db_interface.c revision 1.37
1 1.37 matt /* $NetBSD: db_interface.c,v 1.37 2007/02/22 04:47:07 matt Exp $ */ 2 1.1 sakamoto /* $OpenBSD: db_interface.c,v 1.2 1996/12/28 06:21:50 rahnds Exp $ */ 3 1.29 lukem 4 1.29 lukem #include <sys/cdefs.h> 5 1.37 matt __KERNEL_RCSID(0, "$NetBSD: db_interface.c,v 1.37 2007/02/22 04:47:07 matt Exp $"); 6 1.3 jonathan 7 1.10 simonb #define USERACC 8 1.10 simonb 9 1.3 jonathan #include "opt_ddb.h" 10 1.17 dbj #include "opt_kgdb.h" 11 1.10 simonb #include "opt_ppcarch.h" 12 1.1 sakamoto 13 1.1 sakamoto #include <sys/param.h> 14 1.1 sakamoto #include <sys/proc.h> 15 1.4 tsubai #include <sys/systm.h> 16 1.6 kleink 17 1.11 simonb #include <dev/cons.h> 18 1.11 simonb 19 1.7 tsubai #include <machine/db_machdep.h> 20 1.7 tsubai #include <machine/frame.h> 21 1.10 simonb #ifdef PPC_IBM4XX 22 1.10 simonb #include <machine/tlb.h> 23 1.10 simonb #include <powerpc/spr.h> 24 1.10 simonb #include <uvm/uvm_extern.h> 25 1.10 simonb #endif 26 1.7 tsubai 27 1.17 dbj #ifdef DDB 28 1.6 kleink #include <ddb/db_sym.h> 29 1.6 kleink #include <ddb/db_command.h> 30 1.6 kleink #include <ddb/db_extern.h> 31 1.6 kleink #include <ddb/db_access.h> 32 1.22 scw #include <ddb/db_lex.h> 33 1.6 kleink #include <ddb/db_output.h> 34 1.6 kleink #include <ddb/ddbvar.h> 35 1.17 dbj #endif 36 1.17 dbj 37 1.17 dbj #ifdef KGDB 38 1.17 dbj #include <sys/kgdb.h> 39 1.17 dbj #endif 40 1.17 dbj 41 1.17 dbj #include <dev/ofw/openfirm.h> 42 1.1 sakamoto 43 1.11 simonb int db_active = 0; 44 1.11 simonb 45 1.19 matt db_regs_t ddb_regs; 46 1.8 tsubai 47 1.10 simonb void ddb_trap(void); /* Call into trap_subr.S */ 48 1.10 simonb int ddb_trap_glue(struct trapframe *); /* Called from trap_subr.S */ 49 1.10 simonb #ifdef PPC_IBM4XX 50 1.37 matt static void db_ppc4xx_ctx(db_expr_t, bool, db_expr_t, const char *); 51 1.37 matt static void db_ppc4xx_pv(db_expr_t, bool, db_expr_t, const char *); 52 1.37 matt static void db_ppc4xx_reset(db_expr_t, bool, db_expr_t, const char *); 53 1.37 matt static void db_ppc4xx_tf(db_expr_t, bool, db_expr_t, const char *); 54 1.37 matt static void db_ppc4xx_dumptlb(db_expr_t, bool, db_expr_t, const char *); 55 1.37 matt static void db_ppc4xx_dcr(db_expr_t, bool, db_expr_t, const char *); 56 1.22 scw static db_expr_t db_ppc4xx_mfdcr(db_expr_t); 57 1.22 scw static void db_ppc4xx_mtdcr(db_expr_t, db_expr_t); 58 1.10 simonb #ifdef USERACC 59 1.37 matt static void db_ppc4xx_useracc(db_expr_t, bool, db_expr_t, const char *); 60 1.10 simonb #endif 61 1.10 simonb #endif /* PPC_IBM4XX */ 62 1.9 briggs 63 1.17 dbj #ifdef DDB 64 1.1 sakamoto void 65 1.31 matt cpu_Debugger(void) 66 1.1 sakamoto { 67 1.1 sakamoto ddb_trap(); 68 1.1 sakamoto } 69 1.17 dbj #endif 70 1.1 sakamoto 71 1.1 sakamoto int 72 1.31 matt ddb_trap_glue(struct trapframe *frame) 73 1.1 sakamoto { 74 1.25 thorpej #ifdef PPC_IBM4XX 75 1.25 thorpej if ((frame->srr1 & PSL_PR) == 0) 76 1.25 thorpej return kdb_trap(frame->exc, frame); 77 1.28 matt #else /* PPC_OEA */ 78 1.25 thorpej if ((frame->srr1 & PSL_PR) == 0 && 79 1.32 matt (frame->exc == EXC_TRC || 80 1.32 matt frame->exc == EXC_RUNMODETRC || 81 1.25 thorpej (frame->exc == EXC_PGM && (frame->srr1 & 0x20000)) || 82 1.32 matt frame->exc == EXC_BPT || 83 1.32 matt frame->exc == EXC_DSI)) { 84 1.17 dbj int type = frame->exc; 85 1.17 dbj if (type == EXC_PGM && (frame->srr1 & 0x20000)) { 86 1.17 dbj type = T_BREAKPOINT; 87 1.17 dbj } 88 1.17 dbj return kdb_trap(type, frame); 89 1.1 sakamoto } 90 1.25 thorpej #endif 91 1.1 sakamoto return 0; 92 1.8 tsubai } 93 1.8 tsubai 94 1.8 tsubai int 95 1.31 matt kdb_trap(int type, void *v) 96 1.8 tsubai { 97 1.8 tsubai struct trapframe *frame = v; 98 1.8 tsubai 99 1.17 dbj #ifdef DDB 100 1.30 matt if (db_recover != 0 && (type != -1 && type != T_BREAKPOINT)) { 101 1.30 matt db_error("Faulted in DDB; continuing...\n"); 102 1.30 matt /* NOTREACHED */ 103 1.8 tsubai } 104 1.17 dbj #endif 105 1.8 tsubai 106 1.8 tsubai /* XXX Should switch to kdb's own stack here. */ 107 1.8 tsubai 108 1.12 wiz memcpy(DDB_REGS->r, frame->fixreg, 32 * sizeof(u_int32_t)); 109 1.8 tsubai DDB_REGS->iar = frame->srr0; 110 1.8 tsubai DDB_REGS->msr = frame->srr1; 111 1.10 simonb DDB_REGS->lr = frame->lr; 112 1.10 simonb DDB_REGS->ctr = frame->ctr; 113 1.10 simonb DDB_REGS->cr = frame->cr; 114 1.10 simonb DDB_REGS->xer = frame->xer; 115 1.28 matt #ifdef PPC_OEA 116 1.27 matt DDB_REGS->mq = frame->tf_xtra[TF_MQ]; 117 1.27 matt #endif 118 1.16 dbj #ifdef PPC_IBM4XX 119 1.27 matt DDB_REGS->dear = frame->dar; 120 1.27 matt DDB_REGS->esr = frame->tf_xtra[TF_ESR]; 121 1.27 matt DDB_REGS->pid = frame->tf_xtra[TF_PID]; 122 1.10 simonb #endif 123 1.8 tsubai 124 1.17 dbj #ifdef DDB 125 1.11 simonb db_active++; 126 1.11 simonb cnpollc(1); 127 1.15 dbj db_trap(type, 0); 128 1.11 simonb cnpollc(0); 129 1.11 simonb db_active--; 130 1.17 dbj #elif defined(KGDB) 131 1.17 dbj if (!kgdb_trap(type, DDB_REGS)) 132 1.17 dbj return 0; 133 1.17 dbj #endif 134 1.17 dbj 135 1.17 dbj /* KGDB isn't smart about advancing PC if we 136 1.17 dbj * take a breakpoint trap after kgdb_active is set. 137 1.17 dbj * Therefore, we help out here. 138 1.17 dbj */ 139 1.17 dbj if (IS_BREAKPOINT_TRAP(type, 0)) { 140 1.17 dbj int bkpt; 141 1.17 dbj db_read_bytes(PC_REGS(DDB_REGS),BKPT_SIZE,(void *)&bkpt); 142 1.17 dbj if (bkpt== BKPT_INST) { 143 1.17 dbj PC_REGS(DDB_REGS) += BKPT_SIZE; 144 1.17 dbj } 145 1.17 dbj } 146 1.8 tsubai 147 1.12 wiz memcpy(frame->fixreg, DDB_REGS->r, 32 * sizeof(u_int32_t)); 148 1.8 tsubai frame->srr0 = DDB_REGS->iar; 149 1.8 tsubai frame->srr1 = DDB_REGS->msr; 150 1.10 simonb frame->lr = DDB_REGS->lr; 151 1.10 simonb frame->ctr = DDB_REGS->ctr; 152 1.10 simonb frame->cr = DDB_REGS->cr; 153 1.10 simonb frame->xer = DDB_REGS->xer; 154 1.28 matt #ifdef PPC_OEA 155 1.27 matt frame->tf_xtra[TF_MQ] = DDB_REGS->mq; 156 1.27 matt #endif 157 1.16 dbj #ifdef PPC_IBM4XX 158 1.27 matt frame->dar = DDB_REGS->dear; 159 1.27 matt frame->tf_xtra[TF_ESR] = DDB_REGS->esr; 160 1.27 matt frame->tf_xtra[TF_PID] = DDB_REGS->pid; 161 1.10 simonb #endif 162 1.8 tsubai 163 1.8 tsubai return 1; 164 1.1 sakamoto } 165 1.10 simonb 166 1.10 simonb #ifdef PPC_IBM4XX 167 1.24 scw db_addr_t 168 1.24 scw branch_taken(int inst, db_addr_t pc, db_regs_t *regs) 169 1.24 scw { 170 1.24 scw 171 1.24 scw if ((inst & M_B ) == I_B || (inst & M_B ) == I_BL) { 172 1.24 scw db_expr_t off; 173 1.24 scw off = ((db_expr_t)((inst & 0x03fffffc) << 6)) >> 6; 174 1.24 scw return (((inst & 0x2) ? 0 : pc) + off); 175 1.24 scw } 176 1.24 scw 177 1.24 scw if ((inst & M_BC) == I_BC || (inst & M_BC) == I_BCL) { 178 1.24 scw db_expr_t off; 179 1.24 scw off = ((db_expr_t)((inst & 0x0000fffc) << 16)) >> 16; 180 1.24 scw return (((inst & 0x2) ? 0 : pc) + off); 181 1.24 scw } 182 1.24 scw 183 1.24 scw if ((inst & M_RTS) == I_RTS || (inst & M_RTS) == I_BLRL) 184 1.24 scw return (regs->lr); 185 1.24 scw 186 1.24 scw if ((inst & M_BCTR) == I_BCTR || (inst & M_BCTR) == I_BCTRL) 187 1.24 scw return (regs->ctr); 188 1.24 scw 189 1.24 scw db_printf("branch_taken: can't figure out branch target for 0x%x!\n", 190 1.24 scw inst); 191 1.24 scw return (0); 192 1.24 scw } 193 1.24 scw 194 1.10 simonb const struct db_command db_machine_command_table[] = { 195 1.10 simonb { "ctx", db_ppc4xx_ctx, 0, 0 }, 196 1.10 simonb { "pv", db_ppc4xx_pv, 0, 0 }, 197 1.10 simonb { "reset", db_ppc4xx_reset, 0, 0 }, 198 1.22 scw { "tf", db_ppc4xx_tf, 0, 0 }, 199 1.10 simonb { "tlb", db_ppc4xx_dumptlb, 0, 0 }, 200 1.22 scw { "dcr", db_ppc4xx_dcr, CS_MORE|CS_SET_DOT, 0 }, 201 1.10 simonb #ifdef USERACC 202 1.10 simonb { "user", db_ppc4xx_useracc, 0, 0 }, 203 1.10 simonb #endif 204 1.10 simonb { NULL, } 205 1.10 simonb }; 206 1.10 simonb 207 1.10 simonb static void 208 1.37 matt db_ppc4xx_ctx(db_expr_t addr, bool have_addr, db_expr_t count, const char *modif) 209 1.10 simonb { 210 1.10 simonb struct proc *p; 211 1.10 simonb 212 1.10 simonb /* XXX LOCKING XXX */ 213 1.10 simonb for (p = allproc.lh_first; p != 0; p = p->p_list.le_next) { 214 1.10 simonb if (p->p_stat) { 215 1.10 simonb db_printf("process %p:", p); 216 1.10 simonb db_printf("pid:%d pmap:%p ctx:%d %s\n", 217 1.10 simonb p->p_pid, p->p_vmspace->vm_map.pmap, 218 1.10 simonb p->p_vmspace->vm_map.pmap->pm_ctx, 219 1.10 simonb p->p_comm); 220 1.10 simonb } 221 1.10 simonb } 222 1.10 simonb return; 223 1.10 simonb } 224 1.10 simonb 225 1.10 simonb static void 226 1.37 matt db_ppc4xx_pv(db_expr_t addr, bool have_addr, db_expr_t count, const char *modif) 227 1.10 simonb { 228 1.10 simonb struct pv_entry { 229 1.10 simonb struct pv_entry *pv_next; /* Linked list of mappings */ 230 1.10 simonb vaddr_t pv_va; /* virtual address of mapping */ 231 1.10 simonb struct pmap *pv_pm; 232 1.10 simonb }; 233 1.10 simonb struct pv_entry *pa_to_pv(paddr_t); 234 1.10 simonb struct pv_entry *pv; 235 1.10 simonb 236 1.10 simonb if (!have_addr) { 237 1.10 simonb db_printf("pv: <pa>\n"); 238 1.10 simonb return; 239 1.10 simonb } 240 1.10 simonb pv = pa_to_pv(addr); 241 1.10 simonb db_printf("pv at %p\n", pv); 242 1.10 simonb while (pv && pv->pv_pm) { 243 1.10 simonb db_printf("next %p va %p pmap %p\n", pv->pv_next, 244 1.10 simonb (void *)pv->pv_va, pv->pv_pm); 245 1.10 simonb pv = pv->pv_next; 246 1.10 simonb } 247 1.10 simonb } 248 1.10 simonb 249 1.10 simonb static void 250 1.37 matt db_ppc4xx_reset(db_expr_t addr, bool have_addr, db_expr_t count, 251 1.34 scw const char *modif) 252 1.10 simonb { 253 1.10 simonb printf("Reseting...\n"); 254 1.10 simonb ppc4xx_reset(); 255 1.10 simonb } 256 1.10 simonb 257 1.10 simonb static void 258 1.37 matt db_ppc4xx_tf(db_expr_t addr, bool have_addr, db_expr_t count, const char *modif) 259 1.10 simonb { 260 1.10 simonb struct trapframe *f; 261 1.10 simonb 262 1.10 simonb 263 1.10 simonb if (have_addr) { 264 1.10 simonb f = (struct trapframe *)addr; 265 1.10 simonb 266 1.27 matt db_printf("r0-r3: \t%8.8lx %8.8lx %8.8lx %8.8lx\n", 267 1.10 simonb f->fixreg[0], f->fixreg[1], 268 1.10 simonb f->fixreg[2], f->fixreg[3]); 269 1.27 matt db_printf("r4-r7: \t%8.8lx %8.8lx %8.8lx %8.8lx\n", 270 1.10 simonb f->fixreg[4], f->fixreg[5], 271 1.10 simonb f->fixreg[6], f->fixreg[7]); 272 1.27 matt db_printf("r8-r11: \t%8.8lx %8.8lx %8.8lx %8.8lx\n", 273 1.10 simonb f->fixreg[8], f->fixreg[9], 274 1.10 simonb f->fixreg[10], f->fixreg[11]); 275 1.27 matt db_printf("r12-r15:\t%8.8lx %8.8lx %8.8lx %8.8lx\n", 276 1.10 simonb f->fixreg[12], f->fixreg[13], 277 1.10 simonb f->fixreg[14], f->fixreg[15]); 278 1.27 matt db_printf("r16-r19:\t%8.8lx %8.8lx %8.8lx %8.8lx\n", 279 1.10 simonb f->fixreg[16], f->fixreg[17], 280 1.10 simonb f->fixreg[18], f->fixreg[19]); 281 1.27 matt db_printf("r20-r23:\t%8.8lx %8.8lx %8.8lx %8.8lx\n", 282 1.10 simonb f->fixreg[20], f->fixreg[21], 283 1.10 simonb f->fixreg[22], f->fixreg[23]); 284 1.27 matt db_printf("r24-r27:\t%8.8lx %8.8lx %8.8lx %8.8lx\n", 285 1.10 simonb f->fixreg[24], f->fixreg[25], 286 1.10 simonb f->fixreg[26], f->fixreg[27]); 287 1.27 matt db_printf("r28-r31:\t%8.8lx %8.8lx %8.8lx %8.8lx\n", 288 1.10 simonb f->fixreg[28], f->fixreg[29], 289 1.10 simonb f->fixreg[30], f->fixreg[31]); 290 1.10 simonb 291 1.27 matt db_printf("lr: %8.8lx cr: %8.8x xer: %8.8x ctr: %8.8lx\n", 292 1.10 simonb f->lr, f->cr, f->xer, f->ctr); 293 1.27 matt db_printf("srr0(pc): %8.8lx srr1(msr): %8.8lx " 294 1.27 matt "dear: %8.8lx esr: %8.8x\n", 295 1.27 matt f->srr0, f->srr1, f->dar, f->tf_xtra[TF_ESR]); 296 1.10 simonb db_printf("exc: %8.8x pid: %8.8x\n", 297 1.27 matt f->exc, f->tf_xtra[TF_PID]); 298 1.10 simonb } 299 1.10 simonb return; 300 1.10 simonb } 301 1.10 simonb 302 1.10 simonb static const char *const tlbsizes[] = { 303 1.10 simonb "1kB", 304 1.10 simonb "4kB", 305 1.10 simonb "16kB", 306 1.10 simonb "64kB", 307 1.10 simonb "256kB", 308 1.10 simonb "1MB", 309 1.10 simonb "4MB", 310 1.10 simonb "16MB" 311 1.10 simonb }; 312 1.10 simonb 313 1.10 simonb static void 314 1.37 matt db_ppc4xx_dumptlb(db_expr_t addr, bool have_addr, db_expr_t count, 315 1.34 scw const char *modif) 316 1.10 simonb { 317 1.10 simonb int i, zone, tlbsize; 318 1.10 simonb u_int zpr, pid, opid, msr; 319 1.10 simonb u_long tlblo, tlbhi, tlbmask; 320 1.10 simonb 321 1.10 simonb zpr = mfspr(SPR_ZPR); 322 1.10 simonb for (i = 0; i < NTLB; i++) { 323 1.36 perry __asm volatile("mfmsr %3;" 324 1.10 simonb "mfpid %4;" 325 1.10 simonb "li %0,0;" 326 1.10 simonb "mtmsr %0;" 327 1.10 simonb "sync; isync;" 328 1.21 thorpej "tlbrelo %0,%5;" 329 1.21 thorpej "tlbrehi %1,%5;" 330 1.10 simonb "mfpid %2;" 331 1.10 simonb "mtpid %4;" 332 1.10 simonb "mtmsr %3;" 333 1.10 simonb "sync; isync" 334 1.10 simonb : "=&r" (tlblo), "=&r" (tlbhi), "=r" (pid), 335 1.10 simonb "=&r" (msr), "=&r" (opid) : "r" (i)); 336 1.10 simonb 337 1.10 simonb if (strchr(modif, 'v') && !(tlbhi & TLB_VALID)) 338 1.10 simonb continue; 339 1.10 simonb 340 1.10 simonb tlbsize = (tlbhi & TLB_SIZE_MASK) >> TLB_SIZE_SHFT; 341 1.10 simonb /* map tlbsize 0 .. 7 to masks for 1kB .. 16MB */ 342 1.10 simonb tlbmask = ~(1 << (tlbsize * 2 + 10)) + 1; 343 1.10 simonb 344 1.10 simonb if (have_addr && ((tlbhi & tlbmask) != (addr & tlbmask))) 345 1.10 simonb continue; 346 1.10 simonb 347 1.10 simonb zone = (tlblo & TLB_ZSEL_MASK) >> TLB_ZSEL_SHFT; 348 1.10 simonb db_printf("tlb%c%2d", tlbhi & TLB_VALID ? ' ' : '*', i); 349 1.10 simonb db_printf(" PID %3d EPN 0x%08lx %-5s", 350 1.10 simonb pid, 351 1.10 simonb tlbhi & tlbmask, 352 1.10 simonb tlbsizes[tlbsize]); 353 1.10 simonb db_printf(" RPN 0x%08lx ZONE %2d%c %s %s %c%c%c%c%c %s", 354 1.10 simonb tlblo & tlbmask, 355 1.10 simonb zone, 356 1.10 simonb "NTTA"[(zpr >> ((15 - zone) * 2)) & 3], 357 1.10 simonb tlblo & TLB_EX ? "EX" : " ", 358 1.10 simonb tlblo & TLB_WR ? "WR" : " ", 359 1.10 simonb tlblo & TLB_W ? 'W' : ' ', 360 1.10 simonb tlblo & TLB_I ? 'I' : ' ', 361 1.10 simonb tlblo & TLB_M ? 'M' : ' ', 362 1.10 simonb tlblo & TLB_G ? 'G' : ' ', 363 1.10 simonb tlbhi & TLB_ENDIAN ? 'E' : ' ', 364 1.10 simonb tlbhi & TLB_U0 ? "U0" : " "); 365 1.10 simonb db_printf("\n"); 366 1.10 simonb } 367 1.22 scw } 368 1.22 scw 369 1.22 scw static void 370 1.37 matt db_ppc4xx_dcr(db_expr_t address, bool have_addr, db_expr_t count, 371 1.34 scw const char *modif) 372 1.22 scw { 373 1.22 scw db_expr_t new_value; 374 1.22 scw db_expr_t addr; 375 1.23 scw 376 1.23 scw if (address < 0 || address > 0x3ff) 377 1.23 scw db_error("Invalid DCR address (Valid range is 0x0 - 0x3ff)\n"); 378 1.22 scw 379 1.22 scw addr = address; 380 1.22 scw 381 1.22 scw while (db_expression(&new_value)) { 382 1.22 scw db_printf("dcr 0x%lx\t\t%s = ", addr, 383 1.22 scw db_num_to_str(db_ppc4xx_mfdcr(addr))); 384 1.22 scw db_ppc4xx_mtdcr(addr, new_value); 385 1.22 scw db_printf("%s\n", db_num_to_str(db_ppc4xx_mfdcr(addr))); 386 1.22 scw addr += 1; 387 1.22 scw } 388 1.22 scw 389 1.22 scw if (addr == address) { 390 1.22 scw db_next = (db_addr_t)addr + 1; 391 1.22 scw db_prev = (db_addr_t)addr; 392 1.22 scw db_printf("dcr 0x%lx\t\t%s\n", addr, 393 1.22 scw db_num_to_str(db_ppc4xx_mfdcr(addr))); 394 1.22 scw } else { 395 1.22 scw db_next = (db_addr_t)addr; 396 1.22 scw db_prev = (db_addr_t)addr - 1; 397 1.22 scw } 398 1.22 scw 399 1.22 scw db_skip_to_eol(); 400 1.22 scw } 401 1.22 scw 402 1.22 scw /* 403 1.22 scw * XXX Grossness Alert! XXX 404 1.22 scw * 405 1.22 scw * Please look away now if you don't like self-modifying code 406 1.22 scw */ 407 1.22 scw static u_int32_t db_ppc4xx_dcrfunc[4]; 408 1.22 scw 409 1.22 scw static db_expr_t 410 1.22 scw db_ppc4xx_mfdcr(db_expr_t reg) 411 1.22 scw { 412 1.22 scw db_expr_t (*func)(void); 413 1.22 scw 414 1.22 scw reg = (((reg & 0x1f) << 5) | ((reg >> 5) & 0x1f)) << 11; 415 1.22 scw db_ppc4xx_dcrfunc[0] = 0x7c0004ac; /* sync */ 416 1.22 scw db_ppc4xx_dcrfunc[1] = 0x4c00012c; /* isync */ 417 1.22 scw db_ppc4xx_dcrfunc[2] = 0x7c600286 | reg; /* mfdcr reg, r3 */ 418 1.22 scw db_ppc4xx_dcrfunc[3] = 0x4e800020; /* blr */ 419 1.22 scw 420 1.22 scw __syncicache((void *)db_ppc4xx_dcrfunc, sizeof(db_ppc4xx_dcrfunc)); 421 1.22 scw func = (db_expr_t (*)(void))(void *)db_ppc4xx_dcrfunc; 422 1.22 scw 423 1.22 scw return ((*func)()); 424 1.22 scw } 425 1.22 scw 426 1.22 scw static void 427 1.22 scw db_ppc4xx_mtdcr(db_expr_t reg, db_expr_t val) 428 1.22 scw { 429 1.22 scw db_expr_t (*func)(db_expr_t); 430 1.22 scw 431 1.22 scw reg = (((reg & 0x1f) << 5) | ((reg >> 5) & 0x1f)) << 11; 432 1.22 scw db_ppc4xx_dcrfunc[0] = 0x7c0004ac; /* sync */ 433 1.22 scw db_ppc4xx_dcrfunc[1] = 0x4c00012c; /* isync */ 434 1.22 scw db_ppc4xx_dcrfunc[2] = 0x7c600386 | reg; /* mtdcr r3, reg */ 435 1.22 scw db_ppc4xx_dcrfunc[3] = 0x4e800020; /* blr */ 436 1.22 scw 437 1.22 scw __syncicache((void *)db_ppc4xx_dcrfunc, sizeof(db_ppc4xx_dcrfunc)); 438 1.22 scw func = (db_expr_t (*)(db_expr_t))(void *)db_ppc4xx_dcrfunc; 439 1.22 scw 440 1.22 scw (*func)(val); 441 1.10 simonb } 442 1.10 simonb 443 1.10 simonb #ifdef USERACC 444 1.10 simonb static void 445 1.37 matt db_ppc4xx_useracc(db_expr_t addr, bool have_addr, db_expr_t count, 446 1.34 scw const char *modif) 447 1.10 simonb { 448 1.10 simonb static paddr_t oldaddr = -1; 449 1.10 simonb int instr = 0; 450 1.10 simonb int data; 451 1.10 simonb extern vaddr_t opc_disasm(vaddr_t loc, int); 452 1.10 simonb 453 1.10 simonb 454 1.10 simonb if (!have_addr) { 455 1.10 simonb addr = oldaddr; 456 1.10 simonb } 457 1.10 simonb if (addr == -1) { 458 1.10 simonb db_printf("no address\n"); 459 1.10 simonb return; 460 1.10 simonb } 461 1.10 simonb addr &= ~0x3; /* align */ 462 1.10 simonb { 463 1.34 scw const char *cp = modif; 464 1.34 scw char c; 465 1.10 simonb while ((c = *cp++) != 0) 466 1.10 simonb if (c == 'i') 467 1.10 simonb instr = 1; 468 1.10 simonb } 469 1.10 simonb while (count--) { 470 1.10 simonb if (db_print_position() == 0) { 471 1.10 simonb /* Always print the address. */ 472 1.10 simonb db_printf("%8.4lx:\t", addr); 473 1.10 simonb } 474 1.10 simonb oldaddr=addr; 475 1.10 simonb copyin((void *)addr, &data, sizeof(data)); 476 1.10 simonb if (instr) { 477 1.10 simonb opc_disasm(addr, data); 478 1.10 simonb } else { 479 1.10 simonb db_printf("%4.4x\n", data); 480 1.10 simonb } 481 1.10 simonb addr += 4; 482 1.10 simonb db_end_line(); 483 1.10 simonb } 484 1.10 simonb 485 1.10 simonb } 486 1.10 simonb #endif 487 1.10 simonb 488 1.10 simonb #endif /* PPC_IBM4XX */ 489
Indexes created Sun Sep 21 20:09:37 GMT 2025