43f3e411c4
Currently "symtabs" in gdb are stored as a single linked list of struct symtab that contains both symbol symtabs (the blockvectors) and file symtabs (the linetables). This has led to confusion, bugs, and performance issues. This patch is conceptually very simple: split struct symtab into two pieces: one part containing things common across the entire compilation unit, and one part containing things specific to each source file. Example. For the case of a program built out of these files: foo.c foo1.h foo2.h bar.c foo1.h bar.h Today we have a single list of struct symtabs: objfile -> foo.c -> foo1.h -> foo2.h -> bar.c -> foo1.h -> bar.h -> NULL where "->" means the "next" pointer in struct symtab. With this patch, that turns into: objfile -> foo.c(cu) -> bar.c(cu) -> NULL | | v v foo.c bar.c | | v v foo1.h foo1.h | | v v foo2.h bar.h | | v v NULL NULL where "foo.c(cu)" and "bar.c(cu)" are struct compunit_symtab objects, and the files foo.c, etc. are struct symtab objects. So now, for example, when we want to iterate over all blockvectors we can now just iterate over the compunit_symtab list. Plus a lot of the data that was either unused or replicated for each symtab in a compilation unit now lives in struct compunit_symtab. E.g., the objfile pointer, the producer string, etc. I thought of moving "language" out of struct symtab but there is logic to try to compute the language based on previously seen files, and I think that's best left as is for now. With my standard monster benchmark with -readnow (which I can't actually do, but based on my calculations), whereas today the list requires 77MB to store all the struct symtabs, it now only requires 37MB. A modest space savings given the gigabytes needed for all the debug info, etc. Still, it's nice. Plus, whereas today we create a copy of dirname for each source file symtab in a compilation unit, we now only create one for the compunit. So this patch is basically just a data structure reorg, I don't expect significant performance improvements from it. Notes: 1) A followup patch can do a similar split for struct partial_symtab. I have left that until after I get the changes I want in to better utilize .gdb_index (it may affect how we do partial syms). 2) Another followup patch *could* rename struct symtab. The term "symtab" is ambiguous and has been a source of confusion. In this patch I'm leaving it alone, calling it the "historical" name of "filetabs", which is what they are now: just the file-name + line-table. gdb/ChangeLog: Split struct symtab into two: struct symtab and compunit_symtab. * amd64-tdep.c (amd64_skip_xmm_prologue): Fetch producer from compunit. * block.c (blockvector_for_pc_sect): Change "struct symtab *" argument to "struct compunit_symtab *". All callers updated. (set_block_compunit_symtab): Renamed from set_block_symtab. Change "struct symtab *" argument to "struct compunit_symtab *". All callers updated. (get_block_compunit_symtab): Renamed from get_block_symtab. Change result to "struct compunit_symtab *". All callers updated. (find_iterator_compunit_symtab): Renamed from find_iterator_symtab. Change result to "struct compunit_symtab *". All callers updated. * block.h (struct global_block) <compunit_symtab>: Renamed from symtab. hange type to "struct compunit_symtab *". All uses updated. (struct block_iterator) <d.compunit_symtab>: Renamed from "d.symtab". Change type to "struct compunit_symtab *". All uses updated. * buildsym.c (struct buildsym_compunit): New struct. (subfiles, buildsym_compdir, buildsym_objfile, main_subfile): Delete. (buildsym_compunit): New static global. (finish_block_internal): Update to fetch objfile from buildsym_compunit. (make_blockvector): Delete objfile argument. (start_subfile): Rewrite to use buildsym_compunit. Don't initialize debugformat, producer. (start_buildsym_compunit): New function. (free_buildsym_compunit): Renamed from free_subfiles_list. All callers updated. (patch_subfile_names): Rewrite to use buildsym_compunit. (get_compunit_symtab): New function. (get_macro_table): Delete argument comp_dir. All callers updated. (start_symtab): Change result to "struct compunit_symtab *". All callers updated. Create the subfile of the main source file. (watch_main_source_file_lossage): Rewrite to use buildsym_compunit. (reset_symtab_globals): Update. (end_symtab_get_static_block): Update to use buildsym_compunit. (end_symtab_without_blockvector): Rewrite. (end_symtab_with_blockvector): Change result to "struct compunit_symtab *". All callers updated. Update to use buildsym_compunit. Don't set symtab->dirname, instead set it in the compunit. Explicitly make sure main symtab is first in its list. Set debugformat, producer, blockvector, block_line_section, and macrotable in the compunit. (end_symtab_from_static_block): Change result to "struct compunit_symtab *". All callers updated. (end_symtab, end_expandable_symtab): Ditto. (set_missing_symtab): Change symtab argument to "struct compunit_symtab *". All callers updated. (augment_type_symtab): Ditto. (record_debugformat): Update to use buildsym_compunit. (record_producer): Update to use buildsym_compunit. * buildsym.h (struct subfile) <dirname>: Delete. <producer, debugformat>: Delete. <buildsym_compunit>: New member. (get_compunit_symtab): Declare. * dwarf2read.c (struct type_unit_group) <compunit_symtab>: Renamed from primary_symtab. Change type to "struct compunit_symtab *". All uses updated. (dwarf2_start_symtab): Change result to "struct compunit_symtab *". All callers updated. (dwarf_decode_macros): Delete comp_dir argument. All callers updated. (struct dwarf2_per_cu_quick_data) <compunit_symtab>: Renamed from symtab. Change type to "struct compunit_symtab *". All uses updated. (dw2_instantiate_symtab): Change result to "struct compunit_symtab *". All callers updated. (dw2_find_last_source_symtab): Ditto. (dw2_lookup_symbol): Ditto. (recursively_find_pc_sect_compunit_symtab): Renamed from recursively_find_pc_sect_symtab. Change result to "struct compunit_symtab *". All callers updated. (dw2_find_pc_sect_compunit_symtab): Renamed from dw2_find_pc_sect_symtab. Change result to "struct compunit_symtab *". All callers updated. (get_compunit_symtab): Renamed from get_symtab. Change result to "struct compunit_symtab *". All callers updated. (recursively_compute_inclusions): Change type of immediate_parent argument to "struct compunit_symtab *". All callers updated. (compute_compunit_symtab_includes): Renamed from compute_symtab_includes. All callers updated. Rewrite to compute includes of compunit_symtabs and not symtabs. (process_full_comp_unit): Update to work with struct compunit_symtab. (process_full_type_unit): Ditto. (dwarf_decode_lines_1): Delete argument comp_dir. All callers updated. (dwarf_decode_lines): Remove special case handling of main subfile. (macro_start_file): Delete argument comp_dir. All callers updated. (dwarf_decode_macro_bytes): Ditto. * guile/scm-block.c (bkscm_print_block_syms_progress_smob): Update to use struct compunit_symtab. * i386-tdep.c (i386_skip_prologue): Fetch producer from compunit. * jit.c (finalize_symtab): Build compunit_symtab. * jv-lang.c (get_java_class_symtab): Change result to "struct compunit_symtab *". All callers updated. * macroscope.c (sal_macro_scope): Fetch macro table from compunit. * macrotab.c (struct macro_table) <compunit_symtab>: Renamed from comp_dir. Change type to "struct compunit_symtab *". All uses updated. (new_macro_table): Change comp_dir argument to cust, "struct compunit_symtab *". All callers updated. * maint.c (struct cmd_stats) <nr_compunit_symtabs>: Renamed from nr_primary_symtabs. All uses updated. (count_symtabs_and_blocks): Update to handle compunits. (report_command_stats): Update output, "primary symtabs" renamed to "compunits". * mdebugread.c (new_symtab): Change result to "struct compunit_symtab *". All callers updated. (parse_procedure): Change type of search_symtab argument to "struct compunit_symtab *". All callers updated. * objfiles.c (objfile_relocate1): Loop over blockvectors in a separate loop. * objfiles.h (struct objfile) <compunit_symtabs>: Renamed from symtabs. Change type to "struct compunit_symtab *". All uses updated. (ALL_OBJFILE_FILETABS): Renamed from ALL_OBJFILE_SYMTABS. All uses updated. (ALL_OBJFILE_COMPUNITS): Renamed from ALL_OBJFILE_PRIMARY_SYMTABS. All uses updated. (ALL_FILETABS): Renamed from ALL_SYMTABS. All uses updated. (ALL_COMPUNITS): Renamed from ALL_PRIMARY_SYMTABS. All uses updated. * psympriv.h (struct partial_symtab) <compunit_symtab>: Renamed from symtab. Change type to "struct compunit_symtab *". All uses updated. * psymtab.c (psymtab_to_symtab): Change result type to "struct compunit_symtab *". All callers updated. (find_pc_sect_compunit_symtab_from_partial): Renamed from find_pc_sect_symtab_from_partial. Change result type to "struct compunit_symtab *". All callers updated. (lookup_symbol_aux_psymtabs): Change result type to "struct compunit_symtab *". All callers updated. (find_last_source_symtab_from_partial): Ditto. * python/py-symtab.c (stpy_get_producer): Fetch producer from compunit. * source.c (forget_cached_source_info_for_objfile): Fetch debugformat and macro_table from compunit. * symfile-debug.c (debug_qf_find_last_source_symtab): Change result type to "struct compunit_symtab *". All callers updated. (debug_qf_lookup_symbol): Ditto. (debug_qf_find_pc_sect_compunit_symtab): Renamed from debug_qf_find_pc_sect_symtab, change result type to "struct compunit_symtab *". All callers updated. * symfile.c (allocate_symtab): Delete objfile argument. New argument cust. (allocate_compunit_symtab): New function. (add_compunit_symtab_to_objfile): New function. * symfile.h (struct quick_symbol_functions) <lookup_symbol>: Change result type to "struct compunit_symtab *". All uses updated. <find_pc_sect_compunit_symtab>: Renamed from find_pc_sect_symtab. Change result type to "struct compunit_symtab *". All uses updated. * symmisc.c (print_objfile_statistics): Compute blockvector count in separate loop. (dump_symtab_1): Update test for primary source symtab. (maintenance_info_symtabs): Update to handle compunit symtabs. (maintenance_check_symtabs): Ditto. * symtab.c (set_primary_symtab): Delete. (compunit_primary_filetab): New function. (compunit_language): New function. (iterate_over_some_symtabs): Change type of arguments "first", "after_last" to "struct compunit_symtab *". All callers updated. Update to loop over symtabs in each compunit. (error_in_psymtab_expansion): Rename symtab argument to cust, and change type to "struct compunit_symtab *". All callers updated. (find_pc_sect_compunit_symtab): Renamed from find_pc_sect_symtab. Change result type to "struct compunit_symtab *". All callers updated. (find_pc_compunit_symtab): Renamed from find_pc_symtab. Change result type to "struct compunit_symtab *". All callers updated. (find_pc_sect_line): Only loop over symtabs within selected compunit instead of all symtabs in the objfile. * symtab.h (struct symtab) <blockvector>: Moved to compunit_symtab. <compunit_symtab> New member. <block_line_section>: Moved to compunit_symtab. <locations_valid>: Ditto. <epilogue_unwind_valid>: Ditto. <macro_table>: Ditto. <dirname>: Ditto. <debugformat>: Ditto. <producer>: Ditto. <objfile>: Ditto. <call_site_htab>: Ditto. <includes>: Ditto. <user>: Ditto. <primary>: Delete (SYMTAB_COMPUNIT): New macro. (SYMTAB_BLOCKVECTOR): Update definition. (SYMTAB_OBJFILE): Update definition. (SYMTAB_DIRNAME): Update definition. (struct compunit_symtab): New type. Common members among all source symtabs within a compilation unit moved here. All uses updated. (COMPUNIT_OBJFILE): New macro. (COMPUNIT_FILETABS): New macro. (COMPUNIT_DEBUGFORMAT): New macro. (COMPUNIT_PRODUCER): New macro. (COMPUNIT_DIRNAME): New macro. (COMPUNIT_BLOCKVECTOR): New macro. (COMPUNIT_BLOCK_LINE_SECTION): New macro. (COMPUNIT_LOCATIONS_VALID): New macro. (COMPUNIT_EPILOGUE_UNWIND_VALID): New macro. (COMPUNIT_CALL_SITE_HTAB): New macro. (COMPUNIT_MACRO_TABLE): New macro. (ALL_COMPUNIT_FILETABS): New macro. (compunit_symtab_ptr): New typedef. (DEF_VEC_P (compunit_symtab_ptr)): New vector type. gdb/testsuite/ChangeLog: * gdb.base/maint.exp: Update expected output.
709 lines
27 KiB
C
709 lines
27 KiB
C
/* Definitions for symbol file management in GDB.
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Copyright (C) 1992-2014 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 "gdb_obstack.h" /* For obstack internals. */
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#include "symfile.h" /* For struct psymbol_allocation_list. */
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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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struct bcache;
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struct htab;
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struct objfile_data;
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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 normaly and
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following frames are treated as being inside the enttry 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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struct bfd_section *the_bfd_section; /* BFD section pointer */
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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)->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_get_section_vma ((s)->objfile->obfd, 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_get_section_vma ((s)->objfile->obfd, s->the_bfd_section) \
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+ bfd_get_section_size ((s)->the_bfd_section) \
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+ obj_section_offset (s))
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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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int n_psyms; /* Number of partial symbols read */
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int n_syms; /* Number of full symbols read */
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int n_stabs; /* Number of ".stabs" read (if applicable) */
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int n_types; /* Number of types */
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int sz_strtab; /* Size of stringtable, (if applicable) */
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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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/* 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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/* The storage has an obstack of its own. */
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struct obstack storage_obstack;
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/* Byte cache for file names. */
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struct bcache *filename_cache;
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/* Byte cache for macros. */
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struct bcache *macro_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;
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/* Hash table for mapping symbol names to demangled names. Each
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entry in the hash table is actually two consecutive strings,
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both null-terminated; the first one is a mangled or linkage
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name, and the second is the demangled name or just a zero byte
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if the name doesn't demangle. */
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struct htab *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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struct 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;
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enum language language_of_main;
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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. The array itself, as well
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as all the data that it points to, should be allocated on the
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objfile_obstack for this file. */
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struct minimal_symbol *msymbols;
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int minimal_symbol_count;
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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;
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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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unsigned int minsyms_read : 1;
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/* This is a hash table used to index the minimal symbols by name. */
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struct 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. */
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struct minimal_symbol *msymbol_demangled_hash[MINIMAL_SYMBOL_HASH_SIZE];
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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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struct objfile
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{
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||
|
||
/* All struct objfile's are chained together by their next pointers.
|
||
The program space field "objfiles" (frequently referenced via
|
||
the macro "object_files") points to the first link in this
|
||
chain. */
|
||
|
||
struct objfile *next;
|
||
|
||
/* The object file's original name as specified by the user,
|
||
made absolute, and tilde-expanded. However, it is not canonicalized
|
||
(i.e., it has not been passed through gdb_realpath).
|
||
This pointer is never NULL. This does not have to be freed; it is
|
||
guaranteed to have a lifetime at least as long as the objfile. */
|
||
|
||
char *original_name;
|
||
|
||
CORE_ADDR addr_low;
|
||
|
||
/* Some flag bits for this objfile.
|
||
The values are defined by OBJF_*. */
|
||
|
||
unsigned short flags;
|
||
|
||
/* The program space associated with this objfile. */
|
||
|
||
struct program_space *pspace;
|
||
|
||
/* List of compunits.
|
||
These are used to do symbol lookups and file/line-number lookups. */
|
||
|
||
struct compunit_symtab *compunit_symtabs;
|
||
|
||
/* Each objfile points to a linked list of partial symtabs derived from
|
||
this file, one partial symtab structure for each compilation unit
|
||
(source file). */
|
||
|
||
struct partial_symtab *psymtabs;
|
||
|
||
/* Map addresses to the entries of PSYMTABS. It would be more efficient to
|
||
have a map per the whole process but ADDRMAP cannot selectively remove
|
||
its items during FREE_OBJFILE. This mapping is already present even for
|
||
PARTIAL_SYMTABs which still have no corresponding full SYMTABs read. */
|
||
|
||
struct addrmap *psymtabs_addrmap;
|
||
|
||
/* List of freed partial symtabs, available for re-use. */
|
||
|
||
struct partial_symtab *free_psymtabs;
|
||
|
||
/* The object file's BFD. Can be null if the objfile contains only
|
||
minimal symbols, e.g. the run time common symbols for SunOS4. */
|
||
|
||
bfd *obfd;
|
||
|
||
/* The per-BFD data. Note that this is treated specially if OBFD
|
||
is NULL. */
|
||
|
||
struct objfile_per_bfd_storage *per_bfd;
|
||
|
||
/* The modification timestamp of the object file, as of the last time
|
||
we read its symbols. */
|
||
|
||
long mtime;
|
||
|
||
/* Obstack to hold objects that should be freed when we load a new symbol
|
||
table from this object file. */
|
||
|
||
struct obstack objfile_obstack;
|
||
|
||
/* A byte cache where we can stash arbitrary "chunks" of bytes that
|
||
will not change. */
|
||
|
||
struct psymbol_bcache *psymbol_cache; /* Byte cache for partial syms. */
|
||
|
||
/* Vectors of all partial symbols read in from file. The actual data
|
||
is stored in the objfile_obstack. */
|
||
|
||
struct psymbol_allocation_list global_psymbols;
|
||
struct psymbol_allocation_list static_psymbols;
|
||
|
||
/* Structure which keeps track of functions that manipulate objfile's
|
||
of the same type as this objfile. I.e. the function to read partial
|
||
symbols for example. Note that this structure is in statically
|
||
allocated memory, and is shared by all objfiles that use the
|
||
object module reader of this type. */
|
||
|
||
const struct sym_fns *sf;
|
||
|
||
/* Per objfile data-pointers required by other GDB modules. */
|
||
|
||
REGISTRY_FIELDS;
|
||
|
||
/* Set of relocation offsets to apply to each section.
|
||
The table is indexed by the_bfd_section->index, thus it is generally
|
||
as large as the number of sections in the binary.
|
||
The table is stored on the objfile_obstack.
|
||
|
||
These offsets indicate that all symbols (including partial and
|
||
minimal symbols) which have been read have been relocated by this
|
||
much. Symbols which are yet to be read need to be relocated by it. */
|
||
|
||
struct section_offsets *section_offsets;
|
||
int num_sections;
|
||
|
||
/* Indexes in the section_offsets array. These are initialized by the
|
||
*_symfile_offsets() family of functions (som_symfile_offsets,
|
||
xcoff_symfile_offsets, default_symfile_offsets). In theory they
|
||
should correspond to the section indexes used by bfd for the
|
||
current objfile. The exception to this for the time being is the
|
||
SOM version. */
|
||
|
||
int sect_index_text;
|
||
int sect_index_data;
|
||
int sect_index_bss;
|
||
int sect_index_rodata;
|
||
|
||
/* These pointers are used to locate the section table, which
|
||
among other things, is used to map pc addresses into sections.
|
||
SECTIONS points to the first entry in the table, and
|
||
SECTIONS_END points to the first location past the last entry
|
||
in the table. The table is stored on the objfile_obstack. The
|
||
sections are indexed by the BFD section index; but the
|
||
structure data is only valid for certain sections
|
||
(e.g. non-empty, SEC_ALLOC). */
|
||
|
||
struct obj_section *sections, *sections_end;
|
||
|
||
/* GDB allows to have debug symbols in separate object files. This is
|
||
used by .gnu_debuglink, ELF build id note and Mach-O OSO.
|
||
Although this is a tree structure, GDB only support one level
|
||
(ie a separate debug for a separate debug is not supported). Note that
|
||
separate debug object are in the main chain and therefore will be
|
||
visited by ALL_OBJFILES & co iterators. Separate debug objfile always
|
||
has a non-nul separate_debug_objfile_backlink. */
|
||
|
||
/* Link to the first separate debug object, if any. */
|
||
struct objfile *separate_debug_objfile;
|
||
|
||
/* If this is a separate debug object, this is used as a link to the
|
||
actual executable objfile. */
|
||
struct objfile *separate_debug_objfile_backlink;
|
||
|
||
/* If this is a separate debug object, this is a link to the next one
|
||
for the same executable objfile. */
|
||
struct objfile *separate_debug_objfile_link;
|
||
|
||
/* Place to stash various statistics about this objfile. */
|
||
OBJSTATS;
|
||
|
||
/* A linked list of symbols created when reading template types or
|
||
function templates. These symbols are not stored in any symbol
|
||
table, so we have to keep them here to relocate them
|
||
properly. */
|
||
struct symbol *template_symbols;
|
||
};
|
||
|
||
/* Defines for the objfile flag word. */
|
||
|
||
/* When an object file has its functions reordered (currently Irix-5.2
|
||
shared libraries exhibit this behaviour), we will need an expensive
|
||
algorithm to locate a partial symtab or symtab via an address.
|
||
To avoid this penalty for normal object files, we use this flag,
|
||
whose setting is determined upon symbol table read in. */
|
||
|
||
#define OBJF_REORDERED (1 << 0) /* Functions are reordered */
|
||
|
||
/* Distinguish between an objfile for a shared library and a "vanilla"
|
||
objfile. This may come from a target's implementation of the solib
|
||
interface, from add-symbol-file, or any other mechanism that loads
|
||
dynamic objects. */
|
||
|
||
#define OBJF_SHARED (1 << 1) /* From a shared library */
|
||
|
||
/* User requested that this objfile be read in it's entirety. */
|
||
|
||
#define OBJF_READNOW (1 << 2) /* Immediate full read */
|
||
|
||
/* This objfile was created because the user explicitly caused it
|
||
(e.g., used the add-symbol-file command). This bit offers a way
|
||
for run_command to remove old objfile entries which are no longer
|
||
valid (i.e., are associated with an old inferior), but to preserve
|
||
ones that the user explicitly loaded via the add-symbol-file
|
||
command. */
|
||
|
||
#define OBJF_USERLOADED (1 << 3) /* User loaded */
|
||
|
||
/* Set if we have tried to read partial symtabs for this objfile.
|
||
This is used to allow lazy reading of partial symtabs. */
|
||
|
||
#define OBJF_PSYMTABS_READ (1 << 4)
|
||
|
||
/* Set if this is the main symbol file
|
||
(as opposed to symbol file for dynamically loaded code). */
|
||
|
||
#define OBJF_MAINLINE (1 << 5)
|
||
|
||
/* ORIGINAL_NAME and OBFD->FILENAME correspond to text description unrelated to
|
||
filesystem names. It can be for example "<image in memory>". */
|
||
|
||
#define OBJF_NOT_FILENAME (1 << 6)
|
||
|
||
/* Declarations for functions defined in objfiles.c */
|
||
|
||
extern struct objfile *allocate_objfile (bfd *, const char *name, int);
|
||
|
||
extern struct gdbarch *get_objfile_arch (const struct objfile *);
|
||
|
||
extern int entry_point_address_query (CORE_ADDR *entry_p);
|
||
|
||
extern CORE_ADDR entry_point_address (void);
|
||
|
||
extern void build_objfile_section_table (struct objfile *);
|
||
|
||
extern void terminate_minimal_symbol_table (struct objfile *objfile);
|
||
|
||
extern struct objfile *objfile_separate_debug_iterate (const struct objfile *,
|
||
const struct objfile *);
|
||
|
||
extern void put_objfile_before (struct objfile *, struct objfile *);
|
||
|
||
extern void add_separate_debug_objfile (struct objfile *, struct objfile *);
|
||
|
||
extern void unlink_objfile (struct objfile *);
|
||
|
||
extern void free_objfile (struct objfile *);
|
||
|
||
extern void free_objfile_separate_debug (struct objfile *);
|
||
|
||
extern struct cleanup *make_cleanup_free_objfile (struct objfile *);
|
||
|
||
extern void free_all_objfiles (void);
|
||
|
||
extern void objfile_relocate (struct objfile *, const struct section_offsets *);
|
||
extern void objfile_rebase (struct objfile *, CORE_ADDR);
|
||
|
||
extern int objfile_has_partial_symbols (struct objfile *objfile);
|
||
|
||
extern int objfile_has_full_symbols (struct objfile *objfile);
|
||
|
||
extern int objfile_has_symbols (struct objfile *objfile);
|
||
|
||
extern int have_partial_symbols (void);
|
||
|
||
extern int have_full_symbols (void);
|
||
|
||
extern void objfile_set_sym_fns (struct objfile *objfile,
|
||
const struct sym_fns *sf);
|
||
|
||
extern void objfiles_changed (void);
|
||
|
||
extern int is_addr_in_objfile (CORE_ADDR addr, const struct objfile *objfile);
|
||
|
||
/* Return true if ADDRESS maps into one of the sections of a
|
||
OBJF_SHARED objfile of PSPACE and false otherwise. */
|
||
|
||
extern int shared_objfile_contains_address_p (struct program_space *pspace,
|
||
CORE_ADDR address);
|
||
|
||
/* This operation deletes all objfile entries that represent solibs that
|
||
weren't explicitly loaded by the user, via e.g., the add-symbol-file
|
||
command. */
|
||
|
||
extern void objfile_purge_solibs (void);
|
||
|
||
/* Functions for dealing with the minimal symbol table, really a misc
|
||
address<->symbol mapping for things we don't have debug symbols for. */
|
||
|
||
extern int have_minimal_symbols (void);
|
||
|
||
extern struct obj_section *find_pc_section (CORE_ADDR pc);
|
||
|
||
/* Return non-zero if PC is in a section called NAME. */
|
||
extern int pc_in_section (CORE_ADDR, char *);
|
||
|
||
/* Return non-zero if PC is in a SVR4-style procedure linkage table
|
||
section. */
|
||
|
||
static inline int
|
||
in_plt_section (CORE_ADDR pc)
|
||
{
|
||
return pc_in_section (pc, ".plt");
|
||
}
|
||
|
||
/* Keep a registry of per-objfile data-pointers required by other GDB
|
||
modules. */
|
||
DECLARE_REGISTRY(objfile);
|
||
|
||
/* In normal use, the section map will be rebuilt by find_pc_section
|
||
if objfiles have been added, removed or relocated since it was last
|
||
called. Calling inhibit_section_map_updates will inhibit this
|
||
behavior until resume_section_map_updates is called. If you call
|
||
inhibit_section_map_updates you must ensure that every 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. */
|
||
extern void inhibit_section_map_updates (struct program_space *pspace);
|
||
|
||
/* Resume automatically rebuilding the section map as required. */
|
||
extern void resume_section_map_updates (struct program_space *pspace);
|
||
|
||
/* Version of the above suitable for use as a cleanup. */
|
||
extern void resume_section_map_updates_cleanup (void *arg);
|
||
|
||
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);
|
||
|
||
|
||
/* Traverse all object files in the current program space.
|
||
ALL_OBJFILES_SAFE works even if you delete the objfile during the
|
||
traversal. */
|
||
|
||
/* Traverse all object files in program space SS. */
|
||
|
||
#define ALL_PSPACE_OBJFILES(ss, obj) \
|
||
for ((obj) = ss->objfiles; (obj) != NULL; (obj) = (obj)->next)
|
||
|
||
#define ALL_OBJFILES(obj) \
|
||
for ((obj) = current_program_space->objfiles; \
|
||
(obj) != NULL; \
|
||
(obj) = (obj)->next)
|
||
|
||
#define ALL_OBJFILES_SAFE(obj,nxt) \
|
||
for ((obj) = current_program_space->objfiles; \
|
||
(obj) != NULL? ((nxt)=(obj)->next,1) :0; \
|
||
(obj) = (nxt))
|
||
|
||
/* Traverse all symtabs in one objfile. */
|
||
|
||
#define ALL_OBJFILE_FILETABS(objfile, cu, s) \
|
||
ALL_OBJFILE_COMPUNITS (objfile, cu) \
|
||
ALL_COMPUNIT_FILETABS (cu, s)
|
||
|
||
/* Traverse all compunits in one objfile. */
|
||
|
||
#define ALL_OBJFILE_COMPUNITS(objfile, cu) \
|
||
for ((cu) = (objfile) -> compunit_symtabs; (cu) != NULL; (cu) = (cu) -> next)
|
||
|
||
/* Traverse all minimal symbols in one objfile. */
|
||
|
||
#define ALL_OBJFILE_MSYMBOLS(objfile, m) \
|
||
for ((m) = (objfile)->per_bfd->msymbols; \
|
||
MSYMBOL_LINKAGE_NAME (m) != NULL; \
|
||
(m)++)
|
||
|
||
/* Traverse all symtabs in all objfiles in the current symbol
|
||
space. */
|
||
|
||
#define ALL_FILETABS(objfile, ps, s) \
|
||
ALL_OBJFILES (objfile) \
|
||
ALL_OBJFILE_FILETABS (objfile, ps, s)
|
||
|
||
/* Traverse all compunits in all objfiles in the current program space. */
|
||
|
||
#define ALL_COMPUNITS(objfile, cu) \
|
||
ALL_OBJFILES (objfile) \
|
||
ALL_OBJFILE_COMPUNITS (objfile, cu)
|
||
|
||
/* Traverse all minimal symbols in all objfiles in the current symbol
|
||
space. */
|
||
|
||
#define ALL_MSYMBOLS(objfile, m) \
|
||
ALL_OBJFILES (objfile) \
|
||
ALL_OBJFILE_MSYMBOLS (objfile, m)
|
||
|
||
#define ALL_OBJFILE_OSECTIONS(objfile, osect) \
|
||
for (osect = objfile->sections; osect < objfile->sections_end; osect++) \
|
||
if (osect->the_bfd_section == NULL) \
|
||
{ \
|
||
/* Nothing. */ \
|
||
} \
|
||
else
|
||
|
||
/* Traverse all obj_sections in all objfiles in the current program
|
||
space.
|
||
|
||
Note that this detects a "break" in the inner loop, and exits
|
||
immediately from the outer loop as well, thus, client code doesn't
|
||
need to know that this is implemented with a double for. The extra
|
||
hair is to make sure that a "break;" stops the outer loop iterating
|
||
as well, and both OBJFILE and OSECT are left unmodified:
|
||
|
||
- The outer loop learns about the inner loop's end condition, and
|
||
stops iterating if it detects the inner loop didn't reach its
|
||
end. In other words, the outer loop keeps going only if the
|
||
inner loop reached its end cleanly [(osect) ==
|
||
(objfile)->sections_end].
|
||
|
||
- OSECT is initialized in the outer loop initialization
|
||
expressions, such as if the inner loop has reached its end, so
|
||
the check mentioned above succeeds the first time.
|
||
|
||
- The trick to not clearing OBJFILE on a "break;" is, in the outer
|
||
loop's loop expression, advance OBJFILE, but iff the inner loop
|
||
reached its end. If not, there was a "break;", so leave OBJFILE
|
||
as is; the outer loop's conditional will break immediately as
|
||
well (as OSECT will be different from OBJFILE->sections_end). */
|
||
|
||
#define ALL_OBJSECTIONS(objfile, osect) \
|
||
for ((objfile) = current_program_space->objfiles, \
|
||
(objfile) != NULL ? ((osect) = (objfile)->sections_end) : 0; \
|
||
(objfile) != NULL \
|
||
&& (osect) == (objfile)->sections_end; \
|
||
((osect) == (objfile)->sections_end \
|
||
? ((objfile) = (objfile)->next, \
|
||
(objfile) != NULL ? (osect) = (objfile)->sections_end : 0) \
|
||
: 0)) \
|
||
ALL_OBJFILE_OSECTIONS (objfile, osect)
|
||
|
||
#define SECT_OFF_DATA(objfile) \
|
||
((objfile->sect_index_data == -1) \
|
||
? (internal_error (__FILE__, __LINE__, \
|
||
_("sect_index_data not initialized")), -1) \
|
||
: objfile->sect_index_data)
|
||
|
||
#define SECT_OFF_RODATA(objfile) \
|
||
((objfile->sect_index_rodata == -1) \
|
||
? (internal_error (__FILE__, __LINE__, \
|
||
_("sect_index_rodata not initialized")), -1) \
|
||
: objfile->sect_index_rodata)
|
||
|
||
#define SECT_OFF_TEXT(objfile) \
|
||
((objfile->sect_index_text == -1) \
|
||
? (internal_error (__FILE__, __LINE__, \
|
||
_("sect_index_text not initialized")), -1) \
|
||
: objfile->sect_index_text)
|
||
|
||
/* Sometimes the .bss section is missing from the objfile, so we don't
|
||
want to die here. Let the users of SECT_OFF_BSS deal with an
|
||
uninitialized section index. */
|
||
#define SECT_OFF_BSS(objfile) (objfile)->sect_index_bss
|
||
|
||
/* Answer whether there is more than one object file loaded. */
|
||
|
||
#define MULTI_OBJFILE_P() (object_files && object_files->next)
|
||
|
||
/* Reset the per-BFD storage area on OBJ. */
|
||
|
||
void set_objfile_per_bfd (struct objfile *obj);
|
||
|
||
const char *objfile_name (const struct objfile *objfile);
|
||
|
||
/* Set the objfile's notion of the "main" name and language. */
|
||
|
||
extern void set_objfile_main_name (struct objfile *objfile,
|
||
const char *name, enum language lang);
|
||
|
||
#endif /* !defined (OBJFILES_H) */
|