X-Git-Url: http://info.iut-bm.univ-fcomte.fr/pub/gitweb/simgrid.git/blobdiff_plain/859be56ee4794f262b79665d2caa32664e52cbed..b53d4ab74ae9c8c50b84f8efd9c96a82653ee8d9:/src/mc/mc_dwarf.c diff --git a/src/mc/mc_dwarf.c b/src/mc/mc_dwarf.c index f646d51bf8..74db12ddb8 100644 --- a/src/mc/mc_dwarf.c +++ b/src/mc/mc_dwarf.c @@ -183,6 +183,13 @@ static mc_tag_class MC_dwarf_tag_classify(int tag) { #define MC_DW_CLASS_MACPTR 9 #define MC_DW_CLASS_RANGELISTPTR 10 +/** \brief Find the DWARF data class for a given DWARF data form + * + * This mapping is defined in the DWARF spec. + * + * \param form The form (values taken from the DWARF spec) + * \return An internal representation for the corresponding class + * */ static int MC_dwarf_form_get_class(int form) { switch(form) { case DW_FORM_addr: @@ -234,11 +241,11 @@ static inline const char* MC_dwarf_die_tagname(Dwarf_Die* die) { /** \brief Get an attribute of a given DIE as a string * - * \param the DIE + * \param die the DIE * \param attribute attribute * \return value of the given attribute of the given DIE */ -static const char* MC_dwarf_attr_string(Dwarf_Die* die, int attribute) { +static const char* MC_dwarf_attr_integrate_string(Dwarf_Die* die, int attribute) { Dwarf_Attribute attr; if (!dwarf_attr_integrate(die, attribute, &attr)) { return NULL; @@ -249,18 +256,26 @@ static const char* MC_dwarf_attr_string(Dwarf_Die* die, int attribute) { /** \brief Get the linkage name of a DIE. * - * Use either DW_AT_linkage_name or DW_AR_MIPS_linkage_name. + * Use either DW_AT_linkage_name or DW_AT_MIPS_linkage_name. + * DW_AT_linkage_name is standardized since DWARF 4. + * Before this version of DWARF, the MIPS extensions + * DW_AT_MIPS_linkage_name is used (at least by GCC). * - * \param DIE + * \param the DIE * \return linkage name of the given DIE (or NULL) * */ static const char* MC_dwarf_at_linkage_name(Dwarf_Die* die) { - const char* name = MC_dwarf_attr_string(die, DW_AT_linkage_name); + const char* name = MC_dwarf_attr_integrate_string(die, DW_AT_linkage_name); if (!name) - name = MC_dwarf_attr_string(die, DW_AT_MIPS_linkage_name); + name = MC_dwarf_attr_integrate_string(die, DW_AT_MIPS_linkage_name); return name; } +/** \brief Find the type/subtype (DW_AT_type) for a DIE + * + * \param dit the DIE + * \return DW_AT_type reference as a global offset in hexadecimal (or NULL) + */ static char* MC_dwarf_at_type(Dwarf_Die* die) { Dwarf_Attribute attr; if (dwarf_hasattr_integrate(die, DW_AT_type)) { @@ -275,7 +290,7 @@ static char* MC_dwarf_at_type(Dwarf_Die* die) { else return NULL; } -static uint64_t MC_dwarf_attr_addr(Dwarf_Die* die, int attribute) { +static uint64_t MC_dwarf_attr_integrate_addr(Dwarf_Die* die, int attribute) { Dwarf_Attribute attr; if(dwarf_attr_integrate(die, attribute, &attr)==NULL) return 0; @@ -286,7 +301,7 @@ static uint64_t MC_dwarf_attr_addr(Dwarf_Die* die, int attribute) { return 0; } -static uint64_t MC_dwarf_attr_uint(Dwarf_Die* die, int attribute, uint64_t default_value) { +static uint64_t MC_dwarf_attr_integrate_uint(Dwarf_Die* die, int attribute, uint64_t default_value) { Dwarf_Attribute attr; if (dwarf_attr_integrate(die, attribute, &attr)==NULL) return default_value; @@ -294,7 +309,7 @@ static uint64_t MC_dwarf_attr_uint(Dwarf_Die* die, int attribute, uint64_t defau return dwarf_formudata(dwarf_attr_integrate(die, attribute, &attr), &value) == 0 ? (uint64_t) value : default_value; } -static bool MC_dwarf_attr_flag(Dwarf_Die* die, int attribute, int integrate) { +static bool MC_dwarf_attr_flag(Dwarf_Die* die, int attribute, bool integrate) { Dwarf_Attribute attr; if ((integrate ? dwarf_attr_integrate(die, attribute, &attr) : dwarf_attr(die, attribute, &attr))==0) @@ -307,6 +322,14 @@ static bool MC_dwarf_attr_flag(Dwarf_Die* die, int attribute, int integrate) { return result; } +/** \brief Find the default lower bound for a given language + * + * The default lower bound of an array (when DW_TAG_lower_bound + * is missing) depends on the language of the compilation unit. + * + * \param lang Language of the compilation unit (values defined in the DWARF spec) + * \return Default lower bound of an array in this compilation unit + * */ static uint64_t MC_dwarf_default_lower_bound(int lang) { switch(lang) { case DW_LANG_C: @@ -332,18 +355,24 @@ static uint64_t MC_dwarf_default_lower_bound(int lang) { case DW_LANG_Cobol85: return 1; default: - xbt_die("No default MT_TAG_lower_bound for language %i and none given", lang); + xbt_die("No default DW_TAG_lower_bound for language %i and none given", lang); return 0; } } +/** \brief Finds the number of elements in a DW_TAG_subrange_type or DW_TAG_enumeration_type DIE + * + * \param die the DIE + * \param unit DIE of the compilation unit + * \return number of elements in the range + * */ static uint64_t MC_dwarf_subrange_element_count(Dwarf_Die* die, Dwarf_Die* unit) { xbt_assert(dwarf_tag(die)==DW_TAG_enumeration_type ||dwarf_tag(die)==DW_TAG_subrange_type, "MC_dwarf_subrange_element_count called with DIE of type %s", MC_dwarf_die_tagname(die)); // Use DW_TAG_count if present: if (dwarf_hasattr_integrate(die, DW_AT_count)) { - return MC_dwarf_attr_uint(die, DW_AT_count, 0); + return MC_dwarf_attr_integrate_uint(die, DW_AT_count, 0); } // Otherwise compute DW_TAG_upper_bound-DW_TAG_lower_bound + 1: @@ -352,17 +381,26 @@ static uint64_t MC_dwarf_subrange_element_count(Dwarf_Die* die, Dwarf_Die* unit) // This is not really 0, but the code expects this (we do not know): return 0; } - uint64_t upper_bound = MC_dwarf_attr_uint(die, DW_AT_upper_bound, -1); + uint64_t upper_bound = MC_dwarf_attr_integrate_uint(die, DW_AT_upper_bound, -1); uint64_t lower_bound = 0; if (dwarf_hasattr_integrate(die, DW_AT_lower_bound)) { - lower_bound = MC_dwarf_attr_uint(die, DW_AT_lower_bound, -1); + lower_bound = MC_dwarf_attr_integrate_uint(die, DW_AT_lower_bound, -1); } else { lower_bound = MC_dwarf_default_lower_bound(dwarf_srclang(unit)); } return upper_bound - lower_bound + 1; } +/** \brief Finds the number of elements in a array type (DW_TAG_array_type) + * + * The compilation unit might be needed because the default lower + * bound depends on the language of the compilation unit. + * + * \param die the DIE of the DW_TAG_array_type + * \param unit the DIE of the compilation unit + * \return number of elements in this array type + * */ static uint64_t MC_dwarf_array_element_count(Dwarf_Die* die, Dwarf_Die* unit) { xbt_assert(dwarf_tag(die)==DW_TAG_array_type, "MC_dwarf_array_element_count called with DIE of type %s", MC_dwarf_die_tagname(die)); @@ -381,6 +419,13 @@ static uint64_t MC_dwarf_array_element_count(Dwarf_Die* die, Dwarf_Die* unit) { // ***** dw_type_t +/** \brief Initialize the location of a member of a type + * (DW_AT_data_member_location of a DW_TAG_member). + * + * \param type a type (struct, class) + * \param member the member of the type + * \param child DIE of the member (DW_TAG_member) + */ static void MC_dwarf_fill_member_location(dw_type_t type, dw_type_t member, Dwarf_Die* child) { if (dwarf_hasattr(child, DW_AT_data_bit_offset)) { xbt_die("Can't groke DW_AT_data_bit_offset."); @@ -410,7 +455,7 @@ static void MC_dwarf_fill_member_location(dw_type_t type, dw_type_t member, Dwar if (dwarf_getlocation(&attr, &expr, &len)) { xbt_die( "Could not read location expression DW_AT_data_member_location in DW_TAG_member %s of type <%p>%s", - MC_dwarf_attr_string(child, DW_AT_name), + MC_dwarf_attr_integrate_string(child, DW_AT_name), type->id, type->name); } if (len==1 && expr[0].atom == DW_OP_plus_uconst) { @@ -428,7 +473,7 @@ static void MC_dwarf_fill_member_location(dw_type_t type, dw_type_t member, Dwar member->offset = offset; else xbt_die("Cannot get %s location <%p>%s", - MC_dwarf_attr_string(child, DW_AT_name), + MC_dwarf_attr_integrate_string(child, DW_AT_name), type->id, type->name); break; } @@ -446,13 +491,25 @@ static void MC_dwarf_fill_member_location(dw_type_t type, dw_type_t member, Dwar } +static void dw_type_free_voidp(void *t){ + dw_type_free((dw_type_t) * (void **) t); +} + +/** \brief Populate the list of members of a type + * + * \param info ELF object containing the type DIE + * \param die DIE of the type + * \param unit DIE of the compilation unit containing the type DIE + * \param type the type + */ static void MC_dwarf_add_members(mc_object_info_t info, Dwarf_Die* die, Dwarf_Die* unit, dw_type_t type) { int res; Dwarf_Die child; xbt_assert(!type->members); - type->members = xbt_dynar_new(sizeof(dw_type_t), (void(*)(void*))dw_type_free); + type->members = xbt_dynar_new(sizeof(dw_type_t), (void(*)(void*))dw_type_free_voidp); for (res=dwarf_child(die, &child); res==0; res=dwarf_siblingof(&child,&child)) { - if (dwarf_tag(&child)==DW_TAG_member) { + int tag = dwarf_tag(&child); + if (tag==DW_TAG_member || tag==DW_TAG_inheritance) { // Skip declarations: if (MC_dwarf_attr_flag(&child, DW_AT_declaration, false)) @@ -464,16 +521,18 @@ static void MC_dwarf_add_members(mc_object_info_t info, Dwarf_Die* die, Dwarf_Di // TODO, we should use another type (because is is not a type but a member) dw_type_t member = xbt_new0(s_dw_type_t, 1); - member->type = -1; - member->id = NULL; + member->type = tag; - const char* name = MC_dwarf_attr_string(&child, DW_AT_name); + // Global Offset: + member->id = (void *) dwarf_dieoffset(&child); + + const char* name = MC_dwarf_attr_integrate_string(&child, DW_AT_name); if(name) member->name = xbt_strdup(name); else member->name = NULL; - member->byte_size = MC_dwarf_attr_uint(&child, DW_AT_byte_size, 0); + member->byte_size = MC_dwarf_attr_integrate_uint(&child, DW_AT_byte_size, 0); member->element_count = -1; member->dw_type_id = MC_dwarf_at_type(&child); member->members = NULL; @@ -535,7 +594,7 @@ static dw_type_t MC_dwarf_die_to_type(mc_object_info_t info, Dwarf_Die* die, Dwa prefix = ""; } - const char* name = MC_dwarf_attr_string(die, DW_AT_name); + const char* name = MC_dwarf_attr_integrate_string(die, DW_AT_name); if (name!=NULL) { type->name = namespace ? bprintf("%s%s::%s", prefix, namespace, name) : bprintf("%s%s", prefix, name); } @@ -546,7 +605,7 @@ static dw_type_t MC_dwarf_die_to_type(mc_object_info_t info, Dwarf_Die* die, Dwa // Computation of the byte_size; if (dwarf_hasattr_integrate(die, DW_AT_byte_size)) - type->byte_size = MC_dwarf_attr_uint(die, DW_AT_byte_size, 0); + type->byte_size = MC_dwarf_attr_integrate_uint(die, DW_AT_byte_size, 0); else if (type->type == DW_TAG_array_type || type->type==DW_TAG_structure_type || type->type==DW_TAG_class_type) { Dwarf_Word size; if (dwarf_aggregate_size(die, &size)==0) { @@ -612,7 +671,7 @@ static dw_variable_t MC_die_to_variable(mc_object_info_t info, Dwarf_Die* die, D variable->dwarf_offset = dwarf_dieoffset(die); variable->global = frame == NULL; // Can be override base on DW_AT_location - const char* name = MC_dwarf_attr_string(die, DW_AT_name); + const char* name = MC_dwarf_attr_integrate_string(die, DW_AT_name); variable->name = xbt_strdup(name); variable->type_origin = MC_dwarf_at_type(die); @@ -701,22 +760,11 @@ static void MC_dwarf_handle_subprogram_die(mc_object_info_t info, Dwarf_Die* die if (MC_dwarf_attr_flag(die, DW_AT_declaration, false)) return; - // Abstract inline instance (DW_AT_inline != DW_INL_not_inlined): - if (dwarf_func_inline(die)) - return; - - // This is probably not a concrete instance: - // DWARF2/3 and DWARF4 do not agree on the meaning of DW_INL_not_inlined. - // For DWARF2/3, the subprogram is abstract. - // For DARF4, the subprogram is not abstract. - if(!dwarf_hasattr_integrate(die, DW_AT_low_pc)) - return; - dw_frame_t frame = xbt_new0(s_dw_frame_t, 1); frame->start = dwarf_dieoffset(die); - const char* name = MC_dwarf_attr_string(die, DW_AT_name); + const char* name = MC_dwarf_attr_integrate_string(die, DW_AT_name); frame->name = namespace ? bprintf("%s::%s", namespace, name) : xbt_strdup(name); // This is the base address for DWARF addresses. @@ -726,21 +774,18 @@ static void MC_dwarf_handle_subprogram_die(mc_object_info_t info, Dwarf_Die* die // Variables are filled in the (recursive) call of MC_dwarf_handle_children: frame->variables = xbt_dynar_new(sizeof(dw_variable_t), dw_variable_free_voidp); - frame->high_pc = ((char*) base) + MC_dwarf_attr_addr(die, DW_AT_high_pc); - frame->low_pc = ((char*) base) + MC_dwarf_attr_addr(die, DW_AT_low_pc); - - if(frame->high_pc==0 || frame->low_pc==0) - xbt_die("Could not resolve highpc/lowpc"); + frame->high_pc = ((char*) base) + MC_dwarf_attr_integrate_addr(die, DW_AT_high_pc); + frame->low_pc = ((char*) base) + MC_dwarf_attr_integrate_addr(die, DW_AT_low_pc); Dwarf_Attribute attr_frame_base; - if (!dwarf_attr_integrate(die, DW_AT_frame_base, &attr_frame_base)) - xbt_die("Coult not find DW_AT_frame_base for subprogram %s 0x%lx", frame->name, frame->start); - mc_dwarf_location_list_init(&frame->frame_base, info, die, &attr_frame_base); + if (dwarf_attr_integrate(die, DW_AT_frame_base, &attr_frame_base)) + mc_dwarf_location_list_init(&frame->frame_base, info, die, &attr_frame_base); frame->end = -1; // This one is now useless: // Register it: - xbt_dynar_push(info->subprograms, &frame); + const char* key = bprintf("%" PRIx64, (uint64_t) frame->start); + xbt_dict_set(info->subprograms, key, frame, NULL); // Handle children: MC_dwarf_handle_children(info, die, unit, frame, namespace); @@ -748,7 +793,7 @@ static void MC_dwarf_handle_subprogram_die(mc_object_info_t info, Dwarf_Die* die static void mc_dwarf_handle_namespace_die( mc_object_info_t info, Dwarf_Die* die, Dwarf_Die* unit, dw_frame_t frame, const char* namespace) { - const char* name = MC_dwarf_attr_string(die, DW_AT_name); + const char* name = MC_dwarf_attr_integrate_string(die, DW_AT_name); if(frame) xbt_die("Unexpected namespace in a subprogram"); char* new_namespace = namespace == NULL ? xbt_strdup(name) @@ -757,6 +802,7 @@ static void mc_dwarf_handle_namespace_die( } static void MC_dwarf_handle_children(mc_object_info_t info, Dwarf_Die* die, Dwarf_Die* unit, dw_frame_t frame, const char* namespace) { + // For each child DIE: Dwarf_Die child; int res; for (res=dwarf_child(die, &child); res==0; res=dwarf_siblingof(&child,&child)) { @@ -799,6 +845,11 @@ static void MC_dwarf_handle_die(mc_object_info_t info, Dwarf_Die* die, Dwarf_Die } } +/** \brief Populate the debugging informations of the given ELF object + * + * Read the DWARf information of the EFFL object and populate the + * lists of types, variables, functions. + */ void MC_dwarf_get_variables(mc_object_info_t info) { int fd = open(info->file_name, O_RDONLY); if (fd<0) { @@ -809,18 +860,21 @@ void MC_dwarf_get_variables(mc_object_info_t info) { xbt_die("Your program must be compiled with -g"); } + // For each compilation unit: Dwarf_Off offset = 0; Dwarf_Off next_offset = 0; size_t length; while (dwarf_nextcu (dwarf, offset, &next_offset, &length, NULL, NULL, NULL) == 0) { Dwarf_Die unit_die; - if(dwarf_offdie(dwarf, offset+length, &unit_die)!=NULL) { + + // For each child DIE: Dwarf_Die child; int res; for (res=dwarf_child(&unit_die, &child); res==0; res=dwarf_siblingof(&child,&child)) { MC_dwarf_handle_die(info, &child, &unit_die, NULL, NULL); } + } offset = next_offset; }