db_disasm.c revision 1.20
1 1.20 matt /* $NetBSD: db_disasm.c,v 1.20 2012/02/02 14:29:25 matt Exp $ */ 2 1.2 jtc /* 3 1.3 ragge * Copyright (c) 1996 Ludd, University of Lule}, Sweden. 4 1.2 jtc * All rights reserved. 5 1.2 jtc * 6 1.3 ragge * This code is derived from software contributed to Ludd by 7 1.3 ragge * Bertram Barth. 8 1.3 ragge * 9 1.2 jtc * Redistribution and use in source and binary forms, with or without 10 1.2 jtc * modification, are permitted provided that the following conditions 11 1.2 jtc * are met: 12 1.2 jtc * 1. Redistributions of source code must retain the above copyright 13 1.2 jtc * notice, this list of conditions and the following disclaimer. 14 1.2 jtc * 2. Redistributions in binary form must reproduce the above copyright 15 1.2 jtc * notice, this list of conditions and the following disclaimer in the 16 1.2 jtc * documentation and/or other materials provided with the distribution. 17 1.2 jtc * 3. All advertising materials mentioning features or use of this software 18 1.2 jtc * must display the following acknowledgement: 19 1.7 ragge * This product includes software developed at Ludd, University of 20 1.7 ragge * Lule}, Sweden and its contributors. 21 1.2 jtc * 4. The name of the author may not be used to endorse or promote products 22 1.2 jtc * derived from this software without specific prior written permission 23 1.2 jtc * 24 1.2 jtc * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 25 1.2 jtc * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 26 1.2 jtc * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 27 1.2 jtc * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 28 1.2 jtc * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 29 1.2 jtc * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 30 1.2 jtc * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 31 1.2 jtc * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 32 1.2 jtc * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 33 1.2 jtc * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 34 1.2 jtc */ 35 1.2 jtc 36 1.12 lukem #include <sys/cdefs.h> 37 1.20 matt __KERNEL_RCSID(0, "$NetBSD: db_disasm.c,v 1.20 2012/02/02 14:29:25 matt Exp $"); 38 1.2 jtc 39 1.1 ragge #include <sys/param.h> 40 1.1 ragge #include <sys/proc.h> 41 1.1 ragge #include <sys/reboot.h> 42 1.10 ragge #include <sys/systm.h> 43 1.1 ragge 44 1.1 ragge #include <machine/db_machdep.h> 45 1.3 ragge #include <ddb/db_sym.h> 46 1.5 ragge #include <ddb/db_variables.h> 47 1.10 ragge #include <ddb/db_interface.h> 48 1.10 ragge #include <ddb/db_output.h> 49 1.1 ragge 50 1.4 mycroft #include <vax/vax/db_disasm.h> 51 1.1 ragge 52 1.3 ragge #ifdef VMS_MODE 53 1.3 ragge #define DEFERRED '@' 54 1.7 ragge #define LITERAL '#' 55 1.3 ragge #else 56 1.3 ragge #define DEFERRED '*' 57 1.7 ragge #define LITERAL '$' 58 1.3 ragge #endif 59 1.3 ragge /* 60 1.3 ragge * disassembling vax instructions works as follows: 61 1.3 ragge * 62 1.7 ragge * 1. get first byte as opcode (check for two-byte opcodes!) 63 1.7 ragge * 2. lookup in op-table for mnemonic and operand-list 64 1.7 ragge * 2.a store the mnemonic 65 1.7 ragge * 3. for each operand in list: get the size/type 66 1.7 ragge * 3.a evaluate addressing mode for this operand 67 1.7 ragge * 3.b store each operand(s) 68 1.7 ragge * 4. db_printf the opcode and the (value of the) operands 69 1.7 ragge * 5. return the start of the next instruction 70 1.3 ragge * 71 1.3 ragge * - if jump/branch calculate (and display) the target-address 72 1.3 ragge */ 73 1.1 ragge 74 1.3 ragge /* 75 1.3 ragge #define BROKEN_DB_REGS 76 1.3 ragge */ 77 1.7 ragge #ifdef BROKEN_DB_REGS 78 1.18 matt const struct { /* Due to order and contents of db_regs[], we can't */ 79 1.18 matt const char *name; /* use this array to extract register-names. */ 80 1.7 ragge void *valuep; /* eg. "psl" vs "pc", "pc" vs "sp" */ 81 1.3 ragge } my_db_regs[16] = { 82 1.7 ragge { "r0", NULL }, 83 1.7 ragge { "r1", NULL }, 84 1.7 ragge { "r2", NULL }, 85 1.7 ragge { "r3", NULL }, 86 1.7 ragge { "r4", NULL }, 87 1.7 ragge { "r5", NULL }, 88 1.7 ragge { "r6", NULL }, 89 1.7 ragge { "r7", NULL }, 90 1.7 ragge { "r8", NULL }, 91 1.7 ragge { "r9", NULL }, 92 1.7 ragge { "r10", NULL }, 93 1.7 ragge { "r11", NULL }, 94 1.7 ragge { "ap", NULL }, /* aka "r12" */ 95 1.7 ragge { "fp", NULL }, /* aka "r13" */ 96 1.7 ragge { "sp", NULL }, /* aka "r14" */ 97 1.7 ragge { "pc", NULL }, /* aka "r15" */ 98 1.1 ragge }; 99 1.3 ragge #else 100 1.3 ragge #define my_db_regs db_regs 101 1.3 ragge #endif 102 1.3 ragge 103 1.3 ragge typedef struct { 104 1.7 ragge char dasm[256]; /* disassebled instruction as text */ 105 1.7 ragge char *curp; /* pointer into result */ 106 1.7 ragge char *ppc; /* pseudo PC */ 107 1.7 ragge int opc; /* op-code */ 108 1.15 ragge const char *argp; /* pointer into argument-list */ 109 1.7 ragge int itype; /* instruction-type, eg. branch, call, unspec */ 110 1.7 ragge int atype; /* argument-type, eg. byte, long, address */ 111 1.7 ragge int off; /* offset specified by last argument */ 112 1.7 ragge int addr; /* address specified by last argument */ 113 1.7 ragge } inst_buffer; 114 1.3 ragge 115 1.3 ragge #define ITYPE_INVALID -1 116 1.7 ragge #define ITYPE_UNSPEC 0 117 1.7 ragge #define ITYPE_BRANCH 1 118 1.7 ragge #define ITYPE_CALL 2 119 1.7 ragge 120 1.18 matt static inline int get_byte(inst_buffer * ib); 121 1.18 matt static inline int get_word(inst_buffer * ib); 122 1.18 matt static inline int get_long(inst_buffer * ib); 123 1.18 matt 124 1.18 matt static int get_opcode(inst_buffer * ib); 125 1.18 matt static int get_operands(inst_buffer * ib); 126 1.18 matt static int get_operand(inst_buffer * ib, int size); 127 1.18 matt 128 1.18 matt static inline void add_char(inst_buffer * ib, char c); 129 1.18 matt static inline void add_str(inst_buffer * ib, const char *s); 130 1.18 matt static void add_int(inst_buffer * ib, int i); 131 1.18 matt static void add_xint(inst_buffer * ib, int i); 132 1.18 matt static void add_sym(inst_buffer * ib, int i); 133 1.18 matt static void add_off(inst_buffer * ib, int i); 134 1.1 ragge 135 1.9 christos #define err_print printf 136 1.1 ragge 137 1.1 ragge /* 138 1.1 ragge * Disassemble instruction at 'loc'. 'altfmt' specifies an 139 1.3 ragge * (optional) alternate format (altfmt for vax: don't assume 140 1.3 ragge * that each external label is a procedure entry mask). 141 1.3 ragge * Return address of start of next instruction. 142 1.3 ragge * Since this function is used by 'examine' and by 'step' 143 1.3 ragge * "next instruction" does NOT mean the next instruction to 144 1.3 ragge * be executed but the 'linear' next instruction. 145 1.1 ragge */ 146 1.1 ragge db_addr_t 147 1.18 matt db_disasm(db_addr_t loc, bool altfmt) 148 1.1 ragge { 149 1.7 ragge db_expr_t diff; 150 1.7 ragge db_sym_t sym; 151 1.14 chs const char *symname; 152 1.3 ragge 153 1.7 ragge inst_buffer ib; 154 1.3 ragge 155 1.19 cegger memset(&ib, 0, sizeof(ib)); 156 1.3 ragge ib.ppc = (void *) loc; 157 1.3 ragge ib.curp = ib.dasm; 158 1.3 ragge 159 1.3 ragge if (!altfmt) { /* ignore potential entry masks in altfmt */ 160 1.3 ragge diff = INT_MAX; 161 1.3 ragge symname = NULL; 162 1.3 ragge sym = db_search_symbol(loc, DB_STGY_PROC, &diff); 163 1.3 ragge db_symbol_values(sym, &symname, 0); 164 1.3 ragge 165 1.7 ragge if (symname && !diff) { /* symbol at loc */ 166 1.3 ragge db_printf("function \"%s()\", entry-mask 0x%x\n\t\t", 167 1.3 ragge symname, (unsigned short) get_word(&ib)); 168 1.3 ragge ib.ppc += 2; 169 1.3 ragge } 170 1.3 ragge } 171 1.3 ragge get_opcode(&ib); 172 1.3 ragge get_operands(&ib); 173 1.3 ragge db_printf("%s\n", ib.dasm); 174 1.1 ragge 175 1.3 ragge return ((u_int) ib.ppc); 176 1.3 ragge } 177 1.1 ragge 178 1.3 ragge int 179 1.18 matt get_opcode(inst_buffer *ib) 180 1.3 ragge { 181 1.3 ragge ib->opc = get_byte(ib); 182 1.3 ragge if (ib->opc >> 2 == 0x3F) { /* two byte op-code */ 183 1.3 ragge ib->opc = ib->opc << 8; 184 1.3 ragge ib->opc += get_byte(ib); 185 1.3 ragge } 186 1.3 ragge switch (ib->opc) { 187 1.3 ragge case 0xFA: /* CALLG */ 188 1.3 ragge case 0xFB: /* CALLS */ 189 1.3 ragge case 0xFC: /* XFC */ 190 1.3 ragge ib->itype = ITYPE_CALL; 191 1.3 ragge break; 192 1.3 ragge case 0x16: /* JSB */ 193 1.3 ragge case 0x17: /* JMP */ 194 1.3 ragge ib->itype = ITYPE_BRANCH; 195 1.3 ragge break; 196 1.3 ragge default: 197 1.3 ragge ib->itype = ITYPE_UNSPEC; 198 1.3 ragge } 199 1.3 ragge if (ib->opc < 0 || ib->opc > 0xFF) { 200 1.3 ragge add_str(ib, "invalid or two-byte opcode "); 201 1.3 ragge add_xint(ib, ib->opc); 202 1.3 ragge ib->itype = ITYPE_INVALID; 203 1.1 ragge } else { 204 1.3 ragge add_str(ib, vax_inst[ib->opc].mnemonic); 205 1.3 ragge add_char(ib, '\t'); 206 1.3 ragge } 207 1.3 ragge return (ib->opc); 208 1.3 ragge } 209 1.3 ragge 210 1.3 ragge int 211 1.18 matt get_operands(inst_buffer *ib) 212 1.3 ragge { 213 1.7 ragge int aa = 0; /* absolute address mode ? */ 214 1.7 ragge int size; 215 1.3 ragge 216 1.3 ragge if (ib->opc < 0 || ib->opc > 0xFF) { 217 1.3 ragge /* invalid or two-byte opcode */ 218 1.3 ragge ib->argp = NULL; 219 1.3 ragge return (-1); 220 1.1 ragge } 221 1.3 ragge ib->argp = vax_inst[ib->opc].argdesc; 222 1.20 matt if (ib->argp == NULL) 223 1.20 matt return 0; 224 1.3 ragge 225 1.3 ragge while (*ib->argp) { 226 1.3 ragge switch (*ib->argp) { 227 1.1 ragge 228 1.3 ragge case 'b': /* branch displacement */ 229 1.3 ragge switch (*(++ib->argp)) { 230 1.3 ragge case 'b': 231 1.3 ragge ib->off = (signed char) get_byte(ib); 232 1.3 ragge break; 233 1.3 ragge case 'w': 234 1.3 ragge ib->off = (short) get_word(ib); 235 1.3 ragge break; 236 1.3 ragge case 'l': 237 1.3 ragge ib->off = get_long(ib); 238 1.3 ragge break; 239 1.3 ragge default: 240 1.3 ragge err_print("XXX eror\n"); 241 1.3 ragge } 242 1.3 ragge /* add_int(ib, ib->off); */ 243 1.3 ragge ib->addr = (u_int) ib->ppc + ib->off; 244 1.3 ragge add_off(ib, ib->addr); 245 1.3 ragge break; 246 1.3 ragge 247 1.13 wiz case 'a': /* absolute addressing mode */ 248 1.7 ragge aa = 1; /* do not break here ! */ 249 1.3 ragge 250 1.3 ragge default: 251 1.3 ragge switch (*(++ib->argp)) { 252 1.3 ragge case 'b': /* Byte */ 253 1.3 ragge size = SIZE_BYTE; 254 1.3 ragge break; 255 1.3 ragge case 'w': /* Word */ 256 1.3 ragge size = SIZE_WORD; 257 1.3 ragge break; 258 1.3 ragge case 'l': /* Long-Word */ 259 1.3 ragge case 'f': /* F_Floating */ 260 1.3 ragge size = SIZE_LONG; 261 1.3 ragge break; 262 1.3 ragge case 'q': /* Quad-Word */ 263 1.3 ragge case 'd': /* D_Floating */ 264 1.3 ragge case 'g': /* G_Floating */ 265 1.3 ragge size = SIZE_QWORD; 266 1.3 ragge break; 267 1.3 ragge case 'o': /* Octa-Word */ 268 1.3 ragge case 'h': /* H_Floating */ 269 1.3 ragge size = SIZE_OWORD; 270 1.3 ragge break; 271 1.3 ragge default: 272 1.3 ragge err_print("invalid op-type %X (%c) found.\n", 273 1.3 ragge *ib->argp, *ib->argp); 274 1.3 ragge size = 0; 275 1.3 ragge } 276 1.3 ragge if (aa) { 277 1.3 ragge /* get the address */ 278 1.3 ragge ib->addr = get_operand(ib, size); 279 1.3 ragge add_sym(ib, ib->addr); 280 1.3 ragge } else { 281 1.3 ragge /* get the operand */ 282 1.3 ragge ib->addr = get_operand(ib, size); 283 1.3 ragge add_off(ib, ib->addr); 284 1.3 ragge } 285 1.3 ragge } 286 1.1 ragge 287 1.3 ragge if (!*ib->argp || !*++ib->argp) 288 1.3 ragge break; 289 1.3 ragge if (*ib->argp++ == ',') { 290 1.3 ragge add_char(ib, ','); 291 1.3 ragge add_char(ib, ' '); 292 1.3 ragge } else { 293 1.3 ragge err_print("XXX error\n"); 294 1.3 ragge add_char(ib, '\0'); 295 1.3 ragge return (-1); 296 1.3 ragge } 297 1.3 ragge } 298 1.1 ragge 299 1.3 ragge add_char(ib, '\0'); 300 1.3 ragge return (0); 301 1.1 ragge } 302 1.1 ragge 303 1.3 ragge int 304 1.18 matt get_operand(inst_buffer *ib, int size) 305 1.1 ragge { 306 1.7 ragge int c = get_byte(ib); 307 1.7 ragge int mode = c >> 4; 308 1.7 ragge int reg = c & 0x0F; 309 1.7 ragge int lit = c & 0x3F; 310 1.7 ragge int tmp = 0; 311 1.7 ragge char buf[16]; 312 1.3 ragge 313 1.3 ragge switch (mode) { 314 1.3 ragge case 0: /* literal */ 315 1.3 ragge case 1: /* literal */ 316 1.3 ragge case 2: /* literal */ 317 1.3 ragge case 3: /* literal */ 318 1.3 ragge add_char(ib, LITERAL); 319 1.3 ragge add_int(ib, lit); 320 1.3 ragge tmp = lit; 321 1.3 ragge break; 322 1.3 ragge 323 1.3 ragge case 4: /* indexed */ 324 1.9 christos sprintf(buf, "[%s]", my_db_regs[reg].name); 325 1.3 ragge get_operand(ib, 0); 326 1.3 ragge add_str(ib, buf); 327 1.3 ragge break; 328 1.3 ragge 329 1.3 ragge case 5: /* register */ 330 1.15 ragge add_str(ib, my_db_regs[reg].name); 331 1.3 ragge break; 332 1.3 ragge 333 1.3 ragge case 6: /* register deferred */ 334 1.3 ragge add_char(ib, '('); 335 1.15 ragge add_str(ib, my_db_regs[reg].name); 336 1.3 ragge add_char(ib, ')'); 337 1.3 ragge break; 338 1.3 ragge 339 1.3 ragge case 7: /* autodecrement */ 340 1.3 ragge add_char(ib, '-'); 341 1.3 ragge add_char(ib, '('); 342 1.15 ragge add_str(ib, my_db_regs[reg].name); 343 1.3 ragge add_char(ib, ')'); 344 1.3 ragge if (reg == 0x0F) { /* pc is not allowed in this mode */ 345 1.3 ragge err_print("autodecrement not allowd for PC.\n"); 346 1.3 ragge } 347 1.3 ragge break; 348 1.3 ragge 349 1.3 ragge case 9: /* autoincrement deferred */ 350 1.3 ragge add_char(ib, DEFERRED); 351 1.7 ragge if (reg == 0x0F) { /* pc: immediate deferred */ 352 1.7 ragge /* 353 1.7 ragge * addresses are always longwords! 354 1.7 ragge */ 355 1.7 ragge tmp = get_long(ib); 356 1.7 ragge add_off(ib, tmp); 357 1.7 ragge break; 358 1.7 ragge } 359 1.7 ragge /* fall through */ 360 1.3 ragge case 8: /* autoincrement */ 361 1.3 ragge if (reg == 0x0F) { /* pc: immediate ==> special syntax */ 362 1.3 ragge switch (size) { 363 1.3 ragge case SIZE_BYTE: 364 1.3 ragge tmp = (signed char) get_byte(ib); 365 1.3 ragge break; 366 1.3 ragge case SIZE_WORD: 367 1.3 ragge tmp = (signed short) get_word(ib); 368 1.3 ragge break; 369 1.3 ragge case SIZE_LONG: 370 1.3 ragge tmp = get_long(ib); 371 1.3 ragge break; 372 1.3 ragge default: 373 1.3 ragge err_print("illegal op-type %d\n", size); 374 1.3 ragge tmp = -1; 375 1.3 ragge } 376 1.3 ragge if (mode == 8) 377 1.3 ragge add_char(ib, LITERAL); 378 1.3 ragge add_int(ib, tmp); 379 1.3 ragge break; 380 1.3 ragge } 381 1.3 ragge add_char(ib, '('); 382 1.15 ragge add_str(ib, my_db_regs[reg].name); 383 1.3 ragge add_char(ib, ')'); 384 1.3 ragge add_char(ib, '+'); 385 1.3 ragge break; 386 1.3 ragge 387 1.3 ragge case 11: /* byte displacement deferred/ relative deferred */ 388 1.3 ragge add_char(ib, DEFERRED); 389 1.3 ragge case 10: /* byte displacement / relative mode */ 390 1.3 ragge tmp = (signed char) get_byte(ib); 391 1.3 ragge if (reg == 0x0F) { 392 1.3 ragge add_off(ib, (u_int) ib->ppc + tmp); 393 1.3 ragge break; 394 1.3 ragge } 395 1.3 ragge /* add_str (ib, "b^"); */ 396 1.3 ragge add_int(ib, tmp); 397 1.3 ragge add_char(ib, '('); 398 1.15 ragge add_str(ib, my_db_regs[reg].name); 399 1.3 ragge add_char(ib, ')'); 400 1.3 ragge break; 401 1.3 ragge 402 1.3 ragge case 13: /* word displacement deferred */ 403 1.3 ragge add_char(ib, DEFERRED); 404 1.3 ragge case 12: /* word displacement */ 405 1.3 ragge tmp = (signed short) get_word(ib); 406 1.3 ragge if (reg == 0x0F) { 407 1.3 ragge add_off(ib, (u_int) ib->ppc + tmp); 408 1.3 ragge break; 409 1.3 ragge } 410 1.3 ragge /* add_str (ib, "w^"); */ 411 1.3 ragge add_int(ib, tmp); 412 1.3 ragge add_char(ib, '('); 413 1.15 ragge add_str(ib, my_db_regs[reg].name); 414 1.3 ragge add_char(ib, ')'); 415 1.3 ragge break; 416 1.3 ragge 417 1.3 ragge case 15: /* long displacement referred */ 418 1.3 ragge add_char(ib, DEFERRED); 419 1.3 ragge case 14: /* long displacement */ 420 1.3 ragge tmp = get_long(ib); 421 1.3 ragge if (reg == 0x0F) { 422 1.3 ragge add_off(ib, (u_int) ib->ppc + tmp); 423 1.3 ragge break; 424 1.1 ragge } 425 1.3 ragge /* add_str (ib, "l^"); */ 426 1.3 ragge add_int(ib, tmp); 427 1.3 ragge add_char(ib, '('); 428 1.15 ragge add_str(ib, my_db_regs[reg].name); 429 1.3 ragge add_char(ib, ')'); 430 1.1 ragge break; 431 1.3 ragge 432 1.1 ragge default: 433 1.3 ragge err_print("can\'t evaluate operand (%02X).\n", lit); 434 1.3 ragge break; 435 1.3 ragge } 436 1.3 ragge 437 1.3 ragge return (0); 438 1.3 ragge } 439 1.3 ragge 440 1.3 ragge int 441 1.18 matt get_byte(inst_buffer *ib) 442 1.3 ragge { 443 1.3 ragge return ((unsigned char) *(ib->ppc++)); 444 1.3 ragge } 445 1.3 ragge 446 1.3 ragge int 447 1.18 matt get_word(inst_buffer *ib) 448 1.3 ragge { 449 1.18 matt int tmp = *(uint16_t *)ib->ppc; 450 1.18 matt ib->ppc += 2; 451 1.18 matt return tmp; 452 1.3 ragge } 453 1.3 ragge 454 1.3 ragge int 455 1.18 matt get_long(inst_buffer *ib) 456 1.3 ragge { 457 1.18 matt int tmp = *(int *)ib->ppc; 458 1.18 matt ib->ppc += 4; 459 1.3 ragge return (tmp); 460 1.3 ragge } 461 1.3 ragge 462 1.3 ragge void 463 1.18 matt add_char(inst_buffer *ib, char c) 464 1.3 ragge { 465 1.3 ragge *ib->curp++ = c; 466 1.3 ragge } 467 1.3 ragge 468 1.3 ragge void 469 1.18 matt add_str(inst_buffer *ib, const char *s) 470 1.3 ragge { 471 1.10 ragge while ((*ib->curp++ = *s++)); 472 1.18 matt --ib->curp; 473 1.3 ragge } 474 1.3 ragge 475 1.3 ragge void 476 1.18 matt add_int(inst_buffer *ib, int i) 477 1.3 ragge { 478 1.18 matt char buf[32]; 479 1.3 ragge if (i < 100 && i > -100) 480 1.18 matt sprintf(ib->curp, "%d", i); 481 1.3 ragge else 482 1.9 christos sprintf(buf, "0x%x", i); 483 1.3 ragge add_str(ib, buf); 484 1.3 ragge } 485 1.3 ragge 486 1.3 ragge void 487 1.18 matt add_xint(inst_buffer *ib, int val) 488 1.3 ragge { 489 1.18 matt char buf[32]; 490 1.9 christos sprintf(buf, "0x%x", val); 491 1.3 ragge add_str(ib, buf); 492 1.3 ragge } 493 1.3 ragge 494 1.3 ragge void 495 1.18 matt add_sym(inst_buffer *ib, int loc) 496 1.3 ragge { 497 1.7 ragge db_expr_t diff; 498 1.7 ragge db_sym_t sym; 499 1.14 chs const char *symname; 500 1.3 ragge 501 1.14 chs if (!loc) 502 1.3 ragge return; 503 1.3 ragge 504 1.3 ragge diff = INT_MAX; 505 1.3 ragge symname = NULL; 506 1.3 ragge sym = db_search_symbol(loc, DB_STGY_ANY, &diff); 507 1.3 ragge db_symbol_values(sym, &symname, 0); 508 1.3 ragge 509 1.3 ragge if (symname && !diff) { 510 1.3 ragge /* add_char(ib, '<'); */ 511 1.3 ragge add_str(ib, symname); 512 1.3 ragge /* add_char(ib, '>'); */ 513 1.18 matt } else 514 1.3 ragge add_xint(ib, loc); 515 1.3 ragge } 516 1.3 ragge 517 1.3 ragge void 518 1.18 matt add_off(inst_buffer *ib, int loc) 519 1.3 ragge { 520 1.7 ragge db_expr_t diff; 521 1.7 ragge db_sym_t sym; 522 1.14 chs const char *symname; 523 1.3 ragge 524 1.3 ragge if (!loc) 525 1.3 ragge return; 526 1.3 ragge 527 1.3 ragge diff = INT_MAX; 528 1.3 ragge symname = NULL; 529 1.3 ragge sym = db_search_symbol(loc, DB_STGY_ANY, &diff); 530 1.3 ragge db_symbol_values(sym, &symname, 0); 531 1.3 ragge 532 1.3 ragge if (symname) { 533 1.3 ragge /* add_char(ib, '<'); */ 534 1.3 ragge add_str(ib, symname); 535 1.3 ragge if (diff) { 536 1.3 ragge add_char(ib, '+'); 537 1.3 ragge add_xint(ib, diff); 538 1.3 ragge } 539 1.3 ragge /* add_char(ib, '>'); */ 540 1.18 matt } else 541 1.3 ragge add_xint(ib, loc); 542 1.1 ragge } 543
Indexes created Fri Oct 03 02:09:57 GMT 2025