binutils-gdb/gdb/tid-parse.c
Simon Marchi 557b4d7650 gdbsupport: make gdb_assert_not_reached accept a format string
Change gdb_assert_not_reached to accept a format string plus
corresponding arguments.  This allows giving more precise messages.

Because the format string passed by the caller is prepended with a "%s:"
to add the function name, the callers can no longer pass a translated
string (`_(...)`).  Make the gdb_assert_not_reached include the _(),
just like the gdb_assert_fail macro just above.

Change-Id: Id0cfda5a57979df6cdaacaba0d55dd91ae9efee7
2021-11-18 11:29:19 -05:00

340 lines
7.6 KiB
C

/* TID parsing for GDB, the GNU debugger.
Copyright (C) 2015-2021 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 "tid-parse.h"
#include "inferior.h"
#include "gdbthread.h"
#include <ctype.h>
/* See tid-parse.h. */
void ATTRIBUTE_NORETURN
invalid_thread_id_error (const char *string)
{
error (_("Invalid thread ID: %s"), string);
}
/* Wrapper for get_number_trailer that throws an error if we get back
a negative number. We'll see a negative value if the number is
stored in a negative convenience variable (e.g., $minus_one = -1).
STRING is the parser string to be used in the error message if we
do get back a negative number. */
static int
get_positive_number_trailer (const char **pp, int trailer, const char *string)
{
int num;
num = get_number_trailer (pp, trailer);
if (num < 0)
error (_("negative value: %s"), string);
return num;
}
/* See tid-parse.h. */
struct thread_info *
parse_thread_id (const char *tidstr, const char **end)
{
const char *number = tidstr;
const char *dot, *p1;
struct inferior *inf;
int thr_num;
int explicit_inf_id = 0;
dot = strchr (number, '.');
if (dot != NULL)
{
/* Parse number to the left of the dot. */
int inf_num;
p1 = number;
inf_num = get_positive_number_trailer (&p1, '.', number);
if (inf_num == 0)
invalid_thread_id_error (number);
inf = find_inferior_id (inf_num);
if (inf == NULL)
error (_("No inferior number '%d'"), inf_num);
explicit_inf_id = 1;
p1 = dot + 1;
}
else
{
inf = current_inferior ();
p1 = number;
}
thr_num = get_positive_number_trailer (&p1, 0, number);
if (thr_num == 0)
invalid_thread_id_error (number);
thread_info *tp = nullptr;
for (thread_info *it : inf->threads ())
if (it->per_inf_num == thr_num)
{
tp = it;
break;
}
if (tp == NULL)
{
if (show_inferior_qualified_tids () || explicit_inf_id)
error (_("Unknown thread %d.%d."), inf->num, thr_num);
else
error (_("Unknown thread %d."), thr_num);
}
if (end != NULL)
*end = p1;
return tp;
}
/* See tid-parse.h. */
tid_range_parser::tid_range_parser (const char *tidlist,
int default_inferior)
{
init (tidlist, default_inferior);
}
/* See tid-parse.h. */
void
tid_range_parser::init (const char *tidlist, int default_inferior)
{
m_state = STATE_INFERIOR;
m_cur_tok = tidlist;
m_inf_num = 0;
m_qualified = false;
m_default_inferior = default_inferior;
}
/* See tid-parse.h. */
bool
tid_range_parser::finished () const
{
switch (m_state)
{
case STATE_INFERIOR:
/* Parsing is finished when at end of string or null string,
or we are not in a range and not in front of an integer, negative
integer, convenience var or negative convenience var. */
return (*m_cur_tok == '\0'
|| !(isdigit (*m_cur_tok)
|| *m_cur_tok == '$'
|| *m_cur_tok == '*'));
case STATE_THREAD_RANGE:
case STATE_STAR_RANGE:
return m_range_parser.finished ();
}
gdb_assert_not_reached ("unhandled state");
}
/* See tid-parse.h. */
const char *
tid_range_parser::cur_tok () const
{
switch (m_state)
{
case STATE_INFERIOR:
return m_cur_tok;
case STATE_THREAD_RANGE:
case STATE_STAR_RANGE:
return m_range_parser.cur_tok ();
}
gdb_assert_not_reached ("unhandled state");
}
void
tid_range_parser::skip_range ()
{
gdb_assert (m_state == STATE_THREAD_RANGE
|| m_state == STATE_STAR_RANGE);
m_range_parser.skip_range ();
init (m_range_parser.cur_tok (), m_default_inferior);
}
/* See tid-parse.h. */
bool
tid_range_parser::tid_is_qualified () const
{
return m_qualified;
}
/* Helper for tid_range_parser::get_tid and
tid_range_parser::get_tid_range. Return the next range if THR_END
is non-NULL, return a single thread ID otherwise. */
bool
tid_range_parser::get_tid_or_range (int *inf_num,
int *thr_start, int *thr_end)
{
if (m_state == STATE_INFERIOR)
{
const char *p;
const char *space;
space = skip_to_space (m_cur_tok);
p = m_cur_tok;
while (p < space && *p != '.')
p++;
if (p < space)
{
const char *dot = p;
/* Parse number to the left of the dot. */
p = m_cur_tok;
m_inf_num = get_positive_number_trailer (&p, '.', m_cur_tok);
if (m_inf_num == 0)
return 0;
m_qualified = true;
p = dot + 1;
if (isspace (*p))
return false;
}
else
{
m_inf_num = m_default_inferior;
m_qualified = false;
p = m_cur_tok;
}
m_range_parser.init (p);
if (p[0] == '*' && (p[1] == '\0' || isspace (p[1])))
{
/* Setup the number range parser to return numbers in the
whole [1,INT_MAX] range. */
m_range_parser.setup_range (1, INT_MAX, skip_spaces (p + 1));
m_state = STATE_STAR_RANGE;
}
else
m_state = STATE_THREAD_RANGE;
}
*inf_num = m_inf_num;
*thr_start = m_range_parser.get_number ();
if (*thr_start < 0)
error (_("negative value: %s"), m_cur_tok);
if (*thr_start == 0)
{
m_state = STATE_INFERIOR;
return false;
}
/* If we successfully parsed a thread number or finished parsing a
thread range, switch back to assuming the next TID is
inferior-qualified. */
if (!m_range_parser.in_range ())
{
m_state = STATE_INFERIOR;
m_cur_tok = m_range_parser.cur_tok ();
if (thr_end != NULL)
*thr_end = *thr_start;
}
/* If we're midway through a range, and the caller wants the end
value, return it and skip to the end of the range. */
if (thr_end != NULL
&& (m_state == STATE_THREAD_RANGE
|| m_state == STATE_STAR_RANGE))
{
*thr_end = m_range_parser.end_value ();
skip_range ();
}
return (*inf_num != 0 && *thr_start != 0);
}
/* See tid-parse.h. */
bool
tid_range_parser::get_tid_range (int *inf_num,
int *thr_start, int *thr_end)
{
gdb_assert (inf_num != NULL && thr_start != NULL && thr_end != NULL);
return get_tid_or_range (inf_num, thr_start, thr_end);
}
/* See tid-parse.h. */
bool
tid_range_parser::get_tid (int *inf_num, int *thr_num)
{
gdb_assert (inf_num != NULL && thr_num != NULL);
return get_tid_or_range (inf_num, thr_num, NULL);
}
/* See tid-parse.h. */
bool
tid_range_parser::in_star_range () const
{
return m_state == STATE_STAR_RANGE;
}
bool
tid_range_parser::in_thread_range () const
{
return m_state == STATE_THREAD_RANGE;
}
/* See tid-parse.h. */
int
tid_is_in_list (const char *list, int default_inferior,
int inf_num, int thr_num)
{
if (list == NULL || *list == '\0')
return 1;
tid_range_parser parser (list, default_inferior);
if (parser.finished ())
invalid_thread_id_error (parser.cur_tok ());
while (!parser.finished ())
{
int tmp_inf, tmp_thr_start, tmp_thr_end;
if (!parser.get_tid_range (&tmp_inf, &tmp_thr_start, &tmp_thr_end))
invalid_thread_id_error (parser.cur_tok ());
if (tmp_inf == inf_num
&& tmp_thr_start <= thr_num && thr_num <= tmp_thr_end)
return 1;
}
return 0;
}