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314 lines
12 KiB
C
314 lines
12 KiB
C
/* Program and address space management, for GDB, the GNU debugger.
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Copyright (C) 2009-2014 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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#ifndef PROGSPACE_H
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#define PROGSPACE_H
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#include "target.h"
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#include "vec.h"
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#include "gdb_vecs.h"
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#include "registry.h"
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struct target_ops;
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struct bfd;
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struct objfile;
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struct inferior;
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struct exec;
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struct address_space;
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struct program_space_data;
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struct address_space_data;
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typedef struct so_list *so_list_ptr;
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DEF_VEC_P (so_list_ptr);
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/* A program space represents a symbolic view of an address space.
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Roughly speaking, it holds all the data associated with a
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non-running-yet program (main executable, main symbols), and when
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an inferior is running and is bound to it, includes the list of its
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mapped in shared libraries.
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In the traditional debugging scenario, there's a 1-1 correspondence
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among program spaces, inferiors and address spaces, like so:
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pspace1 (prog1) <--> inf1(pid1) <--> aspace1
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In the case of debugging more than one traditional unix process or
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program, we still have:
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|-----------------+------------+---------|
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| pspace1 (prog1) | inf1(pid1) | aspace1 |
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|----------------------------------------|
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| pspace2 (prog1) | no inf yet | aspace2 |
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|-----------------+------------+---------|
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| pspace3 (prog2) | inf2(pid2) | aspace3 |
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|-----------------+------------+---------|
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In the former example, if inf1 forks (and GDB stays attached to
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both processes), the new child will have its own program and
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address spaces. Like so:
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|-----------------+------------+---------|
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| pspace1 (prog1) | inf1(pid1) | aspace1 |
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|-----------------+------------+---------|
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| pspace2 (prog1) | inf2(pid2) | aspace2 |
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|-----------------+------------+---------|
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However, had inf1 from the latter case vforked instead, it would
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share the program and address spaces with its parent, until it
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execs or exits, like so:
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|-----------------+------------+---------|
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| pspace1 (prog1) | inf1(pid1) | aspace1 |
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| | inf2(pid2) | |
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|-----------------+------------+---------|
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When the vfork child execs, it is finally given new program and
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address spaces.
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|-----------------+------------+---------|
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| pspace1 (prog1) | inf1(pid1) | aspace1 |
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|-----------------+------------+---------|
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| pspace2 (prog1) | inf2(pid2) | aspace2 |
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|-----------------+------------+---------|
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There are targets where the OS (if any) doesn't provide memory
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management or VM protection, where all inferiors share the same
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address space --- e.g. uClinux. GDB models this by having all
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inferiors share the same address space, but, giving each its own
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program space, like so:
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|-----------------+------------+---------|
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| pspace1 (prog1) | inf1(pid1) | |
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|-----------------+------------+ |
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| pspace2 (prog1) | inf2(pid2) | aspace1 |
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|-----------------+------------+ |
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| pspace3 (prog2) | inf3(pid3) | |
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|-----------------+------------+---------|
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The address space sharing matters for run control and breakpoints
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management. E.g., did we just hit a known breakpoint that we need
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to step over? Is this breakpoint a duplicate of this other one, or
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do I need to insert a trap?
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Then, there are targets where all symbols look the same for all
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inferiors, although each has its own address space, as e.g.,
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Ericsson DICOS. In such case, the model is:
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|---------+------------+---------|
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| | inf1(pid1) | aspace1 |
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| +------------+---------|
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| pspace | inf2(pid2) | aspace2 |
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| +------------+---------|
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| | inf3(pid3) | aspace3 |
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|---------+------------+---------|
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Note however, that the DICOS debug API takes care of making GDB
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believe that breakpoints are "global". That is, although each
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process does have its own private copy of data symbols (just like a
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bunch of forks), to the breakpoints module, all processes share a
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single address space, so all breakpoints set at the same address
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are duplicates of each other, even breakpoints set in the data
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space (e.g., call dummy breakpoints placed on stack). This allows
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a simplification in the spaces implementation: we avoid caring for
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a many-many links between address and program spaces. Either
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there's a single address space bound to the program space
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(traditional unix/uClinux), or, in the DICOS case, the address
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space bound to the program space is mostly ignored. */
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/* The program space structure. */
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struct program_space
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{
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/* Pointer to next in linked list. */
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struct program_space *next;
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/* Unique ID number. */
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int num;
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/* The main executable loaded into this program space. This is
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managed by the exec target. */
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/* The BFD handle for the main executable. */
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bfd *ebfd;
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/* The last-modified time, from when the exec was brought in. */
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long ebfd_mtime;
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/* Similar to bfd_get_filename (exec_bfd) but in original form given
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by user, without symbolic links and pathname resolved.
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It needs to be freed by xfree. It is not NULL iff EBFD is not NULL. */
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char *pspace_exec_filename;
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/* The address space attached to this program space. More than one
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program space may be bound to the same address space. In the
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traditional unix-like debugging scenario, this will usually
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match the address space bound to the inferior, and is mostly
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used by the breakpoints module for address matches. If the
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target shares a program space for all inferiors and breakpoints
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are global, then this field is ignored (we don't currently
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support inferiors sharing a program space if the target doesn't
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make breakpoints global). */
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struct address_space *aspace;
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/* True if this program space's section offsets don't yet represent
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the final offsets of the "live" address space (that is, the
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section addresses still require the relocation offsets to be
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applied, and hence we can't trust the section addresses for
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anything that pokes at live memory). E.g., for qOffsets
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targets, or for PIE executables, until we connect and ask the
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target for the final relocation offsets, the symbols we've used
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to set breakpoints point at the wrong addresses. */
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int executing_startup;
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/* True if no breakpoints should be inserted in this program
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space. */
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int breakpoints_not_allowed;
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/* The object file that the main symbol table was loaded from
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(e.g. the argument to the "symbol-file" or "file" command). */
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struct objfile *symfile_object_file;
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/* All known objfiles are kept in a linked list. This points to
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the head of this list. */
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struct objfile *objfiles;
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/* The set of target sections matching the sections mapped into
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this program space. Managed by both exec_ops and solib.c. */
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struct target_section_table target_sections;
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/* List of shared objects mapped into this space. Managed by
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solib.c. */
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struct so_list *so_list;
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/* Number of calls to solib_add. */
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unsigned solib_add_generation;
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/* When an solib is added, it is also added to this vector. This
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is so we can properly report solib changes to the user. */
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VEC (so_list_ptr) *added_solibs;
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/* When an solib is removed, its name is added to this vector.
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This is so we can properly report solib changes to the user. */
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VEC (char_ptr) *deleted_solibs;
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/* Per pspace data-pointers required by other GDB modules. */
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REGISTRY_FIELDS;
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};
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/* The object file that the main symbol table was loaded from (e.g. the
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argument to the "symbol-file" or "file" command). */
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#define symfile_objfile current_program_space->symfile_object_file
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/* All known objfiles are kept in a linked list. This points to the
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root of this list. */
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#define object_files current_program_space->objfiles
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/* The set of target sections matching the sections mapped into the
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current program space. */
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#define current_target_sections (¤t_program_space->target_sections)
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/* The list of all program spaces. There's always at least one. */
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extern struct program_space *program_spaces;
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/* The current program space. This is always non-null. */
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extern struct program_space *current_program_space;
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#define ALL_PSPACES(pspace) \
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for ((pspace) = program_spaces; (pspace) != NULL; (pspace) = (pspace)->next)
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/* Add a new empty program space, and assign ASPACE to it. Returns the
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pointer to the new object. */
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extern struct program_space *add_program_space (struct address_space *aspace);
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/* Release PSPACE and removes it from the pspace list. */
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extern void remove_program_space (struct program_space *pspace);
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/* Returns the number of program spaces listed. */
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extern int number_of_program_spaces (void);
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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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extern struct program_space *clone_program_space (struct program_space *dest,
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struct program_space *src);
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/* Save the current program space so that it may be restored by a later
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call to do_cleanups. Returns the struct cleanup pointer needed for
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later doing the cleanup. */
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extern struct cleanup *save_current_program_space (void);
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/* Sets PSPACE as the current program space. This is usually used
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instead of set_current_space_and_thread when the current
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thread/inferior is not important for the operations that follow.
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E.g., when accessing the raw symbol tables. If memory access is
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required, then you should use switch_to_program_space_and_thread.
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Otherwise, it is the caller's responsibility to make sure that the
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currently selected inferior/thread matches the selected program
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space. */
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extern void set_current_program_space (struct program_space *pspace);
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/* Saves the current thread (may be null), frame and program space in
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the current cleanup chain. */
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extern struct cleanup *save_current_space_and_thread (void);
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/* Switches full context to program space PSPACE. Switches to the
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first thread found bound to PSPACE. */
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extern void switch_to_program_space_and_thread (struct program_space *pspace);
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/* Create a new address space object, and add it to the list. */
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extern struct address_space *new_address_space (void);
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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. */
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extern struct address_space *maybe_new_address_space (void);
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/* Returns the integer address space id of ASPACE. */
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extern int address_space_num (struct address_space *aspace);
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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
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mappings. */
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extern void update_address_spaces (void);
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/* Prune away automatically added program spaces that aren't required
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anymore. */
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extern void prune_program_spaces (void);
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/* Reset saved solib data at the start of an solib event. This lets
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us properly collect the data when calling solib_add, so it can then
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later be printed. */
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extern void clear_program_space_solib_cache (struct program_space *);
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/* Keep a registry of per-pspace data-pointers required by other GDB
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modules. */
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DECLARE_REGISTRY (program_space);
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/* Keep a registry of per-aspace data-pointers required by other GDB
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modules. */
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DECLARE_REGISTRY (address_space);
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#endif
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