2 Bacula® - The Network Backup Solution
4 Copyright (C) 2000-2008 Free Software Foundation Europe e.V.
6 The main author of Bacula is Kern Sibbald, with contributions from
7 many others, a complete list can be found in the file AUTHORS.
8 This program is Free Software; you can redistribute it and/or
9 modify it under the terms of version two of the GNU General Public
10 License as published by the Free Software Foundation and included
13 This program is distributed in the hope that it will be useful, but
14 WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
16 General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
23 Bacula® is a registered trademark of Kern Sibbald.
24 The licensor of Bacula is the Free Software Foundation Europe
25 (FSFE), Fiduciary Program, Sumatrastrasse 25, 8006 Zürich,
26 Switzerland, email:ftf@fsfeurope.org.
29 * Bacula message handling routines
31 * Kern Sibbald, April 2000
41 sql_query p_sql_query = NULL;
42 sql_escape p_sql_escape = NULL;
44 #define FULL_LOCATION 1 /* set for file:line in Debug messages */
47 * This is where we define "Globals" because all the
48 * daemons include this file.
50 const char *working_directory = NULL; /* working directory path stored here */
51 int verbose = 0; /* increase User messages */
52 int debug_level = 0; /* debug level */
53 bool dbg_timestamp = false; /* print timestamp in debug output */
54 utime_t daemon_start_time = 0; /* Daemon start time */
55 const char *version = VERSION " (" BDATE ")";
56 char my_name[30]; /* daemon name is stored here */
57 char host_name[50]; /* host machine name */
58 char *exepath = (char *)NULL;
59 char *exename = (char *)NULL;
60 int console_msg_pending = false;
61 char con_fname[500]; /* Console filename */
62 FILE *con_fd = NULL; /* Console file descriptor */
63 brwlock_t con_lock; /* Console lock structure */
65 /* Forward referenced functions */
67 /* Imported functions */
68 void create_jcr_key();
72 /* Used to allow only one thread close the daemon messages at a time */
73 static pthread_mutex_t mutex = PTHREAD_MUTEX_INITIALIZER;
74 static MSGS *daemon_msgs; /* global messages */
75 static char *catalog_db = NULL; /* database type */
76 static void (*message_callback)(int type, char *msg) = NULL;
77 static FILE *trace_fd = NULL;
78 #if defined(HAVE_WIN32)
79 static bool trace = true;
81 static bool trace = false;
85 const char *host_os = HOST_OS;
86 const char *distname = DISTNAME;
87 const char *distver = DISTVER;
90 void register_message_callback(void msg_callback(int type, char *msg))
92 message_callback = msg_callback;
97 * Set daemon name. Also, find canonical execution
98 * path. Note, exepath has spare room for tacking on
99 * the exename so that we can reconstruct the full name.
101 * Note, this routine can get called multiple times
102 * The second time is to put the name as found in the
103 * Resource record. On the second call, generally,
104 * argv is NULL to avoid doing the path code twice.
106 void my_name_is(int argc, char *argv[], const char *name)
112 if (gethostname(host_name, sizeof(host_name)) != 0) {
113 bstrncpy(host_name, "Hostname unknown", sizeof(host_name));
115 bstrncpy(my_name, name, sizeof(my_name));
116 if (argc>0 && argv && argv[0]) {
117 /* strip trailing filename and save exepath */
118 for (l=p=argv[0]; *p; p++) {
119 if (IsPathSeparator(*p)) {
120 l = p; /* set pos of last slash */
123 if (IsPathSeparator(*l)) {
127 #if defined(HAVE_WIN32)
128 /* On Windows allow c: junk */
138 exename = (char *)malloc(len);
144 exepath = (char *)malloc(strlen(argv[0]) + 1 + len);
145 for (p=argv[0],q=exepath; p < l; ) {
149 if (strchr(exepath, '.') || !IsPathSeparator(exepath[0])) {
150 if (getcwd(cpath, sizeof(cpath))) {
152 exepath = (char *)malloc(strlen(cpath) + 1 + len);
153 strcpy(exepath, cpath);
156 Dmsg2(500, "exepath=%s\nexename=%s\n", exepath, exename);
163 return catalog_db != NULL ? catalog_db : "unknown";
167 set_db_type(const char *name)
169 if (catalog_db != NULL) {
172 catalog_db = bstrdup(name);
176 * Initialize message handler for a daemon or a Job
177 * We make a copy of the MSGS resource passed, so it belows
178 * to the job or daemon and thus can be modified.
180 * NULL for jcr -> initialize global messages for daemon
181 * non-NULL -> initialize jcr using Message resource
184 init_msg(JCR *jcr, MSGS *msg)
186 DEST *d, *dnew, *temp_chain = NULL;
189 if (jcr == NULL && msg == NULL) {
190 init_last_jobs_list();
191 /* Create a daemon key then set invalid jcr */
192 /* Maybe we should give the daemon a jcr??? */
194 set_jcr_in_tsd(INVALID_JCR);
197 #if !defined(HAVE_WIN32)
199 * Make sure we have fd's 0, 1, 2 open
200 * If we don't do this one of our sockets may open
201 * there and if we then use stdout, it could
202 * send total garbage to our socket.
206 fd = open("/dev/null", O_RDONLY, 0644);
210 for(i=1; fd + i <= 2; i++) {
217 * If msg is NULL, initialize global chain for STDOUT and syslog
220 daemon_msgs = (MSGS *)malloc(sizeof(MSGS));
221 memset(daemon_msgs, 0, sizeof(MSGS));
222 for (i=1; i<=M_MAX; i++) {
223 add_msg_dest(daemon_msgs, MD_STDOUT, i, NULL, NULL);
225 Dmsg1(050, "Create daemon global message resource %p\n", daemon_msgs);
230 * Walk down the message resource chain duplicating it
231 * for the current Job.
233 for (d=msg->dest_chain; d; d=d->next) {
234 dnew = (DEST *)malloc(sizeof(DEST));
235 memcpy(dnew, d, sizeof(DEST));
236 dnew->next = temp_chain;
238 dnew->mail_filename = NULL;
240 dnew->mail_cmd = bstrdup(d->mail_cmd);
243 dnew->where = bstrdup(d->where);
249 jcr->jcr_msgs = (MSGS *)malloc(sizeof(MSGS));
250 memset(jcr->jcr_msgs, 0, sizeof(MSGS));
251 jcr->jcr_msgs->dest_chain = temp_chain;
252 memcpy(jcr->jcr_msgs->send_msg, msg->send_msg, sizeof(msg->send_msg));
254 /* If we have default values, release them now */
256 free_msgs_res(daemon_msgs);
258 daemon_msgs = (MSGS *)malloc(sizeof(MSGS));
259 memset(daemon_msgs, 0, sizeof(MSGS));
260 daemon_msgs->dest_chain = temp_chain;
261 memcpy(daemon_msgs->send_msg, msg->send_msg, sizeof(msg->send_msg));
263 Dmsg2(250, "Copy message resource %p to %p\n", msg, temp_chain);
267 /* Initialize so that the console (User Agent) can
268 * receive messages -- stored in a file.
270 void init_console_msg(const char *wd)
274 bsnprintf(con_fname, sizeof(con_fname), "%s%c%s.conmsg", wd, PathSeparator, my_name);
275 fd = open(con_fname, O_CREAT|O_RDWR|O_BINARY, 0600);
278 Emsg2(M_ERROR_TERM, 0, _("Could not open console message file %s: ERR=%s\n"),
279 con_fname, be.bstrerror());
281 if (lseek(fd, 0, SEEK_END) > 0) {
282 console_msg_pending = 1;
285 con_fd = fopen(con_fname, "a+b");
288 Emsg2(M_ERROR, 0, _("Could not open console message file %s: ERR=%s\n"),
289 con_fname, be.bstrerror());
291 if (rwl_init(&con_lock) != 0) {
293 Emsg1(M_ERROR_TERM, 0, _("Could not get con mutex: ERR=%s\n"),
299 * Called only during parsing of the config file.
301 * Add a message destination. I.e. associate a message type with
302 * a destination (code).
303 * Note, where in the case of dest_code FILE is a filename,
304 * but in the case of MAIL is a space separated list of
305 * email addresses, ...
307 void add_msg_dest(MSGS *msg, int dest_code, int msg_type, char *where, char *mail_cmd)
311 * First search the existing chain and see if we
312 * can simply add this msg_type to an existing entry.
314 for (d=msg->dest_chain; d; d=d->next) {
315 if (dest_code == d->dest_code && ((where == NULL && d->where == NULL) ||
316 (strcmp(where, d->where) == 0))) {
317 Dmsg4(850, "Add to existing d=%p msgtype=%d destcode=%d where=%s\n",
318 d, msg_type, dest_code, NPRT(where));
319 set_bit(msg_type, d->msg_types);
320 set_bit(msg_type, msg->send_msg); /* set msg_type bit in our local */
324 /* Not found, create a new entry */
325 d = (DEST *)malloc(sizeof(DEST));
326 memset(d, 0, sizeof(DEST));
327 d->next = msg->dest_chain;
328 d->dest_code = dest_code;
329 set_bit(msg_type, d->msg_types); /* set type bit in structure */
330 set_bit(msg_type, msg->send_msg); /* set type bit in our local */
332 d->where = bstrdup(where);
335 d->mail_cmd = bstrdup(mail_cmd);
337 Dmsg5(850, "add new d=%p msgtype=%d destcode=%d where=%s mailcmd=%s\n",
338 d, msg_type, dest_code, NPRT(where), NPRT(d->mail_cmd));
343 * Called only during parsing of the config file.
345 * Remove a message destination
347 void rem_msg_dest(MSGS *msg, int dest_code, int msg_type, char *where)
351 for (d=msg->dest_chain; d; d=d->next) {
352 Dmsg2(850, "Remove_msg_dest d=%p where=%s\n", d, NPRT(d->where));
353 if (bit_is_set(msg_type, d->msg_types) && (dest_code == d->dest_code) &&
354 ((where == NULL && d->where == NULL) ||
355 (strcmp(where, d->where) == 0))) {
356 Dmsg3(850, "Found for remove d=%p msgtype=%d destcode=%d\n",
357 d, msg_type, dest_code);
358 clear_bit(msg_type, d->msg_types);
359 Dmsg0(850, "Return rem_msg_dest\n");
367 * Create a unique filename for the mail command
369 static void make_unique_mail_filename(JCR *jcr, POOLMEM *&name, DEST *d)
372 Mmsg(name, "%s/%s.%s.%d.mail", working_directory, my_name,
373 jcr->Job, (int)(intptr_t)d);
375 Mmsg(name, "%s/%s.%s.%d.mail", working_directory, my_name,
376 my_name, (int)(intptr_t)d);
378 Dmsg1(850, "mailname=%s\n", name);
384 static BPIPE *open_mail_pipe(JCR *jcr, POOLMEM *&cmd, DEST *d)
389 cmd = edit_job_codes(jcr, cmd, d->mail_cmd, d->where);
391 Mmsg(cmd, "/usr/lib/sendmail -F Bacula %s", d->where);
395 if ((bpipe = open_bpipe(cmd, 120, "rw"))) {
396 /* If we had to use sendmail, add subject */
398 fprintf(bpipe->wfd, "Subject: %s\r\n\r\n", _("Bacula Message"));
402 Jmsg(jcr, M_ERROR, 0, _("open mail pipe %s failed: ERR=%s\n"),
403 cmd, be.bstrerror());
409 * Close the messages for this Messages resource, which means to close
410 * any open files, and dispatch any pending email messages.
412 void close_msg(JCR *jcr)
420 Dmsg1(580, "Close_msg jcr=%p\n", jcr);
422 if (jcr == NULL) { /* NULL -> global chain */
424 P(mutex); /* only one thread walking the chain */
426 msgs = jcr->jcr_msgs;
427 jcr->jcr_msgs = NULL;
432 Dmsg1(850, "===Begin close msg resource at %p\n", msgs);
433 cmd = get_pool_memory(PM_MESSAGE);
434 for (d=msgs->dest_chain; d; ) {
436 switch (d->dest_code) {
440 fclose(d->fd); /* close open file descriptor */
445 case MD_MAIL_ON_ERROR:
446 case MD_MAIL_ON_SUCCESS:
447 Dmsg0(850, "Got MD_MAIL, MD_MAIL_ON_ERROR or MD_MAIL_ON_SUCCESS\n");
452 (d->dest_code == MD_MAIL_ON_ERROR && jcr &&
453 (jcr->JobStatus == JS_Terminated || jcr->JobStatus == JS_Warnings))
455 (d->dest_code == MD_MAIL_ON_SUCCESS && jcr &&
456 jcr->JobStatus == JS_ErrorTerminated)
461 if (!(bpipe=open_mail_pipe(jcr, cmd, d))) {
462 Pmsg0(000, _("open mail pipe failed.\n"));
465 Dmsg0(850, "Opened mail pipe\n");
467 line = get_memory(len);
469 while (fgets(line, len, d->fd)) {
470 fputs(line, bpipe->wfd);
472 if (!close_wpipe(bpipe)) { /* close write pipe sending mail */
474 Pmsg1(000, _("close error: ERR=%s\n"), be.bstrerror());
478 * Since we are closing all messages, before "recursing"
479 * make sure we are not closing the daemon messages, otherwise
482 if (msgs != daemon_msgs) {
483 /* read what mail prog returned -- should be nothing */
484 while (fgets(line, len, bpipe->rfd)) {
485 Jmsg1(jcr, M_INFO, 0, _("Mail prog: %s"), line);
489 stat = close_bpipe(bpipe);
490 if (stat != 0 && msgs != daemon_msgs) {
493 Dmsg1(850, "Calling emsg. CMD=%s\n", cmd);
494 Jmsg2(jcr, M_ERROR, 0, _("Mail program terminated in error.\n"
496 "ERR=%s\n"), cmd, be.bstrerror());
500 /* Remove temp file */
503 unlink(d->mail_filename);
504 free_pool_memory(d->mail_filename);
505 d->mail_filename = NULL;
506 Dmsg0(850, "end mail or mail on error\n");
513 d = d->next; /* point to next buffer */
515 free_pool_memory(cmd);
516 Dmsg0(850, "Done walking message chain.\n");
523 Dmsg0(850, "===End close msg resource\n");
527 * Free memory associated with Messages resource
529 void free_msgs_res(MSGS *msgs)
533 /* Walk down the message chain releasing allocated buffers */
534 for (d=msgs->dest_chain; d; ) {
541 old = d; /* save pointer to release */
542 d = d->next; /* point to next buffer */
543 free(old); /* free the destination item */
545 msgs->dest_chain = NULL;
546 free(msgs); /* free the head */
551 * Terminate the message handler for good.
552 * Release the global destination chain.
554 * Also, clean up a few other items (cons, exepath). Note,
555 * these really should be done elsewhere.
559 Dmsg0(850, "Enter term_msg\n");
560 close_msg(NULL); /* close global chain */
561 free_msgs_res(daemon_msgs); /* free the resources */
584 term_last_jobs_list();
587 static bool open_dest_file(JCR *jcr, DEST *d, const char *mode)
589 d->fd = fopen(d->where, mode);
593 Qmsg2(jcr, M_ERROR, 0, _("fopen %s failed: ERR=%s\n"), d->where, be.bstrerror());
601 * Handle sending the message to the appropriate place
603 void dispatch_message(JCR *jcr, int type, utime_t mtime, char *msg)
606 char dt[MAX_TIME_LENGTH];
613 Dmsg2(850, "Enter dispatch_msg type=%d msg=%s", type, msg);
616 * Most messages are prefixed by a date and time. If mtime is
617 * zero, then we use the current time. If mtime is 1 (special
618 * kludge), we do not prefix the date and time. Otherwise,
619 * we assume mtime is a utime_t and use it.
628 bstrftime_ny(dt, sizeof(dt), mtime);
634 /* If the program registered a callback, send it there */
635 if (message_callback) {
636 message_callback(type, msg);
640 if (type == M_ABORT || type == M_ERROR_TERM) {
642 fputs(msg, stdout); /* print this here to INSURE that it is printed */
647 /* Now figure out where to send the message */
650 jcr = get_jcr_from_tsd();
653 msgs = jcr->jcr_msgs;
658 for (d=msgs->dest_chain; d; d=d->next) {
659 if (bit_is_set(type, d->msg_types)) {
660 switch (d->dest_code) {
663 if (!jcr || !jcr->db) {
666 if (p_sql_query && p_sql_escape) {
667 POOLMEM *cmd = get_pool_memory(PM_MESSAGE);
668 POOLMEM *esc_msg = get_pool_memory(PM_MESSAGE);
670 int len = strlen(msg) + 1;
671 esc_msg = check_pool_memory_size(esc_msg, len*2+1);
672 p_sql_escape(jcr, jcr->db, esc_msg, msg, len);
674 bstrutime(dt, sizeof(dt), mtime);
675 Mmsg(cmd, "INSERT INTO Log (JobId, Time, LogText) VALUES (%s,'%s','%s')",
676 edit_int64(jcr->JobId, ed1), dt, esc_msg);
677 p_sql_query(jcr, cmd);
679 free_pool_memory(cmd);
680 free_pool_memory(esc_msg);
684 Dmsg1(850, "CONSOLE for following msg: %s", msg);
686 con_fd = fopen(con_fname, "a+b");
687 Dmsg0(850, "Console file not open.\n");
690 Pw(con_lock); /* get write lock on console message file */
693 (void)fwrite(dt, dtlen, 1, con_fd);
697 (void)fwrite(msg, len, 1, con_fd);
698 if (msg[len-1] != '\n') {
699 (void)fwrite("\n", 2, 1, con_fd);
702 (void)fwrite("\n", 2, 1, con_fd);
705 console_msg_pending = true;
710 Dmsg1(850, "SYSLOG for following msg: %s\n", msg);
712 * We really should do an openlog() here.
714 syslog(LOG_DAEMON|LOG_ERR, "%s", msg);
717 Dmsg1(850, "OPERATOR for following msg: %s\n", msg);
718 mcmd = get_pool_memory(PM_MESSAGE);
719 if ((bpipe=open_mail_pipe(jcr, mcmd, d))) {
721 fputs(dt, bpipe->wfd);
722 fputs(msg, bpipe->wfd);
723 /* Messages to the operator go one at a time */
724 stat = close_bpipe(bpipe);
728 Qmsg2(jcr, M_ERROR, 0, _("Operator mail program terminated in error.\n"
730 "ERR=%s\n"), mcmd, be.bstrerror());
733 free_pool_memory(mcmd);
736 case MD_MAIL_ON_ERROR:
737 case MD_MAIL_ON_SUCCESS:
738 Dmsg1(850, "MAIL for following msg: %s", msg);
740 POOLMEM *name = get_pool_memory(PM_MESSAGE);
741 make_unique_mail_filename(jcr, name, d);
742 d->fd = fopen(name, "w+b");
746 Qmsg2(jcr, M_ERROR, 0, _("fopen %s failed: ERR=%s\n"), name,
749 free_pool_memory(name);
752 d->mail_filename = name;
755 len = strlen(msg) + dtlen;;
756 if (len > d->max_len) {
757 d->max_len = len; /* keep max line length */
762 Dmsg1(850, "APPEND for following msg: %s", msg);
766 Dmsg1(850, "FILE for following msg: %s", msg);
769 if (!d->fd && !open_dest_file(jcr, d, mode)) {
774 /* On error, we close and reopen to handle log rotation */
778 if (open_dest_file(jcr, d, mode)) {
785 Dmsg1(850, "DIRECTOR for following msg: %s", msg);
786 if (jcr && jcr->dir_bsock && !jcr->dir_bsock->errors) {
787 bnet_fsend(jcr->dir_bsock, "Jmsg Job=%s type=%d level=%lld %s",
788 jcr->Job, type, mtime, msg);
790 Dmsg1(800, "no jcr for following msg: %s", msg);
794 Dmsg1(850, "STDOUT for following msg: %s", msg);
795 if (type != M_ABORT && type != M_ERROR_TERM) { /* already printed */
802 Dmsg1(850, "STDERR for following msg: %s", msg);
814 /*********************************************************************
816 * This subroutine returns the filename portion of a Windows
817 * path. It is used because Microsoft Visual Studio sets __FILE__
822 get_basename(const char *pathname)
824 #if defined(_MSC_VER)
825 const char *basename;
827 if ((basename = strrchr(pathname, '\\')) == NULL) {
839 /*********************************************************************
841 * This subroutine prints a debug message if the level number
842 * is less than or equal the debug_level. File and line numbers
843 * are included for more detail if desired, but not currently
846 * If the level is negative, the details of file and line number
850 d_msg(const char *file, int line, int level, const char *fmt,...)
863 if (level <= debug_level) {
866 bstrftimes(buf, sizeof(buf), mtime);
875 len = bsnprintf(buf, sizeof(buf), "%s: %s:%d-%u ",
876 my_name, get_basename(file), line, get_jobid_from_tsd());
883 va_start(arg_ptr, fmt);
884 bvsnprintf(buf+len, sizeof(buf)-len, (char *)fmt, arg_ptr);
888 * Used the "trace on" command in the console to turn on
889 * output to the trace file. "trace off" will close the file.
894 bsnprintf(fn, sizeof(fn), "%s/%s.trace", working_directory ? working_directory : "./", my_name);
895 trace_fd = fopen(fn, "a+b");
898 fputs(buf, trace_fd);
901 /* Some problem, turn off tracing */
904 } else { /* not tracing */
912 * Set trace flag on/off. If argument is negative, there is no change
914 void set_trace(int trace_flag)
916 if (trace_flag < 0) {
918 } else if (trace_flag > 0) {
923 if (!trace && trace_fd) {
924 FILE *ltrace_fd = trace_fd;
926 bmicrosleep(0, 100000); /* yield to prevent seg faults */
936 /*********************************************************************
938 * This subroutine prints a message regardless of the debug level
940 * If the level is negative, the details of file and line number
944 p_msg(const char *file, int line, int level, const char *fmt,...)
952 len = bsnprintf(buf, sizeof(buf), "%s: %s:%d ", my_name, get_basename(file), line);
959 va_start(arg_ptr, fmt);
960 bvsnprintf(buf+len, sizeof(buf)-len, (char *)fmt, arg_ptr);
967 /*********************************************************************
969 * subroutine writes a debug message to the trace file if the level number
970 * is less than or equal the debug_level. File and line numbers
971 * are included for more detail if desired, but not currently
974 * If the level is negative, the details of file and line number
978 t_msg(const char *file, int line, int level, const char *fmt,...)
990 if (level <= debug_level) {
992 bsnprintf(buf, sizeof(buf), "%s/%s.trace", working_directory ? working_directory : ".", my_name);
993 trace_fd = fopen(buf, "a+b");
998 len = bsnprintf(buf, sizeof(buf), "%s: %s:%d ", my_name, get_basename(file), line);
1005 va_start(arg_ptr, fmt);
1006 bvsnprintf(buf+len, sizeof(buf)-len, (char *)fmt, arg_ptr);
1008 if (trace_fd != NULL) {
1009 fputs(buf, trace_fd);
1015 /* *********************************************************
1017 * print an error message
1021 e_msg(const char *file, int line, int type, int level, const char *fmt,...)
1028 * Check if we have a message destination defined.
1029 * We always report M_ABORT and M_ERROR_TERM
1031 if (!daemon_msgs || ((type != M_ABORT && type != M_ERROR_TERM) &&
1032 !bit_is_set(type, daemon_msgs->send_msg))) {
1033 return; /* no destination */
1037 len = bsnprintf(buf, sizeof(buf), _("%s: ABORTING due to ERROR in %s:%d\n"),
1038 my_name, get_basename(file), line);
1041 len = bsnprintf(buf, sizeof(buf), _("%s: ERROR TERMINATION at %s:%d\n"),
1042 my_name, get_basename(file), line);
1045 if (level == -1) /* skip details */
1046 len = bsnprintf(buf, sizeof(buf), _("%s: Fatal Error because: "), my_name);
1048 len = bsnprintf(buf, sizeof(buf), _("%s: Fatal Error at %s:%d because:\n"), my_name, get_basename(file), line);
1051 if (level == -1) /* skip details */
1052 len = bsnprintf(buf, sizeof(buf), _("%s: ERROR: "), my_name);
1054 len = bsnprintf(buf, sizeof(buf), _("%s: ERROR in %s:%d "), my_name, get_basename(file), line);
1057 len = bsnprintf(buf, sizeof(buf), _("%s: Warning: "), my_name);
1060 len = bsnprintf(buf, sizeof(buf), _("%s: Security violation: "), my_name);
1063 len = bsnprintf(buf, sizeof(buf), "%s: ", my_name);
1067 va_start(arg_ptr, fmt);
1068 bvsnprintf(buf+len, sizeof(buf)-len, (char *)fmt, arg_ptr);
1071 dispatch_message(NULL, type, 0, buf);
1073 if (type == M_ABORT) {
1075 p[0] = 0; /* generate segmentation violation */
1077 if (type == M_ERROR_TERM) {
1082 /* *********************************************************
1084 * Generate a Job message
1088 Jmsg(JCR *jcr, int type, utime_t mtime, const char *fmt,...)
1097 Dmsg1(850, "Enter Jmsg type=%d\n", type);
1099 /* Special case for the console, which has a dir_bsock and JobId==0,
1100 * in that case, we send the message directly back to the
1103 if (jcr && jcr->JobId == 0 && jcr->dir_bsock) {
1104 BSOCK *dir = jcr->dir_bsock;
1105 va_start(arg_ptr, fmt);
1106 dir->msglen = bvsnprintf(dir->msg, sizeof_pool_memory(dir->msg),
1109 jcr->dir_bsock->send();
1115 jcr = get_jcr_from_tsd();
1118 msgs = jcr->jcr_msgs;
1122 msgs = daemon_msgs; /* if no jcr, we use daemon handler */
1126 * Check if we have a message destination defined.
1127 * We always report M_ABORT and M_ERROR_TERM
1129 if (msgs && (type != M_ABORT && type != M_ERROR_TERM) &&
1130 !bit_is_set(type, msgs->send_msg)) {
1131 return; /* no destination */
1135 len = bsnprintf(rbuf, sizeof(rbuf), _("%s ABORTING due to ERROR\n"), my_name);
1138 len = bsnprintf(rbuf, sizeof(rbuf), _("%s ERROR TERMINATION\n"), my_name);
1141 len = bsnprintf(rbuf, sizeof(rbuf), _("%s JobId %u: Fatal error: "), my_name, JobId);
1143 set_jcr_job_status(jcr, JS_FatalError);
1147 len = bsnprintf(rbuf, sizeof(rbuf), _("%s JobId %u: Error: "), my_name, JobId);
1153 len = bsnprintf(rbuf, sizeof(rbuf), _("%s JobId %u: Warning: "), my_name, JobId);
1159 len = bsnprintf(rbuf, sizeof(rbuf), _("%s JobId %u: Security violation: "),
1163 len = bsnprintf(rbuf, sizeof(rbuf), "%s JobId %u: ", my_name, JobId);
1167 va_start(arg_ptr, fmt);
1168 bvsnprintf(rbuf+len, sizeof(rbuf)-len, fmt, arg_ptr);
1171 dispatch_message(jcr, type, mtime, rbuf);
1173 if (type == M_ABORT){
1175 printf("Bacula forced SEG FAULT to obtain traceback.\n");
1176 syslog(LOG_DAEMON|LOG_ERR, "Bacula forced SEG FAULT to obtain traceback.\n");
1177 p[0] = 0; /* generate segmentation violation */
1179 if (type == M_ERROR_TERM) {
1185 * If we come here, prefix the message with the file:line-number,
1186 * then pass it on to the normal Jmsg routine.
1188 void j_msg(const char *file, int line, JCR *jcr, int type, utime_t mtime, const char *fmt,...)
1194 pool_buf = get_pool_memory(PM_EMSG);
1195 i = Mmsg(pool_buf, "%s:%d ", get_basename(file), line);
1198 maxlen = sizeof_pool_memory(pool_buf) - i - 1;
1199 va_start(arg_ptr, fmt);
1200 len = bvsnprintf(pool_buf+i, maxlen, fmt, arg_ptr);
1202 if (len < 0 || len >= (maxlen-5)) {
1203 pool_buf = realloc_pool_memory(pool_buf, maxlen + i + maxlen/2);
1209 Jmsg(jcr, type, mtime, "%s", pool_buf);
1210 free_memory(pool_buf);
1215 * Edit a message into a Pool memory buffer, with file:lineno
1217 int m_msg(const char *file, int line, POOLMEM **pool_buf, const char *fmt, ...)
1222 i = sprintf(*pool_buf, "%s:%d ", get_basename(file), line);
1225 maxlen = sizeof_pool_memory(*pool_buf) - i - 1;
1226 va_start(arg_ptr, fmt);
1227 len = bvsnprintf(*pool_buf+i, maxlen, fmt, arg_ptr);
1229 if (len < 0 || len >= (maxlen-5)) {
1230 *pool_buf = realloc_pool_memory(*pool_buf, maxlen + i + maxlen/2);
1238 int m_msg(const char *file, int line, POOLMEM *&pool_buf, const char *fmt, ...)
1243 i = sprintf(pool_buf, "%s:%d ", get_basename(file), line);
1246 maxlen = sizeof_pool_memory(pool_buf) - i - 1;
1247 va_start(arg_ptr, fmt);
1248 len = bvsnprintf(pool_buf+i, maxlen, fmt, arg_ptr);
1250 if (len < 0 || len >= (maxlen-5)) {
1251 pool_buf = realloc_pool_memory(pool_buf, maxlen + i + maxlen/2);
1261 * Edit a message into a Pool Memory buffer NO file:lineno
1262 * Returns: string length of what was edited.
1264 int Mmsg(POOLMEM **pool_buf, const char *fmt, ...)
1270 maxlen = sizeof_pool_memory(*pool_buf) - 1;
1271 va_start(arg_ptr, fmt);
1272 len = bvsnprintf(*pool_buf, maxlen, fmt, arg_ptr);
1274 if (len < 0 || len >= (maxlen-5)) {
1275 *pool_buf = realloc_pool_memory(*pool_buf, maxlen + maxlen/2);
1283 int Mmsg(POOLMEM *&pool_buf, const char *fmt, ...)
1289 maxlen = sizeof_pool_memory(pool_buf) - 1;
1290 va_start(arg_ptr, fmt);
1291 len = bvsnprintf(pool_buf, maxlen, fmt, arg_ptr);
1293 if (len < 0 || len >= (maxlen-5)) {
1294 pool_buf = realloc_pool_memory(pool_buf, maxlen + maxlen/2);
1302 int Mmsg(POOL_MEM &pool_buf, const char *fmt, ...)
1308 maxlen = pool_buf.max_size() - 1;
1309 va_start(arg_ptr, fmt);
1310 len = bvsnprintf(pool_buf.c_str(), maxlen, fmt, arg_ptr);
1312 if (len < 0 || len >= (maxlen-5)) {
1313 pool_buf.realloc_pm(maxlen + maxlen/2);
1322 static pthread_mutex_t msg_queue_mutex = PTHREAD_MUTEX_INITIALIZER;
1325 * We queue messages rather than print them directly. This
1326 * is generally used in low level routines (msg handler, bnet)
1327 * to prevent recursion (i.e. if you are in the middle of
1328 * sending a message, it is a bit messy to recursively call
1329 * yourself when the bnet packet is not reentrant).
1331 void Qmsg(JCR *jcr, int type, utime_t mtime, const char *fmt,...)
1338 pool_buf = get_pool_memory(PM_EMSG);
1341 maxlen = sizeof_pool_memory(pool_buf) - 1;
1342 va_start(arg_ptr, fmt);
1343 len = bvsnprintf(pool_buf, maxlen, fmt, arg_ptr);
1345 if (len < 0 || len >= (maxlen-5)) {
1346 pool_buf = realloc_pool_memory(pool_buf, maxlen + maxlen/2);
1351 item = (MQUEUE_ITEM *)malloc(sizeof(MQUEUE_ITEM) + strlen(pool_buf) + 1);
1353 item->mtime = time(NULL);
1354 strcpy(item->msg, pool_buf);
1356 jcr = get_jcr_from_tsd();
1358 /* If no jcr or dequeuing send to daemon to avoid recursion */
1359 if ((jcr && !jcr->msg_queue) || !jcr || jcr->dequeuing) {
1360 /* jcr==NULL => daemon message, safe to send now */
1361 Jmsg(jcr, item->type, item->mtime, "%s", item->msg);
1364 /* Queue message for later sending */
1366 jcr->msg_queue->append(item);
1369 free_memory(pool_buf);
1375 void dequeue_messages(JCR *jcr)
1379 if (!jcr->msg_queue) {
1382 jcr->dequeuing = true;
1383 foreach_dlist(item, jcr->msg_queue) {
1384 Jmsg(jcr, item->type, item->mtime, "%s", item->msg);
1386 jcr->msg_queue->destroy();
1387 jcr->dequeuing = false;
1395 * If we come here, prefix the message with the file:line-number,
1396 * then pass it on to the normal Qmsg routine.
1398 void q_msg(const char *file, int line, JCR *jcr, int type, utime_t mtime, const char *fmt,...)
1404 pool_buf = get_pool_memory(PM_EMSG);
1405 i = Mmsg(pool_buf, "%s:%d ", file, line);
1408 maxlen = sizeof_pool_memory(pool_buf) - i - 1;
1409 va_start(arg_ptr, fmt);
1410 len = bvsnprintf(pool_buf+i, maxlen, fmt, arg_ptr);
1412 if (len < 0 || len >= (maxlen-5)) {
1413 pool_buf = realloc_pool_memory(pool_buf, maxlen + i + maxlen/2);
1419 Qmsg(jcr, type, mtime, "%s", pool_buf);
1420 free_memory(pool_buf);