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|
/* Fork a Unix child process, and set up to debug it, for GDB and GDBserver.
Copyright (C) 1990-2019 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 "common-defs.h"
#include "fork-inferior.h"
#include "target/waitstatus.h"
#include "filestuff.h"
#include "target/target.h"
#include "common-inferior.h"
#include "common-gdbthread.h"
#include "common/pathstuff.h"
#include "signals-state-save-restore.h"
#include "gdb_tilde_expand.h"
#include <vector>
extern char **environ;
/* Build the argument vector for execv(3). */
class execv_argv
{
public:
/* EXEC_FILE is the file to run. ALLARGS is a string containing the
arguments to the program. If starting with a shell, SHELL_FILE
is the shell to run. Otherwise, SHELL_FILE is NULL. */
execv_argv (const char *exec_file, const std::string &allargs,
const char *shell_file);
/* Return a pointer to the built argv, in the type expected by
execv. The result is (only) valid for as long as this execv_argv
object is live. We return a "char **" because that's the type
that the execv functions expect. Note that it is guaranteed that
the execv functions do not modify the argv[] array nor the
strings to which the array point. */
char **argv ()
{
return const_cast<char **> (&m_argv[0]);
}
private:
DISABLE_COPY_AND_ASSIGN (execv_argv);
/* Helper methods for constructing the argument vector. */
/* Used when building an argv for a straight execv call, without
going via the shell. */
void init_for_no_shell (const char *exec_file,
const std::string &allargs);
/* Used when building an argv for execing a shell that execs the
child program. */
void init_for_shell (const char *exec_file,
const std::string &allargs,
const char *shell_file);
/* The argument vector built. Holds non-owning pointers. Elements
either point to the strings passed to the execv_argv ctor, or
inside M_STORAGE. */
std::vector<const char *> m_argv;
/* Storage. In the no-shell case, this contains a copy of the
arguments passed to the ctor, split by '\0'. In the shell case,
this contains the quoted shell command. I.e., SHELL_COMMAND in
{"$SHELL" "-c", SHELL_COMMAND, NULL}. */
std::string m_storage;
};
/* Create argument vector for straight call to execvp. Breaks up
ALLARGS into an argument vector suitable for passing to execvp and
stores it in M_ARGV. E.g., on "run a b c d" this routine would get
as input the string "a b c d", and as output it would fill in
M_ARGV with the four arguments "a", "b", "c", "d". Each argument
in M_ARGV points to a substring of a copy of ALLARGS stored in
M_STORAGE. */
void
execv_argv::init_for_no_shell (const char *exec_file,
const std::string &allargs)
{
/* Save/work with a copy stored in our storage. The pointers pushed
to M_ARGV point directly into M_STORAGE, which is modified in
place with the necessary NULL terminators. This avoids N heap
allocations and string dups when 1 is sufficient. */
std::string &args_copy = m_storage = allargs;
m_argv.push_back (exec_file);
for (size_t cur_pos = 0; cur_pos < args_copy.size ();)
{
/* Skip whitespace-like chars. */
std::size_t pos = args_copy.find_first_not_of (" \t\n", cur_pos);
if (pos != std::string::npos)
cur_pos = pos;
/* Find the position of the next separator. */
std::size_t next_sep = args_copy.find_first_of (" \t\n", cur_pos);
if (next_sep == std::string::npos)
{
/* No separator found, which means this is the last
argument. */
next_sep = args_copy.size ();
}
else
{
/* Replace the separator with a terminator. */
args_copy[next_sep++] = '\0';
}
m_argv.push_back (&args_copy[cur_pos]);
cur_pos = next_sep;
}
/* NULL-terminate the vector. */
m_argv.push_back (NULL);
}
/* When executing a command under the given shell, return true if the
'!' character should be escaped when embedded in a quoted
command-line argument. */
static bool
escape_bang_in_quoted_argument (const char *shell_file)
{
size_t shell_file_len = strlen (shell_file);
/* Bang should be escaped only in C Shells. For now, simply check
that the shell name ends with 'csh', which covers at least csh
and tcsh. This should be good enough for now. */
if (shell_file_len < 3)
return false;
if (shell_file[shell_file_len - 3] == 'c'
&& shell_file[shell_file_len - 2] == 's'
&& shell_file[shell_file_len - 1] == 'h')
return true;
return false;
}
/* See declaration. */
execv_argv::execv_argv (const char *exec_file,
const std::string &allargs,
const char *shell_file)
{
if (shell_file == NULL)
init_for_no_shell (exec_file, allargs);
else
init_for_shell (exec_file, allargs, shell_file);
}
/* See declaration. */
void
execv_argv::init_for_shell (const char *exec_file,
const std::string &allargs,
const char *shell_file)
{
const char *exec_wrapper = get_exec_wrapper ();
/* We're going to call a shell. */
bool escape_bang = escape_bang_in_quoted_argument (shell_file);
/* We need to build a new shell command string, and make argv point
to it. So build it in the storage. */
std::string &shell_command = m_storage;
shell_command = "exec ";
/* Add any exec wrapper. That may be a program name with arguments,
so the user must handle quoting. */
if (exec_wrapper != NULL)
{
shell_command += exec_wrapper;
shell_command += ' ';
}
/* Now add exec_file, quoting as necessary. */
/* Quoting in this style is said to work with all shells. But csh
on IRIX 4.0.1 can't deal with it. So we only quote it if we need
to. */
bool need_to_quote;
const char *p = exec_file;
while (1)
{
switch (*p)
{
case '\'':
case '!':
case '"':
case '(':
case ')':
case '$':
case '&':
case ';':
case '<':
case '>':
case ' ':
case '\n':
case '\t':
need_to_quote = true;
goto end_scan;
case '\0':
need_to_quote = false;
goto end_scan;
default:
break;
}
++p;
}
end_scan:
if (need_to_quote)
{
shell_command += '\'';
for (p = exec_file; *p != '\0'; ++p)
{
if (*p == '\'')
shell_command += "'\\''";
else if (*p == '!' && escape_bang)
shell_command += "\\!";
else
shell_command += *p;
}
shell_command += '\'';
}
else
shell_command += exec_file;
shell_command += ' ' + allargs;
/* If we decided above to start up with a shell, we exec the shell.
"-c" says to interpret the next arg as a shell command to
execute, and this command is "exec <target-program> <args>". */
m_argv.reserve (4);
m_argv.push_back (shell_file);
m_argv.push_back ("-c");
m_argv.push_back (shell_command.c_str ());
m_argv.push_back (NULL);
}
/* See nat/fork-inferior.h. */
pid_t
fork_inferior (const char *exec_file_arg, const std::string &allargs,
char **env, void (*traceme_fun) (),
void (*init_trace_fun) (int), void (*pre_trace_fun) (),
const char *shell_file_arg,
void (*exec_fun)(const char *file, char * const *argv,
char * const *env))
{
pid_t pid;
/* Set debug_fork then attach to the child while it sleeps, to debug. */
int debug_fork = 0;
const char *shell_file;
const char *exec_file;
char **save_our_env;
int i;
int save_errno;
const char *inferior_cwd;
std::string expanded_inferior_cwd;
/* If no exec file handed to us, get it from the exec-file command
-- with a good, common error message if none is specified. */
if (exec_file_arg == NULL)
exec_file = get_exec_file (1);
else
exec_file = exec_file_arg;
/* 'startup_with_shell' is declared in inferior.h and bound to the
"set startup-with-shell" option. If 0, we'll just do a
fork/exec, no shell, so don't bother figuring out what shell. */
if (startup_with_shell)
{
shell_file = shell_file_arg;
/* Figure out what shell to start up the user program under. */
if (shell_file == NULL)
shell_file = get_shell ();
gdb_assert (shell_file != NULL);
}
else
shell_file = NULL;
/* Build the argument vector. */
execv_argv child_argv (exec_file, allargs, shell_file);
/* Retain a copy of our environment variables, since the child will
replace the value of environ and if we're vforked, we have to
restore it. */
save_our_env = environ;
/* Perform any necessary actions regarding to TTY before the
fork/vfork call. */
prefork_hook (allargs.c_str ());
/* It is generally good practice to flush any possible pending stdio
output prior to doing a fork, to avoid the possibility of both
the parent and child flushing the same data after the fork. */
gdb_flush_out_err ();
/* Check if the user wants to set a different working directory for
the inferior. */
inferior_cwd = get_inferior_cwd ();
if (inferior_cwd != NULL)
{
/* Expand before forking because between fork and exec, the child
process may only execute async-signal-safe operations. */
expanded_inferior_cwd = gdb_tilde_expand (inferior_cwd);
inferior_cwd = expanded_inferior_cwd.c_str ();
}
/* If there's any initialization of the target layers that must
happen to prepare to handle the child we're about fork, do it
now... */
if (pre_trace_fun != NULL)
(*pre_trace_fun) ();
/* Create the child process. Since the child process is going to
exec(3) shortly afterwards, try to reduce the overhead by
calling vfork(2). However, if PRE_TRACE_FUN is non-null, it's
likely that this optimization won't work since there's too much
work to do between the vfork(2) and the exec(3). This is known
to be the case on ttrace(2)-based HP-UX, where some handshaking
between parent and child needs to happen between fork(2) and
exec(2). However, since the parent is suspended in the vforked
state, this doesn't work. Also note that the vfork(2) call might
actually be a call to fork(2) due to the fact that autoconf will
``#define vfork fork'' on certain platforms. */
#if !(defined(__UCLIBC__) && defined(HAS_NOMMU))
if (pre_trace_fun || debug_fork)
pid = fork ();
else
#endif
pid = vfork ();
if (pid < 0)
perror_with_name (("vfork"));
if (pid == 0)
{
/* Close all file descriptors except those that gdb inherited
(usually 0/1/2), so they don't leak to the inferior. Note
that this closes the file descriptors of all secondary
UIs. */
close_most_fds ();
/* Change to the requested working directory if the user
requested it. */
if (inferior_cwd != NULL)
{
if (chdir (inferior_cwd) < 0)
trace_start_error_with_name (inferior_cwd);
}
if (debug_fork)
sleep (debug_fork);
/* Execute any necessary post-fork actions before we exec. */
postfork_child_hook ();
/* Changing the signal handlers for the inferior after
a vfork can also change them for the superior, so we don't mess
with signals here. See comments in
initialize_signals for how we get the right signal handlers
for the inferior. */
/* "Trace me, Dr. Memory!" */
(*traceme_fun) ();
/* The call above set this process (the "child") as debuggable
by the original gdb process (the "parent"). Since processes
(unlike people) can have only one parent, if you are debugging
gdb itself (and your debugger is thus _already_ the
controller/parent for this child), code from here on out is
undebuggable. Indeed, you probably got an error message
saying "not parent". Sorry; you'll have to use print
statements! */
restore_original_signals_state ();
/* There is no execlpe call, so we have to set the environment
for our child in the global variable. If we've vforked, this
clobbers the parent, but environ is restored a few lines down
in the parent. By the way, yes we do need to look down the
path to find $SHELL. Rich Pixley says so, and I agree. */
environ = env;
char **argv = child_argv.argv ();
if (exec_fun != NULL)
(*exec_fun) (argv[0], &argv[0], env);
else
execvp (argv[0], &argv[0]);
/* If we get here, it's an error. */
save_errno = errno;
warning ("Cannot exec %s", argv[0]);
for (i = 1; argv[i] != NULL; i++)
warning (" %s", argv[i]);
warning ("Error: %s\n", safe_strerror (save_errno));
_exit (0177);
}
/* Restore our environment in case a vforked child clob'd it. */
environ = save_our_env;
postfork_hook (pid);
/* Now that we have a child process, make it our target, and
initialize anything target-vector-specific that needs
initializing. */
if (init_trace_fun)
(*init_trace_fun) (pid);
/* We are now in the child process of interest, having exec'd the
correct program, and are poised at the first instruction of the
new program. */
return pid;
}
/* See nat/fork-inferior.h. */
ptid_t
startup_inferior (pid_t pid, int ntraps,
struct target_waitstatus *last_waitstatus,
ptid_t *last_ptid)
{
int pending_execs = ntraps;
int terminal_initted = 0;
ptid_t resume_ptid;
if (startup_with_shell)
{
/* One trap extra for exec'ing the shell. */
pending_execs++;
}
if (target_supports_multi_process ())
resume_ptid = ptid_t (pid);
else
resume_ptid = minus_one_ptid;
/* The process was started by the fork that created it, but it will
have stopped one instruction after execing the shell. Here we
must get it up to actual execution of the real program. */
if (get_exec_wrapper () != NULL)
pending_execs++;
while (1)
{
enum gdb_signal resume_signal = GDB_SIGNAL_0;
ptid_t event_ptid;
struct target_waitstatus ws;
memset (&ws, 0, sizeof (ws));
event_ptid = target_wait (resume_ptid, &ws, 0);
if (last_waitstatus != NULL)
*last_waitstatus = ws;
if (last_ptid != NULL)
*last_ptid = event_ptid;
if (ws.kind == TARGET_WAITKIND_IGNORE)
/* The inferior didn't really stop, keep waiting. */
continue;
switch (ws.kind)
{
case TARGET_WAITKIND_SPURIOUS:
case TARGET_WAITKIND_LOADED:
case TARGET_WAITKIND_FORKED:
case TARGET_WAITKIND_VFORKED:
case TARGET_WAITKIND_SYSCALL_ENTRY:
case TARGET_WAITKIND_SYSCALL_RETURN:
/* Ignore gracefully during startup of the inferior. */
switch_to_thread (event_ptid);
break;
case TARGET_WAITKIND_SIGNALLED:
target_terminal::ours ();
target_mourn_inferior (event_ptid);
error (_("During startup program terminated with signal %s, %s."),
gdb_signal_to_name (ws.value.sig),
gdb_signal_to_string (ws.value.sig));
return resume_ptid;
case TARGET_WAITKIND_EXITED:
target_terminal::ours ();
target_mourn_inferior (event_ptid);
if (ws.value.integer)
error (_("During startup program exited with code %d."),
ws.value.integer);
else
error (_("During startup program exited normally."));
return resume_ptid;
case TARGET_WAITKIND_EXECD:
/* Handle EXEC signals as if they were SIGTRAP signals. */
xfree (ws.value.execd_pathname);
resume_signal = GDB_SIGNAL_TRAP;
switch_to_thread (event_ptid);
break;
case TARGET_WAITKIND_STOPPED:
resume_signal = ws.value.sig;
switch_to_thread (event_ptid);
break;
}
if (resume_signal != GDB_SIGNAL_TRAP)
{
/* Let shell child handle its own signals in its own way. */
target_continue (resume_ptid, resume_signal);
}
else
{
/* We handle SIGTRAP, however; it means child did an exec. */
if (!terminal_initted)
{
/* Now that the child has exec'd we know it has already
set its process group. On POSIX systems, tcsetpgrp
will fail with EPERM if we try it before the child's
setpgid. */
/* Set up the "saved terminal modes" of the inferior
based on what modes we are starting it with. */
target_terminal::init ();
/* Install inferior's terminal modes. */
target_terminal::inferior ();
terminal_initted = 1;
}
if (--pending_execs == 0)
break;
/* Just make it go on. */
target_continue_no_signal (resume_ptid);
}
}
return resume_ptid;
}
/* See nat/fork-inferior.h. */
void
trace_start_error (const char *fmt, ...)
{
va_list ap;
va_start (ap, fmt);
warning ("Could not trace the inferior process.\nError: ");
vwarning (fmt, ap);
va_end (ap);
gdb_flush_out_err ();
_exit (0177);
}
/* See nat/fork-inferior.h. */
void
trace_start_error_with_name (const char *string)
{
trace_start_error ("%s: %s", string, safe_strerror (errno));
}
|