fpu.c revision 1.8
1 1.8 eeh /* $NetBSD: fpu.c,v 1.8 2000/08/03 18:32:07 eeh Exp $ */ 2 1.2 deraadt 3 1.1 deraadt /* 4 1.1 deraadt * Copyright (c) 1992, 1993 5 1.1 deraadt * The Regents of the University of California. All rights reserved. 6 1.1 deraadt * 7 1.1 deraadt * This software was developed by the Computer Systems Engineering group 8 1.1 deraadt * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and 9 1.1 deraadt * contributed to Berkeley. 10 1.1 deraadt * 11 1.1 deraadt * All advertising materials mentioning features or use of this software 12 1.1 deraadt * must display the following acknowledgement: 13 1.1 deraadt * This product includes software developed by the University of 14 1.1 deraadt * California, Lawrence Berkeley Laboratory. 15 1.1 deraadt * 16 1.1 deraadt * Redistribution and use in source and binary forms, with or without 17 1.1 deraadt * modification, are permitted provided that the following conditions 18 1.1 deraadt * are met: 19 1.1 deraadt * 1. Redistributions of source code must retain the above copyright 20 1.1 deraadt * notice, this list of conditions and the following disclaimer. 21 1.1 deraadt * 2. Redistributions in binary form must reproduce the above copyright 22 1.1 deraadt * notice, this list of conditions and the following disclaimer in the 23 1.1 deraadt * documentation and/or other materials provided with the distribution. 24 1.1 deraadt * 3. All advertising materials mentioning features or use of this software 25 1.1 deraadt * must display the following acknowledgement: 26 1.1 deraadt * This product includes software developed by the University of 27 1.1 deraadt * California, Berkeley and its contributors. 28 1.1 deraadt * 4. Neither the name of the University nor the names of its contributors 29 1.1 deraadt * may be used to endorse or promote products derived from this software 30 1.1 deraadt * without specific prior written permission. 31 1.1 deraadt * 32 1.1 deraadt * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 33 1.1 deraadt * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 34 1.1 deraadt * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 35 1.1 deraadt * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 36 1.1 deraadt * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 37 1.1 deraadt * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 38 1.1 deraadt * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 39 1.1 deraadt * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 40 1.1 deraadt * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 41 1.1 deraadt * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 42 1.1 deraadt * SUCH DAMAGE. 43 1.1 deraadt * 44 1.1 deraadt * @(#)fpu.c 8.1 (Berkeley) 6/11/93 45 1.1 deraadt */ 46 1.1 deraadt 47 1.1 deraadt #include <sys/param.h> 48 1.1 deraadt #include <sys/proc.h> 49 1.1 deraadt #include <sys/signal.h> 50 1.1 deraadt #include <sys/systm.h> 51 1.1 deraadt #include <sys/syslog.h> 52 1.3 christos #include <sys/signalvar.h> 53 1.1 deraadt 54 1.1 deraadt #include <machine/instr.h> 55 1.1 deraadt #include <machine/reg.h> 56 1.1 deraadt 57 1.1 deraadt #include <sparc/fpu/fpu_emu.h> 58 1.3 christos #include <sparc/fpu/fpu_extern.h> 59 1.1 deraadt 60 1.8 eeh int fpe_debug = 0; 61 1.8 eeh 62 1.8 eeh #ifdef DEBUG 63 1.8 eeh /* 64 1.8 eeh * Dump a `fpn' structure. 65 1.8 eeh */ 66 1.8 eeh void 67 1.8 eeh fpu_dumpfpn(struct fpn *fp) 68 1.8 eeh { 69 1.8 eeh static char *class[] = { 70 1.8 eeh "SNAN", "QNAN", "ZERO", "NUM", "INF" 71 1.8 eeh }; 72 1.8 eeh 73 1.8 eeh printf("%s %c.%x %x %x %xE%d", class[fp->fp_class + 2], 74 1.8 eeh fp->fp_sign ? '-' : ' ', 75 1.8 eeh fp->fp_mant[0], fp->fp_mant[1], 76 1.8 eeh fp->fp_mant[2], fp->fp_mant[3], 77 1.8 eeh fp->fp_exp); 78 1.8 eeh } 79 1.8 eeh #endif 80 1.8 eeh 81 1.1 deraadt /* 82 1.1 deraadt * fpu_execute returns the following error numbers (0 = no error): 83 1.1 deraadt */ 84 1.1 deraadt #define FPE 1 /* take a floating point exception */ 85 1.1 deraadt #define NOTFPU 2 /* not an FPU instruction */ 86 1.1 deraadt 87 1.1 deraadt /* 88 1.1 deraadt * Translate current exceptions into `first' exception. The 89 1.1 deraadt * bits go the wrong way for ffs() (0x10 is most important, etc). 90 1.1 deraadt * There are only 5, so do it the obvious way. 91 1.1 deraadt */ 92 1.1 deraadt #define X1(x) x 93 1.1 deraadt #define X2(x) x,x 94 1.1 deraadt #define X4(x) x,x,x,x 95 1.1 deraadt #define X8(x) X4(x),X4(x) 96 1.1 deraadt #define X16(x) X8(x),X8(x) 97 1.1 deraadt 98 1.1 deraadt static char cx_to_trapx[] = { 99 1.1 deraadt X1(FSR_NX), 100 1.1 deraadt X2(FSR_DZ), 101 1.1 deraadt X4(FSR_UF), 102 1.1 deraadt X8(FSR_OF), 103 1.1 deraadt X16(FSR_NV) 104 1.1 deraadt }; 105 1.1 deraadt static u_char fpu_codes[] = { 106 1.1 deraadt X1(FPE_FLTINEX_TRAP), 107 1.1 deraadt X2(FPE_FLTDIV_TRAP), 108 1.1 deraadt X4(FPE_FLTUND_TRAP), 109 1.1 deraadt X8(FPE_FLTOVF_TRAP), 110 1.1 deraadt X16(FPE_FLTOPERR_TRAP) 111 1.1 deraadt }; 112 1.1 deraadt 113 1.1 deraadt /* 114 1.1 deraadt * The FPU gave us an exception. Clean up the mess. Note that the 115 1.1 deraadt * fp queue can only have FPops in it, never load/store FP registers 116 1.1 deraadt * nor FBfcc instructions. Experiments with `crashme' prove that 117 1.1 deraadt * unknown FPops do enter the queue, however. 118 1.1 deraadt */ 119 1.3 christos void 120 1.1 deraadt fpu_cleanup(p, fs) 121 1.1 deraadt register struct proc *p; 122 1.7 mrg #ifndef SUN4U 123 1.1 deraadt register struct fpstate *fs; 124 1.7 mrg #else /* SUN4U */ 125 1.7 mrg register struct fpstate64 *fs; 126 1.7 mrg #endif /* SUN4U */ 127 1.1 deraadt { 128 1.1 deraadt register int i, fsr = fs->fs_fsr, error; 129 1.1 deraadt union instr instr; 130 1.1 deraadt struct fpemu fe; 131 1.1 deraadt 132 1.1 deraadt switch ((fsr >> FSR_FTT_SHIFT) & FSR_FTT_MASK) { 133 1.1 deraadt 134 1.1 deraadt case FSR_TT_NONE: 135 1.7 mrg panic("fpu_cleanup: No fault"); /* ??? */ 136 1.1 deraadt break; 137 1.1 deraadt 138 1.1 deraadt case FSR_TT_IEEE: 139 1.1 deraadt /* XXX missing trap address! */ 140 1.1 deraadt if ((i = fsr & FSR_CX) == 0) 141 1.1 deraadt panic("fpu ieee trap, but no exception"); 142 1.1 deraadt trapsignal(p, SIGFPE, fpu_codes[i - 1]); 143 1.1 deraadt break; /* XXX should return, but queue remains */ 144 1.1 deraadt 145 1.1 deraadt case FSR_TT_UNFIN: 146 1.7 mrg #ifdef SUN4U 147 1.7 mrg if (fs->fs_qsize == 0) { 148 1.7 mrg printf("fpu_cleanup: unfinished fpop"); 149 1.7 mrg /* The book sez reexecute or emulate. */ 150 1.7 mrg return; 151 1.7 mrg } 152 1.7 mrg break; 153 1.7 mrg 154 1.7 mrg #endif /* SUN4U */ 155 1.1 deraadt case FSR_TT_UNIMP: 156 1.1 deraadt if (fs->fs_qsize == 0) 157 1.7 mrg panic("fpu_cleanup: unimplemented fpop"); 158 1.1 deraadt break; 159 1.1 deraadt 160 1.1 deraadt case FSR_TT_SEQ: 161 1.1 deraadt panic("fpu sequence error"); 162 1.1 deraadt /* NOTREACHED */ 163 1.1 deraadt 164 1.1 deraadt case FSR_TT_HWERR: 165 1.1 deraadt log(LOG_ERR, "fpu hardware error (%s[%d])\n", 166 1.1 deraadt p->p_comm, p->p_pid); 167 1.1 deraadt uprintf("%s[%d]: fpu hardware error\n", p->p_comm, p->p_pid); 168 1.1 deraadt trapsignal(p, SIGFPE, -1); /* ??? */ 169 1.1 deraadt goto out; 170 1.1 deraadt 171 1.1 deraadt default: 172 1.6 fair printf("fsr=0x%x\n", fsr); 173 1.1 deraadt panic("fpu error"); 174 1.1 deraadt } 175 1.1 deraadt 176 1.1 deraadt /* emulate the instructions left in the queue */ 177 1.1 deraadt fe.fe_fpstate = fs; 178 1.1 deraadt for (i = 0; i < fs->fs_qsize; i++) { 179 1.1 deraadt instr.i_int = fs->fs_queue[i].fq_instr; 180 1.1 deraadt if (instr.i_any.i_op != IOP_reg || 181 1.1 deraadt (instr.i_op3.i_op3 != IOP3_FPop1 && 182 1.1 deraadt instr.i_op3.i_op3 != IOP3_FPop2)) 183 1.1 deraadt panic("bogus fpu queue"); 184 1.1 deraadt error = fpu_execute(&fe, instr); 185 1.1 deraadt switch (error) { 186 1.1 deraadt 187 1.1 deraadt case 0: 188 1.1 deraadt continue; 189 1.1 deraadt 190 1.1 deraadt case FPE: 191 1.1 deraadt trapsignal(p, SIGFPE, 192 1.1 deraadt fpu_codes[(fs->fs_fsr & FSR_CX) - 1]); 193 1.1 deraadt break; 194 1.1 deraadt 195 1.1 deraadt case NOTFPU: 196 1.7 mrg #ifdef SUN4U 197 1.7 mrg #ifdef DEBUG 198 1.7 mrg printf("fpu_cleanup: not an FPU error -- sending SIGILL\n", p); 199 1.7 mrg Debugger(); 200 1.7 mrg #endif 201 1.7 mrg #endif /* SUN4U */ 202 1.1 deraadt trapsignal(p, SIGILL, 0); /* ??? code? */ 203 1.1 deraadt break; 204 1.1 deraadt 205 1.1 deraadt default: 206 1.1 deraadt panic("fpu_cleanup 3"); 207 1.1 deraadt /* NOTREACHED */ 208 1.1 deraadt } 209 1.1 deraadt /* XXX should stop here, but queue remains */ 210 1.1 deraadt } 211 1.1 deraadt out: 212 1.1 deraadt fs->fs_qsize = 0; 213 1.1 deraadt } 214 1.1 deraadt 215 1.1 deraadt #ifdef notyet 216 1.1 deraadt /* 217 1.1 deraadt * If we have no FPU at all (are there any machines like this out 218 1.1 deraadt * there!?) we have to emulate each instruction, and we need a pointer 219 1.1 deraadt * to the trapframe so that we can step over them and do FBfcc's. 220 1.1 deraadt * We know the `queue' is empty, though; we just want to emulate 221 1.1 deraadt * the instruction at tf->tf_pc. 222 1.1 deraadt */ 223 1.1 deraadt fpu_emulate(p, tf, fs) 224 1.1 deraadt struct proc *p; 225 1.1 deraadt register struct trapframe *tf; 226 1.7 mrg #ifndef SUN4U 227 1.1 deraadt register struct fpstate *fs; 228 1.7 mrg #else /* SUN4U */ 229 1.7 mrg register struct fpstate64 *fs; 230 1.7 mrg #endif /* SUN4U */ 231 1.1 deraadt { 232 1.1 deraadt 233 1.1 deraadt do { 234 1.1 deraadt fetch instr from pc 235 1.1 deraadt decode 236 1.1 deraadt if (integer instr) { 237 1.1 deraadt /* 238 1.1 deraadt * We do this here, rather than earlier, to avoid 239 1.1 deraadt * losing even more badly than usual. 240 1.1 deraadt */ 241 1.1 deraadt if (p->p_addr->u_pcb.pcb_uw) { 242 1.1 deraadt write_user_windows(); 243 1.1 deraadt if (rwindow_save(p)) 244 1.1 deraadt sigexit(p, SIGILL); 245 1.1 deraadt } 246 1.1 deraadt if (loadstore) { 247 1.1 deraadt do_it; 248 1.1 deraadt pc = npc, npc += 4 249 1.1 deraadt } else if (fbfcc) { 250 1.1 deraadt do_annul_stuff; 251 1.1 deraadt } else 252 1.1 deraadt return; 253 1.1 deraadt } else if (fpu instr) { 254 1.1 deraadt fe.fe_fsr = fs->fs_fsr &= ~FSR_CX; 255 1.1 deraadt error = fpu_execute(&fe, fs, instr); 256 1.1 deraadt switch (error) { 257 1.1 deraadt etc; 258 1.1 deraadt } 259 1.1 deraadt } else 260 1.1 deraadt return; 261 1.1 deraadt if (want to reschedule) 262 1.1 deraadt return; 263 1.1 deraadt } while (error == 0); 264 1.1 deraadt } 265 1.1 deraadt #endif 266 1.1 deraadt 267 1.1 deraadt /* 268 1.1 deraadt * Execute an FPU instruction (one that runs entirely in the FPU; not 269 1.1 deraadt * FBfcc or STF, for instance). On return, fe->fe_fs->fs_fsr will be 270 1.1 deraadt * modified to reflect the setting the hardware would have left. 271 1.1 deraadt * 272 1.1 deraadt * Note that we do not catch all illegal opcodes, so you can, for instance, 273 1.1 deraadt * multiply two integers this way. 274 1.1 deraadt */ 275 1.1 deraadt int 276 1.1 deraadt fpu_execute(fe, instr) 277 1.1 deraadt register struct fpemu *fe; 278 1.1 deraadt union instr instr; 279 1.1 deraadt { 280 1.1 deraadt register struct fpn *fp; 281 1.7 mrg #ifndef SUN4U 282 1.1 deraadt register int opf, rs1, rs2, rd, type, mask, fsr, cx; 283 1.1 deraadt register struct fpstate *fs; 284 1.7 mrg #else /* SUN4U */ 285 1.7 mrg register int opf, rs1, rs2, rd, type, mask, fsr, cx, i, cond; 286 1.7 mrg register struct fpstate64 *fs; 287 1.7 mrg #endif /* SUN4U */ 288 1.1 deraadt u_int space[4]; 289 1.1 deraadt 290 1.1 deraadt /* 291 1.1 deraadt * `Decode' and execute instruction. Start with no exceptions. 292 1.1 deraadt * The type of any i_opf opcode is in the bottom two bits, so we 293 1.1 deraadt * squish them out here. 294 1.1 deraadt */ 295 1.1 deraadt opf = instr.i_opf.i_opf; 296 1.1 deraadt type = opf & 3; 297 1.1 deraadt mask = "\0\0\1\3"[type]; 298 1.1 deraadt rs1 = instr.i_opf.i_rs1 & ~mask; 299 1.1 deraadt rs2 = instr.i_opf.i_rs2 & ~mask; 300 1.1 deraadt rd = instr.i_opf.i_rd & ~mask; 301 1.1 deraadt #ifdef notdef 302 1.1 deraadt if ((rs1 | rs2 | rd) & mask) 303 1.1 deraadt return (BADREG); 304 1.1 deraadt #endif 305 1.1 deraadt fs = fe->fe_fpstate; 306 1.1 deraadt fe->fe_fsr = fs->fs_fsr & ~FSR_CX; 307 1.1 deraadt fe->fe_cx = 0; 308 1.7 mrg #ifdef SUN4U 309 1.7 mrg /* 310 1.7 mrg * Check to see if we're dealing with a fancy cmove and handle 311 1.7 mrg * it first. 312 1.7 mrg */ 313 1.7 mrg if (instr.i_op3.i_op3 == IOP3_FPop2 && (opf&0xff0) != (FCMP&0xff0)) { 314 1.7 mrg switch (opf >>= 2) { 315 1.7 mrg case FMVFC0 >> 2: 316 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVFC0\n")); 317 1.7 mrg cond = (fs->fs_fsr>>FSR_FCC_SHIFT)&FSR_FCC_MASK; 318 1.7 mrg if (instr.i_fmovcc.i_cond != cond) return(0); /* success */ 319 1.7 mrg rs1 = fs->fs_regs[rs2]; 320 1.7 mrg goto mov; 321 1.7 mrg case FMVFC1 >> 2: 322 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVFC1\n")); 323 1.7 mrg cond = (fs->fs_fsr>>FSR_FCC1_SHIFT)&FSR_FCC_MASK; 324 1.7 mrg if (instr.i_fmovcc.i_cond != cond) return(0); /* success */ 325 1.7 mrg rs1 = fs->fs_regs[rs2]; 326 1.7 mrg goto mov; 327 1.7 mrg case FMVFC2 >> 2: 328 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVFC2\n")); 329 1.7 mrg cond = (fs->fs_fsr>>FSR_FCC2_SHIFT)&FSR_FCC_MASK; 330 1.7 mrg if (instr.i_fmovcc.i_cond != cond) return(0); /* success */ 331 1.7 mrg rs1 = fs->fs_regs[rs2]; 332 1.7 mrg goto mov; 333 1.7 mrg case FMVFC3 >> 2: 334 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVFC3\n")); 335 1.7 mrg cond = (fs->fs_fsr>>FSR_FCC3_SHIFT)&FSR_FCC_MASK; 336 1.7 mrg if (instr.i_fmovcc.i_cond != cond) return(0); /* success */ 337 1.7 mrg rs1 = fs->fs_regs[rs2]; 338 1.7 mrg goto mov; 339 1.7 mrg case FMVIC >> 2: 340 1.7 mrg /* Presume we're curproc */ 341 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVIC\n")); 342 1.7 mrg cond = (curproc->p_md.md_tf->tf_tstate>>TSTATE_CCR_SHIFT)&PSR_ICC; 343 1.7 mrg if (instr.i_fmovcc.i_cond != cond) return(0); /* success */ 344 1.7 mrg rs1 = fs->fs_regs[rs2]; 345 1.7 mrg goto mov; 346 1.7 mrg case FMVXC >> 2: 347 1.7 mrg /* Presume we're curproc */ 348 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVXC\n")); 349 1.7 mrg cond = (curproc->p_md.md_tf->tf_tstate>>(TSTATE_CCR_SHIFT+XCC_SHIFT))&PSR_ICC; 350 1.7 mrg if (instr.i_fmovcc.i_cond != cond) return(0); /* success */ 351 1.7 mrg rs1 = fs->fs_regs[rs2]; 352 1.7 mrg goto mov; 353 1.7 mrg case FMVRZ >> 2: 354 1.7 mrg /* Presume we're curproc */ 355 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVRZ\n")); 356 1.7 mrg rs1 = instr.i_fmovr.i_rs1; 357 1.7 mrg if (rs1 != 0 && (int64_t)curproc->p_md.md_tf->tf_global[rs1] != 0) 358 1.7 mrg return (0); /* success */ 359 1.7 mrg rs1 = fs->fs_regs[rs2]; 360 1.7 mrg goto mov; 361 1.7 mrg case FMVRLEZ >> 2: 362 1.7 mrg /* Presume we're curproc */ 363 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVRLEZ\n")); 364 1.7 mrg rs1 = instr.i_fmovr.i_rs1; 365 1.7 mrg if (rs1 != 0 && (int64_t)curproc->p_md.md_tf->tf_global[rs1] > 0) 366 1.7 mrg return (0); /* success */ 367 1.7 mrg rs1 = fs->fs_regs[rs2]; 368 1.7 mrg goto mov; 369 1.7 mrg case FMVRLZ >> 2: 370 1.7 mrg /* Presume we're curproc */ 371 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVRLZ\n")); 372 1.7 mrg rs1 = instr.i_fmovr.i_rs1; 373 1.7 mrg if (rs1 == 0 || (int64_t)curproc->p_md.md_tf->tf_global[rs1] >= 0) 374 1.7 mrg return (0); /* success */ 375 1.7 mrg rs1 = fs->fs_regs[rs2]; 376 1.7 mrg goto mov; 377 1.7 mrg case FMVRNZ >> 2: 378 1.7 mrg /* Presume we're curproc */ 379 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVRNZ\n")); 380 1.7 mrg rs1 = instr.i_fmovr.i_rs1; 381 1.7 mrg if (rs1 == 0 || (int64_t)curproc->p_md.md_tf->tf_global[rs1] == 0) 382 1.7 mrg return (0); /* success */ 383 1.7 mrg rs1 = fs->fs_regs[rs2]; 384 1.7 mrg goto mov; 385 1.7 mrg case FMVRGZ >> 2: 386 1.7 mrg /* Presume we're curproc */ 387 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVRGZ\n")); 388 1.7 mrg rs1 = instr.i_fmovr.i_rs1; 389 1.7 mrg if (rs1 == 0 || (int64_t)curproc->p_md.md_tf->tf_global[rs1] <= 0) 390 1.7 mrg return (0); /* success */ 391 1.7 mrg rs1 = fs->fs_regs[rs2]; 392 1.7 mrg goto mov; 393 1.7 mrg case FMVRGEZ >> 2: 394 1.7 mrg /* Presume we're curproc */ 395 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMVRGEZ\n")); 396 1.7 mrg rs1 = instr.i_fmovr.i_rs1; 397 1.7 mrg if (rs1 != 0 && (int64_t)curproc->p_md.md_tf->tf_global[rs1] < 0) 398 1.7 mrg return (0); /* success */ 399 1.7 mrg rs1 = fs->fs_regs[rs2]; 400 1.8 eeh goto mov; 401 1.7 mrg default: 402 1.8 eeh DPRINTF(FPE_INSN, 403 1.8 eeh ("fpu_execute: unknown v9 FP inst %x opf %x\n", 404 1.8 eeh instr.i_int, opf)); 405 1.7 mrg return (NOTFPU); 406 1.7 mrg } 407 1.7 mrg } 408 1.7 mrg #endif /* SUN4U */ 409 1.1 deraadt switch (opf >>= 2) { 410 1.1 deraadt 411 1.1 deraadt default: 412 1.8 eeh DPRINTF(FPE_INSN, 413 1.8 eeh ("fpu_execute: unknown basic FP inst %x opf %x\n", 414 1.8 eeh instr.i_int, opf)); 415 1.1 deraadt return (NOTFPU); 416 1.1 deraadt 417 1.1 deraadt case FMOV >> 2: /* these should all be pretty obvious */ 418 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMOV\n")); 419 1.1 deraadt rs1 = fs->fs_regs[rs2]; 420 1.1 deraadt goto mov; 421 1.1 deraadt 422 1.1 deraadt case FNEG >> 2: 423 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FNEG\n")); 424 1.1 deraadt rs1 = fs->fs_regs[rs2] ^ (1 << 31); 425 1.1 deraadt goto mov; 426 1.1 deraadt 427 1.1 deraadt case FABS >> 2: 428 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FABS\n")); 429 1.1 deraadt rs1 = fs->fs_regs[rs2] & ~(1 << 31); 430 1.1 deraadt mov: 431 1.7 mrg #ifndef SUN4U 432 1.1 deraadt fs->fs_regs[rd] = rs1; 433 1.7 mrg #else /* SUN4U */ 434 1.7 mrg i = 1<<type; 435 1.7 mrg fs->fs_regs[rd++] = rs1; 436 1.7 mrg while (--i) 437 1.7 mrg fs->fs_regs[rd++] = fs->fs_regs[++rs2]; 438 1.7 mrg #endif /* SUN4U */ 439 1.1 deraadt fs->fs_fsr = fe->fe_fsr; 440 1.1 deraadt return (0); /* success */ 441 1.1 deraadt 442 1.1 deraadt case FSQRT >> 2: 443 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FSQRT\n")); 444 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs2); 445 1.1 deraadt fp = fpu_sqrt(fe); 446 1.1 deraadt break; 447 1.1 deraadt 448 1.1 deraadt case FADD >> 2: 449 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FADD\n")); 450 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs1); 451 1.1 deraadt fpu_explode(fe, &fe->fe_f2, type, rs2); 452 1.1 deraadt fp = fpu_add(fe); 453 1.1 deraadt break; 454 1.1 deraadt 455 1.1 deraadt case FSUB >> 2: 456 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FSUB\n")); 457 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs1); 458 1.1 deraadt fpu_explode(fe, &fe->fe_f2, type, rs2); 459 1.1 deraadt fp = fpu_sub(fe); 460 1.1 deraadt break; 461 1.1 deraadt 462 1.1 deraadt case FMUL >> 2: 463 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FMUL\n")); 464 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs1); 465 1.1 deraadt fpu_explode(fe, &fe->fe_f2, type, rs2); 466 1.1 deraadt fp = fpu_mul(fe); 467 1.1 deraadt break; 468 1.1 deraadt 469 1.1 deraadt case FDIV >> 2: 470 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FDIV\n")); 471 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs1); 472 1.1 deraadt fpu_explode(fe, &fe->fe_f2, type, rs2); 473 1.1 deraadt fp = fpu_div(fe); 474 1.1 deraadt break; 475 1.1 deraadt 476 1.1 deraadt case FCMP >> 2: 477 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FCMP\n")); 478 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs1); 479 1.1 deraadt fpu_explode(fe, &fe->fe_f2, type, rs2); 480 1.1 deraadt fpu_compare(fe, 0); 481 1.1 deraadt goto cmpdone; 482 1.1 deraadt 483 1.1 deraadt case FCMPE >> 2: 484 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FCMPE\n")); 485 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs1); 486 1.1 deraadt fpu_explode(fe, &fe->fe_f2, type, rs2); 487 1.1 deraadt fpu_compare(fe, 1); 488 1.1 deraadt cmpdone: 489 1.1 deraadt /* 490 1.1 deraadt * The only possible exception here is NV; catch it 491 1.1 deraadt * early and get out, as there is no result register. 492 1.1 deraadt */ 493 1.1 deraadt cx = fe->fe_cx; 494 1.1 deraadt fsr = fe->fe_fsr | (cx << FSR_CX_SHIFT); 495 1.1 deraadt if (cx != 0) { 496 1.1 deraadt if (fsr & (FSR_NV << FSR_TEM_SHIFT)) { 497 1.1 deraadt fs->fs_fsr = (fsr & ~FSR_FTT) | 498 1.1 deraadt (FSR_TT_IEEE << FSR_FTT_SHIFT); 499 1.1 deraadt return (FPE); 500 1.1 deraadt } 501 1.1 deraadt fsr |= FSR_NV << FSR_AX_SHIFT; 502 1.1 deraadt } 503 1.1 deraadt fs->fs_fsr = fsr; 504 1.1 deraadt return (0); 505 1.1 deraadt 506 1.1 deraadt case FSMULD >> 2: 507 1.1 deraadt case FDMULX >> 2: 508 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FSMULx\n")); 509 1.1 deraadt if (type == FTYPE_EXT) 510 1.1 deraadt return (NOTFPU); 511 1.1 deraadt fpu_explode(fe, &fe->fe_f1, type, rs1); 512 1.1 deraadt fpu_explode(fe, &fe->fe_f2, type, rs2); 513 1.1 deraadt type++; /* single to double, or double to quad */ 514 1.1 deraadt fp = fpu_mul(fe); 515 1.1 deraadt break; 516 1.1 deraadt 517 1.7 mrg #ifdef SUN4U 518 1.7 mrg case FXTOS >> 2: 519 1.7 mrg case FXTOD >> 2: 520 1.7 mrg case FXTOQ >> 2: 521 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FXTOx\n")); 522 1.7 mrg type = FTYPE_LNG; 523 1.7 mrg fpu_explode(fe, fp = &fe->fe_f1, type, rs2); 524 1.7 mrg type = opf & 3; /* sneaky; depends on instruction encoding */ 525 1.7 mrg break; 526 1.7 mrg 527 1.7 mrg case FTOX >> 2: 528 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FTOx\n")); 529 1.7 mrg fpu_explode(fe, fp = &fe->fe_f1, type, rs2); 530 1.7 mrg type = FTYPE_LNG; 531 1.8 eeh break; 532 1.7 mrg #endif /* SUN4U */ 533 1.7 mrg 534 1.1 deraadt case FTOS >> 2: 535 1.1 deraadt case FTOD >> 2: 536 1.7 mrg #ifndef SUN4U 537 1.1 deraadt case FTOX >> 2: 538 1.7 mrg #else /* SUN4U */ 539 1.7 mrg case FTOQ >> 2: 540 1.7 mrg #endif /* SUN4U */ 541 1.1 deraadt case FTOI >> 2: 542 1.8 eeh DPRINTF(FPE_INSN, ("fpu_execute: FTOx\n")); 543 1.1 deraadt fpu_explode(fe, fp = &fe->fe_f1, type, rs2); 544 1.1 deraadt type = opf & 3; /* sneaky; depends on instruction encoding */ 545 1.1 deraadt break; 546 1.1 deraadt } 547 1.1 deraadt 548 1.1 deraadt /* 549 1.1 deraadt * ALU operation is complete. Collapse the result and then check 550 1.1 deraadt * for exceptions. If we got any, and they are enabled, do not 551 1.1 deraadt * alter the destination register, just stop with an exception. 552 1.1 deraadt * Otherwise set new current exceptions and accrue. 553 1.1 deraadt */ 554 1.1 deraadt fpu_implode(fe, fp, type, space); 555 1.1 deraadt cx = fe->fe_cx; 556 1.1 deraadt fsr = fe->fe_fsr; 557 1.1 deraadt if (cx != 0) { 558 1.1 deraadt mask = (fsr >> FSR_TEM_SHIFT) & FSR_TEM_MASK; 559 1.1 deraadt if (cx & mask) { 560 1.1 deraadt /* not accrued??? */ 561 1.1 deraadt fs->fs_fsr = (fsr & ~FSR_FTT) | 562 1.1 deraadt (FSR_TT_IEEE << FSR_FTT_SHIFT) | 563 1.1 deraadt (cx_to_trapx[(cx & mask) - 1] << FSR_CX_SHIFT); 564 1.1 deraadt return (FPE); 565 1.1 deraadt } 566 1.1 deraadt fsr |= (cx << FSR_CX_SHIFT) | (cx << FSR_AX_SHIFT); 567 1.1 deraadt } 568 1.1 deraadt fs->fs_fsr = fsr; 569 1.1 deraadt fs->fs_regs[rd] = space[0]; 570 1.7 mrg if (type >= FTYPE_DBL || type == FTYPE_LNG) { 571 1.1 deraadt fs->fs_regs[rd + 1] = space[1]; 572 1.1 deraadt if (type > FTYPE_DBL) { 573 1.1 deraadt fs->fs_regs[rd + 2] = space[2]; 574 1.1 deraadt fs->fs_regs[rd + 3] = space[3]; 575 1.1 deraadt } 576 1.1 deraadt } 577 1.1 deraadt return (0); /* success */ 578 1.1 deraadt } 579
Indexes created Tue Sep 23 23:09:58 GMT 2025