*
*/
/*
- Copyright (C) 2000-2005 Kern Sibbald
+ Copyright (C) 2000-2006 Kern Sibbald
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
/* Imported Functions */
extern void *handle_client_request(void *dir_sock);
-/* Imported Variables */
-extern time_t watchdog_sleep_time;
-
/* Forward referenced functions */
void terminate_filed(int sig);
static int check_resources();
/* Exported variables */
CLIENT *me; /* my resource */
-char OK_msg[] = "2000 OK\n";
-char TERM_msg[] = "2999 Terminate\n";
bool no_signals = false;
-#if defined(HAVE_CYGWIN) || defined(HAVE_WIN32)
-const int win32_client = 1;
-#else
-const int win32_client = 0;
-#endif
-
#define CONFIG_FILE "./bacula-fd.conf" /* default config file */
static void usage()
{
- Pmsg0(-1, _(
+ Pmsg2(-1, _(
"Copyright (C) 2000-2005 Kern Sibbald\n"
-"\nVersion: " VERSION " (" BDATE ")\n\n"
+"\nVersion: %s (%s)\n\n"
"Usage: bacula-fd [-f -s] [-c config_file] [-d debug_level]\n"
" -c <file> use <file> as configuration file\n"
" -dnn set debug level to nn\n"
" -u userid\n"
" -v verbose user messages\n"
" -? print this message.\n"
-"\n"));
+"\n"), VERSION, BDATE);
exit(1);
}
* Main Bacula Unix Client Program
*
*/
-#if defined(HAVE_CYGWIN) || defined(HAVE_WIN32)
+#if defined(HAVE_WIN32)
#define main BaculaMain
#endif
char *uid = NULL;
char *gid = NULL;
+ setlocale(LC_ALL, "");
+ bindtextdomain("bacula", LOCALEDIR);
+ textdomain("bacula");
+
init_stack_dump();
my_name_is(argc, argv, "bacula-fd");
- textdomain("bacula");
init_msg(NULL, NULL);
daemon_start_time = time(NULL);
parse_config(configfile);
- if (init_tls() != 0) {
- Emsg0(M_ERROR, 0, _("TLS library initialization failed.\n"));
+ if (init_crypto() != 0) {
+ Emsg0(M_ERROR, 0, _("Cryptography library initialization failed.\n"));
terminate_filed(1);
}
if (configfile != NULL) {
free(configfile);
}
- if (debug_level > 5) {
+ if (debug_level > 0) {
print_memory_pool_stats();
}
free_config_resources();
term_msg();
stop_watchdog();
- cleanup_tls();
+ cleanup_crypto();
close_memory_pool(); /* release free memory in pool */
sm_dump(false); /* dump orphaned buffers */
exit(sig);
OK = false;
}
}
+
+ if (me->pki_encrypt || me->pki_sign) {
+#ifndef HAVE_CRYPTO
+ Jmsg(NULL, M_FATAL, 0, _("PKI encryption/signing enabled but not compiled into Bacula.\n"));
+ OK = false;
+#endif
+ }
+
+ /* pki_encrypt implies pki_sign */
+ if (me->pki_encrypt) {
+ me->pki_sign = true;
+ }
+
+ if ((me->pki_encrypt || me->pki_sign) && !me->pki_keypair_file) {
+ Emsg2(M_FATAL, 0, _("\"PKI Key Pair\" must be defined for File"
+ " daemon \"%s\" in %s if either \"PKI Sign\" or"
+ " \"PKI Encrypt\" are enabled.\n"), me->hdr.name, configfile);
+ OK = false;
+ }
+
+ /* If everything is well, attempt to initialize our public/private keys */
+ if (OK && (me->pki_encrypt || me->pki_sign)) {
+ char *filepath;
+ /* Load our keypair */
+ me->pki_keypair = crypto_keypair_new();
+ if (!me->pki_keypair) {
+ Emsg0(M_FATAL, 0, _("Failed to allocate a new keypair object.\n"));
+ OK = false;
+ } else {
+ if (!crypto_keypair_load_cert(me->pki_keypair, me->pki_keypair_file)) {
+ Emsg2(M_FATAL, 0, _("Failed to load public certificate for File"
+ " daemon \"%s\" in %s.\n"), me->hdr.name, configfile);
+ OK = false;
+ }
+
+ if (!crypto_keypair_load_key(me->pki_keypair, me->pki_keypair_file, NULL, NULL)) {
+ Emsg2(M_FATAL, 0, _("Failed to load private key for File"
+ " daemon \"%s\" in %s.\n"), me->hdr.name, configfile);
+ OK = false;
+ }
+ }
+
+ /*
+ * Trusted Signers. We're always trusted.
+ */
+ me->pki_signers = New(alist(10, not_owned_by_alist));
+ if (me->pki_keypair) {
+ me->pki_signers->append(crypto_keypair_dup(me->pki_keypair));
+ }
+
+ /* If additional signing public keys have been specified, load them up */
+ if (me->pki_signing_key_files) {
+ foreach_alist(filepath, me->pki_signing_key_files) {
+ X509_KEYPAIR *keypair;
+
+ keypair = crypto_keypair_new();
+ if (!keypair) {
+ Emsg0(M_FATAL, 0, _("Failed to allocate a new keypair object.\n"));
+ OK = false;
+ } else {
+ if (crypto_keypair_load_cert(keypair, filepath)) {
+ me->pki_signers->append(keypair);
+
+ /* Attempt to load a private key, if available */
+ if (crypto_keypair_has_key(filepath)) {
+ if (!crypto_keypair_load_key(keypair, filepath, NULL, NULL)) {
+ Emsg3(M_FATAL, 0, _("Failed to load private key from file %s for File"
+ " daemon \"%s\" in %s.\n"), filepath, me->hdr.name, configfile);
+ OK = false;
+ }
+ }
+
+ } else {
+ Emsg3(M_FATAL, 0, _("Failed to load trusted signer certificate"
+ " from file %s for File daemon \"%s\" in %s.\n"), filepath, me->hdr.name, configfile);
+ OK = false;
+ }
+ }
+ }
+ }
+
+ /*
+ * Crypto recipients. We're always included as a recipient.
+ * The symmetric session key will be encrypted for each of these readers.
+ */
+ me->pki_recipients = New(alist(10, not_owned_by_alist));
+ if (me->pki_keypair) {
+ me->pki_recipients->append(crypto_keypair_dup(me->pki_keypair));
+ }
+
+
+ /* If additional keys have been specified, load them up */
+ if (me->pki_master_key_files) {
+ foreach_alist(filepath, me->pki_master_key_files) {
+ X509_KEYPAIR *keypair;
+
+ keypair = crypto_keypair_new();
+ if (!keypair) {
+ Emsg0(M_FATAL, 0, _("Failed to allocate a new keypair object.\n"));
+ OK = false;
+ } else {
+ if (crypto_keypair_load_cert(keypair, filepath)) {
+ me->pki_recipients->append(keypair);
+
+ /* Attempt to load a private key, if available */
+ if (crypto_keypair_has_key(filepath)) {
+ if (!crypto_keypair_load_key(keypair, filepath, NULL, NULL)) {
+ Emsg3(M_FATAL, 0, _("Failed to load private key from file %s for File"
+ " daemon \"%s\" in %s.\n"), filepath, me->hdr.name, configfile);
+ OK = false;
+ }
+ }
+
+ } else {
+ Emsg3(M_FATAL, 0, _("Failed to load master key certificate"
+ " from file %s for File daemon \"%s\" in %s.\n"), filepath, me->hdr.name, configfile);
+ OK = false;
+ }
+ }
+ }
+ }
+ }
}