Line data Source code
1 : /* -------------------------------------------------------------------------
2 : *
3 : * decode.c
4 : * This module decodes WAL records read using xlogreader.h's APIs for the
5 : * purpose of logical decoding by passing information to the
6 : * reorderbuffer module (containing the actual changes) and to the
7 : * snapbuild module to build a fitting catalog snapshot (to be able to
8 : * properly decode the changes in the reorderbuffer).
9 : *
10 : * NOTE:
11 : * This basically tries to handle all low level xlog stuff for
12 : * reorderbuffer.c and snapbuild.c. There's some minor leakage where a
13 : * specific record's struct is used to pass data along, but those just
14 : * happen to contain the right amount of data in a convenient
15 : * format. There isn't and shouldn't be much intelligence about the
16 : * contents of records in here except turning them into a more usable
17 : * format.
18 : *
19 : * Portions Copyright (c) 1996-2026, PostgreSQL Global Development Group
20 : * Portions Copyright (c) 1994, Regents of the University of California
21 : *
22 : * IDENTIFICATION
23 : * src/backend/replication/logical/decode.c
24 : *
25 : * -------------------------------------------------------------------------
26 : */
27 : #include "postgres.h"
28 :
29 : #include "access/heapam_xlog.h"
30 : #include "access/transam.h"
31 : #include "access/xact.h"
32 : #include "access/xlog_internal.h"
33 : #include "access/xlogreader.h"
34 : #include "access/xlogrecord.h"
35 : #include "catalog/pg_control.h"
36 : #include "replication/decode.h"
37 : #include "replication/logical.h"
38 : #include "replication/message.h"
39 : #include "replication/reorderbuffer.h"
40 : #include "replication/snapbuild.h"
41 : #include "storage/standbydefs.h"
42 :
43 : /* individual record(group)'s handlers */
44 : static void DecodeInsert(LogicalDecodingContext *ctx, XLogRecordBuffer *buf);
45 : static void DecodeUpdate(LogicalDecodingContext *ctx, XLogRecordBuffer *buf);
46 : static void DecodeDelete(LogicalDecodingContext *ctx, XLogRecordBuffer *buf);
47 : static void DecodeTruncate(LogicalDecodingContext *ctx, XLogRecordBuffer *buf);
48 : static void DecodeMultiInsert(LogicalDecodingContext *ctx, XLogRecordBuffer *buf);
49 : static void DecodeSpecConfirm(LogicalDecodingContext *ctx, XLogRecordBuffer *buf);
50 :
51 : static void DecodeCommit(LogicalDecodingContext *ctx, XLogRecordBuffer *buf,
52 : xl_xact_parsed_commit *parsed, TransactionId xid,
53 : bool two_phase);
54 : static void DecodeAbort(LogicalDecodingContext *ctx, XLogRecordBuffer *buf,
55 : xl_xact_parsed_abort *parsed, TransactionId xid,
56 : bool two_phase);
57 : static void DecodePrepare(LogicalDecodingContext *ctx, XLogRecordBuffer *buf,
58 : xl_xact_parsed_prepare *parsed);
59 :
60 :
61 : /* common function to decode tuples */
62 : static void DecodeXLogTuple(char *data, Size len, HeapTuple tuple);
63 :
64 : /* helper functions for decoding transactions */
65 : static inline bool FilterPrepare(LogicalDecodingContext *ctx,
66 : TransactionId xid, const char *gid);
67 : static bool DecodeTXNNeedSkip(LogicalDecodingContext *ctx,
68 : XLogRecordBuffer *buf, Oid txn_dbid,
69 : ReplOriginId origin_id);
70 :
71 : /*
72 : * Take every XLogReadRecord()ed record and perform the actions required to
73 : * decode it using the output plugin already setup in the logical decoding
74 : * context.
75 : *
76 : * NB: Note that every record's xid needs to be processed by reorderbuffer
77 : * (xids contained in the content of records are not relevant for this rule).
78 : * That means that for records which'd otherwise not go through the
79 : * reorderbuffer ReorderBufferProcessXid() has to be called. We don't want to
80 : * call ReorderBufferProcessXid for each record type by default, because
81 : * e.g. empty xacts can be handled more efficiently if there's no previous
82 : * state for them.
83 : *
84 : * We also support the ability to fast forward thru records, skipping some
85 : * record types completely - see individual record types for details.
86 : */
87 : void
88 2219310 : LogicalDecodingProcessRecord(LogicalDecodingContext *ctx, XLogReaderState *record)
89 : {
90 : XLogRecordBuffer buf;
91 : TransactionId txid;
92 : RmgrData rmgr;
93 :
94 2219310 : buf.origptr = ctx->reader->ReadRecPtr;
95 2219310 : buf.endptr = ctx->reader->EndRecPtr;
96 2219310 : buf.record = record;
97 :
98 2219310 : txid = XLogRecGetTopXid(record);
99 :
100 : /*
101 : * If the top-level xid is valid, we need to assign the subxact to the
102 : * top-level xact. We need to do this for all records, hence we do it
103 : * before the switch.
104 : */
105 2219310 : if (TransactionIdIsValid(txid))
106 : {
107 667 : ReorderBufferAssignChild(ctx->reorder,
108 : txid,
109 667 : XLogRecGetXid(record),
110 : buf.origptr);
111 : }
112 :
113 2219310 : rmgr = GetRmgr(XLogRecGetRmid(record));
114 :
115 2219310 : if (rmgr.rm_decode != NULL)
116 1709018 : rmgr.rm_decode(ctx, &buf);
117 : else
118 : {
119 : /* just deal with xid, and done */
120 510292 : ReorderBufferProcessXid(ctx->reorder, XLogRecGetXid(record),
121 : buf.origptr);
122 : }
123 2219298 : }
124 :
125 : /*
126 : * Handle rmgr XLOG_ID records for LogicalDecodingProcessRecord().
127 : */
128 : void
129 6427 : xlog_decode(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
130 : {
131 6427 : SnapBuild *builder = ctx->snapshot_builder;
132 6427 : uint8 info = XLogRecGetInfo(buf->record) & ~XLR_INFO_MASK;
133 :
134 6427 : ReorderBufferProcessXid(ctx->reorder, XLogRecGetXid(buf->record),
135 : buf->origptr);
136 :
137 6427 : switch (info)
138 : {
139 : /* this is also used in END_OF_RECOVERY checkpoints */
140 81 : case XLOG_CHECKPOINT_SHUTDOWN:
141 : case XLOG_END_OF_RECOVERY:
142 81 : SnapBuildSerializationPoint(builder, buf->origptr);
143 :
144 81 : break;
145 80 : case XLOG_CHECKPOINT_ONLINE:
146 :
147 : /*
148 : * a RUNNING_XACTS record will have been logged near to this, we
149 : * can restart from there.
150 : */
151 80 : break;
152 0 : case XLOG_LOGICAL_DECODING_STATUS_CHANGE:
153 : {
154 : bool logical_decoding;
155 :
156 0 : memcpy(&logical_decoding, XLogRecGetData(buf->record), sizeof(bool));
157 :
158 : /*
159 : * Error out as we should not decode this WAL record.
160 : *
161 : * Logical decoding is disabled, and existing logical slots on
162 : * the standby are invalidated when this WAL record is
163 : * replayed. No logical decoder can process this WAL record
164 : * until replay completes, and by then the slots are already
165 : * invalidated. Furthermore, no new logical slots can be
166 : * created while logical decoding is disabled. This cannot
167 : * occur even on primary either, since it will not restart
168 : * with wal_level < replica if any logical slots exist.
169 : */
170 0 : elog(ERROR, "unexpected logical decoding status change %d",
171 : logical_decoding);
172 :
173 : break;
174 : }
175 6266 : case XLOG_NOOP:
176 : case XLOG_NEXTOID:
177 : case XLOG_SWITCH:
178 : case XLOG_BACKUP_END:
179 : case XLOG_PARAMETER_CHANGE:
180 : case XLOG_RESTORE_POINT:
181 : case XLOG_FPW_CHANGE:
182 : case XLOG_FPI_FOR_HINT:
183 : case XLOG_FPI:
184 : case XLOG_OVERWRITE_CONTRECORD:
185 : case XLOG_CHECKPOINT_REDO:
186 6266 : break;
187 0 : default:
188 0 : elog(ERROR, "unexpected RM_XLOG_ID record type: %u", info);
189 : }
190 6427 : }
191 :
192 : void
193 0 : xlog2_decode(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
194 : {
195 0 : uint8 info = XLogRecGetInfo(buf->record) & ~XLR_INFO_MASK;
196 :
197 0 : ReorderBufferProcessXid(ctx->reorder, XLogRecGetXid(buf->record), buf->origptr);
198 :
199 0 : switch (info)
200 : {
201 0 : case XLOG2_CHECKSUMS:
202 0 : break;
203 0 : default:
204 0 : elog(ERROR, "unexpected RM_XLOG2_ID record type: %u", info);
205 : }
206 0 : }
207 :
208 : /*
209 : * Handle rmgr XACT_ID records for LogicalDecodingProcessRecord().
210 : */
211 : void
212 10469 : xact_decode(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
213 : {
214 10469 : SnapBuild *builder = ctx->snapshot_builder;
215 10469 : ReorderBuffer *reorder = ctx->reorder;
216 10469 : XLogReaderState *r = buf->record;
217 10469 : uint8 info = XLogRecGetInfo(r) & XLOG_XACT_OPMASK;
218 :
219 : /*
220 : * If the snapshot isn't yet fully built, we cannot decode anything, so
221 : * bail out.
222 : */
223 10469 : if (SnapBuildCurrentState(builder) < SNAPBUILD_FULL_SNAPSHOT)
224 12 : return;
225 :
226 10457 : switch (info)
227 : {
228 3860 : case XLOG_XACT_COMMIT:
229 : case XLOG_XACT_COMMIT_PREPARED:
230 : {
231 : xl_xact_commit *xlrec;
232 : xl_xact_parsed_commit parsed;
233 : TransactionId xid;
234 3860 : bool two_phase = false;
235 :
236 3860 : xlrec = (xl_xact_commit *) XLogRecGetData(r);
237 3860 : ParseCommitRecord(XLogRecGetInfo(buf->record), xlrec, &parsed);
238 :
239 3860 : if (!TransactionIdIsValid(parsed.twophase_xid))
240 3740 : xid = XLogRecGetXid(r);
241 : else
242 120 : xid = parsed.twophase_xid;
243 :
244 : /*
245 : * We would like to process the transaction in a two-phase
246 : * manner iff output plugin supports two-phase commits and
247 : * doesn't filter the transaction at prepare time.
248 : */
249 3860 : if (info == XLOG_XACT_COMMIT_PREPARED)
250 120 : two_phase = !(FilterPrepare(ctx, xid,
251 120 : parsed.twophase_gid));
252 :
253 3860 : DecodeCommit(ctx, buf, &parsed, xid, two_phase);
254 3850 : break;
255 : }
256 206 : case XLOG_XACT_ABORT:
257 : case XLOG_XACT_ABORT_PREPARED:
258 : {
259 : xl_xact_abort *xlrec;
260 : xl_xact_parsed_abort parsed;
261 : TransactionId xid;
262 206 : bool two_phase = false;
263 :
264 206 : xlrec = (xl_xact_abort *) XLogRecGetData(r);
265 206 : ParseAbortRecord(XLogRecGetInfo(buf->record), xlrec, &parsed);
266 :
267 206 : if (!TransactionIdIsValid(parsed.twophase_xid))
268 161 : xid = XLogRecGetXid(r);
269 : else
270 45 : xid = parsed.twophase_xid;
271 :
272 : /*
273 : * We would like to process the transaction in a two-phase
274 : * manner iff output plugin supports two-phase commits and
275 : * doesn't filter the transaction at prepare time.
276 : */
277 206 : if (info == XLOG_XACT_ABORT_PREPARED)
278 45 : two_phase = !(FilterPrepare(ctx, xid,
279 45 : parsed.twophase_gid));
280 :
281 206 : DecodeAbort(ctx, buf, &parsed, xid, two_phase);
282 206 : break;
283 : }
284 123 : case XLOG_XACT_ASSIGNMENT:
285 :
286 : /*
287 : * We assign subxact to the toplevel xact while processing each
288 : * record if required. So, we don't need to do anything here. See
289 : * LogicalDecodingProcessRecord.
290 : */
291 123 : break;
292 6081 : case XLOG_XACT_INVALIDATIONS:
293 : {
294 : TransactionId xid;
295 : xl_xact_invals *invals;
296 :
297 6081 : xid = XLogRecGetXid(r);
298 6081 : invals = (xl_xact_invals *) XLogRecGetData(r);
299 :
300 : /*
301 : * Execute the invalidations for xid-less transactions,
302 : * otherwise, accumulate them so that they can be processed at
303 : * the commit time.
304 : */
305 6081 : if (TransactionIdIsValid(xid))
306 : {
307 6057 : if (!ctx->fast_forward)
308 5982 : ReorderBufferAddInvalidations(reorder, xid,
309 : buf->origptr,
310 5982 : invals->nmsgs,
311 5982 : invals->msgs);
312 6057 : ReorderBufferXidSetCatalogChanges(ctx->reorder, xid,
313 : buf->origptr);
314 : }
315 24 : else if (!ctx->fast_forward)
316 24 : ReorderBufferImmediateInvalidation(ctx->reorder,
317 24 : invals->nmsgs,
318 24 : invals->msgs);
319 :
320 6081 : break;
321 : }
322 187 : case XLOG_XACT_PREPARE:
323 : {
324 : xl_xact_parsed_prepare parsed;
325 : xl_xact_prepare *xlrec;
326 :
327 : /* ok, parse it */
328 187 : xlrec = (xl_xact_prepare *) XLogRecGetData(r);
329 187 : ParsePrepareRecord(XLogRecGetInfo(buf->record),
330 : xlrec, &parsed);
331 :
332 : /*
333 : * We would like to process the transaction in a two-phase
334 : * manner iff output plugin supports two-phase commits and
335 : * doesn't filter the transaction at prepare time.
336 : */
337 187 : if (FilterPrepare(ctx, parsed.twophase_xid,
338 : parsed.twophase_gid))
339 : {
340 20 : ReorderBufferProcessXid(reorder, parsed.twophase_xid,
341 : buf->origptr);
342 20 : break;
343 : }
344 :
345 : /*
346 : * Note that if the prepared transaction has locked [user]
347 : * catalog tables exclusively then decoding prepare can block
348 : * till the main transaction is committed because it needs to
349 : * lock the catalog tables.
350 : *
351 : * XXX Now, this can even lead to a deadlock if the prepare
352 : * transaction is waiting to get it logically replicated for
353 : * distributed 2PC. This can be avoided by disallowing
354 : * preparing transactions that have locked [user] catalog
355 : * tables exclusively but as of now, we ask users not to do
356 : * such an operation.
357 : */
358 167 : DecodePrepare(ctx, buf, &parsed);
359 167 : break;
360 : }
361 0 : default:
362 0 : elog(ERROR, "unexpected RM_XACT_ID record type: %u", info);
363 : }
364 : }
365 :
366 : /*
367 : * Handle rmgr STANDBY_ID records for LogicalDecodingProcessRecord().
368 : */
369 : void
370 4433 : standby_decode(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
371 : {
372 4433 : SnapBuild *builder = ctx->snapshot_builder;
373 4433 : XLogReaderState *r = buf->record;
374 4433 : uint8 info = XLogRecGetInfo(r) & ~XLR_INFO_MASK;
375 :
376 4433 : ReorderBufferProcessXid(ctx->reorder, XLogRecGetXid(r), buf->origptr);
377 :
378 4433 : switch (info)
379 : {
380 1674 : case XLOG_RUNNING_XACTS:
381 : {
382 1674 : xl_running_xacts *running = (xl_running_xacts *) XLogRecGetData(r);
383 :
384 1674 : SnapBuildProcessRunningXacts(builder, buf->origptr, running);
385 :
386 : /*
387 : * Abort all transactions that we keep track of, that are
388 : * older than the record's oldestRunningXid. This is the most
389 : * convenient spot for doing so since, in contrast to shutdown
390 : * or end-of-recovery checkpoints, we have information about
391 : * all running transactions which includes prepared ones,
392 : * while shutdown checkpoints just know that no non-prepared
393 : * transactions are in progress.
394 : */
395 1672 : ReorderBufferAbortOld(ctx->reorder, running->oldestRunningXid);
396 : }
397 1672 : break;
398 2735 : case XLOG_STANDBY_LOCK:
399 2735 : break;
400 24 : case XLOG_INVALIDATIONS:
401 :
402 : /*
403 : * We are processing the invalidations at the command level via
404 : * XLOG_XACT_INVALIDATIONS. So we don't need to do anything here.
405 : */
406 24 : break;
407 0 : default:
408 0 : elog(ERROR, "unexpected RM_STANDBY_ID record type: %u", info);
409 : }
410 4431 : }
411 :
412 : /*
413 : * Handle rmgr HEAP2_ID records for LogicalDecodingProcessRecord().
414 : */
415 : void
416 36686 : heap2_decode(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
417 : {
418 36686 : uint8 info = XLogRecGetInfo(buf->record) & XLOG_HEAP_OPMASK;
419 36686 : TransactionId xid = XLogRecGetXid(buf->record);
420 36686 : SnapBuild *builder = ctx->snapshot_builder;
421 :
422 36686 : ReorderBufferProcessXid(ctx->reorder, xid, buf->origptr);
423 :
424 : /*
425 : * If we don't have snapshot or we are just fast-forwarding, there is no
426 : * point in decoding data changes. However, it's crucial to build the base
427 : * snapshot during fast-forward mode (as is done in
428 : * SnapBuildProcessChange()) because we require the snapshot's xmin when
429 : * determining the candidate catalog_xmin for the replication slot. See
430 : * SnapBuildProcessRunningXacts().
431 : */
432 36686 : if (SnapBuildCurrentState(builder) < SNAPBUILD_FULL_SNAPSHOT)
433 8 : return;
434 :
435 36678 : switch (info)
436 : {
437 6972 : case XLOG_HEAP2_MULTI_INSERT:
438 6972 : if (SnapBuildProcessChange(builder, xid, buf->origptr) &&
439 6972 : !ctx->fast_forward)
440 6868 : DecodeMultiInsert(ctx, buf);
441 6972 : break;
442 28178 : case XLOG_HEAP2_NEW_CID:
443 28178 : if (!ctx->fast_forward)
444 : {
445 : xl_heap_new_cid *xlrec;
446 :
447 27795 : xlrec = (xl_heap_new_cid *) XLogRecGetData(buf->record);
448 27795 : SnapBuildProcessNewCid(builder, xid, buf->origptr, xlrec);
449 : }
450 28178 : break;
451 90 : case XLOG_HEAP2_REWRITE:
452 :
453 : /*
454 : * Although these records only exist to serve the needs of logical
455 : * decoding, all the work happens as part of crash or archive
456 : * recovery, so we don't need to do anything here.
457 : */
458 90 : break;
459 :
460 : /*
461 : * Everything else here is just low level physical stuff we're not
462 : * interested in.
463 : */
464 1438 : case XLOG_HEAP2_PRUNE_ON_ACCESS:
465 : case XLOG_HEAP2_PRUNE_VACUUM_SCAN:
466 : case XLOG_HEAP2_PRUNE_VACUUM_CLEANUP:
467 : case XLOG_HEAP2_LOCK_UPDATED:
468 1438 : break;
469 0 : default:
470 0 : elog(ERROR, "unexpected RM_HEAP2_ID record type: %u", info);
471 : }
472 : }
473 :
474 : /*
475 : * Handle rmgr HEAP_ID records for LogicalDecodingProcessRecord().
476 : */
477 : void
478 1650905 : heap_decode(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
479 : {
480 1650905 : uint8 info = XLogRecGetInfo(buf->record) & XLOG_HEAP_OPMASK;
481 1650905 : TransactionId xid = XLogRecGetXid(buf->record);
482 1650905 : SnapBuild *builder = ctx->snapshot_builder;
483 :
484 1650905 : ReorderBufferProcessXid(ctx->reorder, xid, buf->origptr);
485 :
486 : /*
487 : * If we don't have snapshot or we are just fast-forwarding, there is no
488 : * point in decoding data changes. However, it's crucial to build the base
489 : * snapshot during fast-forward mode (as is done in
490 : * SnapBuildProcessChange()) because we require the snapshot's xmin when
491 : * determining the candidate catalog_xmin for the replication slot. See
492 : * SnapBuildProcessRunningXacts().
493 : */
494 1650905 : if (SnapBuildCurrentState(builder) < SNAPBUILD_FULL_SNAPSHOT)
495 3 : return;
496 :
497 1650902 : switch (info)
498 : {
499 1108751 : case XLOG_HEAP_INSERT:
500 1108751 : if (SnapBuildProcessChange(builder, xid, buf->origptr) &&
501 1108751 : !ctx->fast_forward)
502 1108553 : DecodeInsert(ctx, buf);
503 1108751 : break;
504 :
505 : /*
506 : * Treat HOT update as normal updates. There is no useful
507 : * information in the fact that we could make it a HOT update
508 : * locally and the WAL layout is compatible.
509 : */
510 154448 : case XLOG_HEAP_HOT_UPDATE:
511 : case XLOG_HEAP_UPDATE:
512 154448 : if (SnapBuildProcessChange(builder, xid, buf->origptr) &&
513 154448 : !ctx->fast_forward)
514 154435 : DecodeUpdate(ctx, buf);
515 154448 : break;
516 :
517 208083 : case XLOG_HEAP_DELETE:
518 208083 : if (SnapBuildProcessChange(builder, xid, buf->origptr) &&
519 208083 : !ctx->fast_forward)
520 207989 : DecodeDelete(ctx, buf);
521 208083 : break;
522 :
523 75 : case XLOG_HEAP_TRUNCATE:
524 75 : if (SnapBuildProcessChange(builder, xid, buf->origptr) &&
525 75 : !ctx->fast_forward)
526 73 : DecodeTruncate(ctx, buf);
527 75 : break;
528 :
529 1217 : case XLOG_HEAP_INPLACE:
530 :
531 : /*
532 : * Inplace updates are only ever performed on catalog tuples and
533 : * can, per definition, not change tuple visibility. Since we
534 : * also don't decode catalog tuples, we're not interested in the
535 : * record's contents.
536 : */
537 1217 : break;
538 :
539 17964 : case XLOG_HEAP_CONFIRM:
540 17964 : if (SnapBuildProcessChange(builder, xid, buf->origptr) &&
541 17964 : !ctx->fast_forward)
542 17964 : DecodeSpecConfirm(ctx, buf);
543 17964 : break;
544 :
545 160364 : case XLOG_HEAP_LOCK:
546 : /* we don't care about row level locks for now */
547 160364 : break;
548 :
549 0 : default:
550 0 : elog(ERROR, "unexpected RM_HEAP_ID record type: %u", info);
551 : break;
552 : }
553 : }
554 :
555 : /*
556 : * Ask output plugin whether we want to skip this PREPARE and send
557 : * this transaction as a regular commit later.
558 : */
559 : static inline bool
560 352 : FilterPrepare(LogicalDecodingContext *ctx, TransactionId xid,
561 : const char *gid)
562 : {
563 : /*
564 : * Skip if decoding of two-phase transactions at PREPARE time is not
565 : * enabled. In that case, all two-phase transactions are considered
566 : * filtered out and will be applied as regular transactions at COMMIT
567 : * PREPARED.
568 : */
569 352 : if (!ctx->twophase)
570 23 : return true;
571 :
572 : /*
573 : * The filter_prepare callback is optional. When not supplied, all
574 : * prepared transactions should go through.
575 : */
576 329 : if (ctx->callbacks.filter_prepare_cb == NULL)
577 181 : return false;
578 :
579 148 : return filter_prepare_cb_wrapper(ctx, xid, gid);
580 : }
581 :
582 : static inline bool
583 1486288 : FilterByOrigin(LogicalDecodingContext *ctx, ReplOriginId origin_id)
584 : {
585 1486288 : if (ctx->callbacks.filter_by_origin_cb == NULL)
586 42 : return false;
587 :
588 1486246 : return filter_by_origin_cb_wrapper(ctx, origin_id);
589 : }
590 :
591 : /*
592 : * Handle rmgr LOGICALMSG_ID records for LogicalDecodingProcessRecord().
593 : */
594 : void
595 98 : logicalmsg_decode(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
596 : {
597 98 : SnapBuild *builder = ctx->snapshot_builder;
598 98 : XLogReaderState *r = buf->record;
599 98 : TransactionId xid = XLogRecGetXid(r);
600 98 : uint8 info = XLogRecGetInfo(r) & ~XLR_INFO_MASK;
601 98 : ReplOriginId origin_id = XLogRecGetOrigin(r);
602 98 : Snapshot snapshot = NULL;
603 : xl_logical_message *message;
604 :
605 98 : if (info != XLOG_LOGICAL_MESSAGE)
606 0 : elog(ERROR, "unexpected RM_LOGICALMSG_ID record type: %u", info);
607 :
608 98 : ReorderBufferProcessXid(ctx->reorder, XLogRecGetXid(r), buf->origptr);
609 :
610 : /* If we don't have snapshot, there is no point in decoding messages */
611 98 : if (SnapBuildCurrentState(builder) < SNAPBUILD_FULL_SNAPSHOT)
612 0 : return;
613 :
614 98 : message = (xl_logical_message *) XLogRecGetData(r);
615 :
616 194 : if (message->dbId != ctx->slot->data.database ||
617 96 : FilterByOrigin(ctx, origin_id))
618 4 : return;
619 :
620 94 : if (message->transactional &&
621 39 : !SnapBuildProcessChange(builder, xid, buf->origptr))
622 0 : return;
623 149 : else if (!message->transactional &&
624 110 : (SnapBuildCurrentState(builder) != SNAPBUILD_CONSISTENT ||
625 55 : SnapBuildXactNeedsSkip(builder, buf->origptr)))
626 44 : return;
627 :
628 : /*
629 : * We also skip decoding in fast_forward mode. This check must be last
630 : * because we don't want to set the processing_required flag unless we
631 : * have a decodable message.
632 : */
633 50 : if (ctx->fast_forward)
634 : {
635 : /*
636 : * We need to set processing_required flag to notify the message's
637 : * existence to the caller. Usually, the flag is set when either the
638 : * COMMIT or ABORT records are decoded, but this must be turned on
639 : * here because the non-transactional logical message is decoded
640 : * without waiting for these records.
641 : */
642 3 : if (!message->transactional)
643 3 : ctx->processing_required = true;
644 :
645 3 : return;
646 : }
647 :
648 : /*
649 : * If this is a non-transactional change, get the snapshot we're expected
650 : * to use. We only get here when the snapshot is consistent, and the
651 : * change is not meant to be skipped.
652 : *
653 : * For transactional changes we don't need a snapshot, we'll use the
654 : * regular snapshot maintained by ReorderBuffer. We just leave it NULL.
655 : */
656 47 : if (!message->transactional)
657 8 : snapshot = SnapBuildGetOrBuildSnapshot(builder);
658 :
659 47 : ReorderBufferQueueMessage(ctx->reorder, xid, snapshot, buf->endptr,
660 47 : message->transactional,
661 47 : message->message, /* first part of message is
662 : * prefix */
663 : message->message_size,
664 47 : message->message + message->prefix_size);
665 : }
666 :
667 : /*
668 : * Consolidated commit record handling between the different form of commit
669 : * records.
670 : *
671 : * 'two_phase' indicates that caller wants to process the transaction in two
672 : * phases, first process prepare if not already done and then process
673 : * commit_prepared.
674 : */
675 : static void
676 3860 : DecodeCommit(LogicalDecodingContext *ctx, XLogRecordBuffer *buf,
677 : xl_xact_parsed_commit *parsed, TransactionId xid,
678 : bool two_phase)
679 : {
680 3860 : XLogRecPtr origin_lsn = InvalidXLogRecPtr;
681 3860 : TimestampTz commit_time = parsed->xact_time;
682 3860 : ReplOriginId origin_id = XLogRecGetOrigin(buf->record);
683 : int i;
684 :
685 3860 : if (parsed->xinfo & XACT_XINFO_HAS_ORIGIN)
686 : {
687 104 : origin_lsn = parsed->origin_lsn;
688 104 : commit_time = parsed->origin_timestamp;
689 : }
690 :
691 3860 : SnapBuildCommitTxn(ctx->snapshot_builder, buf->origptr, xid,
692 : parsed->nsubxacts, parsed->subxacts,
693 : parsed->xinfo);
694 :
695 : /* ----
696 : * Check whether we are interested in this specific transaction, and tell
697 : * the reorderbuffer to forget the content of the (sub-)transactions
698 : * if not.
699 : *
700 : * We can't just use ReorderBufferAbort() here, because we need to execute
701 : * the transaction's invalidations. This currently won't be needed if
702 : * we're just skipping over the transaction because currently we only do
703 : * so during startup, to get to the first transaction the client needs. As
704 : * we have reset the catalog caches before starting to read WAL, and we
705 : * haven't yet touched any catalogs, there can't be anything to invalidate.
706 : * But if we're "forgetting" this commit because it happened in another
707 : * database, the invalidations might be important, because they could be
708 : * for shared catalogs and we might have loaded data into the relevant
709 : * syscaches.
710 : * ---
711 : */
712 3860 : if (DecodeTXNNeedSkip(ctx, buf, parsed->dbId, origin_id))
713 : {
714 3027 : for (i = 0; i < parsed->nsubxacts; i++)
715 : {
716 967 : ReorderBufferForget(ctx->reorder, parsed->subxacts[i], buf->origptr);
717 : }
718 2060 : ReorderBufferForget(ctx->reorder, xid, buf->origptr);
719 :
720 2060 : return;
721 : }
722 :
723 : /* tell the reorderbuffer about the surviving subtransactions */
724 2066 : for (i = 0; i < parsed->nsubxacts; i++)
725 : {
726 266 : ReorderBufferCommitChild(ctx->reorder, xid, parsed->subxacts[i],
727 : buf->origptr, buf->endptr);
728 : }
729 :
730 : /*
731 : * Send the final commit record if the transaction data is already
732 : * decoded, otherwise, process the entire transaction.
733 : */
734 1800 : if (two_phase)
735 : {
736 35 : ReorderBufferFinishPrepared(ctx->reorder, xid, buf->origptr, buf->endptr,
737 35 : SnapBuildGetTwoPhaseAt(ctx->snapshot_builder),
738 : commit_time, origin_id, origin_lsn,
739 35 : parsed->twophase_gid, true);
740 : }
741 : else
742 : {
743 1765 : ReorderBufferCommit(ctx->reorder, xid, buf->origptr, buf->endptr,
744 : commit_time, origin_id, origin_lsn);
745 : }
746 :
747 : /*
748 : * Update the decoding stats at transaction prepare/commit/abort.
749 : * Additionally we send the stats when we spill or stream the changes to
750 : * avoid losing them in case the decoding is interrupted. It is not clear
751 : * that sending more or less frequently than this would be better.
752 : */
753 1790 : UpdateDecodingStats(ctx);
754 : }
755 :
756 : /*
757 : * Decode PREPARE record. Similar logic as in DecodeCommit.
758 : *
759 : * Note that we don't skip prepare even if have detected concurrent abort
760 : * because it is quite possible that we had already sent some changes before we
761 : * detect abort in which case we need to abort those changes in the subscriber.
762 : * To abort such changes, we do send the prepare and then the rollback prepared
763 : * which is what happened on the publisher-side as well. Now, we can invent a
764 : * new abort API wherein in such cases we send abort and skip sending prepared
765 : * and rollback prepared but then it is not that straightforward because we
766 : * might have streamed this transaction by that time in which case it is
767 : * handled when the rollback is encountered. It is not impossible to optimize
768 : * the concurrent abort case but it can introduce design complexity w.r.t
769 : * handling different cases so leaving it for now as it doesn't seem worth it.
770 : */
771 : static void
772 167 : DecodePrepare(LogicalDecodingContext *ctx, XLogRecordBuffer *buf,
773 : xl_xact_parsed_prepare *parsed)
774 : {
775 167 : SnapBuild *builder = ctx->snapshot_builder;
776 167 : XLogRecPtr origin_lsn = parsed->origin_lsn;
777 167 : TimestampTz prepare_time = parsed->xact_time;
778 167 : ReplOriginId origin_id = XLogRecGetOrigin(buf->record);
779 : int i;
780 167 : TransactionId xid = parsed->twophase_xid;
781 :
782 167 : if (parsed->origin_timestamp != 0)
783 8 : prepare_time = parsed->origin_timestamp;
784 :
785 : /*
786 : * Remember the prepare info for a txn so that it can be used later in
787 : * commit prepared if required. See ReorderBufferFinishPrepared.
788 : */
789 167 : if (!ReorderBufferRememberPrepareInfo(ctx->reorder, xid, buf->origptr,
790 : buf->endptr, prepare_time, origin_id,
791 : origin_lsn))
792 0 : return;
793 :
794 : /* We can't start streaming unless a consistent state is reached. */
795 167 : if (SnapBuildCurrentState(builder) < SNAPBUILD_CONSISTENT)
796 : {
797 3 : ReorderBufferSkipPrepare(ctx->reorder, xid);
798 3 : return;
799 : }
800 :
801 : /*
802 : * Check whether we need to process this transaction. See
803 : * DecodeTXNNeedSkip for the reasons why we sometimes want to skip the
804 : * transaction.
805 : *
806 : * We can't call ReorderBufferForget as we did in DecodeCommit as the txn
807 : * hasn't yet been committed, removing this txn before a commit might
808 : * result in the computation of an incorrect restart_lsn. See
809 : * SnapBuildProcessRunningXacts. But we need to process cache
810 : * invalidations if there are any for the reasons mentioned in
811 : * DecodeCommit.
812 : */
813 164 : if (DecodeTXNNeedSkip(ctx, buf, parsed->dbId, origin_id))
814 : {
815 120 : ReorderBufferSkipPrepare(ctx->reorder, xid);
816 120 : ReorderBufferInvalidate(ctx->reorder, xid, buf->origptr);
817 120 : return;
818 : }
819 :
820 : /* Tell the reorderbuffer about the surviving subtransactions. */
821 45 : for (i = 0; i < parsed->nsubxacts; i++)
822 : {
823 1 : ReorderBufferCommitChild(ctx->reorder, xid, parsed->subxacts[i],
824 : buf->origptr, buf->endptr);
825 : }
826 :
827 : /* replay actions of all transaction + subtransactions in order */
828 44 : ReorderBufferPrepare(ctx->reorder, xid, parsed->twophase_gid);
829 :
830 : /*
831 : * Update the decoding stats at transaction prepare/commit/abort.
832 : * Additionally we send the stats when we spill or stream the changes to
833 : * avoid losing them in case the decoding is interrupted. It is not clear
834 : * that sending more or less frequently than this would be better.
835 : */
836 44 : UpdateDecodingStats(ctx);
837 : }
838 :
839 :
840 : /*
841 : * Get the data from the various forms of abort records and pass it on to
842 : * snapbuild.c and reorderbuffer.c.
843 : *
844 : * 'two_phase' indicates to finish prepared transaction.
845 : */
846 : static void
847 206 : DecodeAbort(LogicalDecodingContext *ctx, XLogRecordBuffer *buf,
848 : xl_xact_parsed_abort *parsed, TransactionId xid,
849 : bool two_phase)
850 : {
851 : int i;
852 206 : XLogRecPtr origin_lsn = InvalidXLogRecPtr;
853 206 : TimestampTz abort_time = parsed->xact_time;
854 206 : ReplOriginId origin_id = XLogRecGetOrigin(buf->record);
855 : bool skip_xact;
856 :
857 206 : if (parsed->xinfo & XACT_XINFO_HAS_ORIGIN)
858 : {
859 4 : origin_lsn = parsed->origin_lsn;
860 4 : abort_time = parsed->origin_timestamp;
861 : }
862 :
863 : /*
864 : * Check whether we need to process this transaction. See
865 : * DecodeTXNNeedSkip for the reasons why we sometimes want to skip the
866 : * transaction.
867 : */
868 206 : skip_xact = DecodeTXNNeedSkip(ctx, buf, parsed->dbId, origin_id);
869 :
870 : /*
871 : * Send the final rollback record for a prepared transaction unless we
872 : * need to skip it. For non-two-phase xacts, simply forget the xact.
873 : */
874 206 : if (two_phase && !skip_xact)
875 : {
876 10 : ReorderBufferFinishPrepared(ctx->reorder, xid, buf->origptr, buf->endptr,
877 : InvalidXLogRecPtr,
878 : abort_time, origin_id, origin_lsn,
879 10 : parsed->twophase_gid, false);
880 : }
881 : else
882 : {
883 202 : for (i = 0; i < parsed->nsubxacts; i++)
884 : {
885 6 : ReorderBufferAbort(ctx->reorder, parsed->subxacts[i],
886 6 : buf->record->EndRecPtr, abort_time);
887 : }
888 :
889 196 : ReorderBufferAbort(ctx->reorder, xid, buf->record->EndRecPtr,
890 : abort_time);
891 : }
892 :
893 : /* update the decoding stats */
894 206 : UpdateDecodingStats(ctx);
895 206 : }
896 :
897 : /*
898 : * Parse XLOG_HEAP_INSERT (not MULTI_INSERT!) records into tuplebufs.
899 : *
900 : * Inserts can contain the new tuple.
901 : */
902 : static void
903 1108553 : DecodeInsert(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
904 : {
905 : Size datalen;
906 : char *tupledata;
907 : Size tuplelen;
908 1108553 : XLogReaderState *r = buf->record;
909 : xl_heap_insert *xlrec;
910 : ReorderBufferChange *change;
911 : RelFileLocator target_locator;
912 :
913 1108553 : xlrec = (xl_heap_insert *) XLogRecGetData(r);
914 :
915 : /*
916 : * Ignore insert records without new tuples (this does happen when
917 : * raw_heap_insert marks the TOAST record as HEAP_INSERT_NO_LOGICAL).
918 : */
919 1108553 : if (!(xlrec->flags & XLH_INSERT_CONTAINS_NEW_TUPLE))
920 4712 : return;
921 :
922 : /* only interested in our database */
923 1103956 : XLogRecGetBlockTag(r, 0, &target_locator, NULL, NULL);
924 1103956 : if (target_locator.dbOid != ctx->slot->data.database)
925 0 : return;
926 :
927 : /* output plugin doesn't look for this origin, no need to queue */
928 1103956 : if (FilterByOrigin(ctx, XLogRecGetOrigin(r)))
929 115 : return;
930 :
931 1103841 : change = ReorderBufferAllocChange(ctx->reorder);
932 1103841 : if (!(xlrec->flags & XLH_INSERT_IS_SPECULATIVE))
933 1085877 : change->action = REORDER_BUFFER_CHANGE_INSERT;
934 : else
935 17964 : change->action = REORDER_BUFFER_CHANGE_INTERNAL_SPEC_INSERT;
936 1103841 : change->origin_id = XLogRecGetOrigin(r);
937 :
938 1103841 : memcpy(&change->data.tp.rlocator, &target_locator, sizeof(RelFileLocator));
939 :
940 1103841 : tupledata = XLogRecGetBlockData(r, 0, &datalen);
941 1103841 : tuplelen = datalen - SizeOfHeapHeader;
942 :
943 1103841 : change->data.tp.newtuple =
944 1103841 : ReorderBufferAllocTupleBuf(ctx->reorder, tuplelen);
945 :
946 1103841 : DecodeXLogTuple(tupledata, datalen, change->data.tp.newtuple);
947 :
948 1103841 : change->data.tp.clear_toast_afterwards = true;
949 :
950 1103841 : ReorderBufferQueueChange(ctx->reorder, XLogRecGetXid(r), buf->origptr,
951 : change,
952 1103841 : xlrec->flags & XLH_INSERT_ON_TOAST_RELATION);
953 : }
954 :
955 : /*
956 : * Parse XLOG_HEAP_UPDATE and XLOG_HEAP_HOT_UPDATE, which have the same layout
957 : * in the record, from wal into proper tuplebufs.
958 : *
959 : * Updates can possibly contain a new tuple and the old primary key.
960 : */
961 : static void
962 154435 : DecodeUpdate(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
963 : {
964 154435 : XLogReaderState *r = buf->record;
965 : xl_heap_update *xlrec;
966 : ReorderBufferChange *change;
967 : char *data;
968 : RelFileLocator target_locator;
969 :
970 154435 : xlrec = (xl_heap_update *) XLogRecGetData(r);
971 :
972 : /* only interested in our database */
973 154435 : XLogRecGetBlockTag(r, 0, &target_locator, NULL, NULL);
974 154435 : if (target_locator.dbOid != ctx->slot->data.database)
975 236 : return;
976 :
977 : /* output plugin doesn't look for this origin, no need to queue */
978 154232 : if (FilterByOrigin(ctx, XLogRecGetOrigin(r)))
979 33 : return;
980 :
981 154199 : change = ReorderBufferAllocChange(ctx->reorder);
982 154199 : change->action = REORDER_BUFFER_CHANGE_UPDATE;
983 154199 : change->origin_id = XLogRecGetOrigin(r);
984 154199 : memcpy(&change->data.tp.rlocator, &target_locator, sizeof(RelFileLocator));
985 :
986 154199 : if (xlrec->flags & XLH_UPDATE_CONTAINS_NEW_TUPLE)
987 : {
988 : Size datalen;
989 : Size tuplelen;
990 :
991 152269 : data = XLogRecGetBlockData(r, 0, &datalen);
992 :
993 152269 : tuplelen = datalen - SizeOfHeapHeader;
994 :
995 152269 : change->data.tp.newtuple =
996 152269 : ReorderBufferAllocTupleBuf(ctx->reorder, tuplelen);
997 :
998 152269 : DecodeXLogTuple(data, datalen, change->data.tp.newtuple);
999 : }
1000 :
1001 154199 : if (xlrec->flags & XLH_UPDATE_CONTAINS_OLD)
1002 : {
1003 : Size datalen;
1004 : Size tuplelen;
1005 :
1006 : /* caution, remaining data in record is not aligned */
1007 383 : data = XLogRecGetData(r) + SizeOfHeapUpdate;
1008 383 : datalen = XLogRecGetDataLen(r) - SizeOfHeapUpdate;
1009 383 : tuplelen = datalen - SizeOfHeapHeader;
1010 :
1011 383 : change->data.tp.oldtuple =
1012 383 : ReorderBufferAllocTupleBuf(ctx->reorder, tuplelen);
1013 :
1014 383 : DecodeXLogTuple(data, datalen, change->data.tp.oldtuple);
1015 : }
1016 :
1017 154199 : change->data.tp.clear_toast_afterwards = true;
1018 :
1019 154199 : ReorderBufferQueueChange(ctx->reorder, XLogRecGetXid(r), buf->origptr,
1020 : change, false);
1021 : }
1022 :
1023 : /*
1024 : * Parse XLOG_HEAP_DELETE from wal into proper tuplebufs.
1025 : *
1026 : * Deletes can possibly contain the old primary key.
1027 : */
1028 : static void
1029 207989 : DecodeDelete(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
1030 : {
1031 207989 : XLogReaderState *r = buf->record;
1032 : xl_heap_delete *xlrec;
1033 : ReorderBufferChange *change;
1034 : RelFileLocator target_locator;
1035 :
1036 207989 : xlrec = (xl_heap_delete *) XLogRecGetData(r);
1037 :
1038 : /* only interested in our database */
1039 207989 : XLogRecGetBlockTag(r, 0, &target_locator, NULL, NULL);
1040 207989 : if (target_locator.dbOid != ctx->slot->data.database)
1041 49 : return;
1042 :
1043 : /* output plugin doesn't look for this origin, no need to queue */
1044 207958 : if (FilterByOrigin(ctx, XLogRecGetOrigin(r)))
1045 18 : return;
1046 :
1047 207940 : change = ReorderBufferAllocChange(ctx->reorder);
1048 :
1049 207940 : if (xlrec->flags & XLH_DELETE_IS_SUPER)
1050 0 : change->action = REORDER_BUFFER_CHANGE_INTERNAL_SPEC_ABORT;
1051 : else
1052 207940 : change->action = REORDER_BUFFER_CHANGE_DELETE;
1053 :
1054 207940 : change->origin_id = XLogRecGetOrigin(r);
1055 :
1056 207940 : memcpy(&change->data.tp.rlocator, &target_locator, sizeof(RelFileLocator));
1057 :
1058 : /* old primary key stored */
1059 207940 : if (xlrec->flags & XLH_DELETE_CONTAINS_OLD)
1060 : {
1061 145897 : Size datalen = XLogRecGetDataLen(r) - SizeOfHeapDelete;
1062 145897 : Size tuplelen = datalen - SizeOfHeapHeader;
1063 :
1064 : Assert(XLogRecGetDataLen(r) > (SizeOfHeapDelete + SizeOfHeapHeader));
1065 :
1066 145897 : change->data.tp.oldtuple =
1067 145897 : ReorderBufferAllocTupleBuf(ctx->reorder, tuplelen);
1068 :
1069 145897 : DecodeXLogTuple((char *) xlrec + SizeOfHeapDelete,
1070 : datalen, change->data.tp.oldtuple);
1071 : }
1072 :
1073 207940 : change->data.tp.clear_toast_afterwards = true;
1074 :
1075 207940 : ReorderBufferQueueChange(ctx->reorder, XLogRecGetXid(r), buf->origptr,
1076 : change, false);
1077 : }
1078 :
1079 : /*
1080 : * Parse XLOG_HEAP_TRUNCATE from wal
1081 : */
1082 : static void
1083 73 : DecodeTruncate(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
1084 : {
1085 73 : XLogReaderState *r = buf->record;
1086 : xl_heap_truncate *xlrec;
1087 : ReorderBufferChange *change;
1088 :
1089 73 : xlrec = (xl_heap_truncate *) XLogRecGetData(r);
1090 :
1091 : /* only interested in our database */
1092 73 : if (xlrec->dbId != ctx->slot->data.database)
1093 0 : return;
1094 :
1095 : /* output plugin doesn't look for this origin, no need to queue */
1096 73 : if (FilterByOrigin(ctx, XLogRecGetOrigin(r)))
1097 1 : return;
1098 :
1099 72 : change = ReorderBufferAllocChange(ctx->reorder);
1100 72 : change->action = REORDER_BUFFER_CHANGE_TRUNCATE;
1101 72 : change->origin_id = XLogRecGetOrigin(r);
1102 72 : if (xlrec->flags & XLH_TRUNCATE_CASCADE)
1103 1 : change->data.truncate.cascade = true;
1104 72 : if (xlrec->flags & XLH_TRUNCATE_RESTART_SEQS)
1105 2 : change->data.truncate.restart_seqs = true;
1106 72 : change->data.truncate.nrelids = xlrec->nrelids;
1107 144 : change->data.truncate.relids = ReorderBufferAllocRelids(ctx->reorder,
1108 72 : xlrec->nrelids);
1109 72 : memcpy(change->data.truncate.relids, xlrec->relids,
1110 72 : xlrec->nrelids * sizeof(Oid));
1111 72 : ReorderBufferQueueChange(ctx->reorder, XLogRecGetXid(r),
1112 : buf->origptr, change, false);
1113 : }
1114 :
1115 : /*
1116 : * Decode XLOG_HEAP2_MULTI_INSERT record into multiple tuplebufs.
1117 : *
1118 : * Currently MULTI_INSERT will always contain the full tuples.
1119 : */
1120 : static void
1121 6868 : DecodeMultiInsert(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
1122 : {
1123 6868 : XLogReaderState *r = buf->record;
1124 : xl_heap_multi_insert *xlrec;
1125 : int i;
1126 : char *data;
1127 : char *tupledata;
1128 : Size tuplelen;
1129 : RelFileLocator rlocator;
1130 :
1131 6868 : xlrec = (xl_heap_multi_insert *) XLogRecGetData(r);
1132 :
1133 : /*
1134 : * Ignore insert records without new tuples. This happens when a
1135 : * multi_insert is done on a catalog or on a non-persistent relation.
1136 : */
1137 6868 : if (!(xlrec->flags & XLH_INSERT_CONTAINS_NEW_TUPLE))
1138 6854 : return;
1139 :
1140 : /* only interested in our database */
1141 33 : XLogRecGetBlockTag(r, 0, &rlocator, NULL, NULL);
1142 33 : if (rlocator.dbOid != ctx->slot->data.database)
1143 19 : return;
1144 :
1145 : /* output plugin doesn't look for this origin, no need to queue */
1146 14 : if (FilterByOrigin(ctx, XLogRecGetOrigin(r)))
1147 0 : return;
1148 :
1149 : /*
1150 : * We know that this multi_insert isn't for a catalog, so the block should
1151 : * always have data even if a full-page write of it is taken.
1152 : */
1153 14 : tupledata = XLogRecGetBlockData(r, 0, &tuplelen);
1154 : Assert(tupledata != NULL);
1155 :
1156 14 : data = tupledata;
1157 1053 : for (i = 0; i < xlrec->ntuples; i++)
1158 : {
1159 : ReorderBufferChange *change;
1160 : xl_multi_insert_tuple *xlhdr;
1161 : int datalen;
1162 : HeapTuple tuple;
1163 : HeapTupleHeader header;
1164 :
1165 1039 : change = ReorderBufferAllocChange(ctx->reorder);
1166 1039 : change->action = REORDER_BUFFER_CHANGE_INSERT;
1167 1039 : change->origin_id = XLogRecGetOrigin(r);
1168 :
1169 1039 : memcpy(&change->data.tp.rlocator, &rlocator, sizeof(RelFileLocator));
1170 :
1171 1039 : xlhdr = (xl_multi_insert_tuple *) SHORTALIGN(data);
1172 1039 : data = ((char *) xlhdr) + SizeOfMultiInsertTuple;
1173 1039 : datalen = xlhdr->datalen;
1174 :
1175 1039 : change->data.tp.newtuple =
1176 1039 : ReorderBufferAllocTupleBuf(ctx->reorder, datalen);
1177 :
1178 1039 : tuple = change->data.tp.newtuple;
1179 1039 : header = tuple->t_data;
1180 :
1181 : /* not a disk based tuple */
1182 1039 : ItemPointerSetInvalid(&tuple->t_self);
1183 :
1184 : /*
1185 : * We can only figure this out after reassembling the transactions.
1186 : */
1187 1039 : tuple->t_tableOid = InvalidOid;
1188 :
1189 1039 : tuple->t_len = datalen + SizeofHeapTupleHeader;
1190 :
1191 1039 : memset(header, 0, SizeofHeapTupleHeader);
1192 :
1193 1039 : memcpy((char *) tuple->t_data + SizeofHeapTupleHeader, data, datalen);
1194 1039 : header->t_infomask = xlhdr->t_infomask;
1195 1039 : header->t_infomask2 = xlhdr->t_infomask2;
1196 1039 : header->t_hoff = xlhdr->t_hoff;
1197 :
1198 : /*
1199 : * Reset toast reassembly state only after the last row in the last
1200 : * xl_multi_insert_tuple record emitted by one heap_multi_insert()
1201 : * call.
1202 : */
1203 1039 : if (xlrec->flags & XLH_INSERT_LAST_IN_MULTI &&
1204 179 : (i + 1) == xlrec->ntuples)
1205 9 : change->data.tp.clear_toast_afterwards = true;
1206 : else
1207 1030 : change->data.tp.clear_toast_afterwards = false;
1208 :
1209 1039 : ReorderBufferQueueChange(ctx->reorder, XLogRecGetXid(r),
1210 : buf->origptr, change, false);
1211 :
1212 : /* move to the next xl_multi_insert_tuple entry */
1213 1039 : data += datalen;
1214 : }
1215 : Assert(data == tupledata + tuplelen);
1216 : }
1217 :
1218 : /*
1219 : * Parse XLOG_HEAP_CONFIRM from wal into a confirmation change.
1220 : *
1221 : * This is pretty trivial, all the state essentially already setup by the
1222 : * speculative insertion.
1223 : */
1224 : static void
1225 17964 : DecodeSpecConfirm(LogicalDecodingContext *ctx, XLogRecordBuffer *buf)
1226 : {
1227 17964 : XLogReaderState *r = buf->record;
1228 : ReorderBufferChange *change;
1229 : RelFileLocator target_locator;
1230 :
1231 : /* only interested in our database */
1232 17964 : XLogRecGetBlockTag(r, 0, &target_locator, NULL, NULL);
1233 17964 : if (target_locator.dbOid != ctx->slot->data.database)
1234 0 : return;
1235 :
1236 : /* output plugin doesn't look for this origin, no need to queue */
1237 17964 : if (FilterByOrigin(ctx, XLogRecGetOrigin(r)))
1238 0 : return;
1239 :
1240 17964 : change = ReorderBufferAllocChange(ctx->reorder);
1241 17964 : change->action = REORDER_BUFFER_CHANGE_INTERNAL_SPEC_CONFIRM;
1242 17964 : change->origin_id = XLogRecGetOrigin(r);
1243 :
1244 17964 : memcpy(&change->data.tp.rlocator, &target_locator, sizeof(RelFileLocator));
1245 :
1246 17964 : change->data.tp.clear_toast_afterwards = true;
1247 :
1248 17964 : ReorderBufferQueueChange(ctx->reorder, XLogRecGetXid(r), buf->origptr,
1249 : change, false);
1250 : }
1251 :
1252 :
1253 : /*
1254 : * Read a HeapTuple as WAL logged by heap_insert, heap_update and heap_delete
1255 : * (but not by heap_multi_insert) into a tuplebuf.
1256 : *
1257 : * The size 'len' and the pointer 'data' in the record need to be
1258 : * computed outside as they are record specific.
1259 : */
1260 : static void
1261 1402390 : DecodeXLogTuple(char *data, Size len, HeapTuple tuple)
1262 : {
1263 : xl_heap_header xlhdr;
1264 1402390 : int datalen = len - SizeOfHeapHeader;
1265 : HeapTupleHeader header;
1266 :
1267 : Assert(datalen >= 0);
1268 :
1269 1402390 : tuple->t_len = datalen + SizeofHeapTupleHeader;
1270 1402390 : header = tuple->t_data;
1271 :
1272 : /* not a disk based tuple */
1273 1402390 : ItemPointerSetInvalid(&tuple->t_self);
1274 :
1275 : /* we can only figure this out after reassembling the transactions */
1276 1402390 : tuple->t_tableOid = InvalidOid;
1277 :
1278 : /* data is not stored aligned, copy to aligned storage */
1279 1402390 : memcpy(&xlhdr, data, SizeOfHeapHeader);
1280 :
1281 1402390 : memset(header, 0, SizeofHeapTupleHeader);
1282 :
1283 1402390 : memcpy(((char *) tuple->t_data) + SizeofHeapTupleHeader,
1284 1402390 : data + SizeOfHeapHeader,
1285 : datalen);
1286 :
1287 1402390 : header->t_infomask = xlhdr.t_infomask;
1288 1402390 : header->t_infomask2 = xlhdr.t_infomask2;
1289 1402390 : header->t_hoff = xlhdr.t_hoff;
1290 1402390 : }
1291 :
1292 : /*
1293 : * Check whether we are interested in this specific transaction.
1294 : *
1295 : * There can be several reasons we might not be interested in this
1296 : * transaction:
1297 : * 1) We might not be interested in decoding transactions up to this
1298 : * LSN. This can happen because we previously decoded it and now just
1299 : * are restarting or if we haven't assembled a consistent snapshot yet.
1300 : * 2) The transaction happened in another database.
1301 : * 3) The output plugin is not interested in the origin.
1302 : * 4) We are doing fast-forwarding
1303 : */
1304 : static bool
1305 4230 : DecodeTXNNeedSkip(LogicalDecodingContext *ctx, XLogRecordBuffer *buf,
1306 : Oid txn_dbid, ReplOriginId origin_id)
1307 : {
1308 4230 : if (SnapBuildXactNeedsSkip(ctx->snapshot_builder, buf->origptr) ||
1309 3948 : (txn_dbid != InvalidOid && txn_dbid != ctx->slot->data.database) ||
1310 1995 : FilterByOrigin(ctx, origin_id))
1311 2274 : return true;
1312 :
1313 : /*
1314 : * We also skip decoding in fast_forward mode. In passing set the
1315 : * processing_required flag to indicate that if it were not for
1316 : * fast_forward mode, processing would have been required.
1317 : */
1318 1956 : if (ctx->fast_forward)
1319 : {
1320 39 : ctx->processing_required = true;
1321 39 : return true;
1322 : }
1323 :
1324 1917 : return false;
1325 : }
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