/**
@brief AutoBuilder Entry Point
@param argc Number of arguments passed through argv
@param argv String representation of arguments passed to the
application
@return EXIT_SUCCESS on success or a non-zero integer on failure.
**/
int
main (int argc, char ** argv)
{
conf_t conf;
conf_err_t cerr;
opt_t opt;
opt_err_t oerr;
const char *db_type, *db_host, *db_port, *db_user, *db_pass, *db_db;
/* Parse the command line */
oerr = opt_init(&opt, argc, argv, 1);
if (oerr != OPT_OK)
{
fprintf (stderr, "%s\n", SHORT_HELP);
opt_destroy (&opt);
return EXIT_FAILURE;
}
if (opt.help)
{
fprintf (stderr, "%s\n", HELP_TXT);
return EXIT_SUCCESS;
}
/* Parse the configuration */
cerr = conf_init (&conf, opt.conf);
if (cerr != CONF_OK)
{
fprintf (stderr, "Configuration Error: %s", conf_get_err (&conf));
conf_destroy (&conf);
opt_destroy (&opt);
return EXIT_FAILURE;
}
/* Read Database Options */
db_type = conf_get (&conf, "DB_TYPE");
db_host = conf_get (&conf, "DB_HOST");
db_port = conf_get (&conf, "DB_PORT");
db_user = conf_get (&conf, "DB_USER");
db_pass = conf_get (&conf, "DB_PASS");
db_db = conf_get (&conf, "DB_DB");
/* Connect to the database */
//db_connect (db_type, db_host, db_port, db_user, db_pass, db_db);
/* Cleanup */
conf_destroy (&conf);
opt_destroy (&opt);
return EXIT_SUCCESS;
}
int
opt_check_allowed_csv (Opt o, const char *csv)
{
Opt allow;
ListIterator itr;
char *item, *cpy, *p;
int ret = 0;
NP_ASSERT (o->magic == OPT_MAGIC);
allow = opt_create ();
opt_addf (allow, "%s", csv);
if (!(itr = list_iterator_create (o->list)))
msg_exit ("out of memory");
while ((item = list_next (itr))) {
if (!(cpy = strdup (item)))
msg_exit ("out of memory");
if ((p = strchr (cpy, '=')))
*p = '\0';
if (!opt_find (allow, cpy)) {
ret = 1;
free (cpy);
break;
}
free (cpy);
}
list_iterator_destroy (itr);
opt_destroy (allow);
return ret;
}
int
main (int argc, char *argv[])
{
char *dir = NULL;
char *spec, *host;
char *nspec = NULL;
int c, i;
int nopt = 0;
int vopt = 0;
int fopt = 0;
int aopt = 0;
int dopt = 0;
int rfd = -1, wfd = -1;
Opt o;
diod_log_init (argv[0]);
o = opt_create ();
opterr = 0;
while ((c = GETOPT (argc, argv, OPTIONS, longopts)) != -1) {
switch (c) {
case 'f': /* --fake-mount */
fopt = 1;
break;
case 'n': /* --no-mtab */
nopt = 1;
break;
case 'v': /* --verbose */
vopt++;
break;
case 'o': /* --options OPT[,OPT]... */
opt_addf (o, "%s", optarg);
break;
case 'a': /* --9nbd-attach */
aopt++;
break;
case 'd': /* --9nbd-detach */
dopt++;
break;
default:
usage ();
}
}
/* Take care of 9nbd operations and exit.
*/
if (aopt) {
_nbd_attach (o, argc - optind, argv + optind, nopt, vopt);
exit (0);
}
if (dopt) {
_nbd_detach (o, argc - optind, argv + optind, nopt, vopt);
exit (0);
}
if (optind != argc - 2)
usage ();
if (geteuid () != 0)
msg_exit ("you must be root");
spec = argv[optind++];
dir = argv[optind++];
host = _parse_spec (spec, o);
_verify_mountpoint (dir);
/* Remount - only pass mount flags into the VFS for an existing mount.
* Take care of it here and exit.
*/
if (opt_find (o, "remount")) {
if (opt_check_allowed_csv (o, "ro,rw,aname,remount"))
msg_exit ("-oremount can only be used with ro,rw");
_diod_remount (o, spec, dir, vopt, fopt);
goto done;
}
/* Ensure uname and access are set, and to diod-compatible values.
* The uname user becomes the euid which will be used by munge auth.
*/
_parse_uname_access (o);
if (seteuid (_uname2uid (opt_find (o, "uname"))) < 0)
err_exit ("seteuid");
/* We require -otrans=fd because auth occurs in user space, then live fd
* is passed to the kernel via -orfdno,wfdno.
*/
if (!opt_find (o, "trans"))
opt_addf (o, "trans=%s", "fd");
else if (!opt_find (o, "trans=fd"))
msg_exit ("only -otrans=fd transport is supported");
/* Set msize if not already set. Validate it later.
*/
if (!opt_find (o, "msize"))
opt_addf (o, "msize=%d", DIOD_DEFAULT_MSIZE);
/* Only .L version is supported.
*/
if (!opt_find (o, "version"))
opt_addf (o, "version=%s", "9p2000.L");
else if (!opt_find (o, "version=9p2000.L"))
msg_exit ("only -oversion=9p2000.L is supported (little p, big L)");
/* Set debug level.
*/
if (!opt_find (o, "debug"))
opt_addf (o, "debug=%d", 0x1); /* send errors to dmesg */
/* Set rwdepth (number of concurrent reads with buffer > msize).
* N.B. this option is not upstream yet but unknown options are ignored.
*/
if (!opt_find (o, "rwdepth"))
opt_addf (o, "rwdepth=%d", 1);
/* Server is on an inherited file descriptor.
* For testing, we start server on a socketpair duped to fd 0.
*/
if (opt_find (o, "rfdno") || opt_find (o, "wfdno")) {
if (!opt_scanf (o, "rfdno=%d", &rfd) || !opt_scanf (o, "wfdno=%d",&wfd))
msg_exit ("-orfdno,wfdno must be used together");
nopt = 1; /* force no mtab */
/* Connect to server on UNIX domain socket
*/
} else if (host[0] == '/') {
if (opt_find (o, "port"))
msg_exit ("-oport won't work with UNIX domain socket");
if ((rfd = diod_sock_connect_unix (host, 0)) < 0)
exit (1);
wfd = rfd;
opt_addf (o, "rfdno=%d", rfd);
opt_addf (o, "wfdno=%d", wfd);
/* Connect to server on IANA port (or user-specified) and host.
*/
} else {
char *port = opt_find (o, "port");
hostlist_iterator_t hi;
hostlist_t hl;
char *h;
if (!port)
port = "564";
if (!(hl = hostlist_create (host)))
msg_exit ("error parsing host string: %s", host);
if (!(hi = hostlist_iterator_create (hl)))
msg_exit ("out of memory");
while ((h = hostlist_next (hi))) {
if (vopt)
msg ("trying to connect to %s:%s", h, port);
if ((rfd = diod_sock_connect_inet (h, port, DIOD_SOCK_QUIET)) >= 0)
break;
}
if (h) { /* create new 'spec' string identifying successful host */
char *p = strchr (spec , ':');
int len = strlen (h) + (p ? strlen (p) : 0) + 1;
if (!(nspec = malloc (len)))
msg_exit ("out of memory");
snprintf (nspec, len, "%s%s", h, p ? p : "");
}
hostlist_destroy (hl);
if (rfd < 0)
msg_exit ("could not connect to server(s), giving up");
wfd = rfd;
opt_delete (o, "port");
opt_addf (o, "rfdno=%d", rfd);
opt_addf (o, "wfdno=%d", wfd);
}
NP_ASSERT (opt_find (o, "trans=fd"));
NP_ASSERT (opt_scanf (o, "msize=%d", &i));
NP_ASSERT (opt_find (o, "version=9p2000.L"));
NP_ASSERT (opt_scanf (o, "debug=%d", &i) || opt_scanf (o, "debug=%x", &i));
NP_ASSERT (opt_scanf (o, "wfdno=%d", &i) && opt_scanf (o, "rfdno=%d", &i));
NP_ASSERT ((opt_find (o, "access=user") && opt_find(o, "uname=root"))
|| (opt_scanf (o, "access=%d", &i) && opt_find(o, "uname")));
NP_ASSERT (!opt_find (o, "port"));
_diod_mount (o, rfd, wfd, nspec ? nspec : spec, dir, vopt, fopt, nopt);
done:
opt_destroy (o);
exit (0);
}
