{ Copyright (c) 2003-2006 by Peter Vreman and Florian Klaempfl This units contains support for DWARF debug info generation 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 of the License, 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., 675 Mass Ave, Cambridge, MA 02139, USA. **************************************************************************** } { This units contains support for DWARF debug info generation. Currently a lot of code looks like being mergable with dbgstabs. This might change however when improved dwarf info is generated, so the stuff shouldn't be merged yet. (FK) The easiest way to debug dwarf debug info generation is the usage of readelf --debug-dump This works only with elf targets though. There is a similar utility called dwarfdump which is not elf-specific and which has been ported to most systems. } unit dbgdwarf; {$i fpcdefs.inc} interface uses cclasses,globtype, cgbase, aasmbase,aasmtai,aasmdata, symbase,symconst,symtype,symdef,symsym, finput, DbgBase; type { Tag names and codes. } tdwarf_tag = (DW_TAG_padding := $00,DW_TAG_array_type := $01, DW_TAG_class_type := $02,DW_TAG_entry_point := $03, DW_TAG_enumeration_type := $04,DW_TAG_formal_parameter := $05, DW_TAG_imported_declaration := $08,DW_TAG_label := $0a, DW_TAG_lexical_block := $0b,DW_TAG_member := $0d, DW_TAG_pointer_type := $0f,DW_TAG_reference_type := $10, DW_TAG_compile_unit := $11,DW_TAG_stringtypee := $12, DW_TAG_structure_type := $13,DW_TAG_subroutine_type := $15, DW_TAG_typedef := $16,DW_TAG_union_type := $17, DW_TAG_unspecified_parameters := $18, DW_TAG_variant := $19,DW_TAG_common_block := $1a, DW_TAG_common_inclusion := $1b,DW_TAG_inheritance := $1c, DW_TAG_inlined_subroutine := $1d,DW_TAG_module := $1e, DW_TAG_ptr_to_member_type := $1f,DW_TAG_set_type := $20, DW_TAG_subrange_type := $21,DW_TAG_with_stmt := $22, DW_TAG_access_declaration := $23,DW_TAG_base_type := $24, DW_TAG_catch_block := $25,DW_TAG_const_type := $26, DW_TAG_constant := $27,DW_TAG_enumerator := $28, DW_TAG_file_type := $29,DW_TAG_friend := $2a, DW_TAG_namelist := $2b,DW_TAG_namelist_item := $2c, DW_TAG_packed_type := $2d,DW_TAG_subprogram := $2e, DW_TAG_template_type_param := $2f,DW_TAG_template_value_param := $30, DW_TAG_thrown_type := $31,DW_TAG_try_block := $32, DW_TAG_variant_part := $33,DW_TAG_variable := $34, DW_TAG_volatile_type := $35, { DWARF 3. } DW_TAG_dwarf_procedure := $36, DW_TAG_restrict_type := $37,DW_TAG_interface_type := $38, DW_TAG_namespace := $39,DW_TAG_imported_module := $3a, DW_TAG_unspecified_type := $3b,DW_TAG_partial_unit := $3c, DW_TAG_imported_unit := $3d, DW_TAG_condition := $3f, DW_TAG_shared_type := $40, { DWARF 4 } DW_TAG_type_unit := $41, DW_TAG_rvalue_reference_type := $42, DW_TAG_template_alias := $43, { SGI/MIPS Extensions. } DW_TAG_MIPS_loop := $4081, { HP extensions. See: ftp://ftp.hp.com/pub/lang/tools/WDB/wdb-4.0.tar.gz . } DW_TAG_HP_array_descriptor := $4090, { GNU extensions. } { For FORTRAN 77 and Fortran 90. } DW_TAG_format_label := $4101, { For C++. } DW_TAG_function_template := $4102,DW_TAG_class_template := $4103, DW_TAG_GNU_BINCL := $4104,DW_TAG_GNU_EINCL := $4105, { Extensions for UPC. See: http://upc.gwu.edu/~upc. } DW_TAG_upc_shared_type := $8765,DW_TAG_upc_strict_type := $8766, DW_TAG_upc_relaxed_type := $8767, { PGI (STMicroelectronics) extensions. No documentation available. } DW_TAG_PGI_kanji_type := $A000, DW_TAG_PGI_interface_block := $A020 ); {$push} {$notes off} { Attribute names and codes. } tdwarf_attribute = (DW_AT_sibling := $01,DW_AT_location := $02, DW_AT_name := $03,DW_AT_ordering := $09, DW_AT_subscr_data := $0a,DW_AT_byte_size := $0b, DW_AT_bit_offset := $0c,DW_AT_bit_size := $0d, DW_AT_element_list := $0f,DW_AT_stmt_list := $10, DW_AT_low_pc := $11,DW_AT_high_pc := $12, DW_AT_language := $13,DW_AT_member := $14, DW_AT_discr := $15,DW_AT_discr_value := $16, DW_AT_visibility := $17,DW_AT_import := $18, DW_AT_string_length := $19,DW_AT_common_reference := $1a, DW_AT_comp_dir := $1b,DW_AT_const_value := $1c, DW_AT_containing_type := $1d,DW_AT_default_value := $1e, DW_AT_inline := $20,DW_AT_is_optional := $21, DW_AT_lower_bound := $22,DW_AT_producer := $25, DW_AT_prototyped := $27,DW_AT_return_addr := $2a, DW_AT_start_scope := $2c,DW_AT_stride_size := $2e, DW_AT_upper_bound := $2f,DW_AT_abstract_origin := $31, DW_AT_accessibility := $32,DW_AT_address_class := $33, DW_AT_artificial := $34,DW_AT_base_types := $35, DW_AT_calling_convention := $36,DW_AT_count := $37, DW_AT_data_member_location := $38,DW_AT_decl_column := $39, DW_AT_decl_file := $3a,DW_AT_decl_line := $3b, DW_AT_declaration := $3c,DW_AT_discr_list := $3d, DW_AT_encoding := $3e,DW_AT_external := $3f, DW_AT_frame_base := $40,DW_AT_friend := $41, DW_AT_identifier_case := $42,DW_AT_macro_info := $43, DW_AT_namelist_items := $44,DW_AT_priority := $45, DW_AT_segment := $46,DW_AT_specification := $47, DW_AT_static_link := $48,DW_AT_type := $49, DW_AT_use_location := $4a,DW_AT_variable_parameter := $4b, DW_AT_virtuality := $4c,DW_AT_vtable_elem_location := $4d, { DWARF 3 values. } DW_AT_allocated := $4e,DW_AT_associated := $4f, DW_AT_data_location := $50,DW_AT_byte_stride := $51, DW_AT_entry_pc := $52,DW_AT_use_UTF8 := $53, DW_AT_extension := $54,DW_AT_ranges := $55, DW_AT_trampoline := $56,DW_AT_call_column := $57, DW_AT_call_file := $58,DW_AT_call_line := $59, DW_AT_description := $5a, { string } DW_AT_binary_scale := $5b, { constant } DW_AT_decimal_scale := $5c, { constant } DW_AT_small := $5d, { reference } DW_AT_decimal_sign := $5e, { constant } DW_AT_digit_count := $5f, { constant } DW_AT_picture_string := $60, { string } DW_AT_mutable := $61, { flag } DW_AT_threads_scaled := $62, { flag } DW_AT_explicit := $63, { flag } DW_AT_object_pointer := $64, { reference } DW_AT_endianity := $65, { constant } DW_AT_elemental := $66, { flag } DW_AT_pure := $67, { flag } DW_AT_recursive := $68, { flag } { DWARF 4 values } DW_AT_signature := $69, { reference } DW_AT_main_subprogram := $6a, { flag } DW_AT_data_bit_offset := $6b, { constant } DW_AT_const_expr := $6c, { flag } DW_AT_enum_class := $6d, { flag } DW_AT_linkage_name := $6e, { string } { SGI/MIPS extensions. } DW_AT_MIPS_fde := $2001,DW_AT_MIPS_loop_begin := $2002, DW_AT_MIPS_tail_loop_begin := $2003,DW_AT_MIPS_epilog_begin := $2004, DW_AT_MIPS_loop_unroll_factor := $2005, DW_AT_MIPS_software_pipeline_depth := $2006, DW_AT_MIPS_linkage_name := $2007,DW_AT_MIPS_stride := $2008, DW_AT_MIPS_abstract_name := $2009,DW_AT_MIPS_clone_origin := $200a, DW_AT_MIPS_has_inlines := $200b, { HP extensions. } DW_AT_HP_block_index := $2000, DW_AT_HP_unmodifiable := $2001,DW_AT_HP_actuals_stmt_list := $2010, DW_AT_HP_proc_per_section := $2011,DW_AT_HP_raw_data_ptr := $2012, DW_AT_HP_pass_by_reference := $2013,DW_AT_HP_opt_level := $2014, DW_AT_HP_prof_version_id := $2015,DW_AT_HP_opt_flags := $2016, DW_AT_HP_cold_region_low_pc := $2017,DW_AT_HP_cold_region_high_pc := $2018, DW_AT_HP_all_variables_modifiable := $2019, DW_AT_HP_linkage_name := $201a,DW_AT_HP_prof_flags := $201b, { WATCOM extensions. } DW_AT_WATCOM_memory_model := $2082, DW_AT_WATCOM_references_start := $2083, DW_AT_WATCOM_parm_entry := $2084, { GNU extensions. } DW_AT_sf_names := $2101,DW_AT_src_info := $2102, DW_AT_mac_info := $2103,DW_AT_src_coords := $2104, DW_AT_body_begin := $2105,DW_AT_body_end := $2106, DW_AT_GNU_vector := $2107, { VMS extensions. } DW_AT_VMS_rtnbeg_pd_address := $2201, { UPC extension. } DW_AT_upc_threads_scaled := $3210, { PGI (STMicroelectronics) extensions. } DW_AT_PGI_lbase := $3a00, DW_AT_PGI_soffset := $3a01,DW_AT_PGI_lstride := $3a02, { Apple extensions } DW_AT_APPLE_optimized := $3fe1, DW_AT_APPLE_flags := $3fe2, DW_AT_APPLE_major_runtime_vers := $3fe5, DW_AT_APPLE_runtime_class := $3fe6 ); {$pop} { Form names and codes. } Tdwarf_form = (DW_FORM_addr := $01,DW_FORM_block2 := $03, DW_FORM_block4 := $04,DW_FORM_data2 := $05, DW_FORM_data4 := $06,DW_FORM_data8 := $07, DW_FORM_string := $08,DW_FORM_block := $09, DW_FORM_block1 := $0a,DW_FORM_data1 := $0b, DW_FORM_flag := $0c,DW_FORM_sdata := $0d, DW_FORM_strp := $0e,DW_FORM_udata := $0f, DW_FORM_ref_addr := $10,DW_FORM_ref1 := $11, DW_FORM_ref2 := $12,DW_FORM_ref4 := $13, DW_FORM_ref8 := $14,DW_FORM_ref_udata := $15, DW_FORM_indirect := $16, { DWARF 4 } DW_FORM_sec_offset := $17, { lineptr, loclistptr, macptr, rangelistptr } DW_FORM_exprloc := $18, { exprloc } DW_FORM_flag_present := $19, { flag } DW_FORM_ref_sig8 := $20 { reference } ); { values of DW_AT_address_class } Tdwarf_addr = ( DW_ADDR_none := 0, DW_ADDR_near16 := 1, DW_ADDR_far16 := 2, DW_ADDR_huge16 := 3, DW_ADDR_near32 := 4, DW_ADDR_far32 := 5 ); { values of DW_AT_WATCOM_memory_model } Tdwarf_watcom_memory_model = ( DW_WATCOM_MEMORY_MODEL_none := 0, DW_WATCOM_MEMORY_MODEL_flat := 1, DW_WATCOM_MEMORY_MODEL_small := 2, DW_WATCOM_MEMORY_MODEL_medium := 3, DW_WATCOM_MEMORY_MODEL_compact := 4, DW_WATCOM_MEMORY_MODEL_large := 5, DW_WATCOM_MEMORY_MODEL_huge := 6 ); TDwarfFile = record Index: integer; Name: PChar; end; { flags for emitting variables/parameters } tdwarfvarsymflag = { force the sym to be emitted as a local variable regardless of its type; used for "absolute" local variables referring to parameters. } (dvf_force_local_var ); tdwarfvarsymflags = set of tdwarfvarsymflag; pAbbrevSearchTreeItem = ^tAbbrevSearchTreeItem; tAbbrevSearchTreeItem = record value: QWord; Abbrev: longint; // When this item does not match the abbrev-value, look for it // in the next SearchItem SearchItem: pAbbrevSearchTreeItem; // Next and prior item of the abbrev-section NextItem: pAbbrevSearchTreeItem; PriorItem: pAbbrevSearchTreeItem; bit8: boolean; end; TDwarfHashSetItem = record HashSetItem: THashSetItem; lab, ref_lab: tasmsymbol; struct_lab: tasmsymbol; end; PDwarfHashSetItem = ^TDwarfHashSetItem; TDwarfLabHashSet = class(THashSet) class function SizeOfItem: Integer; override; end; { TDebugInfoDwarf } TDebugInfoDwarf = class(TDebugInfo) private currabbrevnumber : longint; { use this defs to create info for variants and file handles } { unused (MWE) filerecdef, textrecdef : tdef; } dirlist: TFPHashObjectList; filesequence: Integer; loclist: tdynamicarray; asmline: TAsmList; { lookup table for def -> DWARF-labels } dwarflabels: TDwarfLabHashSet; // The current entry in dwarf_info with the link to the abbrev-section dwarf_info_abbref_tai: tai_const; // Empty start-item of the abbrev-searchtree AbbrevSearchTree: pAbbrevSearchTreeItem; // The current abbrev-item CurrentSearchTreeItem: pAbbrevSearchTreeItem; // Is true when the abbrev-section is newly created NewAbbrev: boolean; procedure StartAbbrevSearch; procedure AddConstToAbbrev(Value: QWord; bit8:boolean=false); procedure StartAbbrevSectionFromSearchtree; procedure WriteSearchItemToAbbrevSection(SI: pAbbrevSearchTreeItem); function FinishAbbrevSearch: longint; function def_dwarf_lab(def:tdef) : tasmsymbol; function def_dwarf_ref_lab(def:tdef) : tasmsymbol; function def_dwarf_class_struct_lab(def:tobjectdef) : tasmsymbol; function get_file_index(afile: tinputfile): Integer; function relative_dwarf_path(const s:tcmdstr):tcmdstr; protected // set if we should use 64bit headers (dwarf3 and up) _use_64bit_headers: Boolean; // set to ait_const32bit if use_64bit_headers is false, otherwise // to ait_const64bit offsetreltype, offsetabstype : taiconst_type; // set if we generated any lineinfo at all. If not, we have to terminate // when insertmoduleinfo is called. generated_lineinfo: boolean; vardatadef: trecorddef; procedure set_use_64bit_headers(state: boolean); property use_64bit_headers: Boolean read _use_64bit_headers write set_use_64bit_headers; function get_def_dwarf_labs(def:tdef): PDwarfHashSetItem; function is_fbreg(reg:tregister):boolean; { Convenience version of the method below, so the compiler creates the tvarrec for us (must only pass one element in the last parameter). } procedure append_attribute(attr: tdwarf_attribute; form: tdwarf_form; const values: array of const); procedure append_attribute(attr: tdwarf_attribute; form: tdwarf_form; const value: tvarrec); procedure append_entry(tag : tdwarf_tag;has_children : boolean;data : array of const); procedure append_block1(attr: tdwarf_attribute; size: aint); procedure append_labelentry(attr : tdwarf_attribute;sym : tasmsymbol); procedure append_labelentry_addr_ref(attr : tdwarf_attribute;sym : tasmsymbol); virtual; procedure append_labelentry_ref(attr : tdwarf_attribute;sym : tasmsymbol); procedure append_labelentry_dataptr_abs(attr : tdwarf_attribute;sym : tasmsymbol); procedure append_labelentry_dataptr_rel(attr : tdwarf_attribute;sym,endsym : tasmsymbol); procedure append_labelentry_dataptr_common(attr : tdwarf_attribute); procedure append_pointerclass(list:TAsmList;def:tpointerdef); procedure append_proc_frame_base(list:TAsmList;def:tprocdef); {$ifdef i8086} procedure append_seg_name(const name:string); procedure append_seg_reg(const segment_register:tregister); {$endif i8086} procedure beforeappenddef(list:TAsmList;def:tdef);override; procedure afterappenddef(list:TAsmList;def:tdef);override; procedure appenddef_ord(list:TAsmList;def:torddef);override; procedure appenddef_float(list:TAsmList;def:tfloatdef);override; procedure appenddef_enum(list:TAsmList;def:tenumdef);override; procedure appenddef_array(list:TAsmList;def:tarraydef);override; procedure appenddef_record_named(list:TAsmList;def:trecorddef;const name: shortstring); procedure appenddef_record(list:TAsmList;def:trecorddef);override; procedure appenddef_pointer(list:TAsmList;def:tpointerdef);override; procedure appenddef_string(list:TAsmList;def:tstringdef);override; procedure appenddef_procvar(list:TAsmList;def:tprocvardef);override; procedure appendprocdef(list:TAsmList;def:tprocdef);override; function get_symlist_sym_offset(symlist: ppropaccesslistitem; out sym: tabstractvarsym; out offset: pint): boolean; procedure appendsym_var(list:TAsmList;sym:tabstractnormalvarsym); procedure appendsym_var_with_name_type_offset(list:TAsmList; sym:tabstractnormalvarsym; const name: string; def: tdef; offset: pint; const flags: tdwarfvarsymflags); { used for fields and properties mapped to fields } procedure appendsym_fieldvar_with_name_offset(list:TAsmList;sym: tfieldvarsym;const name: string; def: tdef; offset: pint); procedure appendsym_const_member(list:TAsmList;sym:tconstsym;ismember:boolean); procedure beforeappendsym(list:TAsmList;sym:tsym);override; procedure appendsym_staticvar(list:TAsmList;sym:tstaticvarsym);override; procedure appendsym_paravar(list:TAsmList;sym:tparavarsym);override; procedure appendsym_localvar(list:TAsmList;sym:tlocalvarsym);override; procedure appendsym_fieldvar(list:TAsmList;sym:tfieldvarsym);override; procedure appendsym_const(list:TAsmList;sym:tconstsym);override; procedure appendsym_type(list:TAsmList;sym:ttypesym);override; procedure appendsym_label(list:TAsmList;sym:tlabelsym);override; procedure appendsym_absolute(list:TAsmList;sym:tabsolutevarsym);override; procedure appendsym_property(list:TAsmList;sym:tpropertysym);override; function symdebugname(sym:tsym): String; virtual; function symname(sym: tsym; manglename: boolean): String; virtual; procedure append_visibility(vis: tvisibility); procedure enum_membersyms_callback(p:TObject;arg:pointer); procedure finish_children; procedure finish_entry; procedure finish_lineinfo; public constructor Create;override; destructor Destroy;override; procedure insertmoduleinfo;override; procedure inserttypeinfo;override; procedure referencesections(list:TAsmList);override; procedure insertlineinfo(list:TAsmList);override; function dwarf_version: Word; virtual; abstract; end; { TDebugInfoDwarf2 } TDebugInfoDwarf2 = class(TDebugInfoDwarf) private protected procedure appenddef_set_intern(list:TAsmList;def:tsetdef; force_tag_set: boolean); procedure append_object_struct(def: tobjectdef; const createlabel: boolean; const objectname: PShortString); procedure appenddef_file(list:TAsmList;def:tfiledef); override; procedure appenddef_formal(list:TAsmList;def:tformaldef); override; procedure appenddef_object(list:TAsmList;def:tobjectdef); override; procedure appenddef_set(list:TAsmList;def:tsetdef); override; procedure appenddef_undefined(list:TAsmList;def:tundefineddef); override; procedure appenddef_variant(list:TAsmList;def:tvariantdef); override; public function dwarf_version: Word; override; end; { TDebugInfoDwarf3 } TDebugInfoDwarf3 = class(TDebugInfoDwarf2) private protected procedure append_labelentry_addr_ref(attr : tdwarf_attribute;sym : tasmsymbol); override; procedure appenddef_array(list:TAsmList;def:tarraydef); override; procedure appenddef_string(list:TAsmList;def:tstringdef);override; procedure appenddef_file(list:TAsmList;def:tfiledef); override; procedure appenddef_formal(list:TAsmList;def:tformaldef); override; procedure appenddef_object(list:TAsmList;def:tobjectdef); override; procedure appenddef_set(list:TAsmList;def: tsetdef); override; procedure appenddef_undefined(list:TAsmList;def:tundefineddef); override; procedure appenddef_variant(list:TAsmList;def:tvariantdef); override; function symdebugname(sym:tsym): String; override; public function dwarf_version: Word; override; end; TDebugInfoDwarf4 = class(TDebugInfoDwarf3) public function dwarf_version: Word; override; end; implementation uses sysutils,cutils,cfileutl,constexp, version,globals,verbose,systems, cpubase,cpuinfo,paramgr, fmodule, defutil,symtable,symcpu,ppu {$ifdef OMFOBJSUPPORT} ,dbgcodeview {$endif OMFOBJSUPPORT} ; const LINE_BASE = 1; OPCODE_BASE = 13; const DW_TAG_lo_user = $4080; DW_TAG_hi_user = $ffff; { Flag that tells whether entry has a child or not. } DW_children_no = 0; DW_children_yes = 1; const { Implementation-defined range start. } DW_AT_lo_user = $2000; { Implementation-defined range end. } DW_AT_hi_user = $3ff0; type { Source language names and codes. } tdwarf_source_language = (DW_LANG_C89 := $0001,DW_LANG_C := $0002,DW_LANG_Ada83 := $0003, DW_LANG_C_plus_plus := $0004,DW_LANG_Cobol74 := $0005, DW_LANG_Cobol85 := $0006,DW_LANG_Fortran77 := $0007, DW_LANG_Fortran90 := $0008,DW_LANG_Pascal83 := $0009, DW_LANG_Modula2 := $000a,DW_LANG_Java := $000b, { DWARF 3. } DW_LANG_C99 := $000c,DW_LANG_Ada95 := $000d, DW_LANG_Fortran95 := $000e, { Objective-C } DW_LANG_ObjC := $10, { MIPS. } DW_LANG_Mips_Assembler := $8001, { UPC. } DW_LANG_Upc := $8765 ); const { Implementation-defined range start. } DW_LANG_lo_user = $8000; { Implementation-defined range start. } DW_LANG_hi_user = $ffff; type { Names and codes for macro information. } tdwarf_macinfo_record_type = (DW_MACINFO_define := 1,DW_MACINFO_undef := 2, DW_MACINFO_start_file := 3,DW_MACINFO_end_file := 4, DW_MACINFO_vendor_ext := 255); type { Type encodings. } Tdwarf_type = (DW_ATE_void := $0,DW_ATE_address := $1, DW_ATE_boolean := $2,DW_ATE_complex_float := $3, DW_ATE_float := $4,DW_ATE_signed := $5, DW_ATE_signed_char := $6,DW_ATE_unsigned := $7, DW_ATE_unsigned_char := $8,DW_ATE_imaginary_float := $9, { HP extensions. } DW_ATE_HP_float80 := $80,DW_ATE_HP_complex_float80 := $81, DW_ATE_HP_float128 := $82,DW_ATE_HP_complex_float128 := $83, DW_ATE_HP_floathpintel := $84,DW_ATE_HP_imaginary_float80 := $85, DW_ATE_HP_imaginary_float128 := $86 ); const DW_ATE_lo_user = $80; DW_ATE_hi_user = $ff; type Tdwarf_array_dim_ordering = (DW_ORD_row_major := 0,DW_ORD_col_major := 1 ); { Access attribute. } Tdwarf_access_attribute = (DW_ACCESS_public := 1,DW_ACCESS_protected := 2, DW_ACCESS_private := 3); { Visibility. } Tdwarf_visibility_attribute = (DW_VIS_local := 1,DW_VIS_exported := 2, DW_VIS_qualified := 3); { Virtuality. } Tdwarf_virtuality_attribute = (DW_VIRTUALITY_none := 0,DW_VIRTUALITY_virtual := 1, DW_VIRTUALITY_pure_virtual := 2); { Case sensitivity. } Tdwarf_id_case = (DW_ID_case_sensitive := 0,DW_ID_up_case := 1, DW_ID_down_case := 2,DW_ID_case_insensitive := 3 ); { Calling convention. } Tdwarf_calling_convention = (DW_CC_normal := $1,DW_CC_program := $2, DW_CC_nocall := $3,DW_CC_GNU_renesas_sh := $40, DW_CC_GNU_borland_fastcall_i386 := $41 ); {$push} {$notes off} { Location atom names and codes. } Tdwarf_location_atom = (DW_OP_addr := $03,DW_OP_deref := $06,DW_OP_const1u := $08, DW_OP_const1s := $09,DW_OP_const2u := $0a, DW_OP_const2s := $0b,DW_OP_const4u := $0c, DW_OP_const4s := $0d,DW_OP_const8u := $0e, DW_OP_const8s := $0f,DW_OP_constu := $10, DW_OP_consts := $11,DW_OP_dup := $12,DW_OP_drop := $13, DW_OP_over := $14,DW_OP_pick := $15,DW_OP_swap := $16, DW_OP_rot := $17,DW_OP_xderef := $18,DW_OP_abs := $19, DW_OP_and := $1a,DW_OP_div := $1b,DW_OP_minus := $1c, DW_OP_mod := $1d,DW_OP_mul := $1e,DW_OP_neg := $1f, DW_OP_not := $20,DW_OP_or := $21,DW_OP_plus := $22, DW_OP_plus_uconst := $23,DW_OP_shl := $24, DW_OP_shr := $25,DW_OP_shra := $26,DW_OP_xor := $27, DW_OP_bra := $28,DW_OP_eq := $29,DW_OP_ge := $2a, DW_OP_gt := $2b,DW_OP_le := $2c,DW_OP_lt := $2d, DW_OP_ne := $2e,DW_OP_skip := $2f,DW_OP_lit0 := $30, DW_OP_lit1 := $31,DW_OP_lit2 := $32,DW_OP_lit3 := $33, DW_OP_lit4 := $34,DW_OP_lit5 := $35,DW_OP_lit6 := $36, DW_OP_lit7 := $37,DW_OP_lit8 := $38,DW_OP_lit9 := $39, DW_OP_lit10 := $3a,DW_OP_lit11 := $3b, DW_OP_lit12 := $3c,DW_OP_lit13 := $3d, DW_OP_lit14 := $3e,DW_OP_lit15 := $3f, DW_OP_lit16 := $40,DW_OP_lit17 := $41, DW_OP_lit18 := $42,DW_OP_lit19 := $43, DW_OP_lit20 := $44,DW_OP_lit21 := $45, DW_OP_lit22 := $46,DW_OP_lit23 := $47, DW_OP_lit24 := $48,DW_OP_lit25 := $49, DW_OP_lit26 := $4a,DW_OP_lit27 := $4b, DW_OP_lit28 := $4c,DW_OP_lit29 := $4d, DW_OP_lit30 := $4e,DW_OP_lit31 := $4f, DW_OP_reg0 := $50,DW_OP_reg1 := $51,DW_OP_reg2 := $52, DW_OP_reg3 := $53,DW_OP_reg4 := $54,DW_OP_reg5 := $55, DW_OP_reg6 := $56,DW_OP_reg7 := $57,DW_OP_reg8 := $58, DW_OP_reg9 := $59,DW_OP_reg10 := $5a,DW_OP_reg11 := $5b, DW_OP_reg12 := $5c,DW_OP_reg13 := $5d, DW_OP_reg14 := $5e,DW_OP_reg15 := $5f, DW_OP_reg16 := $60,DW_OP_reg17 := $61, DW_OP_reg18 := $62,DW_OP_reg19 := $63, DW_OP_reg20 := $64,DW_OP_reg21 := $65, DW_OP_reg22 := $66,DW_OP_reg23 := $67, DW_OP_reg24 := $68,DW_OP_reg25 := $69, DW_OP_reg26 := $6a,DW_OP_reg27 := $6b, DW_OP_reg28 := $6c,DW_OP_reg29 := $6d, DW_OP_reg30 := $6e,DW_OP_reg31 := $6f, DW_OP_breg0 := $70,DW_OP_breg1 := $71, DW_OP_breg2 := $72,DW_OP_breg3 := $73, DW_OP_breg4 := $74,DW_OP_breg5 := $75, DW_OP_breg6 := $76,DW_OP_breg7 := $77, DW_OP_breg8 := $78,DW_OP_breg9 := $79, DW_OP_breg10 := $7a,DW_OP_breg11 := $7b, DW_OP_breg12 := $7c,DW_OP_breg13 := $7d, DW_OP_breg14 := $7e,DW_OP_breg15 := $7f, DW_OP_breg16 := $80,DW_OP_breg17 := $81, DW_OP_breg18 := $82,DW_OP_breg19 := $83, DW_OP_breg20 := $84,DW_OP_breg21 := $85, DW_OP_breg22 := $86,DW_OP_breg23 := $87, DW_OP_breg24 := $88,DW_OP_breg25 := $89, DW_OP_breg26 := $8a,DW_OP_breg27 := $8b, DW_OP_breg28 := $8c,DW_OP_breg29 := $8d, DW_OP_breg30 := $8e,DW_OP_breg31 := $8f, DW_OP_regx := $90,DW_OP_fbreg := $91,DW_OP_bregx := $92, DW_OP_piece := $93,DW_OP_deref_size := $94, DW_OP_xderef_size := $95,DW_OP_nop := $96, { DWARF 3 extensions. } DW_OP_push_object_address := $97,DW_OP_call2 := $98, DW_OP_call4 := $99,DW_OP_call_ref := $9a, { DWARF 4 extensions. } DW_OP_implicit_value := $9e, DW_OP_stack_value := $9f, { GNU extensions. } DW_OP_GNU_push_tls_address := $e0, { HP extensions. } DW_OP_HP_unknown := $e0, DW_OP_HP_is_value := $e1,DW_OP_HP_fltconst4 := $e2, DW_OP_HP_fltconst8 := $e3,DW_OP_HP_mod_range := $e4, DW_OP_HP_unmod_range := $e5,DW_OP_HP_tls := $e6 ); {$pop} const { Implementation-defined range start. } DW_OP_lo_user = $e0; { Implementation-defined range end. } DW_OP_hi_user = $ff; const DW_LNS_extended_op = $00; { next copied from cfidwarf, need to go to something shared } DW_LNS_copy = $01; DW_LNS_advance_pc = $02; DW_LNS_advance_line = $03; DW_LNS_set_file = $04; DW_LNS_set_column = $05; DW_LNS_negate_stmt = $06; DW_LNS_set_basic_block = $07; DW_LNS_const_add_pc = $08; DW_LNS_fixed_advance_pc = $09; DW_LNS_set_prologue_end = $0a; DW_LNS_set_epilogue_begin = $0b; DW_LNS_set_isa = $0c; DW_LNE_end_sequence = $01; DW_LNE_set_address = $02; DW_LNE_define_file = $03; { DW_LNE_set_segment is a non-standard Open Watcom extension. It might create conflicts with future versions of the DWARF standard. } DW_LNE_set_segment = $04; DW_LNE_lo_user = $80; DW_LNE_hi_user = $ff; type { TDirIndexItem } TDirIndexItem = class(TFPHashObject) private FFiles: TFPHashObjectList; public IndexNr : Integer; constructor Create(AList:TFPHashObjectList;const AName: String; AIndex: Integer); destructor Destroy;override; property Files: TFPHashObjectList read FFiles; end; { TFileIndexItem } TFileIndexItem = class(TFPHashObject) private FDirIndex: Integer; public IndexNr : Integer; constructor Create(AList:TFPHashObjectList;const AName: String; ADirIndex, AIndex: Integer); property DirIndex: Integer read FDirIndex; end; {**************************************************************************** procs ****************************************************************************} function DirListSortCompare(AItem1, AItem2: Pointer): Integer; begin Result := TDirIndexItem(AItem1).IndexNr - TDirIndexItem(AItem2).IndexNr; end; function FileListSortCompare(AItem1, AItem2: Pointer): Integer; begin Result := TFileIndexItem(AItem1).IndexNr - TFileIndexItem(AItem2).IndexNr; end; function AllocateNewAiSearchItem: pAbbrevSearchTreeItem; begin new(result); FillChar(result^,sizeof(result^),#0); end; procedure FreeSearchItem(SI: pAbbrevSearchTreeItem); begin if assigned(SI^.NextItem) then FreeSearchItem(SI^.NextItem); if assigned(SI^.SearchItem) then FreeSearchItem(SI^.SearchItem); Dispose(SI); end; {**************************************************************************** TDwarfLabHashSet ****************************************************************************} class function TDwarfLabHashSet.SizeOfItem: Integer; begin Result:=sizeof(TDwarfHashSetItem); end; {**************************************************************************** TDirIndexItem ****************************************************************************} constructor TDirIndexItem.Create(AList:TFPHashObjectList;const AName: String; AIndex: Integer); begin inherited Create(AList,AName); FFiles := TFPHashObjectList.Create; IndexNr := AIndex; end; destructor TDirIndexItem.Destroy; begin FFiles.Free; inherited Destroy; end; {**************************************************************************** TFileIndexItem ****************************************************************************} constructor TFileIndexItem.Create(AList:TFPHashObjectList;const AName: String; ADirIndex, AIndex: Integer); begin inherited Create(AList,Aname); FDirIndex := ADirIndex; IndexNr := AIndex; end; {**************************************************************************** TDebugInfoDwarf ****************************************************************************} procedure TDebugInfoDwarf.StartAbbrevSearch; begin CurrentSearchTreeItem:=AbbrevSearchTree; end; procedure TDebugInfoDwarf.WriteSearchItemToAbbrevSection(SI: pAbbrevSearchTreeItem); begin if SI^.bit8 then current_asmdata.asmlists[al_dwarf_abbrev].concat(tai_const.Create_8bit(SI^.value)) else current_asmdata.asmlists[al_dwarf_abbrev].concat(tai_const.Create_uleb128bit(SI^.value)); end; procedure TDebugInfoDwarf.StartAbbrevSectionFromSearchtree; procedure AddCurrentAndPriorItemsToAbrev(SI: pAbbrevSearchTreeItem); begin if assigned(SI^.PriorItem) then AddCurrentAndPriorItemsToAbrev(SI^.PriorItem); WriteSearchItemToAbbrevSection(SI); end; begin NewAbbrev:=true; inc(currabbrevnumber); current_asmdata.asmlists[al_dwarf_abbrev].concat(tai_comment.Create(strpnew('Abbrev '+tostr(currabbrevnumber)))); current_asmdata.asmlists[al_dwarf_abbrev].concat(tai_const.create_uleb128bit(currabbrevnumber)); if CurrentSearchTreeItem<>AbbrevSearchTree then AddCurrentAndPriorItemsToAbrev(CurrentSearchTreeItem); end; function TDebugInfoDwarf.FinishAbbrevSearch: longint; procedure FinalizeAbbrevSection; begin current_asmdata.asmlists[al_dwarf_abbrev].concat(tai_const.create_8bit(0)); current_asmdata.asmlists[al_dwarf_abbrev].concat(tai_const.create_8bit(0)); CurrentSearchTreeItem^.Abbrev:=currabbrevnumber; NewAbbrev := false; end; begin if NewAbbrev then FinalizeAbbrevSection; result := CurrentSearchTreeItem^.Abbrev; if result=0 then begin // In this case the abbrev-section equals an existing longer abbrev section. // So a new abbrev-section has to be made which ends on the current // searchtree item StartAbbrevSectionFromSearchtree; FinalizeAbbrevSection; result := CurrentSearchTreeItem^.Abbrev; end; end; procedure TDebugInfoDwarf.AddConstToAbbrev(Value: QWord; bit8:boolean); procedure AddCurrentItemToAbbrev; begin CurrentSearchTreeItem^.value:=value; CurrentSearchTreeItem^.bit8:=bit8; WriteSearchItemToAbbrevSection(CurrentSearchTreeItem); end; var si: pAbbrevSearchTreeItem; begin // Instead of adding this value directly to the ai-tree, search if an // abbrev section with the same values already exist, and use the existing // one or create one. if NewAbbrev then begin // The current abbrev-section is new, so add the value to the abbrev-section // and add it to the search-list. CurrentSearchTreeItem^.NextItem:=AllocateNewAiSearchItem; CurrentSearchTreeItem^.NextItem^.PriorItem:=CurrentSearchTreeItem; CurrentSearchTreeItem := CurrentSearchTreeItem^.NextItem; AddCurrentItemToAbbrev; end else begin // Search for the value which is added in the next sections of the // searchtree for a match si := CurrentSearchTreeItem^.NextItem; while assigned(si) do begin if (SI^.value=Value) and (si^.bit8=bit8) then begin // If a match is found, set the current searchtree item to the next item CurrentSearchTreeItem:=SI; Exit; end else if si^.SearchItem=nil then begin // If no match is found, add a new item to the searchtree and write // a new abbrev-section. StartAbbrevSectionFromSearchtree; si^.SearchItem:=AllocateNewAiSearchItem; if currentsearchtreeitem<>AbbrevSearchTree then si^.SearchItem^.PriorItem:=CurrentSearchTreeItem; CurrentSearchTreeItem := si^.SearchItem; AddCurrentItemToAbbrev; Exit; end; Si := SI^.SearchItem; end; // The abbrev section we are looking for is longer than the one // which is already in the search-tree. So expand the searchtree with // the new value and write a new abbrev section StartAbbrevSectionFromSearchtree; CurrentSearchTreeItem^.NextItem:=AllocateNewAiSearchItem; if currentsearchtreeitem^.PriorItem<>AbbrevSearchTree then CurrentSearchTreeItem^.NextItem^.PriorItem:=CurrentSearchTreeItem; CurrentSearchTreeItem := CurrentSearchTreeItem^.NextItem; AddCurrentItemToAbbrev; end; end; function TDebugInfoDwarf.relative_dwarf_path(const s:tcmdstr):tcmdstr; begin { Make a clean path for gdb. Remove trailing / and ./ prefixes and use always a / } result:=BsToSlash(ExcludeTrailingPathDelimiter(ExtractRelativePath(GetCurrentDir,FixFileName(ExpandFileName(s))))); end; procedure TDebugInfoDwarf.set_use_64bit_headers(state: boolean); begin _use_64bit_headers:=state; if not(state) then begin if (target_info.system in systems_windows+systems_wince) then offsetabstype:=aitconst_secrel32_symbol else offsetabstype:=aitconst_32bit_unaligned; if (target_info.system in systems_darwin) then offsetreltype:=aitconst_darwin_dwarf_delta32 else offsetreltype:=aitconst_32bit_unaligned; end else begin if (target_info.system in systems_darwin) then offsetreltype:=aitconst_darwin_dwarf_delta64 else offsetreltype:=aitconst_64bit_unaligned; offsetabstype:=aitconst_64bit_unaligned; end; end; function TDebugInfoDwarf.get_def_dwarf_labs(def:tdef): PDwarfHashSetItem; var needstructdeflab: boolean; begin { Keep track of used dwarf entries, this info is only useful for dwarf entries referenced by the symbols. Definitions will always include all required stabs } if def.dbg_state=dbg_state_unused then def.dbg_state:=dbg_state_used; { Need a new label? } result:=PDwarfHashSetItem(dwarflabels.FindOrAdd(@def,sizeof(def))); { the other fields besides Data are not initialised } if not assigned(result^.HashSetItem.Data) then begin { Mark as initialised } result^.HashSetItem.Data:=self; needstructdeflab:=is_implicit_pointer_object_type(def); if not(tf_dwarf_only_local_labels in target_info.flags) then begin if (ds_dwarf_dbg_info_written in def.defstates) then begin if not assigned(def.typesym) then internalerror(200610011); result^.lab:=current_asmdata.RefAsmSymbol(make_mangledname('DBG',def.owner,symname(def.typesym, true)),AT_METADATA); result^.ref_lab:=current_asmdata.RefAsmSymbol(make_mangledname('DBGREF',def.owner,symname(def.typesym, true)),AT_METADATA); if needstructdeflab then result^.struct_lab:=current_asmdata.RefAsmSymbol(make_mangledname('DBG2',def.owner,symname(def.typesym, true)),AT_METADATA); def.dbg_state:=dbg_state_written; end else begin { Create an exported DBG symbol if we are generating a def defined in the globalsymtable of the current unit } if assigned(def.typesym) and (def.owner.symtabletype=globalsymtable) and (def.owner.iscurrentunit) then begin result^.lab:=current_asmdata.DefineAsmSymbol(make_mangledname('DBG',def.owner,symname(def.typesym, true)),AB_GLOBAL,AT_METADATA,voidpointertype); result^.ref_lab:=current_asmdata.DefineAsmSymbol(make_mangledname('DBGREF',def.owner,symname(def.typesym, true)),AB_GLOBAL,AT_METADATA,voidpointertype); if needstructdeflab then result^.struct_lab:=current_asmdata.DefineAsmSymbol(make_mangledname('DBG2',def.owner,symname(def.typesym, true)),AB_GLOBAL,AT_METADATA,voidpointertype); include(def.defstates,ds_dwarf_dbg_info_written); end else begin { The pointer typecast is needed to prevent a problem with range checking on when the typecast is changed to 'as' } current_asmdata.getglobaldatalabel(TAsmLabel(pointer(result^.lab))); current_asmdata.getglobaldatalabel(TAsmLabel(pointer(result^.ref_lab))); if needstructdeflab then current_asmdata.getglobaldatalabel(TAsmLabel(pointer(result^.struct_lab))); end; end; end else begin { The pointer typecast is needed to prevent a problem with range checking on when the typecast is changed to 'as' } { addrlabel instead of datalabel because it must be a local one } current_asmdata.getaddrlabel(TAsmLabel(pointer(result^.lab))); current_asmdata.getaddrlabel(TAsmLabel(pointer(result^.ref_lab))); if needstructdeflab then current_asmdata.getaddrlabel(TAsmLabel(pointer(result^.struct_lab))); end; if def.dbg_state=dbg_state_used then deftowritelist.Add(def); defnumberlist.Add(def); end; end; function TDebugInfoDwarf.is_fbreg(reg: tregister): boolean; begin {$ifdef i8086} result:=reg=NR_BP; {$else i8086} { always return false, because we don't emit DW_AT_frame_base attributes yet } result:=false; {$endif i8086} end; function TDebugInfoDwarf.def_dwarf_lab(def: tdef): tasmsymbol; begin result:=get_def_dwarf_labs(def)^.lab; end; function TDebugInfoDwarf.def_dwarf_class_struct_lab(def: tobjectdef): tasmsymbol; begin result:=get_def_dwarf_labs(def)^.struct_lab; end; function TDebugInfoDwarf.def_dwarf_ref_lab(def: tdef): tasmsymbol; begin result:=get_def_dwarf_labs(def)^.ref_lab; end; constructor TDebugInfoDwarf.Create; begin inherited Create; { 64bit headers are only supported for dwarf3 and up, so default off } use_64bit_headers := false; { we haven't generated any lineinfo yet } generated_lineinfo := false; dirlist := TFPHashObjectList.Create; { add current dir as first item (index=0) } TDirIndexItem.Create(dirlist,'.', 0); asmline := TAsmList.create; loclist := tdynamicarray.Create(4096); AbbrevSearchTree:=AllocateNewAiSearchItem; vardatadef := nil; end; destructor TDebugInfoDwarf.Destroy; begin dirlist.Free; if assigned(AbbrevSearchTree) then FreeSearchItem(AbbrevSearchTree); dirlist := nil; asmline.free; asmline:=nil; loclist.Free; loclist := nil; inherited Destroy; end; procedure TDebugInfoDwarf.enum_membersyms_callback(p:TObject; arg: pointer); begin case tsym(p).typ of fieldvarsym: appendsym_fieldvar(TAsmList(arg),tfieldvarsym(p)); propertysym: appendsym_property(TAsmList(arg),tpropertysym(p)); constsym: appendsym_const_member(TAsmList(arg),tconstsym(p),true); end; end; function TDebugInfoDwarf.get_file_index(afile: tinputfile): Integer; var dirname: String; diritem: TDirIndexItem; diridx: Integer; fileitem: TFileIndexItem; begin if afile.path = '' then dirname := '.' else begin { add the canonical form here already to avoid problems with } { paths such as './' etc } dirname := relative_dwarf_path(afile.path); if dirname = '' then dirname := '.'; end; diritem := TDirIndexItem(dirlist.Find(dirname)); if diritem = nil then diritem := TDirIndexItem.Create(dirlist,dirname, dirlist.Count); diridx := diritem.IndexNr; fileitem := TFileIndexItem(diritem.files.Find(afile.name)); if fileitem = nil then begin Inc(filesequence); fileitem := TFileIndexItem.Create(diritem.files,afile.name, diridx, filesequence); end; Result := fileitem.IndexNr; end; procedure TDebugInfoDwarf.append_attribute(attr: tdwarf_attribute; form: tdwarf_form; const values: array of const); begin if length(values)<>1 then internalerror(2009040402); append_attribute(attr,form,values[0]); end; procedure TDebugInfoDwarf.append_attribute(attr: tdwarf_attribute; form: tdwarf_form; const value: tvarrec); begin { attribute } AddConstToAbbrev(cardinal(attr)); { form } AddConstToAbbrev(cardinal(form)); { info itself } case form of DW_FORM_string: case value.VType of vtChar: current_asmdata.asmlists[al_dwarf_info].concat(tai_string.create(value.VChar)); vtString: current_asmdata.asmlists[al_dwarf_info].concat(tai_string.create(value.VString^)); vtAnsistring: current_asmdata.asmlists[al_dwarf_info].concat(tai_string.create(Ansistring(value.VAnsiString))); else internalerror(200601264); end; DW_FORM_flag: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(byte(value.VBoolean))); DW_FORM_data1: case value.VType of vtInteger: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(value.VInteger)); vtInt64: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(value.VInt64^)); vtQWord: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(value.VQWord^)); else internalerror(200602143); end; DW_FORM_data2: case value.VType of vtInteger: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(value.VInteger)); vtInt64: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(value.VInt64^)); vtQWord: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(value.VQWord^)); else internalerror(200602144); end; DW_FORM_data4: case value.VType of vtInteger: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_32bit_unaligned(value.VInteger)); vtInt64: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_32bit_unaligned(value.VInt64^)); vtQWord: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_32bit_unaligned(value.VQWord^)); else internalerror(200602145); end; DW_FORM_data8: case value.VType of vtInteger: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_64bit_unaligned(value.VInteger)); vtInt64: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_64bit_unaligned(value.VInt64^)); vtQWord: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_64bit_unaligned(value.VQWord^)); else internalerror(200602146); end; DW_FORM_sdata: case value.VType of vtInteger: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_sleb128bit(value.VInteger)); vtInt64: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_sleb128bit(value.VInt64^)); vtQWord: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_sleb128bit(value.VQWord^)); else internalerror(200601285); end; DW_FORM_udata: case value.VType of vtInteger: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(value.VInteger)); vtInt64: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(value.VInt64^)); vtQWord: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(value.VQWord^)); else internalerror(200601284); end; { block gets only the size, the rest is appended manually by the caller } DW_FORM_block1: case value.VType of vtInteger: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(value.VInteger)); vtInt64: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(value.VInt64^)); vtQWord: current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(value.VQWord^)); else internalerror(200602141); end; else internalerror(200601263); end; end; { writing the data through a few simply procedures allows to create easily extra information for debugging of debug info } procedure TDebugInfoDwarf.append_entry(tag : tdwarf_tag;has_children : boolean;data : array of const); var i : longint; begin { abbrev number } // Store the ai with the reference to the abbrev number and start a search // to find the right abbrev-section. (Or create one) dwarf_info_abbref_tai := tai_const.create_uleb128bit(currabbrevnumber); current_asmdata.asmlists[al_dwarf_info].concat(dwarf_info_abbref_tai); StartAbbrevSearch; { tag } AddConstToAbbrev(ord(tag)); { children? } AddConstToAbbrev(ord(has_children),true); i:=0; while i<=high(data) do begin if (i+2 > high(data)) then internalerror(2009040401); if data[i].VType<>vtInteger then internalerror(200601261); if data[i+1].VType<>vtInteger then internalerror(200601261); append_attribute(tdwarf_attribute(data[i].VInteger),tdwarf_form(data[i+1].VInteger),data[i+2]); inc(i,3); end; end; procedure TDebugInfoDwarf.append_block1(attr: tdwarf_attribute; size: aint); begin AddConstToAbbrev(ord(attr)); AddConstToAbbrev(ord(DW_FORM_block1)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(size)); end; procedure TDebugInfoDwarf.append_labelentry(attr : tdwarf_attribute;sym : tasmsymbol); begin AddConstToAbbrev(ord(attr)); AddConstToAbbrev(ord(DW_FORM_addr)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_type_sym(aitconst_ptr_unaligned,sym)); end; procedure TDebugInfoDwarf.append_labelentry_addr_ref(attr : tdwarf_attribute;sym : tasmsymbol); begin AddConstToAbbrev(ord(DW_FORM_ref_addr)); {$ifdef i8086} { DW_FORM_ref_addr is treated as 32-bit by Open Watcom on i8086 } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.Create_type_sym(aitconst_32bit_unaligned,sym)); {$else i8086} current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_type_sym(aitconst_ptr_unaligned,sym)); {$endif i8086} end; procedure TDebugInfoDwarf.append_labelentry_ref(attr : tdwarf_attribute;sym : tasmsymbol); begin AddConstToAbbrev(ord(attr)); if not(tf_dwarf_only_local_labels in target_info.flags) then append_labelentry_addr_ref(attr, sym) else begin AddConstToAbbrev(ord(DW_FORM_ref4)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_rel_sym(offsetreltype,current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_info0',AB_LOCAL,AT_METADATA,voidpointertype),sym)); end; end; procedure TDebugInfoDwarf.append_labelentry_dataptr_common(attr : tdwarf_attribute); begin AddConstToAbbrev(ord(attr)); if use_64bit_headers then AddConstToAbbrev(ord(DW_FORM_data8)) else AddConstToAbbrev(ord(DW_FORM_data4)); end; procedure TDebugInfoDwarf.append_pointerclass(list: TAsmList; def: tpointerdef); begin {$ifdef i8086} case tcpupointerdef(def).x86pointertyp of x86pt_near, { todo: is there a way to specify these somehow? } x86pt_near_cs,x86pt_near_ds,x86pt_near_ss, x86pt_near_es,x86pt_near_fs,x86pt_near_gs: append_attribute(DW_AT_address_class,DW_FORM_data1,[DW_ADDR_near16]); x86pt_far: append_attribute(DW_AT_address_class,DW_FORM_data1,[DW_ADDR_far16]); x86pt_huge: append_attribute(DW_AT_address_class,DW_FORM_data1,[DW_ADDR_huge16]); else internalerror(2018052401); end; {$else i8086} { Theoretically, we could do this, but it might upset some debuggers, } { even though it's part of the DWARF standard. } { append_attribute(DW_AT_address_class,DW_FORM_data1,[DW_ADDR_none]); } {$endif i8086} end; procedure TDebugInfoDwarf.append_proc_frame_base(list: TAsmList; def: tprocdef); {$ifdef i8086} var dreg: longint; blocksize: longint; templist: TAsmList; begin dreg:=dwarf_reg(NR_BP); templist:=TAsmList.create; if dreg<=31 then begin templist.concat(tai_const.create_8bit(ord(DW_OP_reg0)+dreg)); blocksize:=1; end else begin templist.concat(tai_const.create_8bit(ord(DW_OP_regx))); templist.concat(tai_const.create_uleb128bit(dreg)); blocksize:=1+Lengthuleb128(dreg); end; append_block1(DW_AT_frame_base,blocksize); current_asmdata.asmlists[al_dwarf_info].concatlist(templist); templist.free; end; {$else i8086} begin { problem: base reg isn't known here DW_AT_frame_base,DW_FORM_block1,1 } end; {$endif i8086} {$ifdef i8086} procedure TDebugInfoDwarf.append_seg_name(const name:string); begin append_block1(DW_AT_segment,3); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_const2u))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.Create_seg_name(name)); end; procedure TDebugInfoDwarf.append_seg_reg(const segment_register: tregister); var dreg: longint; blocksize: longint; templist: TAsmList; begin dreg:=dwarf_reg(segment_register); templist:=TAsmList.create; if dreg<=31 then begin templist.concat(tai_const.create_8bit(ord(DW_OP_reg0)+dreg)); blocksize:=1; end else begin templist.concat(tai_const.create_8bit(ord(DW_OP_regx))); templist.concat(tai_const.create_uleb128bit(dreg)); blocksize:=1+Lengthuleb128(dreg); end; append_block1(DW_AT_segment,blocksize); current_asmdata.asmlists[al_dwarf_info].concatlist(templist); templist.free; end; {$endif i8086} procedure TDebugInfoDwarf.append_labelentry_dataptr_abs(attr : tdwarf_attribute;sym : tasmsymbol); begin { used for writing dwarf lineptr, loclistptr, macptr and rangelistptr classes as FORM_dataN The size of these depend on the header format Must be relative to another symbol on tf_dwarf_relative_addresses targets } if (tf_dwarf_relative_addresses in target_info.flags) then { use append_labelentry_dataptr_rel instead } internalerror(2007020210); append_labelentry_dataptr_common(attr); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_type_sym(offsetabstype,sym)) end; procedure TDebugInfoDwarf.append_labelentry_dataptr_rel(attr : tdwarf_attribute;sym,endsym : tasmsymbol); begin { used for writing dwarf lineptr, loclistptr, macptr and rangelistptr classes as FORM_dataN The size of these depend on the header format Must be relative to another symbol on tf_dwarf_relative_addresses targets } append_labelentry_dataptr_common(attr); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_rel_sym(offsetreltype,sym,endsym)); end; procedure TDebugInfoDwarf.finish_entry; begin dwarf_info_abbref_tai.value:=FinishAbbrevSearch; end; procedure TDebugInfoDwarf.finish_children; begin current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(0)); end; procedure TDebugInfoDwarf.appenddef_ord(list:TAsmList;def:torddef); var basedef : tdef; sign : tdwarf_type; signform : tdwarf_form; fullbytesize : byte; begin case def.ordtype of s8bit, s16bit, s32bit, u8bit, u16bit, u32bit : begin { generate proper signed/unsigned info for types like 0..3 } { these are s8bit, but should be identified as unsigned } { because otherwise they are interpreted wrongly when used } { in a bitpacked record } if (def.low<0) then begin sign:=DW_ATE_signed; signform:=DW_FORM_sdata end else begin sign:=DW_ATE_unsigned; signform:=DW_FORM_udata end; fullbytesize:=def.size; case fullbytesize of 1: if (sign=DW_ATE_signed) then basedef:=s8inttype else basedef:=u8inttype; 2: if (sign=DW_ATE_signed) then basedef:=s16inttype else basedef:=u16inttype; 4: if (sign=DW_ATE_signed) then basedef:=s32inttype else basedef:=u32inttype; else internalerror(2008032201); end; if (def.low=torddef(basedef).low) and (def.high=torddef(basedef).high) then { base type such as byte/shortint/word/... } if assigned(def.typesym) then append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_encoding,DW_FORM_data1,sign, DW_AT_byte_size,DW_FORM_data1,fullbytesize]) else append_entry(DW_TAG_base_type,false,[ DW_AT_encoding,DW_FORM_data1,sign, DW_AT_byte_size,DW_FORM_data1,fullbytesize]) else begin { subrange type } { note: don't do this 64 bit int types, they appear } { to be always clipped to s32bit for some reason } if assigned(def.typesym) then append_entry(DW_TAG_subrange_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_lower_bound,signform,int64(def.low), DW_AT_upper_bound,signform,int64(def.high) ]) else append_entry(DW_TAG_subrange_type,false,[ DW_AT_lower_bound,signform,int64(def.low), DW_AT_upper_bound,signform,int64(def.high) ]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(basedef)); end; finish_entry; end; uvoid : begin { gdb 6.4 doesn't support DW_TAG_unspecified_type so we replace it with a unsigned type with size 0 (FK) } append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Void'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned, DW_AT_byte_size,DW_FORM_data1,0 ]); finish_entry; end; uchar : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Char'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned_char, DW_AT_byte_size,DW_FORM_data1,1 ]); finish_entry; end; uwidechar : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'WideChar'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned_char, DW_AT_byte_size,DW_FORM_data1,2 ]); finish_entry; end; pasbool1 : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Boolean'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,1 ]); finish_entry; end; pasbool8 : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Boolean8'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,1 ]); finish_entry; end; bool8bit : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'ByteBool'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,1 ]); finish_entry; end; pasbool16 : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Boolean16'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,2 ]); finish_entry; end; bool16bit : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'WordBool'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,2 ]); finish_entry; end; pasbool32 : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Boolean32'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,4 ]); finish_entry; end; bool32bit : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'LongBool'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,4 ]); finish_entry; end; pasbool64 : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Boolean64'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,8 ]); finish_entry; end; bool64bit : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'QWordBool'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_boolean, DW_AT_byte_size,DW_FORM_data1,8 ]); finish_entry; end; u64bit : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'QWord'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned, DW_AT_byte_size,DW_FORM_data1,8 ]); finish_entry; end; scurrency : begin { we should use DW_ATE_signed_fixed, however it isn't supported yet by GDB (FK) } append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Currency'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_signed, DW_AT_byte_size,DW_FORM_data1,8 ]); finish_entry; end; s64bit : begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Int64'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_signed, DW_AT_byte_size,DW_FORM_data1,8 ]); finish_entry; end; u128bit: begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Int128'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned, DW_AT_byte_size,DW_FORM_data1,16 ]); finish_entry; end; s128bit: begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'Int128'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_signed, DW_AT_byte_size,DW_FORM_data1,16 ]); finish_entry; end; else internalerror(200601287); end; end; procedure TDebugInfoDwarf.appenddef_float(list:TAsmList;def:tfloatdef); begin case def.floattype of s32real, s64real, s80real, sc80real: if assigned(def.typesym) then begin append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_float, DW_AT_byte_size,DW_FORM_data1,def.size ]); if (def.floattype in [s80real,sc80real]) and (def.size<>10) then begin append_attribute(DW_AT_bit_size,DW_FORM_data1,[10*8]); { "The bit offset attribute describes the offset in bits of the high order bit of a value of the given type from the high order bit of the storage unit used to contain that value." } if target_info.endian=endian_little then append_attribute(DW_AT_bit_offset,DW_FORM_data1,[(def.size-10)*8]); end; end else append_entry(DW_TAG_base_type,false,[ DW_AT_encoding,DW_FORM_data1,DW_ATE_float, DW_AT_byte_size,DW_FORM_data1,def.size ]); s64currency: { we should use DW_ATE_signed_fixed, however it isn't supported yet by GDB (FK) } if assigned(def.typesym) then append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_signed, DW_AT_byte_size,DW_FORM_data1,8 ]) else append_entry(DW_TAG_base_type,false,[ DW_AT_encoding,DW_FORM_data1,DW_ATE_signed, DW_AT_byte_size,DW_FORM_data1,8 ]); s64comp: if assigned(def.typesym) then append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_signed, DW_AT_byte_size,DW_FORM_data1,8 ]) else append_entry(DW_TAG_base_type,false,[ DW_AT_encoding,DW_FORM_data1,DW_ATE_signed, DW_AT_byte_size,DW_FORM_data1,8 ]); else internalerror(200601289); end; finish_entry; end; procedure TDebugInfoDwarf.appenddef_enum(list:TAsmList;def:tenumdef); var hp : tenumsym; i : integer; begin if assigned(def.typesym) then append_entry(DW_TAG_enumeration_type,true,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_byte_size,DW_FORM_data1,def.size ]) else append_entry(DW_TAG_enumeration_type,true,[ DW_AT_byte_size,DW_FORM_data1,def.size ]); if assigned(def.basedef) then append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.basedef)); finish_entry; { write enum symbols } for i := 0 to def.symtable.SymList.Count - 1 do begin hp:=tenumsym(def.symtable.SymList[i]); if hp.valuedef.maxval then break; append_entry(DW_TAG_enumerator,false,[ DW_AT_name,DW_FORM_string,symname(hp, false)+#0, DW_AT_const_value,DW_FORM_data4,hp.value ]); finish_entry; end; finish_children; end; procedure TDebugInfoDwarf.appenddef_array(list:TAsmList;def:tarraydef); var size : PInt; elesize : PInt; elestrideattr : tdwarf_attribute; labsym: tasmlabel; begin if is_dynamic_array(def) then begin { It's a pointer to the actual array } current_asmdata.getaddrlabel(labsym); append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,labsym); finish_entry; current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(labsym,0)); end; if not is_packed_array(def) then begin elestrideattr := DW_AT_byte_stride; elesize := def.elesize; end else begin elestrideattr := DW_AT_stride_size; elesize := def.elepackedbitsize; end; if is_special_array(def) then begin { no known size, no known upper bound } if assigned(def.typesym) then append_entry(DW_TAG_array_type,true,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0 ]) else append_entry(DW_TAG_array_type,true,[]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.elementdef)); finish_entry; { a missing upper bound means "unknown"/default } append_entry(DW_TAG_subrange_type,false,[ DW_AT_lower_bound,DW_FORM_sdata,def.lowrange, elestrideattr,DW_FORM_udata,elesize ]); end else begin size:=def.size; if assigned(def.typesym) then append_entry(DW_TAG_array_type,true,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_byte_size,DW_FORM_udata,size ]) else append_entry(DW_TAG_array_type,true,[ DW_AT_byte_size,DW_FORM_udata,size ]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.elementdef)); finish_entry; { to simplify things, we don't write a multidimensional array here } append_entry(DW_TAG_subrange_type,false,[ DW_AT_lower_bound,DW_FORM_sdata,def.lowrange, DW_AT_upper_bound,DW_FORM_sdata,def.highrange, elestrideattr,DW_FORM_udata,elesize ]); end; append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.rangedef)); finish_entry; finish_children; end; procedure TDebugInfoDwarf.appenddef_record(list:TAsmList;def:trecorddef); begin if assigned(def.objname) then appenddef_record_named(list,def,def.objname^) else appenddef_record_named(list,def,''); end; procedure TDebugInfoDwarf.appenddef_record_named(list:TAsmList;def:trecorddef;const name: shortstring); begin if (name<>'') then append_entry(DW_TAG_structure_type,true,[ DW_AT_name,DW_FORM_string,name+#0, DW_AT_byte_size,DW_FORM_udata,def.size ]) else append_entry(DW_TAG_structure_type,true,[ DW_AT_byte_size,DW_FORM_udata,def.size ]); finish_entry; def.symtable.symList.ForEachCall(@enum_membersyms_callback,nil); { don't know whether external record declaration is allow but if it so then do the same as we do for other object types - skip procdef info generation for external defs (Paul Ishenin) } if not(oo_is_external in def.objectoptions) then write_symtable_procdefs(current_asmdata.asmlists[al_dwarf_info],def.symtable); finish_children; end; procedure TDebugInfoDwarf.appenddef_pointer(list:TAsmList;def:tpointerdef); begin append_entry(DW_TAG_pointer_type,false,[]); append_pointerclass(list,def); if not(is_voidpointer(def)) then append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.pointeddef)); finish_entry; end; procedure TDebugInfoDwarf.appenddef_string(list:TAsmList;def:tstringdef); procedure addnormalstringdef(const name: shortstring; lendef: tdef; maxlen: asizeuint); var { maxlen can be > high(int64) } slen : asizeuint; arr : tasmlabel; begin { fix length of openshortstring } slen:=aword(def.len); if (slen=0) or (slen>maxlen) then slen:=maxlen; { create a structure with two elements } if not(tf_dwarf_only_local_labels in target_info.flags) then current_asmdata.getglobaldatalabel(arr) else current_asmdata.getaddrlabel(arr); append_entry(DW_TAG_structure_type,true,[ DW_AT_name,DW_FORM_string,name+#0, DW_AT_byte_size,DW_FORM_udata,qword(lendef.size)+slen ]); finish_entry; { length entry } append_entry(DW_TAG_member,false,[ DW_AT_name,DW_FORM_string,'length'#0, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(0) ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(0)); append_labelentry_ref(DW_AT_type,def_dwarf_lab(lendef)); finish_entry; { string data entry } append_entry(DW_TAG_member,false,[ DW_AT_name,DW_FORM_string,'st'#0, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(1) ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(lendef.size)); append_labelentry_ref(DW_AT_type,arr); finish_entry; finish_children; { now the data array } if arr.bind=AB_GLOBAL then current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create_global(arr,0)) else current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(arr,0)); append_entry(DW_TAG_array_type,true,[ DW_AT_byte_size,DW_FORM_udata,def.size, DW_AT_byte_stride,DW_FORM_udata,1 ]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(cansichartype)); finish_entry; append_entry(DW_TAG_subrange_type,false,[ DW_AT_lower_bound,DW_FORM_udata,1, DW_AT_upper_bound,DW_FORM_udata,qword(slen) ]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(lendef)); finish_entry; finish_children; end; begin case def.stringtype of st_shortstring: begin addnormalstringdef('ShortString',u8inttype,255); end; st_longstring: begin { a) we don't actually support variables of this type currently b) this type is only used as the type for constant strings > 255 characters c) in such a case, gdb will allocate and initialise enough memory to hold the maximum size for such a string -> don't use high(qword)/high(cardinal) as maximum, since that will cause exhausting the VM space, but some "reasonably high" number that should be enough for most constant strings } {$ifdef cpu64bitaddr} addnormalstringdef('LongString',u64inttype,qword(1024*1024)); {$endif cpu64bitaddr} {$ifdef cpu32bitaddr} addnormalstringdef('LongString',u32inttype,cardinal(1024*1024)); {$endif cpu32bitaddr} {$ifdef cpu16bitaddr} addnormalstringdef('LongString',u16inttype,cardinal(1024)); {$endif cpu16bitaddr} end; st_ansistring: begin { looks like a pchar } append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(cansichartype)); finish_entry; end; st_unicodestring, st_widestring: begin { looks like a pwidechar } append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(cwidechartype)); finish_entry; end; end; end; procedure TDebugInfoDwarf.appenddef_procvar(list:TAsmList;def:tprocvardef); procedure doappend; var i : longint; begin if assigned(def.typesym) then append_entry(DW_TAG_subroutine_type,true,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_prototyped,DW_FORM_flag,true ]) else append_entry(DW_TAG_subroutine_type,true,[ DW_AT_prototyped,DW_FORM_flag,true ]); if not(is_void(tprocvardef(def).returndef)) then append_labelentry_ref(DW_AT_type,def_dwarf_lab(tprocvardef(def).returndef)); finish_entry; { write parameters } for i:=0 to def.paras.count-1 do begin append_entry(DW_TAG_formal_parameter,false,[ DW_AT_name,DW_FORM_string,symname(tsym(def.paras[i]), false)+#0 ]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(tparavarsym(def.paras[i]).vardef)); finish_entry; end; finish_children; end; var proc : tasmlabel; begin if not def.is_addressonly then begin { create a structure with two elements } if not(tf_dwarf_only_local_labels in target_info.flags) then current_asmdata.getglobaldatalabel(proc) else current_asmdata.getaddrlabel(proc); append_entry(DW_TAG_structure_type,true,[ DW_AT_byte_size,DW_FORM_data1,2*sizeof(pint) ]); finish_entry; { proc entry } append_entry(DW_TAG_member,false,[ DW_AT_name,DW_FORM_string,'Proc'#0, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(0) ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(0)); append_labelentry_ref(DW_AT_type,proc); finish_entry; { self entry } append_entry(DW_TAG_member,false,[ DW_AT_name,DW_FORM_string,'Self'#0, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(sizeof(pint)) ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(sizeof(pint))); append_labelentry_ref(DW_AT_type,def_dwarf_lab(class_tobject)); finish_entry; finish_children; if proc.bind=AB_GLOBAL then current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create_global(proc,0)) else current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(proc,0)); doappend; end else doappend; end; procedure TDebugInfoDwarf.beforeappenddef(list:TAsmList;def:tdef); var labsym : tasmsymbol; begin current_asmdata.asmlists[al_dwarf_info].concat(tai_comment.Create(strpnew('Definition '+def.typename))); labsym:=def_dwarf_lab(def); case labsym.bind of AB_GLOBAL: current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create_global(labsym,0)); AB_LOCAL: current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(labsym,0)); else internalerror(2013082001); end; { On Darwin, dwarf info is not linked in the final binary, but kept in the individual object files. This allows for faster linking, but means that you have to keep the object files for debugging and also that gdb only loads in the debug info of a particular object file once you step into or over a procedure in it. To solve this, there is a tool called dsymutil which can extract all the dwarf info from a program's object files. This utility however performs "smart linking" on the dwarf info and throws away all unreferenced dwarf entries. Since variables' types always point to the dwarfinfo for a tdef and never to that for a typesym, this means all debug entries generated for typesyms are thrown away. The problem with that is that we translate typesyms into DW_TAG_typedef, and gdb's dwarf-2 reader only makes types globally visibly if they are defined using a DW_TAG_typedef. So as a result, before running dsymutil types only become available once you stepped into/over a function in the object file where they are declared, and after running dsymutil they are all gone (printing variables still works because the tdef dwarf info is still available, but you cannot typecast anything outside the declaring units because the type names are not known there). The solution: if a tdef has an associated typesym, let the debug label for the tdef point to a DW_TAG_typedef instead of directly to the tdef itself. And don't write anything special for the typesym itself. Update: we now also do this for other platforms, because otherwise if you compile unit A without debug info and use one of its types in unit B, then no typedef will be generated and hence gdb will not be able to give a definition of the type. } if is_objc_class_or_protocol(def) then begin { for Objective-C classes, the typedef must refer to the struct itself, not to the pointer of the struct; Objective-C classes are not implicit pointers in Objective-C itself, only in FPC. So make the def label point to a pointer to the typedef, which in turn refers to the actual struct (for Delphi- style classes, the def points to the typedef, which refers to a pointer to the actual struct) } { implicit pointer } current_asmdata.getaddrlabel(TAsmLabel(pointer(labsym))); append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,labsym); finish_entry; current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(labsym,0)); end; if assigned(def.typesym) and not(df_generic in def.defoptions) then begin current_asmdata.getaddrlabel(TAsmLabel(pointer(labsym))); append_entry(DW_TAG_typedef,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0 ]); append_labelentry_ref(DW_AT_type,labsym); finish_entry; current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(labsym,0)); end end; procedure TDebugInfoDwarf.afterappenddef(list:TAsmList;def:tdef); var labsym : tasmsymbol; begin { create a derived reference type for pass-by-reference parameters } { (gdb doesn't support DW_AT_variable_parameter yet) } labsym:=def_dwarf_ref_lab(def); case labsym.bind of AB_GLOBAL: current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create_global(labsym,0)); AB_LOCAL: current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(labsym,0)); else internalerror(2013082002); end; append_entry(DW_TAG_reference_type,false,[]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def)); finish_entry; end; procedure TDebugInfoDwarf.appendprocdef(list:TAsmList; def:tprocdef); function dwarf_calling_convention(def: tprocdef): Tdwarf_calling_convention; begin case def.proccalloption of pocall_register: result:=DW_CC_GNU_borland_fastcall_i386; pocall_cdecl, pocall_stdcall, pocall_cppdecl, pocall_mwpascal: result:=DW_CC_normal; else result:=DW_CC_nocall; end end; var procendlabel : tasmlabel; procentry,s : string; cc : Tdwarf_calling_convention; st : tsymtable; vmtoffset : pint; in_currentunit : boolean; begin { only write debug info for procedures defined in the current module, except in case of methods (gcc-compatible) } in_currentunit:=def.in_currentunit; if not in_currentunit and not (def.owner.symtabletype in [objectsymtable,recordsymtable]) then exit; { happens for init procdef of units without init section } if in_currentunit and not assigned(def.procstarttai) then exit; { Procdefs are not handled by the regular def writing code, so dbg_state is not set/checked for them. Do it here. } if (def.dbg_state in [dbg_state_writing,dbg_state_written]) then exit; defnumberlist.Add(def); { Write methods and only in the scope of their parent objectdefs. } if (def.owner.symtabletype in [objectsymtable,recordsymtable]) then begin { this code can also work for nested procdefs, but is not yet activated for those because there is no clear advantage yet to limiting the scope of nested procedures to that of their parent, and it makes it impossible to set breakpoints in them by referring to their name. } st:=def.owner; while assigned(st.defowner) and (tdef(st.defowner).typ = procdef) do st:=tprocdef(st.defowner).owner; if assigned(st) and (tdef(st.defowner).dbg_state<>dbg_state_writing) then exit; end; def.dbg_state:=dbg_state_writing; current_asmdata.asmlists[al_dwarf_info].concat(tai_comment.Create(strpnew('Procdef '+def.fullprocname(true)))); if not is_objc_class_or_protocol(def.struct) then append_entry(DW_TAG_subprogram,true, [DW_AT_name,DW_FORM_string,symname(def.procsym, false)+#0]) else append_entry(DW_TAG_subprogram,true, [DW_AT_name,DW_FORM_string,def.mangledname+#0]); if (ds_dwarf_cpp in current_settings.debugswitches) and (def.owner.symtabletype in [objectsymtable,recordsymtable]) then begin { If C++ emulation is enabled, add DW_AT_linkage_name attribute for methods. LLDB uses it to display fully qualified method names. Add a simple C++ mangled name without params to achieve at least "Class::Method()" instead of just "Method" in LLDB. } s:=tabstractrecorddef(def.owner.defowner).objrealname^; procentry:=Format('_ZN%d%s', [Length(s), s]); s:=symname(def.procsym, false); procentry:=Format('%s%d%sEv'#0, [procentry, Length(s), s]); append_attribute(DW_AT_linkage_name,DW_FORM_string, [procentry]); end; append_proc_frame_base(list,def); { Append optional flags. } { All Pascal procedures are prototyped } append_attribute(DW_AT_prototyped,DW_FORM_flag,[true]); { Calling convention. } cc:=dwarf_calling_convention(def); if (cc<>DW_CC_normal) then append_attribute(DW_AT_calling_convention,DW_FORM_data1,[ord(cc)]); {$ifdef i8086} { Call model (near or far). Open Watcom compatible. } if tcpuprocdef(def).is_far then append_attribute(DW_AT_address_class,DW_FORM_data1,[DW_ADDR_far16]) else append_attribute(DW_AT_address_class,DW_FORM_data1,[DW_ADDR_none]); {$endif i8086} { Externally visible. } if (po_global in def.procoptions) and (def.parast.symtablelevel<=normal_function_level) then append_attribute(DW_AT_external,DW_FORM_flag,[true]); { Abstract or virtual/overriding method. } if (([po_abstractmethod, po_virtualmethod, po_overridingmethod] * def.procoptions) <> []) and not is_objc_class_or_protocol(def.struct) and not is_objectpascal_helper(def.struct) then begin if not(po_abstractmethod in def.procoptions) then append_attribute(DW_AT_virtuality,DW_FORM_data1,[ord(DW_VIRTUALITY_virtual)]) else append_attribute(DW_AT_virtuality,DW_FORM_data1,[ord(DW_VIRTUALITY_pure_virtual)]); { Element number in the vmt (needs to skip stuff coming before the actual method addresses in the vmt, so we use vmtmethodoffset() and then divide by sizeof(pint)). } vmtoffset:=tobjectdef(def.owner.defowner).vmtmethodoffset(def.extnumber); append_attribute(DW_AT_vtable_elem_location,DW_FORM_block1,[3+LengthUleb128(vmtoffset)]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_constu))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.Create_uleb128bit(vmtoffset)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus))); end; { accessibility: public/private/protected } if (def.owner.symtabletype in [objectsymtable,recordsymtable]) then append_visibility(def.visibility); { Return type. } if not(is_void(tprocdef(def).returndef)) then append_labelentry_ref(DW_AT_type,def_dwarf_lab(tprocdef(def).returndef)); { we can only write the start/end if this procedure is implemented in this module } if in_currentunit then begin { mark end of procedure } current_asmdata.getlabel(procendlabel,alt_dbgtype); current_asmdata.asmlists[al_procedures].insertbefore(tai_label.create(procendlabel),def.procendtai); if use_dotted_functions then procentry := '.' + def.mangledname else procentry := def.mangledname; {$ifdef i8086} append_seg_name(procentry); {$endif i8086} append_labelentry(DW_AT_low_pc,current_asmdata.RefAsmSymbol(procentry,AT_FUNCTION)); append_labelentry(DW_AT_high_pc,procendlabel); if not(target_info.system in systems_darwin) then begin current_asmdata.asmlists[al_dwarf_aranges].Concat( tai_const.create_type_sym(aitconst_ptr_unaligned,current_asmdata.RefAsmSymbol(procentry,AT_FUNCTION))); {$ifdef i8086} { bits 16..31 of the offset } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_16bit_unaligned(0)); { segment } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_seg_name(procentry)); {$endif i8086} current_asmdata.asmlists[al_dwarf_aranges].Concat( tai_const.Create_rel_sym(aitconst_ptr_unaligned,current_asmdata.RefAsmSymbol(procentry,AT_FUNCTION),procendlabel)); {$ifdef i8086} { bits 16..31 of length } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_16bit_unaligned(0)); {$endif i8086} end; end; { Don't write the funcretsym explicitly, it's also in the localsymtable and/or parasymtable. } finish_entry; if assigned(def.parast) then begin { First insert self, because gdb uses the fact whether or not the first parameter of a method is artificial to distinguish static from regular methods. } { fortunately, self is the always the first parameter in the paralist, since it has the lowest paranr. Note that this is not true for Objective-C, but those methods are detected in another way (by reading the ObjC run time information) } write_symtable_parasyms(current_asmdata.asmlists[al_dwarf_info],def.paras); end; { local type defs and vars should not be written inside the main proc } if in_currentunit and assigned(def.localst) and (def.localst.symtabletype=localsymtable) then write_symtable_syms(current_asmdata.asmlists[al_dwarf_info],def.localst); { last write the types from this procdef } if assigned(def.parast) then write_symtable_defs(current_asmdata.asmlists[al_dwarf_info],def.parast); { only try to write the localst if the routine is implemented here } if in_currentunit and assigned(def.localst) and (def.localst.symtabletype=localsymtable) then begin write_symtable_defs(current_asmdata.asmlists[al_dwarf_info],def.localst); { Write nested procedures -- disabled, see scope check at the beginning; currently, these are still written in the global scope. } // write_symtable_procdefs(current_asmdata.asmlists[al_dwarf_info],def.localst); end; finish_children; end; function TDebugInfoDwarf.get_symlist_sym_offset(symlist: ppropaccesslistitem; out sym: tabstractvarsym; out offset: pint): boolean; var elesize : pint; currdef : tdef; indirection: boolean; begin result:=false; if not assigned(symlist) then exit; sym:=nil; offset:=0; currdef:=nil; indirection:=false; repeat case symlist^.sltype of sl_load: begin if assigned(sym) then internalerror(2009031203); if not(symlist^.sym.typ in [paravarsym,localvarsym,staticvarsym,fieldvarsym]) then { can't handle... } exit; sym:=tabstractvarsym(symlist^.sym); currdef:=tabstractvarsym(sym).vardef; if ((sym.typ=paravarsym) and paramanager.push_addr_param(tparavarsym(sym).varspez,sym.vardef,tprocdef(sym.owner.defowner).proccalloption)) then indirection:=true; end; sl_subscript: begin if not assigned(currdef) then internalerror(2009031301); if (symlist^.sym.typ<>fieldvarsym) then internalerror(2009031202); { can't handle offsets with indirections yet } if indirection then exit; if is_packed_record_or_object(currdef) then begin { can't calculate the address of a non-byte aligned field } if (tfieldvarsym(symlist^.sym).fieldoffset mod 8) <> 0 then exit; inc(offset,tfieldvarsym(symlist^.sym).fieldoffset div 8) end else inc(offset,tfieldvarsym(symlist^.sym).fieldoffset); currdef:=tfieldvarsym(symlist^.sym).vardef; end; sl_absolutetype, sl_typeconv: begin currdef:=symlist^.def; { ignore, these don't change the address } end; sl_vec: begin if not assigned(currdef) or (currdef.typ<>arraydef) then internalerror(2009031201); { can't handle offsets with indirections yet } if indirection then exit; if not is_packed_array(currdef) then elesize:=tarraydef(currdef).elesize else begin elesize:=tarraydef(currdef).elepackedbitsize; { can't calculate the address of a non-byte aligned element } if (elesize mod 8)<>0 then exit; elesize:=elesize div 8; end; inc(offset,(symlist^.value.svalue-tarraydef(currdef).lowrange)*elesize); currdef:=tarraydef(currdef).elementdef; end; else internalerror(2009031401); end; symlist:=symlist^.next; until not assigned(symlist); if not assigned(sym) then internalerror(2009031205); result:=true; end; procedure TDebugInfoDwarf.appendsym_var(list:TAsmList;sym:tabstractnormalvarsym); begin appendsym_var_with_name_type_offset(list,sym,symname(sym, false),sym.vardef,0,[]); end; procedure TDebugInfoDwarf.appendsym_var_with_name_type_offset(list:TAsmList; sym:tabstractnormalvarsym; const name: string; def: tdef; offset: pint; const flags: tdwarfvarsymflags); var templist : TAsmList; blocksize,size_of_int : longint; tag : tdwarf_tag; has_high_reg : boolean; dreg,dreghigh : shortint; {$ifdef i8086} has_segment_sym_name : boolean=false; segment_sym_name : TSymStr=''; segment_reg: TRegister=NR_NO; {$endif i8086} begin blocksize:=0; dreghigh:=0; { external symbols can't be resolved at link time, so we can't generate stabs for them not sure if this applies to dwarf as well (FK) } if vo_is_external in sym.varoptions then exit; { There is no space allocated for not referenced locals } if (sym.owner.symtabletype=localsymtable) and (sym.refs=0) then exit; templist:=TAsmList.create; case sym.localloc.loc of LOC_REGISTER, LOC_CREGISTER, LOC_MMREGISTER, LOC_CMMREGISTER, LOC_FPUREGISTER, LOC_CFPUREGISTER : begin { dwarf_reg_no_error might return -1 in case the register variable has been optimized out } dreg:=dwarf_reg_no_error(sym.localloc.register); has_high_reg:=(sym.localloc.loc in [LOC_REGISTER,LOC_CREGISTER]) and (sym.localloc.registerhi<>NR_NO); if has_high_reg then dreghigh:=dwarf_reg_no_error(sym.localloc.registerhi); if dreghigh=-1 then has_high_reg:=false; if (sym.localloc.loc in [LOC_REGISTER,LOC_CREGISTER]) and (sym.typ=paravarsym) and paramanager.push_addr_param(sym.varspez,sym.vardef,tprocdef(sym.owner.defowner).proccalloption) and not(vo_has_local_copy in sym.varoptions) and not is_open_string(sym.vardef) and (dreg>=0) then begin templist.concat(tai_const.create_8bit(ord(DW_OP_bregx))); templist.concat(tai_const.create_uleb128bit(dreg)); templist.concat(tai_const.create_sleb128bit(0)); blocksize:=1+Lengthuleb128(dreg)+LengthSleb128(0); end else begin if has_high_reg then begin templist.concat(tai_comment.create(strpnew('high:low reg pair variable'))); size_of_int:=sizeof(aint); templist.concat(tai_const.create_8bit(ord(DW_OP_regx))); templist.concat(tai_const.create_uleb128bit(dreg)); blocksize:=1+Lengthuleb128(dreg); templist.concat(tai_const.create_8bit(ord(DW_OP_piece))); templist.concat(tai_const.create_uleb128bit(size_of_int)); blocksize:=blocksize+1+Lengthuleb128(size_of_int); templist.concat(tai_const.create_8bit(ord(DW_OP_regx))); templist.concat(tai_const.create_uleb128bit(dreghigh)); blocksize:=blocksize+1+Lengthuleb128(dreghigh); templist.concat(tai_const.create_8bit(ord(DW_OP_piece))); templist.concat(tai_const.create_uleb128bit(size_of_int)); blocksize:=blocksize+1+Lengthuleb128(size_of_int); end else if (dreg>=0) then begin templist.concat(tai_const.create_8bit(ord(DW_OP_regx))); templist.concat(tai_const.create_uleb128bit(dreg)); blocksize:=1+Lengthuleb128(dreg); end; end; end; else begin case sym.typ of staticvarsym: begin if (vo_is_thread_var in sym.varoptions) then begin { TODO: !!! FIXME: dwarf for thread vars !!!} { This is only a minimal change to at least be able to get a value in only one thread is present PM 2014-11-21, like for stabs format } templist.concat(tai_const.create_8bit(ord(DW_OP_addr))); templist.concat(tai_const.Create_type_name(aitconst_ptr_unaligned,sym.mangledname, offset+sizeof(pint))); blocksize:=1+sizeof(puint); end else begin templist.concat(tai_const.create_8bit(ord(DW_OP_addr))); templist.concat(tai_const.Create_type_name(aitconst_ptr_unaligned,sym.mangledname,offset)); blocksize:=1+sizeof(puint); {$ifdef i8086} segment_sym_name:=sym.mangledname; has_segment_sym_name:=true; {$endif i8086} end; end; paravarsym, localvarsym: begin { Happens when writing debug info for paras of procdefs not implemented in the current module. Can't add a general check for LOC_INVALID above, because staticvarsyms may also have it. } if sym.localloc.loc<> LOC_INVALID then begin if is_fbreg(sym.localloc.reference.base) then begin templist.concat(tai_const.create_8bit(ord(DW_OP_fbreg))); templist.concat(tai_const.create_sleb128bit(sym.localloc.reference.offset+offset)); blocksize:=1+Lengthsleb128(sym.localloc.reference.offset+offset); end else begin dreg:=dwarf_reg(sym.localloc.reference.base); if dreg<=31 then begin templist.concat(tai_const.create_8bit(ord(DW_OP_breg0)+dreg)); templist.concat(tai_const.create_sleb128bit(sym.localloc.reference.offset+offset)); blocksize:=1+Lengthsleb128(sym.localloc.reference.offset+offset); end else begin templist.concat(tai_const.create_8bit(ord(DW_OP_bregx))); templist.concat(tai_const.create_uleb128bit(dreg)); templist.concat(tai_const.create_sleb128bit(sym.localloc.reference.offset+offset)); blocksize:=1+Lengthuleb128(dreg)+LengthSleb128(sym.localloc.reference.offset+offset); end; end; {$ifdef i8086} segment_reg:=sym.localloc.reference.segment; {$endif i8086} {$ifndef gdb_supports_DW_AT_variable_parameter} { Parameters which are passed by reference. (var and the like) Hide the reference-pointer and dereference the pointer in the DW_AT_location block. } if (sym.typ=paravarsym) and paramanager.push_addr_param(sym.varspez,sym.vardef,tprocdef(sym.owner.defowner).proccalloption) and not(vo_has_local_copy in sym.varoptions) and not is_open_string(sym.vardef) then begin templist.concat(tai_const.create_8bit(ord(DW_OP_deref))); inc(blocksize); end {$endif not gdb_supports_DW_AT_variable_parameter} end; end else internalerror(200601288); end; end; end; { function results must not be added to the parameter list, as they are not part of the signature of the function (gdb automatically adds them according to the ABI specifications when calling the function) } if (sym.typ=paravarsym) and not(dvf_force_local_var in flags) and not(vo_is_funcret in sym.varoptions) then tag:=DW_TAG_formal_parameter else tag:=DW_TAG_variable; { must be parasym of externally implemented procdef, but the parasymtable can con also contain e.g. absolutevarsyms -> check symtabletype} if (sym.owner.symtabletype=parasymtable) and (sym.localloc.loc=LOC_INVALID) then begin if (sym.owner.symtabletype<>parasymtable) then internalerror(2009101001); append_entry(tag,false,[ DW_AT_name,DW_FORM_string,name+#0 { DW_AT_decl_file,DW_FORM_data1,0, DW_AT_decl_line,DW_FORM_data1, } ]) end else if not(sym.localloc.loc in [LOC_REGISTER,LOC_CREGISTER,LOC_MMREGISTER, LOC_CMMREGISTER,LOC_FPUREGISTER,LOC_CFPUREGISTER]) and ((sym.owner.symtabletype = globalsymtable) or (sp_static in sym.symoptions) or (vo_is_public in sym.varoptions)) then append_entry(tag,false,[ DW_AT_name,DW_FORM_string,name+#0, { DW_AT_decl_file,DW_FORM_data1,0, DW_AT_decl_line,DW_FORM_data1, } DW_AT_external,DW_FORM_flag,true, { data continues below } DW_AT_location,DW_FORM_block1,blocksize ]) {$ifdef gdb_supports_DW_AT_variable_parameter} else if (sym.typ=paravarsym) and paramanager.push_addr_param(sym.varspez,sym.vardef,tprocdef(sym.owner.defowner).proccalloption) and not(vo_has_local_copy in sym.varoptions) and not is_open_string(sym.vardef) then append_entry(tag,false,[ DW_AT_name,DW_FORM_string,name+#0, DW_AT_variable_parameter,DW_FORM_flag,true, { DW_AT_decl_file,DW_FORM_data1,0, DW_AT_decl_line,DW_FORM_data1, } { data continues below } DW_AT_location,DW_FORM_block1,blocksize ]) {$endif gdb_supports_DW_AT_variable_parameter} else append_entry(tag,false,[ DW_AT_name,DW_FORM_string,name+#0, { DW_AT_decl_file,DW_FORM_data1,0, DW_AT_decl_line,DW_FORM_data1, } { data continues below } DW_AT_location,DW_FORM_block1,blocksize ]); { append block data } current_asmdata.asmlists[al_dwarf_info].concatlist(templist); { Mark self as artificial for methods, because gdb uses the fact whether or not the first parameter of a method is artificial to distinguish regular from static methods (since there are no no vo_is_self parameters for static methods, we don't have to check that). } if (vo_is_self in sym.varoptions) then append_attribute(DW_AT_artificial,DW_FORM_flag,[true]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def)); {$ifdef i8086} if has_segment_sym_name then append_seg_name(segment_sym_name) else if segment_reg<>NR_NO then append_seg_reg(segment_reg); {$endif i8086} templist.free; finish_entry; end; procedure TDebugInfoDwarf.appendsym_staticvar(list:TAsmList;sym:tstaticvarsym); begin appendsym_var(list,sym); end; procedure TDebugInfoDwarf.appendsym_localvar(list:TAsmList;sym:tlocalvarsym); begin appendsym_var(list,sym); end; procedure TDebugInfoDwarf.appendsym_paravar(list:TAsmList;sym:tparavarsym); begin appendsym_var(list,sym); end; procedure TDebugInfoDwarf.appendsym_fieldvar(list:TAsmList;sym: tfieldvarsym); begin appendsym_fieldvar_with_name_offset(list,sym,symname(sym, false),sym.vardef,0); end; procedure TDebugInfoDwarf.appendsym_fieldvar_with_name_offset(list:TAsmList;sym: tfieldvarsym;const name: string; def: tdef; offset: pint); var bitoffset, fieldoffset, fieldnatsize: asizeint; begin if (sp_static in sym.symoptions) or (sym.visibility=vis_hidden) then exit; if (tabstractrecordsymtable(sym.owner).usefieldalignment<>bit_alignment) or { only ordinals are bitpacked } not is_ordinal(sym.vardef) then begin { other kinds of fields can however also appear in a bitpacked } { record, and then their offset is also specified in bits rather } { than in bytes } if (tabstractrecordsymtable(sym.owner).usefieldalignment<>bit_alignment) then fieldoffset:=sym.fieldoffset else fieldoffset:=sym.fieldoffset div 8; inc(fieldoffset,offset); append_entry(DW_TAG_member,false,[ DW_AT_name,DW_FORM_string,name+#0, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(fieldoffset) ]); end else begin if (sym.vardef.packedbitsize > 255) then internalerror(2007061201); { we don't bitpack according to the ABI, but as close as } { possible, i.e., equivalent to gcc's } { __attribute__((__packed__)), which is also what gpc } { does. } fieldnatsize:=max(sizeof(pint),sym.vardef.size); fieldoffset:=(sym.fieldoffset div (fieldnatsize*8)) * fieldnatsize; inc(fieldoffset,offset); bitoffset:=sym.fieldoffset mod (fieldnatsize*8); if (target_info.endian=endian_little) then bitoffset:=(fieldnatsize*8)-bitoffset-sym.vardef.packedbitsize; append_entry(DW_TAG_member,false,[ DW_AT_name,DW_FORM_string,symname(sym, false)+#0, { gcc also generates both a bit and byte size attribute } { we don't support ordinals >= 256 bits } DW_AT_byte_size,DW_FORM_data1,fieldnatsize, { nor >= 256 bits (not yet, anyway, see IE above) } DW_AT_bit_size,DW_FORM_data1,sym.vardef.packedbitsize, { data1 and data2 are unsigned, bitoffset can also be negative } DW_AT_bit_offset,DW_FORM_data4,bitoffset, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(fieldoffset) ]); end; current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(fieldoffset)); if (sym.owner.symtabletype in [objectsymtable,recordsymtable]) then append_visibility(sym.visibility); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def)); finish_entry; end; procedure TDebugInfoDwarf.appendsym_const(list:TAsmList;sym:tconstsym); begin appendsym_const_member(list,sym,false); end; procedure TDebugInfoDwarf.appendsym_const_member(list:TAsmList;sym:tconstsym;ismember:boolean); var i, size: aint; usedef: tdef; begin { These are default values of parameters. These should be encoded via DW_AT_default_value, not as a separate sym. Moreover, their type is not available when writing the debug info for external procedures. } if (sym.owner.symtabletype=parasymtable) then exit; if ismember then append_entry(DW_TAG_member,false,[ DW_AT_name,DW_FORM_string,symname(sym, false)+#0, { The DW_AT_declaration tag is invalid according to the DWARF specifications. But gcc adds this to static const members and gdb checks for this flag. So we have to set it also. } DW_AT_declaration,DW_FORM_flag,true, DW_AT_external,DW_FORM_flag,true ]) else append_entry(DW_TAG_variable,false,[ DW_AT_name,DW_FORM_string,symname(sym, false)+#0 ]); { for string constants, constdef isn't set because they have no real type } case sym.consttyp of conststring: begin { if DW_FORM_string is used below one day, this usedef should probably become nil } { note: < 255 instead of <= 255 because we have to store the entire length of the string as well, and 256 does not fit in a byte } if (sym.value.len<255) then usedef:=cshortstringtype else usedef:=clongstringtype; end; constresourcestring, constwstring: usedef:=nil; else usedef:=sym.constdef; end; if assigned(usedef) then append_labelentry_ref(DW_AT_type,def_dwarf_lab(usedef)); AddConstToAbbrev(ord(DW_AT_const_value)); case sym.consttyp of conststring: begin { DW_FORM_string isn't supported yet by the Pascal value printer -> create a string using raw bytes } if (sym.value.len<255) then begin AddConstToAbbrev(ord(DW_FORM_block1)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(sym.value.len+1)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(sym.value.len)); end else begin AddConstToAbbrev(ord(DW_FORM_block)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(sym.value.len+sizesinttype.size)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.Create_sizeint_unaligned(sym.value.len)); end; i:=0; size:=sym.value.len; while(i make them local; we don't need the debugtable stuff there either, so it doesn't matter that they are not global. } if (target_info.system in systems_darwin) then dbgname:='L'+dbgname; new_section(current_asmdata.asmlists[al_start],sec_code,dbgname,0,secorder_begin); if not(target_info.system in systems_darwin) then current_asmdata.asmlists[al_start].concat(tai_symbol.Createname_global(dbgname,AT_METADATA,0,voidpointertype)) else current_asmdata.asmlists[al_start].concat(tai_symbol.Createname(dbgname,AT_METADATA,0,voidpointertype)); dbgname:=make_mangledname('DEBUGEND',current_module.localsymtable,''); { See above. } if (target_info.system in systems_darwin) then dbgname:='L'+dbgname; new_section(current_asmdata.asmlists[al_end],sec_code,dbgname,0,secorder_end); if not(target_info.system in systems_darwin) then current_asmdata.asmlists[al_end].concat(tai_symbol.Createname_global(dbgname,AT_METADATA,0,voidpointertype)) else current_asmdata.asmlists[al_end].concat(tai_symbol.Createname(dbgname,AT_METADATA,0,voidpointertype)); { insert .Ldebug_abbrev0 label } templist:=TAsmList.create; new_section(templist,sec_debug_abbrev,'',0); templist.concat(tai_symbol.createname(target_asm.labelprefix+'debug_abbrevsection0',AT_METADATA,0,voidpointertype)); { add any extra stuff which needs to be in the abbrev section, but before } { the actual abbreviations, in between the symbol above and below, i.e. here } templist.concat(tai_symbol.createname(target_asm.labelprefix+'debug_abbrev0',AT_METADATA,0,voidpointertype)); current_asmdata.asmlists[al_start].insertlist(templist); templist.free; { insert .Ldebug_line0 label } templist:=TAsmList.create; new_section(templist,sec_debug_line,'',0); templist.concat(tai_symbol.createname(target_asm.labelprefix+'debug_linesection0',AT_METADATA,0,voidpointertype)); { add any extra stuff which needs to be in the line section, but before } { the actual line info, in between the symbol above and below, i.e. here } templist.concat(tai_symbol.createname(target_asm.labelprefix+'debug_line0',AT_METADATA,0,voidpointertype)); current_asmdata.asmlists[al_start].insertlist(templist); templist.free; { finalize line info if the unit doesn't contain any function/ } { procedure/init/final code } finish_lineinfo; { debug line header } linelist := current_asmdata.asmlists[al_dwarf_line]; new_section(linelist,sec_debug_line,'',0); linelist.concat(tai_comment.Create(strpnew('=== header start ==='))); { size } current_asmdata.getlabel(lbl,alt_dbgfile); if use_64bit_headers then linelist.concat(tai_const.create_32bit_unaligned(longint($FFFFFFFF))); linelist.concat(tai_const.create_rel_sym(offsetreltype, lbl,current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'edebug_line0',AB_LOCAL,AT_METADATA,voidpointertype))); linelist.concat(tai_label.create(lbl)); { version } linelist.concat(tai_const.create_16bit_unaligned(dwarf_version)); { header length } current_asmdata.getlabel(lbl,alt_dbgfile); linelist.concat(tai_const.create_rel_sym(offsetreltype, lbl,current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'ehdebug_line0',AB_LOCAL,AT_METADATA,voidpointertype))); linelist.concat(tai_label.create(lbl)); { minimum_instruction_length } linelist.concat(tai_const.create_8bit(1)); { default_is_stmt } linelist.concat(tai_const.create_8bit(1)); { line_base } linelist.concat(tai_const.create_8bit(LINE_BASE)); { line_range } { only line increase, no adress } linelist.concat(tai_const.create_8bit(255)); { opcode_base } linelist.concat(tai_const.create_8bit(OPCODE_BASE)); { standard_opcode_lengths } { MWE: sigh... why adding the default lengths (and make those sizes sense with LEB encoding) } { DW_LNS_copy } linelist.concat(tai_const.create_8bit(0)); { DW_LNS_advance_pc } linelist.concat(tai_const.create_8bit(1)); { DW_LNS_advance_line } linelist.concat(tai_const.create_8bit(1)); { DW_LNS_set_file } linelist.concat(tai_const.create_8bit(1)); { DW_LNS_set_column } linelist.concat(tai_const.create_8bit(1)); { DW_LNS_negate_stmt } linelist.concat(tai_const.create_8bit(0)); { DW_LNS_set_basic_block } linelist.concat(tai_const.create_8bit(0)); { DW_LNS_const_add_pc } linelist.concat(tai_const.create_8bit(0)); { DW_LNS_fixed_advance_pc } linelist.concat(tai_const.create_8bit(1)); { DW_LNS_set_prologue_end } linelist.concat(tai_const.create_8bit(0)); { DW_LNS_set_epilogue_begin } linelist.concat(tai_const.create_8bit(0)); { DW_LNS_set_isa } linelist.concat(tai_const.create_8bit(1)); { Create single list of filenames sorted in IndexNr } flist:=TFPList.Create; for n := 0 to dirlist.Count - 1 do begin ditem := TDirIndexItem(dirlist[n]); for m := 0 to ditem.Files.Count - 1 do flist.Add(ditem.Files[m]); end; flist.Sort(@FileListSortCompare); { include_directories } linelist.concat(tai_comment.Create(strpnew('include_directories'))); for n := 0 to dirlist.Count - 1 do begin ditem := TDirIndexItem(dirlist[n]); if ditem.Name = '.' then Continue; { Write without trailing path delimiter and also don't prefix with ./ for current dir (already done while adding to dirlist } linelist.concat(tai_string.create(ditem.Name+#0)); end; linelist.concat(tai_const.create_8bit(0)); { file_names } linelist.concat(tai_comment.Create(strpnew('file_names'))); for n := 0 to flist.Count - 1 do begin fitem := TFileIndexItem(flist[n]); { file name } linelist.concat(tai_string.create(fitem.Name+#0)); { directory index } linelist.concat(tai_const.create_uleb128bit(fitem.DirIndex)); { last modification } linelist.concat(tai_const.create_uleb128bit(0)); { file length } linelist.concat(tai_const.create_uleb128bit(0)); end; linelist.concat(tai_const.create_8bit(0)); { end of debug line header } linelist.concat(tai_symbol.createname(target_asm.labelprefix+'ehdebug_line0',AT_METADATA,0,voidpointertype)); linelist.concat(tai_comment.Create(strpnew('=== header end ==='))); { add line program } linelist.concatList(asmline); { end of debug line table } linelist.concat(tai_symbol.createname(target_asm.labelprefix+'edebug_line0',AT_METADATA,0,voidpointertype)); flist.free; end; procedure TDebugInfoDwarf.inserttypeinfo; var storefilepos : tfileposinfo; lenstartlabel,arangestartlabel: tasmlabel; i : longint; def: tdef; dbgname: string; vardatatype: ttypesym; bind: tasmsymbind; lang: tdwarf_source_language; begin current_module.flags:=current_module.flags or uf_has_dwarf_debuginfo; storefilepos:=current_filepos; current_filepos:=current_module.mainfilepos; if assigned(dwarflabels) then internalerror(2015100301); { one item per def, plus some extra space in case of nested types, externally used types etc (it will grow further if necessary) } i:=current_module.localsymtable.DefList.count*4; if assigned(current_module.globalsymtable) then inc(i,current_module.globalsymtable.DefList.count*2); dwarflabels:=TDwarfLabHashSet.Create(i,true,false); currabbrevnumber:=0; defnumberlist:=TFPObjectList.create(false); deftowritelist:=TFPObjectList.create(false); { not exported (FK) FILEREC TEXTREC } vardatatype:=try_search_system_type('TVARDATA'); if assigned(vardatatype) then vardatadef:=trecorddef(vardatatype.typedef); { write start labels } new_section(current_asmdata.asmlists[al_dwarf_info],sec_debug_info,'',0); current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.createname(target_asm.labelprefix+'debug_info0',AT_METADATA,0,voidpointertype)); { start abbrev section } new_section(current_asmdata.asmlists[al_dwarf_abbrev],sec_debug_abbrev,'',0); if not(target_info.system in systems_darwin) then begin { start aranges section } new_section(current_asmdata.asmlists[al_dwarf_aranges],sec_debug_aranges,'',0); current_asmdata.getlabel(arangestartlabel,alt_dbgfile); if use_64bit_headers then current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_32bit_unaligned(longint($FFFFFFFF))); current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_rel_sym(offsetreltype, arangestartlabel,current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'earanges0',AB_LOCAL,AT_METADATA,voidpointertype))); current_asmdata.asmlists[al_dwarf_aranges].concat(tai_label.create(arangestartlabel)); current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_16bit_unaligned(2)); if not(tf_dwarf_relative_addresses in target_info.flags) then current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_type_sym(offsetabstype, current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_info0',AB_LOCAL,AT_METADATA,voidpointertype))) else current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_rel_sym(offsetreltype, current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_infosection0',AB_LOCAL,AT_METADATA,voidpointertype), current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_info0',AB_LOCAL,AT_METADATA,voidpointertype))); {$ifdef i8086} { address_size } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_8bit(4)); { segment_size } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_8bit(2)); { no alignment/padding bytes on i8086 for Open Watcom compatibility } {$else i8086} { address_size } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_8bit(sizeof(pint))); { segment_size } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_8bit(0)); { alignment } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.create_32bit_unaligned(0)); {$endif i8086} { start ranges section } new_section(current_asmdata.asmlists[al_dwarf_ranges],sec_debug_ranges,'',0); end; { debug info header } current_asmdata.getlabel(lenstartlabel,alt_dbgfile); { size } if use_64bit_headers then current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_32bit_unaligned(longint($FFFFFFFF))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_rel_sym(offsetreltype, lenstartlabel,current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'edebug_info0',AB_LOCAL,AT_METADATA,voidpointertype))); current_asmdata.asmlists[al_dwarf_info].concat(tai_label.create(lenstartlabel)); { version } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(dwarf_version)); { abbrev table (=relative from section start)} if not(tf_dwarf_relative_addresses in target_info.flags) then current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_type_sym(offsetabstype, current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_abbrev0',AB_LOCAL,AT_METADATA,voidpointertype))) else current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_rel_sym(offsetreltype, current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_abbrevsection0',AB_LOCAL,AT_METADATA,voidpointertype), current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_abbrev0',AB_LOCAL,AT_METADATA,voidpointertype))); { address size } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(sizeof(pint))); if (ds_dwarf_cpp in current_settings.debugswitches) then lang:=DW_LANG_C_plus_plus else lang:=DW_LANG_Pascal83; { first manadatory compilation unit TAG } append_entry(DW_TAG_compile_unit,true,[ DW_AT_name,DW_FORM_string,relative_dwarf_path(current_module.sourcefiles.get_file(1).path+current_module.sourcefiles.get_file(1).name)+#0, DW_AT_producer,DW_FORM_string,'Free Pascal '+full_version_string+' '+date_string+#0, DW_AT_comp_dir,DW_FORM_string,BSToSlash(FixPath(GetCurrentDir,false))+#0, DW_AT_language,DW_FORM_data1,lang, DW_AT_identifier_case,DW_FORM_data1,DW_ID_case_insensitive]); {$ifdef i8086} case current_settings.x86memorymodel of mm_tiny, mm_small: append_attribute(DW_AT_WATCOM_memory_model,DW_FORM_data1,[DW_WATCOM_MEMORY_MODEL_small]); mm_medium: append_attribute(DW_AT_WATCOM_memory_model,DW_FORM_data1,[DW_WATCOM_MEMORY_MODEL_medium]); mm_compact: append_attribute(DW_AT_WATCOM_memory_model,DW_FORM_data1,[DW_WATCOM_MEMORY_MODEL_compact]); mm_large: append_attribute(DW_AT_WATCOM_memory_model,DW_FORM_data1,[DW_WATCOM_MEMORY_MODEL_large]); mm_huge: append_attribute(DW_AT_WATCOM_memory_model,DW_FORM_data1,[DW_WATCOM_MEMORY_MODEL_huge]); else internalerror(2018052402); end; {$endif i8086} { reference to line info section } if not(tf_dwarf_relative_addresses in target_info.flags) then append_labelentry_dataptr_abs(DW_AT_stmt_list,current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_line0',AB_LOCAL,AT_METADATA,voidpointertype)) else append_labelentry_dataptr_rel(DW_AT_stmt_list, current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_linesection0',AB_LOCAL,AT_METADATA,voidpointertype), current_asmdata.DefineAsmSymbol(target_asm.labelprefix+'debug_line0',AB_LOCAL,AT_METADATA,voidpointertype)); if (m_objectivec1 in current_settings.modeswitches) then append_attribute(DW_AT_APPLE_major_runtime_vers,DW_FORM_data1,[1]); dbgname:=make_mangledname('DEBUGSTART',current_module.localsymtable,''); if (target_info.system in systems_darwin) then begin bind:=AB_LOCAL; dbgname:='L'+dbgname; end else bind:=AB_GLOBAL; append_labelentry(DW_AT_low_pc,current_asmdata.DefineAsmSymbol(dbgname,bind,AT_METADATA,voidpointertype)); dbgname:=make_mangledname('DEBUGEND',current_module.localsymtable,''); if (target_info.system in systems_darwin) then dbgname:='L'+dbgname; append_labelentry(DW_AT_high_pc,current_asmdata.DefineAsmSymbol(dbgname,bind,AT_METADATA,voidpointertype)); finish_entry; { write all global/local variables. This will flag all required tdefs } if assigned(current_module.globalsymtable) then write_symtable_syms(current_asmdata.asmlists[al_dwarf_info],current_module.globalsymtable); if assigned(current_module.localsymtable) then write_symtable_syms(current_asmdata.asmlists[al_dwarf_info],current_module.localsymtable); { write all procedures and methods. This will flag all required tdefs } if assigned(current_module.globalsymtable) then write_symtable_procdefs(current_asmdata.asmlists[al_dwarf_info],current_module.globalsymtable); if assigned(current_module.localsymtable) then write_symtable_procdefs(current_asmdata.asmlists[al_dwarf_info],current_module.localsymtable); { reset unit type info flag } reset_unit_type_info; { write used types from the used units } write_used_unit_type_info(current_asmdata.asmlists[al_dwarf_info],current_module); { last write the types from this unit } if assigned(current_module.globalsymtable) then write_symtable_defs(current_asmdata.asmlists[al_dwarf_info],current_module.globalsymtable); if assigned(current_module.localsymtable) then write_symtable_defs(current_asmdata.asmlists[al_dwarf_info],current_module.localsymtable); { write defs not written yet } write_remaining_defs_to_write(current_asmdata.asmlists[al_dwarf_info]); { close compilation unit entry } finish_children; { end of debug info table } current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.createname(target_asm.labelprefix+'edebug_info0',AT_METADATA,0,voidpointertype)); { end of abbrev table } current_asmdata.asmlists[al_dwarf_abbrev].concat(tai_const.create_8bit(0)); if not(target_info.system in systems_darwin) then begin { end of aranges table } {$ifdef i8086} { 32-bit offset } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_32bit_unaligned(0)); { 16-bit segment } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_16bit_unaligned(0)); { 32-bit length } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_32bit_unaligned(0)); {$else i8086} { offset } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_aint(0)); { length } current_asmdata.asmlists[al_dwarf_aranges].concat(tai_const.Create_aint(0)); {$endif i8086} current_asmdata.asmlists[al_dwarf_aranges].concat(tai_symbol.createname(target_asm.labelprefix+'earanges0',AT_METADATA,0,voidpointertype)); end; { reset all def debug states } for i:=0 to defnumberlist.count-1 do begin def := tdef(defnumberlist[i]); if assigned(def) then def.dbg_state:=dbg_state_unused; end; dwarflabels.free; dwarflabels:=nil; defnumberlist.free; defnumberlist:=nil; deftowritelist.free; deftowritelist:=nil; current_filepos:=storefilepos; end; procedure TDebugInfoDwarf.referencesections(list:TAsmList); var hp : tmodule; begin { Reference all DEBUGINFO sections from the main .fpc section } { to prevent eliminating them by smartlinking } if (target_info.system in ([system_powerpc_macos]+systems_darwin)) then exit; new_section(list,sec_fpc,'links',0); { include reference to all debuginfo sections of used units } hp:=tmodule(loaded_units.first); while assigned(hp) do begin If ((hp.flags and uf_has_dwarf_debuginfo)=uf_has_dwarf_debuginfo) and not assigned(hp.package) then begin list.concat(Tai_const.Createname(make_mangledname('DEBUGSTART',hp.localsymtable,''),0)); list.concat(Tai_const.Createname(make_mangledname('DEBUGEND',hp.localsymtable,''),0)); end; hp:=tmodule(hp.next); end; end; function TDebugInfoDwarf.symname(sym: tsym; manglename: boolean): String; begin if (sym.typ=paravarsym) and (vo_is_self in tparavarsym(sym).varoptions) then { We use 'this' for regular methods because that's what gdb triggers on to automatically search fields. Don't do this for class methods, because search class fields is not supported, and gdb 7.0+ fails in this case because "this" is not a record in that case (it's a pointer to a vmt) } if not is_objc_class_or_protocol(tdef(sym.owner.defowner.owner.defowner)) and not(po_classmethod in tabstractprocdef(sym.owner.defowner).procoptions) then result:='this' else result:='self' else if (sym.typ=typesym) and is_objc_class_or_protocol(ttypesym(sym).typedef) then result:=tobjectdef(ttypesym(sym).typedef).objextname^ else if (ds_dwarf_method_class_prefix in current_settings.debugswitches) and (sym.typ=procsym) and (tprocsym(sym).owner.symtabletype in [objectsymtable,recordsymtable]) then begin result:=tprocsym(sym).owner.name^+'__'; if manglename then result := result + sym.name else result := result + symdebugname(sym); end else begin if manglename then result := sym.name else result := symdebugname(sym); end; end; procedure TDebugInfoDwarf.append_visibility(vis: tvisibility); begin case vis of vis_private, vis_strictprivate: append_attribute(DW_AT_accessibility,DW_FORM_data1,[ord(DW_ACCESS_private)]); vis_protected, vis_strictprotected: append_attribute(DW_AT_accessibility,DW_FORM_data1,[ord(DW_ACCESS_protected)]); vis_public: { default }; end; end; procedure TDebugInfoDwarf.insertlineinfo(list:TAsmList); var currfileinfo, lastfileinfo : tfileposinfo; currfuncname : pshortstring; currstatement: boolean; currsectype : TAsmSectiontype; hp, hpend : tai; infile : tinputfile; prevcolumn, diffline, prevline, prevfileidx, currfileidx, nolineinfolevel : Integer; prevlabel, currlabel : tasmlabel; begin {$ifdef OMFOBJSUPPORT} if ds_dwarf_omf_linnum in current_settings.debugswitches then dbgcodeview.InsertLineInfo_OMF_LINNUM_MsLink(list); {$endif OMFOBJSUPPORT} { this function will always terminate the lineinfo block } generated_lineinfo := true; { if this unit only contains code without debug info (implicit init or final etc), make sure the file table contains at least one entry (the main source of the unit), because normally this table gets populated via calls to get_file_index and that won't happen in this case } get_file_index(current_module.sourcefiles.get_file(1)); FillChar(lastfileinfo,sizeof(lastfileinfo),0); currfuncname:=nil; currsectype:=sec_code; hp:=Tai(list.first); currstatement:=true; prevcolumn := 0; prevline := 1; prevfileidx := 1; prevlabel := nil; nolineinfolevel:=0; while assigned(hp) do begin case hp.typ of ait_section : currsectype:=tai_section(hp).sectype; ait_function_name : begin currfuncname:=tai_function_name(hp).funcname; asmline.concat(tai_comment.Create(strpnew('function: '+currfuncname^))); end; ait_force_line : begin lastfileinfo.line:=-1; end; ait_marker : begin case tai_marker(hp).kind of mark_NoLineInfoStart: inc(nolineinfolevel); mark_NoLineInfoEnd: dec(nolineinfolevel); end; end; end; if (currsectype=sec_code) and (hp.typ=ait_instruction) then begin currfileinfo:=tailineinfo(hp).fileinfo; { file changed ? (must be before line info) } if (currfileinfo.fileindex<>0) and ((lastfileinfo.fileindex<>currfileinfo.fileindex) or (lastfileinfo.moduleindex<>currfileinfo.moduleindex)) then begin infile:=get_module(currfileinfo.moduleindex).sourcefiles.get_file(currfileinfo.fileindex); if assigned(infile) then begin currfileidx := get_file_index(infile); if prevfileidx <> currfileidx then begin list.insertbefore(tai_comment.Create(strpnew('path: '+infile.path)), hp); list.insertbefore(tai_comment.Create(strpnew('file: '+infile.name)), hp); list.insertbefore(tai_comment.Create(strpnew('indx: '+tostr(currfileidx))), hp); { set file } asmline.concat(tai_comment.Create(strpnew('path: '+infile.path))); asmline.concat(tai_comment.Create(strpnew('file: '+infile.name))); asmline.concat(tai_const.create_8bit(DW_LNS_set_file)); asmline.concat(tai_const.create_uleb128bit(currfileidx)); prevfileidx := currfileidx; end; { force new line info } lastfileinfo.line:=-1; end; end; { Set the line-nr to 0 if the code does not corresponds to a particular line } if nolineinfolevel>0 then currfileinfo.line := 0; { line changed ? } if (lastfileinfo.line<>currfileinfo.line) and ((currfileinfo.line<>0) or (nolineinfolevel>0)) then begin { set address } current_asmdata.getlabel(currlabel, alt_dbgline); list.insertbefore(tai_label.create(currlabel), hp); asmline.concat(tai_comment.Create(strpnew('['+tostr(currfileinfo.line)+':'+tostr(currfileinfo.column)+']'))); if (prevlabel = nil) or { darwin's assembler cannot create an uleb128 of the difference } { between to symbols } { same goes for Solaris native assembler } (target_info.system in systems_darwin) or (target_asm.id=as_solaris_as) then begin asmline.concat(tai_const.create_8bit(DW_LNS_extended_op)); asmline.concat(tai_const.create_uleb128bit(1+sizeof(pint))); asmline.concat(tai_const.create_8bit(DW_LNE_set_address)); asmline.concat(tai_const.create_type_sym(aitconst_ptr_unaligned,currlabel)); {$ifdef i8086} { on i8086 we also emit an Open Watcom-specific 'set segment' op } asmline.concat(tai_const.create_8bit(DW_LNS_extended_op)); asmline.concat(tai_const.create_uleb128bit(3)); asmline.concat(tai_const.create_8bit(DW_LNE_set_segment)); asmline.concat(tai_const.Create_seg_name(currlabel.Name)); {$endif i8086} end else begin asmline.concat(tai_const.create_8bit(DW_LNS_advance_pc)); asmline.concat(tai_const.create_rel_sym(aitconst_uleb128bit, prevlabel, currlabel)); end; prevlabel := currlabel; { set column } if prevcolumn <> currfileinfo.column then begin asmline.concat(tai_const.create_8bit(DW_LNS_set_column)); asmline.concat(tai_const.create_uleb128bit(currfileinfo.column)); prevcolumn := currfileinfo.column; end; { set statement } if (currfileinfo.line=0) and currstatement then begin currstatement := false; asmline.concat(tai_const.create_8bit(DW_LNS_negate_stmt)); end; if not currstatement and (currfileinfo.line>0) then begin currstatement := true; asmline.concat(tai_const.create_8bit(DW_LNS_negate_stmt)); end; { set line } diffline := currfileinfo.line - prevline; if (diffline >= LINE_BASE) and (OPCODE_BASE + diffline - LINE_BASE <= 255) then begin { use special opcode, this also adds a row } asmline.concat(tai_const.create_8bit(OPCODE_BASE + diffline - LINE_BASE)); end else begin if diffline <> 0 then begin asmline.concat(tai_const.create_8bit(DW_LNS_advance_line)); asmline.concat(tai_const.create_sleb128bit(diffline)); end; { no row added yet, do it manually } asmline.concat(tai_const.create_8bit(DW_LNS_copy)); end; prevline := currfileinfo.line; end; lastfileinfo:=currfileinfo; end; hpend:=hp; hp:=tai(hp.next); end; if assigned(hpend) then begin { set address for end (see appendix 3 of dwarf 2 specs) } current_asmdata.getlabel(currlabel, alt_dbgline); list.insertafter(tai_label.create(currlabel), hpend); asmline.concat(tai_const.create_8bit(DW_LNS_extended_op)); asmline.concat(tai_const.create_uleb128bit(1+sizeof(pint))); asmline.concat(tai_const.create_8bit(DW_LNE_set_address)); asmline.concat(tai_const.create_type_sym(aitconst_ptr_unaligned,currlabel)); end; { end sequence } asmline.concat(tai_const.Create_8bit(DW_LNS_extended_op)); asmline.concat(tai_const.Create_8bit(1)); asmline.concat(tai_const.Create_8bit(DW_LNE_end_sequence)); asmline.concat(tai_comment.Create(strpnew('###################'))); end; procedure TDebugInfoDwarf.finish_lineinfo; var infile: tinputfile; begin { only needed if no line info at all has been generated } if generated_lineinfo then begin { reset for next module compilation } generated_lineinfo:=false; exit; end; { at least the Darwin linker is annoyed if you do not } { finish the lineinfo section, or if it doesn't } { contain at least one file name and set_address } infile:=current_module.sourcefiles.get_file(1); if not assigned(infile) then internalerror(2006020211); asmline.concat(tai_const.create_8bit(DW_LNS_set_file)); asmline.concat(tai_const.create_uleb128bit(get_file_index(infile))); asmline.concat(tai_const.create_8bit(DW_LNS_extended_op)); asmline.concat(tai_const.create_uleb128bit(1+sizeof(pint))); asmline.concat(tai_const.create_8bit(DW_LNE_set_address)); asmline.concat(tai_const.create_type_sym(aitconst_ptr_unaligned,nil)); asmline.concat(tai_const.create_8bit(DW_LNS_extended_op)); asmline.concat(tai_const.Create_8bit(1)); asmline.concat(tai_const.Create_8bit(DW_LNE_end_sequence)); asmline.concat(tai_comment.Create(strpnew('###################'))); end; {**************************************************************************** TDebugInfoDwarf2 ****************************************************************************} procedure TDebugInfoDwarf2.appenddef_file(list:TAsmList;def: tfiledef); begin { gdb 6.4 doesn't support files so far so we use some fake recorddef file recs. are less than 1k so using data2 is enough } if assigned(def.typesym) then append_entry(DW_TAG_structure_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_byte_size,DW_FORM_udata,def.size ]) else append_entry(DW_TAG_structure_type,false,[ DW_AT_byte_size,DW_FORM_udata,def.size ]); finish_entry; end; procedure TDebugInfoDwarf2.appenddef_formal(list:TAsmList;def: tformaldef); begin { gdb 6.4 doesn't support DW_TAG_unspecified_type so we replace it with a unsigned type with size 0 (FK) } append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'FormalDef'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned, DW_AT_byte_size,DW_FORM_data1,0 ]); finish_entry; end; procedure TDebugInfoDwarf2.append_object_struct(def: tobjectdef; const createlabel: boolean; const objectname: PShortString); begin if createlabel then begin if not(tf_dwarf_only_local_labels in target_info.flags) then current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create_global(def_dwarf_class_struct_lab(def),0)) else current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(def_dwarf_class_struct_lab(def),0)); end; if assigned(objectname) then append_entry(DW_TAG_class_type,true,[ DW_AT_name,DW_FORM_string,objectname^+#0, DW_AT_byte_size,DW_FORM_udata,tobjectsymtable(def.symtable).datasize ]) else append_entry(DW_TAG_class_type,true,[ DW_AT_byte_size,DW_FORM_udata,tobjectsymtable(def.symtable).datasize ]); { Apple-specific tag that identifies it as an Objective-C class } if (def.objecttype=odt_objcclass) then append_attribute(DW_AT_APPLE_runtime_class,DW_FORM_data1,[DW_LANG_ObjC]); finish_entry; if assigned(def.childof) then begin append_entry(DW_TAG_inheritance,false,[ DW_AT_accessibility,DW_FORM_data1,DW_ACCESS_public, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(0) ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(0)); if (def.childof.dbg_state=dbg_state_unused) then def.childof.dbg_state:=dbg_state_used; if is_implicit_pointer_object_type(def) then append_labelentry_ref(DW_AT_type,def_dwarf_class_struct_lab(def.childof)) else append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.childof)); finish_entry; end; if (oo_has_vmt in def.objectoptions) and (not assigned(def.childof) or not(oo_has_vmt in def.childof.objectoptions)) then begin { vmt field } append_entry(DW_TAG_member,false,[ DW_AT_artificial,DW_FORM_flag,true, DW_AT_name,DW_FORM_string,'_vptr$'+def.objname^+#0, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(def.vmt_offset) ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(def.vmt_offset)); { should be changed into a pointer to a function returning an } { int and with TAG_unspecified_parameters } if (voidpointertype.dbg_state=dbg_state_unused) then voidpointertype.dbg_state:=dbg_state_used; append_labelentry_ref(DW_AT_type,def_dwarf_lab(voidpointertype)); finish_entry; end; def.symtable.symList.ForEachCall(@enum_membersyms_callback,nil); { Write the methods in the scope of the class/object, except for Objective-C. } if is_objc_class_or_protocol(def) then finish_children; { don't write procdefs of externally defined classes, gcc doesn't either (info is probably gotten from ObjC runtime) } if not(oo_is_external in def.objectoptions) then write_symtable_procdefs(current_asmdata.asmlists[al_dwarf_info],def.symtable); if not is_objc_class_or_protocol(def) then finish_children; end; procedure TDebugInfoDwarf2.appenddef_object(list:TAsmList;def: tobjectdef); begin case def.objecttype of odt_cppclass, odt_object: append_object_struct(def,false,def.objname); odt_interfacecom, odt_interfacecorba, odt_dispinterface, odt_helper, odt_class: begin { implicit pointer } append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,def_dwarf_class_struct_lab(def)); finish_entry; append_object_struct(def,true,def.objname); end; odt_objcclass: { Objective-C class: same as regular class, except for a) Apple-specific tag that identifies it as an Objective-C class b) use extname^ instead of objname } append_object_struct(def,true,def.objextname); odt_objcprotocol: begin append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(voidpointertype)); finish_entry; end; else internalerror(200602041); end; end; procedure TDebugInfoDwarf2.appenddef_set_intern(list:TAsmList;def: tsetdef; force_tag_set: boolean); var lab: tasmlabel; begin if force_tag_set or (ds_dwarf_sets in current_settings.debugswitches) then begin { current (20070704 -- patch was committed on 20060513) gdb cvs supports set types } if assigned(def.typesym) then append_entry(DW_TAG_set_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_byte_size,DW_FORM_data2,def.size ]) else append_entry(DW_TAG_set_type,false,[ DW_AT_byte_size,DW_FORM_data2,def.size ]); if assigned(def.elementdef) then begin if not(tf_dwarf_only_local_labels in target_info.flags) then current_asmdata.getglobaldatalabel(lab) else current_asmdata.getaddrlabel(lab); append_labelentry_ref(DW_AT_type,lab); finish_entry; if lab.bind=AB_GLOBAL then current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create_global(lab,0)) else current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(lab,0)); { Sets of e.g. [1..5] are actually stored as a set of [0..7], so write the exact boundaries of the set here. Let's hope no debugger ever rejects this because this "subrange" type can actually have a larger range than the original one. } append_entry(DW_TAG_subrange_type,false,[ DW_AT_lower_bound,DW_FORM_sdata,def.setbase, DW_AT_upper_bound,DW_FORM_sdata,get_max_value(def.elementdef).svalue ]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.elementdef)) end end else begin { gdb versions which don't support sets refuse to load the debug } { info of modules that contain set tags } if assigned(def.typesym) then append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned, DW_AT_byte_size,DW_FORM_data2,def.size ]) else append_entry(DW_TAG_base_type,false,[ DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned, DW_AT_byte_size,DW_FORM_data2,def.size ]); end; finish_entry; end; procedure TDebugInfoDwarf2.appenddef_set(list:TAsmList;def: tsetdef); begin appenddef_set_intern(list,def,false); end; procedure TDebugInfoDwarf2.appenddef_undefined(list:TAsmList;def: tundefineddef); begin { gdb 6.4 doesn't support DW_TAG_unspecified_type so we replace it with a unsigned type with size 0 (FK) } append_entry(DW_TAG_base_type,false,[ DW_AT_name,DW_FORM_string,'FormalDef'#0, DW_AT_encoding,DW_FORM_data1,DW_ATE_unsigned, DW_AT_byte_size,DW_FORM_data1,0 ]); finish_entry; end; procedure TDebugInfoDwarf2.appenddef_variant(list:TAsmList;def: tvariantdef); begin { variants aren't known to dwarf2 but writting tvardata should be enough } if assigned(vardatadef) then appenddef_record_named(list,trecorddef(vardatadef),'Variant'); end; function TDebugInfoDwarf2.dwarf_version: Word; begin Result:=2; end; {**************************************************************************** TDebugInfoDwarf3 ****************************************************************************} procedure TDebugInfoDwarf3.append_labelentry_addr_ref(attr : tdwarf_attribute;sym : tasmsymbol); begin AddConstToAbbrev(ord(DW_FORM_ref_addr)); { Since Dwarf 3 the length of a DW_FORM_ref_addr entry is not dependent on the pointer size of the target platform, but on the used Dwarf-format (32 bit or 64 bit) for the current compilation section. } if use_64bit_headers then current_asmdata.asmlists[al_dwarf_info].concat(tai_const.Create_type_sym(aitconst_64bit_unaligned,sym)) else current_asmdata.asmlists[al_dwarf_info].concat(tai_const.Create_type_sym(aitconst_32bit_unaligned,sym)); end; procedure tdebuginfodwarf3.appenddef_array(list: tasmlist; def: tarraydef); begin if not is_dynamic_array(def) then begin inherited appenddef_array(list,def); exit; end; if assigned(def.typesym) then append_entry(DW_TAG_array_type,true,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_data_location,DW_FORM_block1,2 ]) else append_entry(DW_TAG_array_type,true,[ DW_AT_data_location,DW_FORM_block1,2 ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_push_object_address))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.elementdef)); finish_entry; { to simplify things, we don't write a multidimensional array here } append_entry(DW_TAG_subrange_type,false,[ DW_AT_byte_stride,DW_FORM_udata,def.elesize, DW_AT_lower_bound,DW_FORM_udata,0, DW_AT_upper_bound,DW_FORM_block1,14 ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_push_object_address))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_dup))); { pointer = nil? } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_bra))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(5)); { yes -> length = 0 } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_const1s))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(byte(-1))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_skip))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(3)); { no -> load length } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_lit0)+sizeof(ptrint))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_minus))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.rangedef)); finish_entry; finish_children; end; procedure tdebuginfodwarf3.appenddef_string(list: tasmlist; def: tstringdef); procedure addstringdef(const name: shortstring; chardef: tdef; deref: boolean; lensize: aint); var upperopcodes: longint; begin { deref=true -> ansi/unicde/widestring; deref = false -> short/longstring } if assigned(def.typesym) then append_entry(DW_TAG_array_type,true,[ DW_AT_name,DW_FORM_string,name+#0, DW_AT_data_location,DW_FORM_block1,2+ord(not(deref)) ]) else append_entry(DW_TAG_array_type,true,[ DW_AT_data_location,DW_FORM_block1,2+ord(not(deref)) ]); { in all cases we start with the address of the string } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_push_object_address))); if deref then begin { ansi/unicode/widestring -> dereference the address of the string, and then we point to address of the string } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); end else begin { shortstring characters begin at string[1], so add one to the string's address } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_lit0)+lensize)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus))) end; { reference to the element type of the string } append_labelentry_ref(DW_AT_type,def_dwarf_lab(chardef)); finish_entry; { now the information about the length of the string } if deref then begin if not (is_widestring(def) and (tf_winlikewidestring in target_info.flags)) then upperopcodes:=13 else upperopcodes:=16; { lower bound is always 1, upper bound (length) needs to be calculated } append_entry(DW_TAG_subrange_type,false,[ DW_AT_lower_bound,DW_FORM_udata,1, DW_AT_upper_bound,DW_FORM_block1,upperopcodes ]); { high(string) is stored sizeof(sizeint) bytes before the string data } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_push_object_address))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_dup))); { pointer = nil? } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_bra))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(4)); { yes -> length = 0 } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_lit0))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_skip))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_16bit_unaligned(3)); { no -> load length } if upperopcodes=16 then { for Windows WideString the size is always a DWORD } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_lit4))) else current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_lit0)+sizesinttype.size)); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_minus))); if upperopcodes=16 then begin current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref_size))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(4)); end else current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); { for widestrings, the length is specified in bytes, so divide by two } if (upperopcodes=16) then begin current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_lit1))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_shr))); end; end else begin append_entry(DW_TAG_subrange_type,false,[ DW_AT_lower_bound,DW_FORM_udata,1, DW_AT_upper_bound,DW_FORM_block1,3 ]); { for shortstrings, the length is the first byte of the string } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_push_object_address))); { load 1 byte } current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref_size))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(lensize)); end; finish_entry; finish_children; end; begin if (ds_dwarf_cpp in current_settings.debugswitches) then begin // At least LLDB 6.0.0 does not like this implementation of string types. // Call the inherited DWARF 2 implementation, which works fine. inherited; exit; end; case def.stringtype of st_shortstring: begin addstringdef('ShortString',cansichartype,false,1); end; st_longstring: begin {$ifdef cpu64bitaddr} addstringdef('LongString',cansichartype,false,8); {$else cpu64bitaddr} addstringdef('LongString',cansichartype,false,4); {$endif cpu64bitaddr} end; st_ansistring: begin addstringdef('AnsiString',cansichartype,true,-1); end; st_unicodestring: begin addstringdef('UnicodeString',cwidechartype,true,-1); end; st_widestring: begin addstringdef('WideString',cwidechartype,true,-1) end; end; end; procedure TDebugInfoDwarf3.appenddef_file(list:TAsmList;def: tfiledef); begin if assigned(def.typesym) then append_entry(DW_TAG_file_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0, DW_AT_byte_size,DW_FORM_data2,def.size ]) else append_entry(DW_TAG_file_type,false,[ DW_AT_byte_size,DW_FORM_data2,def.size ]); if tfiledef(def).filetyp=ft_typed then append_labelentry_ref(DW_AT_type,def_dwarf_lab(tfiledef(def).typedfiledef)); finish_entry; end; procedure TDebugInfoDwarf3.appenddef_formal(list:TAsmList;def: tformaldef); begin if (ds_dwarf_cpp in current_settings.debugswitches) then begin // Do not use DW_TAG_unspecified_type for C++ simulation. // At least LLDB 3.9.0 crashes in such case. // Call the inherited DWARF 2 implementation, which works fine. inherited; exit; end; append_entry(DW_TAG_unspecified_type,false,[]); finish_entry; end; procedure TDebugInfoDwarf3.appenddef_object(list:TAsmList;def: tobjectdef); procedure dostruct(tag: tdwarf_tag); begin if assigned(def.objname) then append_entry(tag,true,[ DW_AT_name,DW_FORM_string,def.objrealname^+#0 ]) else append_entry(DW_TAG_structure_type,true,[]); append_attribute(DW_AT_byte_size,DW_FORM_udata,[tobjectsymtable(def.symtable).datasize]); // The pointer to the class-structure is hidden. The debug-information // does not contain an implicit pointer, but the data-adress is dereferenced here. // In case of a nil-pointer, report the class as being unallocated. append_block1(DW_AT_allocated,2); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_push_object_address))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); append_block1(DW_AT_data_location,2); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_push_object_address))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_deref))); finish_entry; end; procedure doimplicitpointer; var obj : tasmlabel; begin if not(tf_dwarf_only_local_labels in target_info.flags) then current_asmdata.getglobaldatalabel(obj) else current_asmdata.getaddrlabel(obj); { implicit pointer } append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,obj); finish_entry; current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(obj,0)); end; procedure doparent(isinterface: boolean); begin if not assigned(def.childof) then exit; if isinterface then begin append_entry(DW_TAG_inheritance,false,[]); end else begin append_entry(DW_TAG_inheritance,false,[ DW_AT_accessibility,DW_FORM_data1,DW_ACCESS_public, DW_AT_data_member_location,DW_FORM_block1,1+lengthuleb128(0) ]); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_8bit(ord(DW_OP_plus_uconst))); current_asmdata.asmlists[al_dwarf_info].concat(tai_const.create_uleb128bit(0)); end; append_labelentry_ref(DW_AT_type,def_dwarf_lab(def.childof)); finish_entry; end; var n: integer; begin case def.objecttype of odt_cppclass, odt_object: begin dostruct(DW_TAG_structure_type); doparent(false); end; odt_interfacecom, odt_interfacecorba, odt_dispinterface: begin dostruct(DW_TAG_interface_type); doparent(true); end; odt_helper, odt_class: begin //dostruct(DW_TAG_class_type); //doparent(false); append_entry(DW_TAG_pointer_type,false,[]); append_labelentry_ref(DW_AT_type,def_dwarf_class_struct_lab(def)); finish_entry; append_object_struct(def,true,def.objrealname); Exit; end; else internalerror(200609171); end; { add implemented interfaces } if assigned(def.ImplementedInterfaces) then for n := 0 to def.ImplementedInterfaces.count-1 do begin append_entry(DW_TAG_inheritance,false,[]); append_labelentry_ref(DW_AT_type,def_dwarf_lab(TImplementedInterface(def.ImplementedInterfaces[n]).IntfDef)); finish_entry; end; { add members } def.symtable.symList.ForEachCall(@enum_membersyms_callback,nil); finish_children; end; procedure TDebugInfoDwarf3.appenddef_set(list:TAsmList;def: tsetdef); begin appenddef_set_intern(list,def,true); end; procedure TDebugInfoDwarf3.appenddef_undefined(list:TAsmList;def: tundefineddef); begin { ??? can a undefined def have a typename ? } if assigned(def.typesym) then append_entry(DW_TAG_unspecified_type,false,[ DW_AT_name,DW_FORM_string,symname(def.typesym, false)+#0 ]) else append_entry(DW_TAG_unspecified_type,false,[ ]); finish_entry; end; procedure TDebugInfoDwarf3.appenddef_variant(list:TAsmList;def: tvariantdef); const VARIANTS: array[1..27] of record Value: Word; Name: String end = ( (value:0; name:''), (value:1; name:''), (value:2; name:'VSMALLINT'), (value:3; name:'VINTEGER'), (value:4; name:'VSINGLE'), (value:5; name:'VDOUBLE'), (value:6; name:'VCURRENCY'), (value:7; name:'VDATE'), (value:8; name:'VOLESTR'), (value:9; name:'VDISPATCH'), (value:10; name:'VERROR'), (value:11; name:'VBOOLEAN'), (value:12; name:''), (value:13; name:'VUNKNOWN'), (value:14; name:''), (value:16; name:'VSHORTINT'), (value:17; name:'VBYTE'), (value:18; name:'VWORD'), (value:19; name:'VLONGWORD'), (value:20; name:'VINT64'), (value:21; name:'VQWORD'), (value:36; name:'VRECORD'), (value:$48; name:''), (value:$100; name:'VSTRING'), (value:$101; name:'VANY'), (value:$2000; name:'VARRAY'), (value:$4000; name:'VPOINTER') ); var fs: tfieldvarsym; lbl: tasmlabel; idx: integer; begin { it could be done with DW_TAG_variant for the union part (if that info was available) now we do it manually for variants (MWE) } { struct } append_entry(DW_TAG_structure_type,true,[ DW_AT_name,DW_FORM_string,'Variant'#0, DW_AT_byte_size,DW_FORM_udata,vardatadef.size ]); finish_entry; append_entry(DW_TAG_variant_part,true,[ ]); current_asmdata.getaddrlabel(lbl); append_labelentry_ref(DW_AT_discr,lbl); finish_entry; { discriminant } fs := tfieldvarsym(vardatadef.symtable.Find('VTYPE')); if (fs = nil) or (fs.typ <> fieldvarsym) then internalerror(200609271); current_asmdata.asmlists[al_dwarf_info].concat(tai_symbol.create(lbl,0)); appendsym_fieldvar(list,fs); { variants } for idx := Low(VARIANTS) to High(VARIANTS) do begin append_entry(DW_TAG_variant,true,[ DW_AT_discr_value,DW_FORM_udata,VARIANTS[idx].value ]); finish_entry; if VARIANTS[idx].name <> '' then begin fs := tfieldvarsym(vardatadef.symtable.Find(VARIANTS[idx].name)); if (fs = nil) or (fs.typ <> fieldvarsym) then internalerror(20060927200+idx); appendsym_fieldvar(list,fs); end; finish_children; { variant } end; finish_children; { variant part } finish_children; { struct } end; function TDebugInfoDwarf3.dwarf_version: Word; begin Result:=3; end; function TDebugInfoDwarf3.symdebugname(sym: tsym): String; begin Result:=sym.realname; end; { TDebugInfoDwarf4 } function TDebugInfoDwarf4.dwarf_version: Word; begin Result:=4; end; {**************************************************************************** ****************************************************************************} const dbg_dwarf2_info : tdbginfo = ( id : dbg_dwarf2; idtxt : 'DWARF2'; ); dbg_dwarf3_info : tdbginfo = ( id : dbg_dwarf3; idtxt : 'DWARF3'; ); dbg_dwarf4_info : tdbginfo = ( id : dbg_dwarf4; idtxt : 'DWARF4'; ); initialization RegisterDebugInfo(dbg_dwarf2_info,TDebugInfoDwarf2); RegisterDebugInfo(dbg_dwarf3_info,TDebugInfoDwarf3); RegisterDebugInfo(dbg_dwarf4_info,TDebugInfoDwarf4); end.