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|
/* Core dump and executable file functions below target vector, for GDB.
Copyright (C) 1986-2020 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 "defs.h"
#include "arch-utils.h"
#include <signal.h>
#include <fcntl.h>
#include "frame.h" /* required by inferior.h */
#include "inferior.h"
#include "infrun.h"
#include "symtab.h"
#include "command.h"
#include "bfd.h"
#include "target.h"
#include "process-stratum-target.h"
#include "gdbcore.h"
#include "gdbthread.h"
#include "regcache.h"
#include "regset.h"
#include "symfile.h"
#include "exec.h"
#include "readline/tilde.h"
#include "solib.h"
#include "filenames.h"
#include "progspace.h"
#include "objfiles.h"
#include "gdb_bfd.h"
#include "completer.h"
#include "gdbsupport/filestuff.h"
#include "build-id.h"
#include "gdbsupport/pathstuff.h"
#ifndef O_LARGEFILE
#define O_LARGEFILE 0
#endif
/* The core file target. */
static const target_info core_target_info = {
"core",
N_("Local core dump file"),
N_("Use a core file as a target.\n\
Specify the filename of the core file.")
};
class core_target final : public process_stratum_target
{
public:
core_target ();
~core_target () override;
const target_info &info () const override
{ return core_target_info; }
void close () override;
void detach (inferior *, int) override;
void fetch_registers (struct regcache *, int) override;
enum target_xfer_status xfer_partial (enum target_object object,
const char *annex,
gdb_byte *readbuf,
const gdb_byte *writebuf,
ULONGEST offset, ULONGEST len,
ULONGEST *xfered_len) override;
void files_info () override;
bool thread_alive (ptid_t ptid) override;
const struct target_desc *read_description () override;
std::string pid_to_str (ptid_t) override;
const char *thread_name (struct thread_info *) override;
bool has_all_memory () override { return false; }
bool has_memory () override;
bool has_stack () override;
bool has_registers () override;
bool has_execution (inferior *inf) override { return false; }
bool info_proc (const char *, enum info_proc_what) override;
/* A few helpers. */
/* Getter, see variable definition. */
struct gdbarch *core_gdbarch ()
{
return m_core_gdbarch;
}
/* See definition. */
void get_core_register_section (struct regcache *regcache,
const struct regset *regset,
const char *name,
int section_min_size,
const char *human_name,
bool required);
private: /* per-core data */
/* The core's section table. Note that these target sections are
*not* mapped in the current address spaces' set of target
sections --- those should come only from pure executable or
shared library bfds. The core bfd sections are an implementation
detail of the core target, just like ptrace is for unix child
targets. */
target_section_table m_core_section_table {};
/* FIXME: kettenis/20031023: Eventually this field should
disappear. */
struct gdbarch *m_core_gdbarch = NULL;
};
core_target::core_target ()
{
m_core_gdbarch = gdbarch_from_bfd (core_bfd);
if (!m_core_gdbarch
|| !gdbarch_iterate_over_regset_sections_p (m_core_gdbarch))
error (_("\"%s\": Core file format not supported"),
bfd_get_filename (core_bfd));
/* Find the data section */
if (build_section_table (core_bfd,
&m_core_section_table.sections,
&m_core_section_table.sections_end))
error (_("\"%s\": Can't find sections: %s"),
bfd_get_filename (core_bfd), bfd_errmsg (bfd_get_error ()));
}
core_target::~core_target ()
{
xfree (m_core_section_table.sections);
}
static void add_to_thread_list (bfd *, asection *, void *);
/* An arbitrary identifier for the core inferior. */
#define CORELOW_PID 1
/* Close the core target. */
void
core_target::close ()
{
if (core_bfd)
{
inferior_ptid = null_ptid; /* Avoid confusion from thread
stuff. */
exit_inferior_silent (current_inferior ());
/* Clear out solib state while the bfd is still open. See
comments in clear_solib in solib.c. */
clear_solib ();
current_program_space->cbfd.reset (nullptr);
}
/* Core targets are heap-allocated (see core_target_open), so here
we delete ourselves. */
delete this;
}
/* Look for sections whose names start with `.reg/' so that we can
extract the list of threads in a core file. */
static void
add_to_thread_list (bfd *abfd, asection *asect, void *reg_sect_arg)
{
ptid_t ptid;
int core_tid;
int pid, lwpid;
asection *reg_sect = (asection *) reg_sect_arg;
bool fake_pid_p = false;
struct inferior *inf;
if (!startswith (bfd_section_name (asect), ".reg/"))
return;
core_tid = atoi (bfd_section_name (asect) + 5);
pid = bfd_core_file_pid (core_bfd);
if (pid == 0)
{
fake_pid_p = true;
pid = CORELOW_PID;
}
lwpid = core_tid;
inf = current_inferior ();
if (inf->pid == 0)
{
inferior_appeared (inf, pid);
inf->fake_pid_p = fake_pid_p;
}
ptid = ptid_t (pid, lwpid, 0);
add_thread (inf->process_target (), ptid);
/* Warning, Will Robinson, looking at BFD private data! */
if (reg_sect != NULL
&& asect->filepos == reg_sect->filepos) /* Did we find .reg? */
inferior_ptid = ptid; /* Yes, make it current. */
}
/* Issue a message saying we have no core to debug, if FROM_TTY. */
static void
maybe_say_no_core_file_now (int from_tty)
{
if (from_tty)
printf_filtered (_("No core file now.\n"));
}
/* Backward compatibility with old way of specifying core files. */
void
core_file_command (const char *filename, int from_tty)
{
dont_repeat (); /* Either way, seems bogus. */
if (filename == NULL)
{
if (core_bfd != NULL)
{
target_detach (current_inferior (), from_tty);
gdb_assert (core_bfd == NULL);
}
else
maybe_say_no_core_file_now (from_tty);
}
else
core_target_open (filename, from_tty);
}
/* Locate (and load) an executable file (and symbols) given the core file
BFD ABFD. */
static void
locate_exec_from_corefile_build_id (bfd *abfd, int from_tty)
{
const bfd_build_id *build_id = build_id_bfd_get (abfd);
if (build_id == nullptr)
return;
gdb_bfd_ref_ptr execbfd
= build_id_to_exec_bfd (build_id->size, build_id->data);
if (execbfd != nullptr)
{
exec_file_attach (bfd_get_filename (execbfd.get ()), from_tty);
symbol_file_add_main (bfd_get_filename (execbfd.get ()),
symfile_add_flag (from_tty ? SYMFILE_VERBOSE : 0));
}
}
/* See gdbcore.h. */
void
core_target_open (const char *arg, int from_tty)
{
const char *p;
int siggy;
int scratch_chan;
int flags;
target_preopen (from_tty);
if (!arg)
{
if (core_bfd)
error (_("No core file specified. (Use `detach' "
"to stop debugging a core file.)"));
else
error (_("No core file specified."));
}
gdb::unique_xmalloc_ptr<char> filename (tilde_expand (arg));
if (!IS_ABSOLUTE_PATH (filename.get ()))
filename = gdb_abspath (filename.get ());
flags = O_BINARY | O_LARGEFILE;
if (write_files)
flags |= O_RDWR;
else
flags |= O_RDONLY;
scratch_chan = gdb_open_cloexec (filename.get (), flags, 0);
if (scratch_chan < 0)
perror_with_name (filename.get ());
gdb_bfd_ref_ptr temp_bfd (gdb_bfd_fopen (filename.get (), gnutarget,
write_files ? FOPEN_RUB : FOPEN_RB,
scratch_chan));
if (temp_bfd == NULL)
perror_with_name (filename.get ());
if (!bfd_check_format (temp_bfd.get (), bfd_core))
{
/* Do it after the err msg */
/* FIXME: should be checking for errors from bfd_close (for one
thing, on error it does not free all the storage associated
with the bfd). */
error (_("\"%s\" is not a core dump: %s"),
filename.get (), bfd_errmsg (bfd_get_error ()));
}
current_program_space->cbfd = std::move (temp_bfd);
core_target *target = new core_target ();
/* Own the target until it is successfully pushed. */
target_ops_up target_holder (target);
validate_files ();
/* If we have no exec file, try to set the architecture from the
core file. We don't do this unconditionally since an exec file
typically contains more information that helps us determine the
architecture than a core file. */
if (!exec_bfd)
set_gdbarch_from_file (core_bfd);
push_target (std::move (target_holder));
inferior_ptid = null_ptid;
/* Need to flush the register cache (and the frame cache) from a
previous debug session. If inferior_ptid ends up the same as the
last debug session --- e.g., b foo; run; gcore core1; step; gcore
core2; core core1; core core2 --- then there's potential for
get_current_regcache to return the cached regcache of the
previous session, and the frame cache being stale. */
registers_changed ();
/* Build up thread list from BFD sections, and possibly set the
current thread to the .reg/NN section matching the .reg
section. */
bfd_map_over_sections (core_bfd, add_to_thread_list,
bfd_get_section_by_name (core_bfd, ".reg"));
if (inferior_ptid == null_ptid)
{
/* Either we found no .reg/NN section, and hence we have a
non-threaded core (single-threaded, from gdb's perspective),
or for some reason add_to_thread_list couldn't determine
which was the "main" thread. The latter case shouldn't
usually happen, but we're dealing with input here, which can
always be broken in different ways. */
thread_info *thread = first_thread_of_inferior (current_inferior ());
if (thread == NULL)
{
inferior_appeared (current_inferior (), CORELOW_PID);
inferior_ptid = ptid_t (CORELOW_PID);
add_thread_silent (target, inferior_ptid);
}
else
switch_to_thread (thread);
}
if (exec_bfd == nullptr)
locate_exec_from_corefile_build_id (core_bfd, from_tty);
post_create_inferior (target, from_tty);
/* Now go through the target stack looking for threads since there
may be a thread_stratum target loaded on top of target core by
now. The layer above should claim threads found in the BFD
sections. */
try
{
target_update_thread_list ();
}
catch (const gdb_exception_error &except)
{
exception_print (gdb_stderr, except);
}
p = bfd_core_file_failing_command (core_bfd);
if (p)
printf_filtered (_("Core was generated by `%s'.\n"), p);
/* Clearing any previous state of convenience variables. */
clear_exit_convenience_vars ();
siggy = bfd_core_file_failing_signal (core_bfd);
if (siggy > 0)
{
gdbarch *core_gdbarch = target->core_gdbarch ();
/* If we don't have a CORE_GDBARCH to work with, assume a native
core (map gdb_signal from host signals). If we do have
CORE_GDBARCH to work with, but no gdb_signal_from_target
implementation for that gdbarch, as a fallback measure,
assume the host signal mapping. It'll be correct for native
cores, but most likely incorrect for cross-cores. */
enum gdb_signal sig = (core_gdbarch != NULL
&& gdbarch_gdb_signal_from_target_p (core_gdbarch)
? gdbarch_gdb_signal_from_target (core_gdbarch,
siggy)
: gdb_signal_from_host (siggy));
printf_filtered (_("Program terminated with signal %s, %s.\n"),
gdb_signal_to_name (sig), gdb_signal_to_string (sig));
/* Set the value of the internal variable $_exitsignal,
which holds the signal uncaught by the inferior. */
set_internalvar_integer (lookup_internalvar ("_exitsignal"),
siggy);
}
/* Fetch all registers from core file. */
target_fetch_registers (get_current_regcache (), -1);
/* Now, set up the frame cache, and print the top of stack. */
reinit_frame_cache ();
print_stack_frame (get_selected_frame (NULL), 1, SRC_AND_LOC, 1);
/* Current thread should be NUM 1 but the user does not know that.
If a program is single threaded gdb in general does not mention
anything about threads. That is why the test is >= 2. */
if (thread_count (target) >= 2)
{
try
{
thread_command (NULL, from_tty);
}
catch (const gdb_exception_error &except)
{
exception_print (gdb_stderr, except);
}
}
}
void
core_target::detach (inferior *inf, int from_tty)
{
/* Note that 'this' is dangling after this call. unpush_target
closes the target, and our close implementation deletes
'this'. */
unpush_target (this);
/* Clear the register cache and the frame cache. */
registers_changed ();
reinit_frame_cache ();
maybe_say_no_core_file_now (from_tty);
}
/* Try to retrieve registers from a section in core_bfd, and supply
them to REGSET.
If ptid's lwp member is zero, do the single-threaded
thing: look for a section named NAME. If ptid's lwp
member is non-zero, do the multi-threaded thing: look for a section
named "NAME/LWP", where LWP is the shortest ASCII decimal
representation of ptid's lwp member.
HUMAN_NAME is a human-readable name for the kind of registers the
NAME section contains, for use in error messages.
If REQUIRED is true, print an error if the core file doesn't have a
section by the appropriate name. Otherwise, just do nothing. */
void
core_target::get_core_register_section (struct regcache *regcache,
const struct regset *regset,
const char *name,
int section_min_size,
const char *human_name,
bool required)
{
gdb_assert (regset != nullptr);
struct bfd_section *section;
bfd_size_type size;
bool variable_size_section = (regset->flags & REGSET_VARIABLE_SIZE);
thread_section_name section_name (name, regcache->ptid ());
section = bfd_get_section_by_name (core_bfd, section_name.c_str ());
if (! section)
{
if (required)
warning (_("Couldn't find %s registers in core file."),
human_name);
return;
}
size = bfd_section_size (section);
if (size < section_min_size)
{
warning (_("Section `%s' in core file too small."),
section_name.c_str ());
return;
}
if (size != section_min_size && !variable_size_section)
{
warning (_("Unexpected size of section `%s' in core file."),
section_name.c_str ());
}
gdb::byte_vector contents (size);
if (!bfd_get_section_contents (core_bfd, section, contents.data (),
(file_ptr) 0, size))
{
warning (_("Couldn't read %s registers from `%s' section in core file."),
human_name, section_name.c_str ());
return;
}
regset->supply_regset (regset, regcache, -1, contents.data (), size);
}
/* Data passed to gdbarch_iterate_over_regset_sections's callback. */
struct get_core_registers_cb_data
{
core_target *target;
struct regcache *regcache;
};
/* Callback for get_core_registers that handles a single core file
register note section. */
static void
get_core_registers_cb (const char *sect_name, int supply_size, int collect_size,
const struct regset *regset,
const char *human_name, void *cb_data)
{
gdb_assert (regset != nullptr);
auto *data = (get_core_registers_cb_data *) cb_data;
bool required = false;
bool variable_size_section = (regset->flags & REGSET_VARIABLE_SIZE);
if (!variable_size_section)
gdb_assert (supply_size == collect_size);
if (strcmp (sect_name, ".reg") == 0)
{
required = true;
if (human_name == NULL)
human_name = "general-purpose";
}
else if (strcmp (sect_name, ".reg2") == 0)
{
if (human_name == NULL)
human_name = "floating-point";
}
data->target->get_core_register_section (data->regcache, regset, sect_name,
supply_size, human_name, required);
}
/* Get the registers out of a core file. This is the machine-
independent part. Fetch_core_registers is the machine-dependent
part, typically implemented in the xm-file for each
architecture. */
/* We just get all the registers, so we don't use regno. */
void
core_target::fetch_registers (struct regcache *regcache, int regno)
{
if (!(m_core_gdbarch != nullptr
&& gdbarch_iterate_over_regset_sections_p (m_core_gdbarch)))
{
fprintf_filtered (gdb_stderr,
"Can't fetch registers from this type of core file\n");
return;
}
struct gdbarch *gdbarch = regcache->arch ();
get_core_registers_cb_data data = { this, regcache };
gdbarch_iterate_over_regset_sections (gdbarch,
get_core_registers_cb,
(void *) &data, NULL);
/* Mark all registers not found in the core as unavailable. */
for (int i = 0; i < gdbarch_num_regs (regcache->arch ()); i++)
if (regcache->get_register_status (i) == REG_UNKNOWN)
regcache->raw_supply (i, NULL);
}
void
core_target::files_info ()
{
print_section_info (&m_core_section_table, core_bfd);
}
enum target_xfer_status
core_target::xfer_partial (enum target_object object, const char *annex,
gdb_byte *readbuf, const gdb_byte *writebuf,
ULONGEST offset, ULONGEST len, ULONGEST *xfered_len)
{
switch (object)
{
case TARGET_OBJECT_MEMORY:
return (section_table_xfer_memory_partial
(readbuf, writebuf,
offset, len, xfered_len,
m_core_section_table.sections,
m_core_section_table.sections_end,
NULL));
case TARGET_OBJECT_AUXV:
if (readbuf)
{
/* When the aux vector is stored in core file, BFD
represents this with a fake section called ".auxv". */
struct bfd_section *section;
bfd_size_type size;
section = bfd_get_section_by_name (core_bfd, ".auxv");
if (section == NULL)
return TARGET_XFER_E_IO;
size = bfd_section_size (section);
if (offset >= size)
return TARGET_XFER_EOF;
size -= offset;
if (size > len)
size = len;
if (size == 0)
return TARGET_XFER_EOF;
if (!bfd_get_section_contents (core_bfd, section, readbuf,
(file_ptr) offset, size))
{
warning (_("Couldn't read NT_AUXV note in core file."));
return TARGET_XFER_E_IO;
}
*xfered_len = (ULONGEST) size;
return TARGET_XFER_OK;
}
return TARGET_XFER_E_IO;
case TARGET_OBJECT_WCOOKIE:
if (readbuf)
{
/* When the StackGhost cookie is stored in core file, BFD
represents this with a fake section called
".wcookie". */
struct bfd_section *section;
bfd_size_type size;
section = bfd_get_section_by_name (core_bfd, ".wcookie");
if (section == NULL)
return TARGET_XFER_E_IO;
size = bfd_section_size (section);
if (offset >= size)
return TARGET_XFER_EOF;
size -= offset;
if (size > len)
size = len;
if (size == 0)
return TARGET_XFER_EOF;
if (!bfd_get_section_contents (core_bfd, section, readbuf,
(file_ptr) offset, size))
{
warning (_("Couldn't read StackGhost cookie in core file."));
return TARGET_XFER_E_IO;
}
*xfered_len = (ULONGEST) size;
return TARGET_XFER_OK;
}
return TARGET_XFER_E_IO;
case TARGET_OBJECT_LIBRARIES:
if (m_core_gdbarch != nullptr
&& gdbarch_core_xfer_shared_libraries_p (m_core_gdbarch))
{
if (writebuf)
return TARGET_XFER_E_IO;
else
{
*xfered_len = gdbarch_core_xfer_shared_libraries (m_core_gdbarch,
readbuf,
offset, len);
if (*xfered_len == 0)
return TARGET_XFER_EOF;
else
return TARGET_XFER_OK;
}
}
/* FALL THROUGH */
case TARGET_OBJECT_LIBRARIES_AIX:
if (m_core_gdbarch != nullptr
&& gdbarch_core_xfer_shared_libraries_aix_p (m_core_gdbarch))
{
if (writebuf)
return TARGET_XFER_E_IO;
else
{
*xfered_len
= gdbarch_core_xfer_shared_libraries_aix (m_core_gdbarch,
readbuf, offset,
len);
if (*xfered_len == 0)
return TARGET_XFER_EOF;
else
return TARGET_XFER_OK;
}
}
/* FALL THROUGH */
case TARGET_OBJECT_SIGNAL_INFO:
if (readbuf)
{
if (m_core_gdbarch != nullptr
&& gdbarch_core_xfer_siginfo_p (m_core_gdbarch))
{
LONGEST l = gdbarch_core_xfer_siginfo (m_core_gdbarch, readbuf,
offset, len);
if (l >= 0)
{
*xfered_len = l;
if (l == 0)
return TARGET_XFER_EOF;
else
return TARGET_XFER_OK;
}
}
}
return TARGET_XFER_E_IO;
default:
return this->beneath ()->xfer_partial (object, annex, readbuf,
writebuf, offset, len,
xfered_len);
}
}
/* Okay, let's be honest: threads gleaned from a core file aren't
exactly lively, are they? On the other hand, if we don't claim
that each & every one is alive, then we don't get any of them
to appear in an "info thread" command, which is quite a useful
behaviour.
*/
bool
core_target::thread_alive (ptid_t ptid)
{
return true;
}
/* Ask the current architecture what it knows about this core file.
That will be used, in turn, to pick a better architecture. This
wrapper could be avoided if targets got a chance to specialize
core_target. */
const struct target_desc *
core_target::read_description ()
{
if (m_core_gdbarch && gdbarch_core_read_description_p (m_core_gdbarch))
{
const struct target_desc *result;
result = gdbarch_core_read_description (m_core_gdbarch, this, core_bfd);
if (result != NULL)
return result;
}
return this->beneath ()->read_description ();
}
std::string
core_target::pid_to_str (ptid_t ptid)
{
struct inferior *inf;
int pid;
/* The preferred way is to have a gdbarch/OS specific
implementation. */
if (m_core_gdbarch != nullptr
&& gdbarch_core_pid_to_str_p (m_core_gdbarch))
return gdbarch_core_pid_to_str (m_core_gdbarch, ptid);
/* Otherwise, if we don't have one, we'll just fallback to
"process", with normal_pid_to_str. */
/* Try the LWPID field first. */
pid = ptid.lwp ();
if (pid != 0)
return normal_pid_to_str (ptid_t (pid));
/* Otherwise, this isn't a "threaded" core -- use the PID field, but
only if it isn't a fake PID. */
inf = find_inferior_ptid (this, ptid);
if (inf != NULL && !inf->fake_pid_p)
return normal_pid_to_str (ptid);
/* No luck. We simply don't have a valid PID to print. */
return "<main task>";
}
const char *
core_target::thread_name (struct thread_info *thr)
{
if (m_core_gdbarch != nullptr
&& gdbarch_core_thread_name_p (m_core_gdbarch))
return gdbarch_core_thread_name (m_core_gdbarch, thr);
return NULL;
}
bool
core_target::has_memory ()
{
return (core_bfd != NULL);
}
bool
core_target::has_stack ()
{
return (core_bfd != NULL);
}
bool
core_target::has_registers ()
{
return (core_bfd != NULL);
}
/* Implement the to_info_proc method. */
bool
core_target::info_proc (const char *args, enum info_proc_what request)
{
struct gdbarch *gdbarch = get_current_arch ();
/* Since this is the core file target, call the 'core_info_proc'
method on gdbarch, not 'info_proc'. */
if (gdbarch_core_info_proc_p (gdbarch))
gdbarch_core_info_proc (gdbarch, args, request);
return true;
}
void _initialize_corelow ();
void
_initialize_corelow ()
{
add_target (core_target_info, core_target_open, filename_completer);
}
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