Line data Source code
1 : /*-------------------------------------------------------------------------
2 : *
3 : * misc.c
4 : *
5 : *
6 : * Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group
7 : * Portions Copyright (c) 1994, Regents of the University of California
8 : *
9 : *
10 : * IDENTIFICATION
11 : * src/backend/utils/adt/misc.c
12 : *
13 : *-------------------------------------------------------------------------
14 : */
15 : #include "postgres.h"
16 :
17 : #include <sys/file.h>
18 : #include <sys/stat.h>
19 : #include <dirent.h>
20 : #include <fcntl.h>
21 : #include <math.h>
22 : #include <unistd.h>
23 :
24 : #include "access/sysattr.h"
25 : #include "access/table.h"
26 : #include "catalog/catalog.h"
27 : #include "catalog/pg_tablespace.h"
28 : #include "catalog/pg_type.h"
29 : #include "catalog/system_fk_info.h"
30 : #include "commands/dbcommands.h"
31 : #include "commands/tablespace.h"
32 : #include "common/keywords.h"
33 : #include "funcapi.h"
34 : #include "miscadmin.h"
35 : #include "nodes/miscnodes.h"
36 : #include "parser/parse_type.h"
37 : #include "parser/scansup.h"
38 : #include "pgstat.h"
39 : #include "postmaster/syslogger.h"
40 : #include "rewrite/rewriteHandler.h"
41 : #include "storage/fd.h"
42 : #include "storage/latch.h"
43 : #include "tcop/tcopprot.h"
44 : #include "utils/builtins.h"
45 : #include "utils/fmgroids.h"
46 : #include "utils/lsyscache.h"
47 : #include "utils/ruleutils.h"
48 : #include "utils/timestamp.h"
49 :
50 :
51 : /*
52 : * structure to cache metadata needed in pg_input_is_valid_common
53 : */
54 : typedef struct ValidIOData
55 : {
56 : Oid typoid;
57 : int32 typmod;
58 : bool typname_constant;
59 : Oid typiofunc;
60 : Oid typioparam;
61 : FmgrInfo inputproc;
62 : } ValidIOData;
63 :
64 : static bool pg_input_is_valid_common(FunctionCallInfo fcinfo,
65 : text *txt, text *typname,
66 : ErrorSaveContext *escontext);
67 :
68 :
69 : /*
70 : * Common subroutine for num_nulls() and num_nonnulls().
71 : * Returns true if successful, false if function should return NULL.
72 : * If successful, total argument count and number of nulls are
73 : * returned into *nargs and *nulls.
74 : */
75 : static bool
76 120 : count_nulls(FunctionCallInfo fcinfo,
77 : int32 *nargs, int32 *nulls)
78 : {
79 120 : int32 count = 0;
80 : int i;
81 :
82 : /* Did we get a VARIADIC array argument, or separate arguments? */
83 120 : if (get_fn_expr_variadic(fcinfo->flinfo))
84 : {
85 : ArrayType *arr;
86 : int ndims,
87 : nitems,
88 : *dims;
89 : bits8 *bitmap;
90 :
91 : Assert(PG_NARGS() == 1);
92 :
93 : /*
94 : * If we get a null as VARIADIC array argument, we can't say anything
95 : * useful about the number of elements, so return NULL. This behavior
96 : * is consistent with other variadic functions - see concat_internal.
97 : */
98 60 : if (PG_ARGISNULL(0))
99 12 : return false;
100 :
101 : /*
102 : * Non-null argument had better be an array. We assume that any call
103 : * context that could let get_fn_expr_variadic return true will have
104 : * checked that a VARIADIC-labeled parameter actually is an array. So
105 : * it should be okay to just Assert that it's an array rather than
106 : * doing a full-fledged error check.
107 : */
108 : Assert(OidIsValid(get_base_element_type(get_fn_expr_argtype(fcinfo->flinfo, 0))));
109 :
110 : /* OK, safe to fetch the array value */
111 48 : arr = PG_GETARG_ARRAYTYPE_P(0);
112 :
113 : /* Count the array elements */
114 48 : ndims = ARR_NDIM(arr);
115 48 : dims = ARR_DIMS(arr);
116 48 : nitems = ArrayGetNItems(ndims, dims);
117 :
118 : /* Count those that are NULL */
119 48 : bitmap = ARR_NULLBITMAP(arr);
120 48 : if (bitmap)
121 : {
122 24 : int bitmask = 1;
123 :
124 1272 : for (i = 0; i < nitems; i++)
125 : {
126 1248 : if ((*bitmap & bitmask) == 0)
127 24 : count++;
128 :
129 1248 : bitmask <<= 1;
130 1248 : if (bitmask == 0x100)
131 : {
132 144 : bitmap++;
133 144 : bitmask = 1;
134 : }
135 : }
136 : }
137 :
138 48 : *nargs = nitems;
139 48 : *nulls = count;
140 : }
141 : else
142 : {
143 : /* Separate arguments, so just count 'em */
144 204 : for (i = 0; i < PG_NARGS(); i++)
145 : {
146 144 : if (PG_ARGISNULL(i))
147 84 : count++;
148 : }
149 :
150 60 : *nargs = PG_NARGS();
151 60 : *nulls = count;
152 : }
153 :
154 108 : return true;
155 : }
156 :
157 : /*
158 : * num_nulls()
159 : * Count the number of NULL arguments
160 : */
161 : Datum
162 60 : pg_num_nulls(PG_FUNCTION_ARGS)
163 : {
164 : int32 nargs,
165 : nulls;
166 :
167 60 : if (!count_nulls(fcinfo, &nargs, &nulls))
168 6 : PG_RETURN_NULL();
169 :
170 54 : PG_RETURN_INT32(nulls);
171 : }
172 :
173 : /*
174 : * num_nonnulls()
175 : * Count the number of non-NULL arguments
176 : */
177 : Datum
178 60 : pg_num_nonnulls(PG_FUNCTION_ARGS)
179 : {
180 : int32 nargs,
181 : nulls;
182 :
183 60 : if (!count_nulls(fcinfo, &nargs, &nulls))
184 6 : PG_RETURN_NULL();
185 :
186 54 : PG_RETURN_INT32(nargs - nulls);
187 : }
188 :
189 :
190 : /*
191 : * current_database()
192 : * Expose the current database to the user
193 : */
194 : Datum
195 4700 : current_database(PG_FUNCTION_ARGS)
196 : {
197 : Name db;
198 :
199 4700 : db = (Name) palloc(NAMEDATALEN);
200 :
201 4700 : namestrcpy(db, get_database_name(MyDatabaseId));
202 4700 : PG_RETURN_NAME(db);
203 : }
204 :
205 :
206 : /*
207 : * current_query()
208 : * Expose the current query to the user (useful in stored procedures)
209 : * We might want to use ActivePortal->sourceText someday.
210 : */
211 : Datum
212 0 : current_query(PG_FUNCTION_ARGS)
213 : {
214 : /* there is no easy way to access the more concise 'query_string' */
215 0 : if (debug_query_string)
216 0 : PG_RETURN_TEXT_P(cstring_to_text(debug_query_string));
217 : else
218 0 : PG_RETURN_NULL();
219 : }
220 :
221 : /* Function to find out which databases make use of a tablespace */
222 :
223 : Datum
224 6 : pg_tablespace_databases(PG_FUNCTION_ARGS)
225 : {
226 6 : Oid tablespaceOid = PG_GETARG_OID(0);
227 6 : ReturnSetInfo *rsinfo = (ReturnSetInfo *) fcinfo->resultinfo;
228 : char *location;
229 : DIR *dirdesc;
230 : struct dirent *de;
231 :
232 6 : InitMaterializedSRF(fcinfo, MAT_SRF_USE_EXPECTED_DESC);
233 :
234 6 : if (tablespaceOid == GLOBALTABLESPACE_OID)
235 : {
236 0 : ereport(WARNING,
237 : (errmsg("global tablespace never has databases")));
238 : /* return empty tuplestore */
239 0 : return (Datum) 0;
240 : }
241 :
242 6 : if (tablespaceOid == DEFAULTTABLESPACE_OID)
243 6 : location = "base";
244 : else
245 0 : location = psprintf("pg_tblspc/%u/%s", tablespaceOid,
246 : TABLESPACE_VERSION_DIRECTORY);
247 :
248 6 : dirdesc = AllocateDir(location);
249 :
250 6 : if (!dirdesc)
251 : {
252 : /* the only expected error is ENOENT */
253 0 : if (errno != ENOENT)
254 0 : ereport(ERROR,
255 : (errcode_for_file_access(),
256 : errmsg("could not open directory \"%s\": %m",
257 : location)));
258 0 : ereport(WARNING,
259 : (errmsg("%u is not a tablespace OID", tablespaceOid)));
260 : /* return empty tuplestore */
261 0 : return (Datum) 0;
262 : }
263 :
264 54 : while ((de = ReadDir(dirdesc, location)) != NULL)
265 : {
266 48 : Oid datOid = atooid(de->d_name);
267 : char *subdir;
268 : bool isempty;
269 : Datum values[1];
270 : bool nulls[1];
271 :
272 : /* this test skips . and .., but is awfully weak */
273 48 : if (!datOid)
274 18 : continue;
275 :
276 : /* if database subdir is empty, don't report tablespace as used */
277 :
278 30 : subdir = psprintf("%s/%s", location, de->d_name);
279 30 : isempty = directory_is_empty(subdir);
280 30 : pfree(subdir);
281 :
282 30 : if (isempty)
283 0 : continue; /* indeed, nothing in it */
284 :
285 30 : values[0] = ObjectIdGetDatum(datOid);
286 30 : nulls[0] = false;
287 :
288 30 : tuplestore_putvalues(rsinfo->setResult, rsinfo->setDesc,
289 : values, nulls);
290 : }
291 :
292 6 : FreeDir(dirdesc);
293 6 : return (Datum) 0;
294 : }
295 :
296 :
297 : /*
298 : * pg_tablespace_location - get location for a tablespace
299 : */
300 : Datum
301 50 : pg_tablespace_location(PG_FUNCTION_ARGS)
302 : {
303 50 : Oid tablespaceOid = PG_GETARG_OID(0);
304 : char sourcepath[MAXPGPATH];
305 : char targetpath[MAXPGPATH];
306 : int rllen;
307 : struct stat st;
308 :
309 : /*
310 : * It's useful to apply this function to pg_class.reltablespace, wherein
311 : * zero means "the database's default tablespace". So, rather than
312 : * throwing an error for zero, we choose to assume that's what is meant.
313 : */
314 50 : if (tablespaceOid == InvalidOid)
315 0 : tablespaceOid = MyDatabaseTableSpace;
316 :
317 : /*
318 : * Return empty string for the cluster's default tablespaces
319 : */
320 50 : if (tablespaceOid == DEFAULTTABLESPACE_OID ||
321 : tablespaceOid == GLOBALTABLESPACE_OID)
322 44 : PG_RETURN_TEXT_P(cstring_to_text(""));
323 :
324 : /*
325 : * Find the location of the tablespace by reading the symbolic link that
326 : * is in pg_tblspc/<oid>.
327 : */
328 6 : snprintf(sourcepath, sizeof(sourcepath), "pg_tblspc/%u", tablespaceOid);
329 :
330 : /*
331 : * Before reading the link, check if the source path is a link or a
332 : * junction point. Note that a directory is possible for a tablespace
333 : * created with allow_in_place_tablespaces enabled. If a directory is
334 : * found, a relative path to the data directory is returned.
335 : */
336 6 : if (lstat(sourcepath, &st) < 0)
337 : {
338 0 : ereport(ERROR,
339 : (errcode_for_file_access(),
340 : errmsg("could not stat file \"%s\": %m",
341 : sourcepath)));
342 : }
343 :
344 6 : if (!S_ISLNK(st.st_mode))
345 6 : PG_RETURN_TEXT_P(cstring_to_text(sourcepath));
346 :
347 : /*
348 : * In presence of a link or a junction point, return the path pointing to.
349 : */
350 0 : rllen = readlink(sourcepath, targetpath, sizeof(targetpath));
351 0 : if (rllen < 0)
352 0 : ereport(ERROR,
353 : (errcode_for_file_access(),
354 : errmsg("could not read symbolic link \"%s\": %m",
355 : sourcepath)));
356 0 : if (rllen >= sizeof(targetpath))
357 0 : ereport(ERROR,
358 : (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED),
359 : errmsg("symbolic link \"%s\" target is too long",
360 : sourcepath)));
361 0 : targetpath[rllen] = '\0';
362 :
363 0 : PG_RETURN_TEXT_P(cstring_to_text(targetpath));
364 : }
365 :
366 : /*
367 : * pg_sleep - delay for N seconds
368 : */
369 : Datum
370 74 : pg_sleep(PG_FUNCTION_ARGS)
371 : {
372 74 : float8 secs = PG_GETARG_FLOAT8(0);
373 : float8 endtime;
374 :
375 : /*
376 : * We sleep using WaitLatch, to ensure that we'll wake up promptly if an
377 : * important signal (such as SIGALRM or SIGINT) arrives. Because
378 : * WaitLatch's upper limit of delay is INT_MAX milliseconds, and the user
379 : * might ask for more than that, we sleep for at most 10 minutes and then
380 : * loop.
381 : *
382 : * By computing the intended stop time initially, we avoid accumulation of
383 : * extra delay across multiple sleeps. This also ensures we won't delay
384 : * less than the specified time when WaitLatch is terminated early by a
385 : * non-query-canceling signal such as SIGHUP.
386 : */
387 : #define GetNowFloat() ((float8) GetCurrentTimestamp() / 1000000.0)
388 :
389 74 : endtime = GetNowFloat() + secs;
390 :
391 : for (;;)
392 84 : {
393 : float8 delay;
394 : long delay_ms;
395 :
396 158 : CHECK_FOR_INTERRUPTS();
397 :
398 156 : delay = endtime - GetNowFloat();
399 156 : if (delay >= 600.0)
400 0 : delay_ms = 600000;
401 156 : else if (delay > 0.0)
402 84 : delay_ms = (long) ceil(delay * 1000.0);
403 : else
404 72 : break;
405 :
406 84 : (void) WaitLatch(MyLatch,
407 : WL_LATCH_SET | WL_TIMEOUT | WL_EXIT_ON_PM_DEATH,
408 : delay_ms,
409 : WAIT_EVENT_PG_SLEEP);
410 84 : ResetLatch(MyLatch);
411 : }
412 :
413 72 : PG_RETURN_VOID();
414 : }
415 :
416 : /* Function to return the list of grammar keywords */
417 : Datum
418 0 : pg_get_keywords(PG_FUNCTION_ARGS)
419 : {
420 : FuncCallContext *funcctx;
421 :
422 0 : if (SRF_IS_FIRSTCALL())
423 : {
424 : MemoryContext oldcontext;
425 : TupleDesc tupdesc;
426 :
427 0 : funcctx = SRF_FIRSTCALL_INIT();
428 0 : oldcontext = MemoryContextSwitchTo(funcctx->multi_call_memory_ctx);
429 :
430 0 : if (get_call_result_type(fcinfo, NULL, &tupdesc) != TYPEFUNC_COMPOSITE)
431 0 : elog(ERROR, "return type must be a row type");
432 0 : funcctx->tuple_desc = tupdesc;
433 0 : funcctx->attinmeta = TupleDescGetAttInMetadata(tupdesc);
434 :
435 0 : MemoryContextSwitchTo(oldcontext);
436 : }
437 :
438 0 : funcctx = SRF_PERCALL_SETUP();
439 :
440 0 : if (funcctx->call_cntr < ScanKeywords.num_keywords)
441 : {
442 : char *values[5];
443 : HeapTuple tuple;
444 :
445 : /* cast-away-const is ugly but alternatives aren't much better */
446 0 : values[0] = unconstify(char *,
447 : GetScanKeyword(funcctx->call_cntr,
448 : &ScanKeywords));
449 :
450 0 : switch (ScanKeywordCategories[funcctx->call_cntr])
451 : {
452 0 : case UNRESERVED_KEYWORD:
453 0 : values[1] = "U";
454 0 : values[3] = _("unreserved");
455 0 : break;
456 0 : case COL_NAME_KEYWORD:
457 0 : values[1] = "C";
458 0 : values[3] = _("unreserved (cannot be function or type name)");
459 0 : break;
460 0 : case TYPE_FUNC_NAME_KEYWORD:
461 0 : values[1] = "T";
462 0 : values[3] = _("reserved (can be function or type name)");
463 0 : break;
464 0 : case RESERVED_KEYWORD:
465 0 : values[1] = "R";
466 0 : values[3] = _("reserved");
467 0 : break;
468 0 : default: /* shouldn't be possible */
469 0 : values[1] = NULL;
470 0 : values[3] = NULL;
471 0 : break;
472 : }
473 :
474 0 : if (ScanKeywordBareLabel[funcctx->call_cntr])
475 : {
476 0 : values[2] = "true";
477 0 : values[4] = _("can be bare label");
478 : }
479 : else
480 : {
481 0 : values[2] = "false";
482 0 : values[4] = _("requires AS");
483 : }
484 :
485 0 : tuple = BuildTupleFromCStrings(funcctx->attinmeta, values);
486 :
487 0 : SRF_RETURN_NEXT(funcctx, HeapTupleGetDatum(tuple));
488 : }
489 :
490 0 : SRF_RETURN_DONE(funcctx);
491 : }
492 :
493 :
494 : /* Function to return the list of catalog foreign key relationships */
495 : Datum
496 1320 : pg_get_catalog_foreign_keys(PG_FUNCTION_ARGS)
497 : {
498 : FuncCallContext *funcctx;
499 : FmgrInfo *arrayinp;
500 :
501 1320 : if (SRF_IS_FIRSTCALL())
502 : {
503 : MemoryContext oldcontext;
504 : TupleDesc tupdesc;
505 :
506 6 : funcctx = SRF_FIRSTCALL_INIT();
507 6 : oldcontext = MemoryContextSwitchTo(funcctx->multi_call_memory_ctx);
508 :
509 6 : if (get_call_result_type(fcinfo, NULL, &tupdesc) != TYPEFUNC_COMPOSITE)
510 0 : elog(ERROR, "return type must be a row type");
511 6 : funcctx->tuple_desc = BlessTupleDesc(tupdesc);
512 :
513 : /*
514 : * We use array_in to convert the C strings in sys_fk_relationships[]
515 : * to text arrays. But we cannot use DirectFunctionCallN to call
516 : * array_in, and it wouldn't be very efficient if we could. Fill an
517 : * FmgrInfo to use for the call.
518 : */
519 6 : arrayinp = (FmgrInfo *) palloc(sizeof(FmgrInfo));
520 6 : fmgr_info(F_ARRAY_IN, arrayinp);
521 6 : funcctx->user_fctx = arrayinp;
522 :
523 6 : MemoryContextSwitchTo(oldcontext);
524 : }
525 :
526 1320 : funcctx = SRF_PERCALL_SETUP();
527 1320 : arrayinp = (FmgrInfo *) funcctx->user_fctx;
528 :
529 1320 : if (funcctx->call_cntr < lengthof(sys_fk_relationships))
530 : {
531 1314 : const SysFKRelationship *fkrel = &sys_fk_relationships[funcctx->call_cntr];
532 : Datum values[6];
533 : bool nulls[6];
534 : HeapTuple tuple;
535 :
536 1314 : memset(nulls, false, sizeof(nulls));
537 :
538 1314 : values[0] = ObjectIdGetDatum(fkrel->fk_table);
539 1314 : values[1] = FunctionCall3(arrayinp,
540 : CStringGetDatum(fkrel->fk_columns),
541 : ObjectIdGetDatum(TEXTOID),
542 : Int32GetDatum(-1));
543 1314 : values[2] = ObjectIdGetDatum(fkrel->pk_table);
544 1314 : values[3] = FunctionCall3(arrayinp,
545 : CStringGetDatum(fkrel->pk_columns),
546 : ObjectIdGetDatum(TEXTOID),
547 : Int32GetDatum(-1));
548 1314 : values[4] = BoolGetDatum(fkrel->is_array);
549 1314 : values[5] = BoolGetDatum(fkrel->is_opt);
550 :
551 1314 : tuple = heap_form_tuple(funcctx->tuple_desc, values, nulls);
552 :
553 1314 : SRF_RETURN_NEXT(funcctx, HeapTupleGetDatum(tuple));
554 : }
555 :
556 6 : SRF_RETURN_DONE(funcctx);
557 : }
558 :
559 :
560 : /*
561 : * Return the type of the argument.
562 : */
563 : Datum
564 1516 : pg_typeof(PG_FUNCTION_ARGS)
565 : {
566 1516 : PG_RETURN_OID(get_fn_expr_argtype(fcinfo->flinfo, 0));
567 : }
568 :
569 :
570 : /*
571 : * Implementation of the COLLATE FOR expression; returns the collation
572 : * of the argument.
573 : */
574 : Datum
575 30 : pg_collation_for(PG_FUNCTION_ARGS)
576 : {
577 : Oid typeid;
578 : Oid collid;
579 :
580 30 : typeid = get_fn_expr_argtype(fcinfo->flinfo, 0);
581 30 : if (!typeid)
582 0 : PG_RETURN_NULL();
583 30 : if (!type_is_collatable(typeid) && typeid != UNKNOWNOID)
584 6 : ereport(ERROR,
585 : (errcode(ERRCODE_DATATYPE_MISMATCH),
586 : errmsg("collations are not supported by type %s",
587 : format_type_be(typeid))));
588 :
589 24 : collid = PG_GET_COLLATION();
590 24 : if (!collid)
591 6 : PG_RETURN_NULL();
592 18 : PG_RETURN_TEXT_P(cstring_to_text(generate_collation_name(collid)));
593 : }
594 :
595 :
596 : /*
597 : * pg_relation_is_updatable - determine which update events the specified
598 : * relation supports.
599 : *
600 : * This relies on relation_is_updatable() in rewriteHandler.c, which see
601 : * for additional information.
602 : */
603 : Datum
604 894 : pg_relation_is_updatable(PG_FUNCTION_ARGS)
605 : {
606 894 : Oid reloid = PG_GETARG_OID(0);
607 894 : bool include_triggers = PG_GETARG_BOOL(1);
608 :
609 894 : PG_RETURN_INT32(relation_is_updatable(reloid, NIL, include_triggers, NULL));
610 : }
611 :
612 : /*
613 : * pg_column_is_updatable - determine whether a column is updatable
614 : *
615 : * This function encapsulates the decision about just what
616 : * information_schema.columns.is_updatable actually means. It's not clear
617 : * whether deletability of the column's relation should be required, so
618 : * we want that decision in C code where we could change it without initdb.
619 : */
620 : Datum
621 570 : pg_column_is_updatable(PG_FUNCTION_ARGS)
622 : {
623 570 : Oid reloid = PG_GETARG_OID(0);
624 570 : AttrNumber attnum = PG_GETARG_INT16(1);
625 570 : AttrNumber col = attnum - FirstLowInvalidHeapAttributeNumber;
626 570 : bool include_triggers = PG_GETARG_BOOL(2);
627 : int events;
628 :
629 : /* System columns are never updatable */
630 570 : if (attnum <= 0)
631 0 : PG_RETURN_BOOL(false);
632 :
633 570 : events = relation_is_updatable(reloid, NIL, include_triggers,
634 : bms_make_singleton(col));
635 :
636 : /* We require both updatability and deletability of the relation */
637 : #define REQ_EVENTS ((1 << CMD_UPDATE) | (1 << CMD_DELETE))
638 :
639 570 : PG_RETURN_BOOL((events & REQ_EVENTS) == REQ_EVENTS);
640 : }
641 :
642 :
643 : /*
644 : * pg_input_is_valid - test whether string is valid input for datatype.
645 : *
646 : * Returns true if OK, false if not.
647 : *
648 : * This will only work usefully if the datatype's input function has been
649 : * updated to return "soft" errors via errsave/ereturn.
650 : */
651 : Datum
652 884 : pg_input_is_valid(PG_FUNCTION_ARGS)
653 : {
654 884 : text *txt = PG_GETARG_TEXT_PP(0);
655 884 : text *typname = PG_GETARG_TEXT_PP(1);
656 884 : ErrorSaveContext escontext = {T_ErrorSaveContext};
657 :
658 884 : PG_RETURN_BOOL(pg_input_is_valid_common(fcinfo, txt, typname,
659 : &escontext));
660 : }
661 :
662 : /*
663 : * pg_input_error_info - test whether string is valid input for datatype.
664 : *
665 : * Returns NULL if OK, else the primary message, detail message, hint message
666 : * and sql error code from the error.
667 : *
668 : * This will only work usefully if the datatype's input function has been
669 : * updated to return "soft" errors via errsave/ereturn.
670 : */
671 : Datum
672 766 : pg_input_error_info(PG_FUNCTION_ARGS)
673 : {
674 766 : text *txt = PG_GETARG_TEXT_PP(0);
675 766 : text *typname = PG_GETARG_TEXT_PP(1);
676 766 : ErrorSaveContext escontext = {T_ErrorSaveContext};
677 : TupleDesc tupdesc;
678 : Datum values[4];
679 : bool isnull[4];
680 :
681 766 : if (get_call_result_type(fcinfo, NULL, &tupdesc) != TYPEFUNC_COMPOSITE)
682 0 : elog(ERROR, "return type must be a row type");
683 :
684 : /* Enable details_wanted */
685 766 : escontext.details_wanted = true;
686 :
687 766 : if (pg_input_is_valid_common(fcinfo, txt, typname,
688 : &escontext))
689 26 : memset(isnull, true, sizeof(isnull));
690 : else
691 : {
692 : char *sqlstate;
693 :
694 : Assert(escontext.error_occurred);
695 : Assert(escontext.error_data != NULL);
696 : Assert(escontext.error_data->message != NULL);
697 :
698 710 : memset(isnull, false, sizeof(isnull));
699 :
700 710 : values[0] = CStringGetTextDatum(escontext.error_data->message);
701 :
702 710 : if (escontext.error_data->detail != NULL)
703 62 : values[1] = CStringGetTextDatum(escontext.error_data->detail);
704 : else
705 648 : isnull[1] = true;
706 :
707 710 : if (escontext.error_data->hint != NULL)
708 0 : values[2] = CStringGetTextDatum(escontext.error_data->hint);
709 : else
710 710 : isnull[2] = true;
711 :
712 710 : sqlstate = unpack_sql_state(escontext.error_data->sqlerrcode);
713 710 : values[3] = CStringGetTextDatum(sqlstate);
714 : }
715 :
716 736 : return HeapTupleGetDatum(heap_form_tuple(tupdesc, values, isnull));
717 : }
718 :
719 : /* Common subroutine for the above */
720 : static bool
721 1650 : pg_input_is_valid_common(FunctionCallInfo fcinfo,
722 : text *txt, text *typname,
723 : ErrorSaveContext *escontext)
724 : {
725 1650 : char *str = text_to_cstring(txt);
726 : ValidIOData *my_extra;
727 : Datum converted;
728 :
729 : /*
730 : * We arrange to look up the needed I/O info just once per series of
731 : * calls, assuming the data type doesn't change underneath us.
732 : */
733 1650 : my_extra = (ValidIOData *) fcinfo->flinfo->fn_extra;
734 1650 : if (my_extra == NULL)
735 : {
736 3076 : fcinfo->flinfo->fn_extra =
737 1538 : MemoryContextAlloc(fcinfo->flinfo->fn_mcxt,
738 : sizeof(ValidIOData));
739 1538 : my_extra = (ValidIOData *) fcinfo->flinfo->fn_extra;
740 1538 : my_extra->typoid = InvalidOid;
741 : /* Detect whether typname argument is constant. */
742 1538 : my_extra->typname_constant = get_fn_expr_arg_stable(fcinfo->flinfo, 1);
743 : }
744 :
745 : /*
746 : * If the typname argument is constant, we only need to parse it the first
747 : * time through.
748 : */
749 1650 : if (my_extra->typoid == InvalidOid || !my_extra->typname_constant)
750 : {
751 1574 : char *typnamestr = text_to_cstring(typname);
752 : Oid typoid;
753 :
754 : /* Parse type-name argument to obtain type OID and encoded typmod. */
755 1574 : (void) parseTypeString(typnamestr, &typoid, &my_extra->typmod, NULL);
756 :
757 : /* Update type-specific info if typoid changed. */
758 1574 : if (my_extra->typoid != typoid)
759 : {
760 1554 : getTypeInputInfo(typoid,
761 : &my_extra->typiofunc,
762 : &my_extra->typioparam);
763 1554 : fmgr_info_cxt(my_extra->typiofunc, &my_extra->inputproc,
764 1554 : fcinfo->flinfo->fn_mcxt);
765 1554 : my_extra->typoid = typoid;
766 : }
767 : }
768 :
769 : /* Now we can try to perform the conversion. */
770 1650 : return InputFunctionCallSafe(&my_extra->inputproc,
771 : str,
772 : my_extra->typioparam,
773 : my_extra->typmod,
774 : (Node *) escontext,
775 : &converted);
776 : }
777 :
778 :
779 : /*
780 : * Is character a valid identifier start?
781 : * Must match scan.l's {ident_start} character class.
782 : */
783 : static bool
784 2202 : is_ident_start(unsigned char c)
785 : {
786 : /* Underscores and ASCII letters are OK */
787 2202 : if (c == '_')
788 0 : return true;
789 2202 : if ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z'))
790 2052 : return true;
791 : /* Any high-bit-set character is OK (might be part of a multibyte char) */
792 150 : if (IS_HIGHBIT_SET(c))
793 0 : return true;
794 150 : return false;
795 : }
796 :
797 : /*
798 : * Is character a valid identifier continuation?
799 : * Must match scan.l's {ident_cont} character class.
800 : */
801 : static bool
802 2052 : is_ident_cont(unsigned char c)
803 : {
804 : /* Can be digit or dollar sign ... */
805 2052 : if ((c >= '0' && c <= '9') || c == '$')
806 0 : return true;
807 : /* ... or an identifier start character */
808 2052 : return is_ident_start(c);
809 : }
810 :
811 : /*
812 : * parse_ident - parse a SQL qualified identifier into separate identifiers.
813 : * When strict mode is active (second parameter), then any chars after
814 : * the last identifier are disallowed.
815 : */
816 : Datum
817 114 : parse_ident(PG_FUNCTION_ARGS)
818 : {
819 114 : text *qualname = PG_GETARG_TEXT_PP(0);
820 114 : bool strict = PG_GETARG_BOOL(1);
821 114 : char *qualname_str = text_to_cstring(qualname);
822 114 : ArrayBuildState *astate = NULL;
823 : char *nextp;
824 114 : bool after_dot = false;
825 :
826 : /*
827 : * The code below scribbles on qualname_str in some cases, so we should
828 : * reconvert qualname if we need to show the original string in error
829 : * messages.
830 : */
831 114 : nextp = qualname_str;
832 :
833 : /* skip leading whitespace */
834 144 : while (scanner_isspace(*nextp))
835 30 : nextp++;
836 :
837 : for (;;)
838 96 : {
839 : char *curname;
840 210 : bool missing_ident = true;
841 :
842 210 : if (*nextp == '"')
843 : {
844 : char *endp;
845 :
846 60 : curname = nextp + 1;
847 : for (;;)
848 : {
849 60 : endp = strchr(nextp + 1, '"');
850 60 : if (endp == NULL)
851 0 : ereport(ERROR,
852 : (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
853 : errmsg("string is not a valid identifier: \"%s\"",
854 : text_to_cstring(qualname)),
855 : errdetail("String has unclosed double quotes.")));
856 60 : if (endp[1] != '"')
857 60 : break;
858 0 : memmove(endp, endp + 1, strlen(endp));
859 0 : nextp = endp;
860 : }
861 60 : nextp = endp + 1;
862 60 : *endp = '\0';
863 :
864 60 : if (endp - curname == 0)
865 0 : ereport(ERROR,
866 : (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
867 : errmsg("string is not a valid identifier: \"%s\"",
868 : text_to_cstring(qualname)),
869 : errdetail("Quoted identifier must not be empty.")));
870 :
871 60 : astate = accumArrayResult(astate, CStringGetTextDatum(curname),
872 : false, TEXTOID, CurrentMemoryContext);
873 60 : missing_ident = false;
874 : }
875 150 : else if (is_ident_start((unsigned char) *nextp))
876 : {
877 : char *downname;
878 : int len;
879 : text *part;
880 :
881 102 : curname = nextp++;
882 2052 : while (is_ident_cont((unsigned char) *nextp))
883 1950 : nextp++;
884 :
885 102 : len = nextp - curname;
886 :
887 : /*
888 : * We don't implicitly truncate identifiers. This is useful for
889 : * allowing the user to check for specific parts of the identifier
890 : * being too long. It's easy enough for the user to get the
891 : * truncated names by casting our output to name[].
892 : */
893 102 : downname = downcase_identifier(curname, len, false, false);
894 102 : part = cstring_to_text_with_len(downname, len);
895 102 : astate = accumArrayResult(astate, PointerGetDatum(part), false,
896 : TEXTOID, CurrentMemoryContext);
897 102 : missing_ident = false;
898 : }
899 :
900 210 : if (missing_ident)
901 : {
902 : /* Different error messages based on where we failed. */
903 48 : if (*nextp == '.')
904 18 : ereport(ERROR,
905 : (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
906 : errmsg("string is not a valid identifier: \"%s\"",
907 : text_to_cstring(qualname)),
908 : errdetail("No valid identifier before \".\".")));
909 30 : else if (after_dot)
910 12 : ereport(ERROR,
911 : (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
912 : errmsg("string is not a valid identifier: \"%s\"",
913 : text_to_cstring(qualname)),
914 : errdetail("No valid identifier after \".\".")));
915 : else
916 18 : ereport(ERROR,
917 : (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
918 : errmsg("string is not a valid identifier: \"%s\"",
919 : text_to_cstring(qualname))));
920 : }
921 :
922 204 : while (scanner_isspace(*nextp))
923 42 : nextp++;
924 :
925 162 : if (*nextp == '.')
926 : {
927 96 : after_dot = true;
928 96 : nextp++;
929 126 : while (scanner_isspace(*nextp))
930 30 : nextp++;
931 : }
932 66 : else if (*nextp == '\0')
933 : {
934 36 : break;
935 : }
936 : else
937 : {
938 30 : if (strict)
939 24 : ereport(ERROR,
940 : (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
941 : errmsg("string is not a valid identifier: \"%s\"",
942 : text_to_cstring(qualname))));
943 6 : break;
944 : }
945 : }
946 :
947 42 : PG_RETURN_DATUM(makeArrayResult(astate, CurrentMemoryContext));
948 : }
949 :
950 : /*
951 : * pg_current_logfile
952 : *
953 : * Report current log file used by log collector by scanning current_logfiles.
954 : */
955 : Datum
956 12 : pg_current_logfile(PG_FUNCTION_ARGS)
957 : {
958 : FILE *fd;
959 : char lbuffer[MAXPGPATH];
960 : char *logfmt;
961 :
962 : /* The log format parameter is optional */
963 12 : if (PG_NARGS() == 0 || PG_ARGISNULL(0))
964 0 : logfmt = NULL;
965 : else
966 : {
967 12 : logfmt = text_to_cstring(PG_GETARG_TEXT_PP(0));
968 :
969 12 : if (strcmp(logfmt, "stderr") != 0 &&
970 8 : strcmp(logfmt, "csvlog") != 0 &&
971 4 : strcmp(logfmt, "jsonlog") != 0)
972 0 : ereport(ERROR,
973 : (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
974 : errmsg("log format \"%s\" is not supported", logfmt),
975 : errhint("The supported log formats are \"stderr\", \"csvlog\", and \"jsonlog\".")));
976 : }
977 :
978 12 : fd = AllocateFile(LOG_METAINFO_DATAFILE, "r");
979 12 : if (fd == NULL)
980 : {
981 0 : if (errno != ENOENT)
982 0 : ereport(ERROR,
983 : (errcode_for_file_access(),
984 : errmsg("could not read file \"%s\": %m",
985 : LOG_METAINFO_DATAFILE)));
986 0 : PG_RETURN_NULL();
987 : }
988 :
989 : #ifdef WIN32
990 : /* syslogger.c writes CRLF line endings on Windows */
991 : _setmode(_fileno(fd), _O_TEXT);
992 : #endif
993 :
994 : /*
995 : * Read the file to gather current log filename(s) registered by the
996 : * syslogger.
997 : */
998 24 : while (fgets(lbuffer, sizeof(lbuffer), fd) != NULL)
999 : {
1000 : char *log_format;
1001 : char *log_filepath;
1002 : char *nlpos;
1003 :
1004 : /* Extract log format and log file path from the line. */
1005 24 : log_format = lbuffer;
1006 24 : log_filepath = strchr(lbuffer, ' ');
1007 24 : if (log_filepath == NULL)
1008 : {
1009 : /* Uh oh. No space found, so file content is corrupted. */
1010 0 : elog(ERROR,
1011 : "missing space character in \"%s\"", LOG_METAINFO_DATAFILE);
1012 : break;
1013 : }
1014 :
1015 24 : *log_filepath = '\0';
1016 24 : log_filepath++;
1017 24 : nlpos = strchr(log_filepath, '\n');
1018 24 : if (nlpos == NULL)
1019 : {
1020 : /* Uh oh. No newline found, so file content is corrupted. */
1021 0 : elog(ERROR,
1022 : "missing newline character in \"%s\"", LOG_METAINFO_DATAFILE);
1023 : break;
1024 : }
1025 24 : *nlpos = '\0';
1026 :
1027 24 : if (logfmt == NULL || strcmp(logfmt, log_format) == 0)
1028 : {
1029 12 : FreeFile(fd);
1030 12 : PG_RETURN_TEXT_P(cstring_to_text(log_filepath));
1031 : }
1032 : }
1033 :
1034 : /* Close the current log filename file. */
1035 0 : FreeFile(fd);
1036 :
1037 0 : PG_RETURN_NULL();
1038 : }
1039 :
1040 : /*
1041 : * Report current log file used by log collector (1 argument version)
1042 : *
1043 : * note: this wrapper is necessary to pass the sanity check in opr_sanity,
1044 : * which checks that all built-in functions that share the implementing C
1045 : * function take the same number of arguments
1046 : */
1047 : Datum
1048 12 : pg_current_logfile_1arg(PG_FUNCTION_ARGS)
1049 : {
1050 12 : return pg_current_logfile(fcinfo);
1051 : }
1052 :
1053 : /*
1054 : * SQL wrapper around RelationGetReplicaIndex().
1055 : */
1056 : Datum
1057 620 : pg_get_replica_identity_index(PG_FUNCTION_ARGS)
1058 : {
1059 620 : Oid reloid = PG_GETARG_OID(0);
1060 : Oid idxoid;
1061 : Relation rel;
1062 :
1063 620 : rel = table_open(reloid, AccessShareLock);
1064 620 : idxoid = RelationGetReplicaIndex(rel);
1065 620 : table_close(rel, AccessShareLock);
1066 :
1067 620 : if (OidIsValid(idxoid))
1068 368 : PG_RETURN_OID(idxoid);
1069 : else
1070 252 : PG_RETURN_NULL();
1071 : }
1072 :
1073 : /*
1074 : * Transition function for the ANY_VALUE aggregate
1075 : */
1076 : Datum
1077 18 : any_value_transfn(PG_FUNCTION_ARGS)
1078 : {
1079 18 : PG_RETURN_DATUM(PG_GETARG_DATUM(0));
1080 : }
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