gdb: add an extension language hook for missing debug info

This commit adds a new extension_language_ops hook which allows an
extension to handle the case where GDB can't find a separate debug
information file for a particular objfile.

This commit doesn't actually implement the hook for any of GDB's
extension languages, the next commit will do that.  This commit just
adds support for the hook to extension-priv.h and extension.[ch], and
then reworks symfile-debug.c to call the hook.

Right now the hook will always return its default value, which means
GDB should do nothing different.  As such, there should be no user
visible changes after this commit.

I'll give a brief description of what the hook does here so that we
can understand the changes in symfile-debug.c.  The next commit adds a
Python implementation for this new hook, and gives a fuller
description of the new functionality.

Currently, when looking for separate debug information GDB tries three
things, in this order:

  1. Use the build-id to find the required debug information,

  2. Check for .gnu_debuglink section and use that to look up the
  required debug information,

  3. Check with debuginfod to see if it can supply the required
  information.

The new extension_language_ops::handle_missing_debuginfo hook is
called if all three steps fail to find any debug information.  The
hook has three possible return values:

  a. Nothing, no debug information is found, GDB continues without the
  debug information for this objfile.  This matches the current
  behaviour of GDB, and is the default if nothing is implementing this
  new hook,

  b. Install debug information into a location that step #1 or #2
  above would normally check, and then request that GDB repeats steps
  #1 and #2 in the hope that GDB will now find the debug information.
  If the debug information is still not found then GDB carries on
  without the debug information.  If the debug information is found
  the GDB loads it and carries on,

  c. Return a filename for a file containing the required debug
  information.  GDB loads the contents of this file and carries on.

The changes in this commit mostly involve placing the core of
objfile::find_and_add_separate_symbol_file into a loop which allows
for steps #1 and #2 to be repeated.

We take care to ensure that debuginfod is only queried once, the first
time through.  The assumption is that no extension is going to be able
to control the replies from debuginfod, so there's no point making a
second request -- and as these requests go over the network, they
could potentially be slow.

The warnings that find_and_add_separate_symbol_file collects are
displayed only once assuming that no debug information is found.  If
debug information is found, even after the extension has operated,
then the warnings are not shown; remember, these are warnings from GDB
about failure to find any suitable debug information, so it makes
sense to hide these if debug information is found.

Approved-By: Tom Tromey <tom@tromey.com>
This commit is contained in:
Andrew Burgess 2023-10-13 16:48:36 +01:00
parent 6234ba1759
commit 661d98a333
4 changed files with 166 additions and 28 deletions

View File

@ -279,6 +279,13 @@ struct extension_language_ops
gdb::optional<int> (*print_insn) (struct gdbarch *gdbarch,
CORE_ADDR address,
struct disassemble_info *info);
/* Give extension languages a chance to deal with missing debug
information. OBJFILE is the file for which GDB was unable to find
any debug information. */
ext_lang_missing_debuginfo_result
(*handle_missing_debuginfo) (const struct extension_language_defn *,
struct objfile *objfile);
};
/* State necessary to restore a signal handler to its previous value. */

View File

@ -997,6 +997,25 @@ ext_lang_print_insn (struct gdbarch *gdbarch, CORE_ADDR address,
return {};
}
/* See extension.h. */
ext_lang_missing_debuginfo_result
ext_lang_handle_missing_debuginfo (struct objfile *objfile)
{
for (const struct extension_language_defn *extlang : extension_languages)
{
if (extlang->ops == nullptr
|| extlang->ops->handle_missing_debuginfo == nullptr)
continue;
ext_lang_missing_debuginfo_result result
= extlang->ops->handle_missing_debuginfo (extlang, objfile);
if (!result.filename ().empty () || result.try_again ())
return result;
}
return {};
}
/* Called via an observer before gdb prints its prompt.
Iterate over the extension languages giving them a chance to
change the prompt. The first one to change the prompt wins,

View File

@ -337,6 +337,68 @@ extern gdb::optional<std::string> ext_lang_colorize_disasm
extern gdb::optional<int> ext_lang_print_insn
(struct gdbarch *gdbarch, CORE_ADDR address, struct disassemble_info *info);
/* When GDB calls into an extension language because an objfile was
discovered for which GDB couldn't find any debug information, this
structure holds the result that the extension language returns.
There are three possible actions that might be returned by an extension;
first an extension can return a filename, this is the path to the file
containing the required debug information. The second possibility is
to return a flag indicating that GDB should check again for the missing
debug information, this would imply that the extension has installed
the debug information into a location where GDB can be expected to find
it. And the third option is for the extension to just return a null
result, indication there is nothing the extension can do to provide the
missing debug information. */
struct ext_lang_missing_debuginfo_result
{
/* Default result. The extension was unable to provide the missing debug
info. */
ext_lang_missing_debuginfo_result ()
{ /* Nothing. */ }
/* When TRY_AGAIN is true GDB should try searching again, the extension
may have installed the missing debug info into a suitable location.
When TRY_AGAIN is false this is equivalent to the default, no
argument, constructor. */
ext_lang_missing_debuginfo_result (bool try_again)
: m_try_again (try_again)
{ /* Nothing. */ }
/* Look in FILENAME for the missing debug info. */
ext_lang_missing_debuginfo_result (std::string &&filename)
: m_filename (std::move (filename))
{ /* Nothing. */ }
/* The filename where GDB can find the missing debuginfo. This is empty
if the extension didn't suggest a file that can be used. */
const std::string &
filename () const
{
return m_filename;
}
/* Returns true if GDB should look again for the debug information. */
const bool
try_again () const
{
return m_try_again;
}
private:
/* The filename where the missing debuginfo can now be found. */
std::string m_filename;
/* When true GDB will search again for the debuginfo using its standard
techniques. When false GDB will not search again. */
bool m_try_again = false;
};
/* Called when GDB failed to find any debug information for OBJFILE. */
extern ext_lang_missing_debuginfo_result ext_lang_handle_missing_debuginfo
(struct objfile *objfile);
#if GDB_SELF_TEST
namespace selftests {
extern void (*hook_set_active_ext_lang) ();

View File

@ -631,38 +631,88 @@ debuginfod_find_and_open_separate_symbol_file (struct objfile * objfile)
bool
objfile::find_and_add_separate_symbol_file (symfile_add_flags symfile_flags)
{
bool has_dwarf = false;
bool has_dwarf2 = false;
deferred_warnings warnings;
gdb_bfd_ref_ptr debug_bfd;
std::string filename;
std::tie (debug_bfd, filename) = simple_find_and_open_separate_symbol_file
(this, find_separate_debug_file_by_buildid, &warnings);
if (debug_bfd == nullptr)
std::tie (debug_bfd, filename)
= simple_find_and_open_separate_symbol_file
(this, find_separate_debug_file_by_debuglink, &warnings);
if (debug_bfd == nullptr)
std::tie (debug_bfd, filename)
= debuginfod_find_and_open_separate_symbol_file (this);
if (debug_bfd != nullptr)
/* Usually we only make a single pass when looking for separate debug
information. However, it is possible for an extension language hook
to request that GDB make a second pass, in which case max_attempts
will be updated, and the loop restarted. */
for (unsigned attempt = 0, max_attempts = 1;
attempt < max_attempts && !has_dwarf2;
++attempt)
{
symbol_file_add_separate (debug_bfd, filename.c_str (), symfile_flags,
this);
has_dwarf = true;
gdb_assert (max_attempts <= 2);
deferred_warnings warnings;
gdb_bfd_ref_ptr debug_bfd;
std::string filename;
std::tie (debug_bfd, filename)
= simple_find_and_open_separate_symbol_file
(this, find_separate_debug_file_by_buildid, &warnings);
if (debug_bfd == nullptr)
std::tie (debug_bfd, filename)
= simple_find_and_open_separate_symbol_file
(this, find_separate_debug_file_by_debuglink, &warnings);
/* Only try debuginfod on the first attempt. Sure, we could imagine
an extension that somehow adds the required debug info to the
debuginfod server but, at least for now, we don't support this
scenario. Better for the extension to return new debug info
directly to GDB. Plus, going to the debuginfod server might be
slow, so that's a good argument for only doing this once. */
if (debug_bfd == nullptr && attempt == 0)
std::tie (debug_bfd, filename)
= debuginfod_find_and_open_separate_symbol_file (this);
if (debug_bfd != nullptr)
{
/* We found a separate debug info symbol file. If this is our
first attempt then setting HAS_DWARF2 will cause us to break
from the attempt loop. */
symbol_file_add_separate (debug_bfd, filename.c_str (),
symfile_flags, this);
has_dwarf2 = true;
}
else if (attempt == 0)
{
/* Failed to find a separate debug info symbol file. Call out to
the extension languages. The user might have registered an
extension that can find the debug info for us, or maybe give
the user a system specific message that guides them to finding
the missing debug info. */
ext_lang_missing_debuginfo_result ext_result
= ext_lang_handle_missing_debuginfo (this);
if (!ext_result.filename ().empty ())
{
/* Extension found a suitable debug file for us. */
debug_bfd
= symfile_bfd_open_no_error (ext_result.filename ().c_str ());
if (debug_bfd != nullptr)
{
symbol_file_add_separate (debug_bfd,
ext_result.filename ().c_str (),
symfile_flags, this);
has_dwarf2 = true;
}
}
else if (ext_result.try_again ())
{
max_attempts = 2;
continue;
}
}
/* If we still have not got a separate debug symbol file, then
emit any warnings we've collected so far. */
if (!has_dwarf2)
warnings.emit ();
}
/* If we still have not got a separate debug symbol file, then
emit any warnings we've collected so far. */
if (!has_dwarf)
warnings.emit ();
return has_dwarf;
return has_dwarf2;
}