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2e4964adfc
* defs.h (demangle_and_match): Remove prototype. * dwarfread.c (STREQ, STREQN): Remove macros, replaced with STREQ and STREQN defined in defs.h. * dwarfread.c (set_cu_language): For completely unknown languages, try to deduce the language from the filename. Retain behavior that for known languages we don't know how to handle, we use language_unknown. * dwarfread.c (enum_type, symthesize_typedef): Initialize language and demangled name fields in symbol. * dwarfread.c, mipsread.c, partial-stab.h: For all usages of ADD_PSYMBOL_TO_LIST, add language and objfile parameters. * dwarfread.c (new_symbol): Attempt to demangle C++ symbol names and cache the results in SYMBOL_DEMANGLED_NAME for the symbol. * elfread.c (STREQ): Remove macro, use STREQ defined in defs.h. Replace usages throughout. * elfread.c (demangle.h): Include. * elfread.c (record_minimal_symbol): Remove prototype and function. * gdbtypes.h, symtab.h (B_SET, B_CLR, B_TST, B_TYPE, B_BYTES, B_CLRALL): Moved from symtab.h to gdbtypes.h. * infcmd.c (jump_command): Remove code to demangle name and add it to a cleanup list. Now just use SYMBOL_DEMANGLED_NAME. * minsyms.c (demangle.h): Include. * minsyms.c (lookup_minimal_symbol): Indent comment to match code. * minsyms.c (install_minimal_symbols): Attempt to demangle symbol names as C++ names, and cache them in SYMBOL_DEMANGLED_NAME. * mipsread.c (psymtab_language): Add static variable. * stabsread.c (demangle.h): Include. * stabsread.c (define_symbol): Attempt to demangle C++ symbol names and cache them in the SYMBOL_DEMANGLED_NAME field. * stack.c (return_command): Remove explicit demangling of name and use of cleanups. Just use SYMBOL_DEMANGLED_NAME. * symfile.c (demangle.h): Include. * symfile.c (add_psymbol_to_list, add_psymbol_addr_to_list): Fix to match macros in symfile.h and allow them to be compiled if INLINE_ADD_PSYMBOL is not true. * symfile.h (INLINE_ADD_PSYMBOL): Default to true if not set. * symfile.h (ADD_PSYMBOL_*): Add language and objfile parameters. Add code to demangle and cache C++ symbol names. Use macro form if INLINE_ADD_PSYMBOL is true, otherwise use C function form. * symmisc.c (add_psymbol_to_list, add_psymbol_addr_to_list): Remove, also defined in symfile.c, which we already fixed. * symtab.c (expensive_mangler): Remove prototype and function. * symtab.c (find_methods): Remove physnames parameter and fix prototype to match. * symtab.c (completion_list_add_symbol): Name changed to completion_list_add_name. * symtab.c (COMPLETION_LIST_ADD_SYMBOL): New macro, adds both the normal symbol name and the cached C++ demangled name. * symtab.c (lookup_demangled_partial_symbol, lookup_demangled_block_symbol): Remove prototypes and functions. * symtab.c (lookup_symbol): Remove use of expensive_mangler, use lookup_block_symbol instead of lookup_demangled_block_symbol. Remove code to try demangling names and matching them. * symtab.c (lookup_partial_symbol, lookup_block_symbol): Fix to try matching the cached demangled name if no match is found using the regular symbol name. * symtab.c (find_methods): Remove unused physnames array. * symtab.c (name_match, NAME_MATCH): Remove function and macro, replaced with SYMBOL_MATCHES_REGEXP from symtab.h. * symtab.c (completion_list_add_symbol): Rewrite to use cached C++ demangled symbol names. * symtab.h: Much reformatting of structures and such to add whitespace to make them more readable, and make them more consistent with other gdb structure definitions. * symtab.h (general_symbol_info): New struct containing fields common to all symbols. * symtab.h (SYMBOL_LANGUAGE, SYMBOL_DEMANGLED_NAME, SYMBOL_SOURCE_NAME, SYMBOL_LINKAGE_NAME, SYMBOL_MATCHES_NAME, SYMBOL_MATCHES_REGEXP, MSYMBOL_INFO, MSYMBOL_TYPE): New macros. * symtab. (struct minimal_symbol, struct partial_symbol, struct symbol): Use general_symbol_info struct. * utils.c (demangle_and_match): Remove, no longer used. * valops.c (demangle.h): Include. * xcoffexec.c (eq): Remove macro, replace usages with STREQ. * blockframe.c, breakpoint.c, c-exp.y, c-valprint.c, dbxread.c, infcmd.c, m2-exp.y, minsyms.c, objfiles.h, solib.c, stack.c, symmisc.c, symtab.c, valops.c: Replace references to minimal symbol fields with appropriate macros. * breakpoint.c, buildsym.c, c-exp.y, c-typeprint.c, c-valprint.c, coffread.c, command.c, convex-tdep.c, cp-valprint.c, dbxread.c, demangle.c, elfread.c, energize.c, environ.c, exec.c, gdbtypes.c, i960-tdep.c, infrun.c, infrun-hacked.c, language.c, main.c, minsyms.c, mipsread.c, partial-stab.h, remote-es1800.c, remote-nindy.c, remote-udi.c, rs6000-tdep.c, solib.c, source.c, sparc-pinsn.c, stabsread.c, standalone.c, state.c, stuff.c, symfile.c, symmisc.c, symtab.c, symtab.h, tm-sysv4.h, tm-ultra3.h, values.c, xcoffexec.c, xcoffread.c: Replace strcmp and strncmp usages with STREQ, STREQN, or STRCMP as appropriate. * breakpoint.c, buildsym.c, c-typeprint.c, expprint.c, findvar.c, mipsread.c, printcmd.c, source.c, stabsread.c, stack.c, symmisc.c, tm-29k.h, valops.c, values.c: Replace SYMBOL_NAME references with SYMBOL_SOURCE_NAME or SYMBOL_LINKAGE_NAME as appropriate. * buildsym.c (start_subfile, patch_subfile_names): Default the source language to what can be deduced from the filename. * buildsym.c (end_symtab): Update the source language in the allocated symtab to match what we have been using. * buildsym.h (struct subfile): Add a language field. * c-typeprint.c (c_print_type): Remove code to do explicit demangling. * dbxread.c (psymtab_language): Add static variable. * dbxread.c (start_psymtab): Initialize psymtab_language using deduce_language_from_filename.
365 lines
14 KiB
C
365 lines
14 KiB
C
/* Definitions for symbol file management in GDB.
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Copyright (C) 1992 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 2 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, write to the Free Software
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Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
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#if !defined (OBJFILES_H)
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#define OBJFILES_H
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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 it's 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 is to use the recorded entry
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point to set the variables entry_file_lowpc and entry_file_highpc from
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the debugging information, where these values are the starting address
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(inclusive) and ending address (exclusive) of the instruction space in the
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executable which correspond to the "startup file", I.E. crt0.o in most
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cases. This file is assumed to be a startup file and frames with pc's
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inside it are treated as nonexistent. Setting these variables is necessary
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so that backtraces do not fly off the bottom of the stack (or top, depending
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upon your stack orientation).
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Gdb also supports an alternate method to avoid running off the top/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 valid
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within the main() function and within the function containing the process
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entry point. If we always consider the frame for main() as the outermost
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frame when debugging user code, and the frame for the process entry
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point function as the outermost frame when debugging startup code, then
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all we have to do is have FRAME_CHAIN_VALID return false whenever a
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frame's current PC is within the range specified by these variables.
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In 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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To use this method, define your FRAME_CHAIN_VALID macro like:
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#define FRAME_CHAIN_VALID(chain, thisframe) \
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(chain != 0 \
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&& !(inside_main_func ((thisframe)->pc)) \
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&& !(inside_entry_func ((thisframe)->pc)))
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and add initializations of the four scope controlling variables inside
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the object file / debugging information processing modules. */
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struct entry_info
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{
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/* The value we should use for this objects entry point.
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The illegal/unknown value needs to be something other than 0, ~0
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for instance, which is much less likely than 0. */
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CORE_ADDR entry_point;
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/* Start (inclusive) and end (exclusive) of function containing the
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entry point. */
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CORE_ADDR entry_func_lowpc;
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CORE_ADDR entry_func_highpc;
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/* Start (inclusive) and end (exclusive) of object file containing the
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entry point. */
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CORE_ADDR entry_file_lowpc;
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CORE_ADDR entry_file_highpc;
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/* Start (inclusive) and end (exclusive) of the user code main() function. */
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CORE_ADDR main_func_lowpc;
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CORE_ADDR main_func_highpc;
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};
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/* Master structure for keeping track of each input file from which
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gdb reads symbols. One of these is allocated for each such file we
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access, e.g. the exec_file, symbol_file, and any shared library object
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files. */
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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.
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The global variable "object_files" points to the first link in this
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chain.
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FIXME: There is a problem here if the objfile is reusable, and if
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multiple users are to be supported. The problem is that the objfile
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list is linked through a member of the objfile struct itself, which
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is only valid for one gdb process. The list implementation needs to
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be changed to something like:
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struct list {struct list *next; struct objfile *objfile};
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where the list structure is completely maintained separately within
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each gdb process. */
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struct objfile *next;
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/* The object file's name. Malloc'd; free it if you free this struct. */
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char *name;
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/* Some flag bits for this objfile. */
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unsigned short flags;
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/* Each objfile points to a linked list of symtabs derived from this file,
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one symtab structure for each compilation unit (source file). Each link
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in the symtab list contains a backpointer to this objfile. */
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struct symtab *symtabs;
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/* Each objfile points to a linked list of partial symtabs derived from
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this file, one partial symtab structure for each compilation unit
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(source file). */
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struct partial_symtab *psymtabs;
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/* List of freed partial symtabs, available for re-use */
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struct partial_symtab *free_psymtabs;
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/* The object file's BFD. Can be null, in which case bfd_open (name) and
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put the result here. */
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bfd *obfd;
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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;
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/* Obstacks 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 psymbol_obstack; /* Partial symbols */
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struct obstack symbol_obstack; /* Full symbols */
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struct obstack type_obstack; /* Types */
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/* Vectors of all partial symbols read in from file. The actual data
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is stored in the psymbol_obstack. */
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struct psymbol_allocation_list global_psymbols;
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struct psymbol_allocation_list static_psymbols;
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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 terminated
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by a "null symbol", one that has a NULL pointer for the name and a zero
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value for the address. This makes it easy to walk through the array
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when passed a pointer to somewhere in the middle of it. There is also
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a count of the number of symbols, which does include the terminating
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null symbol. The array itself, as well as all the data that it points
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to, should be allocated on the symbol_obstack for this file. */
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struct minimal_symbol *msymbols;
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int minimal_symbol_count;
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/* For object file formats which don't specify fundamental types, gdb
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can create such types. For now, it maintains a vector of pointers
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to these internally created fundamental types on a per objfile basis,
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however it really should ultimately keep them on a per-compilation-unit
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basis, to account for linkage-units that consist of a number of
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compilation units that may have different fundamental types, such as
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linking C modules with ADA modules, or linking C modules that are
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compiled with 32-bit ints with C modules that are compiled with 64-bit
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ints (not inherently evil with a smarter linker). */
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struct type **fundamental_types;
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/* The mmalloc() malloc-descriptor for this objfile if we are using
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the memory mapped malloc() package to manage storage for this objfile's
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data. NULL if we are not. */
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PTR md;
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/* The file descriptor that was used to obtain the mmalloc descriptor
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for this objfile. If we call mmalloc_detach with the malloc descriptor
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we should then close this file descriptor. */
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int mmfd;
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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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struct sym_fns *sf;
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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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/* Hook for information which is shared by sym_init and sym_read for
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this objfile. It is typically a pointer to malloc'd memory. */
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PTR sym_private;
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};
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/* Defines for the objfile flag word. */
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/* Gdb can arrange to allocate storage for all objects related to a
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particular objfile in a designated section of it's address space,
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managed at a low level by mmap() and using a special version of
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malloc that handles malloc/free/realloc on top of the mmap() interface.
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This allows the "internal gdb state" for a particular objfile to be
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dumped to a gdb state file and subsequently reloaded at a later time. */
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#define OBJF_MAPPED (1 << 0) /* Objfile data is mmap'd */
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/* When using mapped/remapped predigested gdb symbol information, we need
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a flag that indicates that we have previously done an initial symbol
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table read from this particular objfile. We can't just look for the
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absence of any of the three symbol tables (msymbols, psymtab, symtab)
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because if the file has no symbols for example, none of these will
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exist. */
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#define OBJF_SYMS (1 << 1) /* Have tried to read symbols */
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/* The object file that the main symbol table was loaded from (e.g. the
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argument to the "symbol-file" or "file" command). */
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extern struct objfile *symfile_objfile;
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/* When we need to allocate a new type, we need to know which type_obstack
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to allocate the type on, since there is one for each objfile. The places
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where types are allocated are deeply buried in function call hierarchies
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which know nothing about objfiles, so rather than trying to pass a
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particular objfile down to them, we just do an end run around them and
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set current_objfile to be whatever objfile we expect to be using at the
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time types are being allocated. For instance, when we start reading
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symbols for a particular objfile, we set current_objfile to point to that
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objfile, and when we are done, we set it back to NULL, to ensure that we
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never put a type someplace other than where we are expecting to put it.
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FIXME: Maybe we should review the entire type handling system and
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see if there is a better way to avoid this problem. */
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extern struct objfile *current_objfile;
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/* All known objfiles are kept in a linked list. This points to the
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root of this list. */
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extern struct objfile *object_files;
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/* Declarations for functions defined in objfiles.c */
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extern struct objfile *
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allocate_objfile PARAMS ((bfd *, int));
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extern void
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unlink_objfile PARAMS ((struct objfile *));
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extern void
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free_objfile PARAMS ((struct objfile *));
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extern void
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free_all_objfiles PARAMS ((void));
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extern int
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have_partial_symbols PARAMS ((void));
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extern int
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have_full_symbols PARAMS ((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
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have_minimal_symbols PARAMS ((void));
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/* Traverse all object files. ALL_OBJFILES_SAFE works even if you delete
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the objfile during the traversal. */
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#define ALL_OBJFILES(obj) \
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for ((obj) = object_files; (obj) != NULL; (obj) = (obj)->next)
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#define ALL_OBJFILES_SAFE(obj,nxt) \
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for ((obj) = object_files; \
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(obj) != NULL? ((nxt)=(obj)->next,1) :0; \
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(obj) = (nxt))
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/* Traverse all symtabs in one objfile. */
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#define ALL_OBJFILE_SYMTABS(objfile, s) \
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for ((s) = (objfile) -> symtabs; (s) != NULL; (s) = (s) -> next)
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/* Traverse all psymtabs in one objfile. */
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#define ALL_OBJFILE_PSYMTABS(objfile, p) \
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for ((p) = (objfile) -> psymtabs; (p) != NULL; (p) = (p) -> next)
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/* Traverse all minimal symbols in one objfile. */
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#define ALL_OBJFILE_MSYMBOLS(objfile, m) \
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for ((m) = (objfile) -> msymbols; SYMBOL_NAME(m) != NULL; (m)++)
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/* Traverse all symtabs in all objfiles. */
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#define ALL_SYMTABS(objfile, s) \
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ALL_OBJFILES (objfile) \
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ALL_OBJFILE_SYMTABS (objfile, s)
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/* Traverse all psymtabs in all objfiles. */
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#define ALL_PSYMTABS(objfile, p) \
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ALL_OBJFILES (objfile) \
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ALL_OBJFILE_PSYMTABS (objfile, p)
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/* Traverse all minimal symbols in all objfiles. */
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#define ALL_MSYMBOLS(objfile, m) \
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ALL_OBJFILES (objfile) \
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if ((objfile)->msymbols) \
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ALL_OBJFILE_MSYMBOLS (objfile, m)
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#endif /* !defined (OBJFILES_H) */
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