2 * Copyright 2000, International Business Machines Corporation and others.
5 * This software has been released under the terms of the IBM Public
6 * License. For details, see the LICENSE file in the top-level source
7 * directory or online at http://www.openafs.org/dl/license10.html
10 #include <afsconfig.h>
11 #include <afs/param.h>
17 #if defined(AFS_LINUX24_ENV)
18 #define _REGEX_RE_COMP
20 #include <sys/types.h>
21 #if defined(AFS_LINUX24_ENV)
28 #include <sys/socket.h>
29 #include <netinet/in.h>
34 #include <afs/com_err.h>
37 #include <afs/bubasics.h> /* PA */
38 #include <afs/volser.h>
39 #include <afs/voldefs.h> /* PA */
40 #include <afs/vldbint.h> /* PA */
41 #include <afs/ktime.h> /* PA */
47 #include <afs/tcdata.h>
50 #include "error_macros.h"
53 extern struct bc_config *bc_globalConfig;
54 extern struct bc_dumpSchedule *bc_FindDumpSchedule();
55 extern struct bc_volumeSet *bc_FindVolumeSet(struct bc_config *cfg,
57 extern struct bc_dumpTask bc_dumpTasks[BC_MAXSIMDUMPS];
58 extern struct ubik_client *cstruct;
59 extern int bc_Dumper(); /* function to do dumps */
60 extern int bc_Restorer(); /* function to do restores */
62 extern struct ktc_token ttoken;
63 extern char *tailCompPtr();
64 extern statusP createStatusNode();
67 extern afs_int32 lastTaskCode;
69 #define HOSTADDR(sockaddr) (sockaddr)->sin_addr.s_addr
72 bc_EvalVolumeSet(aconfig, avs, avols, uclient)
73 struct bc_config *aconfig;
74 register struct bc_volumeSet *avs;
75 struct bc_volumeDump **avols;
76 struct ubik_client *uclient;
77 { /*bc_EvalVolumeSet */
79 static afs_int32 use = 2;
81 if (use == 2) { /* Use EvalVolumeSet2() */
82 code = EvalVolumeSet2(aconfig, avs, avols, uclient);
83 if (code == RXGEN_OPCODE)
86 if (use == 1) { /* Use EvalVolumeSet1() */
87 code = EvalVolumeSet1(aconfig, avs, avols, uclient);
90 } /*bc_EvalVolumeSet */
92 struct partitionsort {
94 struct bc_volumeDump *vdlist;
95 struct bc_volumeDump *lastvdlist;
96 struct bc_volumeDump *dupvdlist;
97 struct bc_volumeEntry *vole;
98 struct partitionsort *next;
102 struct partitionsort *partitions;
103 struct serversort *next;
107 getSPEntries(server, partition, serverlist, ss, ps)
110 struct serversort **serverlist, **ss;
111 struct partitionsort **ps;
113 if (!(*ss) || ((*ss)->ipaddr != server)) {
115 for ((*ss) = *serverlist; (*ss); *ss = (*ss)->next) {
116 if ((*ss)->ipaddr == server)
120 /* No server entry added. Add one */
122 *ss = (struct serversort *)malloc(sizeof(struct serversort));
124 com_err(whoami, BC_NOMEM, "");
128 memset(*ss, 0, sizeof(struct serversort));
129 (*ss)->ipaddr = server;
130 (*ss)->next = *serverlist;
135 if (!(*ps) || ((*ps)->part != partition)) {
136 for (*ps = (*ss)->partitions; *ps; *ps = (*ps)->next) {
137 if ((*ps)->part == partition)
141 /* No partition entry added. Add one */
143 *ps = (struct partitionsort *)malloc(sizeof(struct partitionsort));
145 com_err(whoami, BC_NOMEM, "");
151 memset(*ps, 0, sizeof(struct partitionsort));
152 (*ps)->part = partition;
153 (*ps)->next = (*ss)->partitions;
154 (*ss)->partitions = *ps;
160 randSPEntries(serverlist, avols)
161 struct serversort *serverlist;
162 struct bc_volumeDump **avols;
164 struct serversort *ss, **pss;
165 struct partitionsort *ps, **pps;
167 afs_int32 scount, pcount;
171 /* Seed random number generator */
172 r = time(0) + getpid();
175 /* Count number of servers, remove one at a time */
176 for (scount = 0, ss = serverlist; ss; ss = ss->next, scount++);
177 for (; scount; scount--) {
178 /* Pick a random server in list and remove it */
179 r = (rand() >> 4) % scount;
180 for (pss = &serverlist, ss = serverlist; r;
181 pss = &ss->next, ss = ss->next, r--);
184 /* Count number of partitions, remove one at a time */
185 for (pcount = 0, ps = ss->partitions; ps; ps = ps->next, pcount++);
186 for (; pcount; pcount--) {
187 /* Pick a random parition in list and remove it */
188 r = (rand() >> 4) % pcount;
189 for (pps = &ss->partitions, ps = ss->partitions; r;
190 pps = &ps->next, ps = ps->next, r--);
193 ps->lastvdlist->next = *avols;
203 EvalVolumeSet2(aconfig, avs, avols, uclient)
204 struct bc_config *aconfig;
205 struct bc_volumeSet *avs;
206 struct bc_volumeDump **avols;
207 struct ubik_client *uclient;
208 { /*EvalVolumeSet2 */
209 struct bc_volumeEntry *tve;
210 struct bc_volumeDump *tavols;
211 struct VldbListByAttributes attributes;
212 afs_int32 si, nsi; /* startIndex and nextStartIndex */
213 afs_int32 nentries, e, ei, et, add, l;
214 nbulkentries bulkentries;
215 struct nvldbentry *entries = 0;
216 struct bc_volumeDump *tvd;
217 afs_int32 code = 0, tcode;
219 struct serversort *servers = 0, *lastserver = 0, *ss = 0;
220 struct partitionsort *ps = 0;
222 *avols = (struct bc_volumeDump *)0;
223 bulkentries.nbulkentries_len = 0;
224 bulkentries.nbulkentries_val = 0;
226 /* For each of the volume set entries - collect the volumes that match it */
227 for (tve = avs->ventries; tve; tve = tve->next) {
228 /* Put together a call to the vlserver for this vlentry. The
229 * performance gain is from letting the vlserver expand the
230 * volumeset and not this routine.
233 if (tve->server.sin_addr.s_addr) { /* The server */
234 attributes.Mask |= VLLIST_SERVER;
235 attributes.server = tve->server.sin_addr.s_addr;
237 if (tve->partition != -1) { /* The partition */
238 attributes.Mask |= VLLIST_PARTITION;
239 attributes.partition = tve->partition;
242 /* Now make the call to the vlserver */
243 for (si = 0; si != -1; si = nsi) {
245 bulkentries.nbulkentries_len = 0;
246 bulkentries.nbulkentries_val = 0;
249 ubik_Call(VL_ListAttributesN2, uclient, 0, &attributes,
250 tve->name, si, &nentries, &bulkentries, &nsi);
254 /* The 3.4 vlserver has a VL_ListAttributesN2() RPC call, but
255 * it is not complete. The only way to tell if it is not complete
256 * is if et == 0 (which we check for below). Also, if the call didn't
257 * match any entries, then we don't know what version the vlserver
258 * is. In both cases, we return RXGEN_OPCODE and the calling routine
259 * will switch to the EvalVolumeSet1() call.
262 ERROR(RXGEN_OPCODE); /* Use EvalVolumeSet1 */
264 /* Step through each entry and add it to the list of volumes */
265 entries = bulkentries.nbulkentries_val;
266 for (e = 0; e < nentries; e++) {
267 ei = entries[e].matchindex & 0xffff;
268 et = (entries[e].matchindex >> 16) & 0xffff;
283 ERROR(RXGEN_OPCODE); /* Use EvalVolumeSet1 */
286 /* Find server and partiton structure to hang the entry off of */
288 getSPEntries(entries[e].serverNumber[ei],
289 entries[e].serverPartition[ei], &servers,
292 com_err(whoami, tcode, "");
296 /* Detect if this entry should be added (not a duplicate).
297 * Use ps->dupvdlist and ps->vole to only search volumes from
298 * previous volume set entries.
301 if (tve != avs->ventries) {
302 l = strlen(entries[e].name);
303 if (ps->vole != tve) {
305 ps->dupvdlist = ps->vdlist;
307 for (tavols = ps->dupvdlist; add && tavols;
308 tavols = tavols->next) {
309 if (strncmp(tavols->name, entries[e].name, l) == 0) {
310 if ((strcmp(&entries[e].name[l], ".backup") == 0)
311 || (strcmp(&entries[e].name[l], ".readonly")
313 || (strcmp(&entries[e].name[l], "") == 0))
320 /* Allocate a volume dump structure and its name */
321 tvd = (struct bc_volumeDump *)
322 malloc(sizeof(struct bc_volumeDump));
324 com_err(whoami, BC_NOMEM, "");
327 memset(tvd, 0, sizeof(*tvd));
329 tvd->name = (char *)malloc(strlen(entries[e].name) + 10);
331 com_err(whoami, BC_NOMEM, "");
336 /* Fill it in and thread onto avols list */
337 strcpy(tvd->name, entries[e].name);
339 strcat(tvd->name, ".backup");
340 else if (et == ROVOL)
341 strcat(tvd->name, ".readonly");
342 tvd->vid = entries[e].volumeId[et];
345 tvd->partition = entries[e].serverPartition[ei];
346 tvd->server.sin_addr.s_addr = entries[e].serverNumber[ei];
347 tvd->server.sin_port = 0; /* default FS port */
348 tvd->server.sin_family = AF_INET;
349 #ifdef STRUCT_SOCKADDR_HAS_SA_LEN
350 tvd->server.sin_len = sizeof(struct sockaddr_in);
353 /* String tvd off of partition struct */
354 tvd->next = ps->vdlist;
357 ps->lastvdlist = tvd;
363 /* Free memory allocated during VL call */
364 if (bulkentries.nbulkentries_val) {
365 free((char *)bulkentries.nbulkentries_val);
366 bulkentries.nbulkentries_val = 0;
372 /* Randomly link the volumedump entries together */
373 randSPEntries(servers, avols);
374 fprintf(stderr, "Total number of volumes : %u\n", count);
377 if (bulkentries.nbulkentries_val) {
378 free((char *)bulkentries.nbulkentries_val);
381 } /*EvalVolumeSet2 */
383 /*-----------------------------------------------------------------------------
387 * Takes the entries in a volumeset and expands them into a list of
388 * volumes. Every VLDB volume entry is looked at and compared to the
391 * When matching a VLDB volume entry to a volumeset entry,
392 * 1. If the RW volume entry matches, that RW volume is used.
393 * 2. Otherwise, if the BK volume entry matches, the BK volume is used.
394 * 3. Finally, if the RO volume entry matches, the RO volume is used.
395 * For instance: A volumeset entry of ".* .* user.t.*" will match volume
396 * "user.troy" and "user.troy.backup". The rules will use
397 * the RW volume "user.troy".
399 * When a VLDB volume entry matches a volumeset entry (be it RW, BK or RO),
400 * that volume is used and matches against any remaining volumeset entries
402 * For instance: A 1st volumeset entry ".* .* .*.backup" will match with
403 * "user.troy.backup". Its 2nd volumeset entry ".* .* .*"
404 * would have matched its RW volume "user.troy", but the first
405 * match is used and the second match isn't even done.
408 * aconfig : Global configuration info.
410 * avols : Ptr to linked list of entries describing volumes to dump.
411 * uclient : Ptr to Ubik client structure.
414 * 0 on successful volume set evaluation,
415 * Lower-level codes otherwise.
418 * Expand only the single volume set provided (avs); don't go down its chain.
422 *-----------------------------------------------------------------------------
425 EvalVolumeSet1(aconfig, avs, avols, uclient)
426 struct bc_config *aconfig;
427 struct bc_volumeSet *avs;
428 struct bc_volumeDump **avols;
429 struct ubik_client *uclient;
430 { /*EvalVolumeSet1 */
431 afs_int32 code; /*Result of various calls */
433 struct bc_volumeDump *tvd; /*Ptr to new dump instance */
434 struct bc_volumeEntry *tve, *ctve; /*Ptr to new volume entry instance */
435 char patt[256]; /*Composite regex; also, target string */
436 int volType; /*Type of volume that worked */
437 afs_int32 index; /*Current VLDB entry index */
438 afs_int32 count; /*Needed by VL_ListEntry() */
439 afs_int32 next_index; /*Next index to list */
440 struct vldbentry entry; /*VLDB entry */
441 int srvpartpair; /*Loop counter: server/partition pair */
443 int found, foundentry;
444 struct serversort *servers = 0, *ss = 0;
445 struct partitionsort *ps = 0;
447 *avols = (struct bc_volumeDump *)0;
448 ctve = (struct bc_volumeEntry *)0; /* no compiled entry */
450 /* For each vldb entry.
451 * Variable next_index is set to the index of the next VLDB entry
452 * in the enumeration.
454 for (index = 0; 1; index = next_index) { /*w */
455 memset(&entry, 0, sizeof(entry));
456 code = ubik_Call(VL_ListEntry, /*Routine to invoke */
457 uclient, /*Ubik client structure */
459 index, /*Current index */
460 &count, /*Ptr to working variable */
461 &next_index, /*Ptr to next index value to list */
462 &entry); /*Ptr to entry to fill */
466 break; /* If the next index is invalid, bail out now. */
468 /* For each entry in the volume set */
469 found = 0; /* No match in volume set yet */
470 for (tve = avs->ventries; tve; tve = tve->next) { /*ve */
471 /* for each server in the vldb entry */
472 for (srvpartpair = 0; srvpartpair < entry.nServers; srvpartpair++) { /*s */
473 /* On the same server */
474 if (tve->server.sin_addr.s_addr
475 && !VLDB_IsSameAddrs(tve->server.sin_addr.s_addr,
476 entry.serverNumber[srvpartpair],
484 /* On the same partition */
485 if ((tve->partition != -1)
486 && (tve->partition != entry.serverPartition[srvpartpair]))
489 /* If the volume entry is not compiled, then compile it */
491 sprintf(patt, "^%s$", tve->name);
492 errm = (char *)re_comp(patt);
495 "Can't compile regular expression '%s': %s",
502 /* If the RW name matches the volume set entry, take
503 * it and exit. First choice is to use the RW volume.
505 if (entry.serverFlags[srvpartpair] & ITSRWVOL) {
506 if (entry.flags & RW_EXISTS) {
507 sprintf(patt, "%s", entry.name);
508 code = re_exec(patt);
511 foundentry = srvpartpair;
517 /* If the BK name matches the volume set entry, take
518 * it and exit. Second choice is to use the BK volume.
520 if (entry.flags & BACK_EXISTS) {
521 sprintf(patt, "%s.backup", entry.name);
522 code = re_exec(patt);
525 foundentry = srvpartpair;
532 /* If the RO name matches the volume set entry, remember
533 * it, but continue searching. Further entries may be
534 * RW or backup entries that will match.
536 else if (!found && (entry.serverFlags[srvpartpair] & ITSROVOL)
537 && (entry.flags & RO_EXISTS)) {
538 sprintf(patt, "%s.readonly", entry.name);
539 code = re_exec(patt);
542 foundentry = srvpartpair;
548 com_err(whoami, 0, "Internal error in regex package");
551 /* If found a match, then create a new volume dump entry */
553 /* Find server and partition structure to hang the entry off of */
555 getSPEntries(entry.serverNumber[foundentry],
556 entry.serverPartition[foundentry], &servers,
559 com_err(whoami, code, "");
564 tvd = (struct bc_volumeDump *)
565 malloc(sizeof(struct bc_volumeDump));
567 com_err(whoami, BC_NOMEM, "");
570 memset(tvd, 0, sizeof(*tvd));
572 tvd->name = (char *)malloc(strlen(entry.name) + 10);
574 com_err(whoami, BC_NOMEM, "");
579 strcpy(tvd->name, entry.name);
580 if (volType == BACKVOL)
581 strcat(tvd->name, ".backup");
582 else if (volType == ROVOL)
583 strcat(tvd->name, ".readonly");
584 tvd->vid = entry.volumeId[volType];
586 tvd->volType = volType;
587 tvd->partition = entry.serverPartition[foundentry];
588 tvd->server.sin_addr.s_addr = entry.serverNumber[foundentry];
589 tvd->server.sin_port = 0; /* default FS port */
590 tvd->server.sin_family = AF_INET;
592 /* String tvd off of partition struct */
593 tvd->next = ps->vdlist;
596 ps->lastvdlist = tvd;
603 /* Randomly link the volumedump entries together */
604 randSPEntries(servers, avols);
606 fprintf(stderr, "Total number of volumes : %u\n", total);
608 } /*EvalVolumeSet1 */
611 * print out a date in compact format, 16 chars, format is
614 * date_long - ptr to a long containing the time
616 * ptr to a string containing a representation of the date
619 compactDateString(date_long, string, size)
620 afs_int32 *date_long, size;
628 if (*date_long == NEVERDATE) {
629 sprintf(string, "NEVER");
631 time_t t = *date_long;
632 ltime = localtime(&t);
633 /* prints date in U.S. format of mm/dd/yyyy */
634 strftime(string, size, "%m/%d/%Y %H:%M", ltime);
645 for (; *anum; anum++) {
646 if ((*anum < '0') || (*anum > '9'))
648 total = (10 * total) + (afs_int32) (*anum - '0');
654 * Take a string and parse it for a number (could be float) followed
655 * by a character representing the units (K,M,G,T). Default is 'K'.
656 * Return the size in KBytes.
664 afs_int32 fraction = 0; /* > 0 if past the decimal */
666 for (; *anum; anum++) {
667 if ((*anum == 't') || (*anum == 'T')) {
668 total *= 1024 * 1024 * 1024;
671 if ((*anum == 'g') || (*anum == 'G')) {
672 total *= 1024 * 1024;
675 if ((*anum == 'm') || (*anum == 'M')) {
679 if ((*anum == 'k') || (*anum == 'K')) {
686 if ((*anum < '0') || (*anum > '9'))
690 total = (10. * total) + (float)(*anum - '0');
692 total += ((float)(*anum - '0')) / (float)fraction;
697 total += 0.5; /* Round up */
698 if (total > 0x7fffffff) /* Don't go over 2G */
700 rtotal = (afs_int32) total;
704 /* make a copy of a string so that it can be freed later */
706 bc_CopyString(astring)
713 return (NULL); /* propagate null strings easily */
714 tlen = strlen(astring);
715 tp = (char *)malloc(tlen + 1); /* don't forget the terminating null */
717 com_err(whoami, BC_NOMEM, "");
726 * Concatenates the parameters of an option and returns the string.
731 concatParams(itemPtr)
732 struct cmd_item *itemPtr;
734 struct cmd_item *tempPtr;
735 afs_int32 length = 0;
738 /* compute the length of string required */
739 for (tempPtr = itemPtr; tempPtr; tempPtr = tempPtr->next) {
740 length += strlen(tempPtr->data);
741 length++; /* space or null terminator */
744 if (length == 0) { /* no string (0 length) */
745 com_err(whoami, 0, "Can't have zero length date and time string");
749 string = (char *)malloc(length); /* allocate the string */
751 com_err(whoami, BC_NOMEM, "");
756 tempPtr = itemPtr; /* now assemble the string */
758 strcat(string, tempPtr->data);
759 tempPtr = tempPtr->next;
764 return (string); /* return the string */
768 * print out an interface status node as received from butc
771 printIfStatus(statusPtr)
772 struct tciStatusS *statusPtr;
774 printf("Task %d: %s: ", statusPtr->taskId, statusPtr->taskName);
775 if (statusPtr->nKBytes)
776 printf("%ld Kbytes transferred", statusPtr->nKBytes);
777 if (strlen(statusPtr->volumeName) != 0) {
778 if (statusPtr->nKBytes)
780 printf("volume %s", statusPtr->volumeName);
785 if (statusPtr->flags & ABORT_REQUEST)
786 printf(" [abort request rcvd]");
788 if (statusPtr->flags & ABORT_DONE)
789 printf(" [abort complete]");
791 if (statusPtr->flags & OPR_WAIT)
792 printf(" [operator wait]");
794 if (statusPtr->flags & CALL_WAIT)
795 printf(" [callout in progress]");
797 if (statusPtr->flags & DRIVE_WAIT)
798 printf(" [drive wait]");
800 if (statusPtr->flags & TASK_DONE)
809 afs_int32 portOffset;
811 portOffset = bc_SafeATOI(port);
813 if (portOffset < 0) {
814 com_err(whoami, 0, "Can't decode port offset '%s'", port);
816 } else if (portOffset > BC_MAXPORTOFFSET) {
817 com_err(whoami, 0, "%u exceeds max port offset %u", portOffset,
824 /* bc_GetTapeStatusCmd
825 * display status of all tasks on a particular tape coordinator
828 bc_GetTapeStatusCmd(as, arock)
829 struct cmd_syndesc *as;
833 struct rx_connection *tconn;
834 afs_int32 portOffset = 0;
839 struct tciStatusS status;
841 code = bc_UpdateHosts();
843 com_err(whoami, code, "; Can't retrieve tape hosts");
847 if (as->parms[0].items) {
848 portOffset = getPortOffset(as->parms[0].items->data);
853 code = ConnectButc(bc_globalConfig, portOffset, &tconn);
857 flags = TSK_STAT_FIRST;
861 while ((flags & TSK_STAT_END) == 0) {
862 code = TC_ScanStatus(tconn, &taskId, &status, &flags);
864 if (code == TC_NOTASKS)
866 com_err(whoami, code, "; Can't get status from butc");
869 if ((flags & TSK_STAT_NOTFOUND))
870 break; /* Can't find the task id */
871 flags &= ~TSK_STAT_FIRST; /* turn off flag */
873 printIfStatus(&status);
878 printf("Tape coordinator is idle\n");
880 if (flags & TSK_STAT_ADSM)
881 printf("TSM Tape coordinator\n");
882 else if (flags & TSK_STAT_XBSA)
883 printf("XBSA Tape coordinator\n");
888 extern struct Lock dispatchLock;
891 * wait for all jobs to terminate
898 int usefulJobRunning = 1;
900 extern dlqlinkT statusHead;
902 com_err(whoami, 0, "waiting for job termination");
904 while (usefulJobRunning) {
905 usefulJobRunning = (dlqEmpty(&statusHead) ? 0 : 1);
906 if (dispatchLock.excl_locked)
907 usefulJobRunning = 1;
908 for (i = 0; (!usefulJobRunning && (i < BC_MAXSIMDUMPS)); i++) {
909 if (bc_dumpTasks[i].flags & BC_DI_INUSE)
910 usefulJobRunning = 1;
913 /* Wait 5 seconds and check again */
914 if (usefulJobRunning)
917 return (lastTaskCode);
921 * print status on running jobs
923 * ignored - a null "as" prints only jobs.
926 bc_JobsCmd(as, arock)
927 struct cmd_syndesc *as;
937 extern dlqlinkT statusHead;
939 dlqInit(&atJobsHead);
942 ptr = (&statusHead)->dlq_next;
943 while (ptr != &statusHead) {
944 statusPtr = (statusP) ptr;
947 if (statusPtr->scheduledDump) {
948 dlqUnlink((dlqlinkP) statusPtr);
949 dlqLinkb(&atJobsHead, (dlqlinkP) statusPtr);
951 printf("Job %d:", statusPtr->jobNumber);
953 printf(" %s", statusPtr->taskName);
955 if (statusPtr->dbDumpId)
956 printf(": DumpID %u", statusPtr->dbDumpId);
957 if (statusPtr->nKBytes)
958 printf(", %ld Kbytes", statusPtr->nKBytes);
959 if (strlen(statusPtr->volumeName) != 0)
960 printf(", volume %s", statusPtr->volumeName);
962 if (statusPtr->flags & CONTACT_LOST)
963 printf(" [butc contact lost]");
965 if (statusPtr->flags & ABORT_REQUEST)
966 printf(" [abort request]");
968 if (statusPtr->flags & ABORT_SENT)
969 printf(" [abort sent]");
971 if (statusPtr->flags & OPR_WAIT)
972 printf(" [operator wait]");
974 if (statusPtr->flags & CALL_WAIT)
975 printf(" [callout in progress]");
977 if (statusPtr->flags & DRIVE_WAIT)
978 printf(" [drive wait]");
984 * Now print the scheduled dumps.
986 if (!dlqEmpty(&statusHead) && as)
987 printf("\n"); /* blank line between running and scheduled dumps */
990 while (!dlqEmpty(&atJobsHead)) {
991 ptr = (&atJobsHead)->dlq_next;
992 youngest = (statusP) ptr;
995 while (ptr != &atJobsHead) { /* Find the dump that starts the earliest */
996 statusPtr = (statusP) ptr;
997 if (statusPtr->scheduledDump < youngest->scheduledDump)
998 youngest = statusPtr;
1002 /* Print token expiration time */
1003 if ((ttoken.endTime > prevTime)
1004 && (ttoken.endTime <= youngest->scheduledDump) && as
1005 && (ttoken.endTime != NEVERDATE)) {
1006 if (ttoken.endTime > time(0)) {
1007 compactDateString(&ttoken.endTime, ds, 50);
1008 printf(" %16s: TOKEN EXPIRATION\n", ds);
1010 printf(" TOKEN HAS EXPIRED\n");
1013 prevTime = youngest->scheduledDump;
1015 /* Print the info */
1016 compactDateString(&youngest->scheduledDump, ds, 50);
1017 printf("Job %d:", youngest->jobNumber);
1018 printf(" %16s: %s", ds, youngest->cmdLine);
1021 /* return to original list */
1022 dlqUnlink((dlqlinkP) youngest);
1023 dlqLinkb(&statusHead, (dlqlinkP) youngest);
1026 /* Print token expiration time if havn't already */
1027 if ((ttoken.endTime == NEVERDATE) && as)
1028 printf(" : TOKEN NEVER EXPIRES\n");
1029 else if ((ttoken.endTime > prevTime) && as) {
1030 if (ttoken.endTime > time(0)) {
1031 compactDateString(&ttoken.endTime, ds, 50);
1032 printf(" %16s: TOKEN EXPIRATION\n", ds);
1034 printf(" : TOKEN HAS EXPIRED\n");
1042 bc_KillCmd(as, arock)
1043 struct cmd_syndesc *as;
1048 struct bc_dumpTask *td;
1055 extern dlqlinkT statusHead;
1056 extern statusP findStatus();
1059 tp = as->parms[0].items->data;
1060 if (strchr(tp, '.') == 0) {
1061 slot = bc_SafeATOI(tp);
1063 com_err(whoami, 0, "Bad syntax for number '%s'", tp);
1068 ptr = (&statusHead)->dlq_next;
1069 while (ptr != &statusHead) {
1070 statusPtr = (statusP) ptr;
1071 if (statusPtr->jobNumber == slot) {
1072 statusPtr->flags |= ABORT_REQUEST;
1076 ptr = ptr->dlq_next;
1080 fprintf(stderr, "Job %d not found\n", slot);
1085 for (i = 0; i < BC_MAXSIMDUMPS; i++, td++) {
1086 if (td->flags & BC_DI_INUSE) {
1088 strcpy(tbuffer, td->volSetName);
1089 strcat(tbuffer, ".");
1090 strcat(tbuffer, tailCompPtr(td->dumpName));
1091 if (strcmp(tbuffer, tp) == 0)
1095 if (i >= BC_MAXSIMDUMPS) {
1096 com_err(whoami, 0, "Can't find job %s", tp);
1101 statusPtr = findStatus(td->dumpID);
1103 if (statusPtr == 0) {
1104 com_err(whoami, 0, "Can't locate status - internal error");
1108 statusPtr->flags |= ABORT_REQUEST;
1115 /* restore a volume or volumes */
1116 bc_VolRestoreCmd(as, arock)
1117 struct cmd_syndesc *as;
1121 * parm 0 is the new server to restore to
1122 * parm 1 is the new partition to restore to
1123 * parm 2 is volume(s) to restore
1124 * parm 3 is the new extension, if any, for the volume name.
1125 * parm 4 gives the new volume # to restore this volume as (removed).
1126 * parm 4 date is a string representing the date
1128 * We handle four types of restores. If old is set, then we restore the
1129 * volume with the same name and ID. If old is not set, we allocate
1130 * a new volume ID for the restored volume. If a new extension is specified,
1131 * we add that extension to the volume name of the restored volume.
1133 struct bc_volumeEntry tvolumeEntry; /* entry within the volume set */
1134 struct bc_volumeDump *volsToRestore = (struct bc_volumeDump *)0;
1135 struct bc_volumeDump *lastVol = (struct bc_volumeDump *)0;
1136 struct bc_volumeDump *tvol; /* temp for same */
1137 struct sockaddr_in destServ; /* machine to which to restore volumes */
1138 afs_int32 destPartition; /* partition to which to restore volumes */
1140 struct cmd_item *ti;
1144 char *newExt, *timeString;
1146 afs_int32 *ports = NULL;
1147 afs_int32 portCount = 0;
1150 code = bc_UpdateHosts();
1152 com_err(whoami, code, "; Can't retrieve tape hosts");
1156 /* specified other destination host */
1157 if (as->parms[0].items) {
1158 tp = as->parms[0].items->data;
1159 if (bc_ParseHost(tp, &destServ)) {
1160 com_err(whoami, 0, "Failed to locate destination host '%s'", tp);
1165 /* specified other destination partition */
1166 if (as->parms[1].items) {
1167 tp = as->parms[1].items->data;
1168 if (bc_GetPartitionID(tp, &destPartition)) {
1169 com_err(whoami, 0, "Can't parse destination partition '%s'", tp);
1174 for (ti = as->parms[2].items; ti; ti = ti->next) {
1175 /* build list of volume items */
1176 tvol = (struct bc_volumeDump *)malloc(sizeof(struct bc_volumeDump));
1178 com_err(whoami, BC_NOMEM, "");
1181 memset(tvol, 0, sizeof(struct bc_volumeDump));
1183 tvol->name = (char *)malloc(VOLSER_MAXVOLNAME + 1);
1185 com_err(whoami, BC_NOMEM, "");
1188 strncpy(tvol->name, ti->data, VOLSER_OLDMAXVOLNAME);
1189 tvol->entry = &tvolumeEntry;
1192 lastVol->next = tvol; /* thread onto end of list */
1194 volsToRestore = tvol;
1198 if (as->parms[4].items) {
1199 timeString = concatParams(as->parms[4].items);
1203 code = ktime_DateToLong(timeString, &fromDate);
1206 com_err(whoami, 0, "Can't parse restore date and time");
1207 com_err(whoami, 0, "%s", ktime_GetDateUsage());
1211 fromDate = 0x7fffffff; /* latest one */
1214 newExt = (as->parms[3].items ? as->parms[3].items->data : NULL);
1217 /* Read all the port offsets into the ports array. The first element in the
1218 * array is for full restore and the rest are for incremental restores
1220 if (as->parms[5].items) {
1221 for (ti = as->parms[5].items; ti; ti = ti->next)
1223 ports = (afs_int32 *) malloc(portCount * sizeof(afs_int32));
1225 com_err(whoami, BC_NOMEM, "");
1229 for (ti = as->parms[5].items, i = 0; ti; ti = ti->next, i++) {
1230 ports[i] = getPortOffset(ti->data);
1236 dontExecute = (as->parms[6].items ? 1 : 0); /* -n */
1239 * Perform the call to start the restore.
1242 bc_StartDmpRst(bc_globalConfig, "volume", "restore", volsToRestore,
1243 &destServ, destPartition, fromDate, newExt, oldFlag,
1244 /*parentDump */ 0, /*dumpLevel */ 0,
1245 bc_Restorer, ports, portCount,
1246 /*dumpSched */ 0, /*append */ 0, dontExecute);
1248 com_err(whoami, code, "; Failed to queue restore");
1253 /* restore a whole partition or server */
1255 /* bc_DiskRestoreCmd
1256 * restore a whole partition
1258 * first, reqd - machine (server) to restore
1259 * second, reqd - partition to restore
1263 bc_DiskRestoreCmd(as, arock)
1264 struct cmd_syndesc *as;
1267 struct bc_volumeSet tvolumeSet; /* temporary volume set for EvalVolumeSet call */
1268 struct bc_volumeEntry tvolumeEntry; /* entry within the volume set */
1269 struct bc_volumeDump *volsToRestore = (struct bc_volumeDump *)0;
1270 struct sockaddr_in destServ; /* machine to which to restore volumes */
1271 afs_int32 destPartition; /* partition to which to restore volumes */
1277 afs_int32 *ports = NULL;
1278 afs_int32 portCount = 0;
1280 struct bc_volumeDump *prev, *tvol, *nextvol;
1281 struct cmd_item *ti;
1284 /* parm 0 is the server to restore
1285 * parm 1 is the partition to restore
1287 * parm 8 and above as in VolRestoreCmd:
1288 * parm 8 is the new server to restore to
1289 * parm 9 is the new partition to restore to
1292 code = bc_UpdateVolumeSet();
1294 com_err(whoami, code, "; Can't retrieve volume sets");
1297 code = bc_UpdateHosts();
1299 com_err(whoami, code, "; Can't retrieve tape hosts");
1303 /* create a volume set corresponding to the volume pattern we've been given */
1304 memset(&tvolumeSet, 0, sizeof(tvolumeSet));
1305 memset(&tvolumeEntry, 0, sizeof(tvolumeEntry));
1306 tvolumeSet.name = "TempVolumeSet";
1307 tvolumeSet.ventries = &tvolumeEntry;
1308 tvolumeEntry.serverName = as->parms[0].items->data;
1309 tvolumeEntry.partname = as->parms[1].items->data;
1311 if (bc_GetPartitionID(tvolumeEntry.partname, &tvolumeEntry.partition)) {
1312 com_err(whoami, 0, "Can't parse partition '%s'",
1313 tvolumeEntry.partname);
1317 if (bc_ParseHost(tvolumeEntry.serverName, &tvolumeEntry.server)) {
1318 com_err(whoami, 0, "Can't locate host '%s'", tvolumeEntry.serverName);
1322 /* specified other destination host */
1323 if (as->parms[8].items) {
1324 tp = as->parms[8].items->data;
1325 if (bc_ParseHost(tp, &destServ)) {
1326 com_err(whoami, 0, "Can't locate destination host '%s'", tp);
1329 } else /* use destination host == original host */
1330 memcpy(&destServ, &tvolumeEntry.server, sizeof(destServ));
1332 /* specified other destination partition */
1333 if (as->parms[9].items) {
1334 tp = as->parms[9].items->data;
1335 if (bc_GetPartitionID(tp, &destPartition)) {
1336 com_err(whoami, 0, "Can't parse destination partition '%s'", tp);
1339 } else /* use original partition */
1340 destPartition = tvolumeEntry.partition;
1342 tvolumeEntry.name = ".*"; /* match all volumes (this should be a parameter) */
1344 if (as->parms[2].items) {
1345 for (ti = as->parms[2].items; ti; ti = ti->next)
1347 ports = (afs_int32 *) malloc(portCount * sizeof(afs_int32));
1349 com_err(whoami, BC_NOMEM, "");
1353 for (ti = as->parms[2].items, i = 0; ti; ti = ti->next, i++) {
1354 ports[i] = getPortOffset(ti->data);
1360 newExt = (as->parms[10].items ? as->parms[10].items->data : NULL);
1361 dontExecute = (as->parms[11].items ? 1 : 0); /* -n */
1364 * Expand out the volume set into its component list of volumes, by calling VLDB server.
1367 bc_EvalVolumeSet(bc_globalConfig, &tvolumeSet, &volsToRestore,
1370 com_err(whoami, code, "; Failed to evaluate volume set");
1374 /* Since we want only RW volumes, remove any
1375 * BK or RO volumes from the list.
1377 for (prev = 0, tvol = volsToRestore; tvol; tvol = nextvol) {
1378 nextvol = tvol->next;
1379 if (BackupName(tvol->name)) {
1382 "Will not restore volume %s (its RW does not reside on the partition)\n",
1385 if (tvol == volsToRestore) {
1386 volsToRestore = nextvol;
1388 prev->next = nextvol;
1398 fromDate = 0x7fffffff; /* last one before this date */
1399 oldFlag = 1; /* do restore same volid (and name) */
1402 * Perform the call to start the dump.
1405 bc_StartDmpRst(bc_globalConfig, "disk", "restore", volsToRestore,
1406 &destServ, destPartition, fromDate, newExt, oldFlag,
1407 /*parentDump */ 0, /*dumpLevel */ 0,
1408 bc_Restorer, ports, portCount,
1409 /*dumpSched */ 0, /*append */ 0, dontExecute);
1411 com_err(whoami, code, "; Failed to queue restore");
1416 /* bc_VolsetRestoreCmd
1417 * restore a volumeset or list of volumes.
1420 bc_VolsetRestoreCmd(as, arock)
1421 struct cmd_syndesc *as;
1429 afs_int32 *ports = NULL;
1430 afs_int32 portCount = 0;
1432 afs_int32 portoffset = 0;
1434 struct bc_volumeSet *volsetPtr; /* Ptr to list of generated volume info */
1435 struct bc_volumeDump *volsToRestore = (struct bc_volumeDump *)0;
1436 struct bc_volumeDump *lastVol = (struct bc_volumeDump *)0;
1437 struct sockaddr_in destServer; /* machine to which to restore volume */
1438 afs_int32 destPartition; /* partition to which to restore volumes */
1439 struct cmd_item *ti;
1442 code = bc_UpdateVolumeSet();
1444 com_err(whoami, code, "; Can't retrieve volume sets");
1447 code = bc_UpdateHosts();
1449 com_err(whoami, code, "; Can't retrieve tape hosts");
1453 if (as->parms[0].items) {
1454 if (as->parms[1].items) {
1455 com_err(whoami, 0, "Can't have both -name and -file options");
1459 volsetName = as->parms[0].items->data;
1460 volsetPtr = bc_FindVolumeSet(bc_globalConfig, volsetName);
1463 "Can't find volume set '%s' in backup database",
1468 /* Expand out the volume set into its component list of volumes. */
1470 bc_EvalVolumeSet(bc_globalConfig, volsetPtr, &volsToRestore,
1473 com_err(whoami, code, "; Failed to evaluate volume set");
1476 } else if (as->parms[1].items) {
1479 char server[50], partition[50], volume[50], rest[256];
1481 struct bc_volumeDump *tvol;
1483 fd = fopen(as->parms[1].items->data, "r");
1485 com_err(whoami, errno, "; Cannot open file '%s'",
1486 as->parms[1].items->data);
1490 while (fgets(line, 255, fd)) {
1492 sscanf(line, "%s %s %s %s", server, partition, volume, rest);
1498 "Invalid volumeset file format: Wrong number of arguments: Ignoring\n");
1499 fprintf(stderr, " %s", line);
1503 if (bc_ParseHost(server, &destServer)) {
1504 com_err(whoami, 0, "Failed to locate host '%s'", server);
1508 if (bc_GetPartitionID(partition, &destPartition)) {
1510 "Failed to parse destination partition '%s'",
1515 /* Allocate a volumeDump structure and link it in */
1517 (struct bc_volumeDump *)malloc(sizeof(struct bc_volumeDump));
1518 memset(tvol, 0, sizeof(struct bc_volumeDump));
1520 tvol->name = (char *)malloc(VOLSER_MAXVOLNAME + 1);
1522 com_err(whoami, BC_NOMEM, "");
1525 strncpy(tvol->name, volume, VOLSER_OLDMAXVOLNAME);
1526 memcpy(&tvol->server, &destServer, sizeof(destServer));
1527 tvol->partition = destPartition;
1530 lastVol->next = tvol; /* thread onto end of list */
1532 volsToRestore = tvol;
1537 com_err(whoami, 0, "-name or -file option required");
1542 /* Get the port offset for the restore */
1543 if (as->parms[2].items) {
1544 for (ti = as->parms[2].items; ti; ti = ti->next)
1546 ports = (afs_int32 *) malloc(portCount * sizeof(afs_int32));
1548 com_err(whoami, BC_NOMEM, "");
1552 for (ti = as->parms[2].items, i = 0; ti; ti = ti->next, i++) {
1553 ports[i] = getPortOffset(ti->data);
1559 newExt = (as->parms[3].items ? as->parms[3].items->data : NULL);
1560 dontExecute = (as->parms[4].items ? 1 : 0);
1562 fromDate = 0x7fffffff; /* last one before this date */
1563 oldFlag = 1; /* do restore same volid (and name) */
1565 /* Perform the call to start the restore */
1566 code = bc_StartDmpRst(bc_globalConfig, "disk", "restore", volsToRestore,
1567 /*destserver */ 0, /*destpartition */ 0, fromDate,
1569 /*parentDump */ 0, /*dumpLevel */ 0,
1570 bc_Restorer, ports, portCount,
1571 /*dumpSched */ 0, /*append */ 0, dontExecute);
1573 com_err(whoami, code, "; Failed to queue restore");
1578 /*-----------------------------------------------------------------------------
1582 * Perform a dump of the set of volumes provided.
1583 * user specifies: -volumeset .. -dump .. [-portoffset ..] [-n]
1586 * as : Parsed command line information.
1587 * arock : Ptr to misc stuff; not used.
1591 * The result of bc_StartDump() otherwise
1598 *---------------------------------------------------------------------------
1603 bc_DumpCmd(as, arock)
1604 struct cmd_syndesc *as;
1607 static char rn[] = "bc_DumpCmd"; /*Routine name */
1608 char *dumpPath, *vsName; /*Ptrs to various names */
1609 struct bc_volumeSet *tvs; /*Ptr to list of generated volume info */
1610 struct bc_dumpSchedule *tds, *baseds; /*Ptr to dump schedule node */
1611 struct bc_volumeDump *tve, *volsToDump; /*Ptr to individual vols to be dumped */
1612 struct budb_dumpEntry dumpEntry, de, fde; /* dump entry */
1615 afs_int32 parent; /* parent dump */
1616 afs_int32 level; /* this dump's level # */
1617 afs_int32 problemFindingDump; /* can't find parent(s) */
1619 afs_int32 *portp = NULL;
1620 afs_int32 portCount = 0;
1621 afs_int32 doAt, atTime; /* Time a timed-dump is to start at */
1624 int doAppend; /* Append the dump to dump set */
1625 afs_int32 code; /* Return code */
1626 int loadfile; /* whether to load a file or not */
1630 extern struct bc_dumpTask bc_dumpTasks[];
1631 extern afs_int32 bcdb_FindLastVolClone();
1632 extern afs_int32 volImageTime();
1634 code = bc_UpdateDumpSchedule();
1636 com_err(whoami, code, "; Can't retrieve dump schedule");
1639 code = bc_UpdateVolumeSet();
1641 com_err(whoami, code, "; Can't retrieve volume sets");
1644 code = bc_UpdateHosts();
1646 com_err(whoami, code, "; Can't retrieve tape hosts");
1651 * Some parameters cannot be specified together
1652 * The "-file" option cannot exist with the "-volume", "-dump",
1653 * "-portoffset", or "-append" option
1655 if (as->parms[6].items) {
1657 if (as->parms[0].items || as->parms[1].items || as->parms[2].items
1658 || as->parms[4].items) {
1659 com_err(whoami, 0, "Invalid option specified with -file option");
1664 if (!as->parms[0].items || !as->parms[1].items) {
1666 "Must specify volume set name and dump level name");
1672 * Get the time we are to perform this dump
1674 if (as->parms[3].items) {
1677 timeString = concatParams(as->parms[3].items);
1682 * Now parse this string for the time to start.
1684 code = ktime_DateToLong(timeString, &atTime);
1687 com_err(whoami, 0, "Can't parse dump start date and time");
1688 com_err(whoami, 0, "%s", ktime_GetDateUsage());
1694 dontExecute = (as->parms[5].items ? 1 : 0); /* -n */
1697 * If this dump is not a load file, then check the parameters.
1699 if (!loadfile) { /*6 */
1700 vsName = as->parms[0].items->data; /* get volume set name */
1701 dumpPath = as->parms[1].items->data; /* get dump path */
1703 /* get the port number, if one was specified */
1704 if (as->parms[2].items) {
1706 portp = (afs_int32 *) malloc(sizeof(afs_int32));
1708 com_err(whoami, BC_NOMEM, "");
1712 *portp = getPortOffset(as->parms[2].items->data);
1717 doAppend = (as->parms[4].items ? 1 : 0); /* -append */
1720 * Get a hold of the given volume set and dump set.
1722 tvs = bc_FindVolumeSet(bc_globalConfig, vsName);
1725 "Can't find volume set '%s' in backup database", vsName);
1728 baseds = bc_FindDumpSchedule(bc_globalConfig, dumpPath);
1731 "Can't find dump schedule '%s' in backup database",
1740 * If given the "-at" option, then add this to the jobs list and return
1743 * Create a status node for this timed dump.
1744 * Fill in the time to dump and the cmd line for the dump leaving off
1745 * the -at option. If the -n option is there, it is scheduled with
1746 * the Timed dump as opposed to not scheduling the time dump at all.
1749 if (atTime < time(0)) {
1751 "Time of dump is earlier then current time - not added");
1753 statusPtr = createStatusNode();
1755 statusPtr->scheduledDump = atTime;
1757 /* Determine length of the dump command */
1759 length += 4; /* "dump" */
1761 length += 6; /* " -file" */
1762 length += 1 + strlen(as->parms[6].items->data); /* " <file>" */
1764 /* length += 11; *//* " -volumeset" */
1765 length += 1 + strlen(as->parms[0].items->data); /* " <volset> */
1767 /* length += 6; *//* " -dump" */
1768 length += 1 + strlen(as->parms[1].items->data); /* " <dumpset> */
1770 if (as->parms[2].items) {
1771 /* length += 12; *//* " -portoffset" */
1772 length += 1 + strlen(as->parms[2].items->data); /* " <port>" */
1775 if (as->parms[4].items)
1776 length += 8; /* " -append" */
1780 length += 3; /* " -n" */
1781 length++; /* end-of-line */
1783 /* Allocate status block for this timed dump */
1784 sprintf(statusPtr->taskName, "Scheduled Dump");
1785 statusPtr->jobNumber = bc_jobNumber();
1786 statusPtr->scheduledDump = atTime;
1787 statusPtr->cmdLine = (char *)malloc(length);
1788 if (!statusPtr->cmdLine) {
1789 com_err(whoami, BC_NOMEM, "");
1793 /* Now reconstruct the dump command */
1794 statusPtr->cmdLine[0] = 0;
1795 strcat(statusPtr->cmdLine, "dump");
1797 strcat(statusPtr->cmdLine, " -file");
1798 strcat(statusPtr->cmdLine, " ");
1799 strcat(statusPtr->cmdLine, as->parms[6].items->data);
1801 /* strcat(statusPtr->cmdLine, " -volumeset"); */
1802 strcat(statusPtr->cmdLine, " ");
1803 strcat(statusPtr->cmdLine, as->parms[0].items->data);
1805 /* strcat(statusPtr->cmdLine, " -dump"); */
1806 strcat(statusPtr->cmdLine, " ");
1807 strcat(statusPtr->cmdLine, as->parms[1].items->data);
1809 if (as->parms[2].items) {
1810 /* strcat(statusPtr->cmdLine, " -portoffset"); */
1811 strcat(statusPtr->cmdLine, " ");
1812 strcat(statusPtr->cmdLine, as->parms[2].items->data);
1815 if (as->parms[4].items)
1816 strcat(statusPtr->cmdLine, " -append");
1819 strcat(statusPtr->cmdLine, " -n");
1821 printf("Add scheduled dump as job %d\n", statusPtr->jobNumber);
1822 if ((atTime > ttoken.endTime) && (ttoken.endTime != NEVERDATE))
1824 "Warning: job %d starts after expiration of AFS token",
1825 statusPtr->jobNumber);
1834 * Read and execute the load file if specified. The work of reading is done
1835 * in the main routine prior the dispatch call. loadFile and dontExecute are
1836 * global variables so this can take place in main.
1839 loadFile = (char *)malloc(strlen(as->parms[6].items->data) + 1);
1841 com_err(whoami, BC_NOMEM, "");
1844 strcpy(loadFile, as->parms[6].items->data);
1849 * We are doing a real dump (no load file or timed dump).
1851 printf("Starting dump of volume set '%s' (dump level '%s')\n", vsName,
1854 /* For each dump-level above this one, see if the volumeset was dumped
1855 * at the level. We search all dump-levels since a higher dump-level
1856 * may have actually been done AFTER a lower dump level.
1858 parent = level = problemFindingDump = 0;
1859 for (tds = baseds->parent; tds; tds = tds->parent) {
1860 /* Find the most recent dump of the volume-set at this dump-level.
1861 * Raise problem flag if didn't find a dump and a parent not yet found.
1863 code = bcdb_FindLatestDump(vsName, tds->name, &dumpEntry);
1866 problemFindingDump = 1; /* skipping a dump level */
1870 /* We found the most recent dump at this level. Now check
1871 * if we should use it by seeing if its full dump hierarchy
1872 * exists. If it doesn't, we don't want to base our incremental
1875 if (!parent || (dumpEntry.id > parent)) {
1876 /* Follow the parent dumps to see if they are all there */
1877 for (d = dumpEntry.parent; d; d = de.parent) {
1878 code = bcdb_FindDumpByID(d, &de);
1883 /* If we found the entire level, remember it. Otherwise raise flag.
1884 * If we had already found a dump, raise the problem flag.
1888 problemFindingDump = 1;
1889 parent = dumpEntry.id;
1890 level = dumpEntry.level + 1;
1891 memcpy(&fde, &dumpEntry, sizeof(dumpEntry));
1893 /* Dump hierarchy not complete so can't base off the latest */
1894 problemFindingDump = 1;
1899 /* If the problemflag was raise, it means we are not doing the
1900 * dump at the level we requested it be done at.
1902 if (problemFindingDump) {
1904 "Warning: Doing level %d dump due to missing higher-level dumps",
1907 printf("Parent dump: dump %s (DumpID %u)\n", fde.name, parent);
1909 } else if (parent) {
1910 printf("Found parent: dump %s (DumpID %u)\n", fde.name, parent);
1913 /* Expand out the volume set into its component list of volumes. */
1914 code = bc_EvalVolumeSet(bc_globalConfig, tvs, &volsToDump, cstruct);
1916 com_err(whoami, code, "; Failed to evaluate volume set");
1920 printf("No volumes to dump\n");
1924 /* Determine what the clone time of the volume was when it was
1925 * last dumped (tve->date). This is the time from when an
1926 * incremental should be done (remains zero if a full dump).
1929 for (tve = volsToDump; tve; tve = tve->next) {
1930 code = bcdb_FindClone(parent, tve->name, &tve->date);
1934 /* Get the time the volume was last cloned and see if the volume has
1935 * changed since then. Only do this when the "-n" flag is specified
1936 * because butc will get the cloneDate at time of dump.
1940 volImageTime(tve->server.sin_addr.s_addr, tve->partition,
1941 tve->vid, tve->volType, &tve->cloneDate);
1945 if (tve->cloneDate && (tve->cloneDate == tve->date)) {
1947 "Warning: Timestamp on volume %s unchanged from previous dump",
1955 printf("Would have dumped the following volumes:\n");
1957 printf("Preparing to dump the following volumes:\n");
1958 for (tve = volsToDump; tve; tve = tve->next) {
1959 printf("\t%s (%u)\n", tve->name, tve->vid);
1964 code = bc_StartDmpRst(bc_globalConfig, dumpPath, vsName, volsToDump,
1965 /*destServer */ 0, /*destPartition */ 0,
1967 /*newExt */ 0, /*oldFlag */ 0,
1968 parent, level, bc_Dumper, portp, /*portCount */ 1,
1969 baseds, doAppend, dontExecute);
1971 com_err(whoami, code, "; Failed to queue dump");
1978 * terminate the backup process. Insists that that all running backup
1979 * jobs be terminated before it will quit
1984 bc_QuitCmd(as, arock)
1985 struct cmd_syndesc *as;
1989 struct bc_dumpTask *td;
1990 extern dlqlinkT statusHead;
1994 /* Check the status list for outstanding jobs */
1996 for (ptr = (&statusHead)->dlq_next; ptr != &statusHead;
1997 ptr = ptr->dlq_next) {
1998 statusPtr = (statusP) ptr;
1999 if (!(statusPtr->flags & ABORT_REQUEST)) {
2001 com_err(whoami, 0, "Job %d still running (and not aborted)",
2002 statusPtr->jobNumber);
2004 "You must at least 'kill' all running jobs before quitting");
2010 /* A job still being initialized (but no status structure or job number since it
2011 * has not been handed to a butc process yet)
2013 for (td = bc_dumpTasks, i = 0; i < BC_MAXSIMDUMPS; i++, td++) {
2014 if (td->flags & BC_DI_INUSE) {
2015 com_err(whoami, 0, "A job is still running");
2017 "You must at least 'kill' all running jobs before quitting");
2023 /* close the all temp text files before quitting */
2024 for (i = 0; i < TB_NUM; i++)
2025 bc_closeTextFile(&bc_globalConfig->configText[i],
2026 &bc_globalConfig->tmpTextFileNames[i][0]);
2032 * Labels a tape i.e. request the tape coordinator to perform this
2036 bc_LabelTapeCmd(as, arock)
2037 struct cmd_syndesc *as;
2040 char *tapename = 0, *pname = 0;
2045 code = bc_UpdateHosts();
2047 com_err(whoami, code, "; Can't retrieve tape hosts");
2051 if (as->parms[0].items) { /* -name */
2052 tapename = as->parms[0].items->data;
2053 if (strlen(tapename) >= TC_MAXTAPELEN) {
2054 com_err(whoami, 0, "AFS tape name '%s' is too long", tapename);
2059 if (as->parms[3].items) { /* -pname */
2061 com_err(whoami, 0, "Can only specify -name or -pname");
2064 pname = as->parms[3].items->data;
2065 if (strlen(pname) >= TC_MAXTAPELEN) {
2066 com_err(whoami, 0, "Permanent tape name '%s' is too long", pname);
2071 if (as->parms[1].items) {
2072 size = bc_FloatATOI(as->parms[1].items->data);
2074 com_err(whoami, 0, "Bad syntax for tape size '%s'",
2075 as->parms[1].items->data);
2081 if (as->parms[2].items) {
2082 port = getPortOffset(as->parms[2].items->data);
2087 code = bc_LabelTape(tapename, pname, size, bc_globalConfig, port);
2094 * read the label on a tape
2096 * optional port number
2099 bc_ReadLabelCmd(as, arock)
2100 struct cmd_syndesc *as;
2106 code = bc_UpdateHosts();
2108 com_err(whoami, code, "; Can't retrieve tape hosts");
2112 if (as->parms[0].items) {
2113 port = getPortOffset(as->parms[0].items->data);
2118 code = bc_ReadLabel(bc_globalConfig, port);
2125 * read content information from dump tapes, and if user desires,
2126 * add it to the database
2129 bc_ScanDumpsCmd(as, arock)
2130 struct cmd_syndesc *as;
2134 afs_int32 dbAddFlag = 0;
2137 code = bc_UpdateHosts();
2139 com_err(whoami, code, "; Can't retrieve tape hosts");
2143 /* check for flag */
2144 if (as->parms[0].items != 0) { /* add scan to database */
2148 /* check for port */
2149 if (as->parms[1].items) {
2150 port = getPortOffset(as->parms[1].items->data);
2155 code = bc_ScanDumps(bc_globalConfig, dbAddFlag, port);
2159 /* bc_ParseExpiration
2162 * dates are specified as absolute or relative, the syntax is:
2163 * absolute: at %d/%d/%d [%d:%d] where [..] is optional
2164 * relative: in [%dy][%dm][%dd] where at least one component
2169 bc_ParseExpiration(paramPtr, expType, expDate)
2170 struct cmd_parmdesc *paramPtr;
2174 struct cmd_item *itemPtr;
2175 struct ktime_date kt;
2176 char *dateString = 0;
2179 *expType = BC_NO_EXPDATE;
2182 if (!paramPtr->items)
2183 ERROR(0); /* no expiration specified */
2185 /* some form of expiration date specified. First validate the prefix */
2186 itemPtr = paramPtr->items;
2188 if (strcmp(itemPtr->data, "at") == 0) {
2189 *expType = BC_ABS_EXPDATE;
2191 dateString = concatParams(itemPtr->next);
2195 code = ktime_DateToLong(dateString, expDate);
2198 } else if (strcmp(itemPtr->data, "in") == 0) {
2199 *expType = BC_REL_EXPDATE;
2201 dateString = concatParams(itemPtr->next);
2205 code = ParseRelDate(dateString, &kt);
2208 *expDate = ktimeRelDate_ToLong(&kt);
2210 dateString = concatParams(itemPtr);
2214 if (ktime_DateToLong(dateString, expDate) == 0) {
2215 *expType = BC_ABS_EXPDATE;
2216 code = ktime_DateToLong(dateString, expDate);
2219 } else if (ParseRelDate(dateString, &kt) == 0) {
2220 *expType = BC_REL_EXPDATE;
2221 *expDate = ktimeRelDate_ToLong(&kt);
2233 /* database lookup command and routines */
2236 * Currently a single option, volumename to search for. Reports
2237 * all dumps containing the specified volume
2240 bc_dblookupCmd(as, arock)
2241 struct cmd_syndesc *as;
2244 struct cmd_item *ciptr;
2247 ciptr = as->parms[0].items;
2248 if (ciptr == 0) /* no argument specified */
2251 code = DBLookupByVolume(ciptr->data);
2257 /* for ubik version */
2259 bc_dbVerifyCmd(as, arock)
2260 struct cmd_syndesc *as;
2267 struct hostent *hostPtr;
2271 extern struct udbHandleS udbHandle;
2273 detail = (as->parms[0].items ? 1 : 0); /* print more details */
2276 ubik_Call(BUDB_DbVerify, udbHandle.uh_client, 0, &status, &orphans,
2280 com_err(whoami, code, "; Unable to verify database");
2284 /* verification call succeeded */
2287 printf("Database OK\n");
2289 com_err(whoami, status, "; Database is NOT_OK");
2292 printf("Orphan blocks %d\n", orphans);
2295 printf("Unable to lookup host id\n");
2297 hostPtr = gethostbyaddr((char *)&host, sizeof(host), AF_INET);
2299 printf("Database checker was %d.%d.%d.%d\n",
2300 ((host & 0xFF000000) >> 24), ((host & 0xFF0000) >> 16),
2301 ((host & 0xFF00) >> 8), (host & 0xFF));
2303 printf("Database checker was %s\n", hostPtr->h_name);
2306 return ((status ? -1 : 0));
2310 * Delete a dump. If port is >= 0, it means try to delete from XBSA server
2312 deleteDump(dumpid, port, force)
2313 afs_uint32 dumpid; /* The dumpid to delete */
2314 afs_int32 port; /* port==-1 means don't go to butc */
2317 afs_int32 code = 0, tcode;
2318 struct budb_dumpEntry dumpEntry;
2319 struct rx_connection *tconn = 0;
2320 afs_int32 i, taskflag, xbsadump;
2321 statusP statusPtr = 0;
2322 budb_dumpsList dumps;
2325 /* If the port is set, we will try to send a delete request to the butc */
2327 tcode = bc_UpdateHosts();
2329 com_err(whoami, tcode, "; Can't retrieve tape hosts");
2333 /* Find the dump in the backup database */
2334 tcode = bcdb_FindDumpByID(dumpid, &dumpEntry);
2336 com_err(whoami, tcode, "; Unable to locate dumpID %u in database",
2340 xbsadump = (dumpEntry.flags & (BUDB_DUMP_ADSM | BUDB_DUMP_BUTA));
2342 /* If dump is to an XBSA server, connect to butc and send it
2343 * the dump to delete. Butc will contact the XBSA server.
2344 * The dump will not be an appended dump because XBSA butc
2345 * does not support the append option.
2347 if (xbsadump && dumpEntry.nVolumes) {
2348 tcode = ConnectButc(bc_globalConfig, port, &tconn);
2352 tcode = TC_DeleteDump(tconn, dumpid, &taskId);
2354 if (tcode == RXGEN_OPCODE)
2355 tcode = BC_VERSIONFAIL;
2356 com_err(whoami, tcode,
2357 "; Unable to delete dumpID %u via butc", dumpid);
2361 statusPtr = createStatusNode();
2363 statusPtr->taskId = taskId;
2364 statusPtr->port = port;
2365 statusPtr->jobNumber = bc_jobNumber();
2366 statusPtr->flags |= (SILENT | NOREMOVE); /* No msg & keep statusPtr */
2367 statusPtr->flags &= ~STARTING; /* clearstatus to examine */
2368 sprintf(statusPtr->taskName, "DeleteDump");
2371 /* Wait for task to finish */
2372 taskflag = waitForTask(taskId);
2373 if (taskflag & (TASK_ERROR | ABORT_DONE)) {
2374 com_err(whoami, BUTX_DELETEOBJFAIL,
2375 "; Unable to delete dumpID %u via butc", dumpid);
2376 ERROR(BUTX_DELETEOBJFAIL); /* the task failed */
2383 deleteStatusNode(statusPtr); /* Clean up statusPtr - because NOREMOVE */
2385 rx_DestroyConnection(tconn); /* Destroy the connection */
2387 /* Remove the dump from the backup database */
2388 if (!code || force) {
2389 dumps.budb_dumpsList_len = 0;
2390 dumps.budb_dumpsList_val = 0;
2392 tcode = bcdb_deleteDump(dumpid, 0, 0, &dumps);
2394 com_err(whoami, tcode,
2395 "; Unable to delete dumpID %u from database", dumpid);
2396 dumps.budb_dumpsList_len = 0;
2401 /* Display the dumps that were deleted - includes appended dumps */
2402 for (i = 0; i < dumps.budb_dumpsList_len; i++)
2403 printf(" %u%s\n", dumps.budb_dumpsList_val[i],
2404 (i > 0) ? " Appended Dump" : "");
2405 if (dumps.budb_dumpsList_val)
2406 free(dumps.budb_dumpsList_val);
2413 * Delete a specified dump from the database
2415 * dump id - single required arg as param 0.
2418 bc_deleteDumpCmd(as, arock)
2419 struct cmd_syndesc *as;
2424 afs_int32 rcode = 0;
2425 afs_int32 groupId = 0, havegroupid, sflags, noexecute;
2426 struct cmd_item *ti;
2427 afs_uint32 fromTime = 0, toTime = 0, havetime = 0;
2429 budb_dumpsList dumps, flags;
2431 afs_int32 port = -1, dbonly = 0, force;
2433 /* Must specify at least one of -dumpid, -from, or -to */
2434 if (!as->parms[0].items && !as->parms[1].items && !as->parms[2].items
2435 && !as->parms[4].items) {
2436 com_err(whoami, 0, "Must specify at least one field");
2440 /* Must have -to option with -from option */
2441 if (as->parms[1].items && !as->parms[2].items) {
2442 com_err(whoami, 0, "Must specify '-to' field with '-from' field");
2446 /* Get the time to delete from */
2447 if (as->parms[1].items) { /* -from */
2448 timeString = concatParams(as->parms[1].items);
2453 * Now parse this string for the time to start.
2455 code = ktime_DateToLong(timeString, &fromTime);
2458 com_err(whoami, 0, "Can't parse 'from' date and time");
2459 com_err(whoami, 0, "%s", ktime_GetDateUsage());
2465 port = (as->parms[3].items ? getPortOffset(as->parms[3].items->data) : 0); /* -port */
2466 if (as->parms[5].items) /* -dbonly */
2469 force = (as->parms[6].items ? 1 : 0);
2471 havegroupid = (as->parms[4].items ? 1 : 0);
2473 groupId = atoi(as->parms[4].items->data);
2475 noexecute = (as->parms[7].items ? 1 : 0);
2477 /* Get the time to delete to */
2478 if (as->parms[2].items) { /* -to */
2479 timeString = concatParams(as->parms[2].items);
2484 * Now parse this string for the time to start. Simce
2485 * times are at minute granularity, add 59 seconds.
2487 code = ktime_DateToLong(timeString, &toTime);
2490 com_err(whoami, 0, "Can't parse 'to' date and time");
2491 com_err(whoami, 0, "%s", ktime_GetDateUsage());
2498 if (fromTime > toTime) {
2500 "'-from' date/time cannot be later than '-to' date/time");
2504 /* Remove speicific dump ids - if any */
2505 printf("The following dumps %s deleted:\n",
2506 (noexecute ? "would have been" : "were"));
2507 for (ti = as->parms[0].items; ti != 0; ti = ti->next) { /* -dumpid */
2508 dumpid = atoi(ti->data);
2510 code = deleteDump(dumpid, port, force);
2512 printf(" %u\n", dumpid);
2517 * Now remove dumps between to and from dates.
2519 if (havegroupid || havetime) {
2520 dumps.budb_dumpsList_len = 0;
2521 dumps.budb_dumpsList_val = 0;
2522 flags.budb_dumpsList_len = 0;
2523 flags.budb_dumpsList_val = 0;
2526 sflags |= BUDB_OP_GROUPID;
2528 sflags |= BUDB_OP_DATES;
2531 bcdb_listDumps(sflags, groupId, fromTime, toTime, &dumps, &flags);
2533 com_err(whoami, code,
2534 "; Error while deleting dumps from %u to %u", fromTime,
2539 for (i = 0; i < dumps.budb_dumpsList_len; i++) {
2540 if (flags.budb_dumpsList_val[i] & BUDB_OP_DBDUMP)
2544 if (flags.budb_dumpsList_val[i] & BUDB_OP_APPDUMP)
2546 code = deleteDump(dumps.budb_dumpsList_val[i], port, force);
2547 /* Ignore code and continue */
2549 printf(" %u%s%s\n", dumps.budb_dumpsList_val[i],
2551 budb_dumpsList_val[i] & BUDB_OP_APPDUMP) ?
2552 " Appended Dump" : "",
2554 budb_dumpsList_val[i] & BUDB_OP_DBDUMP) ?
2555 " Database Dump" : "");
2560 if (dumps.budb_dumpsList_val)
2561 free(dumps.budb_dumpsList_val);
2562 dumps.budb_dumpsList_len = 0;
2563 dumps.budb_dumpsList_val = 0;
2564 if (flags.budb_dumpsList_val)
2565 free(flags.budb_dumpsList_val);
2566 flags.budb_dumpsList_len = 0;
2567 flags.budb_dumpsList_val = 0;
2573 bc_saveDbCmd(as, arock)
2574 struct cmd_syndesc *as;
2577 struct rx_connection *tconn;
2578 afs_int32 portOffset = 0;
2585 code = bc_UpdateHosts();
2587 com_err(whoami, code, "; Can't retrieve tape hosts");
2591 if (as->parms[0].items) {
2592 portOffset = getPortOffset(as->parms[0].items->data);
2597 /* Get the time to delete to */
2598 if (as->parms[1].items) {
2599 timeString = concatParams(as->parms[1].items);
2604 * Now parse this string for the time. Since
2605 * times are at minute granularity, add 59 seconds.
2607 code = ktime_DateToLong(timeString, &toTime);
2610 com_err(whoami, 0, "Can't parse '-archive' date and time");
2611 com_err(whoami, 0, "%s", ktime_GetDateUsage());
2618 code = ConnectButc(bc_globalConfig, portOffset, &tconn);
2622 code = TC_SaveDb(tconn, toTime, &taskId);
2624 com_err(whoami, code, "; Failed to save database");
2628 /* create status monitor block */
2629 statusPtr = createStatusNode();
2631 statusPtr->taskId = taskId;
2632 statusPtr->port = portOffset;
2633 statusPtr->jobNumber = bc_jobNumber();
2634 statusPtr->flags &= ~STARTING; /* clearstatus to examine */
2635 sprintf(statusPtr->taskName, "SaveDb");
2639 rx_DestroyConnection(tconn);
2643 bc_restoreDbCmd(as, arock)
2644 struct cmd_syndesc *as;
2647 struct rx_connection *tconn;
2648 afs_int32 portOffset = 0;
2653 code = bc_UpdateHosts();
2655 com_err(whoami, code, "; Can't retrieve tape hosts");
2659 if (as->parms[0].items) {
2660 portOffset = getPortOffset(as->parms[0].items->data);
2665 code = ConnectButc(bc_globalConfig, portOffset, &tconn);
2669 code = TC_RestoreDb(tconn, &taskId);
2671 com_err(whoami, code, "; Failed to restore database");
2675 /* create status monitor block */
2676 statusPtr = createStatusNode();
2678 statusPtr->taskId = taskId;
2679 statusPtr->port = portOffset;
2680 statusPtr->jobNumber = bc_jobNumber();
2681 statusPtr->flags &= ~STARTING; /* clearstatus to examine */
2682 sprintf(statusPtr->taskName, "RestoreDb");
2686 rx_DestroyConnection(tconn);
2690 /* ----------------------------------
2691 * supporting routines for database examination
2692 * ----------------------------------
2695 /* structures and defines for DBLookupByVolume */
2697 #define DBL_MAX_VOLUMES 20 /* max. for each dump */
2699 /* dumpedVol - saves interesting information so that we can print it out
2704 struct dumpedVol *next;
2706 afs_int32 initialDumpID;
2707 char tapeName[BU_MAXTAPELEN];
2710 afs_int32 createTime;
2711 afs_int32 incTime; /* actually the clone time */
2714 /* -----------------------------------------
2715 * routines for examining the database
2716 * -----------------------------------------
2720 * Lookup the volumename in the backup database and print the results
2722 * volumeName - volume to lookup
2725 DBLookupByVolume(volumeName)
2728 struct budb_dumpEntry dumpEntry;
2729 struct budb_volumeEntry volumeEntry[DBL_MAX_VOLUMES];
2730 afs_int32 numEntries;
2731 afs_int32 tapedumpid;
2732 afs_int32 last, next;
2734 struct dumpedVol *dvptr = 0;
2735 struct dumpedVol *tempPtr = 0;
2738 char vname[BU_MAXNAMELEN];
2741 for (pass = 0; pass < 2; pass++) {
2743 /* On second pass, search for backup volume */
2745 if (!BackupName(volumeName)) {
2746 strcpy(vname, volumeName);
2747 strcat(vname, ".backup");
2755 while (next != -1) { /*w */
2757 bcdb_LookupVolume(volumeName, &volumeEntry[0], last, &next,
2758 DBL_MAX_VOLUMES, &numEntries);
2762 /* add the volumes to the list */
2763 for (i = 0; i < numEntries; i++) { /*f */
2764 struct dumpedVol *insPtr, **prevPtr;
2767 (struct dumpedVol *)malloc(sizeof(struct dumpedVol));
2771 memset(tempPtr, 0, sizeof(*tempPtr));
2772 tempPtr->incTime = volumeEntry[i].clone;
2773 tempPtr->dumpID = volumeEntry[i].dump;
2774 strncpy(tempPtr->tapeName, volumeEntry[i].tape,
2777 /* check if we need to null terminate it - just for safety */
2778 if (strlen(volumeEntry[i].tape) >= BU_MAXTAPELEN)
2779 tempPtr->tapeName[BU_MAXTAPELEN - 1] = 0;
2781 code = bcdb_FindDumpByID(tempPtr->dumpID, &dumpEntry);
2787 tempPtr->initialDumpID = dumpEntry.initialDumpID;
2788 tempPtr->parent = dumpEntry.parent;
2789 tempPtr->level = dumpEntry.level;
2790 tempPtr->createTime = dumpEntry.created;
2792 /* add volume to list in reverse chronological order */
2796 while ((insPtr != 0)
2797 && (insPtr->createTime > tempPtr->createTime)
2799 prevPtr = &insPtr->next;
2800 insPtr = insPtr->next;
2803 /* now at the right place - insert the block */
2804 tempPtr->next = *prevPtr;
2814 ("DumpID lvl parentID creation date clone date tape name\n");
2815 for (tempPtr = dvptr; tempPtr; tempPtr = tempPtr->next) {
2816 /* For the user, the tape name is its name and initial dump id */
2818 (tempPtr->initialDumpID ? tempPtr->initialDumpID : tempPtr->
2821 /* beware the static items in compactDateString */
2822 compactDateString(&tempPtr->createTime, ds, 50);
2823 printf("%-9d %-2d %-9d %16s", tempPtr->dumpID, tempPtr->level,
2824 tempPtr->parent, ds);
2825 compactDateString(&tempPtr->incTime, ds, 50);
2826 printf(" %16s %s (%u)\n", ds, tempPtr->tapeName, tapedumpid);
2832 for (tempPtr = dvptr; tempPtr; tempPtr = dvptr) {
2833 dvptr = dvptr->next;
2838 com_err(whoami, code, "");
2842 /* structures for dumpInfo */
2845 struct volumeLink *nextVolume;
2846 struct budb_volumeEntry volumeEntry;
2850 struct tapeLink *nextTape;
2851 struct budb_tapeEntry tapeEntry;
2852 struct volumeLink *firstVolume;
2857 * print information about a dump and all its tapes and volumes.
2861 dumpInfo(dumpid, detailFlag)
2863 afs_int32 detailFlag;
2865 struct budb_dumpEntry dumpEntry;
2866 struct tapeLink *head = 0;
2867 struct tapeLink *tapeLinkPtr, *lastTapeLinkPtr;
2868 struct volumeLink **link, *volumeLinkPtr, *lastVolumeLinkPtr;
2871 afs_int32 last, next, dbTime;
2872 afs_int32 tapedumpid;
2880 extern struct udbHandleS udbHandle;
2883 lastTapeLinkPtr = 0;
2885 lastVolumeLinkPtr = 0;
2887 /* first get information about the dump */
2889 code = bcdb_FindDumpByID(dumpid, &dumpEntry);
2893 /* For the user, the tape name is its name and initial dump id */
2894 tapedumpid = (dumpEntry.initialDumpID ? dumpEntry.initialDumpID : dumpid);
2896 /* Is this a database dump id or not */
2897 if (strcmp(dumpEntry.name, DUMP_TAPE_NAME) == 0)
2902 /* print out the information about the dump */
2906 printDumpEntry(&dumpEntry);
2908 time_t t = dumpEntry.created;
2910 printf("Dump: id %u, created: %s\n", dumpEntry.id,
2913 printf("Dump: id %u, level %d, volumes %d, created: %s\n",
2914 dumpEntry.id, dumpEntry.level, dumpEntry.nVolumes,
2918 if (!detailFlag && (strlen(dumpEntry.tapes.tapeServer) > 0)
2919 && (dumpEntry.flags & (BUDB_DUMP_ADSM | BUDB_DUMP_BUTA))) {
2920 printf("Backup Service: TSM: Server: %s\n",
2921 dumpEntry.tapes.tapeServer);
2924 /* now get the list of tapes */
2925 for (tapeNumber = dumpEntry.tapes.b; tapeNumber <= dumpEntry.tapes.maxTapes; tapeNumber++) { /*f */
2926 tapeLinkPtr = (struct tapeLink *)malloc(sizeof(struct tapeLink));
2928 com_err(whoami, BC_NOMEM, "");
2932 memset(tapeLinkPtr, 0, sizeof(*tapeLinkPtr));
2933 code = bcdb_FindTapeSeq(dumpid, tapeNumber, &tapeLinkPtr->tapeEntry);
2940 /* add this tape to previous chain */
2941 if (lastTapeLinkPtr) {
2942 lastTapeLinkPtr->nextTape = tapeLinkPtr;
2943 lastTapeLinkPtr = tapeLinkPtr;
2948 lastTapeLinkPtr = head;
2952 while (next != -1) { /*wn */
2953 vl.budb_volumeList_len = 0;
2954 vl.budb_volumeList_val = 0;
2957 /* now get all the volumes in this dump. */
2958 code = ubik_Call_SingleServer(BUDB_GetVolumes, udbHandle.uh_client, UF_SINGLESERVER, BUDB_MAJORVERSION, BUDB_OP_DUMPID | BUDB_OP_TAPENAME, tapeLinkPtr->tapeEntry.name, /* tape name */
2959 dumpid, /* dumpid (not initial dumpid) */
2962 &next, /* nextindex */
2963 &dbTime, /* update time */
2967 if (code == BUDB_ENDOFLIST) { /* 0 volumes on tape */
2974 for (i = 0; i < vl.budb_volumeList_len; i++) {
2975 link = &tapeLinkPtr->firstVolume;
2978 (struct volumeLink *)malloc(sizeof(struct volumeLink));
2979 if (!volumeLinkPtr) {
2980 com_err(whoami, BC_NOMEM, "");
2983 memset(volumeLinkPtr, 0, sizeof(*volumeLinkPtr));
2985 memcpy(&volumeLinkPtr->volumeEntry,
2986 &vl.budb_volumeList_val[i],
2987 sizeof(struct budb_volumeEntry));
2989 /* now insert it onto the right place */
2991 && (volumeLinkPtr->volumeEntry.position >
2992 (*link)->volumeEntry.position)) {
2993 link = &((*link)->nextVolume);
2996 /* now link it in */
2997 volumeLinkPtr->nextVolume = *link;
2998 *link = volumeLinkPtr;
3001 if (vl.budb_volumeList_val)
3002 free(vl.budb_volumeList_val);
3006 for (tapeLinkPtr = head; tapeLinkPtr; tapeLinkPtr = tapeLinkPtr->nextTape) {
3010 printTapeEntry(&tapeLinkPtr->tapeEntry);
3012 printf("Tape: name %s (%u)\n", tapeLinkPtr->tapeEntry.name,
3014 printf("nVolumes %d, ", tapeLinkPtr->tapeEntry.nVolumes);
3015 compactDateString(&tapeLinkPtr->tapeEntry.written, ds, 50);
3016 printf("created %16s", ds);
3017 if (tapeLinkPtr->tapeEntry.expires != 0) {
3018 compactDateString(&tapeLinkPtr->tapeEntry.expires, ds, 50);
3019 printf(", expires %16s", ds);
3024 /* print out all the volumes */
3026 /* print header for volume listing - db dumps have no volumes */
3027 if ((detailFlag == 0) && !dbDump)
3028 printf("%4s %16s %9s %-s\n", "Pos", "Clone time", "Nbytes",
3031 for (volumeLinkPtr = tapeLinkPtr->firstVolume; volumeLinkPtr;
3032 volumeLinkPtr = volumeLinkPtr->nextVolume) {
3034 printf("\nVolume\n");
3036 printVolumeEntry(&volumeLinkPtr->volumeEntry);
3038 compactDateString(&volumeLinkPtr->volumeEntry.clone, ds, 50),
3039 printf("%4d %s %10u %16s\n",
3040 volumeLinkPtr->volumeEntry.position, ds,
3041 volumeLinkPtr->volumeEntry.nBytes,
3042 volumeLinkPtr->volumeEntry.name);
3049 com_err("dumpInfo", code, "; Can't get dump information");
3051 /* free all allocated structures */
3053 while (tapeLinkPtr) {
3054 volumeLinkPtr = tapeLinkPtr->firstVolume;
3055 while (volumeLinkPtr) {
3056 lastVolumeLinkPtr = volumeLinkPtr;
3057 volumeLinkPtr = volumeLinkPtr->nextVolume;
3058 free(lastVolumeLinkPtr);
3061 lastTapeLinkPtr = tapeLinkPtr;
3062 tapeLinkPtr = tapeLinkPtr->nextTape;
3063 free(lastTapeLinkPtr);
3069 compareDump(ptr1, ptr2)
3070 struct budb_dumpEntry *ptr1, *ptr2;
3072 if (ptr1->created < ptr2->created)
3074 else if (ptr1->created > ptr2->created)
3080 printRecentDumps(ndumps)
3084 afs_int32 nextindex, index = 0;
3087 struct budb_dumpEntry *dumpPtr;
3091 extern struct udbHandleS udbHandle;
3092 extern compareDump();
3094 do { /* while (nextindex != -1) */
3095 /* initialize the dump list */
3096 dl.budb_dumpList_len = 0;
3097 dl.budb_dumpList_val = 0;
3099 /* outline algorithm */
3100 code = ubik_Call(BUDB_GetDumps, udbHandle.uh_client, 0, BUDB_MAJORVERSION, BUDB_OP_NPREVIOUS, "", /* no name */
3104 &nextindex, &dbTime, &dl);
3106 if (code == BUDB_ENDOFLIST)
3108 com_err("dumpInfo", code, "; Can't get dump information");
3112 /* No need to sort, it's already sorted */
3114 if (dl.budb_dumpList_len && (index == 0))
3115 printf("%10s %10s %2s %-16s %2s %5s dump name\n", "dumpid",
3116 "parentid", "lv", "created", "nt", "nvols");
3118 dumpPtr = dl.budb_dumpList_val;
3119 for (i = 1; i <= dl.budb_dumpList_len; i++) {
3120 compactDateString(&dumpPtr->created, ds, 50),
3121 printf("%10u %10u %-2d %16s %2d %5d %s", dumpPtr->id,
3122 dumpPtr->parent, dumpPtr->level, ds,
3123 dumpPtr->tapes.maxTapes - dumpPtr->tapes.b + 1,
3124 dumpPtr->nVolumes, dumpPtr->name);
3125 if (dumpPtr->initialDumpID) /* an appended dump */
3126 printf(" (%u)", dumpPtr->initialDumpID);
3127 else if (dumpPtr->appendedDumpID) /* has appended dumps */
3128 printf(" (%u)", dumpPtr->id);
3134 if (dl.budb_dumpList_val)
3135 free(dl.budb_dumpList_val);
3137 } while (nextindex != -1);
3143 * list the dumps and contens of the dumps.
3148 bc_dumpInfoCmd(as, arock)
3149 struct cmd_syndesc *as;
3153 afs_int32 detailFlag;
3157 afs_int32 dumpInfo();
3159 if (as->parms[0].items) {
3160 if (as->parms[1].items) {
3162 "These options are exclusive - select only one");
3165 ndumps = atoi(as->parms[0].items->data);
3167 com_err(whoami, 0, "Must provide a positive number");
3171 code = printRecentDumps(ndumps);
3172 } else if (as->parms[1].items) {
3173 detailFlag = (as->parms[2].items ? 1 : 0); /* 1 = detailed listing */
3174 dumpid = atoi(as->parms[1].items->data);
3175 code = dumpInfo(dumpid, detailFlag);
3177 code = printRecentDumps(10);