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08b8a139c9
This rewrites registry.h, removing all the macros and replacing it with relatively ordinary template classes. The result is less code than the previous setup. It replaces large macros with a relatively straightforward C++ class, and now manages its own cleanup. The existing type-safe "key" class is replaced with the equivalent template class. This approach ended up requiring relatively few changes to the users of the registry code in gdb -- code using the key system just required a small change to the key's declaration. All existing users of the old C-like API are now converted to use the type-safe API. This mostly involved changing explicit deletion functions to be an operator() in a deleter class. The old "save/free" two-phase process is removed, and replaced with a single "free" phase. No existing code used both phases. The old "free" callbacks took a parameter for the enclosing container object. However, this wasn't truly needed and is removed here as well.
428 lines
11 KiB
C
428 lines
11 KiB
C
/* Program and address space management, for GDB, the GNU debugger.
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Copyright (C) 2009-2022 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#include "defs.h"
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#include "gdbcmd.h"
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#include "objfiles.h"
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#include "arch-utils.h"
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#include "gdbcore.h"
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#include "solib.h"
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#include "solist.h"
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#include "gdbthread.h"
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#include "inferior.h"
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#include <algorithm>
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#include "cli/cli-style.h"
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/* The last program space number assigned. */
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static int last_program_space_num = 0;
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/* The head of the program spaces list. */
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std::vector<struct program_space *> program_spaces;
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/* Pointer to the current program space. */
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struct program_space *current_program_space;
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/* The last address space number assigned. */
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static int highest_address_space_num;
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/* Create a new address space object, and add it to the list. */
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address_space::address_space ()
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: m_num (++highest_address_space_num)
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{
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}
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/* Maybe create a new address space object, and add it to the list, or
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return a pointer to an existing address space, in case inferiors
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share an address space on this target system. */
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struct address_space *
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maybe_new_address_space (void)
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{
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int shared_aspace = gdbarch_has_shared_address_space (target_gdbarch ());
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if (shared_aspace)
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{
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/* Just return the first in the list. */
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return program_spaces[0]->aspace;
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}
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return new address_space ();
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}
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/* Start counting over from scratch. */
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static void
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init_address_spaces (void)
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{
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highest_address_space_num = 0;
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}
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/* Remove a program space from the program spaces list. */
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static void
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remove_program_space (program_space *pspace)
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{
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gdb_assert (pspace != NULL);
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auto iter = std::find (program_spaces.begin (), program_spaces.end (),
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pspace);
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gdb_assert (iter != program_spaces.end ());
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program_spaces.erase (iter);
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}
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/* See progspace.h. */
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program_space::program_space (address_space *aspace_)
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: num (++last_program_space_num),
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aspace (aspace_)
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{
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program_spaces.push_back (this);
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}
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/* See progspace.h. */
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program_space::~program_space ()
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{
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gdb_assert (this != current_program_space);
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remove_program_space (this);
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scoped_restore_current_program_space restore_pspace;
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set_current_program_space (this);
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breakpoint_program_space_exit (this);
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no_shared_libraries (NULL, 0);
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free_all_objfiles ();
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/* Defer breakpoint re-set because we don't want to create new
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locations for this pspace which we're tearing down. */
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clear_symtab_users (SYMFILE_DEFER_BP_RESET);
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if (!gdbarch_has_shared_address_space (target_gdbarch ()))
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delete this->aspace;
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}
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/* See progspace.h. */
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void
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program_space::free_all_objfiles ()
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{
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/* Any objfile reference would become stale. */
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for (struct so_list *so : current_program_space->solibs ())
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gdb_assert (so->objfile == NULL);
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while (!objfiles_list.empty ())
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objfiles_list.front ()->unlink ();
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}
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/* See progspace.h. */
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void
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program_space::add_objfile (std::unique_ptr<objfile> &&objfile,
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struct objfile *before)
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{
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if (before == nullptr)
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objfiles_list.push_back (std::move (objfile));
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else
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{
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auto iter = std::find_if (objfiles_list.begin (), objfiles_list.end (),
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[=] (const std::unique_ptr<::objfile> &objf)
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{
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return objf.get () == before;
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});
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gdb_assert (iter != objfiles_list.end ());
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objfiles_list.insert (iter, std::move (objfile));
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}
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}
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/* See progspace.h. */
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void
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program_space::remove_objfile (struct objfile *objfile)
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{
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/* Removing an objfile from the objfile list invalidates any frame
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that was built using frame info found in the objfile. Reinit the
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frame cache to get rid of any frame that might otherwise
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reference stale info. */
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reinit_frame_cache ();
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auto iter = std::find_if (objfiles_list.begin (), objfiles_list.end (),
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[=] (const std::unique_ptr<::objfile> &objf)
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{
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return objf.get () == objfile;
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});
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gdb_assert (iter != objfiles_list.end ());
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objfiles_list.erase (iter);
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if (objfile == symfile_object_file)
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symfile_object_file = NULL;
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}
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/* See progspace.h. */
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void
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program_space::exec_close ()
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{
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if (ebfd != nullptr)
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{
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/* Removing target sections may close the exec_ops target.
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Clear ebfd before doing so to prevent recursion. */
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ebfd.reset (nullptr);
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ebfd_mtime = 0;
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remove_target_sections (&ebfd);
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exec_filename.reset (nullptr);
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}
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}
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/* Copies program space SRC to DEST. Copies the main executable file,
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and the main symbol file. Returns DEST. */
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struct program_space *
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clone_program_space (struct program_space *dest, struct program_space *src)
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{
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scoped_restore_current_program_space restore_pspace;
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set_current_program_space (dest);
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if (src->exec_filename != NULL)
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exec_file_attach (src->exec_filename.get (), 0);
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if (src->symfile_object_file != NULL)
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symbol_file_add_main (objfile_name (src->symfile_object_file),
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SYMFILE_DEFER_BP_RESET);
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return dest;
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}
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/* Sets PSPACE as the current program space. It is the caller's
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responsibility to make sure that the currently selected
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inferior/thread matches the selected program space. */
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void
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set_current_program_space (struct program_space *pspace)
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{
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if (current_program_space == pspace)
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return;
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gdb_assert (pspace != NULL);
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current_program_space = pspace;
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/* Different symbols change our view of the frame chain. */
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reinit_frame_cache ();
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}
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/* Returns true iff there's no inferior bound to PSPACE. */
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bool
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program_space::empty ()
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{
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return find_inferior_for_program_space (this) == nullptr;
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}
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/* Prints the list of program spaces and their details on UIOUT. If
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REQUESTED is not -1, it's the ID of the pspace that should be
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printed. Otherwise, all spaces are printed. */
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static void
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print_program_space (struct ui_out *uiout, int requested)
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{
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int count = 0;
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/* Compute number of pspaces we will print. */
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for (struct program_space *pspace : program_spaces)
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{
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if (requested != -1 && pspace->num != requested)
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continue;
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++count;
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}
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/* There should always be at least one. */
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gdb_assert (count > 0);
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ui_out_emit_table table_emitter (uiout, 3, count, "pspaces");
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uiout->table_header (1, ui_left, "current", "");
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uiout->table_header (4, ui_left, "id", "Id");
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uiout->table_header (17, ui_left, "exec", "Executable");
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uiout->table_body ();
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for (struct program_space *pspace : program_spaces)
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{
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int printed_header;
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if (requested != -1 && requested != pspace->num)
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continue;
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ui_out_emit_tuple tuple_emitter (uiout, NULL);
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if (pspace == current_program_space)
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uiout->field_string ("current", "*");
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else
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uiout->field_skip ("current");
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uiout->field_signed ("id", pspace->num);
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if (pspace->exec_filename != nullptr)
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uiout->field_string ("exec", pspace->exec_filename.get (),
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file_name_style.style ());
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else
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uiout->field_skip ("exec");
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/* Print extra info that doesn't really fit in tabular form.
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Currently, we print the list of inferiors bound to a pspace.
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There can be more than one inferior bound to the same pspace,
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e.g., both parent/child inferiors in a vfork, or, on targets
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that share pspaces between inferiors. */
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printed_header = 0;
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/* We're going to switch inferiors. */
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scoped_restore_current_thread restore_thread;
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for (inferior *inf : all_inferiors ())
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if (inf->pspace == pspace)
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{
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/* Switch to inferior in order to call target methods. */
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switch_to_inferior_no_thread (inf);
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if (!printed_header)
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{
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printed_header = 1;
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gdb_printf ("\n\tBound inferiors: ID %d (%s)",
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inf->num,
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target_pid_to_str (ptid_t (inf->pid)).c_str ());
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}
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else
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gdb_printf (", ID %d (%s)",
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inf->num,
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target_pid_to_str (ptid_t (inf->pid)).c_str ());
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}
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uiout->text ("\n");
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}
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}
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/* Boolean test for an already-known program space id. */
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static int
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valid_program_space_id (int num)
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{
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for (struct program_space *pspace : program_spaces)
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if (pspace->num == num)
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return 1;
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return 0;
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}
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/* If ARGS is NULL or empty, print information about all program
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spaces. Otherwise, ARGS is a text representation of a LONG
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indicating which the program space to print information about. */
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static void
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maintenance_info_program_spaces_command (const char *args, int from_tty)
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{
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int requested = -1;
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if (args && *args)
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{
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requested = parse_and_eval_long (args);
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if (!valid_program_space_id (requested))
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error (_("program space ID %d not known."), requested);
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}
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print_program_space (current_uiout, requested);
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}
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/* Update all program spaces matching to address spaces. The user may
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have created several program spaces, and loaded executables into
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them before connecting to the target interface that will create the
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inferiors. All that happens before GDB has a chance to know if the
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inferiors will share an address space or not. Call this after
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having connected to the target interface and having fetched the
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target description, to fixup the program/address spaces mappings.
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It is assumed that there are no bound inferiors yet, otherwise,
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they'd be left with stale referenced to released aspaces. */
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void
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update_address_spaces (void)
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{
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int shared_aspace = gdbarch_has_shared_address_space (target_gdbarch ());
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init_address_spaces ();
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if (shared_aspace)
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{
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struct address_space *aspace = new address_space ();
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delete current_program_space->aspace;
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for (struct program_space *pspace : program_spaces)
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pspace->aspace = aspace;
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}
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else
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for (struct program_space *pspace : program_spaces)
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{
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delete pspace->aspace;
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pspace->aspace = new address_space ();
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}
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for (inferior *inf : all_inferiors ())
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if (gdbarch_has_global_solist (target_gdbarch ()))
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inf->aspace = maybe_new_address_space ();
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else
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inf->aspace = inf->pspace->aspace;
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}
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/* See progspace.h. */
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void
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program_space::clear_solib_cache ()
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{
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added_solibs.clear ();
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deleted_solibs.clear ();
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}
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void
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initialize_progspace (void)
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{
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add_cmd ("program-spaces", class_maintenance,
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maintenance_info_program_spaces_command,
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_("Info about currently known program spaces."),
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&maintenanceinfolist);
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/* There's always one program space. Note that this function isn't
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an automatic _initialize_foo function, since other
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_initialize_foo routines may need to install their per-pspace
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data keys. We can only allocate a progspace when all those
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modules have done that. Do this before
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initialize_current_architecture, because that accesses the ebfd
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of current_program_space. */
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current_program_space = new program_space (new address_space ());
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}
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