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/*- * Mach Operating System * Copyright (c) 1991,1990 Carnegie Mellon University * All Rights Reserved. * * Permission to use, copy, modify and distribute this software and its * documentation is hereby granted, provided that both the copyright * notice and this permission notice appear in all copies of the * software, derivative works or modified versions, and any portions * thereof, and that both notices appear in supporting documentation. * * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. * * Carnegie Mellon requests users of this software to return to * * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU * School of Computer Science * Carnegie Mellon University * Pittsburgh PA 15213-3890 * * any improvements or extensions that they make and grant Carnegie the * rights to redistribute these changes. */ /* * Author: David B. Golub, Carnegie Mellon University * Date: 7/90 */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/ddb/db_sym.c 206639 2010-04-14 23:06:07Z julian $"); #include <sys/param.h> #include <sys/pcpu.h> #include <sys/smp.h> #include <sys/systm.h> #include <net/vnet.h> #include <ddb/ddb.h> #include <ddb/db_sym.h> #include <ddb/db_variables.h> #include <opt_ddb.h> /* * Multiple symbol tables */ #ifndef MAXNOSYMTABS #define MAXNOSYMTABS 3 /* mach, ux, emulator */ #endif static db_symtab_t db_symtabs[MAXNOSYMTABS] = {{0,},}; static int db_nsymtab = 0; static db_symtab_t *db_last_symtab; /* where last symbol was found */ static c_db_sym_t db_lookup( const char *symstr); static char *db_qualify(c_db_sym_t sym, char *symtabname); static boolean_t db_symbol_is_ambiguous(c_db_sym_t sym); static boolean_t db_line_at_pc(c_db_sym_t, char **, int *, db_expr_t); static int db_cpu = -1; #ifdef VIMAGE static void *db_vnet = NULL; #endif /* * Validate the CPU number used to interpret per-CPU variables so we can * avoid later confusion if an invalid CPU is requested. */ int db_var_db_cpu(struct db_variable *vp, db_expr_t *valuep, int op) { switch (op) { case DB_VAR_GET: *valuep = db_cpu; return (1); case DB_VAR_SET: if (*(int *)valuep < -1 && *(int *)valuep > mp_maxid) { db_printf("Invalid value: %d", *(int*)valuep); return (0); } db_cpu = *(int *)valuep; return (1); default: db_printf("db_var_db_cpu: unknown operation\n"); return (0); } } /* * Read-only variable reporting the current CPU, which is what we use when * db_cpu is set to -1. */ int db_var_curcpu(struct db_variable *vp, db_expr_t *valuep, int op) { switch (op) { case DB_VAR_GET: *valuep = curcpu; return (1); case DB_VAR_SET: db_printf("Read-only variable.\n"); return (0); default: db_printf("db_var_curcpu: unknown operation\n"); return (0); } } #ifdef VIMAGE /* * Validate the virtual network pointer used to interpret per-vnet global * variable expansion. Right now we don't do much here, really we should * walk the global vnet list to check it's an OK pointer. */ int db_var_db_vnet(struct db_variable *vp, db_expr_t *valuep, int op) { switch (op) { case DB_VAR_GET: *valuep = (db_expr_t)db_vnet; return (1); case DB_VAR_SET: db_vnet = *(void **)valuep; return (1); default: db_printf("db_var_db_vnet: unknown operation\n"); return (0); } } /* * Read-only variable reporting the current vnet, which is what we use when * db_vnet is set to NULL. */ int db_var_curvnet(struct db_variable *vp, db_expr_t *valuep, int op) { switch (op) { case DB_VAR_GET: *valuep = (db_expr_t)curvnet; return (1); case DB_VAR_SET: db_printf("Read-only variable.\n"); return (0); default: db_printf("db_var_curcpu: unknown operation\n"); return (0); } } #endif /* * Add symbol table, with given name, to list of symbol tables. */ void db_add_symbol_table(start, end, name, ref) char *start; char *end; char *name; char *ref; { if (db_nsymtab >= MAXNOSYMTABS) { printf ("No slots left for %s symbol table", name); panic ("db_sym.c: db_add_symbol_table"); } db_symtabs[db_nsymtab].start = start; db_symtabs[db_nsymtab].end = end; db_symtabs[db_nsymtab].name = name; db_symtabs[db_nsymtab].private = ref; db_nsymtab++; } /* * db_qualify("vm_map", "ux") returns "unix:vm_map". * * Note: return value points to static data whose content is * overwritten by each call... but in practice this seems okay. */ static char * db_qualify(sym, symtabname) c_db_sym_t sym; register char *symtabname; { const char *symname; static char tmp[256]; db_symbol_values(sym, &symname, 0); snprintf(tmp, sizeof(tmp), "%s:%s", symtabname, symname); return tmp; } boolean_t db_eqname(src, dst, c) const char *src; const char *dst; int c; { if (!strcmp(src, dst)) return (TRUE); if (src[0] == c) return (!strcmp(src+1,dst)); return (FALSE); } boolean_t db_value_of_name(name, valuep) const char *name; db_expr_t *valuep; { c_db_sym_t sym; sym = db_lookup(name); if (sym == C_DB_SYM_NULL) return (FALSE); db_symbol_values(sym, &name, valuep); return (TRUE); } boolean_t db_value_of_name_pcpu(name, valuep) const char *name; db_expr_t *valuep; { static char tmp[256]; db_expr_t value; c_db_sym_t sym; int cpu; if (db_cpu != -1) cpu = db_cpu; else cpu = curcpu; snprintf(tmp, sizeof(tmp), "pcpu_entry_%s", name); sym = db_lookup(tmp); if (sym == C_DB_SYM_NULL) return (FALSE); db_symbol_values(sym, &name, &value); if (value < DPCPU_START || value >= DPCPU_STOP) return (FALSE); *valuep = (db_expr_t)((uintptr_t)value + dpcpu_off[cpu]); return (TRUE); } boolean_t db_value_of_name_vnet(name, valuep) const char *name; db_expr_t *valuep; { #ifdef VIMAGE static char tmp[256]; db_expr_t value; c_db_sym_t sym; struct vnet *vnet; if (db_vnet != NULL) vnet = db_vnet; else vnet = curvnet; snprintf(tmp, sizeof(tmp), "vnet_entry_%s", name); sym = db_lookup(tmp); if (sym == C_DB_SYM_NULL) return (FALSE); db_symbol_values(sym, &name, &value); if (value < VNET_START || value >= VNET_STOP) return (FALSE); *valuep = (db_expr_t)((uintptr_t)value + vnet->vnet_data_base); return (TRUE); #else return (FALSE); #endif } /* * Lookup a symbol. * If the symbol has a qualifier (e.g., ux:vm_map), * then only the specified symbol table will be searched; * otherwise, all symbol tables will be searched. */ static c_db_sym_t db_lookup(symstr) const char *symstr; { c_db_sym_t sp; register int i; int symtab_start = 0; int symtab_end = db_nsymtab; register const char *cp; /* * Look for, remove, and remember any symbol table specifier. */ for (cp = symstr; *cp; cp++) { if (*cp == ':') { for (i = 0; i < db_nsymtab; i++) { int n = strlen(db_symtabs[i].name); if ( n == (cp - symstr) && strncmp(symstr, db_symtabs[i].name, n) == 0 ) { symtab_start = i; symtab_end = i + 1; break; } } if (i == db_nsymtab) { db_error("invalid symbol table name"); } symstr = cp+1; } } /* * Look in the specified set of symbol tables. * Return on first match. */ for (i = symtab_start; i < symtab_end; i++) { sp = X_db_lookup(&db_symtabs[i], symstr); if (sp) { db_last_symtab = &db_symtabs[i]; return sp; } } return 0; } /* * If TRUE, check across symbol tables for multiple occurrences * of a name. Might slow things down quite a bit. */ static volatile boolean_t db_qualify_ambiguous_names = FALSE; /* * Does this symbol name appear in more than one symbol table? * Used by db_symbol_values to decide whether to qualify a symbol. */ static boolean_t db_symbol_is_ambiguous(sym) c_db_sym_t sym; { const char *sym_name; register int i; register boolean_t found_once = FALSE; if (!db_qualify_ambiguous_names) return FALSE; db_symbol_values(sym, &sym_name, 0); for (i = 0; i < db_nsymtab; i++) { if (X_db_lookup(&db_symtabs[i], sym_name)) { if (found_once) return TRUE; found_once = TRUE; } } return FALSE; } /* * Find the closest symbol to val, and return its name * and the difference between val and the symbol found. */ c_db_sym_t db_search_symbol( val, strategy, offp) register db_addr_t val; db_strategy_t strategy; db_expr_t *offp; { register unsigned int diff; size_t newdiff; register int i; c_db_sym_t ret = C_DB_SYM_NULL, sym; newdiff = diff = ~0; for (i = 0; i < db_nsymtab; i++) { sym = X_db_search_symbol(&db_symtabs[i], val, strategy, &newdiff); if (newdiff < diff) { db_last_symtab = &db_symtabs[i]; diff = newdiff; ret = sym; } } *offp = diff; return ret; } /* * Return name and value of a symbol */ void db_symbol_values(sym, namep, valuep) c_db_sym_t sym; const char **namep; db_expr_t *valuep; { db_expr_t value; if (sym == DB_SYM_NULL) { *namep = 0; return; } X_db_symbol_values(db_last_symtab, sym, namep, &value); if (db_symbol_is_ambiguous(sym)) *namep = db_qualify(sym, db_last_symtab->name); if (valuep) *valuep = value; } /* * Print a the closest symbol to value * * After matching the symbol according to the given strategy * we print it in the name+offset format, provided the symbol's * value is close enough (eg smaller than db_maxoff). * We also attempt to print [filename:linenum] when applicable * (eg for procedure names). * * If we could not find a reasonable name+offset representation, * then we just print the value in hex. Small values might get * bogus symbol associations, e.g. 3 might get some absolute * value like _INCLUDE_VERSION or something, therefore we do * not accept symbols whose value is "small" (and use plain hex). */ db_expr_t db_maxoff = 0x10000; void db_printsym(off, strategy) db_expr_t off; db_strategy_t strategy; { db_expr_t d; char *filename; const char *name; db_expr_t value; int linenum; c_db_sym_t cursym; cursym = db_search_symbol(off, strategy, &d); db_symbol_values(cursym, &name, &value); if (name == 0) value = off; if (value >= DB_SMALL_VALUE_MIN && value <= DB_SMALL_VALUE_MAX) { db_printf("%+#lr", (long)off); return; } if (name == 0 || d >= (unsigned long)db_maxoff) { db_printf("%#lr", (unsigned long)off); return; } #ifdef DDB_NUMSYM db_printf("%#lr = %s", (unsigned long)off, name); #else db_printf("%s", name); #endif if (d) db_printf("+%+#lr", (long)d); if (strategy == DB_STGY_PROC) { if (db_line_at_pc(cursym, &filename, &linenum, off)) db_printf(" [%s:%d]", filename, linenum); } } static boolean_t db_line_at_pc( sym, filename, linenum, pc) c_db_sym_t sym; char **filename; int *linenum; db_expr_t pc; { return X_db_line_at_pc( db_last_symtab, sym, filename, linenum, pc); } int db_sym_numargs(sym, nargp, argnames) c_db_sym_t sym; int *nargp; char **argnames; { return X_db_sym_numargs(db_last_symtab, sym, nargp, argnames); }