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|
/* GDB routines for manipulating objfiles.
Copyright (C) 1992-2013 Free Software Foundation, Inc.
Contributed by Cygnus Support, using pieces from other GDB modules.
This file is part of GDB.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
/* This file contains support routines for creating, manipulating, and
destroying objfile structures. */
#include "defs.h"
#include "bfd.h" /* Binary File Description */
#include "symtab.h"
#include "symfile.h"
#include "objfiles.h"
#include "gdb-stabs.h"
#include "target.h"
#include "bcache.h"
#include "expression.h"
#include "parser-defs.h"
#include "gdb_assert.h"
#include <sys/types.h>
#include "gdb_stat.h"
#include <fcntl.h>
#include "gdb_obstack.h"
#include "gdb_string.h"
#include "hashtab.h"
#include "breakpoint.h"
#include "block.h"
#include "dictionary.h"
#include "source.h"
#include "addrmap.h"
#include "arch-utils.h"
#include "exec.h"
#include "observer.h"
#include "complaints.h"
#include "psymtab.h"
#include "solist.h"
#include "gdb_bfd.h"
#include "btrace.h"
/* Keep a registry of per-objfile data-pointers required by other GDB
modules. */
DEFINE_REGISTRY (objfile, REGISTRY_ACCESS_FIELD)
/* Externally visible variables that are owned by this module.
See declarations in objfile.h for more info. */
struct objfile_pspace_info
{
struct obj_section **sections;
int num_sections;
/* Nonzero if object files have been added since the section map
was last updated. */
int new_objfiles_available;
/* Nonzero if the section map MUST be updated before use. */
int section_map_dirty;
/* Nonzero if section map updates should be inhibited if possible. */
int inhibit_updates;
};
/* Per-program-space data key. */
static const struct program_space_data *objfiles_pspace_data;
static void
objfiles_pspace_data_cleanup (struct program_space *pspace, void *arg)
{
struct objfile_pspace_info *info;
info = program_space_data (pspace, objfiles_pspace_data);
if (info != NULL)
{
xfree (info->sections);
xfree (info);
}
}
/* Get the current svr4 data. If none is found yet, add it now. This
function always returns a valid object. */
static struct objfile_pspace_info *
get_objfile_pspace_data (struct program_space *pspace)
{
struct objfile_pspace_info *info;
info = program_space_data (pspace, objfiles_pspace_data);
if (info == NULL)
{
info = XZALLOC (struct objfile_pspace_info);
set_program_space_data (pspace, objfiles_pspace_data, info);
}
return info;
}
/* Per-BFD data key. */
static const struct bfd_data *objfiles_bfd_data;
/* Create the per-BFD storage object for OBJFILE. If ABFD is not
NULL, and it already has a per-BFD storage object, use that.
Otherwise, allocate a new per-BFD storage object. If ABFD is not
NULL, the object is allocated on the BFD; otherwise it is allocated
on OBJFILE's obstack. Note that it is not safe to call this
multiple times for a given OBJFILE -- it can only be called when
allocating or re-initializing OBJFILE. */
static struct objfile_per_bfd_storage *
get_objfile_bfd_data (struct objfile *objfile, struct bfd *abfd)
{
struct objfile_per_bfd_storage *storage = NULL;
if (abfd != NULL)
storage = bfd_data (abfd, objfiles_bfd_data);
if (storage == NULL)
{
if (abfd != NULL)
{
storage = bfd_zalloc (abfd, sizeof (struct objfile_per_bfd_storage));
set_bfd_data (abfd, objfiles_bfd_data, storage);
/* Look up the gdbarch associated with the BFD. */
storage->gdbarch = gdbarch_from_bfd (abfd);
}
else
storage = OBSTACK_ZALLOC (&objfile->objfile_obstack,
struct objfile_per_bfd_storage);
obstack_init (&storage->storage_obstack);
storage->filename_cache = bcache_xmalloc (NULL, NULL);
storage->macro_cache = bcache_xmalloc (NULL, NULL);
}
return storage;
}
/* Free STORAGE. */
static void
free_objfile_per_bfd_storage (struct objfile_per_bfd_storage *storage)
{
bcache_xfree (storage->filename_cache);
bcache_xfree (storage->macro_cache);
obstack_free (&storage->storage_obstack, 0);
}
/* A wrapper for free_objfile_per_bfd_storage that can be passed as a
cleanup function to the BFD registry. */
static void
objfile_bfd_data_free (struct bfd *unused, void *d)
{
free_objfile_per_bfd_storage (d);
}
/* See objfiles.h. */
void
set_objfile_per_bfd (struct objfile *objfile)
{
objfile->per_bfd = get_objfile_bfd_data (objfile, objfile->obfd);
}
/* Called via bfd_map_over_sections to build up the section table that
the objfile references. The objfile contains pointers to the start
of the table (objfile->sections) and to the first location after
the end of the table (objfile->sections_end). */
static void
add_to_objfile_sections_full (struct bfd *abfd, struct bfd_section *asect,
struct objfile *objfile, int force)
{
struct obj_section *section;
if (!force)
{
flagword aflag;
aflag = bfd_get_section_flags (abfd, asect);
if (!(aflag & SEC_ALLOC))
return;
}
section = &objfile->sections[gdb_bfd_section_index (abfd, asect)];
section->objfile = objfile;
section->the_bfd_section = asect;
section->ovly_mapped = 0;
}
static void
add_to_objfile_sections (struct bfd *abfd, struct bfd_section *asect,
void *objfilep)
{
add_to_objfile_sections_full (abfd, asect, objfilep, 0);
}
/* Builds a section table for OBJFILE.
Note that the OFFSET and OVLY_MAPPED in each table entry are
initialized to zero. */
void
build_objfile_section_table (struct objfile *objfile)
{
int count = gdb_bfd_count_sections (objfile->obfd);
objfile->sections = OBSTACK_CALLOC (&objfile->objfile_obstack,
count,
struct obj_section);
objfile->sections_end = (objfile->sections + count);
bfd_map_over_sections (objfile->obfd,
add_to_objfile_sections, (void *) objfile);
/* See gdb_bfd_section_index. */
add_to_objfile_sections_full (objfile->obfd, bfd_com_section_ptr, objfile, 1);
add_to_objfile_sections_full (objfile->obfd, bfd_und_section_ptr, objfile, 1);
add_to_objfile_sections_full (objfile->obfd, bfd_abs_section_ptr, objfile, 1);
add_to_objfile_sections_full (objfile->obfd, bfd_ind_section_ptr, objfile, 1);
}
/* Given a pointer to an initialized bfd (ABFD) and some flag bits
allocate a new objfile struct, fill it in as best we can, link it
into the list of all known objfiles, and return a pointer to the
new objfile struct.
NAME should contain original non-canonicalized filename or other
identifier as entered by user. If there is no better source use
bfd_get_filename (ABFD). NAME may be NULL only if ABFD is NULL.
NAME content is copied into returned objfile.
The FLAGS word contains various bits (OBJF_*) that can be taken as
requests for specific operations. Other bits like OBJF_SHARED are
simply copied through to the new objfile flags member. */
/* NOTE: carlton/2003-02-04: This function is called with args NULL, 0
by jv-lang.c, to create an artificial objfile used to hold
information about dynamically-loaded Java classes. Unfortunately,
that branch of this function doesn't get tested very frequently, so
it's prone to breakage. (E.g. at one time the name was set to NULL
in that situation, which broke a loop over all names in the dynamic
library loader.) If you change this function, please try to leave
things in a consistent state even if abfd is NULL. */
struct objfile *
allocate_objfile (bfd *abfd, const char *name, int flags)
{
struct objfile *objfile;
objfile = (struct objfile *) xzalloc (sizeof (struct objfile));
objfile->psymbol_cache = psymbol_bcache_init ();
/* We could use obstack_specify_allocation here instead, but
gdb_obstack.h specifies the alloc/dealloc functions. */
obstack_init (&objfile->objfile_obstack);
terminate_minimal_symbol_table (objfile);
objfile_alloc_data (objfile);
if (name == NULL)
{
gdb_assert (abfd == NULL);
name = "<<anonymous objfile>>";
}
objfile->original_name = obstack_copy0 (&objfile->objfile_obstack, name,
strlen (name));
/* Update the per-objfile information that comes from the bfd, ensuring
that any data that is reference is saved in the per-objfile data
region. */
objfile->obfd = abfd;
gdb_bfd_ref (abfd);
if (abfd != NULL)
{
objfile->mtime = bfd_get_mtime (abfd);
/* Build section table. */
build_objfile_section_table (objfile);
}
objfile->per_bfd = get_objfile_bfd_data (objfile, abfd);
objfile->pspace = current_program_space;
/* Initialize the section indexes for this objfile, so that we can
later detect if they are used w/o being properly assigned to. */
objfile->sect_index_text = -1;
objfile->sect_index_data = -1;
objfile->sect_index_bss = -1;
objfile->sect_index_rodata = -1;
/* Add this file onto the tail of the linked list of other such files. */
objfile->next = NULL;
if (object_files == NULL)
object_files = objfile;
else
{
struct objfile *last_one;
for (last_one = object_files;
last_one->next;
last_one = last_one->next);
last_one->next = objfile;
}
/* Save passed in flag bits. */
objfile->flags |= flags;
/* Rebuild section map next time we need it. */
get_objfile_pspace_data (objfile->pspace)->new_objfiles_available = 1;
return objfile;
}
/* Retrieve the gdbarch associated with OBJFILE. */
struct gdbarch *
get_objfile_arch (struct objfile *objfile)
{
return objfile->per_bfd->gdbarch;
}
/* If there is a valid and known entry point, function fills *ENTRY_P with it
and returns non-zero; otherwise it returns zero. */
int
entry_point_address_query (CORE_ADDR *entry_p)
{
if (symfile_objfile == NULL || !symfile_objfile->ei.entry_point_p)
return 0;
*entry_p = symfile_objfile->ei.entry_point;
return 1;
}
/* Get current entry point address. Call error if it is not known. */
CORE_ADDR
entry_point_address (void)
{
CORE_ADDR retval;
if (!entry_point_address_query (&retval))
error (_("Entry point address is not known."));
return retval;
}
/* Iterator on PARENT and every separate debug objfile of PARENT.
The usage pattern is:
for (objfile = parent;
objfile;
objfile = objfile_separate_debug_iterate (parent, objfile))
...
*/
struct objfile *
objfile_separate_debug_iterate (const struct objfile *parent,
const struct objfile *objfile)
{
struct objfile *res;
/* If any, return the first child. */
res = objfile->separate_debug_objfile;
if (res)
return res;
/* Common case where there is no separate debug objfile. */
if (objfile == parent)
return NULL;
/* Return the brother if any. Note that we don't iterate on brothers of
the parents. */
res = objfile->separate_debug_objfile_link;
if (res)
return res;
for (res = objfile->separate_debug_objfile_backlink;
res != parent;
res = res->separate_debug_objfile_backlink)
{
gdb_assert (res != NULL);
if (res->separate_debug_objfile_link)
return res->separate_debug_objfile_link;
}
return NULL;
}
/* Put one object file before a specified on in the global list.
This can be used to make sure an object file is destroyed before
another when using ALL_OBJFILES_SAFE to free all objfiles. */
void
put_objfile_before (struct objfile *objfile, struct objfile *before_this)
{
struct objfile **objp;
unlink_objfile (objfile);
for (objp = &object_files; *objp != NULL; objp = &((*objp)->next))
{
if (*objp == before_this)
{
objfile->next = *objp;
*objp = objfile;
return;
}
}
internal_error (__FILE__, __LINE__,
_("put_objfile_before: before objfile not in list"));
}
/* Put OBJFILE at the front of the list. */
void
objfile_to_front (struct objfile *objfile)
{
struct objfile **objp;
for (objp = &object_files; *objp != NULL; objp = &((*objp)->next))
{
if (*objp == objfile)
{
/* Unhook it from where it is. */
*objp = objfile->next;
/* Put it in the front. */
objfile->next = object_files;
object_files = objfile;
break;
}
}
}
/* Unlink OBJFILE from the list of known objfiles, if it is found in the
list.
It is not a bug, or error, to call this function if OBJFILE is not known
to be in the current list. This is done in the case of mapped objfiles,
for example, just to ensure that the mapped objfile doesn't appear twice
in the list. Since the list is threaded, linking in a mapped objfile
twice would create a circular list.
If OBJFILE turns out to be in the list, we zap it's NEXT pointer after
unlinking it, just to ensure that we have completely severed any linkages
between the OBJFILE and the list. */
void
unlink_objfile (struct objfile *objfile)
{
struct objfile **objpp;
for (objpp = &object_files; *objpp != NULL; objpp = &((*objpp)->next))
{
if (*objpp == objfile)
{
*objpp = (*objpp)->next;
objfile->next = NULL;
return;
}
}
internal_error (__FILE__, __LINE__,
_("unlink_objfile: objfile already unlinked"));
}
/* Add OBJFILE as a separate debug objfile of PARENT. */
void
add_separate_debug_objfile (struct objfile *objfile, struct objfile *parent)
{
gdb_assert (objfile && parent);
/* Must not be already in a list. */
gdb_assert (objfile->separate_debug_objfile_backlink == NULL);
gdb_assert (objfile->separate_debug_objfile_link == NULL);
gdb_assert (objfile->separate_debug_objfile == NULL);
gdb_assert (parent->separate_debug_objfile_backlink == NULL);
gdb_assert (parent->separate_debug_objfile_link == NULL);
objfile->separate_debug_objfile_backlink = parent;
objfile->separate_debug_objfile_link = parent->separate_debug_objfile;
parent->separate_debug_objfile = objfile;
/* Put the separate debug object before the normal one, this is so that
usage of the ALL_OBJFILES_SAFE macro will stay safe. */
put_objfile_before (objfile, parent);
}
/* Free all separate debug objfile of OBJFILE, but don't free OBJFILE
itself. */
void
free_objfile_separate_debug (struct objfile *objfile)
{
struct objfile *child;
for (child = objfile->separate_debug_objfile; child;)
{
struct objfile *next_child = child->separate_debug_objfile_link;
free_objfile (child);
child = next_child;
}
}
/* Destroy an objfile and all the symtabs and psymtabs under it. Note
that as much as possible is allocated on the objfile_obstack
so that the memory can be efficiently freed.
Things which we do NOT free because they are not in malloc'd memory
or not in memory specific to the objfile include:
objfile -> sf
FIXME: If the objfile is using reusable symbol information (via mmalloc),
then we need to take into account the fact that more than one process
may be using the symbol information at the same time (when mmalloc is
extended to support cooperative locking). When more than one process
is using the mapped symbol info, we need to be more careful about when
we free objects in the reusable area. */
void
free_objfile (struct objfile *objfile)
{
/* Free all separate debug objfiles. */
free_objfile_separate_debug (objfile);
if (objfile->separate_debug_objfile_backlink)
{
/* We freed the separate debug file, make sure the base objfile
doesn't reference it. */
struct objfile *child;
child = objfile->separate_debug_objfile_backlink->separate_debug_objfile;
if (child == objfile)
{
/* OBJFILE is the first child. */
objfile->separate_debug_objfile_backlink->separate_debug_objfile =
objfile->separate_debug_objfile_link;
}
else
{
/* Find OBJFILE in the list. */
while (1)
{
if (child->separate_debug_objfile_link == objfile)
{
child->separate_debug_objfile_link =
objfile->separate_debug_objfile_link;
break;
}
child = child->separate_debug_objfile_link;
gdb_assert (child);
}
}
}
/* Remove any references to this objfile in the global value
lists. */
preserve_values (objfile);
/* It still may reference data modules have associated with the objfile and
the symbol file data. */
forget_cached_source_info_for_objfile (objfile);
breakpoint_free_objfile (objfile);
btrace_free_objfile (objfile);
/* First do any symbol file specific actions required when we are
finished with a particular symbol file. Note that if the objfile
is using reusable symbol information (via mmalloc) then each of
these routines is responsible for doing the correct thing, either
freeing things which are valid only during this particular gdb
execution, or leaving them to be reused during the next one. */
if (objfile->sf != NULL)
{
(*objfile->sf->sym_finish) (objfile);
}
/* Discard any data modules have associated with the objfile. The function
still may reference objfile->obfd. */
objfile_free_data (objfile);
if (objfile->obfd)
gdb_bfd_unref (objfile->obfd);
else
free_objfile_per_bfd_storage (objfile->per_bfd);
/* Remove it from the chain of all objfiles. */
unlink_objfile (objfile);
if (objfile == symfile_objfile)
symfile_objfile = NULL;
/* Before the symbol table code was redone to make it easier to
selectively load and remove information particular to a specific
linkage unit, gdb used to do these things whenever the monolithic
symbol table was blown away. How much still needs to be done
is unknown, but we play it safe for now and keep each action until
it is shown to be no longer needed. */
/* Not all our callers call clear_symtab_users (objfile_purge_solibs,
for example), so we need to call this here. */
clear_pc_function_cache ();
/* Clear globals which might have pointed into a removed objfile.
FIXME: It's not clear which of these are supposed to persist
between expressions and which ought to be reset each time. */
expression_context_block = NULL;
innermost_block = NULL;
/* Check to see if the current_source_symtab belongs to this objfile,
and if so, call clear_current_source_symtab_and_line. */
{
struct symtab_and_line cursal = get_current_source_symtab_and_line ();
if (cursal.symtab && cursal.symtab->objfile == objfile)
clear_current_source_symtab_and_line ();
}
if (objfile->global_psymbols.list)
xfree (objfile->global_psymbols.list);
if (objfile->static_psymbols.list)
xfree (objfile->static_psymbols.list);
/* Free the obstacks for non-reusable objfiles. */
psymbol_bcache_free (objfile->psymbol_cache);
if (objfile->demangled_names_hash)
htab_delete (objfile->demangled_names_hash);
obstack_free (&objfile->objfile_obstack, 0);
/* Rebuild section map next time we need it. */
get_objfile_pspace_data (objfile->pspace)->section_map_dirty = 1;
/* The last thing we do is free the objfile struct itself. */
xfree (objfile);
}
static void
do_free_objfile_cleanup (void *obj)
{
free_objfile (obj);
}
struct cleanup *
make_cleanup_free_objfile (struct objfile *obj)
{
return make_cleanup (do_free_objfile_cleanup, obj);
}
/* Free all the object files at once and clean up their users. */
void
free_all_objfiles (void)
{
struct objfile *objfile, *temp;
struct so_list *so;
/* Any objfile referencewould become stale. */
for (so = master_so_list (); so; so = so->next)
gdb_assert (so->objfile == NULL);
ALL_OBJFILES_SAFE (objfile, temp)
{
free_objfile (objfile);
}
clear_symtab_users (0);
}
/* A helper function for objfile_relocate1 that relocates a single
symbol. */
static void
relocate_one_symbol (struct symbol *sym, struct objfile *objfile,
struct section_offsets *delta)
{
fixup_symbol_section (sym, objfile);
/* The RS6000 code from which this was taken skipped
any symbols in STRUCT_DOMAIN or UNDEF_DOMAIN.
But I'm leaving out that test, on the theory that
they can't possibly pass the tests below. */
if ((SYMBOL_CLASS (sym) == LOC_LABEL
|| SYMBOL_CLASS (sym) == LOC_STATIC)
&& SYMBOL_SECTION (sym) >= 0)
{
SYMBOL_VALUE_ADDRESS (sym) += ANOFFSET (delta, SYMBOL_SECTION (sym));
}
}
/* Relocate OBJFILE to NEW_OFFSETS. There should be OBJFILE->NUM_SECTIONS
entries in new_offsets. SEPARATE_DEBUG_OBJFILE is not touched here.
Return non-zero iff any change happened. */
static int
objfile_relocate1 (struct objfile *objfile,
const struct section_offsets *new_offsets)
{
struct obj_section *s;
struct section_offsets *delta =
((struct section_offsets *)
alloca (SIZEOF_N_SECTION_OFFSETS (objfile->num_sections)));
int i;
int something_changed = 0;
for (i = 0; i < objfile->num_sections; ++i)
{
delta->offsets[i] =
ANOFFSET (new_offsets, i) - ANOFFSET (objfile->section_offsets, i);
if (ANOFFSET (delta, i) != 0)
something_changed = 1;
}
if (!something_changed)
return 0;
/* OK, get all the symtabs. */
{
struct symtab *s;
ALL_OBJFILE_SYMTABS (objfile, s)
{
struct linetable *l;
struct blockvector *bv;
int i;
/* First the line table. */
l = LINETABLE (s);
if (l)
{
for (i = 0; i < l->nitems; ++i)
l->item[i].pc += ANOFFSET (delta, s->block_line_section);
}
/* Don't relocate a shared blockvector more than once. */
if (!s->primary)
continue;
bv = BLOCKVECTOR (s);
if (BLOCKVECTOR_MAP (bv))
addrmap_relocate (BLOCKVECTOR_MAP (bv),
ANOFFSET (delta, s->block_line_section));
for (i = 0; i < BLOCKVECTOR_NBLOCKS (bv); ++i)
{
struct block *b;
struct symbol *sym;
struct dict_iterator iter;
b = BLOCKVECTOR_BLOCK (bv, i);
BLOCK_START (b) += ANOFFSET (delta, s->block_line_section);
BLOCK_END (b) += ANOFFSET (delta, s->block_line_section);
/* We only want to iterate over the local symbols, not any
symbols in included symtabs. */
ALL_DICT_SYMBOLS (BLOCK_DICT (b), iter, sym)
{
relocate_one_symbol (sym, objfile, delta);
}
}
}
}
/* Relocate isolated symbols. */
{
struct symbol *iter;
for (iter = objfile->template_symbols; iter; iter = iter->hash_next)
relocate_one_symbol (iter, objfile, delta);
}
if (objfile->psymtabs_addrmap)
addrmap_relocate (objfile->psymtabs_addrmap,
ANOFFSET (delta, SECT_OFF_TEXT (objfile)));
if (objfile->sf)
objfile->sf->qf->relocate (objfile, new_offsets, delta);
{
struct minimal_symbol *msym;
ALL_OBJFILE_MSYMBOLS (objfile, msym)
if (SYMBOL_SECTION (msym) >= 0)
SYMBOL_VALUE_ADDRESS (msym) += ANOFFSET (delta, SYMBOL_SECTION (msym));
}
/* Relocating different sections by different amounts may cause the symbols
to be out of order. */
msymbols_sort (objfile);
if (objfile->ei.entry_point_p)
{
/* Relocate ei.entry_point with its section offset, use SECT_OFF_TEXT
only as a fallback. */
struct obj_section *s;
s = find_pc_section (objfile->ei.entry_point);
if (s)
{
int idx = gdb_bfd_section_index (objfile->obfd, s->the_bfd_section);
objfile->ei.entry_point += ANOFFSET (delta, idx);
}
else
objfile->ei.entry_point += ANOFFSET (delta, SECT_OFF_TEXT (objfile));
}
{
int i;
for (i = 0; i < objfile->num_sections; ++i)
(objfile->section_offsets)->offsets[i] = ANOFFSET (new_offsets, i);
}
/* Rebuild section map next time we need it. */
get_objfile_pspace_data (objfile->pspace)->section_map_dirty = 1;
/* Update the table in exec_ops, used to read memory. */
ALL_OBJFILE_OSECTIONS (objfile, s)
{
int idx = s - objfile->sections;
exec_set_section_address (bfd_get_filename (objfile->obfd), idx,
obj_section_addr (s));
}
/* Relocating probes. */
if (objfile->sf && objfile->sf->sym_probe_fns)
objfile->sf->sym_probe_fns->sym_relocate_probe (objfile,
new_offsets, delta);
/* Data changed. */
return 1;
}
/* Relocate OBJFILE to NEW_OFFSETS. There should be OBJFILE->NUM_SECTIONS
entries in new_offsets. Process also OBJFILE's SEPARATE_DEBUG_OBJFILEs.
The number and ordering of sections does differ between the two objfiles.
Only their names match. Also the file offsets will differ (objfile being
possibly prelinked but separate_debug_objfile is probably not prelinked) but
the in-memory absolute address as specified by NEW_OFFSETS must match both
files. */
void
objfile_relocate (struct objfile *objfile,
const struct section_offsets *new_offsets)
{
struct objfile *debug_objfile;
int changed = 0;
changed |= objfile_relocate1 (objfile, new_offsets);
for (debug_objfile = objfile->separate_debug_objfile;
debug_objfile;
debug_objfile = objfile_separate_debug_iterate (objfile, debug_objfile))
{
struct section_addr_info *objfile_addrs;
struct section_offsets *new_debug_offsets;
struct cleanup *my_cleanups;
objfile_addrs = build_section_addr_info_from_objfile (objfile);
my_cleanups = make_cleanup (xfree, objfile_addrs);
/* Here OBJFILE_ADDRS contain the correct absolute addresses, the
relative ones must be already created according to debug_objfile. */
addr_info_make_relative (objfile_addrs, debug_objfile->obfd);
gdb_assert (debug_objfile->num_sections
== gdb_bfd_count_sections (debug_objfile->obfd));
new_debug_offsets =
xmalloc (SIZEOF_N_SECTION_OFFSETS (debug_objfile->num_sections));
make_cleanup (xfree, new_debug_offsets);
relative_addr_info_to_section_offsets (new_debug_offsets,
debug_objfile->num_sections,
objfile_addrs);
changed |= objfile_relocate1 (debug_objfile, new_debug_offsets);
do_cleanups (my_cleanups);
}
/* Relocate breakpoints as necessary, after things are relocated. */
if (changed)
breakpoint_re_set ();
}
/* Rebase (add to the offsets) OBJFILE by SLIDE. SEPARATE_DEBUG_OBJFILE is
not touched here.
Return non-zero iff any change happened. */
static int
objfile_rebase1 (struct objfile *objfile, CORE_ADDR slide)
{
struct section_offsets *new_offsets =
((struct section_offsets *)
alloca (SIZEOF_N_SECTION_OFFSETS (objfile->num_sections)));
int i;
for (i = 0; i < objfile->num_sections; ++i)
new_offsets->offsets[i] = slide;
return objfile_relocate1 (objfile, new_offsets);
}
/* Rebase (add to the offsets) OBJFILE by SLIDE. Process also OBJFILE's
SEPARATE_DEBUG_OBJFILEs. */
void
objfile_rebase (struct objfile *objfile, CORE_ADDR slide)
{
struct objfile *debug_objfile;
int changed = 0;
changed |= objfile_rebase1 (objfile, slide);
for (debug_objfile = objfile->separate_debug_objfile;
debug_objfile;
debug_objfile = objfile_separate_debug_iterate (objfile, debug_objfile))
changed |= objfile_rebase1 (debug_objfile, slide);
/* Relocate breakpoints as necessary, after things are relocated. */
if (changed)
breakpoint_re_set ();
}
/* Return non-zero if OBJFILE has partial symbols. */
int
objfile_has_partial_symbols (struct objfile *objfile)
{
if (!objfile->sf)
return 0;
/* If we have not read psymbols, but we have a function capable of reading
them, then that is an indication that they are in fact available. Without
this function the symbols may have been already read in but they also may
not be present in this objfile. */
if ((objfile->flags & OBJF_PSYMTABS_READ) == 0
&& objfile->sf->sym_read_psymbols != NULL)
return 1;
return objfile->sf->qf->has_symbols (objfile);
}
/* Return non-zero if OBJFILE has full symbols. */
int
objfile_has_full_symbols (struct objfile *objfile)
{
return objfile->symtabs != NULL;
}
/* Return non-zero if OBJFILE has full or partial symbols, either directly
or through a separate debug file. */
int
objfile_has_symbols (struct objfile *objfile)
{
struct objfile *o;
for (o = objfile; o; o = objfile_separate_debug_iterate (objfile, o))
if (objfile_has_partial_symbols (o) || objfile_has_full_symbols (o))
return 1;
return 0;
}
/* Many places in gdb want to test just to see if we have any partial
symbols available. This function returns zero if none are currently
available, nonzero otherwise. */
int
have_partial_symbols (void)
{
struct objfile *ofp;
ALL_OBJFILES (ofp)
{
if (objfile_has_partial_symbols (ofp))
return 1;
}
return 0;
}
/* Many places in gdb want to test just to see if we have any full
symbols available. This function returns zero if none are currently
available, nonzero otherwise. */
int
have_full_symbols (void)
{
struct objfile *ofp;
ALL_OBJFILES (ofp)
{
if (objfile_has_full_symbols (ofp))
return 1;
}
return 0;
}
/* This operations deletes all objfile entries that represent solibs that
weren't explicitly loaded by the user, via e.g., the add-symbol-file
command. */
void
objfile_purge_solibs (void)
{
struct objfile *objf;
struct objfile *temp;
ALL_OBJFILES_SAFE (objf, temp)
{
/* We assume that the solib package has been purged already, or will
be soon. */
if (!(objf->flags & OBJF_USERLOADED) && (objf->flags & OBJF_SHARED))
free_objfile (objf);
}
}
/* Many places in gdb want to test just to see if we have any minimal
symbols available. This function returns zero if none are currently
available, nonzero otherwise. */
int
have_minimal_symbols (void)
{
struct objfile *ofp;
ALL_OBJFILES (ofp)
{
if (ofp->minimal_symbol_count > 0)
{
return 1;
}
}
return 0;
}
/* Qsort comparison function. */
static int
qsort_cmp (const void *a, const void *b)
{
const struct obj_section *sect1 = *(const struct obj_section **) a;
const struct obj_section *sect2 = *(const struct obj_section **) b;
const CORE_ADDR sect1_addr = obj_section_addr (sect1);
const CORE_ADDR sect2_addr = obj_section_addr (sect2);
if (sect1_addr < sect2_addr)
return -1;
else if (sect1_addr > sect2_addr)
return 1;
else
{
/* Sections are at the same address. This could happen if
A) we have an objfile and a separate debuginfo.
B) we are confused, and have added sections without proper relocation,
or something like that. */
const struct objfile *const objfile1 = sect1->objfile;
const struct objfile *const objfile2 = sect2->objfile;
if (objfile1->separate_debug_objfile == objfile2
|| objfile2->separate_debug_objfile == objfile1)
{
/* Case A. The ordering doesn't matter: separate debuginfo files
will be filtered out later. */
return 0;
}
/* Case B. Maintain stable sort order, so bugs in GDB are easier to
triage. This section could be slow (since we iterate over all
objfiles in each call to qsort_cmp), but this shouldn't happen
very often (GDB is already in a confused state; one hopes this
doesn't happen at all). If you discover that significant time is
spent in the loops below, do 'set complaints 100' and examine the
resulting complaints. */
if (objfile1 == objfile2)
{
/* Both sections came from the same objfile. We are really confused.
Sort on sequence order of sections within the objfile. */
const struct obj_section *osect;
ALL_OBJFILE_OSECTIONS (objfile1, osect)
if (osect == sect1)
return -1;
else if (osect == sect2)
return 1;
/* We should have found one of the sections before getting here. */
gdb_assert_not_reached ("section not found");
}
else
{
/* Sort on sequence number of the objfile in the chain. */
const struct objfile *objfile;
ALL_OBJFILES (objfile)
if (objfile == objfile1)
return -1;
else if (objfile == objfile2)
return 1;
/* We should have found one of the objfiles before getting here. */
gdb_assert_not_reached ("objfile not found");
}
}
/* Unreachable. */
gdb_assert_not_reached ("unexpected code path");
return 0;
}
/* Select "better" obj_section to keep. We prefer the one that came from
the real object, rather than the one from separate debuginfo.
Most of the time the two sections are exactly identical, but with
prelinking the .rel.dyn section in the real object may have different
size. */
static struct obj_section *
preferred_obj_section (struct obj_section *a, struct obj_section *b)
{
gdb_assert (obj_section_addr (a) == obj_section_addr (b));
gdb_assert ((a->objfile->separate_debug_objfile == b->objfile)
|| (b->objfile->separate_debug_objfile == a->objfile));
gdb_assert ((a->objfile->separate_debug_objfile_backlink == b->objfile)
|| (b->objfile->separate_debug_objfile_backlink == a->objfile));
if (a->objfile->separate_debug_objfile != NULL)
return a;
return b;
}
/* Return 1 if SECTION should be inserted into the section map.
We want to insert only non-overlay and non-TLS section. */
static int
insert_section_p (const struct bfd *abfd,
const struct bfd_section *section)
{
const bfd_vma lma = bfd_section_lma (abfd, section);
if (overlay_debugging && lma != 0 && lma != bfd_section_vma (abfd, section)
&& (bfd_get_file_flags (abfd) & BFD_IN_MEMORY) == 0)
/* This is an overlay section. IN_MEMORY check is needed to avoid
discarding sections from the "system supplied DSO" (aka vdso)
on some Linux systems (e.g. Fedora 11). */
return 0;
if ((bfd_get_section_flags (abfd, section) & SEC_THREAD_LOCAL) != 0)
/* This is a TLS section. */
return 0;
return 1;
}
/* Filter out overlapping sections where one section came from the real
objfile, and the other from a separate debuginfo file.
Return the size of table after redundant sections have been eliminated. */
static int
filter_debuginfo_sections (struct obj_section **map, int map_size)
{
int i, j;
for (i = 0, j = 0; i < map_size - 1; i++)
{
struct obj_section *const sect1 = map[i];
struct obj_section *const sect2 = map[i + 1];
const struct objfile *const objfile1 = sect1->objfile;
const struct objfile *const objfile2 = sect2->objfile;
const CORE_ADDR sect1_addr = obj_section_addr (sect1);
const CORE_ADDR sect2_addr = obj_section_addr (sect2);
if (sect1_addr == sect2_addr
&& (objfile1->separate_debug_objfile == objfile2
|| objfile2->separate_debug_objfile == objfile1))
{
map[j++] = preferred_obj_section (sect1, sect2);
++i;
}
else
map[j++] = sect1;
}
if (i < map_size)
{
gdb_assert (i == map_size - 1);
map[j++] = map[i];
}
/* The map should not have shrunk to less than half the original size. */
gdb_assert (map_size / 2 <= j);
return j;
}
/* Filter out overlapping sections, issuing a warning if any are found.
Overlapping sections could really be overlay sections which we didn't
classify as such in insert_section_p, or we could be dealing with a
corrupt binary. */
static int
filter_overlapping_sections (struct obj_section **map, int map_size)
{
int i, j;
for (i = 0, j = 0; i < map_size - 1; )
{
int k;
map[j++] = map[i];
for (k = i + 1; k < map_size; k++)
{
struct obj_section *const sect1 = map[i];
struct obj_section *const sect2 = map[k];
const CORE_ADDR sect1_addr = obj_section_addr (sect1);
const CORE_ADDR sect2_addr = obj_section_addr (sect2);
const CORE_ADDR sect1_endaddr = obj_section_endaddr (sect1);
gdb_assert (sect1_addr <= sect2_addr);
if (sect1_endaddr <= sect2_addr)
break;
else
{
/* We have an overlap. Report it. */
struct objfile *const objf1 = sect1->objfile;
struct objfile *const objf2 = sect2->objfile;
const struct bfd_section *const bfds1 = sect1->the_bfd_section;
const struct bfd_section *const bfds2 = sect2->the_bfd_section;
const CORE_ADDR sect2_endaddr = obj_section_endaddr (sect2);
struct gdbarch *const gdbarch = get_objfile_arch (objf1);
complaint (&symfile_complaints,
_("unexpected overlap between:\n"
" (A) section `%s' from `%s' [%s, %s)\n"
" (B) section `%s' from `%s' [%s, %s).\n"
"Will ignore section B"),
bfd_section_name (abfd1, bfds1), objfile_name (objf1),
paddress (gdbarch, sect1_addr),
paddress (gdbarch, sect1_endaddr),
bfd_section_name (abfd2, bfds2), objfile_name (objf2),
paddress (gdbarch, sect2_addr),
paddress (gdbarch, sect2_endaddr));
}
}
i = k;
}
if (i < map_size)
{
gdb_assert (i == map_size - 1);
map[j++] = map[i];
}
return j;
}
/* Update PMAP, PMAP_SIZE with sections from all objfiles, excluding any
TLS, overlay and overlapping sections. */
static void
update_section_map (struct program_space *pspace,
struct obj_section ***pmap, int *pmap_size)
{
struct objfile_pspace_info *pspace_info;
int alloc_size, map_size, i;
struct obj_section *s, **map;
struct objfile *objfile;
pspace_info = get_objfile_pspace_data (pspace);
gdb_assert (pspace_info->section_map_dirty != 0
|| pspace_info->new_objfiles_available != 0);
map = *pmap;
xfree (map);
alloc_size = 0;
ALL_PSPACE_OBJFILES (pspace, objfile)
ALL_OBJFILE_OSECTIONS (objfile, s)
if (insert_section_p (objfile->obfd, s->the_bfd_section))
alloc_size += 1;
/* This happens on detach/attach (e.g. in gdb.base/attach.exp). */
if (alloc_size == 0)
{
*pmap = NULL;
*pmap_size = 0;
return;
}
map = xmalloc (alloc_size * sizeof (*map));
i = 0;
ALL_PSPACE_OBJFILES (pspace, objfile)
ALL_OBJFILE_OSECTIONS (objfile, s)
if (insert_section_p (objfile->obfd, s->the_bfd_section))
map[i++] = s;
qsort (map, alloc_size, sizeof (*map), qsort_cmp);
map_size = filter_debuginfo_sections(map, alloc_size);
map_size = filter_overlapping_sections(map, map_size);
if (map_size < alloc_size)
/* Some sections were eliminated. Trim excess space. */
map = xrealloc (map, map_size * sizeof (*map));
else
gdb_assert (alloc_size == map_size);
*pmap = map;
*pmap_size = map_size;
}
/* Bsearch comparison function. */
static int
bsearch_cmp (const void *key, const void *elt)
{
const CORE_ADDR pc = *(CORE_ADDR *) key;
const struct obj_section *section = *(const struct obj_section **) elt;
if (pc < obj_section_addr (section))
return -1;
if (pc < obj_section_endaddr (section))
return 0;
return 1;
}
/* Returns a section whose range includes PC or NULL if none found. */
struct obj_section *
find_pc_section (CORE_ADDR pc)
{
struct objfile_pspace_info *pspace_info;
struct obj_section *s, **sp;
/* Check for mapped overlay section first. */
s = find_pc_mapped_section (pc);
if (s)
return s;
pspace_info = get_objfile_pspace_data (current_program_space);
if (pspace_info->section_map_dirty
|| (pspace_info->new_objfiles_available
&& !pspace_info->inhibit_updates))
{
update_section_map (current_program_space,
&pspace_info->sections,
&pspace_info->num_sections);
/* Don't need updates to section map until objfiles are added,
removed or relocated. */
pspace_info->new_objfiles_available = 0;
pspace_info->section_map_dirty = 0;
}
/* The C standard (ISO/IEC 9899:TC2) requires the BASE argument to
bsearch be non-NULL. */
if (pspace_info->sections == NULL)
{
gdb_assert (pspace_info->num_sections == 0);
return NULL;
}
sp = (struct obj_section **) bsearch (&pc,
pspace_info->sections,
pspace_info->num_sections,
sizeof (*pspace_info->sections),
bsearch_cmp);
if (sp != NULL)
return *sp;
return NULL;
}
/* Return non-zero if PC is in a section called NAME. */
int
pc_in_section (CORE_ADDR pc, char *name)
{
struct obj_section *s;
int retval = 0;
s = find_pc_section (pc);
retval = (s != NULL
&& s->the_bfd_section->name != NULL
&& strcmp (s->the_bfd_section->name, name) == 0);
return (retval);
}
/* Set section_map_dirty so section map will be rebuilt next time it
is used. Called by reread_symbols. */
void
objfiles_changed (void)
{
/* Rebuild section map next time we need it. */
get_objfile_pspace_data (current_program_space)->section_map_dirty = 1;
}
/* See comments in objfiles.h. */
void
inhibit_section_map_updates (struct program_space *pspace)
{
get_objfile_pspace_data (pspace)->inhibit_updates = 1;
}
/* See comments in objfiles.h. */
void
resume_section_map_updates (struct program_space *pspace)
{
get_objfile_pspace_data (pspace)->inhibit_updates = 0;
}
/* See comments in objfiles.h. */
void
resume_section_map_updates_cleanup (void *arg)
{
resume_section_map_updates (arg);
}
/* The default implementation for the "iterate_over_objfiles_in_search_order"
gdbarch method. It is equivalent to use the ALL_OBJFILES macro,
searching the objfiles in the order they are stored internally,
ignoring CURRENT_OBJFILE.
On most platorms, it should be close enough to doing the best
we can without some knowledge specific to the architecture. */
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)
{
int stop = 0;
struct objfile *objfile;
ALL_OBJFILES (objfile)
{
stop = cb (objfile, cb_data);
if (stop)
return;
}
}
/* Return canonical name for OBJFILE. */
const char *
objfile_name (const struct objfile *objfile)
{
if (objfile->obfd != NULL)
return bfd_get_filename (objfile->obfd);
return objfile->original_name;
}
/* Provide a prototype to silence -Wmissing-prototypes. */
extern initialize_file_ftype _initialize_objfiles;
void
_initialize_objfiles (void)
{
objfiles_pspace_data
= register_program_space_data_with_cleanup (NULL,
objfiles_pspace_data_cleanup);
objfiles_bfd_data = register_bfd_data_with_cleanup (NULL,
objfile_bfd_data_free);
}
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