ea, int modreg)); 47 1.1 briggs static int fetch_immed __P((struct frame *frame, struct instruction *insn, 48 1.1 briggs int *dst)); 49 1.1 briggs static int fetch_disp __P((struct frame *frame, struct instruction *insn, 50 1.1 briggs int size, int *res)); 51 1.1 briggs static int calc_ea __P((struct insn_ea *ea, char *ptr, char **eaddr)); 52 1.4 briggs 53 1.1 briggs /* 54 1.1 briggs * Helper routines for dealing with "effective address" values. 55 1.1 briggs */ 56 1.1 briggs 57 1.1 briggs /* 58 1.1 briggs * Decode an effective address into internal form. 59 1.1 briggs * Returns zero on success, else signal number. 60 1.1 briggs */ 61 1.1 briggs int 62 1.1 briggs fpu_decode_ea(frame, insn, ea, modreg) 63 1.1 briggs struct frame *frame; 64 1.1 briggs struct instruction *insn; 65 1.1 briggs struct insn_ea *ea; 66 1.1 briggs int modreg; 67 1.1 briggs { 68 1.4 briggs int sig; 69 1.1 briggs 70 1.1 briggs #ifdef DEBUG 71 1.1 briggs if (insn->is_datasize < 0) { 72 1.12.2.2 jdolecek panic("decode_ea: called with uninitialized datasize"); 73 1.1 briggs } 74 1.1 briggs #endif 75 1.1 briggs 76 1.1 briggs sig = 0; 77 1.1 briggs 78 1.1 briggs /* Set the most common value here. */ 79 1.1 briggs ea->ea_regnum = 8 + (modreg & 7); 80 1.1 briggs 81 1.8 briggs if ((modreg & 060) == 0) { 82 1.8 briggs /* register direct */ 83 1.8 briggs ea->ea_regnum = modreg & 0xf; 84 1.1 briggs ea->ea_flags = EA_DIRECT; 85 1.8 briggs #ifdef DEBUG_FPE 86 1.8 briggs printf("decode_ea: register direct reg=%d\n", ea->ea_regnum); 87 1.8 briggs #endif 88 1.9 minoura } else if ((modreg & 077) == 074) { 89 1.8 briggs /* immediate */ 90 1.8 briggs ea->ea_flags = EA_IMMED; 91 1.8 briggs sig = fetch_immed(frame, insn, &ea->ea_immed[0]); 92 1.8 briggs #ifdef DEBUG_FPE 93 1.8 briggs printf("decode_ea: immediate size=%d\n", insn->is_datasize); 94 1.8 briggs #endif 95 1.8 briggs } 96 1.8 briggs /* 97 1.8 briggs * rest of the address modes need to be separately 98 1.8 briggs * handled for the LC040 and the others. 99 1.8 briggs */ 100 1.10 is #if 0 /* XXX */ 101 1.10 is else if (frame->f_format == 4 && frame->f_fmt4.f_fa) { 102 1.8 briggs /* LC040 */ 103 1.8 briggs ea->ea_flags = EA_FRAME_EA; 104 1.8 briggs ea->ea_fea = frame->f_fmt4.f_fa; 105 1.8 briggs #ifdef DEBUG_FPE 106 1.10 is printf("decode_ea: 68LC040 - in-frame EA (%p) size %d\n", 107 1.10 is (void *)ea->ea_fea, insn->is_datasize); 108 1.8 briggs #endif 109 1.8 briggs if ((modreg & 070) == 030) { 110 1.8 briggs /* postincrement mode */ 111 1.8 briggs ea->ea_flags |= EA_POSTINCR; 112 1.8 briggs } else if ((modreg & 070) == 040) { 113 1.8 briggs /* predecrement mode */ 114 1.8 briggs ea->ea_flags |= EA_PREDECR; 115 1.10 is #ifdef M68060 116 1.10 is #if defined(M68020) || defined(M68030) || defined(M68040) 117 1.10 is if (cputype == CPU_68060) 118 1.10 is #endif 119 1.10 is if (insn->is_datasize == 12) 120 1.10 is ea->ea_fea -= 8; 121 1.10 is #endif 122 1.1 briggs } 123 1.10 is } 124 1.10 is #endif /* XXX */ 125 1.10 is else { 126 1.8 briggs /* 020/030 */ 127 1.8 briggs switch (modreg & 070) { 128 1.1 briggs 129 1.8 briggs case 020: /* (An) */ 130 1.8 briggs ea->ea_flags = 0; 131 1.8 briggs #ifdef DEBUG_FPE 132 1.8 briggs printf("decode_ea: register indirect reg=%d\n", ea->ea_regnum); 133 1.8 briggs #endif 134 1.8 briggs break; 135 1.1 briggs 136 1.8 briggs case 030: /* (An)+ */ 137 1.8 briggs ea->ea_flags = EA_POSTINCR; 138 1.8 briggs #ifdef DEBUG_FPE 139 1.8 briggs printf("decode_ea: reg indirect postincrement reg=%d\n", 140 1.1 briggs ea->ea_regnum); 141 1.8 briggs #endif 142 1.8 briggs break; 143 1.1 briggs 144 1.8 briggs case 040: /* -(An) */ 145 1.8 briggs ea->ea_flags = EA_PREDECR; 146 1.8 briggs #ifdef DEBUG_FPE 147 1.8 briggs printf("decode_ea: reg indirect predecrement reg=%d\n", 148 1.1 briggs ea->ea_regnum); 149 1.8 briggs #endif 150 1.1 briggs break; 151 1.1 briggs 152 1.8 briggs case 050: /* (d16,An) */ 153 1.8 briggs ea->ea_flags = EA_OFFSET; 154 1.8 briggs sig = fetch_disp(frame, insn, 1, &ea->ea_offset); 155 1.8 briggs #ifdef DEBUG_FPE 156 1.8 briggs printf("decode_ea: reg indirect with displacement reg=%d\n", 157 1.8 briggs ea->ea_regnum); 158 1.8 briggs #endif 159 1.1 briggs break; 160 1.1 briggs 161 1.8 briggs case 060: /* (d8,An,Xn) */ 162 1.8 briggs ea->ea_flags = EA_INDEXED; 163 1.8 briggs sig = decode_ea6(frame, insn, ea, modreg); 164 1.1 briggs break; 165 1.1 briggs 166 1.8 briggs case 070: /* misc. */ 167 1.8 briggs ea->ea_regnum = (modreg & 7); 168 1.8 briggs switch (modreg & 7) { 169 1.8 briggs 170 1.8 briggs case 0: /* (xxxx).W */ 171 1.8 briggs ea->ea_flags = EA_ABS; 172 1.8 briggs sig = fetch_disp(frame, insn, 1, &ea->ea_absaddr); 173 1.8 briggs #ifdef DEBUG_FPE 174 1.8 briggs printf("decode_ea: absolute address (word)\n"); 175 1.8 briggs #endif 176 1.8 briggs break; 177 1.1 briggs 178 1.8 briggs case 1: /* (xxxxxxxx).L */ 179 1.8 briggs ea->ea_flags = EA_ABS; 180 1.8 briggs sig = fetch_disp(frame, insn, 2, &ea->ea_absaddr); 181 1.8 briggs #ifdef DEBUG_FPE 182 1.8 briggs printf("decode_ea: absolute address (long)\n"); 183 1.8 briggs #endif 184 1.8 briggs break; 185 1.1 briggs 186 1.8 briggs case 2: /* (d16,PC) */ 187 1.8 briggs ea->ea_flags = EA_PC_REL | EA_OFFSET; 188 1.8 briggs sig = fetch_disp(frame, insn, 1, &ea->ea_absaddr); 189 1.8 briggs #ifdef DEBUG_FPE 190 1.8 briggs printf("decode_ea: pc relative word displacement\n"); 191 1.8 briggs #endif 192 1.8 briggs break; 193 1.1 briggs 194 1.8 briggs case 3: /* (d8,PC,Xn) */ 195 1.8 briggs ea->ea_flags = EA_PC_REL | EA_INDEXED; 196 1.8 briggs sig = decode_ea6(frame, insn, ea, modreg); 197 1.8 briggs break; 198 1.8 briggs 199 1.8 briggs case 4: /* #data */ 200 1.8 briggs /* it should have been taken care of earlier */ 201 1.8 briggs default: 202 1.8 briggs #ifdef DEBUG_FPE 203 1.8 briggs printf("decode_ea: invalid addr mode (7,%d)\n", modreg & 7); 204 1.8 briggs #endif 205 1.8 briggs return SIGILL; 206 1.8 briggs } /* switch for mode 7 */ 207 1.8 briggs break; 208 1.8 briggs } /* switch mode */ 209 1.8 briggs } 210 1.8 briggs ea->ea_moffs = 0; 211 1.1 briggs 212 1.1 briggs return sig; 213 1.1 briggs } 214 1.1 briggs 215 1.1 briggs /* 216 1.1 briggs * Decode Mode=6 address modes 217 1.1 briggs */ 218 1.1 briggs static int 219 1.1 briggs decode_ea6(frame, insn, ea, modreg) 220 1.1 briggs struct frame *frame; 221 1.1 briggs struct instruction *insn; 222 1.1 briggs struct insn_ea *ea; 223 1.1 briggs int modreg; 224 1.1 briggs { 225 1.4 briggs int extword, idx; 226 1.1 briggs int basedisp, outerdisp; 227 1.1 briggs int bd_size, od_size; 228 1.1 briggs int sig; 229 1.1 briggs 230 1.8 briggs extword = fusword((void *) (insn->is_pc + insn->is_advance)); 231 1.1 briggs if (extword < 0) { 232 1.1 briggs return SIGSEGV; 233 1.1 briggs } 234 1.1 briggs insn->is_advance += 2; 235 1.1 briggs 236 1.1 briggs /* get register index */ 237 1.1 briggs ea->ea_idxreg = (extword >> 12) & 0xf; 238 1.1 briggs idx = frame->f_regs[ea->ea_idxreg]; 239 1.1 briggs if ((extword & 0x0800) == 0) { 240 1.1 briggs /* if word sized index, sign-extend */ 241 1.1 briggs idx &= 0xffff; 242 1.1 briggs if (idx & 0x8000) { 243 1.1 briggs idx |= 0xffff0000; 244 1.1 briggs } 245 1.1 briggs } 246 1.1 briggs /* scale register index */ 247 1.1 briggs idx <<= ((extword >>9) & 3); 248 1.1 briggs 249 1.1 briggs if ((extword & 0x100) == 0) { 250 1.12 toshii /* brief extension word - sign-extend the displacement */ 251 1.1 briggs basedisp = (extword & 0xff); 252 1.1 briggs if (basedisp & 0x80) { 253 1.1 briggs basedisp |= 0xffffff00; 254 1.1 briggs } 255 1.1 briggs 256 1.1 briggs ea->ea_basedisp = idx + basedisp; 257 1.1 briggs ea->ea_outerdisp = 0; 258 1.8 briggs #if DEBUG_FPE 259 1.8 briggs printf("decode_ea6: brief ext word idxreg=%d, basedisp=%08x\n", 260 1.8 briggs ea->ea_idxreg, ea->ea_basedisp); 261 1.8 briggs #endif 262 1.1 briggs } else { 263 1.12 toshii /* full extension word */ 264 1.1 briggs if (extword & 0x80) { 265 1.1 briggs ea->ea_flags |= EA_BASE_SUPPRSS; 266 1.1 briggs } 267 1.1 briggs bd_size = ((extword >> 4) & 3) - 1; 268 1.1 briggs od_size = (extword & 3) - 1; 269 1.1 briggs sig = fetch_disp(frame, insn, bd_size, &basedisp); 270 1.1 briggs if (sig) { 271 1.1 briggs return sig; 272 1.1 briggs } 273 1.1 briggs if (od_size >= 0) { 274 1.1 briggs ea->ea_flags |= EA_MEM_INDIR; 275 1.1 briggs } 276 1.1 briggs sig = fetch_disp(frame, insn, od_size, &outerdisp); 277 1.1 briggs if (sig) { 278 1.1 briggs return sig; 279 1.1 briggs } 280 1.1 briggs 281 1.1 briggs switch (extword & 0x44) { 282 1.1 briggs case 0: /* preindexed */ 283 1.1 briggs ea->ea_basedisp = basedisp + idx; 284 1.1 briggs ea->ea_outerdisp = outerdisp; 285 1.1 briggs break; 286 1.1 briggs case 4: /* postindexed */ 287 1.1 briggs ea->ea_basedisp = basedisp; 288 1.1 briggs ea->ea_outerdisp = outerdisp + idx; 289 1.1 briggs break; 290 1.1 briggs case 0x40: /* no index */ 291 1.1 briggs ea->ea_basedisp = basedisp; 292 1.1 briggs ea->ea_outerdisp = outerdisp; 293 1.1 briggs break; 294 1.1 briggs default: 295 1.1 briggs #ifdef DEBUG 296 1.8 briggs printf("decode_ea6: invalid indirect mode: ext word %04x\n", 297 1.1 briggs extword); 298 1.1 briggs #endif 299 1.1 briggs return SIGILL; 300 1.1 briggs break; 301 1.1 briggs } 302 1.8 briggs #if DEBUG_FPE 303 1.8 briggs printf("decode_ea6: full ext idxreg=%d, basedisp=%x, outerdisp=%x\n", 304 1.8 briggs ea->ea_idxreg, ea->ea_basedisp, ea->ea_outerdisp); 305 1.8 briggs #endif 306 1.1 briggs } 307 1.8 briggs #if DEBUG_FPE 308 1.8 briggs printf("decode_ea6: regnum=%d, flags=%x\n", 309 1.8 briggs ea->ea_regnum, ea->ea_flags); 310 1.8 briggs #endif 311 1.1 briggs return 0; 312 1.1 briggs } 313 1.1 briggs 314 1.1 briggs /* 315 1.1 briggs * Load a value from an effective address. 316 1.1 briggs * Returns zero on success, else signal number. 317 1.1 briggs */ 318 1.1 briggs int 319 1.1 briggs fpu_load_ea(frame, insn, ea, dst) 320 1.1 briggs struct frame *frame; 321 1.1 briggs struct instruction *insn; 322 1.1 briggs struct insn_ea *ea; 323 1.1 briggs char *dst; 324 1.1 briggs { 325 1.1 briggs int *reg; 326 1.1 briggs char *src; 327 1.1 briggs int len, step; 328 1.4 briggs int sig; 329 1.1 briggs 330 1.8 briggs #ifdef DIAGNOSTIC 331 1.1 briggs if (ea->ea_regnum & ~0xF) { 332 1.8 briggs panic("load_ea: bad regnum"); 333 1.1 briggs } 334 1.1 briggs #endif 335 1.1 briggs 336 1.8 briggs #ifdef DEBUG_FPE 337 1.8 briggs printf("load_ea: frame at %p\n", frame); 338 1.8 briggs #endif 339 1.8 briggs /* dst is always int or larger. */ 340 1.1 briggs len = insn->is_datasize; 341 1.1 briggs if (len < 4) { 342 1.1 briggs dst += (4 - len); 343 1.1 briggs } 344 1.1 briggs step = (len == 1 && ea->ea_regnum == 15 /* sp */) ? 2 : len; 345 1.1 briggs 346 1.11 is #if 0 347 1.8 briggs if (ea->ea_flags & EA_FRAME_EA) { 348 1.8 briggs /* Using LC040 frame EA */ 349 1.8 briggs #ifdef DEBUG_FPE 350 1.8 briggs if (ea->ea_flags & (EA_PREDECR|EA_POSTINCR)) { 351 1.8 briggs printf("load_ea: frame ea %08x w/r%d\n", 352 1.8 briggs ea->ea_fea, ea->ea_regnum); 353 1.8 briggs } else { 354 1.8 briggs printf("load_ea: frame ea %08x\n", ea->ea_fea); 355 1.8 briggs } 356 1.8 briggs #endif 357 1.8 briggs src = (char *)ea->ea_fea; 358 1.8 briggs copyin(src + ea->ea_moffs, dst, len); 359 1.8 briggs if (ea->ea_flags & EA_PREDECR) { 360 1.8 briggs frame->f_regs[ea->ea_regnum] = ea->ea_fea; 361 1.8 briggs ea->ea_fea -= step; 362 1.8 briggs ea->ea_moffs = 0; 363 1.8 briggs } else if (ea->ea_flags & EA_POSTINCR) { 364 1.8 briggs ea->ea_fea += step; 365 1.8 briggs frame->f_regs[ea->ea_regnum] = ea->ea_fea; 366 1.8 briggs ea->ea_moffs = 0; 367 1.8 briggs } else { 368 1.8 briggs ea->ea_moffs += step; 369 1.8 briggs } 370 1.8 briggs /* That's it, folks */ 371 1.8 briggs } else if (ea->ea_flags & EA_DIRECT) { 372 1.1 briggs if (len > 4) { 373 1.1 briggs #ifdef DEBUG 374 1.8 briggs printf("load_ea: operand doesn't fit cpu reg\n"); 375 1.1 briggs #endif 376 1.1 briggs return SIGILL; 377 1.1 briggs } 378 1.8 briggs if (ea->ea_moffs > 0) { 379 1.1 briggs #ifdef DEBUG 380 1.8 briggs printf("load_ea: more than one move from cpu reg\n"); 381 1.1 briggs #endif 382 1.1 briggs return SIGILL; 383 1.1 briggs } 384 1.1 briggs src = (char *)&frame->f_regs[ea->ea_regnum]; 385 1.1 briggs /* The source is an int. */ 386 1.1 briggs if (len < 4) { 387 1.1 briggs src += (4 - len); 388 1.8 briggs #ifdef DEBUG_FPE 389 1.8 briggs printf("load_ea: short/byte opr - addr adjusted\n"); 390 1.8 briggs #endif 391 1.1 briggs } 392 1.8 briggs #ifdef DEBUG_FPE 393 1.8 briggs printf("load_ea: src %p\n", src); 394 1.8 briggs #endif 395 1.12.2.1 lukem memcpy(dst, src, len); 396 1.11 is } else 397 1.11 is #endif 398 1.11 is if (ea->ea_flags & EA_IMMED) { 399 1.8 briggs #ifdef DEBUG_FPE 400 1.8 briggs printf("load_ea: immed %08x%08x%08x size %d\n", 401 1.8 briggs ea->ea_immed[0], ea->ea_immed[1], ea->ea_immed[2], len); 402 1.8 briggs #endif 403 1.1 briggs src = (char *)&ea->ea_immed[0]; 404 1.1 briggs if (len < 4) { 405 1.1 briggs src += (4 - len); 406 1.8 briggs #ifdef DEBUG_FPE 407 1.8 briggs printf("load_ea: short/byte immed opr - addr adjusted\n"); 408 1.8 briggs #endif 409 1.1 briggs } 410 1.12.2.1 lukem memcpy(dst, src, len); 411 1.1 briggs } else if (ea->ea_flags & EA_ABS) { 412 1.8 briggs #ifdef DEBUG_FPE 413 1.8 briggs printf("load_ea: abs addr %08x\n", ea->ea_absaddr); 414 1.8 briggs #endif 415 1.1 briggs src = (char *)ea->ea_absaddr; 416 1.1 briggs copyin(src, dst, len); 417 1.1 briggs } else /* register indirect */ { 418 1.1 briggs if (ea->ea_flags & EA_PC_REL) { 419 1.8 briggs #ifdef DEBUG_FPE 420 1.8 briggs printf("load_ea: using PC\n"); 421 1.8 briggs #endif 422 1.1 briggs reg = NULL; 423 1.1 briggs /* Grab the register contents. 4 is offset to the first 424 1.12 toshii extension word from the opcode */ 425 1.8 briggs src = (char *)insn->is_pc + 4; 426 1.8 briggs #ifdef DEBUG_FPE 427 1.8 briggs printf("load_ea: pc relative pc+4 = %p\n", src); 428 1.8 briggs #endif 429 1.1 briggs } else /* not PC relative */ { 430 1.8 briggs #ifdef DEBUG_FPE 431 1.8 briggs printf("load_ea: using register %c%d\n", 432 1.8 briggs (ea->ea_regnum >= 8) ? 'a' : 'd', ea->ea_regnum & 7); 433 1.8 briggs #endif 434 1.1 briggs /* point to the register */ 435 1.1 briggs reg = &frame->f_regs[ea->ea_regnum]; 436 1.1 briggs 437 1.1 briggs if (ea->ea_flags & EA_PREDECR) { 438 1.8 briggs #ifdef DEBUG_FPE 439 1.8 briggs printf("load_ea: predecr mode - reg decremented\n"); 440 1.8 briggs #endif 441 1.1 briggs *reg -= step; 442 1.8 briggs ea->ea_moffs = 0; 443 1.1 briggs } 444 1.1 briggs 445 1.1 briggs /* Grab the register contents. */ 446 1.1 briggs src = (char *)*reg; 447 1.8 briggs #ifdef DEBUG_FPE 448 1.8 briggs printf("load_ea: reg indirect reg = %p\n", src); 449 1.8 briggs #endif 450 1.1 briggs } 451 1.1 briggs 452 1.1 briggs sig = calc_ea(ea, src, &src); 453 1.1 briggs if (sig) 454 1.1 briggs return sig; 455 1.1 briggs 456 1.8 briggs copyin(src + ea->ea_moffs, dst, len); 457 1.1 briggs 458 1.1 briggs /* do post-increment */ 459 1.1 briggs if (ea->ea_flags & EA_POSTINCR) { 460 1.1 briggs if (ea->ea_flags & EA_PC_REL) { 461 1.1 briggs #ifdef DEBUG 462 1.8 briggs printf("load_ea: tried to postincrement PC\n"); 463 1.1 briggs #endif 464 1.1 briggs return SIGILL; 465 1.1 briggs } 466 1.1 briggs *reg += step; 467 1.8 briggs ea->ea_moffs = 0; 468 1.8 briggs #ifdef DEBUG_FPE 469 1.8 briggs printf("load_ea: postinc mode - reg incremented\n"); 470 1.8 briggs #endif 471 1.1 briggs } else { 472 1.8 briggs ea->ea_moffs += len; 473 1.1 briggs } 474 1.1 briggs } 475 1.1 briggs 476 1.1 briggs return 0; 477 1.1 briggs } 478 1.1 briggs 479 1.1 briggs /* 480 1.1 briggs * Store a value at the effective address. 481 1.1 briggs * Returns zero on success, else signal number. 482 1.1 briggs */ 483 1.1 briggs int 484 1.1 briggs fpu_store_ea(frame, insn, ea, src) 485 1.1 briggs struct frame *frame; 486 1.1 briggs struct instruction *insn; 487 1.1 briggs struct insn_ea *ea; 488 1.1 briggs char *src; 489 1.1 briggs { 490 1.1 briggs int *reg; 491 1.1 briggs char *dst; 492 1.1 briggs int len, step; 493 1.4 briggs int sig; 494 1.1 briggs 495 1.1 briggs #ifdef DIAGNOSTIC 496 1.8 briggs if (ea->ea_regnum & ~0xf) { 497 1.8 briggs panic("store_ea: bad regnum"); 498 1.1 briggs } 499 1.1 briggs #endif 500 1.1 briggs 501 1.1 briggs if (ea->ea_flags & (EA_IMMED|EA_PC_REL)) { 502 1.1 briggs /* not alterable address mode */ 503 1.1 briggs #ifdef DEBUG 504 1.8 briggs printf("store_ea: not alterable address mode\n"); 505 1.1 briggs #endif 506 1.1 briggs return SIGILL; 507 1.1 briggs } 508 1.1 briggs 509 1.8 briggs /* src is always int or larger. */ 510 1.1 briggs len = insn->is_datasize; 511 1.1 briggs if (len < 4) { 512 1.1 briggs src += (4 - len); 513 1.1 briggs } 514 1.1 briggs step = (len == 1 && ea->ea_regnum == 15 /* sp */) ? 2 : len; 515 1.1 briggs 516 1.8 briggs if (ea->ea_flags & EA_FRAME_EA) { 517 1.8 briggs /* Using LC040 frame EA */ 518 1.8 briggs #ifdef DEBUG_FPE 519 1.8 briggs if (ea->ea_flags & (EA_PREDECR|EA_POSTINCR)) { 520 1.8 briggs printf("store_ea: frame ea %08x w/r%d\n", 521 1.8 briggs ea->ea_fea, ea->ea_regnum); 522 1.8 briggs } else { 523 1.8 briggs printf("store_ea: frame ea %08x\n", ea->ea_fea); 524 1.8 briggs } 525 1.8 briggs #endif 526 1.8 briggs dst = (char *)ea->ea_fea; 527 1.8 briggs copyout(src, dst + ea->ea_moffs, len); 528 1.8 briggs if (ea->ea_flags & EA_PREDECR) { 529 1.8 briggs frame->f_regs[ea->ea_regnum] = ea->ea_fea; 530 1.8 briggs ea->ea_fea -= step; 531 1.8 briggs ea->ea_moffs = 0; 532 1.8 briggs } else if (ea->ea_flags & EA_POSTINCR) { 533 1.8 briggs ea->ea_fea += step; 534 1.8 briggs frame->f_regs[ea->ea_regnum] = ea->ea_fea; 535 1.8 briggs ea->ea_moffs = 0; 536 1.8 briggs } else { 537 1.8 briggs ea->ea_moffs += step; 538 1.1 briggs } 539 1.8 briggs /* That's it, folks */ 540 1.8 briggs } else if (ea->ea_flags & EA_ABS) { 541 1.8 briggs #ifdef DEBUG_FPE 542 1.8 briggs printf("store_ea: abs addr %08x\n", ea->ea_absaddr); 543 1.8 briggs #endif 544 1.1 briggs dst = (char *)ea->ea_absaddr; 545 1.8 briggs copyout(src, dst + ea->ea_moffs, len); 546 1.8 briggs ea->ea_moffs += len; 547 1.1 briggs } else if (ea->ea_flags & EA_DIRECT) { 548 1.1 briggs if (len > 4) { 549 1.1 briggs #ifdef DEBUG 550 1.8 briggs printf("store_ea: operand doesn't fit cpu reg\n"); 551 1.1 briggs #endif 552 1.1 briggs return SIGILL; 553 1.1 briggs } 554 1.8 briggs if (ea->ea_moffs > 0) { 555 1.1 briggs #ifdef DEBUG 556 1.8 briggs printf("store_ea: more than one move to cpu reg\n"); 557 1.1 briggs #endif 558 1.1 briggs return SIGILL; 559 1.1 briggs } 560 1.1 briggs dst = (char*)&frame->f_regs[ea->ea_regnum]; 561 1.1 briggs /* The destination is an int. */ 562 1.1 briggs if (len < 4) { 563 1.1 briggs dst += (4 - len); 564 1.8 briggs #ifdef DEBUG_FPE 565 1.8 briggs printf("store_ea: short/byte opr - dst addr adjusted\n"); 566 1.8 briggs #endif 567 1.1 briggs } 568 1.8 briggs #ifdef DEBUG_FPE 569 1.8 briggs printf("store_ea: dst %p\n", dst); 570 1.8 briggs #endif 571 1.12.2.1 lukem memcpy(dst, src, len); 572 1.1 briggs } else /* One of MANY indirect forms... */ { 573 1.8 briggs #ifdef DEBUG_FPE 574 1.8 briggs printf("store_ea: using register %c%d\n", 575 1.8 briggs (ea->ea_regnum >= 8) ? 'a' : 'd', ea->ea_regnum & 7); 576 1.8 briggs #endif 577 1.1 briggs /* point to the register */ 578 1.1 briggs reg = &(frame->f_regs[ea->ea_regnum]); 579 1.1 briggs 580 1.1 briggs /* do pre-decrement */ 581 1.1 briggs if (ea->ea_flags & EA_PREDECR) { 582 1.8 briggs #ifdef DEBUG_FPE 583 1.8 briggs printf("store_ea: predecr mode - reg decremented\n"); 584 1.8 briggs #endif 585 1.1 briggs *reg -= step; 586 1.8 briggs ea->ea_moffs = 0; 587 1.1 briggs } 588 1.1 briggs 589 1.1 briggs /* calculate the effective address */ 590 1.1 briggs sig = calc_ea(ea, (char *)*reg, &dst); 591 1.1 briggs if (sig) 592 1.1 briggs return sig; 593 1.1 briggs 594 1.8 briggs #ifdef DEBUG_FPE 595 1.8 briggs printf("store_ea: dst addr=%p+%d\n", dst, ea->ea_moffs); 596 1.8 briggs #endif 597 1.8 briggs copyout(src, dst + ea->ea_moffs, len); 598 1.1 briggs 599 1.1 briggs /* do post-increment */ 600 1.1 briggs if (ea->ea_flags & EA_POSTINCR) { 601 1.1 briggs *reg += step; 602 1.8 briggs ea->ea_moffs = 0; 603 1.8 briggs #ifdef DEBUG_FPE 604 1.8 briggs printf("store_ea: postinc mode - reg incremented\n"); 605 1.8 briggs #endif 606 1.1 briggs } else { 607 1.8 briggs ea->ea_moffs += len; 608 1.1 briggs } 609 1.1 briggs } 610 1.1 briggs 611 1.1 briggs return 0; 612 1.1 briggs } 613 1.1 briggs 614 1.1 briggs /* 615 1.1 briggs * fetch_immed: fetch immediate operand 616 1.1 briggs */ 617 1.1 briggs static int 618 1.1 briggs fetch_immed(frame, insn, dst) 619 1.1 briggs struct frame *frame; 620 1.1 briggs struct instruction *insn; 621 1.1 briggs int *dst; 622 1.1 briggs { 623 1.1 briggs int data, ext_bytes; 624 1.1 briggs 625 1.1 briggs ext_bytes = insn->is_datasize; 626 1.1 briggs 627 1.1 briggs if (0 < ext_bytes) { 628 1.8 briggs data = fusword((void *) (insn->is_pc + insn->is_advance)); 629 1.1 briggs if (data < 0) { 630 1.1 briggs return SIGSEGV; 631 1.1 briggs } 632 1.1 briggs if (ext_bytes == 1) { 633 1.1 briggs /* sign-extend byte to long */ 634 1.1 briggs data &= 0xff; 635 1.1 briggs if (data & 0x80) { 636 1.1 briggs data |= 0xffffff00; 637 1.1 briggs } 638 1.1 briggs } else if (ext_bytes == 2) { 639 1.1 briggs /* sign-extend word to long */ 640 1.1 briggs data &= 0xffff; 641 1.1 briggs if (data & 0x8000) { 642 1.1 briggs data |= 0xffff0000; 643 1.1 briggs } 644 1.1 briggs } 645 1.1 briggs insn->is_advance += 2; 646 1.1 briggs dst[0] = data; 647 1.1 briggs } 648 1.1 briggs if (2 < ext_bytes) { 649 1.8 briggs data = fusword((void *) (insn->is_pc + insn->is_advance)); 650 1.1 briggs if (data < 0) { 651 1.1 briggs return SIGSEGV; 652 1.1 briggs } 653 1.1 briggs insn->is_advance += 2; 654 1.1 briggs dst[0] <<= 16; 655 1.1 briggs dst[0] |= data; 656 1.1 briggs } 657 1.1 briggs if (4 < ext_bytes) { 658 1.8 briggs data = fusword((void *) (insn->is_pc + insn->is_advance)); 659 1.1 briggs if (data < 0) { 660 1.1 briggs return SIGSEGV; 661 1.1 briggs } 662 1.1 briggs dst[1] = data << 16; 663 1.8 briggs data = fusword((void *) (insn->is_pc + insn->is_advance + 2)); 664 1.1 briggs if (data < 0) { 665 1.1 briggs return SIGSEGV; 666 1.1 briggs } 667 1.1 briggs insn->is_advance += 4; 668 1.1 briggs dst[1] |= data; 669 1.1 briggs } 670 1.1 briggs if (8 < ext_bytes) { 671 1.8 briggs data = fusword((void *) (insn->is_pc + insn->is_advance)); 672 1.1 briggs if (data < 0) { 673 1.1 briggs return SIGSEGV; 674 1.1 briggs } 675 1.1 briggs dst[2] = data << 16; 676 1.8 briggs data = fusword((void *) (insn->is_pc + insn->is_advance + 2)); 677 1.1 briggs if (data < 0) { 678 1.1 briggs return SIGSEGV; 679 1.1 briggs } 680 1.1 briggs insn->is_advance += 4; 681 1.1 briggs dst[2] |= data; 682 1.1 briggs } 683 1.1 briggs 684 1.1 briggs return 0; 685 1.1 briggs } 686 1.1 briggs 687 1.1 briggs /* 688 1.12 toshii * fetch_disp: fetch displacement in full extension words 689 1.1 briggs */ 690 1.1 briggs static int 691 1.1 briggs fetch_disp(frame, insn, size, res) 692 1.1 briggs struct frame *frame; 693 1.1 briggs struct instruction *insn; 694 1.1 briggs int size, *res; 695 1.1 briggs { 696 1.1 briggs int disp, word; 697 1.1 briggs 698 1.1 briggs if (size == 1) { 699 1.8 briggs word = fusword((void *) (insn->is_pc + insn->is_advance)); 700 1.1 briggs if (word < 0) { 701 1.1 briggs return SIGSEGV; 702 1.1 briggs } 703 1.1 briggs disp = word & 0xffff; 704 1.1 briggs if (disp & 0x8000) { 705 1.1 briggs /* sign-extend */ 706 1.1 briggs disp |= 0xffff0000; 707 1.1 briggs } 708 1.1 briggs insn->is_advance += 2; 709 1.1 briggs } else if (size == 2) { 710 1.8 briggs word = fusword((void *) (insn->is_pc + insn->is_advance)); 711 1.1 briggs if (word < 0) { 712 1.1 briggs return SIGSEGV; 713 1.1 briggs } 714 1.1 briggs disp = word << 16; 715 1.8 briggs word = fusword((void *) (insn->is_pc + insn->is_advance + 2)); 716 1.1 briggs if (word < 0) { 717 1.1 briggs return SIGSEGV; 718 1.1 briggs } 719 1.1 briggs disp |= (word & 0xffff); 720 1.1 briggs insn->is_advance += 4; 721 1.1 briggs } else { 722 1.1 briggs disp = 0; 723 1.1 briggs } 724 1.1 briggs *res = disp; 725 1.1 briggs return 0; 726 1.1 briggs } 727 1.1 briggs 728 1.1 briggs /* 729 1.1 briggs * Calculates an effective address for all address modes except for 730 1.1 briggs * register direct, absolute, and immediate modes. However, it does 731 1.1 briggs * not take care of predecrement/postincrement of register content. 732 1.1 briggs * Returns a signal value (0 == no error). 733 1.1 briggs */ 734 1.1 briggs static int 735 1.1 briggs calc_ea(ea, ptr, eaddr) 736 1.1 briggs struct insn_ea *ea; 737 1.1 briggs char *ptr; /* base address (usually a register content) */ 738 1.1 briggs char **eaddr; /* pointer to result pointer */ 739 1.1 briggs { 740 1.4 briggs int data, word; 741 1.1 briggs 742 1.8 briggs #if DEBUG_FPE 743 1.8 briggs printf("calc_ea: reg indirect (reg) = %p\n", ptr); 744 1.8 briggs #endif 745 1.1 briggs 746 1.1 briggs if (ea->ea_flags & EA_OFFSET) { 747 1.1 briggs /* apply the signed offset */ 748 1.8 briggs #if DEBUG_FPE 749 1.8 briggs printf("calc_ea: offset %d\n", ea->ea_offset); 750 1.8 briggs #endif 751 1.1 briggs ptr += ea->ea_offset; 752 1.1 briggs } else if (ea->ea_flags & EA_INDEXED) { 753 1.8 briggs #if DEBUG_FPE 754 1.8 briggs printf("calc_ea: indexed mode\n"); 755 1.8 briggs #endif 756 1.1 briggs 757 1.1 briggs if (ea->ea_flags & EA_BASE_SUPPRSS) { 758 1.1 briggs /* base register is suppressed */ 759 1.1 briggs ptr = (char *)ea->ea_basedisp; 760 1.1 briggs } else { 761 1.1 briggs ptr += ea->ea_basedisp; 762 1.1 briggs } 763 1.1 briggs 764 1.1 briggs if (ea->ea_flags & EA_MEM_INDIR) { 765 1.8 briggs #if DEBUG_FPE 766 1.8 briggs printf("calc_ea: mem indir mode: basedisp=%08x, outerdisp=%08x\n", 767 1.8 briggs ea->ea_basedisp, ea->ea_outerdisp); 768 1.8 briggs printf("calc_ea: addr fetched from %p\n", ptr); 769 1.8 briggs #endif 770 1.1 briggs /* memory indirect modes */ 771 1.1 briggs word = fusword(ptr); 772 1.1 briggs if (word < 0) { 773 1.1 briggs return SIGSEGV; 774 1.1 briggs } 775 1.1 briggs word <<= 16; 776 1.1 briggs data = fusword(ptr + 2); 777 1.1 briggs if (data < 0) { 778 1.1 briggs return SIGSEGV; 779 1.1 briggs } 780 1.1 briggs word |= data; 781 1.8 briggs #if DEBUG_FPE 782 1.8 briggs printf("calc_ea: fetched ptr 0x%08x\n", word); 783 1.8 briggs #endif 784 1.1 briggs ptr = (char *)word + ea->ea_outerdisp; 785 1.1 briggs } 786 1.1 briggs } 787 1.1 briggs 788 1.1 briggs *eaddr = ptr; 789 1.1 briggs 790 1.1 briggs return 0; 791 1.1 briggs } 792
Indexes created Thu Oct 23 22:10:10 GMT 2025