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21c90ca166ee384d271e92a409c690a7faf945a2
binutils-gdb/gdb/solib-aix.c
Simon Marchi a2e3cce344 gdb/solib: C++ify solib_ops 
Convert solib_ops into an abstract base class (with abstract methods,
some of them with default implementations) and convert all the existing
solib_ops instances to solib_ops derived classes / implementations.

Prior to this patch, solib_ops is a structure holding function pointers,
of which there are only a handful of global instances (in the
`solib-*.c` files).  When passing an `solib_ops *` around, it's a
pointer to one of these instances.  After this patch, there are no more
global solib_ops instances.  Instances are created as needed and stored
in struct program_space.  These instances could eventually be made to
contain the program space-specific data, which is currently kept in
per-program space registries (I have some pending patches for that).

Prior to this patch, `gdbarch_so_ops` is a gdbarch method that returns a
pointer to the appropriate solib_ops implementation for the gdbarch.
This is replaced with the `gdbarch_make_solib_ops` method, which returns
a new instance of the appropriate solib_ops implementation for this
gdbarch.  This requires introducing some factory functions for the
various solib_ops implementation, to be used as `gdbarch_make_solib_ops`
callbacks.  For instance:

    solib_ops_up
    make_linux_ilp32_svr4_solib_ops ()
    {
      return std::make_unique<linux_ilp32_svr4_solib_ops> ();
    }

The previous code is full of cases of tdep files copying some base
solib_ops implementation, and overriding one or more function pointer
(see ppc_linux_init_abi, for instance).  I tried to convert all of this
is a class hierarchy.  I like that it's now possible to get a good
static view of all the existing solib_ops variants.  The hierarchy looks
like this:

    solib_ops
    ├── aix_solib_ops
    ├── darwin_solib_ops
    ├── dsbt_solib_ops
    ├── frv_solib_ops
    ├── rocm_solib_ops
    ├── svr4_solib_ops
    │   ├── ilp32_svr4_solib_ops
    │   ├── lp64_svr4_solib_ops
    │   ├── linux_ilp32_svr4_solib_ops
    │   │   ├── mips_linux_ilp32_svr4_solib_ops
    │   │   └── ppc_linux_ilp32_svr4_solib_ops
    │   ├── linux_lp64_svr4_solib_ops
    │   │   └── mips_linux_lp64_svr4_solib_ops
    │   ├── mips_nbsd_ilp32_svr4_solib_ops
    │   ├── mips_nbsd_lp64_svr4_solib_ops
    │   ├── mips_fbsd_ilp32_svr4_solib_ops
    │   └── mips_fbsd_lp64_svr4_solib_ops
    └── target_solib_ops
        └── windows_solib_ops

The solib-svr4 code has per-arch specialization to provide a
link_map_offsets, containing the offsets of the interesting fields in
`struct link_map` on that particular architecture.  Prior to this patch,
arches would set a callback returning the appropriate link_map_offsets
by calling `set_solib_svr4_fetch_link_map_offsets`, which also happened
to set the gdbarch's so_ops to `&svr_so_ops`.  I converted this to an
abstract virtual method of `struct svr4_solib_ops`, meaning that all
classes deriving from svr4_solib_ops must provide a method returning the
appropriate link_map_offsets for the architecture.  I renamed
`set_solib_svr4_fetch_link_map_offsets` to `set_solib_svr4_ops`.  This
function is still necessary because it also calls
set_gdbarch_iterate_over_objfiles_in_search_order, but if it was not for
that, we could get rid of it.

There is an instance of CRTP in mips-linux-tdep.c, because both
mips_linux_ilp32_svr4_solib_ops and mips_linux_lp64_svr4_solib_ops need
to derive from different SVR4 base classes (linux_ilp32_svr4_solib_ops
and linux_lp64_svr4_solib_ops), but they both want to override the
in_dynsym_resolve_code method with the same implementation.

The solib_ops::supports_namespaces method is new: the support for
namespaces was previously predicated by the presence or absence of a
find_solib_ns method.  It now needs to be explicit.

There is a new progspace::release_solib_ops method, which is only needed
for rocm_solib_ops.  For the moment, rocm_solib_ops replaces and wraps
the existing svr4_solib_ops instance, in order to combine the results of
the two.  The plan is to have a subsequent patch to allow program spaces to have
multiple solib_ops, removing the need for release_solib_ops.

Speaking of rocm_solib_ops: it previously overrode only a few methods by
copying svr4_solib_ops and overwriting some function pointers.  Now, it
needs to implement all the methods that svr4_solib_ops implements, in
order to forward the call.  Otherwise, the default solib_ops method
would be called, hiding the svr4_solib_ops implementation.  Again, this
can be removed once we have support for multiple solib_ops in a
program_space.

There is also a small change in how rocm_solib_ops is activated.  Prior
to this patch, it's done at the end of rocm_update_solib_list.  Since it
overrides the function pointer in the static svr4_solib_ops, and then
overwrites the host gdbarch, so_ops field, it's something that happens
only once.  After the patch though, we need to set rocm_solib_ops in all
the program spaces that appear.  We do this in
rocm_solib_target_inferior_created and in the new
rocm_solib_target_inferior_execd.  After this, I will explore doing a
change where rocm_solib_ops is only set when we detect the ROCm runtime
is loaded.

Change-Id: I5896b5bcbf8bdb024d67980380feba1ffefaa4c9
Approved-By: Pedro Alves <pedro@palves.net>
2025-06-26 14:08:31 -04:00

678 lines
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/* Copyright (C) 2013-2025 Free Software Foundation, Inc.
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/>. */
#include "solib-aix.h"
#include "solib.h"
#include "inferior.h"
#include "gdb_bfd.h"
#include "objfiles.h"
#include "symtab.h"
#include "xcoffread.h"
#include "observable.h"
/* solib_ops for AIX systems. */
struct aix_solib_ops : public solib_ops
{
void relocate_section_addresses (solib &so, target_section *) const override;
void create_inferior_hook (int from_tty) const override;
owning_intrusive_list<solib> current_sos () const override;
gdb_bfd_ref_ptr bfd_open (const char *pathname) const override;
};
/* See solib-aix.h. */
solib_ops_up
make_aix_solib_ops ()
{
return std::make_unique<aix_solib_ops> ();
}
/* Our private data in struct solib. */
struct lm_info_aix final : public lm_info
{
/* The name of the file mapped by the loader. Apart from the entry
for the main executable, this is usually a shared library (which,
on AIX, is an archive library file, created using the "ar"
command). */
std::string filename;
/* The name of the shared object file with the actual dynamic
loading dependency. This may be empty (Eg. main executable). */
std::string member_name;
/* The address in inferior memory where the text section got mapped. */
CORE_ADDR text_addr = 0;
/* The size of the text section, obtained via the loader data. */
ULONGEST text_size = 0;
/* The address in inferior memory where the data section got mapped. */
CORE_ADDR data_addr = 0;
/* The size of the data section, obtained via the loader data. */
ULONGEST data_size = 0;
};
/* This module's per-inferior data. */
struct solib_aix_inferior_data
{
/* The list of shared libraries.
Note that the first element of this list is always the main
executable, which is not technically a shared library. But
we need that information to perform its relocation, and
the same principles applied to shared libraries also apply
to the main executable. So it's simpler to keep it as part
of this list. */
std::optional<std::vector<lm_info_aix>> library_list;
};
/* Key to our per-inferior data. */
static const registry<inferior>::key<solib_aix_inferior_data>
solib_aix_inferior_data_handle;
/* Return this module's data for the given inferior.
If none is found, add a zero'ed one now. */
static struct solib_aix_inferior_data *
get_solib_aix_inferior_data (struct inferior *inf)
{
struct solib_aix_inferior_data *data;
data = solib_aix_inferior_data_handle.get (inf);
if (data == NULL)
data = solib_aix_inferior_data_handle.emplace (inf);
return data;
}
#if !defined(HAVE_LIBEXPAT)
/* Dummy implementation if XML support is not compiled in. */
static std::optional<std::vector<lm_info_aix>>
solib_aix_parse_libraries (const char *library)
{
static int have_warned;
if (!have_warned)
{
have_warned = 1;
warning (_("Can not parse XML library list; XML support was disabled "
"at compile time"));
}
return {};
}
#else /* HAVE_LIBEXPAT */
#include "xml-support.h"
/* Handle the start of a <library> element. */
static void
library_list_start_library (struct gdb_xml_parser *parser,
const struct gdb_xml_element *element,
void *user_data,
std::vector<gdb_xml_value> &attributes)
{
std::vector<lm_info_aix> *list = (std::vector<lm_info_aix> *) user_data;
lm_info_aix item;
struct gdb_xml_value *attr;
attr = xml_find_attribute (attributes, "name");
item.filename = (const char *) attr->value.get ();
attr = xml_find_attribute (attributes, "member");
if (attr != NULL)
item.member_name = (const char *) attr->value.get ();
attr = xml_find_attribute (attributes, "text_addr");
item.text_addr = * (ULONGEST *) attr->value.get ();
attr = xml_find_attribute (attributes, "text_size");
item.text_size = * (ULONGEST *) attr->value.get ();
attr = xml_find_attribute (attributes, "data_addr");
item.data_addr = * (ULONGEST *) attr->value.get ();
attr = xml_find_attribute (attributes, "data_size");
item.data_size = * (ULONGEST *) attr->value.get ();
list->push_back (std::move (item));
}
/* Handle the start of a <library-list-aix> element. */
static void
library_list_start_list (struct gdb_xml_parser *parser,
const struct gdb_xml_element *element,
void *user_data,
std::vector<gdb_xml_value> &attributes)
{
char *version
= (char *) xml_find_attribute (attributes, "version")->value.get ();
if (strcmp (version, "1.0") != 0)
gdb_xml_error (parser,
_("Library list has unsupported version \"%s\""),
version);
}
/* The allowed elements and attributes for an AIX library list
described in XML format. The root element is a <library-list-aix>. */
static const struct gdb_xml_attribute library_attributes[] =
{
{ "name", GDB_XML_AF_NONE, NULL, NULL },
{ "member", GDB_XML_AF_OPTIONAL, NULL, NULL },
{ "text_addr", GDB_XML_AF_NONE, gdb_xml_parse_attr_ulongest, NULL },
{ "text_size", GDB_XML_AF_NONE, gdb_xml_parse_attr_ulongest, NULL },
{ "data_addr", GDB_XML_AF_NONE, gdb_xml_parse_attr_ulongest, NULL },
{ "data_size", GDB_XML_AF_NONE, gdb_xml_parse_attr_ulongest, NULL },
{ NULL, GDB_XML_AF_NONE, NULL, NULL }
};
static const struct gdb_xml_element library_list_children[] =
{
{ "library", library_attributes, NULL,
GDB_XML_EF_REPEATABLE | GDB_XML_EF_OPTIONAL,
library_list_start_library, NULL},
{ NULL, NULL, NULL, GDB_XML_EF_NONE, NULL, NULL }
};
static const struct gdb_xml_attribute library_list_attributes[] =
{
{ "version", GDB_XML_AF_NONE, NULL, NULL },
{ NULL, GDB_XML_AF_NONE, NULL, NULL }
};
static const struct gdb_xml_element library_list_elements[] =
{
{ "library-list-aix", library_list_attributes, library_list_children,
GDB_XML_EF_NONE, library_list_start_list, NULL },
{ NULL, NULL, NULL, GDB_XML_EF_NONE, NULL, NULL }
};
/* Parse LIBRARY, a string containing the loader info in XML format,
and return a vector of lm_info_aix objects.
Return an empty option if the parsing failed. */
static std::optional<std::vector<lm_info_aix>>
solib_aix_parse_libraries (const char *library)
{
std::vector<lm_info_aix> result;
if (gdb_xml_parse_quick (_("aix library list"), "library-list-aix.dtd",
library_list_elements, library, &result) == 0)
return result;
return {};
}
#endif /* HAVE_LIBEXPAT */
/* Return the loader info for the given inferior (INF), or an empty
option if the list could not be computed.
Cache the result in per-inferior data, so as to avoid recomputing it
each time this function is called.
If an error occurs while computing this list, and WARNING_MSG
is not NULL, then print a warning including WARNING_MSG and
a description of the error. */
static std::optional<std::vector<lm_info_aix>> &
solib_aix_get_library_list (struct inferior *inf, const char *warning_msg)
{
struct solib_aix_inferior_data *data;
/* If already computed, return the cached value. */
data = get_solib_aix_inferior_data (inf);
if (data->library_list.has_value ())
return data->library_list;
std::optional<gdb::char_vector> library_document
= target_read_stralloc (current_inferior ()->top_target (),
TARGET_OBJECT_LIBRARIES_AIX,
NULL);
if (!library_document && warning_msg != NULL)
{
warning (_("%s (failed to read TARGET_OBJECT_LIBRARIES_AIX)"),
warning_msg);
return data->library_list;
}
solib_debug_printf ("TARGET_OBJECT_LIBRARIES_AIX = %s",
library_document->data ());
data->library_list = solib_aix_parse_libraries (library_document->data ());
if (!data->library_list.has_value () && warning_msg != NULL)
warning (_("%s (missing XML support?)"), warning_msg);
return data->library_list;
}
/* If the .bss section's VMA is set to an address located before
the end of the .data section, causing the two sections to overlap,
return the overlap in bytes. Otherwise, return zero.
Motivation:
The GNU linker sometimes sets the start address of the .bss session
before the end of the .data section, making the 2 sections overlap.
The loader appears to handle this situation gracefully, by simply
loading the bss section right after the end of the .data section.
This means that the .data and the .bss sections are sometimes
no longer relocated by the same amount. The problem is that
the ldinfo data does not contain any information regarding
the relocation of the .bss section, assuming that it would be
identical to the information provided for the .data section
(this is what would normally happen if the program was linked
correctly).
GDB therefore needs to detect those cases, and make the corresponding
adjustment to the .bss section offset computed from the ldinfo data
when necessary. This function returns the adjustment amount (or
zero when no adjustment is needed). */
static CORE_ADDR
solib_aix_bss_data_overlap (bfd *abfd)
{
struct bfd_section *data_sect, *bss_sect;
data_sect = bfd_get_section_by_name (abfd, ".data");
if (data_sect == NULL)
return 0; /* No overlap possible. */
bss_sect = bfd_get_section_by_name (abfd, ".bss");
if (bss_sect == NULL)
return 0; /* No overlap possible. */
/* Assume the problem only occurs with linkers that place the .bss
section after the .data section (the problem has only been
observed when using the GNU linker, and the default linker
script always places the .data and .bss sections in that order). */
if (bfd_section_vma (bss_sect) < bfd_section_vma (data_sect))
return 0;
if (bfd_section_vma (bss_sect)
< bfd_section_vma (data_sect) + bfd_section_size (data_sect))
return (bfd_section_vma (data_sect) + bfd_section_size (data_sect)
- bfd_section_vma (bss_sect));
return 0;
}
void
aix_solib_ops::relocate_section_addresses (solib &so,
target_section *sec) const
{
struct bfd_section *bfd_sect = sec->the_bfd_section;
bfd *abfd = bfd_sect->owner;
const char *section_name = bfd_section_name (bfd_sect);
auto *info = gdb::checked_static_cast<lm_info_aix *> (so.lm_info.get ());
if (strcmp (section_name, ".text") == 0)
{
sec->addr = info->text_addr;
sec->endaddr = sec->addr + info->text_size;
/* The text address given to us by the loader contains
XCOFF headers, so we need to adjust by this much. */
sec->addr += bfd_sect->filepos;
}
else if (strcmp (section_name, ".data") == 0)
{
sec->addr = info->data_addr;
sec->endaddr = sec->addr + info->data_size;
}
else if (strcmp (section_name, ".bss") == 0)
{
/* The information provided by the loader does not include
the address of the .bss section, but we know that it gets
relocated by the same offset as the .data section. So,
compute the relocation offset for the .data section, and
apply it to the .bss section as well. If the .data section
is not defined (which seems highly unlikely), do our best
by assuming no relocation. */
struct bfd_section *data_sect
= bfd_get_section_by_name (abfd, ".data");
CORE_ADDR data_offset = 0;
if (data_sect != NULL)
data_offset = info->data_addr - bfd_section_vma (data_sect);
sec->addr = bfd_section_vma (bfd_sect) + data_offset;
sec->addr += solib_aix_bss_data_overlap (abfd);
sec->endaddr = sec->addr + bfd_section_size (bfd_sect);
}
else
{
/* All other sections should not be relocated. */
sec->addr = bfd_section_vma (bfd_sect);
sec->endaddr = sec->addr + bfd_section_size (bfd_sect);
}
}
/* Compute and return the OBJFILE's section_offset array, using
the associated loader info (INFO). */
static section_offsets
solib_aix_get_section_offsets (struct objfile *objfile,
lm_info_aix *info)
{
bfd *abfd = objfile->obfd.get ();
section_offsets offsets (objfile->section_offsets.size ());
/* .text */
if (objfile->sect_index_text != -1)
{
struct bfd_section *sect
= objfile->sections_start[objfile->sect_index_text].the_bfd_section;
offsets[objfile->sect_index_text]
= info->text_addr + sect->filepos - bfd_section_vma (sect);
}
/* .data */
if (objfile->sect_index_data != -1)
{
struct bfd_section *sect
= objfile->sections_start[objfile->sect_index_data].the_bfd_section;
offsets[objfile->sect_index_data]
= info->data_addr - bfd_section_vma (sect);
}
/* .bss
The offset of the .bss section should be identical to the offset
of the .data section. If no .data section (which seems hard to
believe it is possible), assume it is zero. */
if (objfile->sect_index_bss != -1
&& objfile->sect_index_data != -1)
{
offsets[objfile->sect_index_bss]
= (offsets[objfile->sect_index_data]
+ solib_aix_bss_data_overlap (abfd));
}
/* All other sections should not need relocation. */
return offsets;
}
void
aix_solib_ops::create_inferior_hook (int from_tty) const
{
const char *warning_msg = "unable to relocate main executable";
/* We need to relocate the main executable... */
std::optional<std::vector<lm_info_aix>> &library_list
= solib_aix_get_library_list (current_inferior (), warning_msg);
if (!library_list.has_value ())
return; /* Warning already printed. */
if (library_list->empty ())
{
warning (_("unable to relocate main executable (no info from loader)"));
return;
}
lm_info_aix &exec_info = (*library_list)[0];
if (current_program_space->symfile_object_file != NULL)
{
objfile *objf = current_program_space->symfile_object_file;
section_offsets offsets = solib_aix_get_section_offsets (objf,
&exec_info);
objfile_relocate (objf, offsets);
}
}
owning_intrusive_list<solib>
aix_solib_ops::current_sos () const
{
std::optional<std::vector<lm_info_aix>> &library_list
= solib_aix_get_library_list (current_inferior (), NULL);
if (!library_list.has_value ())
return {};
owning_intrusive_list<solib> sos;
/* Build a struct solib for each entry on the list.
We skip the first entry, since this is the entry corresponding
to the main executable, not a shared library. */
for (int ix = 1; ix < library_list->size (); ix++)
{
std::string so_name;
lm_info_aix &info = (*library_list)[ix];
if (info.member_name.empty ())
{
/* INFO.FILENAME is probably not an archive, but rather
a shared object. Unusual, but it should be possible
to link a program against a shared object directory,
without having to put it in an archive first. */
so_name = info.filename;
}
else
{
/* This is the usual case on AIX, where the shared object
is a member of an archive. Create a synthetic so_name
that follows the same convention as AIX's ldd tool
(Eg: "/lib/libc.a(shr.o)"). */
so_name = string_printf ("%s(%s)", info.filename.c_str (),
info.member_name.c_str ());
}
/* Add it to the list. */
auto &new_solib = sos.emplace_back (*this);
new_solib.original_name = so_name;
new_solib.name = so_name;
new_solib.lm_info = std::make_unique<lm_info_aix> (info);
}
return sos;
}
gdb_bfd_ref_ptr
aix_solib_ops::bfd_open (const char *pathname) const
{
/* The pathname is actually a synthetic filename with the following
form: "/path/to/sharedlib(member.o)" (double-quotes excluded).
split this into archive name and member name.
FIXME: This is a little hacky. Perhaps we should provide access
to the solib's lm_info here? */
const int path_len = strlen (pathname);
const char *sep;
int filename_len;
int found_file;
if (pathname[path_len - 1] != ')')
return solib_ops::bfd_open (pathname);
/* Search for the associated parens. */
sep = strrchr (pathname, '(');
if (sep == NULL)
{
/* Should never happen, but recover as best as we can (trying
to open pathname without decoding, possibly leading to
a failure), rather than triggering an assert failure). */
warning (_("missing '(' in shared object pathname: %s"), pathname);
return solib_ops::bfd_open (pathname);
}
filename_len = sep - pathname;
std::string filename (string_printf ("%.*s", filename_len, pathname));
std::string member_name (string_printf ("%.*s", path_len - filename_len - 2,
sep + 1));
/* Calling solib_find makes certain that sysroot path is set properly
if program has a dependency on .a archive and sysroot is set via
set sysroot command. */
gdb::unique_xmalloc_ptr<char> found_pathname
= solib_find (filename.c_str (), &found_file);
if (found_pathname == NULL)
perror_with_name (pathname);
gdb_bfd_ref_ptr archive_bfd (solib_bfd_fopen (found_pathname.get (),
found_file));
if (archive_bfd == NULL)
{
warning (_("Could not open `%s' as an executable file: %s"),
filename.c_str (), bfd_errmsg (bfd_get_error ()));
return NULL;
}
if (bfd_check_format (archive_bfd.get (), bfd_object))
return archive_bfd;
if (! bfd_check_format (archive_bfd.get (), bfd_archive))
{
warning (_("\"%s\": not in executable format: %s."),
filename.c_str (), bfd_errmsg (bfd_get_error ()));
return NULL;
}
gdb_bfd_ref_ptr object_bfd
(gdb_bfd_openr_next_archived_file (archive_bfd.get (), NULL));
while (object_bfd != NULL)
{
if (member_name == bfd_get_filename (object_bfd.get ()))
break;
std::string s = bfd_get_filename (object_bfd.get ());
/* For every inferior after first int bfd system we
will have the pathname instead of the member name
registered. Hence the below condition exists. */
if (s.find ('(') != std::string::npos)
{
int pos = s.find ('(');
int len = s.find (')') - s.find ('(');
if (s.substr (pos+1, len-1) == member_name)
return object_bfd;
}
object_bfd = gdb_bfd_openr_next_archived_file (archive_bfd.get (),
object_bfd.get ());
}
if (object_bfd == NULL)
{
warning (_("\"%s\": member \"%s\" missing."), filename.c_str (),
member_name.c_str ());
return NULL;
}
if (! bfd_check_format (object_bfd.get (), bfd_object))
{
warning (_("%s(%s): not in object format: %s."),
filename.c_str (), member_name.c_str (),
bfd_errmsg (bfd_get_error ()));
return NULL;
}
/* Override the returned bfd's name with the name returned from solib_find
along with appended parenthesized member name in order to allow commands
listing all shared libraries to display. Otherwise, we would only be
displaying the name of the archive member object. */
std::string fname = string_printf ("%s%s",
bfd_get_filename (archive_bfd.get ()),
sep);
bfd_set_filename (object_bfd.get (), fname.c_str ());
return object_bfd;
}
/* Return the obj_section corresponding to OBJFILE's data section,
or NULL if not found. */
/* FIXME: Define in a more general location? */
static struct obj_section *
data_obj_section_from_objfile (struct objfile *objfile)
{
for (obj_section *osect : objfile->sections ())
if (strcmp (bfd_section_name (osect->the_bfd_section), ".data") == 0)
return osect;
return NULL;
}
/* Return the TOC value corresponding to the given PC address,
or raise an error if the value could not be determined. */
CORE_ADDR
solib_aix_get_toc_value (CORE_ADDR pc)
{
struct obj_section *pc_osect = find_pc_section (pc);
struct obj_section *data_osect;
CORE_ADDR result;
if (pc_osect == NULL)
error (_("unable to find TOC entry for pc %s "
"(no section contains this PC)"),
core_addr_to_string (pc));
data_osect = data_obj_section_from_objfile (pc_osect->objfile);
if (data_osect == NULL)
error (_("unable to find TOC entry for pc %s "
"(%s has no data section)"),
core_addr_to_string (pc), objfile_name (pc_osect->objfile));
result = data_osect->addr () + xcoff_get_toc_offset (pc_osect->objfile);
solib_debug_printf ("pc=%s -> %s", core_addr_to_string (pc),
core_addr_to_string (result));
return result;
}
/* This module's normal_stop observer. */
static void
solib_aix_normal_stop_observer (struct bpstat *unused_1, int unused_2)
{
struct solib_aix_inferior_data *data
= get_solib_aix_inferior_data (current_inferior ());
/* The inferior execution has been resumed, and it just stopped
again. This means that the list of shared libraries may have
evolved. Reset our cached value. */
data->library_list.reset ();
}
INIT_GDB_FILE (solib_aix)
{
gdb::observers::normal_stop.attach (solib_aix_normal_stop_observer,
"solib-aix");
}
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