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b811d2c292
gdb/ChangeLog: Update copyright year range in all GDB files.
485 lines
17 KiB
C++
485 lines
17 KiB
C++
/* DWARF 2 debugging format support for GDB.
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Copyright (C) 1994-2020 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#ifndef DWARF2READ_H
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#define DWARF2READ_H
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#include <unordered_map>
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#include "dwarf-index-cache.h"
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#include "filename-seen-cache.h"
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#include "gdb_obstack.h"
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#include "gdbsupport/hash_enum.h"
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/* Hold 'maintenance (set|show) dwarf' commands. */
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extern struct cmd_list_element *set_dwarf_cmdlist;
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extern struct cmd_list_element *show_dwarf_cmdlist;
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extern bool dwarf_always_disassemble;
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/* A descriptor for dwarf sections.
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S.ASECTION, SIZE are typically initialized when the objfile is first
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scanned. BUFFER, READIN are filled in later when the section is read.
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If the section contained compressed data then SIZE is updated to record
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the uncompressed size of the section.
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DWP file format V2 introduces a wrinkle that is easiest to handle by
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creating the concept of virtual sections contained within a real section.
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In DWP V2 the sections of the input DWO files are concatenated together
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into one section, but section offsets are kept relative to the original
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input section.
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If this is a virtual dwp-v2 section, S.CONTAINING_SECTION is a backlink to
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the real section this "virtual" section is contained in, and BUFFER,SIZE
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describe the virtual section. */
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struct dwarf2_section_info
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{
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union
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{
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/* If this is a real section, the bfd section. */
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asection *section;
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/* If this is a virtual section, pointer to the containing ("real")
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section. */
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struct dwarf2_section_info *containing_section;
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} s;
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/* Pointer to section data, only valid if readin. */
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const gdb_byte *buffer;
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/* The size of the section, real or virtual. */
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bfd_size_type size;
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/* If this is a virtual section, the offset in the real section.
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Only valid if is_virtual. */
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bfd_size_type virtual_offset;
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/* True if we have tried to read this section. */
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bool readin;
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/* True if this is a virtual section, False otherwise.
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This specifies which of s.section and s.containing_section to use. */
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bool is_virtual;
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};
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/* Read the contents of the section INFO.
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OBJFILE is the main object file, but not necessarily the file where
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the section comes from. E.g., for DWO files the bfd of INFO is the bfd
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of the DWO file.
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If the section is compressed, uncompress it before returning. */
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void dwarf2_read_section (struct objfile *objfile, dwarf2_section_info *info);
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struct tu_stats
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{
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int nr_uniq_abbrev_tables;
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int nr_symtabs;
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int nr_symtab_sharers;
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int nr_stmt_less_type_units;
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int nr_all_type_units_reallocs;
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};
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struct dwarf2_debug_sections;
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struct mapped_index;
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struct mapped_debug_names;
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struct signatured_type;
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struct die_info;
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typedef struct die_info *die_info_ptr;
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/* Collection of data recorded per objfile.
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This hangs off of dwarf2_objfile_data_key. */
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struct dwarf2_per_objfile
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{
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/* Construct a dwarf2_per_objfile for OBJFILE. NAMES points to the
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dwarf2 section names, or is NULL if the standard ELF names are
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used. CAN_COPY is true for formats where symbol
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interposition is possible and so symbol values must follow copy
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relocation rules. */
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dwarf2_per_objfile (struct objfile *objfile,
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const dwarf2_debug_sections *names,
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bool can_copy);
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~dwarf2_per_objfile ();
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DISABLE_COPY_AND_ASSIGN (dwarf2_per_objfile);
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/* Return the CU/TU given its index.
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This is intended for loops like:
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for (i = 0; i < (dwarf2_per_objfile->n_comp_units
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+ dwarf2_per_objfile->n_type_units); ++i)
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{
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dwarf2_per_cu_data *per_cu = dwarf2_per_objfile->get_cutu (i);
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...;
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}
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*/
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dwarf2_per_cu_data *get_cutu (int index);
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/* Return the CU given its index.
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This differs from get_cutu in that it's for when you know INDEX refers to a
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CU. */
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dwarf2_per_cu_data *get_cu (int index);
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/* Return the TU given its index.
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This differs from get_cutu in that it's for when you know INDEX refers to a
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TU. */
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signatured_type *get_tu (int index);
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/* Free all cached compilation units. */
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void free_cached_comp_units ();
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private:
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/* This function is mapped across the sections and remembers the
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offset and size of each of the debugging sections we are
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interested in. */
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void locate_sections (bfd *abfd, asection *sectp,
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const dwarf2_debug_sections &names);
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public:
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dwarf2_section_info info {};
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dwarf2_section_info abbrev {};
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dwarf2_section_info line {};
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dwarf2_section_info loc {};
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dwarf2_section_info loclists {};
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dwarf2_section_info macinfo {};
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dwarf2_section_info macro {};
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dwarf2_section_info str {};
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dwarf2_section_info line_str {};
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dwarf2_section_info ranges {};
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dwarf2_section_info rnglists {};
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dwarf2_section_info addr {};
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dwarf2_section_info frame {};
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dwarf2_section_info eh_frame {};
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dwarf2_section_info gdb_index {};
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dwarf2_section_info debug_names {};
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dwarf2_section_info debug_aranges {};
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std::vector<dwarf2_section_info> types;
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/* Back link. */
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struct objfile *objfile = NULL;
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/* Table of all the compilation units. This is used to locate
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the target compilation unit of a particular reference. */
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std::vector<dwarf2_per_cu_data *> all_comp_units;
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/* The .debug_types-related CUs (TUs). */
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std::vector<signatured_type *> all_type_units;
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/* Table of struct type_unit_group objects.
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The hash key is the DW_AT_stmt_list value. */
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htab_t type_unit_groups {};
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/* A table mapping .debug_types signatures to its signatured_type entry.
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This is NULL if the .debug_types section hasn't been read in yet. */
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htab_t signatured_types {};
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/* Type unit statistics, to see how well the scaling improvements
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are doing. */
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struct tu_stats tu_stats {};
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/* A chain of compilation units that are currently read in, so that
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they can be freed later. */
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dwarf2_per_cu_data *read_in_chain = NULL;
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/* A table mapping DW_AT_dwo_name values to struct dwo_file objects.
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This is NULL if the table hasn't been allocated yet. */
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htab_up dwo_files;
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/* True if we've checked for whether there is a DWP file. */
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bool dwp_checked = false;
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/* The DWP file if there is one, or NULL. */
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std::unique_ptr<struct dwp_file> dwp_file;
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/* The shared '.dwz' file, if one exists. This is used when the
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original data was compressed using 'dwz -m'. */
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std::unique_ptr<struct dwz_file> dwz_file;
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/* Whether copy relocations are supported by this object format. */
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bool can_copy;
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/* A flag indicating whether this objfile has a section loaded at a
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VMA of 0. */
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bool has_section_at_zero = false;
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/* True if we are using the mapped index,
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or we are faking it for OBJF_READNOW's sake. */
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bool using_index = false;
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/* The mapped index, or NULL if .gdb_index is missing or not being used. */
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std::unique_ptr<mapped_index> index_table;
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/* The mapped index, or NULL if .debug_names is missing or not being used. */
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std::unique_ptr<mapped_debug_names> debug_names_table;
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/* When using index_table, this keeps track of all quick_file_names entries.
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TUs typically share line table entries with a CU, so we maintain a
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separate table of all line table entries to support the sharing.
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Note that while there can be way more TUs than CUs, we've already
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sorted all the TUs into "type unit groups", grouped by their
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DW_AT_stmt_list value. Therefore the only sharing done here is with a
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CU and its associated TU group if there is one. */
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htab_t quick_file_names_table {};
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/* Set during partial symbol reading, to prevent queueing of full
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symbols. */
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bool reading_partial_symbols = false;
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/* Table mapping type DIEs to their struct type *.
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This is NULL if not allocated yet.
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The mapping is done via (CU/TU + DIE offset) -> type. */
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htab_t die_type_hash {};
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/* The CUs we recently read. */
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std::vector<dwarf2_per_cu_data *> just_read_cus;
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/* Table containing line_header indexed by offset and offset_in_dwz. */
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htab_t line_header_hash {};
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/* Table containing all filenames. This is an optional because the
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table is lazily constructed on first access. */
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gdb::optional<filename_seen_cache> filenames_cache;
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/* If we loaded the index from an external file, this contains the
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resources associated to the open file, memory mapping, etc. */
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std::unique_ptr<index_cache_resource> index_cache_res;
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/* Mapping from abstract origin DIE to concrete DIEs that reference it as
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DW_AT_abstract_origin. */
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std::unordered_map<sect_offset, std::vector<sect_offset>,
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gdb::hash_enum<sect_offset>>
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abstract_to_concrete;
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};
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/* Get the dwarf2_per_objfile associated to OBJFILE. */
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dwarf2_per_objfile *get_dwarf2_per_objfile (struct objfile *objfile);
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/* Persistent data held for a compilation unit, even when not
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processing it. We put a pointer to this structure in the
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read_symtab_private field of the psymtab. */
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struct dwarf2_per_cu_data
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{
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/* The start offset and length of this compilation unit.
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NOTE: Unlike comp_unit_head.length, this length includes
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initial_length_size.
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If the DIE refers to a DWO file, this is always of the original die,
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not the DWO file. */
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sect_offset sect_off;
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unsigned int length;
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/* DWARF standard version this data has been read from (such as 4 or 5). */
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short dwarf_version;
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/* Flag indicating this compilation unit will be read in before
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any of the current compilation units are processed. */
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unsigned int queued : 1;
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/* This flag will be set when reading partial DIEs if we need to load
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absolutely all DIEs for this compilation unit, instead of just the ones
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we think are interesting. It gets set if we look for a DIE in the
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hash table and don't find it. */
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unsigned int load_all_dies : 1;
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/* Non-zero if this CU is from .debug_types.
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Struct dwarf2_per_cu_data is contained in struct signatured_type iff
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this is non-zero. */
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unsigned int is_debug_types : 1;
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/* Non-zero if this CU is from the .dwz file. */
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unsigned int is_dwz : 1;
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/* Non-zero if reading a TU directly from a DWO file, bypassing the stub.
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This flag is only valid if is_debug_types is true.
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We can't read a CU directly from a DWO file: There are required
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attributes in the stub. */
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unsigned int reading_dwo_directly : 1;
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/* Non-zero if the TU has been read.
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This is used to assist the "Stay in DWO Optimization" for Fission:
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When reading a DWO, it's faster to read TUs from the DWO instead of
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fetching them from random other DWOs (due to comdat folding).
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If the TU has already been read, the optimization is unnecessary
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(and unwise - we don't want to change where gdb thinks the TU lives
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"midflight").
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This flag is only valid if is_debug_types is true. */
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unsigned int tu_read : 1;
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/* The section this CU/TU lives in.
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If the DIE refers to a DWO file, this is always the original die,
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not the DWO file. */
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struct dwarf2_section_info *section;
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/* Set to non-NULL iff this CU is currently loaded. When it gets freed out
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of the CU cache it gets reset to NULL again. This is left as NULL for
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dummy CUs (a CU header, but nothing else). */
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struct dwarf2_cu *cu;
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/* The corresponding dwarf2_per_objfile. */
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struct dwarf2_per_objfile *dwarf2_per_objfile;
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/* When dwarf2_per_objfile->using_index is true, the 'quick' field
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is active. Otherwise, the 'psymtab' field is active. */
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union
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{
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/* The partial symbol table associated with this compilation unit,
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or NULL for unread partial units. */
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struct partial_symtab *psymtab;
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/* Data needed by the "quick" functions. */
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struct dwarf2_per_cu_quick_data *quick;
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} v;
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/* Return true of IMPORTED_SYMTABS is empty or not yet allocated. */
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bool imported_symtabs_empty () const
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{
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return (imported_symtabs == nullptr || imported_symtabs->empty ());
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}
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/* Push P to the back of IMPORTED_SYMTABS, allocated IMPORTED_SYMTABS
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first if required. */
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void imported_symtabs_push (dwarf2_per_cu_data *p)
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{
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if (imported_symtabs == nullptr)
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imported_symtabs = new std::vector <dwarf2_per_cu_data *>;
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imported_symtabs->push_back (p);
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}
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/* Return the size of IMPORTED_SYMTABS if it is allocated, otherwise
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return 0. */
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size_t imported_symtabs_size () const
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{
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if (imported_symtabs == nullptr)
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return 0;
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return imported_symtabs->size ();
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}
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/* Delete IMPORTED_SYMTABS and set the pointer back to nullptr. */
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void imported_symtabs_free ()
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{
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delete imported_symtabs;
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imported_symtabs = nullptr;
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}
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/* The CUs we import using DW_TAG_imported_unit. This is filled in
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while reading psymtabs, used to compute the psymtab dependencies,
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and then cleared. Then it is filled in again while reading full
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symbols, and only deleted when the objfile is destroyed.
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This is also used to work around a difference between the way gold
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generates .gdb_index version <=7 and the way gdb does. Arguably this
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is a gold bug. For symbols coming from TUs, gold records in the index
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the CU that includes the TU instead of the TU itself. This breaks
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dw2_lookup_symbol: It assumes that if the index says symbol X lives
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in CU/TU Y, then one need only expand Y and a subsequent lookup in Y
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will find X. Alas TUs live in their own symtab, so after expanding CU Y
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we need to look in TU Z to find X. Fortunately, this is akin to
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DW_TAG_imported_unit, so we just use the same mechanism: For
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.gdb_index version <=7 this also records the TUs that the CU referred
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to. Concurrently with this change gdb was modified to emit version 8
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indices so we only pay a price for gold generated indices.
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http://sourceware.org/bugzilla/show_bug.cgi?id=15021.
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This currently needs to be a public member due to how
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dwarf2_per_cu_data is allocated and used. Ideally in future things
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could be refactored to make this private. Until then please try to
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avoid direct access to this member, and instead use the helper
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functions above. */
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std::vector <dwarf2_per_cu_data *> *imported_symtabs;
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};
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/* Entry in the signatured_types hash table. */
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struct signatured_type
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{
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/* The "per_cu" object of this type.
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This struct is used iff per_cu.is_debug_types.
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N.B.: This is the first member so that it's easy to convert pointers
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between them. */
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struct dwarf2_per_cu_data per_cu;
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/* The type's signature. */
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ULONGEST signature;
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/* Offset in the TU of the type's DIE, as read from the TU header.
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If this TU is a DWO stub and the definition lives in a DWO file
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(specified by DW_AT_GNU_dwo_name), this value is unusable. */
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cu_offset type_offset_in_tu;
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/* Offset in the section of the type's DIE.
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If the definition lives in a DWO file, this is the offset in the
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.debug_types.dwo section.
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The value is zero until the actual value is known.
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Zero is otherwise not a valid section offset. */
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sect_offset type_offset_in_section;
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/* Type units are grouped by their DW_AT_stmt_list entry so that they
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can share them. This points to the containing symtab. */
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struct type_unit_group *type_unit_group;
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/* The type.
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The first time we encounter this type we fully read it in and install it
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in the symbol tables. Subsequent times we only need the type. */
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struct type *type;
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/* Containing DWO unit.
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This field is valid iff per_cu.reading_dwo_directly. */
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struct dwo_unit *dwo_unit;
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};
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ULONGEST read_unsigned_leb128 (bfd *, const gdb_byte *, unsigned int *);
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/* This represents a '.dwz' file. */
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struct dwz_file
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{
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dwz_file (gdb_bfd_ref_ptr &&bfd)
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: dwz_bfd (std::move (bfd))
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{
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}
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const char *filename () const
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{
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return bfd_get_filename (this->dwz_bfd.get ());
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}
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/* A dwz file can only contain a few sections. */
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struct dwarf2_section_info abbrev {};
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struct dwarf2_section_info info {};
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struct dwarf2_section_info str {};
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struct dwarf2_section_info line {};
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struct dwarf2_section_info macro {};
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struct dwarf2_section_info gdb_index {};
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struct dwarf2_section_info debug_names {};
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/* The dwz's BFD. */
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gdb_bfd_ref_ptr dwz_bfd;
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/* If we loaded the index from an external file, this contains the
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resources associated to the open file, memory mapping, etc. */
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std::unique_ptr<index_cache_resource> index_cache_res;
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};
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/* Open the separate '.dwz' debug file, if needed. Return NULL if
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there is no .gnu_debugaltlink section in the file. Error if there
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is such a section but the file cannot be found. */
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extern struct dwz_file *dwarf2_get_dwz_file
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(struct dwarf2_per_objfile *dwarf2_per_objfile);
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#endif /* DWARF2READ_H */
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