db_interface.c revision 1.49.4.1
1 1.49.4.1 rmind /* $NetBSD: db_interface.c,v 1.49.4.1 2014/05/18 17:44:56 rmind Exp $ */ 2 1.1 matt 3 1.49.4.1 rmind /* 4 1.1 matt * Copyright (c) 1996 Scott K. Stevens 5 1.1 matt * 6 1.1 matt * Mach Operating System 7 1.1 matt * Copyright (c) 1991,1990 Carnegie Mellon University 8 1.1 matt * All Rights Reserved. 9 1.49.4.1 rmind * 10 1.1 matt * Permission to use, copy, modify and distribute this software and its 11 1.1 matt * documentation is hereby granted, provided that both the copyright 12 1.1 matt * notice and this permission notice appear in all copies of the 13 1.1 matt * software, derivative works or modified versions, and any portions 14 1.1 matt * thereof, and that both notices appear in supporting documentation. 15 1.49.4.1 rmind * 16 1.1 matt * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" 17 1.1 matt * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR 18 1.1 matt * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. 19 1.49.4.1 rmind * 20 1.1 matt * Carnegie Mellon requests users of this software to return to 21 1.49.4.1 rmind * 22 1.1 matt * Software Distribution Coordinator or Software.Distribution (at) CS.CMU.EDU 23 1.1 matt * School of Computer Science 24 1.1 matt * Carnegie Mellon University 25 1.1 matt * Pittsburgh PA 15213-3890 26 1.49.4.1 rmind * 27 1.1 matt * any improvements or extensions that they make and grant Carnegie the 28 1.1 matt * rights to redistribute these changes. 29 1.1 matt * 30 1.1 matt * From: db_interface.c,v 2.4 1991/02/05 17:11:13 mrt (CMU) 31 1.1 matt */ 32 1.1 matt 33 1.1 matt /* 34 1.1 matt * Interface to new debugger. 35 1.1 matt */ 36 1.32 lukem 37 1.32 lukem #include <sys/cdefs.h> 38 1.49.4.1 rmind __KERNEL_RCSID(0, "$NetBSD: db_interface.c,v 1.49.4.1 2014/05/18 17:44:56 rmind Exp $"); 39 1.32 lukem 40 1.1 matt #include "opt_ddb.h" 41 1.24 briggs #include "opt_kgdb.h" 42 1.1 matt 43 1.1 matt #include <sys/param.h> 44 1.1 matt #include <sys/proc.h> 45 1.1 matt #include <sys/reboot.h> 46 1.1 matt #include <sys/systm.h> /* just for boothowto */ 47 1.1 matt #include <sys/exec.h> 48 1.49.4.1 rmind #include <sys/atomic.h> 49 1.49.4.1 rmind #include <sys/intr.h> 50 1.1 matt 51 1.1 matt #include <uvm/uvm_extern.h> 52 1.1 matt 53 1.13 chris #include <arm/arm32/db_machdep.h> 54 1.9 thorpej #include <arm/arm32/katelib.h> 55 1.11 thorpej #include <arm/undefined.h> 56 1.13 chris #include <ddb/db_access.h> 57 1.1 matt #include <ddb/db_command.h> 58 1.1 matt #include <ddb/db_output.h> 59 1.1 matt #include <ddb/db_variables.h> 60 1.1 matt #include <ddb/db_sym.h> 61 1.1 matt #include <ddb/db_extern.h> 62 1.1 matt #include <ddb/db_interface.h> 63 1.1 matt #include <dev/cons.h> 64 1.1 matt 65 1.24 briggs #if defined(KGDB) || !defined(DDB) 66 1.24 briggs #define db_printf printf 67 1.24 briggs #endif 68 1.24 briggs 69 1.46 dsl u_int db_fetch_reg(int, db_regs_t *); 70 1.1 matt 71 1.46 dsl int db_trapper(u_int, u_int, trapframe_t *, int); 72 1.13 chris 73 1.1 matt int db_active = 0; 74 1.40 uwe db_regs_t ddb_regs; /* register state */ 75 1.49.4.1 rmind db_regs_t *ddb_regp; 76 1.49.4.1 rmind 77 1.49.4.1 rmind #ifdef MULTIPROCESSOR 78 1.49.4.1 rmind volatile struct cpu_info *db_onproc; 79 1.49.4.1 rmind volatile struct cpu_info *db_newcpu; 80 1.49.4.1 rmind #endif 81 1.49.4.1 rmind 82 1.49.4.1 rmind 83 1.1 matt 84 1.1 matt 85 1.24 briggs #ifdef DDB 86 1.1 matt /* 87 1.1 matt * kdb_trap - field a TRACE or BPT trap 88 1.1 matt */ 89 1.1 matt int 90 1.15 thorpej kdb_trap(int type, db_regs_t *regs) 91 1.1 matt { 92 1.49.4.1 rmind struct cpu_info * const ci = curcpu(); 93 1.49.4.1 rmind db_regs_t dbreg; 94 1.1 matt int s; 95 1.1 matt 96 1.1 matt switch (type) { 97 1.1 matt case T_BREAKPOINT: /* breakpoint */ 98 1.1 matt case -1: /* keyboard interrupt */ 99 1.1 matt break; 100 1.49.4.1 rmind #ifdef MULTIPROCESSOR 101 1.49.4.1 rmind case -2: 102 1.49.4.1 rmind /* 103 1.49.4.1 rmind * We called to enter ddb from another process but by the time 104 1.49.4.1 rmind * we got here, no one was in ddb. So ignore the request. 105 1.49.4.1 rmind */ 106 1.49.4.1 rmind if (db_onproc == NULL) 107 1.49.4.1 rmind return 1; 108 1.49.4.1 rmind break; 109 1.49.4.1 rmind #endif 110 1.1 matt default: 111 1.1 matt if (db_recover != 0) { 112 1.31 thorpej /* This will longjmp back into db_command_loop() */ 113 1.1 matt db_error("Faulted in DDB; continuing...\n"); 114 1.1 matt /*NOTREACHED*/ 115 1.1 matt } 116 1.1 matt } 117 1.1 matt 118 1.1 matt /* Should switch to kdb`s own stack here. */ 119 1.1 matt 120 1.49.4.1 rmind #ifdef MULTIPROCESSOR 121 1.49.4.1 rmind const bool is_mp_p = ncpu > 1; 122 1.49.4.1 rmind if (is_mp_p) { 123 1.49.4.1 rmind /* 124 1.49.4.1 rmind * Try to take ownership of DDB. If we do, tell all other 125 1.49.4.1 rmind * CPUs to enter DDB too. 126 1.49.4.1 rmind */ 127 1.49.4.1 rmind if (atomic_cas_ptr(&db_onproc, NULL, ci) == NULL) { 128 1.49.4.1 rmind intr_ipi_send(NULL, IPI_DDB); 129 1.49.4.1 rmind } 130 1.49.4.1 rmind } 131 1.49.4.1 rmind for (;;) { 132 1.49.4.1 rmind if (is_mp_p) { 133 1.49.4.1 rmind /* 134 1.49.4.1 rmind * While we aren't the master, wait until the master 135 1.49.4.1 rmind * gives control to us or exits. If it exited, we 136 1.49.4.1 rmind * just exit to. Otherwise this cpu will enter DDB. 137 1.49.4.1 rmind */ 138 1.49.4.1 rmind membar_consumer(); 139 1.49.4.1 rmind while (db_onproc != ci) { 140 1.49.4.1 rmind if (db_onproc == NULL) 141 1.49.4.1 rmind return 1; 142 1.49.4.1 rmind #ifdef _ARM_ARCH_6 143 1.49.4.1 rmind __asm __volatile("wfe"); 144 1.49.4.1 rmind membar_consumer(); 145 1.49.4.1 rmind #endif 146 1.49.4.1 rmind if (db_onproc == ci) { 147 1.49.4.1 rmind printf("%s: switching to %s\n", 148 1.49.4.1 rmind __func__, ci->ci_cpuname); 149 1.49.4.1 rmind } 150 1.49.4.1 rmind } 151 1.49.4.1 rmind } 152 1.49.4.1 rmind #endif 153 1.1 matt 154 1.49.4.1 rmind s = splhigh(); 155 1.49.4.1 rmind ci->ci_ddb_regs = &dbreg; 156 1.49.4.1 rmind ddb_regp = &dbreg; 157 1.49.4.1 rmind ddb_regs = *regs; 158 1.49.4.1 rmind 159 1.49.4.1 rmind atomic_inc_32(&db_active); 160 1.49.4.1 rmind cnpollc(true); 161 1.49.4.1 rmind db_trap(type, 0/*code*/); 162 1.49.4.1 rmind cnpollc(false); 163 1.49.4.1 rmind atomic_dec_32(&db_active); 164 1.49.4.1 rmind 165 1.49.4.1 rmind ci->ci_ddb_regs = NULL; 166 1.49.4.1 rmind ddb_regp = &dbreg; 167 1.49.4.1 rmind *regs = ddb_regs; 168 1.49.4.1 rmind splx(s); 169 1.49.4.1 rmind 170 1.49.4.1 rmind #ifdef MULTIPROCESSOR 171 1.49.4.1 rmind if (is_mp_p && db_newcpu != NULL) { 172 1.49.4.1 rmind db_onproc = db_newcpu; 173 1.49.4.1 rmind db_newcpu = NULL; 174 1.49.4.1 rmind #ifdef _ARM_ARCH_6 175 1.49.4.1 rmind membar_producer(); 176 1.49.4.1 rmind __asm __volatile("sev; sev"); 177 1.49.4.1 rmind #endif 178 1.49.4.1 rmind continue; 179 1.49.4.1 rmind } 180 1.49.4.1 rmind break; 181 1.49.4.1 rmind } 182 1.1 matt 183 1.49.4.1 rmind if (is_mp_p) { 184 1.49.4.1 rmind /* 185 1.49.4.1 rmind * We are exiting DDB so there is noone onproc. Tell 186 1.49.4.1 rmind * the other CPUs to exit. 187 1.49.4.1 rmind */ 188 1.49.4.1 rmind db_onproc = NULL; 189 1.49.4.1 rmind #ifdef _ARM_ARCH_6 190 1.49.4.1 rmind __asm __volatile("sev; sev"); 191 1.49.4.1 rmind #endif 192 1.49.4.1 rmind } 193 1.49.4.1 rmind #endif 194 1.1 matt 195 1.1 matt return (1); 196 1.1 matt } 197 1.24 briggs #endif 198 1.1 matt 199 1.24 briggs int 200 1.15 thorpej db_validate_address(vaddr_t addr) 201 1.1 matt { 202 1.1 matt struct proc *p = curproc; 203 1.14 thorpej struct pmap *pmap; 204 1.1 matt 205 1.23 scw if (!p || !p->p_vmspace || !p->p_vmspace->vm_map.pmap || 206 1.23 scw #ifndef ARM32_NEW_VM_LAYOUT 207 1.29 thorpej addr >= VM_MAXUSER_ADDRESS 208 1.23 scw #else 209 1.29 thorpej addr >= VM_MIN_KERNEL_ADDRESS 210 1.23 scw #endif 211 1.29 thorpej ) 212 1.14 thorpej pmap = pmap_kernel(); 213 1.1 matt else 214 1.14 thorpej pmap = p->p_vmspace->vm_map.pmap; 215 1.1 matt 216 1.42 thorpej return (pmap_extract(pmap, addr, NULL) == false); 217 1.1 matt } 218 1.1 matt 219 1.1 matt /* 220 1.1 matt * Read bytes from kernel address space for debugger. 221 1.1 matt */ 222 1.1 matt void 223 1.47 dsl db_read_bytes(vaddr_t addr, size_t size, char *data) 224 1.1 matt { 225 1.30 scw char *src = (char *)addr; 226 1.1 matt 227 1.30 scw if (db_validate_address((u_int)src)) { 228 1.30 scw db_printf("address %p is invalid\n", src); 229 1.30 scw return; 230 1.30 scw } 231 1.30 scw 232 1.30 scw if (size == 4 && (addr & 3) == 0 && ((uintptr_t)data & 3) == 0) { 233 1.30 scw *((int*)data) = *((int*)src); 234 1.30 scw return; 235 1.30 scw } 236 1.30 scw 237 1.30 scw if (size == 2 && (addr & 1) == 0 && ((uintptr_t)data & 1) == 0) { 238 1.30 scw *((short*)data) = *((short*)src); 239 1.30 scw return; 240 1.30 scw } 241 1.14 thorpej 242 1.14 thorpej while (size-- > 0) { 243 1.1 matt if (db_validate_address((u_int)src)) { 244 1.1 matt db_printf("address %p is invalid\n", src); 245 1.1 matt return; 246 1.1 matt } 247 1.1 matt *data++ = *src++; 248 1.1 matt } 249 1.1 matt } 250 1.1 matt 251 1.1 matt static void 252 1.37 uwe db_write_text(vaddr_t addr, size_t size, const char *data) 253 1.49.4.1 rmind { 254 1.15 thorpej struct pmap *pmap = pmap_kernel(); 255 1.15 thorpej pd_entry_t *pde, oldpde, tmppde; 256 1.15 thorpej pt_entry_t *pte, oldpte, tmppte; 257 1.15 thorpej vaddr_t pgva; 258 1.15 thorpej size_t limit, savesize; 259 1.15 thorpej char *dst; 260 1.34 chris 261 1.34 chris /* XXX: gcc */ 262 1.34 chris oldpte = 0; 263 1.1 matt 264 1.15 thorpej if ((savesize = size) == 0) 265 1.15 thorpej return; 266 1.15 thorpej 267 1.15 thorpej dst = (char *) addr; 268 1.1 matt 269 1.15 thorpej do { 270 1.15 thorpej /* Get the PDE of the current VA. */ 271 1.42 thorpej if (pmap_get_pde_pte(pmap, (vaddr_t) dst, &pde, &pte) == false) 272 1.23 scw goto no_mapping; 273 1.18 thorpej switch ((oldpde = *pde) & L1_TYPE_MASK) { 274 1.18 thorpej case L1_TYPE_S: 275 1.18 thorpej pgva = (vaddr_t)dst & L1_S_FRAME; 276 1.18 thorpej limit = L1_S_SIZE - ((vaddr_t)dst & L1_S_OFFSET); 277 1.15 thorpej 278 1.48 jmcneill tmppde = l1pte_set_writable(oldpde); 279 1.15 thorpej *pde = tmppde; 280 1.22 thorpej PTE_SYNC(pde); 281 1.15 thorpej break; 282 1.15 thorpej 283 1.18 thorpej case L1_TYPE_C: 284 1.18 thorpej pgva = (vaddr_t)dst & L2_S_FRAME; 285 1.18 thorpej limit = L2_S_SIZE - ((vaddr_t)dst & L2_S_OFFSET); 286 1.15 thorpej 287 1.23 scw if (pte == NULL) 288 1.23 scw goto no_mapping; 289 1.15 thorpej oldpte = *pte; 290 1.48 jmcneill tmppte = l2pte_set_writable(oldpte); 291 1.15 thorpej *pte = tmppte; 292 1.22 thorpej PTE_SYNC(pte); 293 1.15 thorpej break; 294 1.15 thorpej 295 1.15 thorpej default: 296 1.23 scw no_mapping: 297 1.15 thorpej printf(" address 0x%08lx not a valid page\n", 298 1.15 thorpej (vaddr_t) dst); 299 1.15 thorpej return; 300 1.15 thorpej } 301 1.15 thorpej cpu_tlb_flushD_SE(pgva); 302 1.16 thorpej cpu_cpwait(); 303 1.1 matt 304 1.15 thorpej if (limit > size) 305 1.15 thorpej limit = size; 306 1.15 thorpej size -= limit; 307 1.1 matt 308 1.15 thorpej /* 309 1.15 thorpej * Page is now writable. Do as much access as we 310 1.15 thorpej * can in this page. 311 1.15 thorpej */ 312 1.15 thorpej for (; limit > 0; limit--) 313 1.15 thorpej *dst++ = *data++; 314 1.1 matt 315 1.15 thorpej /* 316 1.15 thorpej * Restore old mapping permissions. 317 1.15 thorpej */ 318 1.18 thorpej switch (oldpde & L1_TYPE_MASK) { 319 1.18 thorpej case L1_TYPE_S: 320 1.15 thorpej *pde = oldpde; 321 1.22 thorpej PTE_SYNC(pde); 322 1.15 thorpej break; 323 1.15 thorpej 324 1.18 thorpej case L1_TYPE_C: 325 1.15 thorpej *pte = oldpte; 326 1.22 thorpej PTE_SYNC(pte); 327 1.15 thorpej break; 328 1.15 thorpej } 329 1.15 thorpej cpu_tlb_flushD_SE(pgva); 330 1.16 thorpej cpu_cpwait(); 331 1.15 thorpej } while (size != 0); 332 1.1 matt 333 1.15 thorpej /* Sync the I-cache. */ 334 1.17 thorpej cpu_icache_sync_range(addr, savesize); 335 1.1 matt } 336 1.1 matt 337 1.1 matt /* 338 1.1 matt * Write bytes to kernel address space for debugger. 339 1.1 matt */ 340 1.1 matt void 341 1.37 uwe db_write_bytes(vaddr_t addr, size_t size, const char *data) 342 1.1 matt { 343 1.27 thorpej extern char kernel_text[]; 344 1.15 thorpej extern char etext[]; 345 1.15 thorpej char *dst; 346 1.15 thorpej size_t loop; 347 1.15 thorpej 348 1.15 thorpej /* If any part is in kernel text, use db_write_text() */ 349 1.27 thorpej if (addr >= (vaddr_t) kernel_text && addr < (vaddr_t) etext) { 350 1.15 thorpej db_write_text(addr, size, data); 351 1.15 thorpej return; 352 1.15 thorpej } 353 1.1 matt 354 1.1 matt dst = (char *)addr; 355 1.30 scw if (db_validate_address((u_int)dst)) { 356 1.30 scw db_printf("address %p is invalid\n", dst); 357 1.30 scw return; 358 1.30 scw } 359 1.30 scw 360 1.30 scw if (size == 4 && (addr & 3) == 0 && ((uintptr_t)data & 3) == 0) 361 1.37 uwe *((int*)dst) = *((const int *)data); 362 1.30 scw else 363 1.30 scw if (size == 2 && (addr & 1) == 0 && ((uintptr_t)data & 1) == 0) 364 1.37 uwe *((short*)dst) = *((const short *)data); 365 1.30 scw else { 366 1.30 scw loop = size; 367 1.30 scw while (loop-- > 0) { 368 1.30 scw if (db_validate_address((u_int)dst)) { 369 1.30 scw db_printf("address %p is invalid\n", dst); 370 1.30 scw return; 371 1.30 scw } 372 1.30 scw *dst++ = *data++; 373 1.1 matt } 374 1.1 matt } 375 1.30 scw 376 1.1 matt /* make sure the caches and memory are in sync */ 377 1.17 thorpej cpu_icache_sync_range(addr, size); 378 1.1 matt 379 1.1 matt /* In case the current page tables have been modified ... */ 380 1.1 matt cpu_tlb_flushID(); 381 1.16 thorpej cpu_cpwait(); 382 1.1 matt } 383 1.1 matt 384 1.28 bsh #ifdef DDB 385 1.1 matt void 386 1.15 thorpej cpu_Debugger(void) 387 1.1 matt { 388 1.39 perry __asm(".word 0xe7ffffff"); 389 1.1 matt } 390 1.1 matt 391 1.1 matt int 392 1.15 thorpej db_trapper(u_int addr, u_int inst, trapframe_t *frame, int fault_code) 393 1.1 matt { 394 1.15 thorpej 395 1.1 matt if (fault_code == 0) { 396 1.1 matt if ((inst & ~INSN_COND_MASK) == (BKPT_INST & ~INSN_COND_MASK)) 397 1.1 matt kdb_trap(T_BREAKPOINT, frame); 398 1.1 matt else 399 1.1 matt kdb_trap(-1, frame); 400 1.1 matt } else 401 1.1 matt return (1); 402 1.1 matt return (0); 403 1.1 matt } 404 1.1 matt 405 1.1 matt extern u_int esym; 406 1.1 matt extern u_int end; 407 1.1 matt 408 1.3 bjh21 static struct undefined_handler db_uh; 409 1.3 bjh21 410 1.1 matt void 411 1.15 thorpej db_machine_init(void) 412 1.1 matt { 413 1.1 matt 414 1.3 bjh21 /* 415 1.3 bjh21 * We get called before malloc() is available, so supply a static 416 1.3 bjh21 * struct undefined_handler. 417 1.3 bjh21 */ 418 1.3 bjh21 db_uh.uh_handler = db_trapper; 419 1.35 rearnsha install_coproc_handler_static(CORE_UNKNOWN_HANDLER, &db_uh); 420 1.1 matt } 421 1.24 briggs #endif 422 1.1 matt 423 1.1 matt u_int 424 1.36 he db_fetch_reg(int reg, db_regs_t *regs) 425 1.1 matt { 426 1.1 matt 427 1.1 matt switch (reg) { 428 1.1 matt case 0: 429 1.36 he return (regs->tf_r0); 430 1.1 matt case 1: 431 1.36 he return (regs->tf_r1); 432 1.1 matt case 2: 433 1.36 he return (regs->tf_r2); 434 1.1 matt case 3: 435 1.36 he return (regs->tf_r3); 436 1.1 matt case 4: 437 1.36 he return (regs->tf_r4); 438 1.1 matt case 5: 439 1.36 he return (regs->tf_r5); 440 1.1 matt case 6: 441 1.36 he return (regs->tf_r6); 442 1.1 matt case 7: 443 1.36 he return (regs->tf_r7); 444 1.1 matt case 8: 445 1.36 he return (regs->tf_r8); 446 1.1 matt case 9: 447 1.36 he return (regs->tf_r9); 448 1.1 matt case 10: 449 1.36 he return (regs->tf_r10); 450 1.1 matt case 11: 451 1.36 he return (regs->tf_r11); 452 1.1 matt case 12: 453 1.36 he return (regs->tf_r12); 454 1.1 matt case 13: 455 1.36 he return (regs->tf_svc_sp); 456 1.1 matt case 14: 457 1.36 he return (regs->tf_svc_lr); 458 1.1 matt case 15: 459 1.36 he return (regs->tf_pc); 460 1.1 matt default: 461 1.1 matt panic("db_fetch_reg: botch"); 462 1.1 matt } 463 1.1 matt } 464 1.1 matt 465 1.1 matt u_int 466 1.36 he branch_taken(u_int insn, u_int pc, db_regs_t *regs) 467 1.1 matt { 468 1.1 matt u_int addr, nregs; 469 1.1 matt 470 1.1 matt switch ((insn >> 24) & 0xf) { 471 1.1 matt case 0xa: /* b ... */ 472 1.1 matt case 0xb: /* bl ... */ 473 1.1 matt addr = ((insn << 2) & 0x03ffffff); 474 1.1 matt if (addr & 0x02000000) 475 1.1 matt addr |= 0xfc000000; 476 1.1 matt return (pc + 8 + addr); 477 1.1 matt case 0x7: /* ldr pc, [pc, reg, lsl #2] */ 478 1.36 he addr = db_fetch_reg(insn & 0xf, regs); 479 1.1 matt addr = pc + 8 + (addr << 2); 480 1.1 matt db_read_bytes(addr, 4, (char *)&addr); 481 1.1 matt return (addr); 482 1.41 christos case 0x5: /* ldr pc, [reg] */ 483 1.41 christos addr = db_fetch_reg((insn >> 16) & 0xf, regs); 484 1.41 christos db_read_bytes(addr, 4, (char *)&addr); 485 1.41 christos return (addr); 486 1.1 matt case 0x1: /* mov pc, reg */ 487 1.36 he addr = db_fetch_reg(insn & 0xf, regs); 488 1.1 matt return (addr); 489 1.1 matt case 0x8: /* ldmxx reg, {..., pc} */ 490 1.1 matt case 0x9: 491 1.36 he addr = db_fetch_reg((insn >> 16) & 0xf, regs); 492 1.1 matt nregs = (insn & 0x5555) + ((insn >> 1) & 0x5555); 493 1.1 matt nregs = (nregs & 0x3333) + ((nregs >> 2) & 0x3333); 494 1.1 matt nregs = (nregs + (nregs >> 4)) & 0x0f0f; 495 1.1 matt nregs = (nregs + (nregs >> 8)) & 0x001f; 496 1.1 matt switch ((insn >> 23) & 0x3) { 497 1.1 matt case 0x0: /* ldmda */ 498 1.1 matt addr = addr - 0; 499 1.1 matt break; 500 1.1 matt case 0x1: /* ldmia */ 501 1.1 matt addr = addr + 0 + ((nregs - 1) << 2); 502 1.1 matt break; 503 1.1 matt case 0x2: /* ldmdb */ 504 1.1 matt addr = addr - 4; 505 1.1 matt break; 506 1.1 matt case 0x3: /* ldmib */ 507 1.1 matt addr = addr + 4 + ((nregs - 1) << 2); 508 1.1 matt break; 509 1.1 matt } 510 1.1 matt db_read_bytes(addr, 4, (char *)&addr); 511 1.1 matt return (addr); 512 1.1 matt default: 513 1.1 matt panic("branch_taken: botch"); 514 1.1 matt } 515 1.1 matt } 516
Indexes created Tue Sep 30 20:09:53 GMT 2025