Line data Source code
1 : /*-------------------------------------------------------------------------
2 : *
3 : * pg_rewind.c
4 : * Synchronizes a PostgreSQL data directory to a new timeline
5 : *
6 : * Portions Copyright (c) 1996-2019, PostgreSQL Global Development Group
7 : *
8 : *-------------------------------------------------------------------------
9 : */
10 : #include "postgres_fe.h"
11 :
12 : #include <sys/stat.h>
13 : #include <fcntl.h>
14 : #include <time.h>
15 : #include <unistd.h>
16 :
17 : #include "pg_rewind.h"
18 : #include "fetch.h"
19 : #include "file_ops.h"
20 : #include "filemap.h"
21 :
22 : #include "access/timeline.h"
23 : #include "access/xlog_internal.h"
24 : #include "catalog/catversion.h"
25 : #include "catalog/pg_control.h"
26 : #include "common/controldata_utils.h"
27 : #include "common/file_perm.h"
28 : #include "common/file_utils.h"
29 : #include "common/restricted_token.h"
30 : #include "getopt_long.h"
31 : #include "storage/bufpage.h"
32 :
33 : static void usage(const char *progname);
34 :
35 : static void createBackupLabel(XLogRecPtr startpoint, TimeLineID starttli,
36 : XLogRecPtr checkpointloc);
37 :
38 : static void digestControlFile(ControlFileData *ControlFile, char *source,
39 : size_t size);
40 : static void syncTargetDirectory(void);
41 : static void sanityChecks(void);
42 : static void findCommonAncestorTimeline(XLogRecPtr *recptr, int *tliIndex);
43 :
44 : static ControlFileData ControlFile_target;
45 : static ControlFileData ControlFile_source;
46 :
47 : const char *progname;
48 : int WalSegSz;
49 :
50 : /* Configuration options */
51 : char *datadir_target = NULL;
52 : char *datadir_source = NULL;
53 : char *connstr_source = NULL;
54 :
55 : static bool debug = false;
56 : bool showprogress = false;
57 : bool dry_run = false;
58 : bool do_sync = true;
59 :
60 : /* Target history */
61 : TimeLineHistoryEntry *targetHistory;
62 : int targetNentries;
63 :
64 : /* Progress counters */
65 : uint64 fetch_size;
66 : uint64 fetch_done;
67 :
68 :
69 : static void
70 0 : usage(const char *progname)
71 : {
72 0 : printf(_("%s resynchronizes a PostgreSQL cluster with another copy of the cluster.\n\n"), progname);
73 0 : printf(_("Usage:\n %s [OPTION]...\n\n"), progname);
74 0 : printf(_("Options:\n"));
75 0 : printf(_(" -D, --target-pgdata=DIRECTORY existing data directory to modify\n"));
76 0 : printf(_(" --source-pgdata=DIRECTORY source data directory to synchronize with\n"));
77 0 : printf(_(" --source-server=CONNSTR source server to synchronize with\n"));
78 0 : printf(_(" -n, --dry-run stop before modifying anything\n"));
79 0 : printf(_(" -N, --no-sync do not wait for changes to be written\n"
80 : " safely to disk\n"));
81 0 : printf(_(" -P, --progress write progress messages\n"));
82 0 : printf(_(" --debug write a lot of debug messages\n"));
83 0 : printf(_(" -V, --version output version information, then exit\n"));
84 0 : printf(_(" -?, --help show this help, then exit\n"));
85 0 : printf(_("\nReport bugs to <pgsql-bugs@lists.postgresql.org>.\n"));
86 0 : }
87 :
88 :
89 : int
90 18 : main(int argc, char **argv)
91 : {
92 : static struct option long_options[] = {
93 : {"help", no_argument, NULL, '?'},
94 : {"target-pgdata", required_argument, NULL, 'D'},
95 : {"source-pgdata", required_argument, NULL, 1},
96 : {"source-server", required_argument, NULL, 2},
97 : {"version", no_argument, NULL, 'V'},
98 : {"dry-run", no_argument, NULL, 'n'},
99 : {"no-sync", no_argument, NULL, 'N'},
100 : {"progress", no_argument, NULL, 'P'},
101 : {"debug", no_argument, NULL, 3},
102 : {NULL, 0, NULL, 0}
103 : };
104 : int option_index;
105 : int c;
106 : XLogRecPtr divergerec;
107 : int lastcommontliIndex;
108 : XLogRecPtr chkptrec;
109 : TimeLineID chkpttli;
110 : XLogRecPtr chkptredo;
111 : size_t size;
112 : char *buffer;
113 : bool rewind_needed;
114 : XLogRecPtr endrec;
115 : TimeLineID endtli;
116 : ControlFileData ControlFile_new;
117 :
118 18 : pg_logging_init(argv[0]);
119 18 : set_pglocale_pgservice(argv[0], PG_TEXTDOMAIN("pg_rewind"));
120 18 : progname = get_progname(argv[0]);
121 :
122 : /* Process command-line arguments */
123 18 : if (argc > 1)
124 : {
125 18 : if (strcmp(argv[1], "--help") == 0 || strcmp(argv[1], "-?") == 0)
126 : {
127 0 : usage(progname);
128 0 : exit(0);
129 : }
130 18 : if (strcmp(argv[1], "--version") == 0 || strcmp(argv[1], "-V") == 0)
131 : {
132 0 : puts("pg_rewind (PostgreSQL) " PG_VERSION);
133 0 : exit(0);
134 : }
135 : }
136 :
137 108 : while ((c = getopt_long(argc, argv, "D:nNP", long_options, &option_index)) != -1)
138 : {
139 72 : switch (c)
140 : {
141 : case '?':
142 0 : fprintf(stderr, _("Try \"%s --help\" for more information.\n"), progname);
143 0 : exit(1);
144 :
145 : case 'P':
146 0 : showprogress = true;
147 0 : break;
148 :
149 : case 'n':
150 0 : dry_run = true;
151 0 : break;
152 :
153 : case 'N':
154 18 : do_sync = false;
155 18 : break;
156 :
157 : case 3:
158 18 : debug = true;
159 18 : pg_logging_set_level(PG_LOG_DEBUG);
160 18 : break;
161 :
162 : case 'D': /* -D or --target-pgdata */
163 18 : datadir_target = pg_strdup(optarg);
164 18 : break;
165 :
166 : case 1: /* --source-pgdata */
167 10 : datadir_source = pg_strdup(optarg);
168 10 : break;
169 : case 2: /* --source-server */
170 8 : connstr_source = pg_strdup(optarg);
171 8 : break;
172 : }
173 : }
174 :
175 18 : if (datadir_source == NULL && connstr_source == NULL)
176 : {
177 0 : pg_log_error("no source specified (--source-pgdata or --source-server)");
178 0 : fprintf(stderr, _("Try \"%s --help\" for more information.\n"), progname);
179 0 : exit(1);
180 : }
181 :
182 18 : if (datadir_source != NULL && connstr_source != NULL)
183 : {
184 0 : pg_log_error("only one of --source-pgdata or --source-server can be specified");
185 0 : fprintf(stderr, _("Try \"%s --help\" for more information.\n"), progname);
186 0 : exit(1);
187 : }
188 :
189 18 : if (datadir_target == NULL)
190 : {
191 0 : pg_log_error("no target data directory specified (--target-pgdata)");
192 0 : fprintf(stderr, _("Try \"%s --help\" for more information.\n"), progname);
193 0 : exit(1);
194 : }
195 :
196 18 : if (optind < argc)
197 : {
198 0 : pg_log_error("too many command-line arguments (first is \"%s\")",
199 : argv[optind]);
200 0 : fprintf(stderr, _("Try \"%s --help\" for more information.\n"), progname);
201 0 : exit(1);
202 : }
203 :
204 : /*
205 : * Don't allow pg_rewind to be run as root, to avoid overwriting the
206 : * ownership of files in the data directory. We need only check for root
207 : * -- any other user won't have sufficient permissions to modify files in
208 : * the data directory.
209 : */
210 : #ifndef WIN32
211 18 : if (geteuid() == 0)
212 : {
213 0 : pg_log_error("cannot be executed by \"root\"");
214 0 : fprintf(stderr, _("You must run %s as the PostgreSQL superuser.\n"),
215 : progname);
216 0 : exit(1);
217 : }
218 : #endif
219 :
220 18 : get_restricted_token();
221 :
222 : /* Set mask based on PGDATA permissions */
223 18 : if (!GetDataDirectoryCreatePerm(datadir_target))
224 : {
225 0 : pg_log_error("could not read permissions of directory \"%s\": %m",
226 : datadir_target);
227 0 : exit(1);
228 : }
229 :
230 18 : umask(pg_mode_mask);
231 :
232 : /* Connect to remote server */
233 18 : if (connstr_source)
234 8 : libpqConnect(connstr_source);
235 :
236 : /*
237 : * Ok, we have all the options and we're ready to start. Read in all the
238 : * information we need from both clusters.
239 : */
240 18 : buffer = slurpFile(datadir_target, "global/pg_control", &size);
241 18 : digestControlFile(&ControlFile_target, buffer, size);
242 18 : pg_free(buffer);
243 :
244 18 : buffer = fetchFile("global/pg_control", &size);
245 18 : digestControlFile(&ControlFile_source, buffer, size);
246 18 : pg_free(buffer);
247 :
248 18 : sanityChecks();
249 :
250 : /*
251 : * If both clusters are already on the same timeline, there's nothing to
252 : * do.
253 : */
254 18 : if (ControlFile_target.checkPointCopy.ThisTimeLineID == ControlFile_source.checkPointCopy.ThisTimeLineID)
255 : {
256 2 : pg_log_info("source and target cluster are on the same timeline");
257 2 : rewind_needed = false;
258 : }
259 : else
260 : {
261 16 : findCommonAncestorTimeline(&divergerec, &lastcommontliIndex);
262 16 : pg_log_info("servers diverged at WAL location %X/%X on timeline %u",
263 : (uint32) (divergerec >> 32), (uint32) divergerec,
264 : targetHistory[lastcommontliIndex].tli);
265 :
266 : /*
267 : * Check for the possibility that the target is in fact a direct
268 : * ancestor of the source. In that case, there is no divergent history
269 : * in the target that needs rewinding.
270 : */
271 16 : if (ControlFile_target.checkPoint >= divergerec)
272 : {
273 16 : rewind_needed = true;
274 : }
275 : else
276 : {
277 : XLogRecPtr chkptendrec;
278 :
279 : /* Read the checkpoint record on the target to see where it ends. */
280 0 : chkptendrec = readOneRecord(datadir_target,
281 : ControlFile_target.checkPoint,
282 : targetNentries - 1);
283 :
284 : /*
285 : * If the histories diverged exactly at the end of the shutdown
286 : * checkpoint record on the target, there are no WAL records in
287 : * the target that don't belong in the source's history, and no
288 : * rewind is needed.
289 : */
290 0 : if (chkptendrec == divergerec)
291 0 : rewind_needed = false;
292 : else
293 0 : rewind_needed = true;
294 : }
295 : }
296 :
297 18 : if (!rewind_needed)
298 : {
299 2 : pg_log_info("no rewind required");
300 2 : exit(0);
301 : }
302 :
303 16 : findLastCheckpoint(datadir_target, divergerec,
304 : lastcommontliIndex,
305 : &chkptrec, &chkpttli, &chkptredo);
306 16 : pg_log_info("rewinding from last common checkpoint at %X/%X on timeline %u",
307 : (uint32) (chkptrec >> 32), (uint32) chkptrec,
308 : chkpttli);
309 :
310 : /*
311 : * Build the filemap, by comparing the source and target data directories.
312 : */
313 16 : filemap_create();
314 16 : if (showprogress)
315 0 : pg_log_info("reading source file list");
316 16 : fetchSourceFileList();
317 16 : if (showprogress)
318 0 : pg_log_info("reading target file list");
319 16 : traverse_datadir(datadir_target, &process_target_file);
320 :
321 : /*
322 : * Read the target WAL from last checkpoint before the point of fork, to
323 : * extract all the pages that were modified on the target cluster after
324 : * the fork. We can stop reading after reaching the final shutdown record.
325 : * XXX: If we supported rewinding a server that was not shut down cleanly,
326 : * we would need to replay until the end of WAL here.
327 : */
328 16 : if (showprogress)
329 0 : pg_log_info("reading WAL in target");
330 16 : extractPageMap(datadir_target, chkptrec, lastcommontliIndex,
331 : ControlFile_target.checkPoint);
332 16 : filemap_finalize();
333 :
334 16 : if (showprogress)
335 0 : calculate_totals();
336 :
337 : /* this is too verbose even for verbose mode */
338 16 : if (debug)
339 16 : print_filemap();
340 :
341 : /*
342 : * Ok, we're ready to start copying things over.
343 : */
344 16 : if (showprogress)
345 : {
346 0 : pg_log_info("need to copy %lu MB (total source directory size is %lu MB)",
347 : (unsigned long) (filemap->fetch_size / (1024 * 1024)),
348 : (unsigned long) (filemap->total_size / (1024 * 1024)));
349 :
350 0 : fetch_size = filemap->fetch_size;
351 0 : fetch_done = 0;
352 : }
353 :
354 : /*
355 : * This is the point of no return. Once we start copying things, we have
356 : * modified the target directory and there is no turning back!
357 : */
358 :
359 16 : executeFileMap();
360 :
361 16 : progress_report(true);
362 16 : printf("\n");
363 :
364 16 : if (showprogress)
365 0 : pg_log_info("creating backup label and updating control file");
366 16 : createBackupLabel(chkptredo, chkpttli, chkptrec);
367 :
368 : /*
369 : * Update control file of target. Make it ready to perform archive
370 : * recovery when restarting.
371 : *
372 : * minRecoveryPoint is set to the current WAL insert location in the
373 : * source server. Like in an online backup, it's important that we recover
374 : * all the WAL that was generated while we copied the files over.
375 : */
376 16 : memcpy(&ControlFile_new, &ControlFile_source, sizeof(ControlFileData));
377 :
378 16 : if (connstr_source)
379 : {
380 8 : endrec = libpqGetCurrentXlogInsertLocation();
381 8 : endtli = ControlFile_source.checkPointCopy.ThisTimeLineID;
382 : }
383 : else
384 : {
385 8 : endrec = ControlFile_source.checkPoint;
386 8 : endtli = ControlFile_source.checkPointCopy.ThisTimeLineID;
387 : }
388 16 : ControlFile_new.minRecoveryPoint = endrec;
389 16 : ControlFile_new.minRecoveryPointTLI = endtli;
390 16 : ControlFile_new.state = DB_IN_ARCHIVE_RECOVERY;
391 16 : update_controlfile(datadir_target, &ControlFile_new, do_sync);
392 :
393 16 : if (showprogress)
394 0 : pg_log_info("syncing target data directory");
395 16 : syncTargetDirectory();
396 :
397 16 : pg_log_info("Done!");
398 :
399 16 : return 0;
400 : }
401 :
402 : static void
403 18 : sanityChecks(void)
404 : {
405 : /* TODO Check that there's no backup_label in either cluster */
406 :
407 : /* Check system_identifier match */
408 18 : if (ControlFile_target.system_identifier != ControlFile_source.system_identifier)
409 0 : pg_fatal("source and target clusters are from different systems");
410 :
411 : /* check version */
412 36 : if (ControlFile_target.pg_control_version != PG_CONTROL_VERSION ||
413 36 : ControlFile_source.pg_control_version != PG_CONTROL_VERSION ||
414 36 : ControlFile_target.catalog_version_no != CATALOG_VERSION_NO ||
415 18 : ControlFile_source.catalog_version_no != CATALOG_VERSION_NO)
416 : {
417 0 : pg_fatal("clusters are not compatible with this version of pg_rewind");
418 : }
419 :
420 : /*
421 : * Target cluster need to use checksums or hint bit wal-logging, this to
422 : * prevent from data corruption that could occur because of hint bits.
423 : */
424 36 : if (ControlFile_target.data_checksum_version != PG_DATA_CHECKSUM_VERSION &&
425 18 : !ControlFile_target.wal_log_hints)
426 : {
427 0 : pg_fatal("target server needs to use either data checksums or \"wal_log_hints = on\"");
428 : }
429 :
430 : /*
431 : * Target cluster better not be running. This doesn't guard against
432 : * someone starting the cluster concurrently. Also, this is probably more
433 : * strict than necessary; it's OK if the target node was not shut down
434 : * cleanly, as long as it isn't running at the moment.
435 : */
436 18 : if (ControlFile_target.state != DB_SHUTDOWNED &&
437 0 : ControlFile_target.state != DB_SHUTDOWNED_IN_RECOVERY)
438 0 : pg_fatal("target server must be shut down cleanly");
439 :
440 : /*
441 : * When the source is a data directory, also require that the source
442 : * server is shut down. There isn't any very strong reason for this
443 : * limitation, but better safe than sorry.
444 : */
445 28 : if (datadir_source &&
446 12 : ControlFile_source.state != DB_SHUTDOWNED &&
447 2 : ControlFile_source.state != DB_SHUTDOWNED_IN_RECOVERY)
448 0 : pg_fatal("source data directory must be shut down cleanly");
449 18 : }
450 :
451 : /*
452 : * Print a progress report based on the fetch_size and fetch_done variables.
453 : *
454 : * Progress report is written at maximum once per second, unless the
455 : * force parameter is set to true.
456 : */
457 : void
458 55170 : progress_report(bool force)
459 : {
460 : static pg_time_t last_progress_report = 0;
461 : int percent;
462 : char fetch_done_str[32];
463 : char fetch_size_str[32];
464 : pg_time_t now;
465 :
466 55170 : if (!showprogress)
467 110340 : return;
468 :
469 0 : now = time(NULL);
470 0 : if (now == last_progress_report && !force)
471 0 : return; /* Max once per second */
472 :
473 0 : last_progress_report = now;
474 0 : percent = fetch_size ? (int) ((fetch_done) * 100 / fetch_size) : 0;
475 :
476 : /*
477 : * Avoid overflowing past 100% or the full size. This may make the total
478 : * size number change as we approach the end of the backup (the estimate
479 : * will always be wrong if WAL is included), but that's better than having
480 : * the done column be bigger than the total.
481 : */
482 0 : if (percent > 100)
483 0 : percent = 100;
484 0 : if (fetch_done > fetch_size)
485 0 : fetch_size = fetch_done;
486 :
487 : /*
488 : * Separate step to keep platform-dependent format code out of
489 : * translatable strings. And we only test for INT64_FORMAT availability
490 : * in snprintf, not fprintf.
491 : */
492 0 : snprintf(fetch_done_str, sizeof(fetch_done_str), INT64_FORMAT,
493 : fetch_done / 1024);
494 0 : snprintf(fetch_size_str, sizeof(fetch_size_str), INT64_FORMAT,
495 : fetch_size / 1024);
496 :
497 0 : fprintf(stderr, _("%*s/%s kB (%d%%) copied"),
498 0 : (int) strlen(fetch_size_str), fetch_done_str, fetch_size_str,
499 : percent);
500 0 : if (isatty(fileno(stderr)))
501 0 : fprintf(stderr, "\r");
502 : else
503 0 : fprintf(stderr, "\n");
504 : }
505 :
506 : /*
507 : * Find minimum from two WAL locations assuming InvalidXLogRecPtr means
508 : * infinity as src/include/access/timeline.h states. This routine should
509 : * be used only when comparing WAL locations related to history files.
510 : */
511 : static XLogRecPtr
512 16 : MinXLogRecPtr(XLogRecPtr a, XLogRecPtr b)
513 : {
514 16 : if (XLogRecPtrIsInvalid(a))
515 0 : return b;
516 16 : else if (XLogRecPtrIsInvalid(b))
517 16 : return a;
518 : else
519 0 : return Min(a, b);
520 : }
521 :
522 : /*
523 : * Retrieve timeline history for given control file which should behold
524 : * either source or target.
525 : */
526 : static TimeLineHistoryEntry *
527 32 : getTimelineHistory(ControlFileData *controlFile, int *nentries)
528 : {
529 : TimeLineHistoryEntry *history;
530 : TimeLineID tli;
531 :
532 32 : tli = controlFile->checkPointCopy.ThisTimeLineID;
533 :
534 : /*
535 : * Timeline 1 does not have a history file, so there is no need to check
536 : * and fake an entry with infinite start and end positions.
537 : */
538 32 : if (tli == 1)
539 : {
540 16 : history = (TimeLineHistoryEntry *) pg_malloc(sizeof(TimeLineHistoryEntry));
541 16 : history->tli = tli;
542 16 : history->begin = history->end = InvalidXLogRecPtr;
543 16 : *nentries = 1;
544 : }
545 : else
546 : {
547 : char path[MAXPGPATH];
548 : char *histfile;
549 :
550 16 : TLHistoryFilePath(path, tli);
551 :
552 : /* Get history file from appropriate source */
553 16 : if (controlFile == &ControlFile_source)
554 16 : histfile = fetchFile(path, NULL);
555 0 : else if (controlFile == &ControlFile_target)
556 0 : histfile = slurpFile(datadir_target, path, NULL);
557 : else
558 0 : pg_fatal("invalid control file");
559 :
560 16 : history = rewind_parseTimeLineHistory(histfile, tli, nentries);
561 16 : pg_free(histfile);
562 : }
563 :
564 32 : if (debug)
565 : {
566 : int i;
567 :
568 32 : if (controlFile == &ControlFile_source)
569 16 : pg_log_debug("Source timeline history:");
570 16 : else if (controlFile == &ControlFile_target)
571 16 : pg_log_debug("Target timeline history:");
572 : else
573 : Assert(false);
574 :
575 : /*
576 : * Print the target timeline history.
577 : */
578 48 : for (i = 0; i < targetNentries; i++)
579 : {
580 : TimeLineHistoryEntry *entry;
581 :
582 16 : entry = &history[i];
583 16 : pg_log_debug("%d: %X/%X - %X/%X", entry->tli,
584 : (uint32) (entry->begin >> 32), (uint32) (entry->begin),
585 : (uint32) (entry->end >> 32), (uint32) (entry->end));
586 : }
587 : }
588 :
589 32 : return history;
590 : }
591 :
592 : /*
593 : * Determine the TLI of the last common timeline in the timeline history of the
594 : * two clusters. targetHistory is filled with target timeline history and
595 : * targetNentries is number of items in targetHistory. *tliIndex is set to the
596 : * index of last common timeline in targetHistory array, and *recptr is set to
597 : * the position where the timeline history diverged (ie. the first WAL record
598 : * that's not the same in both clusters).
599 : *
600 : * Control files of both clusters must be read into ControlFile_target/source
601 : * before calling this routine.
602 : */
603 : static void
604 16 : findCommonAncestorTimeline(XLogRecPtr *recptr, int *tliIndex)
605 : {
606 : TimeLineHistoryEntry *sourceHistory;
607 : int sourceNentries;
608 : int i,
609 : n;
610 :
611 : /* Retrieve timelines for both source and target */
612 16 : sourceHistory = getTimelineHistory(&ControlFile_source, &sourceNentries);
613 16 : targetHistory = getTimelineHistory(&ControlFile_target, &targetNentries);
614 :
615 : /*
616 : * Trace the history forward, until we hit the timeline diverge. It may
617 : * still be possible that the source and target nodes used the same
618 : * timeline number in their history but with different start position
619 : * depending on the history files that each node has fetched in previous
620 : * recovery processes. Hence check the start position of the new timeline
621 : * as well and move down by one extra timeline entry if they do not match.
622 : */
623 16 : n = Min(sourceNentries, targetNentries);
624 32 : for (i = 0; i < n; i++)
625 : {
626 32 : if (sourceHistory[i].tli != targetHistory[i].tli ||
627 16 : sourceHistory[i].begin != targetHistory[i].begin)
628 : break;
629 : }
630 :
631 16 : if (i > 0)
632 : {
633 16 : i--;
634 16 : *recptr = MinXLogRecPtr(sourceHistory[i].end, targetHistory[i].end);
635 16 : *tliIndex = i;
636 :
637 16 : pg_free(sourceHistory);
638 16 : return;
639 : }
640 : else
641 : {
642 0 : pg_fatal("could not find common ancestor of the source and target cluster's timelines");
643 : }
644 : }
645 :
646 :
647 : /*
648 : * Create a backup_label file that forces recovery to begin at the last common
649 : * checkpoint.
650 : */
651 : static void
652 16 : createBackupLabel(XLogRecPtr startpoint, TimeLineID starttli, XLogRecPtr checkpointloc)
653 : {
654 : XLogSegNo startsegno;
655 : time_t stamp_time;
656 : char strfbuf[128];
657 : char xlogfilename[MAXFNAMELEN];
658 : struct tm *tmp;
659 : char buf[1000];
660 : int len;
661 :
662 16 : XLByteToSeg(startpoint, startsegno, WalSegSz);
663 16 : XLogFileName(xlogfilename, starttli, startsegno, WalSegSz);
664 :
665 : /*
666 : * Construct backup label file
667 : */
668 16 : stamp_time = time(NULL);
669 16 : tmp = localtime(&stamp_time);
670 16 : strftime(strfbuf, sizeof(strfbuf), "%Y-%m-%d %H:%M:%S %Z", tmp);
671 :
672 48 : len = snprintf(buf, sizeof(buf),
673 : "START WAL LOCATION: %X/%X (file %s)\n"
674 : "CHECKPOINT LOCATION: %X/%X\n"
675 : "BACKUP METHOD: pg_rewind\n"
676 : "BACKUP FROM: standby\n"
677 : "START TIME: %s\n",
678 : /* omit LABEL: line */
679 16 : (uint32) (startpoint >> 32), (uint32) startpoint, xlogfilename,
680 16 : (uint32) (checkpointloc >> 32), (uint32) checkpointloc,
681 : strfbuf);
682 16 : if (len >= sizeof(buf))
683 0 : pg_fatal("backup label buffer too small"); /* shouldn't happen */
684 :
685 : /* TODO: move old file out of the way, if any. */
686 16 : open_target_file("backup_label", true); /* BACKUP_LABEL_FILE */
687 16 : write_target_range(buf, 0, len);
688 16 : close_target_file();
689 16 : }
690 :
691 : /*
692 : * Check CRC of control file
693 : */
694 : static void
695 36 : checkControlFile(ControlFileData *ControlFile)
696 : {
697 : pg_crc32c crc;
698 :
699 : /* Calculate CRC */
700 36 : INIT_CRC32C(crc);
701 36 : COMP_CRC32C(crc, (char *) ControlFile, offsetof(ControlFileData, crc));
702 36 : FIN_CRC32C(crc);
703 :
704 : /* And simply compare it */
705 36 : if (!EQ_CRC32C(crc, ControlFile->crc))
706 0 : pg_fatal("unexpected control file CRC");
707 36 : }
708 :
709 : /*
710 : * Verify control file contents in the buffer src, and copy it to *ControlFile.
711 : */
712 : static void
713 36 : digestControlFile(ControlFileData *ControlFile, char *src, size_t size)
714 : {
715 36 : if (size != PG_CONTROL_FILE_SIZE)
716 0 : pg_fatal("unexpected control file size %d, expected %d",
717 : (int) size, PG_CONTROL_FILE_SIZE);
718 :
719 36 : memcpy(ControlFile, src, sizeof(ControlFileData));
720 :
721 : /* set and validate WalSegSz */
722 36 : WalSegSz = ControlFile->xlog_seg_size;
723 :
724 36 : if (!IsValidWalSegSize(WalSegSz))
725 0 : pg_fatal(ngettext("WAL segment size must be a power of two between 1 MB and 1 GB, but the control file specifies %d byte",
726 : "WAL segment size must be a power of two between 1 MB and 1 GB, but the control file specifies %d bytes",
727 : WalSegSz),
728 : WalSegSz);
729 :
730 : /* Additional checks on control file */
731 36 : checkControlFile(ControlFile);
732 36 : }
733 :
734 : /*
735 : * Sync target data directory to ensure that modifications are safely on disk.
736 : *
737 : * We do this once, for the whole data directory, for performance reasons. At
738 : * the end of pg_rewind's run, the kernel is likely to already have flushed
739 : * most dirty buffers to disk. Additionally fsync_pgdata uses a two-pass
740 : * approach (only initiating writeback in the first pass), which often reduces
741 : * the overall amount of IO noticeably.
742 : */
743 : static void
744 16 : syncTargetDirectory(void)
745 : {
746 16 : if (!do_sync || dry_run)
747 16 : return;
748 :
749 0 : fsync_pgdata(datadir_target, PG_VERSION_NUM);
750 : }
|
