prog_stream.c
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/* GNU Mailutils -- a suite of utilities for electronic mail
Copyright (C) 2009, 2010 Free Software Foundation, Inc.
This library is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
This library 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with GNU Mailutils. If not, see <http://www.gnu.org/licenses/>. */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/wait.h>
#include <string.h>
#include <stdlib.h>
#include <unistd.h>
#include <fcntl.h>
#include <syslog.h>
#include <mailutils/types.h>
#include <mailutils/alloc.h>
#include <mailutils/argcv.h>
#include <mailutils/wordsplit.h>
#include <mailutils/error.h>
#include <mailutils/errno.h>
#include <mailutils/nls.h>
#include <mailutils/stream.h>
#include <mailutils/sys/stream.h>
#include <mailutils/sys/prog_stream.h>
#include <mailutils/util.h>
static mu_list_t prog_stream_list;
static int
_prog_stream_register (struct _mu_prog_stream *stream)
{
if (!prog_stream_list)
{
int rc = mu_list_create (&prog_stream_list);
if (rc)
return rc;
}
return mu_list_append (prog_stream_list, stream);
}
static void
_prog_stream_unregister (struct _mu_prog_stream *stream)
{
mu_list_remove (prog_stream_list, stream);
}
#if defined (HAVE_SYSCONF) && defined (_SC_OPEN_MAX)
# define getmaxfd() sysconf (_SC_OPEN_MAX)
#elif defined (HAVE_GETDTABLESIZE)
# define getmaxfd() getdtablesize ()
#else
# define getmaxfd() 64
#endif
#define REDIRECT_STDIN_P(f) ((f) & MU_STREAM_WRITE)
#define REDIRECT_STDOUT_P(f) ((f) & MU_STREAM_READ)
#ifdef RLIMIT_AS
# define _MU_RLIMIT_AS_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_AS)
#else
# define _MU_RLIMIT_AS_FLAG 0
# define RLIMIT_AS 0
#endif
#ifdef RLIMIT_CPU
# define _MU_RLIMIT_CPU_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_CPU)
#else
# define _MU_RLIMIT_CPU_FLAG 0
# define RLIMIT_CPU 0
#endif
#ifdef RLIMIT_DATA
# define _MU_RLIMIT_DATA_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_DATA)
#else
# define _MU_RLIMIT_DATA_FLAG 0
# define RLIMIT_DATA 0
#endif
#ifdef RLIMIT_FSIZE
# define _MU_RLIMIT_FSIZE_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_FSIZE)
#else
# define _MU_RLIMIT_FSIZE_FLAG 0
# define RLIMIT_FSIZE 0
#endif
#ifdef RLIMIT_NPROC
# define _MU_RLIMIT_NPROC_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_NPROC)
#else
# define _MU_RLIMIT_NPROC_FLAG 0
# define RLIMIT_NPROC 0
#endif
#ifdef RLIMIT_CORE
# define _MU_RLIMIT_CORE_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_CORE)
#else
# define _MU_RLIMIT_CORE_FLAG 0
# define RLIMIT_CORE 0
#endif
#ifdef RLIMIT_MEMLOCK
# define _MU_RLIMIT_MEMLOCK_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_MEMLOCK)
#else
# define _MU_RLIMIT_MEMLOCK_FLAG 0
# define RLIMIT_MEMLOCK 0
#endif
#ifdef RLIMIT_NOFILE
# define _MU_RLIMIT_NOFILE_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_NOFILE)
#else
# define _MU_RLIMIT_NOFILE_FLAG 0
# define RLIMIT_NOFILE 0
#endif
#ifdef RLIMIT_RSS
# define _MU_RLIMIT_RSS_FLAG MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_RSS)
#else
# define _MU_RLIMIT_RSS_FLAG 0
# define RLIMIT_RSS 0
#endif
#ifdef RLIMIT_STACK
# define _MU_RLIMIT_STACK MU_PROG_HINT_LIMIT(MU_PROG_LIMIT_STACK)
#else
# define _MU_RLIMIT_STACK 0
# define RLIMIT_STACK 0
#endif
#define _MU_PROG_AVAILABLE_LIMITS \
(_MU_RLIMIT_AS_FLAG | \
_MU_RLIMIT_CPU_FLAG | \
_MU_RLIMIT_DATA_FLAG | \
_MU_RLIMIT_FSIZE_FLAG | \
_MU_RLIMIT_NPROC_FLAG | \
_MU_RLIMIT_CORE_FLAG | \
_MU_RLIMIT_MEMLOCK_FLAG | \
_MU_RLIMIT_NOFILE_FLAG | \
_MU_RLIMIT_RSS_FLAG | \
_MU_RLIMIT_STACK)
int _mu_prog_limit_flags = _MU_PROG_AVAILABLE_LIMITS;
int _mu_prog_limit_codes[_MU_PROG_LIMIT_MAX] = {
RLIMIT_AS,
RLIMIT_CPU,
RLIMIT_DATA,
RLIMIT_FSIZE,
RLIMIT_NPROC,
RLIMIT_CORE,
RLIMIT_MEMLOCK,
RLIMIT_NOFILE,
RLIMIT_RSS,
RLIMIT_STACK
};
static int
start_program_filter (int *p, struct _mu_prog_stream *fs, int flags)
{
int rightp[2], leftp[2];
int i;
int rc = 0;
if (REDIRECT_STDIN_P (flags))
pipe (leftp);
if (REDIRECT_STDOUT_P (flags))
pipe (rightp);
switch (fs->pid = fork ())
{
/* The child branch. */
case 0:
/* attach the pipes */
/* Right-end */
if (REDIRECT_STDOUT_P (flags))
{
if (rightp[1] != 1)
{
close (1);
dup2 (rightp[1], 1);
}
close (rightp[0]);
}
/* Left-end */
if (REDIRECT_STDIN_P (flags))
{
if (leftp[0] != 0)
{
close (0);
dup2 (leftp[0], 0);
}
close (leftp[1]);
}
if (fs->hint_flags & MU_PROG_HINT_ERRTOOUT)
dup2 (1, 2);
if (fs->hint_flags & MU_PROG_HINT_WORKDIR)
{
if (chdir (fs->hints.mu_prog_workdir))
{
mu_error (_("cannot change to %s: %s"),
fs->hints.mu_prog_workdir, mu_strerror (errno));
if (!(fs->hint_flags & MU_PROG_HINT_IGNOREFAIL))
_exit (127);
}
}
if (fs->hint_flags & MU_PROG_HINT_UID)
{
if (mu_set_user_privileges (fs->hints.mu_prog_uid,
fs->hints.mu_prog_gidv,
fs->hints.mu_prog_gidc)
&& !(fs->hint_flags & MU_PROG_HINT_IGNOREFAIL))
_exit (127);
}
for (i = 0; i < _MU_PROG_LIMIT_MAX; i++)
{
if (MU_PROG_HINT_LIMIT(i) & fs->hint_flags)
{
struct rlimit rlim;
rlim.rlim_cur = rlim.rlim_max = fs->hints.mu_prog_limit[i];
if (setrlimit (_mu_prog_limit_codes[i], &rlim))
{
mu_error (_("error setting limit %d to %lu: %s"),
i, (unsigned long) rlim.rlim_cur,
mu_strerror (errno));
if (!(fs->hint_flags & MU_PROG_HINT_IGNOREFAIL))
_exit (127);
}
}
}
if (MU_PROG_HINT_PRIO & fs->hint_flags)
{
if (setpriority (PRIO_PROCESS, 0, fs->hints.mu_prog_prio))
{
mu_error (_("error setting priority: %s"),
mu_strerror (errno));
if (!(fs->hint_flags & MU_PROG_HINT_IGNOREFAIL))
_exit (127);
}
}
/* Close unneded descripitors */
for (i = getmaxfd (); i > 2; i--)
close (i);
/*FIXME: Switch to other uid/gid if desired */
execvp (fs->progname, fs->argv);
/* Report error via syslog */
syslog (LOG_ERR|LOG_USER, "can't run %s (ruid=%d, euid=%d): %m",
fs->progname, getuid (), geteuid ());
_exit (127);
/********************/
/* Parent branches: */
case -1:
/* Fork has failed */
/* Restore things */
rc = errno;
if (REDIRECT_STDOUT_P (flags))
{
close (rightp[0]);
close (rightp[1]);
}
if (REDIRECT_STDIN_P (flags))
{
close (leftp[0]);
close (leftp[1]);
}
break;
default:
if (REDIRECT_STDOUT_P (flags))
{
p[0] = rightp[0];
close (rightp[1]);
}
else
p[0] = -1;
if (REDIRECT_STDIN_P (flags))
{
p[1] = leftp[1];
close (leftp[0]);
}
else
p[1] = -1;
}
return rc;
}
static void
_prog_wait (pid_t pid, int *pstatus)
{
if (pid > 0)
{
pid_t t;
do
t = waitpid (pid, pstatus, 0);
while (t == -1 && errno == EINTR);
}
}
static void
_prog_done (mu_stream_t stream)
{
int status;
struct _mu_prog_stream *fs = (struct _mu_prog_stream *) stream;
mu_argcv_free (fs->argc, fs->argv);
free (fs->progname);
if (fs->hint_flags & MU_PROG_HINT_WORKDIR)
free (fs->hints.mu_prog_workdir);
if (fs->hint_flags & MU_PROG_HINT_INPUT)
mu_stream_unref (fs->hints.mu_prog_input);
if (fs->in)
mu_stream_destroy (&fs->in);
if (fs->out)
mu_stream_destroy (&fs->out);
_prog_wait (fs->pid, &fs->status);
fs->pid = -1;
_prog_wait (fs->writer_pid, &status);
fs->writer_pid = -1;
_prog_stream_unregister (fs);
}
static int
_prog_close (mu_stream_t stream)
{
struct _mu_prog_stream *fs = (struct _mu_prog_stream *) stream;
int status;
if (!stream)
return EINVAL;
if (fs->pid <= 0)
return 0;
mu_stream_close (fs->out);
mu_stream_destroy (&fs->out);
_prog_wait (fs->pid, &fs->status);
fs->pid = -1;
_prog_wait (fs->writer_pid, &status);
fs->writer_pid = -1;
mu_stream_close (fs->in);
mu_stream_destroy (&fs->in);
if (WIFEXITED (fs->status))
{
if (WEXITSTATUS (fs->status) == 0)
return 0;
else if (WEXITSTATUS (fs->status) == 127)
return MU_ERR_PROCESS_NOEXEC;
else
return MU_ERR_PROCESS_EXITED;
}
else if (WIFSIGNALED (fs->status))
return MU_ERR_PROCESS_SIGNALED;
return MU_ERR_PROCESS_UNKNOWN_FAILURE;
}
static int
feed_input (struct _mu_prog_stream *fs)
{
pid_t pid;
int rc = 0;
pid = fork ();
switch (pid)
{
default:
/* Master */
fs->writer_pid = pid;
mu_stream_close (fs->out);
mu_stream_destroy (&fs->out);
break;
case 0:
/* Child */
mu_stream_copy (fs->out, fs->hints.mu_prog_input, 0, NULL);
mu_stream_close (fs->out);
exit (0);
case -1:
rc = errno;
}
return rc;
}
static int
_prog_open (mu_stream_t stream)
{
struct _mu_prog_stream *fs = (struct _mu_prog_stream *) stream;
int rc;
int pfd[2];
int flags;
int seekable_flag;
if (!fs || fs->argc == 0)
return EINVAL;
if (fs->pid)
{
_prog_close (stream);
}
mu_stream_get_flags (stream, &flags);
seekable_flag = (flags & MU_STREAM_SEEK);
rc = start_program_filter (pfd, fs, flags);
if (rc)
return rc;
if (REDIRECT_STDOUT_P (flags))
{
rc = mu_stdio_stream_create (&fs->in, pfd[0],
MU_STREAM_READ|MU_STREAM_AUTOCLOSE|seekable_flag);
if (rc)
{
_prog_close (stream);
return rc;
}
}
if (REDIRECT_STDIN_P (flags))
{
rc = mu_stdio_stream_create (&fs->out, pfd[1],
MU_STREAM_WRITE|MU_STREAM_AUTOCLOSE|seekable_flag);
if (rc)
{
_prog_close (stream);
return rc;
}
}
_prog_stream_register (fs);
if (fs->hint_flags & MU_PROG_HINT_INPUT)
return feed_input (fs);
return 0;
}
static int
_prog_read (mu_stream_t stream, char *optr, size_t osize, size_t *pnbytes)
{
struct _mu_prog_stream *fs = (struct _mu_prog_stream *) stream;
return mu_stream_read (fs->in, optr, osize, pnbytes);
}
static int
_prog_write (mu_stream_t stream, const char *iptr, size_t isize,
size_t *pnbytes)
{
struct _mu_prog_stream *fs = (struct _mu_prog_stream *) stream;
return mu_stream_write (fs->out, iptr, isize, pnbytes);
}
static int
_prog_flush (mu_stream_t stream)
{
struct _mu_prog_stream *fs = (struct _mu_prog_stream *) stream;
mu_stream_flush (fs->in);
mu_stream_flush (fs->out);
return 0;
}
static int
_prog_ioctl (struct _mu_stream *str, int code, int opcode, void *ptr)
{
struct _mu_prog_stream *fstr = (struct _mu_prog_stream *) str;
switch (code)
{
case MU_IOCTL_TRANSPORT:
if (!ptr)
return EINVAL;
else
{
mu_transport_t *ptrans = ptr;
mu_transport_t t[2];
switch (opcode)
{
case MU_IOCTL_OP_GET:
mu_stream_ioctl (fstr->in, MU_IOCTL_TRANSPORT,
MU_IOCTL_OP_GET, t);
ptrans[0] = t[0];
mu_stream_ioctl (fstr->out, MU_IOCTL_TRANSPORT,
MU_IOCTL_OP_GET, t);
ptrans[1] = t[1];
break;
case MU_IOCTL_OP_SET:
return ENOSYS;
default:
return EINVAL;
}
}
break;
case MU_IOCTL_PROGSTREAM:
if (!ptr)
return EINVAL;
switch (opcode)
{
case MU_IOCTL_PROG_STATUS:
*(int*)ptr = fstr->status;
break;
case MU_IOCTL_PROG_PID:
*(pid_t*)ptr = fstr->pid;
break;
default:
return EINVAL;
}
break;
default:
return ENOSYS;
}
return 0;
}
/* NOTE: Steals argv */
static struct _mu_prog_stream *
_prog_stream_create (const char *progname, size_t argc, char **argv,
int hint_flags, struct mu_prog_hints *hints, int flags)
{
struct _mu_prog_stream *fs;
fs = (struct _mu_prog_stream *) _mu_stream_create (sizeof (*fs), flags);
if (!fs)
return NULL;
fs->progname = strdup (progname);
if (!fs->progname)
{
free (fs);
return NULL;
}
fs->argc = argc;
fs->argv = argv;
fs->stream.read = _prog_read;
fs->stream.write = _prog_write;
fs->stream.open = _prog_open;
fs->stream.close = _prog_close;
fs->stream.ctl = _prog_ioctl;
fs->stream.flush = _prog_flush;
fs->stream.done = _prog_done;
if (!hints)
fs->hint_flags = 0;
else
{
fs->hint_flags = (hint_flags & _MU_PROG_HINT_MASK) |
(hint_flags & _MU_PROG_AVAILABLE_LIMITS);
if (fs->hint_flags & MU_PROG_HINT_WORKDIR)
{
fs->hints.mu_prog_workdir = strdup (hints->mu_prog_workdir);
if (!fs->hints.mu_prog_workdir)
{
free (fs);
return NULL;
}
}
memcpy (fs->hints.mu_prog_limit, hints->mu_prog_limit,
sizeof (fs->hints.mu_prog_limit));
fs->hints.mu_prog_prio = hints->mu_prog_prio;
if (fs->hint_flags & MU_PROG_HINT_INPUT)
{
fs->hints.mu_prog_input = hints->mu_prog_input;
mu_stream_ref (fs->hints.mu_prog_input);
}
if (fs->hint_flags & MU_PROG_HINT_UID)
{
fs->hints.mu_prog_uid = hints->mu_prog_uid;
if (fs->hint_flags & MU_PROG_HINT_GID)
{
fs->hints.mu_prog_gidv = calloc (hints->mu_prog_gidc,
sizeof (fs->hints.mu_prog_gidv[0]));
if (!fs->hints.mu_prog_gidv)
{
mu_stream_unref ((mu_stream_t) fs);
return NULL;
}
memcpy (fs->hints.mu_prog_gidv, hints->mu_prog_gidv,
hints->mu_prog_gidc * fs->hints.mu_prog_gidv[0]);
fs->hints.mu_prog_gidc = hints->mu_prog_gidc;
}
else
{
fs->hints.mu_prog_gidc = 0;
fs->hints.mu_prog_gidv = NULL;
}
}
}
return fs;
}
int
mu_prog_stream_create (mu_stream_t *pstream,
const char *progname, size_t argc, char **argv,
int hint_flags,
struct mu_prog_hints *hints,
int flags)
{
int rc;
mu_stream_t stream;
char **xargv;
size_t i;
if (pstream == NULL)
return MU_ERR_OUT_PTR_NULL;
if (progname == NULL)
return EINVAL;
xargv = calloc (argc + 1, sizeof (xargv[0]));
if (!xargv)
return ENOMEM;
for (i = 0; i < argc; i++)
{
xargv[i] = strdup (argv[i]);
if (!xargv[i])
{
mu_argcv_free (i, argv);
return ENOMEM;
}
}
stream = (mu_stream_t) _prog_stream_create (progname, argc, xargv,
hint_flags, hints, flags);
if (!stream)
{
mu_argcv_free (argc, xargv);
return ENOMEM;
}
rc = mu_stream_open (stream);
if (rc)
mu_stream_destroy (&stream);
else
*pstream = stream;
return rc;
}
int
mu_command_stream_create (mu_stream_t *pstream, const char *command,
int flags)
{
int rc;
mu_stream_t stream;
struct mu_wordsplit ws;
if (pstream == NULL)
return MU_ERR_OUT_PTR_NULL;
if (command == NULL)
return EINVAL;
ws.ws_comment = "#";
if (mu_wordsplit (command, &ws, MU_WRDSF_DEFFLAGS|MU_WRDSF_COMMENT))
{
mu_error (_("cannot split line `%s': %s"), command,
mu_wordsplit_strerror (&ws));
return errno;
}
rc = mu_prog_stream_create (&stream,
ws.ws_wordv[0],
ws.ws_wordc, ws.ws_wordv,
0, NULL, flags);
if (rc == 0)
{
ws.ws_wordc = 0;
ws.ws_wordv = NULL;
*pstream = stream;
}
mu_wordsplit_free (&ws);
return rc;
}