/*************************************************************************** gbx_debug.c (c) 2000-2012 BenoƮt Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __GBX_DEBUG_C #include "gb_common.h" #include "gb_common_buffer.h" #include "gb_common_case.h" #include #include "gb_buffer.h" #include "gb_array.h" #include "gb_error.h" #include "gbx_exec.h" #include "gbx_api.h" #include "gbx_class.h" #include "gbx_c_array.h" #include "gbx_project.h" #include "gbx_stack.h" #include "gbx_subr.h" #include "gbx_debug.h" DEBUG_INTERFACE DEBUG; DEBUG_INFO *DEBUG_info = NULL; static bool calc_line_from_position(CLASS *class, FUNCTION *func, PCODE *addr, ushort *line) { int i; ushort pos = addr - func->code; ushort *post; if (func->debug) { post = func->debug->pos; for (i = 0; i < (func->debug->nline - 1); i++) { if (pos >= post[i] && pos < post[i + 1]) { *line = i + func->debug->line; return FALSE; } } /*printf("pos = %d addr=%p func->code=%p\n", pos, addr, func->code);*/ } return TRUE; } const char *DEBUG_get_position(CLASS *cp, FUNCTION *fp, PCODE *pc) { #if DEBUG_MEMORY static char buffer[256]; #endif ushort line = 0; if (!cp || !pc) return "?"; if (fp != NULL && fp->debug) calc_line_from_position(cp, fp, pc, &line); #if DEBUG_MEMORY snprintf(buffer, sizeof(buffer), "%s.%s.%d", cp ? cp->name : "?", (fp && fp->debug) ? fp->debug->name : "?", line); return buffer; #else snprintf(COMMON_buffer, COMMON_BUF_MAX, "%.64s.%.64s.%d", cp ? cp->name : "?", (fp && fp->debug) ? fp->debug->name : "?", line); return COMMON_buffer; #endif } const char *DEBUG_get_current_position(void) { return DEBUG_get_position(CP, FP, PC); } void DEBUG_init(void) { if (!EXEC_debug) return; COMPONENT_load(COMPONENT_create("gb.debug")); LIBRARY_get_interface_by_name("gb.debug", DEBUG_INTERFACE_VERSION, &DEBUG); DEBUG_info = DEBUG.Init((GB_DEBUG_INTERFACE *)(void *)GAMBAS_DebugApi, EXEC_fifo, EXEC_fifo_name); if (!DEBUG_info) ERROR_panic("Cannot initializing debug mode"); if (EXEC_profile) { EXEC_profile_instr = TRUE; DEBUG.Profile.Init(EXEC_profile_path); } } void DEBUG_exit(void) { if (!EXEC_debug) return; DEBUG.Exit(); if (EXEC_profile) DEBUG.Profile.Exit(); } void DEBUG_enter_event_loop(void) { if (EXEC_profile) DEBUG.Profile.Begin(NULL, NULL); } void DEBUG_leave_event_loop(void) { if (EXEC_profile) DEBUG.Profile.End(NULL, NULL); } void DEBUG_where(void) { //static bool breakpoint = FALSE; const char *where = DEBUG_get_current_position(); /*if (!breakpoint && !strcmp(where, "FForm._new.97")) { breakpoint = TRUE; BREAKPOINT(); }*/ fprintf(stderr, "%s: ", where); } bool DEBUG_get_value(const char *sym, int len, GB_VARIANT *ret) { int i; VALUE value; LOCAL_SYMBOL *lp; GLOBAL_SYMBOL *gp; CLASS_VAR *var; char *addr; CLASS *class; void *ref; if (DEBUG_info->fp) { for (i = 0; i < DEBUG_info->fp->debug->n_local; i++) { lp = &DEBUG_info->fp->debug->local[i]; if (len == lp->sym.len && strncasecmp(sym, lp->sym.name, len) == 0) { value = DEBUG_info->bp[lp->value]; goto __FOUND; } } } if (DEBUG_info->cp) { for (i = 0; i < DEBUG_info->cp->load->n_global; i++) { gp = &DEBUG_info->cp->load->global[i]; if (len != gp->sym.len || strncasecmp(sym, gp->sym.name, len) != 0) continue; if (CTYPE_get_kind(gp->ctype) == TK_VARIABLE) { if (!CTYPE_is_static(gp->ctype) && DEBUG_info->op) { var = &DEBUG_info->cp->load->dyn[gp->value]; addr = (char *)DEBUG_info->op + var->pos; ref = DEBUG_info->op; } else { var = &DEBUG_info->cp->load->stat[gp->value]; addr = (char *)DEBUG_info->cp->stat + var->pos; ref = DEBUG_info->cp; } VALUE_class_read(DEBUG_info->cp, &value, addr, var->type, ref); goto __FOUND; } else if (CTYPE_get_kind(gp->ctype) == TK_CONST) { VALUE_class_constant(DEBUG_info->cp, &value, gp->value); goto __FOUND; } } } //class = CLASS_look_global(sym, len); class = CLASS_look(sym, len); if (class) { if (class->auto_create && class->instance) { value._object.class = class; value._object.object = class->instance; value._object.super = NULL; } else { value.type = T_CLASS; value._class.class = class; value._class.super = NULL; } goto __FOUND; } return TRUE; __FOUND: /*printf("%.*s =", (int)len, sym); print_value(&value);*/ BORROW(&value); /*if (value.type == T_ARRAY) value._array.keep = TRUE; else*/ VALUE_conv_variant(&value); UNBORROW(&value); *((VALUE *)ret) = value; return FALSE; } int DEBUG_set_value(const char *sym, int len, VALUE *value) { int i; LOCAL_SYMBOL *lp; GLOBAL_SYMBOL *gp; CLASS_VAR *var; char *addr; VALUE *where; bool ret = GB_DEBUG_SET_OK; TRY { if (DEBUG_info->fp) { for (i = 0; i < DEBUG_info->fp->debug->n_local; i++) { lp = &DEBUG_info->fp->debug->local[i]; if (len == lp->sym.len && strncasecmp(sym, lp->sym.name, len) == 0) { where = &DEBUG_info->bp[lp->value]; VALUE_conv(value, where->type); RELEASE(where); *where = *value; BORROW(where); goto __FOUND; } } } if (DEBUG_info->cp) { for (i = 0; i < DEBUG_info->cp->load->n_global; i++) { gp = &DEBUG_info->cp->load->global[i]; if (len != gp->sym.len || strncasecmp(sym, gp->sym.name, len) != 0) continue; if (CTYPE_get_kind(gp->ctype) == TK_VARIABLE) { if (!CTYPE_is_static(gp->ctype) && DEBUG_info->op) { var = &DEBUG_info->cp->load->dyn[gp->value]; addr = (char *)DEBUG_info->op + var->pos; } else { var = &DEBUG_info->cp->load->stat[gp->value]; addr = (char *)DEBUG_info->cp->stat + var->pos; } VALUE_class_write(DEBUG_info->cp, value, addr, var->type); goto __FOUND; } } } ret = GB_DEBUG_SET_READ_ONLY; __FOUND: 0; } CATCH { ret = GB_DEBUG_SET_ERROR; EXEC_set_native_error(TRUE); } END_TRY return ret; } int DEBUG_get_object_access_type(void *object, CLASS *class, int *count) { CLASS_DESC *desc; CLASS_DESC_METHOD *dm; char type; int access = GB_DEBUG_ACCESS_NORMAL; //fprintf(stderr, "DEBUG_can_be_used_like_an_array: %p %s ?\n", object, class->name); if (!object) goto __NORMAL; if (class == CLASS_Class || OBJECT_is_class(object)) { class = (CLASS *)object; object = NULL; CLASS_load(class); } dm = CLASS_get_special_desc(class, SPEC_GET); if (!dm) { //fprintf(stderr, "No _get method\n"); goto __NORMAL; } if (dm->npmin != 1 || dm->npmax != 1) { //fprintf(stderr, "No _get(Arg AS Integer) method\n"); goto __NORMAL; } if (*dm->signature == T_INTEGER) access = GB_DEBUG_ACCESS_ARRAY; else if (*dm->signature == T_STRING) access = GB_DEBUG_ACCESS_COLLECTION; else goto __NORMAL; desc = CLASS_get_symbol_desc(class, "Count"); if (!desc) goto __NORMAL; type = CLASS_DESC_get_type(desc); // The two only possible cases: // A static read-only property, and object == NULL // or a dynamic read-only property, and object != NULL if (!((type == 'r' && object) || (type == 'R' && !object))) goto __NORMAL; TRY { if (desc->property.native) { if (EXEC_call_native(desc->property.read, object, desc->property.type, 0)) access = GB_DEBUG_ACCESS_NORMAL; } else { EXEC.class = desc->property.class; EXEC.object = object; EXEC.nparam = 0; EXEC.native = FALSE; EXEC.index = (int)(intptr_t)desc->property.read; //EXEC.func = &class->load->func[(int)desc->property.read]; EXEC_function_keep(); TEMP = *RP; UNBORROW(RP); RP->type = T_VOID; } if (access != GB_DEBUG_ACCESS_NORMAL) { VALUE_conv_integer(&TEMP); *count = TEMP._integer.value; } } CATCH { access = GB_DEBUG_ACCESS_NORMAL; } END_TRY // For collection-like objects, check _next and Key property if (access == GB_DEBUG_ACCESS_COLLECTION) { dm = CLASS_get_special_desc(class, SPEC_NEXT); if (!dm) goto __NORMAL; desc = CLASS_get_symbol_desc(class, "Key"); if (!desc || CLASS_DESC_get_type(desc) != type) goto __NORMAL; } return access; __NORMAL: return GB_DEBUG_ACCESS_NORMAL; } void DEBUG_print_backtrace(STACK_BACKTRACE *bt) { int i, n; bool stop; STACK_BACKTRACE *NO_WARNING(end); //STACK_CONTEXT *sc = (STACK_CONTEXT *)(STACK_base + STACK_size) - err->bt_count; //fprintf(stderr, "0: %s\n", DEBUG_get_position(err->cp, err->fp, err->pc)); for (i = 0, n = 0, stop = FALSE; !stop; i++) { //fprintf(stderr, "%d: %s\n", i, DEBUG_get_position(bt[i].cp, bt[i].fp, bt[i].pc)); if (STACK_backtrace_is_end(&bt[i])) { stop = TRUE; end = &bt[i]; STACK_backtrace_clear_end(end); } if (bt[i].pc) { n++; fprintf(stderr, "%d: %s\n", n, DEBUG_get_position(bt[i].cp, bt[i].fp, bt[i].pc)); } } STACK_backtrace_set_end(end); } void DEBUG_print_current_backtrace(void) { STACK_BACKTRACE *bt = STACK_get_backtrace(); if (bt) { DEBUG_print_backtrace(bt); STACK_free_backtrace(&bt); } } GB_ARRAY DEBUG_get_string_array_from_backtrace(STACK_BACKTRACE *bt) { GB_ARRAY array; int i, n, size; STACK_BACKTRACE *end; for (i = 0, size = 0;; i++) { if (bt[i].pc) size++; if (STACK_backtrace_is_end(&bt[i])) { end = &bt[i]; STACK_backtrace_clear_end(end); break; } } GB_ArrayNew(&array, GB_T_STRING, size); //*((char **)GB_ArrayGet(array, 0)) = STRING_new_zero(DEBUG_get_position(err->cp, err->fp, err->pc)); for (i = 0, n = 0; n < size; i++) { if (!bt[i].pc) continue; *((char **)GB_ArrayGet(array, n)) = STRING_new_zero(DEBUG_get_position(bt[i].cp, bt[i].fp, bt[i].pc)); n++; } STACK_backtrace_set_end(end); return array; } GB_CLASS DEBUG_find_class(const char *name) { CLASS *class; CLASS *save = CP; // As the startup class is automatically exported, this is the only way for the debugger to find it. if (PROJECT_class && !strcmp(name, PROJECT_class->name)) return (GB_CLASS)PROJECT_class; CP = NULL; class = CLASS_find(name); CP = save; return (GB_CLASS)class; } void DEBUG_enum_keys(void *object, char **key) { static CLASS_DESC *desc; static CENUM *cenum = NULL; CENUM *old; CLASS *class; bool err = FALSE; char *str; int len; old = EXEC_enum; class = OBJECT_class(object); if (class == CLASS_Class) { class = (CLASS *)object; object = NULL; } TRY { if (!cenum) { desc = CLASS_get_symbol_desc(class, "Key"); cenum = CENUM_create(object ? object : class); EXEC_enum = cenum; EXEC_special(SPEC_FIRST, class, object, 0, TRUE); EXEC_enum = old; if (cenum->stop) { err = TRUE; goto __END; } } EXEC_enum = cenum; err = EXEC_special(SPEC_NEXT, class, object, 0, TRUE); EXEC_enum = old; if (err || cenum->stop) { err = TRUE; goto __END; } if (desc->property.native) { EXEC_call_native(desc->property.read, object, desc->property.type, 0); SUBR_get_string_len(&TEMP, &str, &len); } else { EXEC.class = desc->property.class; EXEC.object = object; EXEC.nparam = 0; EXEC.native = FALSE; EXEC.index = (int)(intptr_t)desc->property.read; EXEC_function_keep(); SUBR_get_string_len(RP, &str, &len); } STRING_free(key); *key = STRING_new(str, len); __END: if (err) { OBJECT_UNREF(cenum, "DEBUG_enum_keys"); STRING_free(key); } } CATCH { OBJECT_UNREF(cenum, "DEBUG_enum_keys"); STRING_free(key); } END_TRY }