instr.h revision 1.5
1 1.5 matt /* $NetBSD: instr.h,v 1.5 2011/01/18 01:02:54 matt Exp $ */ 2 1.1 simonb 3 1.1 simonb /* 4 1.1 simonb * Copyright (c) 1992, 1993 5 1.1 simonb * The Regents of the University of California. All rights reserved. 6 1.1 simonb * 7 1.1 simonb * This software was developed by the Computer Systems Engineering group 8 1.1 simonb * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and 9 1.1 simonb * contributed to Berkeley. 10 1.1 simonb * 11 1.1 simonb * All advertising materials mentioning features or use of this software 12 1.1 simonb * must display the following acknowledgement: 13 1.1 simonb * This product includes software developed by the University of 14 1.1 simonb * California, Lawrence Berkeley Laboratory. 15 1.1 simonb * 16 1.1 simonb * Redistribution and use in source and binary forms, with or without 17 1.1 simonb * modification, are permitted provided that the following conditions 18 1.1 simonb * are met: 19 1.1 simonb * 1. Redistributions of source code must retain the above copyright 20 1.1 simonb * notice, this list of conditions and the following disclaimer. 21 1.1 simonb * 2. Redistributions in binary form must reproduce the above copyright 22 1.1 simonb * notice, this list of conditions and the following disclaimer in the 23 1.1 simonb * documentation and/or other materials provided with the distribution. 24 1.2 agc * 3. Neither the name of the University nor the names of its contributors 25 1.1 simonb * may be used to endorse or promote products derived from this software 26 1.1 simonb * without specific prior written permission. 27 1.1 simonb * 28 1.1 simonb * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 29 1.1 simonb * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 30 1.1 simonb * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 31 1.1 simonb * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 32 1.1 simonb * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 33 1.1 simonb * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 34 1.1 simonb * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 35 1.1 simonb * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 36 1.1 simonb * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 37 1.1 simonb * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 38 1.1 simonb * SUCH DAMAGE. 39 1.1 simonb * 40 1.1 simonb * @(#)instr.h 8.1 (Berkeley) 6/11/93 41 1.1 simonb */ 42 1.1 simonb 43 1.5 matt #ifndef _POWERPC_INSTR_H_ 44 1.5 matt #define _POWERPC_INSTR_H_ 45 1.5 matt 46 1.1 simonb /* 47 1.1 simonb * An instruction. 48 1.1 simonb */ 49 1.1 simonb union instr { 50 1.1 simonb int i_int; /* as a whole */ 51 1.1 simonb 52 1.1 simonb 53 1.1 simonb /* 54 1.1 simonb * Any instruction type. 55 1.1 simonb */ 56 1.1 simonb struct { 57 1.1 simonb u_int i_opcd:6; /* first-level decode */ 58 1.1 simonb u_int :25; 59 1.1 simonb u_int i_rc:1; 60 1.1 simonb } i_any; 61 1.1 simonb 62 1.1 simonb /* 63 1.1 simonb * Format A 64 1.1 simonb */ 65 1.1 simonb struct { 66 1.1 simonb u_int i_opcd:6; 67 1.1 simonb u_int i_frt:5; 68 1.1 simonb u_int i_fra:5; 69 1.1 simonb u_int i_frb:5; 70 1.1 simonb u_int i_frc:5; 71 1.1 simonb u_int i_xo:5; 72 1.1 simonb u_int i_rc:1; 73 1.1 simonb } i_a; 74 1.1 simonb 75 1.1 simonb /* 76 1.1 simonb * Format B 77 1.1 simonb */ 78 1.1 simonb struct { 79 1.1 simonb u_int i_opcd:6; 80 1.5 matt u_int i_bo:5; 81 1.5 matt u_int i_bi:5; 82 1.1 simonb int i_bd:14; 83 1.5 matt u_int i_aa:1; 84 1.5 matt u_int i_lk:1; 85 1.1 simonb } i_b; 86 1.1 simonb 87 1.1 simonb /* 88 1.1 simonb * Format D 89 1.1 simonb */ 90 1.1 simonb struct { 91 1.1 simonb u_int i_opcd:6; 92 1.1 simonb u_int i_rs:5; 93 1.1 simonb u_int i_ra:5; 94 1.1 simonb int i_d:16; 95 1.1 simonb } i_d; 96 1.1 simonb 97 1.1 simonb /* 98 1.1 simonb * Format DE 99 1.1 simonb */ 100 1.1 simonb struct { 101 1.1 simonb u_int i_opcd:6; 102 1.1 simonb u_int i_rs:5; 103 1.1 simonb u_int i_ra:5; 104 1.1 simonb int i_d:12; 105 1.1 simonb u_int i_xo:4; 106 1.1 simonb } i_de; 107 1.1 simonb 108 1.1 simonb /* 109 1.1 simonb * Format I 110 1.1 simonb */ 111 1.1 simonb struct { 112 1.1 simonb u_int i_opcd:6; 113 1.1 simonb int i_li:24; 114 1.1 simonb int i_aa:1; 115 1.1 simonb int i_lk:1; 116 1.1 simonb } i_i; 117 1.1 simonb 118 1.1 simonb /* 119 1.1 simonb * Format M 120 1.1 simonb */ 121 1.1 simonb struct { 122 1.1 simonb u_int i_opcd:6; 123 1.1 simonb u_int i_rs:5; 124 1.1 simonb u_int i_ra:5; 125 1.1 simonb u_int i_rb:5; 126 1.1 simonb int i_mb:5; 127 1.1 simonb int i_me:5; 128 1.1 simonb u_int i_rc:1; 129 1.1 simonb } i_m; 130 1.1 simonb 131 1.1 simonb /* 132 1.1 simonb * Format MD 133 1.1 simonb */ 134 1.1 simonb struct { 135 1.1 simonb u_int i_opcd:6; 136 1.1 simonb u_int i_rs:5; 137 1.1 simonb u_int i_ra:5; 138 1.1 simonb u_int i_rb:5; 139 1.1 simonb int i_sh1_5:5; 140 1.1 simonb int i_mb:6; 141 1.1 simonb u_int i_xo:3; 142 1.1 simonb int i_sh0:2; 143 1.1 simonb u_int i_rc:1; 144 1.1 simonb } i_md; 145 1.1 simonb 146 1.1 simonb /* 147 1.1 simonb * Format MDS 148 1.1 simonb */ 149 1.1 simonb struct { 150 1.1 simonb u_int i_opcd:6; 151 1.1 simonb u_int i_rs:5; 152 1.1 simonb u_int i_ra:5; 153 1.1 simonb u_int i_rb:5; 154 1.1 simonb int i_sh:5; 155 1.1 simonb int i_mb:6; 156 1.1 simonb u_int i_xo:4; 157 1.1 simonb u_int i_rc:1; 158 1.1 simonb } i_mds; 159 1.1 simonb 160 1.1 simonb 161 1.1 simonb /* 162 1.1 simonb * Format S 163 1.1 simonb */ 164 1.1 simonb struct { 165 1.1 simonb u_int i_opcd:6; 166 1.1 simonb int :24; 167 1.1 simonb int i_i:1; 168 1.1 simonb int :1; 169 1.1 simonb } i_s; 170 1.1 simonb 171 1.1 simonb /* 172 1.1 simonb * Format X 173 1.1 simonb */ 174 1.1 simonb struct { 175 1.1 simonb u_int i_opcd:6; 176 1.1 simonb u_int i_rs:5; 177 1.1 simonb u_int i_ra:5; 178 1.1 simonb u_int i_rb:5; 179 1.1 simonb u_int i_xo:10; 180 1.1 simonb u_int i_rc:1; 181 1.1 simonb } i_x; 182 1.1 simonb 183 1.1 simonb /* 184 1.1 simonb * Format XFL 185 1.1 simonb */ 186 1.1 simonb struct { 187 1.1 simonb u_int i_opcd:6; 188 1.1 simonb int :1; 189 1.1 simonb int i_flm:8; 190 1.1 simonb int :1; 191 1.1 simonb int i_frb:5; 192 1.1 simonb u_int i_xo:10; 193 1.1 simonb int :1; 194 1.1 simonb } i_xfl; 195 1.1 simonb 196 1.1 simonb /* 197 1.1 simonb * Format XFX 198 1.1 simonb */ 199 1.1 simonb struct { 200 1.1 simonb u_int i_opcd:6; 201 1.1 simonb int i_dcrn:10; 202 1.1 simonb u_int i_xo:10; 203 1.1 simonb int :1; 204 1.1 simonb } i_xfx; 205 1.1 simonb 206 1.1 simonb /* 207 1.1 simonb * Format XL 208 1.1 simonb */ 209 1.1 simonb struct { 210 1.1 simonb u_int i_opcd:6; 211 1.1 simonb int i_bt:5; 212 1.1 simonb int i_ba:5; 213 1.1 simonb int i_bb:5; 214 1.1 simonb u_int i_xo:10; 215 1.1 simonb int i_lk:1; 216 1.1 simonb } i_xl; 217 1.1 simonb 218 1.1 simonb /* 219 1.1 simonb * Format XS 220 1.1 simonb */ 221 1.1 simonb struct { 222 1.1 simonb u_int i_opcd:6; 223 1.1 simonb u_int i_rs:5; 224 1.1 simonb u_int i_ra:5; 225 1.1 simonb int i_sh0_4:5; 226 1.1 simonb u_int i_xo:9; 227 1.1 simonb int i_sh5:1; 228 1.1 simonb u_int i_rc:1; 229 1.1 simonb } i_xs; 230 1.1 simonb 231 1.1 simonb }; 232 1.1 simonb 233 1.1 simonb #define i_rt i_rs 234 1.1 simonb 235 1.1 simonb /* 236 1.1 simonb * Primary opcode numbers: 237 1.1 simonb */ 238 1.1 simonb 239 1.1 simonb #define OPC_TDI 0x02 240 1.1 simonb #define OPC_TWI 0x03 241 1.1 simonb #define OPC_MULLI 0x07 242 1.1 simonb #define OPC_SUBFIC 0x08 243 1.1 simonb #define OPC_BCE 0x09 244 1.1 simonb #define OPC_CMPLI 0x0a 245 1.1 simonb #define OPC_CMPI 0x0b 246 1.1 simonb #define OPC_ADDIC 0x0c 247 1.1 simonb #define OPC_ADDIC_DOT 0x0d 248 1.1 simonb #define OPC_ADDI 0x0e 249 1.1 simonb #define OPC_ADDIS 0x0f 250 1.1 simonb #define OPC_BC 0x10 251 1.1 simonb #define OPC_SC 0x11 252 1.1 simonb #define OPC_B 0x12 253 1.1 simonb #define OPC_branch_19 0x13 254 1.1 simonb #define OPC_RLWIMI 0x14 255 1.1 simonb #define OPC_RLWINM 0x15 256 1.1 simonb #define OPC_BE 0x16 257 1.1 simonb #define OPC_RLWNM 0x17 258 1.1 simonb #define OPC_ORI 0x18 259 1.1 simonb #define OPC_ORIS 0x19 260 1.1 simonb #define OPC_XORI 0x1a 261 1.1 simonb #define OPC_XORIS 0x1b 262 1.1 simonb #define OPC_ANDI 0x1c 263 1.1 simonb #define OPC_ANDIS 0x1d 264 1.1 simonb #define OPC_dwe_rot_30 0x1e 265 1.1 simonb #define OPC_integer_31 0x1f 266 1.1 simonb #define OPC_LWZ 0x20 267 1.1 simonb #define OPC_LWZU 0x21 268 1.1 simonb #define OPC_LBZ 0x22 269 1.1 simonb #define OPC_LBZU 0x23 270 1.1 simonb #define OPC_STW 0x24 271 1.1 simonb #define OPC_STWU 0x25 272 1.1 simonb #define OPC_STB 0x26 273 1.1 simonb #define OPC_STBU 0x27 274 1.1 simonb #define OPC_LHZ 0x28 275 1.1 simonb #define OPC_LHZU 0x29 276 1.1 simonb #define OPC_LHA 0x2a 277 1.1 simonb #define OPC_LHAU 0x2b 278 1.1 simonb #define OPC_STH 0x2c 279 1.1 simonb #define OPC_STHU 0x2d 280 1.1 simonb #define OPC_LMW 0x2e 281 1.1 simonb #define OPC_STMW 0x2f 282 1.1 simonb #define OPC_LFS 0x30 283 1.1 simonb #define OPC_LFSU 0x31 284 1.1 simonb #define OPC_LFD 0x32 285 1.1 simonb #define OPC_LFDU 0x33 286 1.1 simonb #define OPC_STFS 0x34 287 1.1 simonb #define OPC_STFSU 0x35 288 1.1 simonb #define OPC_STFD 0x36 289 1.1 simonb #define OPC_STFDU 0x37 290 1.1 simonb #define OPC_load_st_58 0x3a 291 1.1 simonb #define OPC_sp_fp_59 0x3b 292 1.1 simonb #define OPC_load_st_62 0x3e 293 1.1 simonb #define OPC_dp_fp_63 0x3f 294 1.1 simonb 295 1.1 simonb /* 296 1.1 simonb * Opcode 31 sub-types (FP only) 297 1.1 simonb */ 298 1.1 simonb #define OPC31_TW 0x004 299 1.1 simonb #define OPC31_LFSX 0x217 300 1.1 simonb #define OPC31_LFSUX 0x237 301 1.1 simonb #define OPC31_LFDX 0x257 302 1.1 simonb #define OPC31_LFDUX 0x277 303 1.1 simonb #define OPC31_STFSX 0x297 304 1.1 simonb #define OPC31_STFSUX 0x2b7 305 1.1 simonb #define OPC31_STFDX 0x2d7 306 1.1 simonb #define OPC31_STFDUX 0x2f7 307 1.1 simonb #define OPC31_STFIWX 0x3d7 308 1.1 simonb 309 1.1 simonb /* Mask for all valid indexed FP load/store ops (except stfiwx) */ 310 1.1 simonb #define OPC31_FPMASK 0x31f 311 1.1 simonb #define OPC31_FPOP 0x217 312 1.1 simonb 313 1.5 matt /* m[ft]spr are also opcode 31; ra/rb encode the spr */ 314 1.5 matt #define OPC31_MFSPR 0x153 315 1.5 matt #define OPC31_MTSPR 0x1d3 316 1.5 matt 317 1.1 simonb /* 318 1.1 simonb * Opcode 59 sub-types: 319 1.1 simonb */ 320 1.1 simonb 321 1.1 simonb #define OPC59_FDIVS 0x12 322 1.1 simonb #define OPC59_FSUBS 0x14 323 1.1 simonb #define OPC59_FADDS 0x15 324 1.1 simonb #define OPC59_FSQRTS 0x16 325 1.1 simonb #define OPC59_FRES 0x18 326 1.1 simonb #define OPC59_FMULS 0x19 327 1.1 simonb #define OPC59_FMSUBS 0x1c 328 1.1 simonb #define OPC59_FMADDS 0x1d 329 1.1 simonb #define OPC59_FNMSUBS 0x1e 330 1.1 simonb #define OPC59_FNMADDS 0x1f 331 1.1 simonb 332 1.1 simonb /* 333 1.1 simonb * Opcode 62 sub-types: 334 1.1 simonb */ 335 1.1 simonb #define OPC62_LDE 0x0 336 1.1 simonb #define OPC62_LDEU 0x1 337 1.1 simonb #define OPC62_LFSE 0x4 338 1.1 simonb #define OPC62_LFSEU 0x5 339 1.1 simonb #define OPC62_LFDE 0x6 340 1.1 simonb #define OPC62_LFDEU 0x7 341 1.1 simonb #define OPC62_STDE 0x8 342 1.1 simonb #define OPC62_STDEU 0x9 343 1.1 simonb #define OPC62_STFSE 0xc 344 1.1 simonb #define OPC62_STFSEU 0xd 345 1.1 simonb #define OPC62_STFDE 0xe 346 1.1 simonb #define OPC62_STFDEU 0xf 347 1.1 simonb 348 1.1 simonb /* 349 1.1 simonb * Opcode 63 sub-types: 350 1.1 simonb * 351 1.1 simonb * (The first group are masks....) 352 1.1 simonb */ 353 1.1 simonb 354 1.1 simonb #define OPC63M_MASK 0x10 355 1.1 simonb #define OPC63M_FDIV 0x12 356 1.1 simonb #define OPC63M_FSUB 0x14 357 1.1 simonb #define OPC63M_FADD 0x15 358 1.1 simonb #define OPC63M_FSQRT 0x16 359 1.1 simonb #define OPC63M_FSEL 0x17 360 1.1 simonb #define OPC63M_FMUL 0x19 361 1.1 simonb #define OPC63M_FRSQRTE 0x1a 362 1.1 simonb #define OPC63M_FMSUB 0x1c 363 1.1 simonb #define OPC63M_FMADD 0x1d 364 1.1 simonb #define OPC63M_FNMSUB 0x1e 365 1.1 simonb #define OPC63M_FNMADD 0x1f 366 1.1 simonb 367 1.1 simonb #define OPC63_FCMPU 0x00 368 1.1 simonb #define OPC63_FRSP 0x0c 369 1.1 simonb #define OPC63_FCTIW 0x0e 370 1.1 simonb #define OPC63_FCTIWZ 0x0f 371 1.1 simonb #define OPC63_FCMPO 0x20 372 1.1 simonb #define OPC63_MTFSB1 0x26 373 1.1 simonb #define OPC63_FNEG 0x28 374 1.1 simonb #define OPC63_MCRFS 0x40 375 1.1 simonb #define OPC63_MTFSB0 0x46 376 1.1 simonb #define OPC63_FMR 0x48 377 1.1 simonb #define OPC63_MTFSFI 0x86 378 1.1 simonb #define OPC63_FNABS 0x88 379 1.1 simonb #define OPC63_FABS 0x108 380 1.1 simonb #define OPC63_MFFS 0x247 381 1.1 simonb #define OPC63_MTFSF 0x2c7 382 1.1 simonb #define OPC63_FCTID 0x32e 383 1.1 simonb #define OPC63_FCTIDZ 0x32f 384 1.1 simonb #define OPC63_FCFID 0x34e 385 1.1 simonb 386 1.1 simonb /* 387 1.5 matt * Branch instruction modifiers. 388 1.5 matt */ 389 1.5 matt #define B_LK 0x01 /* Link flag (LR=CIA+4) */ 390 1.5 matt #define B_AA 0x02 /* Absolute flag */ 391 1.5 matt 392 1.5 matt /* 393 1.5 matt * Helpers for decoding mfspr 394 1.5 matt */ 395 1.5 matt #define OPC_MFSPR_CODE 0x7c0002a6 396 1.5 matt #define OPC_MFSPR_MASK (~(0x1f << 21)) 397 1.5 matt #define OPC_MFSPR(spr) (OPC_MFSPR_CODE |\ 398 1.5 matt (((spr) & 0x1f) << 16) |\ 399 1.5 matt (((spr) & 0x3e0) << 6)) 400 1.5 matt #define OPC_MFSPR_REG(o) (((o) >> 21) & 0x1f) 401 1.5 matt #define OPC_MFSPR_P(o, spr) (((o) & OPC_MFSPR_MASK) == OPC_MFSPR(spr)) 402 1.5 matt 403 1.5 matt #define OPC_MFMSR_CODE 0x7c0000a8 404 1.5 matt #define OPC_MFMSR_MASK 0xfc1fffff 405 1.5 matt #define OPC_MFMSR OPC_MFMSR_CODE 406 1.5 matt #define OPC_MFMSR_REG(o) (((o) >> 21) & 0x1f) 407 1.5 matt #define OPC_MFMSR_P(o) (((o) & OPC_MFMSR_MASK) == OPC_MFMSR_CODE) 408 1.5 matt 409 1.5 matt /* 410 1.5 matt * booke doesn't have lwsync even though gcc emits it so we have to emulate it. 411 1.5 matt */ 412 1.5 matt #define OPC_LWSYNC 0x7c2004ac 413 1.5 matt 414 1.5 matt /* 415 1.1 simonb * FPU data types. 416 1.1 simonb */ 417 1.1 simonb #define FTYPE_LNG -1 /* data = 64-bit signed long integer */ 418 1.1 simonb #define FTYPE_INT 0 /* data = 32-bit signed integer */ 419 1.1 simonb #define FTYPE_SNG 1 /* data = 32-bit float */ 420 1.1 simonb #define FTYPE_DBL 2 /* data = 64-bit double */ 421 1.1 simonb 422 1.1 simonb /* 423 1.1 simonb * FPCSR rounding modes. 424 1.1 simonb */ 425 1.1 simonb #define FSR_RD_RN 0 /* round to nearest */ 426 1.1 simonb #define FSR_RD_RZ 1 /* round towards 0 */ 427 1.1 simonb #define FSR_RD_RP 2 /* round towards +inf */ 428 1.1 simonb #define FSR_RD_RM 3 /* round towards -inf */ 429 1.5 matt 430 1.5 matt /* 431 1.5 matt * Convert an address to an offset used in a PowerPC branch instruction. 432 1.5 matt * We simply shift away the low bits since we are going convert the bl 433 1.5 matt * to a bla. 434 1.5 matt */ 435 1.5 matt #define fixup_addr2offset(x) ((uintptr_t)(x) >> 2) 436 1.5 matt struct powerpc_jump_fixup_info { 437 1.5 matt uint32_t jfi_stub; 438 1.5 matt uint32_t jfi_real; 439 1.5 matt }; 440 1.5 matt 441 1.5 matt void powerpc_fixup_stubs(uint32_t *, uint32_t *); 442 1.5 matt 443 1.5 matt 444 1.5 matt #endif /* !_POWERPC_INSTR_H_ */ 445
Indexes created Mon Sep 22 13:09:51 GMT 2025