#ifndef _DWARVES_H_ #define _DWARVES_H_ 1 /* Copyright (C) 2006 Mandriva Conectiva S.A. Copyright (C) 2006..2009 Arnaldo Carvalho de Melo This program is free software; you can redistribute it and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation. */ #include #include #include #include #include #include "dutil.h" #include "list.h" #include "rbtree.h" #include "strings.h" struct cu; enum load_steal_kind { LSK__KEEPIT, LSK__STOLEN, LSK__STOP_LOADING, }; /** struct conf_load - load configuration * @extra_dbg_info - keep original debugging format extra info * (e.g. DWARF's decl_{line,file}, id, etc) * @fixup_silly_bitfields - Fixup silly things such as "int foo:32;" * @get_addr_info - wheter to load DW_AT_location and other addr info */ struct conf_load { enum load_steal_kind (*steal)(struct cu *self, struct conf_load *conf); void *cookie; char *format_path; bool extra_dbg_info; bool fixup_silly_bitfields; bool get_addr_info; }; /** struct conf_fprintf - hints to the __fprintf routines * * @flat_arrays - a->foo[10][2] becomes a->foo[20] */ struct conf_fprintf { const char *prefix; const char *suffix; int32_t type_spacing; int32_t name_spacing; uint32_t base_offset; uint8_t indent; uint8_t expand_types:1; uint8_t expand_pointers:1; uint8_t rel_offset:1; uint8_t emit_stats:1; uint8_t suppress_comments:1; uint8_t suppress_offset_comment:1; uint8_t show_decl_info:1; uint8_t show_only_data_members:1; uint8_t no_semicolon:1; uint8_t show_first_biggest_size_base_type_member:1; uint8_t flat_arrays:1; uint8_t no_parm_names:1; }; struct cus { struct list_head cus; }; struct cus *cus__new(void); void cus__delete(struct cus *self); int cus__load_file(struct cus *self, struct conf_load *conf, const char *filename); int cus__load_files(struct cus *self, struct conf_load *conf, char *filenames[]); int cus__load_dir(struct cus *self, struct conf_load *conf, const char *dirname, const char *filename_mask, const int recursive); void cus__add(struct cus *self, struct cu *cu); void cus__print_error_msg(const char *progname, const struct cus *cus, const char *filename, const int err); struct cu *cus__find_cu_by_name(const struct cus *self, const char *name); struct tag *cus__find_struct_by_name(const struct cus *self, struct cu **cu, const char *name, const int include_decls, uint16_t *id); struct function *cus__find_function_at_addr(const struct cus *self, uint64_t addr, struct cu **cu); void cus__for_each_cu(struct cus *self, int (*iterator)(struct cu *cu, void *cookie), void *cookie, struct cu *(*filter)(struct cu *cu)); struct ptr_table { void **entries; uint32_t nr_entries; uint32_t allocated_entries; }; struct function; struct tag; struct cu; struct variable; /* Same as DW_LANG, so that we don't have to include dwarf.h in CTF */ enum dwarf_languages { LANG_C89 = 0x01, /* ISO C:1989 */ LANG_C = 0x02, /* C */ LANG_Ada83 = 0x03, /* ISO Ada:1983 */ LANG_C_plus_plus = 0x04, /* ISO C++:1998 */ LANG_Cobol74 = 0x05, /* ISO Cobol:1974 */ LANG_Cobol85 = 0x06, /* ISO Cobol:1985 */ LANG_Fortran77 = 0x07, /* ISO FORTRAN 77 */ LANG_Fortran90 = 0x08, /* ISO Fortran 90 */ LANG_Pascal83 = 0x09, /* ISO Pascal:1983 */ LANG_Modula2 = 0x0a, /* ISO Modula-2:1996 */ LANG_Java = 0x0b, /* Java */ LANG_C99 = 0x0c, /* ISO C:1999 */ LANG_Ada95 = 0x0d, /* ISO Ada:1995 */ LANG_Fortran95 = 0x0e, /* ISO Fortran 95 */ LANG_PL1 = 0x0f, /* ISO PL/1:1976 */ LANG_Objc = 0x10, /* Objective-C */ LANG_ObjC_plus_plus = 0x11, /* Objective-C++ */ LANG_UPC = 0x12, /* Unified Parallel C */ LANG_D = 0x13, /* D */ }; /** struct debug_fmt_ops - specific to the underlying debug file format * * @function__name - will be called by function__name(), giving a chance to * formats such as CTF to get this from some other place * than the global strings table. CTF does this by storing * GElf_Sym->st_name in function->name, and by using * function->name as an index into the .strtab ELF section. * @variable__name - will be called by variable__name(), see @function_name * cu__delete - called at cu__delete(), to give a chance to formats such as * CTF to keep the .strstab ELF section available till the cu is * deleted. See @function__name */ struct debug_fmt_ops { const char *name; int (*init)(void); void (*exit)(void); int (*load_file)(struct cus *self, struct conf_load *conf, const char *filename); const char *(*tag__decl_file)(const struct tag *self, const struct cu *cu); uint32_t (*tag__decl_line)(const struct tag *self, const struct cu *cu); unsigned long long (*tag__orig_id)(const struct tag *self, const struct cu *cu); unsigned long long (*tag__orig_type)(const struct tag *self, const struct cu *cu); void (*tag__free_orig_info)(struct tag *self, struct cu *cu); const char *(*function__name)(struct function *self, const struct cu *cu); const char *(*variable__name)(const struct variable *self, const struct cu *cu); const char *(*strings__ptr)(const struct cu *self, strings_t s); void (*cu__delete)(struct cu *self); }; struct cu { struct list_head node; struct list_head tags; struct list_head tool_list; /* To be used by tools such as ctracer */ struct ptr_table types_table; struct ptr_table functions_table; struct ptr_table tags_table; struct rb_root functions; char *name; char *filename; void *priv; struct obstack obstack; struct debug_fmt_ops *dfops; Elf *elf; Dwfl_Module *dwfl; uint32_t cached_symtab_nr_entries; uint8_t addr_size; uint8_t extra_dbg_info:1; uint8_t has_addr_info:1; uint8_t uses_global_strings:1; uint16_t language; unsigned long nr_inline_expansions; size_t size_inline_expansions; uint32_t nr_functions_changed; uint32_t nr_structures_changed; size_t max_len_changed_item; size_t function_bytes_added; size_t function_bytes_removed; int build_id_len; unsigned char build_id[0]; }; struct cu *cu__new(const char *name, uint8_t addr_size, const unsigned char *build_id, int build_id_len, const char *filename); void cu__delete(struct cu *self); const char *cu__string(const struct cu *self, strings_t s); static inline void cu__cache_symtab(struct cu *self) { self->cached_symtab_nr_entries = dwfl_module_getsymtab(self->dwfl); } static inline __pure bool cu__is_c_plus_plus(const struct cu *self) { return self->language == LANG_C_plus_plus; } /** * cu__for_each_cached_symtab_entry - iterate thru the cached symtab entries * @cu: struct cu instance * @id: uint32_t tag id * @pos: struct GElf_Sym iterator * @name: char pointer where the symbol_name will be stored */ #define cu__for_each_cached_symtab_entry(cu, id, pos, name) \ for (id = 1, \ name = dwfl_module_getsym(cu->dwfl, id, &sym, NULL); \ id < cu->cached_symtab_nr_entries; \ ++id, name = dwfl_module_getsym(cu->dwfl, id, &sym, NULL)) /** * cu__for_each_type - iterate thru all the type tags * @cu: struct cu instance to iterate * @id: uint16_t tag id * @pos: struct tag iterator * * See cu__table_nullify_type_entry and users for the reason for * the NULL test (hint: CTF Unknown types) */ #define cu__for_each_type(cu, id, pos) \ for (id = 1; id < cu->types_table.nr_entries; ++id) \ if (!(pos = cu->types_table.entries[id])) \ continue; \ else /** * cu__for_each_struct - iterate thru all the struct tags * @cu: struct cu instance to iterate * @pos: struct class iterator * @id: uint16_t tag id */ #define cu__for_each_struct(cu, id, pos) \ for (id = 1; id < cu->types_table.nr_entries; ++id) \ if (!(pos = tag__class(cu->types_table.entries[id])) || \ !tag__is_struct(class__tag(pos))) \ continue; \ else /** * cu__for_each_function - iterate thru all the function tags * @cu: struct cu instance to iterate * @pos: struct function iterator * @id: uint32_t tag id */ #define cu__for_each_function(cu, id, pos) \ for (id = 0; id < cu->functions_table.nr_entries; ++id) \ if (!(pos = tag__function(cu->functions_table.entries[id]))) \ continue; \ else /** * cu__for_each_variable - iterate thru all the global variable tags * @cu: struct cu instance to iterate * @pos: struct tag iterator * @id: uint32_t tag id */ #define cu__for_each_variable(cu, id, pos) \ for (id = 0; id < cu->tags_table.nr_entries; ++id) \ if (!(pos = cu->tags_table.entries[id]) || \ !tag__is_variable(pos)) \ continue; \ else int cu__add_tag(struct cu *self, struct tag *tag, long *id); int cu__table_add_tag(struct cu *self, struct tag *tag, long *id); int cu__table_nullify_type_entry(struct cu *self, uint32_t id); struct tag *cu__find_base_type_by_name(const struct cu *self, const char *name, uint16_t *id); struct tag *cu__find_base_type_by_sname_and_size(const struct cu *self, strings_t name, uint16_t bit_size, uint16_t *idp); struct tag *cu__find_enumeration_by_sname_and_size(const struct cu *self, strings_t sname, uint16_t bit_size, uint16_t *idp); struct tag *cu__find_first_typedef_of_type(const struct cu *self, const uint16_t type); struct tag *cu__find_function_by_name(const struct cu *cu, const char *name); struct tag *cu__find_struct_by_sname(const struct cu *self, strings_t sname, const int include_decls, uint16_t *idp); struct function *cu__find_function_at_addr(const struct cu *self, uint64_t addr); struct tag *cu__function(const struct cu *self, const uint32_t id); struct tag *cu__tag(const struct cu *self, const uint32_t id); struct tag *cu__type(const struct cu *self, const uint16_t id); struct tag *cu__find_struct_by_name(const struct cu *cu, const char *name, const int include_decls, uint16_t *id); bool cu__same_build_id(const struct cu *self, const struct cu *other); void cu__account_inline_expansions(struct cu *self); int cu__for_all_tags(struct cu *self, int (*iterator)(struct tag *tag, struct cu *cu, void *cookie), void *cookie); /** struct tag - basic representation of a debug info element * @priv - extra data, for instance, DWARF offset, id, decl_{file,line} * @top_level - */ struct tag { struct list_head node; uint16_t type; uint16_t tag; uint16_t visited:1; uint16_t top_level:1; uint16_t recursivity_level; void *priv; }; void tag__delete(struct tag *self, struct cu *cu); static inline int tag__is_enumeration(const struct tag *self) { return self->tag == DW_TAG_enumeration_type; } static inline int tag__is_namespace(const struct tag *self) { return self->tag == DW_TAG_namespace; } static inline int tag__is_struct(const struct tag *self) { return self->tag == DW_TAG_structure_type || self->tag == DW_TAG_interface_type || self->tag == DW_TAG_class_type; } static inline int tag__is_typedef(const struct tag *self) { return self->tag == DW_TAG_typedef; } static inline int tag__is_union(const struct tag *self) { return self->tag == DW_TAG_union_type; } static inline int tag__is_const(const struct tag *self) { return self->tag == DW_TAG_const_type; } static inline bool tag__is_variable(const struct tag *self) { return self->tag == DW_TAG_variable; } static inline bool tag__is_volatile(const struct tag *self) { return self->tag == DW_TAG_volatile_type; } static inline bool tag__has_namespace(const struct tag *self) { return tag__is_struct(self) || tag__is_union(self) || tag__is_namespace(self) || tag__is_enumeration(self); } /** * tag__is_tag_type - is this tag derived from the 'type' class? * @tag - tag queried */ static inline int tag__is_type(const struct tag *self) { return tag__is_union(self) || tag__is_struct(self) || tag__is_typedef(self) || tag__is_enumeration(self); } /** * tag__is_tag_type - is this one of the possible types for a tag? * @tag - tag queried */ static inline int tag__is_tag_type(const struct tag *self) { return tag__is_type(self) || self->tag == DW_TAG_array_type || self->tag == DW_TAG_base_type || self->tag == DW_TAG_const_type || self->tag == DW_TAG_pointer_type || self->tag == DW_TAG_ptr_to_member_type || self->tag == DW_TAG_reference_type || self->tag == DW_TAG_subroutine_type || self->tag == DW_TAG_volatile_type; } static inline const char *tag__decl_file(const struct tag *self, const struct cu *cu) { if (cu->dfops && cu->dfops->tag__decl_file) return cu->dfops->tag__decl_file(self, cu); return NULL; } static inline uint32_t tag__decl_line(const struct tag *self, const struct cu *cu) { if (cu->dfops && cu->dfops->tag__decl_line) return cu->dfops->tag__decl_line(self, cu); return 0; } static inline unsigned long long tag__orig_id(const struct tag *self, const struct cu *cu) { if (cu->dfops && cu->dfops->tag__orig_id) return cu->dfops->tag__orig_id(self, cu); return 0; } static inline unsigned long long tag__orig_type(const struct tag *self, const struct cu *cu) { if (cu->dfops && cu->dfops->tag__orig_type) return cu->dfops->tag__orig_type(self, cu); return 0; } static inline void tag__free_orig_info(struct tag *self, struct cu *cu) { if (cu->dfops && cu->dfops->tag__free_orig_info) cu->dfops->tag__free_orig_info(self, cu); } size_t tag__fprintf_decl_info(const struct tag *self, const struct cu *cu, FILE *fp); size_t tag__fprintf(struct tag *self, const struct cu *cu, const struct conf_fprintf *conf, FILE *fp); const char *tag__name(const struct tag *self, const struct cu *cu, char *bf, size_t len); void tag__not_found_die(const char *file, int line, const char *func); #define tag__assert_search_result(tag) \ do { if (!tag) tag__not_found_die(__FILE__,\ __LINE__, __func__); } while (0) size_t tag__size(const struct tag *self, const struct cu *cu); size_t tag__nr_cachelines(const struct tag *self, const struct cu *cu); struct tag *tag__follow_typedef(const struct tag *tag, const struct cu *cu); size_t __tag__id_not_found_fprintf(FILE *fp, uint16_t id, const char *fn); #define tag__id_not_found_fprintf(fp, id) \ __tag__id_not_found_fprintf(fp, id, __func__) struct ptr_to_member_type { struct tag tag; uint16_t containing_type; }; static inline struct ptr_to_member_type * tag__ptr_to_member_type(const struct tag *self) { return (struct ptr_to_member_type *)self; } /** struct namespace - base class for enums, structs, unions, typedefs, etc * * @sname - for clones, for instance, where we can't always add a new string * @tags - class_member, enumerators, etc * @shared_tags: if this bit is set, don't free the entries in @tags */ struct namespace { struct tag tag; strings_t name; uint16_t nr_tags; uint8_t shared_tags; char * sname; struct list_head tags; }; static inline struct namespace *tag__namespace(const struct tag *self) { return (struct namespace *)self; } void namespace__delete(struct namespace *self, struct cu *cu); /** * namespace__for_each_tag - iterate thru all the tags * @self: struct namespace instance to iterate * @pos: struct tag iterator */ #define namespace__for_each_tag(self, pos) \ list_for_each_entry(pos, &(self)->tags, node) /** * namespace__for_each_tag_safe_reverse - safely iterate thru all the tags, in reverse order * @self: struct namespace instance to iterate * @pos: struct tag iterator * @n: struct class_member temp iterator */ #define namespace__for_each_tag_safe_reverse(self, pos, n) \ list_for_each_entry_safe_reverse(pos, n, &(self)->tags, node) void namespace__add_tag(struct namespace *self, struct tag *tag); struct ip_tag { struct tag tag; uint64_t addr; }; struct inline_expansion { struct ip_tag ip; size_t size; uint64_t high_pc; }; static inline struct inline_expansion * tag__inline_expansion(const struct tag *self) { return (struct inline_expansion *)self; } struct label { struct ip_tag ip; strings_t name; }; static inline struct label *tag__label(const struct tag *self) { return (struct label *)self; } static inline const char *label__name(const struct label *self, const struct cu *cu) { return cu__string(cu, self->name); } enum vlocation { LOCATION_UNKNOWN, LOCATION_LOCAL, LOCATION_GLOBAL, LOCATION_REGISTER, LOCATION_OPTIMIZED } __attribute__((packed)); struct variable { struct ip_tag ip; strings_t name; uint8_t external:1; uint8_t declaration:1; enum vlocation location; struct hlist_node tool_hnode; }; static inline struct variable *tag__variable(const struct tag *self) { return (struct variable *)self; } const char *variable__name(const struct variable *self, const struct cu *cu); const char *variable__type_name(const struct variable *self, const struct cu *cu, char *bf, size_t len); struct lexblock { struct ip_tag ip; struct list_head tags; uint32_t size; uint16_t nr_inline_expansions; uint16_t nr_labels; uint16_t nr_variables; uint16_t nr_lexblocks; uint32_t size_inline_expansions; }; static inline struct lexblock *tag__lexblock(const struct tag *self) { return (struct lexblock *)self; } void lexblock__delete(struct lexblock *self, struct cu *cu); struct function; void lexblock__add_inline_expansion(struct lexblock *self, struct inline_expansion *exp); void lexblock__add_label(struct lexblock *self, struct label *label); void lexblock__add_lexblock(struct lexblock *self, struct lexblock *child); void lexblock__add_tag(struct lexblock *self, struct tag *tag); void lexblock__add_variable(struct lexblock *self, struct variable *var); size_t lexblock__fprintf(const struct lexblock *self, const struct cu *cu, struct function *function, uint16_t indent, const struct conf_fprintf *conf, FILE *fp); struct parameter { struct tag tag; strings_t name; }; static inline struct parameter *tag__parameter(const struct tag *self) { return (struct parameter *)self; } static inline const char *parameter__name(const struct parameter *self, const struct cu *cu) { return cu__string(cu, self->name); } /* * tag.tag can be DW_TAG_subprogram_type or DW_TAG_subroutine_type. */ struct ftype { struct tag tag; struct list_head parms; uint16_t nr_parms; uint8_t unspec_parms; /* just one bit is needed */ }; static inline struct ftype *tag__ftype(const struct tag *self) { return (struct ftype *)self; } void ftype__delete(struct ftype *self, struct cu *cu); /** * ftype__for_each_parameter - iterate thru all the parameters * @self: struct ftype instance to iterate * @pos: struct parameter iterator */ #define ftype__for_each_parameter(self, pos) \ list_for_each_entry(pos, &(self)->parms, tag.node) /** * ftype__for_each_parameter_safe - safely iterate thru all the parameters * @self: struct ftype instance to iterate * @pos: struct parameter iterator * @n: struct parameter temp iterator */ #define ftype__for_each_parameter_safe(self, pos, n) \ list_for_each_entry_safe(pos, n, &(self)->parms, tag.node) /** * ftype__for_each_parameter_safe_reverse - safely iterate thru all the parameters, in reverse order * @self: struct ftype instance to iterate * @pos: struct parameter iterator * @n: struct parameter temp iterator */ #define ftype__for_each_parameter_safe_reverse(self, pos, n) \ list_for_each_entry_safe_reverse(pos, n, &(self)->parms, tag.node) void ftype__add_parameter(struct ftype *self, struct parameter *parm); size_t ftype__fprintf(const struct ftype *self, const struct cu *cu, const char *name, const int inlined, const int is_pointer, const int type_spacing, const struct conf_fprintf *conf, FILE *fp); size_t ftype__fprintf_parms(const struct ftype *self, const struct cu *cu, int indent, const struct conf_fprintf *conf, FILE *fp); int ftype__has_parm_of_type(const struct ftype *self, const uint16_t target, const struct cu *cu); struct function { struct ftype proto; struct lexblock lexblock; struct rb_node rb_node; strings_t name; strings_t linkage_name; uint32_t cu_total_size_inline_expansions; uint16_t cu_total_nr_inline_expansions; uint8_t inlined:2; uint8_t abstract_origin:1; uint8_t external:1; uint8_t accessibility:2; /* DW_ACCESS_{public,protected,private} */ uint8_t virtuality:2; /* DW_VIRTUALITY_{none,virtual,pure_virtual} */ int16_t vtable_entry; struct list_head vtable_node; /* fields used by tools */ union { struct list_head tool_node; struct hlist_node tool_hnode; }; void *priv; }; static inline struct function *tag__function(const struct tag *self) { return (struct function *)self; } static inline struct tag *function__tag(const struct function *self) { return (struct tag *)self; } void function__delete(struct function *self, struct cu *cu); static __pure inline int tag__is_function(const struct tag *self) { return self->tag == DW_TAG_subprogram; } /** * function__for_each_parameter - iterate thru all the parameters * @self: struct function instance to iterate * @pos: struct parameter iterator */ #define function__for_each_parameter(self, pos) \ ftype__for_each_parameter(&self->proto, pos) const char *function__name(struct function *self, const struct cu *cu); size_t function__fprintf_stats(const struct tag *tag_self, const struct cu *cu, const struct conf_fprintf *conf, FILE *fp); const char *function__prototype(const struct function *self, const struct cu *cu, char *bf, size_t len); static __pure inline uint64_t function__addr(const struct function *self) { return self->lexblock.ip.addr; } static __pure inline uint32_t function__size(const struct function *self) { return self->lexblock.size; } static inline int function__declared_inline(const struct function *self) { return (self->inlined == DW_INL_declared_inlined || self->inlined == DW_INL_declared_not_inlined); } static inline int function__inlined(const struct function *self) { return (self->inlined == DW_INL_inlined || self->inlined == DW_INL_declared_inlined); } /* struct class_member - struct, union, class member * * @bit_offset - offset in bits from the start of the struct * @bit_size - cached bit size, can be smaller than the integral type if in a bitfield * @byte_offset - offset in bytes from the start of the struct * @byte_size - cached byte size, integral type byte size for bitfields * @bitfield_offset - offset in the current bitfield * @bitfield_offset - size in the current bitfield * @bit_hole - If there is a bit hole before the next one (or the end of the struct) * @bitfield_end - Is this the last entry in a bitfield? * @accessibility - DW_ACCESS_{public,protected,private} * @virtuality - DW_VIRTUALITY_{none,virtual,pure_virtual} * @hole - If there is a hole before the next one (or the end of the struct) */ struct class_member { struct tag tag; strings_t name; uint32_t bit_offset; uint32_t bit_size; uint32_t byte_offset; size_t byte_size; uint8_t bitfield_offset; uint8_t bitfield_size; uint8_t bit_hole; uint8_t bitfield_end:1; uint8_t visited:1; uint8_t accessibility:2; uint8_t virtuality:2; uint16_t hole; }; void class_member__delete(struct class_member *self, struct cu *cu); static inline struct class_member *tag__class_member(const struct tag *self) { return (struct class_member *)self; } static inline const char *class_member__name(const struct class_member *self, const struct cu *cu) { return cu__string(cu, self->name); } static __pure inline int tag__is_class_member(const struct tag *self) { return self->tag == DW_TAG_member; } /** * struct type - base type for enumerations, structs and unions * * @nr_members: number of DW_TAG_member entries * @nr_tags: number of tags */ struct type { struct namespace namespace; struct list_head node; uint32_t size; int32_t size_diff; uint16_t nr_members; uint8_t declaration; /* only one bit used */ uint8_t definition_emitted:1; uint8_t fwd_decl_emitted:1; uint8_t resized:1; }; static inline struct class *type__class(const struct type *self) { return (struct class *)self; } void type__delete(struct type *self, struct cu *cu); /** * type__for_each_tag - iterate thru all the tags * @self: struct type instance to iterate * @pos: struct tag iterator */ #define type__for_each_tag(self, pos) \ list_for_each_entry(pos, &(self)->namespace.tags, node) /** * type__for_each_enumerator - iterate thru the enumerator entries * @self: struct type instance to iterate * @pos: struct enumerator iterator */ #define type__for_each_enumerator(self, pos) \ struct list_head *__type__for_each_enumerator_head = \ (self)->namespace.shared_tags ? \ (self)->namespace.tags.next : \ &(self)->namespace.tags; \ list_for_each_entry(pos, __type__for_each_enumerator_head, tag.node) /** * type__for_each_enumerator_safe_reverse - safely iterate thru the enumerator entries, in reverse order * @self: struct type instance to iterate * @pos: struct enumerator iterator * @n: struct enumerator temp iterator */ #define type__for_each_enumerator_safe_reverse(self, pos, n) \ if ((self)->namespace.shared_tags) /* Do nothing */ ; else \ list_for_each_entry_safe_reverse(pos, n, &(self)->namespace.tags, tag.node) /** * type__for_each_member - iterate thru the entries that use space * (data members and inheritance entries) * @self: struct type instance to iterate * @pos: struct class_member iterator */ #define type__for_each_member(self, pos) \ list_for_each_entry(pos, &(self)->namespace.tags, tag.node) \ if (!(pos->tag.tag == DW_TAG_member || \ pos->tag.tag == DW_TAG_inheritance)) \ continue; \ else /** * type__for_each_data_member - iterate thru the data member entries * @self: struct type instance to iterate * @pos: struct class_member iterator */ #define type__for_each_data_member(self, pos) \ list_for_each_entry(pos, &(self)->namespace.tags, tag.node) \ if (pos->tag.tag != DW_TAG_member) \ continue; \ else /** * type__for_each_member_safe - safely iterate thru the entries that use space * (data members and inheritance entries) * @self: struct type instance to iterate * @pos: struct class_member iterator * @n: struct class_member temp iterator */ #define type__for_each_member_safe(self, pos, n) \ list_for_each_entry_safe(pos, n, &(self)->namespace.tags, tag.node) \ if (pos->tag.tag != DW_TAG_member) \ continue; \ else /** * type__for_each_data_member_safe - safely iterate thru the data member entries * @self: struct type instance to iterate * @pos: struct class_member iterator * @n: struct class_member temp iterator */ #define type__for_each_data_member_safe(self, pos, n) \ list_for_each_entry_safe(pos, n, &(self)->namespace.tags, tag.node) \ if (pos->tag.tag != DW_TAG_member) \ continue; \ else /** * type__for_each_tag_safe_reverse - safely iterate thru all tags in a type, in reverse order * @self: struct type instance to iterate * @pos: struct class_member iterator * @n: struct class_member temp iterator */ #define type__for_each_tag_safe_reverse(self, pos, n) \ list_for_each_entry_safe_reverse(pos, n, &(self)->namespace.tags, tag.node) void type__add_member(struct type *self, struct class_member *member); struct class_member * type__find_first_biggest_size_base_type_member(struct type *self, const struct cu *cu); struct class_member *type__find_member_by_name(const struct type *self, const struct cu *cu, const char *name); uint32_t type__nr_members_of_type(const struct type *self, const uint16_t type); struct class_member *type__last_member(struct type *self); size_t typedef__fprintf(const struct tag *tag_self, const struct cu *cu, const struct conf_fprintf *conf, FILE *fp); static inline struct type *tag__type(const struct tag *self) { return (struct type *)self; } struct class { struct type type; struct list_head vtable; uint16_t nr_vtable_entries; uint8_t nr_holes; uint8_t nr_bit_holes; uint16_t padding; uint8_t bit_padding; void *priv; }; static inline struct class *tag__class(const struct tag *self) { return (struct class *)self; } static inline struct tag *class__tag(const struct class *self) { return (struct tag *)self; } struct class *class__clone(const struct class *from, const char *new_class_name, struct cu *cu); void class__delete(struct class *self, struct cu *cu); static inline struct list_head *class__tags(struct class *self) { return &self->type.namespace.tags; } static __pure inline const char *namespace__name(const struct namespace *self, const struct cu *cu) { return self->sname ?: cu__string(cu, self->name); } static __pure inline const char *type__name(const struct type *self, const struct cu *cu) { return namespace__name(&self->namespace, cu); } static __pure inline const char *class__name(struct class *self, const struct cu *cu) { return type__name(&self->type, cu); } static inline int class__is_struct(const struct class *self) { return tag__is_struct(&self->type.namespace.tag); } void class__find_holes(struct class *self); int class__has_hole_ge(const struct class *self, const uint16_t size); size_t class__fprintf(struct class *self, const struct cu *cu, const struct conf_fprintf *conf, FILE *fp); void class__add_vtable_entry(struct class *self, struct function *vtable_entry); static inline struct class_member * class__find_member_by_name(const struct class *self, const struct cu *cu, const char *name) { return type__find_member_by_name(&self->type, cu, name); } static inline uint16_t class__nr_members(const struct class *self) { return self->type.nr_members; } static inline uint32_t class__size(const struct class *self) { return self->type.size; } static inline int class__is_declaration(const struct class *self) { return self->type.declaration; } const struct class_member *class__find_bit_hole(const struct class *self, const struct class_member *trailer, const uint16_t bit_hole_size); enum base_type_float_type { BT_FP_SINGLE = 1, BT_FP_DOUBLE, BT_FP_CMPLX, BT_FP_CMPLX_DBL, BT_FP_CMPLX_LDBL, BT_FP_LDBL, BT_FP_INTVL, BT_FP_INTVL_DBL, BT_FP_INTVL_LDBL, BT_FP_IMGRY, BT_FP_IMGRY_DBL, BT_FP_IMGRY_LDBL }; struct base_type { struct tag tag; strings_t name; uint16_t bit_size; uint8_t name_has_encoding:1; uint8_t is_signed:1; uint8_t is_bool:1; uint8_t is_varargs:1; uint8_t float_type; }; static inline struct base_type *tag__base_type(const struct tag *self) { return (struct base_type *)self; } static inline uint16_t base_type__size(const struct tag *self) { return tag__base_type(self)->bit_size / 8; } const char *base_type__name(const struct base_type *self, const struct cu *cu, char *bf, size_t len); void base_type_name_to_size_table__init(struct strings *strings); size_t base_type__name_to_size(struct base_type *self, struct cu *cu); struct array_type { struct tag tag; uint32_t *nr_entries; uint8_t dimensions; bool is_vector; }; static inline struct array_type *tag__array_type(const struct tag *self) { return (struct array_type *)self; } struct enumerator { struct tag tag; strings_t name; uint32_t value; }; void enumeration__delete(struct type *self, struct cu *cu); void enumeration__add(struct type *self, struct enumerator *enumerator); size_t enumeration__fprintf(const struct tag *tag_self, const struct cu *cu, const struct conf_fprintf *conf, FILE *fp); int dwarves__init(uint16_t user_cacheline_size); void dwarves__exit(void); const char *dwarf_tag_name(const uint32_t tag); struct argp_state; void dwarves_print_version(FILE *fp, struct argp_state *state); #endif /* _DWARVES_H_ */