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17ee85fc2a
This changes the DWARF reader to share partial symtabs (or indices if they are available) across objfiles. This has a few parts. * If multiple objfiles backed by the same BFD can share partial symtabs (see below), a single dwarf2_per_bfd is created. It is stored in the per-bfd `dwarf2_per_bfd_bfd_data_key` registry. Multiple dwarf2_per_objfile objects will point to the same instance. The lifetime of these dwarf2_per_bfd objects is naturally handled. When all the objfiles using the BFD are destroyed, the BFD's refount drops to 0, which triggers the removal of the corresponding dwarf2_per_bfd object from the registry and its destruction. * If multiple objfiles backed by the same BFD can't share partial symtabs (see below), one dwarf2_per_bfd object is created for each objfile. Each dwarf2_per_objfile will point to their own instance of dwarf2_per_bfd. These instances of dwarf2_per_bfd are kept in a per-objfile registry, meaning that when the objfile gets destroyed, the dwarf2_per_bfd instance gets destroyed as well. * objfile::partial_symtabs is changed to be a shared_ptr again. This lets us stash a second reference in dwarf2_per_bfd; if the DWARF data is being shared, we can simply copy this value to the new objfile. * Two dwarf2_per_objfile objects backed by the same BFD may share a dwarf2_per_bfd instance if: * No other symbol reader has found symbols, and * No BFD section rqeuires relocation gdb/ChangeLog: YYYY-MM-DD Tom Tromey <tom@tromey.com> YYYY-MM-DD Simon Marchi <simon.marchi@efficios.com> * objfiles.h (struct objfile) <partial_symtabs>: Now a shared_ptr. * dwarf2/read.h (struct dwarf2_per_objfile) <partial_symtabs>: New member. * dwarf2/read.c (dwarf2_per_bfd_bfd_data_key, dwarf2_per_bfd_objfile_data_key>: New globals. (dwarf2_has_info): Use shared dwarf2_per_bfd if possible. (dwarf2_get_section_info): Use get_dwarf2_per_objfile. (dwarf2_initialize_objfile): Consider cases where per_bfd can be shared. (dwarf2_build_psymtabs): Set objfile::partial_symtabs and short-circuit when sharing. (dwarf2_build_psymtabs): Set dwarf2_per_objfile::partial_symtabs. (dwarf2_psymtab::expand_psymtab): Use free_cached_comp_units. Change-Id: I868c64448589102ab8cbb8f06c31a8de50a14004
838 lines
27 KiB
C++
838 lines
27 KiB
C++
/* Definitions for symbol file management in GDB.
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Copyright (C) 1992-2020 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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#if !defined (OBJFILES_H)
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#define OBJFILES_H
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#include "hashtab.h"
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#include "gdb_obstack.h" /* For obstack internals. */
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#include "objfile-flags.h"
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#include "symfile.h"
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#include "progspace.h"
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#include "registry.h"
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#include "gdb_bfd.h"
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#include "psymtab.h"
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#include <atomic>
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#include <bitset>
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#include <vector>
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#include "gdbsupport/next-iterator.h"
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#include "gdbsupport/safe-iterator.h"
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#include "bcache.h"
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#include "gdbarch.h"
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#include "gdbsupport/refcounted-object.h"
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struct htab;
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struct objfile_data;
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struct partial_symbol;
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/* This structure maintains information on a per-objfile basis about the
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"entry point" of the objfile, and the scope within which the entry point
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exists. It is possible that gdb will see more than one objfile that is
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executable, each with its own entry point.
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For example, for dynamically linked executables in SVR4, the dynamic linker
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code is contained within the shared C library, which is actually executable
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and is run by the kernel first when an exec is done of a user executable
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that is dynamically linked. The dynamic linker within the shared C library
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then maps in the various program segments in the user executable and jumps
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to the user executable's recorded entry point, as if the call had been made
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directly by the kernel.
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The traditional gdb method of using this info was to use the
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recorded entry point to set the entry-file's lowpc and highpc from
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the debugging information, where these values are the starting
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address (inclusive) and ending address (exclusive) of the
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instruction space in the executable which correspond to the
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"startup file", i.e. crt0.o in most cases. This file is assumed to
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be a startup file and frames with pc's inside it are treated as
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nonexistent. Setting these variables is necessary so that
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backtraces do not fly off the bottom of the stack.
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NOTE: cagney/2003-09-09: It turns out that this "traditional"
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method doesn't work. Corinna writes: ``It turns out that the call
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to test for "inside entry file" destroys a meaningful backtrace
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under some conditions. E.g. the backtrace tests in the asm-source
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testcase are broken for some targets. In this test the functions
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are all implemented as part of one file and the testcase is not
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necessarily linked with a start file (depending on the target).
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What happens is, that the first frame is printed normally and
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following frames are treated as being inside the entry file then.
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This way, only the #0 frame is printed in the backtrace output.''
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Ref "frame.c" "NOTE: vinschen/2003-04-01".
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Gdb also supports an alternate method to avoid running off the bottom
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of the stack.
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There are two frames that are "special", the frame for the function
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containing the process entry point, since it has no predecessor frame,
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and the frame for the function containing the user code entry point
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(the main() function), since all the predecessor frames are for the
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process startup code. Since we have no guarantee that the linked
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in startup modules have any debugging information that gdb can use,
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we need to avoid following frame pointers back into frames that might
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have been built in the startup code, as we might get hopelessly
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confused. However, we almost always have debugging information
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available for main().
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These variables are used to save the range of PC values which are
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valid within the main() function and within the function containing
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the process entry point. If we always consider the frame for
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main() as the outermost frame when debugging user code, and the
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frame for the process entry point function as the outermost frame
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when debugging startup code, then all we have to do is have
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DEPRECATED_FRAME_CHAIN_VALID return false whenever a frame's
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current PC is within the range specified by these variables. In
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essence, we set "ceilings" in the frame chain beyond which we will
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not proceed when following the frame chain back up the stack.
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A nice side effect is that we can still debug startup code without
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running off the end of the frame chain, assuming that we have usable
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debugging information in the startup modules, and if we choose to not
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use the block at main, or can't find it for some reason, everything
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still works as before. And if we have no startup code debugging
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information but we do have usable information for main(), backtraces
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from user code don't go wandering off into the startup code. */
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struct entry_info
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{
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/* The unrelocated value we should use for this objfile entry point. */
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CORE_ADDR entry_point;
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/* The index of the section in which the entry point appears. */
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int the_bfd_section_index;
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/* Set to 1 iff ENTRY_POINT contains a valid value. */
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unsigned entry_point_p : 1;
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/* Set to 1 iff this object was initialized. */
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unsigned initialized : 1;
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};
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/* Sections in an objfile. The section offsets are stored in the
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OBJFILE. */
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struct obj_section
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{
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/* BFD section pointer */
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struct bfd_section *the_bfd_section;
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/* Objfile this section is part of. */
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struct objfile *objfile;
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/* True if this "overlay section" is mapped into an "overlay region". */
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int ovly_mapped;
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};
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/* Relocation offset applied to S. */
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#define obj_section_offset(s) \
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(((s)->objfile->section_offsets)[gdb_bfd_section_index ((s)->objfile->obfd, (s)->the_bfd_section)])
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/* The memory address of section S (vma + offset). */
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#define obj_section_addr(s) \
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(bfd_section_vma (s->the_bfd_section) \
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+ obj_section_offset (s))
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/* The one-passed-the-end memory address of section S
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(vma + size + offset). */
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#define obj_section_endaddr(s) \
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(bfd_section_vma (s->the_bfd_section) \
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+ bfd_section_size ((s)->the_bfd_section) \
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+ obj_section_offset (s))
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#define ALL_OBJFILE_OSECTIONS(objfile, osect) \
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for (osect = objfile->sections; osect < objfile->sections_end; osect++) \
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if (osect->the_bfd_section == NULL) \
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{ \
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/* Nothing. */ \
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} \
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else
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#define SECT_OFF_DATA(objfile) \
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((objfile->sect_index_data == -1) \
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? (internal_error (__FILE__, __LINE__, \
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_("sect_index_data not initialized")), -1) \
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: objfile->sect_index_data)
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#define SECT_OFF_RODATA(objfile) \
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((objfile->sect_index_rodata == -1) \
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? (internal_error (__FILE__, __LINE__, \
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_("sect_index_rodata not initialized")), -1) \
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: objfile->sect_index_rodata)
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#define SECT_OFF_TEXT(objfile) \
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((objfile->sect_index_text == -1) \
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? (internal_error (__FILE__, __LINE__, \
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_("sect_index_text not initialized")), -1) \
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: objfile->sect_index_text)
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/* Sometimes the .bss section is missing from the objfile, so we don't
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want to die here. Let the users of SECT_OFF_BSS deal with an
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uninitialized section index. */
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#define SECT_OFF_BSS(objfile) (objfile)->sect_index_bss
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/* The "objstats" structure provides a place for gdb to record some
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interesting information about its internal state at runtime, on a
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per objfile basis, such as information about the number of symbols
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read, size of string table (if any), etc. */
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struct objstats
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{
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/* Number of partial symbols read. */
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int n_psyms = 0;
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/* Number of full symbols read. */
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int n_syms = 0;
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/* Number of ".stabs" read (if applicable). */
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int n_stabs = 0;
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/* Number of types. */
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int n_types = 0;
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/* Size of stringtable, (if applicable). */
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int sz_strtab = 0;
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};
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#define OBJSTAT(objfile, expr) (objfile -> stats.expr)
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#define OBJSTATS struct objstats stats
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extern void print_objfile_statistics (void);
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extern void print_symbol_bcache_statistics (void);
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/* Number of entries in the minimal symbol hash table. */
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#define MINIMAL_SYMBOL_HASH_SIZE 2039
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/* An iterator for minimal symbols. */
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struct minimal_symbol_iterator
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{
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typedef minimal_symbol_iterator self_type;
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typedef struct minimal_symbol *value_type;
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typedef struct minimal_symbol *&reference;
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typedef struct minimal_symbol **pointer;
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typedef std::forward_iterator_tag iterator_category;
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typedef int difference_type;
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explicit minimal_symbol_iterator (struct minimal_symbol *msym)
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: m_msym (msym)
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{
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}
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value_type operator* () const
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{
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return m_msym;
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}
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bool operator== (const self_type &other) const
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{
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return m_msym == other.m_msym;
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}
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bool operator!= (const self_type &other) const
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{
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return m_msym != other.m_msym;
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}
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self_type &operator++ ()
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{
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++m_msym;
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return *this;
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}
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private:
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struct minimal_symbol *m_msym;
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};
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/* Some objfile data is hung off the BFD. This enables sharing of the
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data across all objfiles using the BFD. The data is stored in an
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instance of this structure, and associated with the BFD using the
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registry system. */
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struct objfile_per_bfd_storage
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{
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objfile_per_bfd_storage ()
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: minsyms_read (false)
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{}
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~objfile_per_bfd_storage ();
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/* The storage has an obstack of its own. */
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auto_obstack storage_obstack;
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/* String cache. */
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gdb::bcache string_cache;
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/* The gdbarch associated with the BFD. Note that this gdbarch is
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determined solely from BFD information, without looking at target
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information. The gdbarch determined from a running target may
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differ from this e.g. with respect to register types and names. */
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struct gdbarch *gdbarch = NULL;
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/* Hash table for mapping symbol names to demangled names. Each
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entry in the hash table is a demangled_name_entry struct, storing the
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language and two consecutive strings, both null-terminated; the first one
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is a mangled or linkage name, and the second is the demangled name or just
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a zero byte if the name doesn't demangle. */
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htab_up demangled_names_hash;
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/* The per-objfile information about the entry point, the scope (file/func)
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containing the entry point, and the scope of the user's main() func. */
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entry_info ei {};
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/* The name and language of any "main" found in this objfile. The
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name can be NULL, which means that the information was not
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recorded. */
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const char *name_of_main = NULL;
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enum language language_of_main = language_unknown;
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/* Each file contains a pointer to an array of minimal symbols for all
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global symbols that are defined within the file. The array is
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terminated by a "null symbol", one that has a NULL pointer for the
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name and a zero value for the address. This makes it easy to walk
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through the array when passed a pointer to somewhere in the middle
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of it. There is also a count of the number of symbols, which does
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not include the terminating null symbol. */
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gdb::unique_xmalloc_ptr<minimal_symbol> msymbols;
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int minimal_symbol_count = 0;
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/* The number of minimal symbols read, before any minimal symbol
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de-duplication is applied. Note in particular that this has only
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a passing relationship with the actual size of the table above;
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use minimal_symbol_count if you need the true size. */
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int n_minsyms = 0;
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/* This is true if minimal symbols have already been read. Symbol
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readers can use this to bypass minimal symbol reading. Also, the
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minimal symbol table management code in minsyms.c uses this to
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suppress new minimal symbols. You might think that MSYMBOLS or
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MINIMAL_SYMBOL_COUNT could be used for this, but it is possible
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for multiple readers to install minimal symbols into a given
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per-BFD. */
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bool minsyms_read : 1;
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/* This is a hash table used to index the minimal symbols by (mangled)
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name. */
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minimal_symbol *msymbol_hash[MINIMAL_SYMBOL_HASH_SIZE] {};
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/* This hash table is used to index the minimal symbols by their
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demangled names. Uses a language-specific hash function via
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search_name_hash. */
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minimal_symbol *msymbol_demangled_hash[MINIMAL_SYMBOL_HASH_SIZE] {};
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/* All the different languages of symbols found in the demangled
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hash table. */
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std::bitset<nr_languages> demangled_hash_languages;
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};
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/* An iterator that first returns a parent objfile, and then each
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separate debug objfile. */
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class separate_debug_iterator
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{
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public:
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explicit separate_debug_iterator (struct objfile *objfile)
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: m_objfile (objfile),
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m_parent (objfile)
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{
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}
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bool operator!= (const separate_debug_iterator &other)
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{
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return m_objfile != other.m_objfile;
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}
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separate_debug_iterator &operator++ ();
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struct objfile *operator* ()
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{
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return m_objfile;
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}
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private:
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struct objfile *m_objfile;
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struct objfile *m_parent;
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};
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/* A range adapter wrapping separate_debug_iterator. */
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class separate_debug_range
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{
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public:
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explicit separate_debug_range (struct objfile *objfile)
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: m_objfile (objfile)
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{
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}
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separate_debug_iterator begin ()
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{
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return separate_debug_iterator (m_objfile);
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}
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separate_debug_iterator end ()
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{
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return separate_debug_iterator (nullptr);
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}
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private:
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struct objfile *m_objfile;
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};
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/* Master structure for keeping track of each file from which
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gdb reads symbols. There are several ways these get allocated: 1.
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The main symbol file, symfile_objfile, set by the symbol-file command,
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2. Additional symbol files added by the add-symbol-file command,
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3. Shared library objfiles, added by ADD_SOLIB, 4. symbol files
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for modules that were loaded when GDB attached to a remote system
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(see remote-vx.c).
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GDB typically reads symbols twice -- first an initial scan which just
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reads "partial symbols"; these are partial information for the
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static/global symbols in a symbol file. When later looking up symbols,
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objfile->sf->qf->lookup_symbol is used to check if we only have a partial
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symbol and if so, read and expand the full compunit. */
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struct objfile
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{
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private:
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/* The only way to create an objfile is to call objfile::make. */
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objfile (bfd *, const char *, objfile_flags);
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public:
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/* Normally you should not call delete. Instead, call 'unlink' to
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remove it from the program space's list. In some cases, you may
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need to hold a reference to an objfile that is independent of its
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existence on the program space's list; for this case, the
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destructor must be public so that shared_ptr can reference
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it. */
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~objfile ();
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/* Create an objfile. */
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static objfile *make (bfd *bfd_, const char *name_, objfile_flags flags_,
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objfile *parent = nullptr);
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/* Remove an objfile from the current program space, and free
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it. */
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void unlink ();
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DISABLE_COPY_AND_ASSIGN (objfile);
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/* A range adapter that makes it possible to iterate over all
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psymtabs in one objfile. */
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psymtab_storage::partial_symtab_range psymtabs ()
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{
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return partial_symtabs->range ();
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}
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/* Reset the storage for the partial symbol tables. */
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void reset_psymtabs ()
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{
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psymbol_map.clear ();
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partial_symtabs.reset (new psymtab_storage ());
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}
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typedef next_adapter<struct compunit_symtab> compunits_range;
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/* A range adapter that makes it possible to iterate over all
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compunits in one objfile. */
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compunits_range compunits ()
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{
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return compunits_range (compunit_symtabs);
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}
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/* A range adapter that makes it possible to iterate over all
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minimal symbols of an objfile. */
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class msymbols_range
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{
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public:
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explicit msymbols_range (struct objfile *objfile)
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: m_objfile (objfile)
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{
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}
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minimal_symbol_iterator begin () const
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{
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return minimal_symbol_iterator (m_objfile->per_bfd->msymbols.get ());
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}
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minimal_symbol_iterator end () const
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{
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return minimal_symbol_iterator
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(m_objfile->per_bfd->msymbols.get ()
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+ m_objfile->per_bfd->minimal_symbol_count);
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}
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private:
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struct objfile *m_objfile;
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};
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/* Return a range adapter for iterating over all minimal
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symbols. */
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msymbols_range msymbols ()
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{
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return msymbols_range (this);
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}
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/* Return a range adapter for iterating over all the separate debug
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objfiles of this objfile. */
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separate_debug_range separate_debug_objfiles ()
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{
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return separate_debug_range (this);
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}
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CORE_ADDR text_section_offset () const
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{
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return section_offsets[SECT_OFF_TEXT (this)];
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}
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CORE_ADDR data_section_offset () const
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{
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return section_offsets[SECT_OFF_DATA (this)];
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}
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/* Intern STRING and return the unique copy. The copy has the same
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lifetime as the per-BFD object. */
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const char *intern (const char *str)
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{
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return (const char *) per_bfd->string_cache.insert (str, strlen (str) + 1);
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}
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/* Intern STRING and return the unique copy. The copy has the same
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lifetime as the per-BFD object. */
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const char *intern (const std::string &str)
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{
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return (const char *) per_bfd->string_cache.insert (str.c_str (),
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str.size () + 1);
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}
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/* Retrieve the gdbarch associated with this objfile. */
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struct gdbarch *arch () const
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{
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return per_bfd->gdbarch;
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}
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/* The object file's original name as specified by the user,
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made absolute, and tilde-expanded. However, it is not canonicalized
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(i.e., it has not been passed through gdb_realpath).
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This pointer is never NULL. This does not have to be freed; it is
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guaranteed to have a lifetime at least as long as the objfile. */
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const char *original_name = nullptr;
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CORE_ADDR addr_low = 0;
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/* Some flag bits for this objfile. */
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objfile_flags flags;
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/* The program space associated with this objfile. */
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struct program_space *pspace;
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/* List of compunits.
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These are used to do symbol lookups and file/line-number lookups. */
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struct compunit_symtab *compunit_symtabs = nullptr;
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/* The partial symbol tables. */
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std::shared_ptr<psymtab_storage> partial_symtabs;
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/* The object file's BFD. Can be null if the objfile contains only
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minimal symbols, e.g. the run time common symbols for SunOS4. */
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bfd *obfd;
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/* The per-BFD data. Note that this is treated specially if OBFD
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is NULL. */
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struct objfile_per_bfd_storage *per_bfd = nullptr;
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/* The modification timestamp of the object file, as of the last time
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we read its symbols. */
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long mtime = 0;
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/* Obstack to hold objects that should be freed when we load a new symbol
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table from this object file. */
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struct obstack objfile_obstack {};
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/* Map symbol addresses to the partial symtab that defines the
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object at that address. */
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std::vector<std::pair<CORE_ADDR, partial_symtab *>> psymbol_map;
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/* Structure which keeps track of functions that manipulate objfile's
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of the same type as this objfile. I.e. the function to read partial
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symbols for example. Note that this structure is in statically
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allocated memory, and is shared by all objfiles that use the
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object module reader of this type. */
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const struct sym_fns *sf = nullptr;
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/* Per objfile data-pointers required by other GDB modules. */
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REGISTRY_FIELDS {};
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/* Set of relocation offsets to apply to each section.
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The table is indexed by the_bfd_section->index, thus it is generally
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as large as the number of sections in the binary.
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These offsets indicate that all symbols (including partial and
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minimal symbols) which have been read have been relocated by this
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much. Symbols which are yet to be read need to be relocated by it. */
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::section_offsets section_offsets;
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/* Indexes in the section_offsets array. These are initialized by the
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*_symfile_offsets() family of functions (som_symfile_offsets,
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xcoff_symfile_offsets, default_symfile_offsets). In theory they
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should correspond to the section indexes used by bfd for the
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current objfile. The exception to this for the time being is the
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SOM version.
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These are initialized to -1 so that we can later detect if they
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are used w/o being properly assigned to. */
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int sect_index_text = -1;
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int sect_index_data = -1;
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int sect_index_bss = -1;
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int sect_index_rodata = -1;
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/* These pointers are used to locate the section table, which
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among other things, is used to map pc addresses into sections.
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SECTIONS points to the first entry in the table, and
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SECTIONS_END points to the first location past the last entry
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in the table. The table is stored on the objfile_obstack. The
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sections are indexed by the BFD section index; but the
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structure data is only valid for certain sections
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(e.g. non-empty, SEC_ALLOC). */
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struct obj_section *sections = nullptr;
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struct obj_section *sections_end = nullptr;
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/* GDB allows to have debug symbols in separate object files. This is
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used by .gnu_debuglink, ELF build id note and Mach-O OSO.
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Although this is a tree structure, GDB only support one level
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(ie a separate debug for a separate debug is not supported). Note that
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separate debug object are in the main chain and therefore will be
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visited by objfiles & co iterators. Separate debug objfile always
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has a non-nul separate_debug_objfile_backlink. */
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/* Link to the first separate debug object, if any. */
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struct objfile *separate_debug_objfile = nullptr;
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/* If this is a separate debug object, this is used as a link to the
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actual executable objfile. */
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struct objfile *separate_debug_objfile_backlink = nullptr;
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/* If this is a separate debug object, this is a link to the next one
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for the same executable objfile. */
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struct objfile *separate_debug_objfile_link = nullptr;
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/* Place to stash various statistics about this objfile. */
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OBJSTATS;
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/* A linked list of symbols created when reading template types or
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function templates. These symbols are not stored in any symbol
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table, so we have to keep them here to relocate them
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properly. */
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struct symbol *template_symbols = nullptr;
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/* Associate a static link (struct dynamic_prop *) to all blocks (struct
|
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block *) that have one.
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In the context of nested functions (available in Pascal, Ada and GNU C,
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for instance), a static link (as in DWARF's DW_AT_static_link attribute)
|
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for a function is a way to get the frame corresponding to the enclosing
|
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function.
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Very few blocks have a static link, so it's more memory efficient to
|
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store these here rather than in struct block. Static links must be
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allocated on the objfile's obstack. */
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htab_up static_links;
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};
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/* A deleter for objfile. */
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struct objfile_deleter
|
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{
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void operator() (objfile *ptr) const
|
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{
|
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ptr->unlink ();
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}
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};
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/* A unique pointer that holds an objfile. */
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typedef std::unique_ptr<objfile, objfile_deleter> objfile_up;
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/* Declarations for functions defined in objfiles.c */
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extern int entry_point_address_query (CORE_ADDR *entry_p);
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extern CORE_ADDR entry_point_address (void);
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extern void build_objfile_section_table (struct objfile *);
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extern void free_objfile_separate_debug (struct objfile *);
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extern void objfile_relocate (struct objfile *, const section_offsets &);
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extern void objfile_rebase (struct objfile *, CORE_ADDR);
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extern int objfile_has_partial_symbols (struct objfile *objfile);
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extern int objfile_has_full_symbols (struct objfile *objfile);
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extern int objfile_has_symbols (struct objfile *objfile);
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extern int have_partial_symbols (void);
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extern int have_full_symbols (void);
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extern void objfile_set_sym_fns (struct objfile *objfile,
|
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const struct sym_fns *sf);
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extern void objfiles_changed (void);
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/* Return true if ADDR maps into one of the sections of OBJFILE and false
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otherwise. */
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extern bool is_addr_in_objfile (CORE_ADDR addr, const struct objfile *objfile);
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/* Return true if ADDRESS maps into one of the sections of a
|
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OBJF_SHARED objfile of PSPACE and false otherwise. */
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extern bool shared_objfile_contains_address_p (struct program_space *pspace,
|
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CORE_ADDR address);
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/* This operation deletes all objfile entries that represent solibs that
|
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weren't explicitly loaded by the user, via e.g., the add-symbol-file
|
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command. */
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extern void objfile_purge_solibs (void);
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/* Functions for dealing with the minimal symbol table, really a misc
|
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address<->symbol mapping for things we don't have debug symbols for. */
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extern int have_minimal_symbols (void);
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extern struct obj_section *find_pc_section (CORE_ADDR pc);
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/* Return non-zero if PC is in a section called NAME. */
|
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extern int pc_in_section (CORE_ADDR, const char *);
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|
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/* Return non-zero if PC is in a SVR4-style procedure linkage table
|
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section. */
|
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|
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static inline int
|
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in_plt_section (CORE_ADDR pc)
|
|
{
|
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return pc_in_section (pc, ".plt");
|
|
}
|
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|
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/* Keep a registry of per-objfile data-pointers required by other GDB
|
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modules. */
|
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DECLARE_REGISTRY(objfile);
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|
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/* In normal use, the section map will be rebuilt by find_pc_section
|
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if objfiles have been added, removed or relocated since it was last
|
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called. Calling inhibit_section_map_updates will inhibit this
|
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behavior until the returned scoped_restore object is destroyed. If
|
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you call inhibit_section_map_updates you must ensure that every
|
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call to find_pc_section in the inhibited region relates to a
|
|
section that is already in the section map and has not since been
|
|
removed or relocated. */
|
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extern scoped_restore_tmpl<int> inhibit_section_map_updates
|
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(struct program_space *pspace);
|
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|
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extern void default_iterate_over_objfiles_in_search_order
|
|
(struct gdbarch *gdbarch,
|
|
iterate_over_objfiles_in_search_order_cb_ftype *cb,
|
|
void *cb_data, struct objfile *current_objfile);
|
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|
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/* Reset the per-BFD storage area on OBJ. */
|
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|
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void set_objfile_per_bfd (struct objfile *obj);
|
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|
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/* Return canonical name for OBJFILE.
|
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This is the real file name if the file has been opened.
|
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Otherwise it is the original name supplied by the user. */
|
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|
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const char *objfile_name (const struct objfile *objfile);
|
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|
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/* Return the (real) file name of OBJFILE if the file has been opened,
|
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otherwise return NULL. */
|
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|
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const char *objfile_filename (const struct objfile *objfile);
|
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|
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/* Return the name to print for OBJFILE in debugging messages. */
|
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|
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extern const char *objfile_debug_name (const struct objfile *objfile);
|
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|
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/* Return the name of the file format of OBJFILE if the file has been opened,
|
|
otherwise return NULL. */
|
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|
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const char *objfile_flavour_name (struct objfile *objfile);
|
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|
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/* Set the objfile's notion of the "main" name and language. */
|
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|
|
extern void set_objfile_main_name (struct objfile *objfile,
|
|
const char *name, enum language lang);
|
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|
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extern void objfile_register_static_link
|
|
(struct objfile *objfile,
|
|
const struct block *block,
|
|
const struct dynamic_prop *static_link);
|
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|
|
extern const struct dynamic_prop *objfile_lookup_static_link
|
|
(struct objfile *objfile, const struct block *block);
|
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|
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#endif /* !defined (OBJFILES_H) */
|