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pltcl.c
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1 /**********************************************************************
2  * pltcl.c - PostgreSQL support for Tcl as
3  * procedural language (PL)
4  *
5  * src/pl/tcl/pltcl.c
6  *
7  **********************************************************************/
8 
9 #include "postgres.h"
10 
11 #include <tcl.h>
12 
13 #include <unistd.h>
14 #include <fcntl.h>
15 
16 #include "access/htup_details.h"
17 #include "access/xact.h"
18 #include "catalog/objectaccess.h"
19 #include "catalog/pg_proc.h"
20 #include "catalog/pg_type.h"
21 #include "commands/event_trigger.h"
22 #include "commands/trigger.h"
23 #include "executor/spi.h"
24 #include "fmgr.h"
25 #include "funcapi.h"
26 #include "mb/pg_wchar.h"
27 #include "miscadmin.h"
28 #include "nodes/makefuncs.h"
29 #include "parser/parse_func.h"
30 #include "parser/parse_type.h"
31 #include "pgstat.h"
32 #include "tcop/tcopprot.h"
33 #include "utils/acl.h"
34 #include "utils/builtins.h"
35 #include "utils/lsyscache.h"
36 #include "utils/memutils.h"
37 #include "utils/regproc.h"
38 #include "utils/rel.h"
39 #include "utils/syscache.h"
40 #include "utils/typcache.h"
41 
42 
44 
45 #define HAVE_TCL_VERSION(maj,min) \
46  ((TCL_MAJOR_VERSION > maj) || \
47  (TCL_MAJOR_VERSION == maj && TCL_MINOR_VERSION >= min))
48 
49 /* Insist on Tcl >= 8.4 */
50 #if !HAVE_TCL_VERSION(8,4)
51 #error PostgreSQL only supports Tcl 8.4 or later.
52 #endif
53 
54 /* Hack to deal with Tcl 8.6 const-ification without losing compatibility */
55 #ifndef CONST86
56 #define CONST86
57 #endif
58 
59 /* define our text domain for translations */
60 #undef TEXTDOMAIN
61 #define TEXTDOMAIN PG_TEXTDOMAIN("pltcl")
62 
63 
64 /*
65  * Support for converting between UTF8 (which is what all strings going into
66  * or out of Tcl should be) and the database encoding.
67  *
68  * If you just use utf_u2e() or utf_e2u() directly, they will leak some
69  * palloc'd space when doing a conversion. This is not worth worrying about
70  * if it only happens, say, once per PL/Tcl function call. If it does seem
71  * worth worrying about, use the wrapper macros.
72  */
73 
74 static inline char *
75 utf_u2e(const char *src)
76 {
77  return pg_any_to_server(src, strlen(src), PG_UTF8);
78 }
79 
80 static inline char *
81 utf_e2u(const char *src)
82 {
83  return pg_server_to_any(src, strlen(src), PG_UTF8);
84 }
85 
86 #define UTF_BEGIN \
87  do { \
88  const char *_pltcl_utf_src = NULL; \
89  char *_pltcl_utf_dst = NULL
90 
91 #define UTF_END \
92  if (_pltcl_utf_src != (const char *) _pltcl_utf_dst) \
93  pfree(_pltcl_utf_dst); \
94  } while (0)
95 
96 #define UTF_U2E(x) \
97  (_pltcl_utf_dst = utf_u2e(_pltcl_utf_src = (x)))
98 
99 #define UTF_E2U(x) \
100  (_pltcl_utf_dst = utf_e2u(_pltcl_utf_src = (x)))
101 
102 
103 /**********************************************************************
104  * Information associated with a Tcl interpreter. We have one interpreter
105  * that is used for all pltclu (untrusted) functions. For pltcl (trusted)
106  * functions, there is a separate interpreter for each effective SQL userid.
107  * (This is needed to ensure that an unprivileged user can't inject Tcl code
108  * that'll be executed with the privileges of some other SQL user.)
109  *
110  * The pltcl_interp_desc structs are kept in a Postgres hash table indexed
111  * by userid OID, with OID 0 used for the single untrusted interpreter.
112  **********************************************************************/
113 typedef struct pltcl_interp_desc
114 {
115  Oid user_id; /* Hash key (must be first!) */
116  Tcl_Interp *interp; /* The interpreter */
117  Tcl_HashTable query_hash; /* pltcl_query_desc structs */
119 
120 
121 /**********************************************************************
122  * The information we cache about loaded procedures
123  *
124  * The pltcl_proc_desc struct itself, as well as all subsidiary data,
125  * is stored in the memory context identified by the fn_cxt field.
126  * We can reclaim all the data by deleting that context, and should do so
127  * when the fn_refcount goes to zero. (But note that we do not bother
128  * trying to clean up Tcl's copy of the procedure definition: it's Tcl's
129  * problem to manage its memory when we replace a proc definition. We do
130  * not clean up pltcl_proc_descs when a pg_proc row is deleted, only when
131  * it is updated, and the same policy applies to Tcl's copy as well.)
132  *
133  * Note that the data in this struct is shared across all active calls;
134  * nothing except the fn_refcount should be changed by a call instance.
135  **********************************************************************/
136 typedef struct pltcl_proc_desc
137 {
138  char *user_proname; /* user's name (from pg_proc.proname) */
139  char *internal_proname; /* Tcl name (based on function OID) */
140  MemoryContext fn_cxt; /* memory context for this procedure */
141  unsigned long fn_refcount; /* number of active references */
142  TransactionId fn_xmin; /* xmin of pg_proc row */
143  ItemPointerData fn_tid; /* TID of pg_proc row */
144  bool fn_readonly; /* is function readonly? */
145  bool lanpltrusted; /* is it pltcl (vs. pltclu)? */
146  pltcl_interp_desc *interp_desc; /* interpreter to use */
147  Oid result_typid; /* OID of fn's result type */
148  FmgrInfo result_in_func; /* input function for fn's result type */
149  Oid result_typioparam; /* param to pass to same */
150  bool fn_retisset; /* true if function returns a set */
151  bool fn_retistuple; /* true if function returns composite */
152  bool fn_retisdomain; /* true if function returns domain */
153  void *domain_info; /* opaque cache for domain checks */
154  int nargs; /* number of arguments */
155  /* these arrays have nargs entries: */
156  FmgrInfo *arg_out_func; /* output fns for arg types */
157  bool *arg_is_rowtype; /* is each arg composite? */
159 
160 
161 /**********************************************************************
162  * The information we cache about prepared and saved plans
163  **********************************************************************/
164 typedef struct pltcl_query_desc
165 {
166  char qname[20];
168  int nargs;
173 
174 
175 /**********************************************************************
176  * For speedy lookup, we maintain a hash table mapping from
177  * function OID + trigger flag + user OID to pltcl_proc_desc pointers.
178  * The reason the pltcl_proc_desc struct isn't directly part of the hash
179  * entry is to simplify recovery from errors during compile_pltcl_function.
180  *
181  * Note: if the same function is called by multiple userIDs within a session,
182  * there will be a separate pltcl_proc_desc entry for each userID in the case
183  * of pltcl functions, but only one entry for pltclu functions, because we
184  * set user_id = 0 for that case.
185  **********************************************************************/
186 typedef struct pltcl_proc_key
187 {
188  Oid proc_id; /* Function OID */
189 
190  /*
191  * is_trigger is really a bool, but declare as Oid to ensure this struct
192  * contains no padding
193  */
194  Oid is_trigger; /* is it a trigger function? */
195  Oid user_id; /* User calling the function, or 0 */
197 
198 typedef struct pltcl_proc_ptr
199 {
200  pltcl_proc_key proc_key; /* Hash key (must be first!) */
203 
204 
205 /**********************************************************************
206  * Per-call state
207  **********************************************************************/
208 typedef struct pltcl_call_state
209 {
210  /* Call info struct, or NULL in a trigger */
212 
213  /* Trigger data, if we're in a normal (not event) trigger; else NULL */
215 
216  /* Function we're executing (NULL if not yet identified) */
218 
219  /*
220  * Information for SRFs and functions returning composite types.
221  * ret_tupdesc and attinmeta are set up if either fn_retistuple or
222  * fn_retisset, since even a scalar-returning SRF needs a tuplestore.
223  */
224  TupleDesc ret_tupdesc; /* return rowtype, if retistuple or retisset */
225  AttInMetadata *attinmeta; /* metadata for building tuples of that type */
226 
227  ReturnSetInfo *rsi; /* passed-in ReturnSetInfo, if any */
228  Tuplestorestate *tuple_store; /* SRFs accumulate result here */
229  MemoryContext tuple_store_cxt; /* context and resowner for tuplestore */
232 
233 
234 /**********************************************************************
235  * Global data
236  **********************************************************************/
237 static char *pltcl_start_proc = NULL;
238 static char *pltclu_start_proc = NULL;
239 static bool pltcl_pm_init_done = false;
240 static Tcl_Interp *pltcl_hold_interp = NULL;
241 static HTAB *pltcl_interp_htab = NULL;
242 static HTAB *pltcl_proc_htab = NULL;
243 
244 /* this is saved and restored by pltcl_handler */
246 
247 /**********************************************************************
248  * Lookup table for SQLSTATE condition names
249  **********************************************************************/
250 typedef struct
251 {
252  const char *label;
255 
257 #include "pltclerrcodes.h" /* pgrminclude ignore */
258  {NULL, 0}
259 };
260 
261 /**********************************************************************
262  * Forward declarations
263  **********************************************************************/
264 
265 static void pltcl_init_interp(pltcl_interp_desc *interp_desc,
266  Oid prolang, bool pltrusted);
267 static pltcl_interp_desc *pltcl_fetch_interp(Oid prolang, bool pltrusted);
268 static void call_pltcl_start_proc(Oid prolang, bool pltrusted);
269 static void start_proc_error_callback(void *arg);
270 
271 static Datum pltcl_handler(PG_FUNCTION_ARGS, bool pltrusted);
272 
274  bool pltrusted);
276  bool pltrusted);
278  bool pltrusted);
279 
280 static void throw_tcl_error(Tcl_Interp *interp, const char *proname);
281 
282 static pltcl_proc_desc *compile_pltcl_function(Oid fn_oid, Oid tgreloid,
283  bool is_event_trigger,
284  bool pltrusted);
285 
286 static int pltcl_elog(ClientData cdata, Tcl_Interp *interp,
287  int objc, Tcl_Obj *const objv[]);
288 static void pltcl_construct_errorCode(Tcl_Interp *interp, ErrorData *edata);
289 static const char *pltcl_get_condition_name(int sqlstate);
290 static int pltcl_quote(ClientData cdata, Tcl_Interp *interp,
291  int objc, Tcl_Obj *const objv[]);
292 static int pltcl_argisnull(ClientData cdata, Tcl_Interp *interp,
293  int objc, Tcl_Obj *const objv[]);
294 static int pltcl_returnnull(ClientData cdata, Tcl_Interp *interp,
295  int objc, Tcl_Obj *const objv[]);
296 static int pltcl_returnnext(ClientData cdata, Tcl_Interp *interp,
297  int objc, Tcl_Obj *const objv[]);
298 static int pltcl_SPI_execute(ClientData cdata, Tcl_Interp *interp,
299  int objc, Tcl_Obj *const objv[]);
300 static int pltcl_process_SPI_result(Tcl_Interp *interp,
301  const char *arrayname,
302  Tcl_Obj *loop_body,
303  int spi_rc,
304  SPITupleTable *tuptable,
305  uint64 ntuples);
306 static int pltcl_SPI_prepare(ClientData cdata, Tcl_Interp *interp,
307  int objc, Tcl_Obj *const objv[]);
308 static int pltcl_SPI_execute_plan(ClientData cdata, Tcl_Interp *interp,
309  int objc, Tcl_Obj *const objv[]);
310 static int pltcl_subtransaction(ClientData cdata, Tcl_Interp *interp,
311  int objc, Tcl_Obj *const objv[]);
312 static int pltcl_commit(ClientData cdata, Tcl_Interp *interp,
313  int objc, Tcl_Obj *const objv[]);
314 static int pltcl_rollback(ClientData cdata, Tcl_Interp *interp,
315  int objc, Tcl_Obj *const objv[]);
316 
317 static void pltcl_subtrans_begin(MemoryContext oldcontext,
318  ResourceOwner oldowner);
319 static void pltcl_subtrans_commit(MemoryContext oldcontext,
320  ResourceOwner oldowner);
321 static void pltcl_subtrans_abort(Tcl_Interp *interp,
322  MemoryContext oldcontext,
323  ResourceOwner oldowner);
324 
325 static void pltcl_set_tuple_values(Tcl_Interp *interp, const char *arrayname,
326  uint64 tupno, HeapTuple tuple, TupleDesc tupdesc);
327 static Tcl_Obj *pltcl_build_tuple_argument(HeapTuple tuple, TupleDesc tupdesc, bool include_generated);
328 static HeapTuple pltcl_build_tuple_result(Tcl_Interp *interp,
329  Tcl_Obj **kvObjv, int kvObjc,
330  pltcl_call_state *call_state);
331 static void pltcl_init_tuple_store(pltcl_call_state *call_state);
332 
333 
334 /*
335  * Hack to override Tcl's builtin Notifier subsystem. This prevents the
336  * backend from becoming multithreaded, which breaks all sorts of things.
337  * That happens in the default version of Tcl_InitNotifier if the TCL library
338  * has been compiled with multithreading support (i.e. when TCL_THREADS is
339  * defined under Unix, and in all cases under Windows).
340  * It's okay to disable the notifier because we never enter the Tcl event loop
341  * from Postgres, so the notifier capabilities are initialized, but never
342  * used. Only InitNotifier and DeleteFileHandler ever seem to get called
343  * within Postgres, but we implement all the functions for completeness.
344  */
345 static ClientData
347 {
348  static int fakeThreadKey; /* To give valid address for ClientData */
349 
350  return (ClientData) &(fakeThreadKey);
351 }
352 
353 static void
354 pltcl_FinalizeNotifier(ClientData clientData)
355 {
356 }
357 
358 static void
359 pltcl_SetTimer(CONST86 Tcl_Time *timePtr)
360 {
361 }
362 
363 static void
364 pltcl_AlertNotifier(ClientData clientData)
365 {
366 }
367 
368 static void
370  Tcl_FileProc *proc, ClientData clientData)
371 {
372 }
373 
374 static void
376 {
377 }
378 
379 static void
381 {
382 }
383 
384 static int
385 pltcl_WaitForEvent(CONST86 Tcl_Time *timePtr)
386 {
387  return 0;
388 }
389 
390 
391 /*
392  * _PG_init() - library load-time initialization
393  *
394  * DO NOT make this static nor change its name!
395  *
396  * The work done here must be safe to do in the postmaster process,
397  * in case the pltcl library is preloaded in the postmaster.
398  */
399 void
400 _PG_init(void)
401 {
402  Tcl_NotifierProcs notifier;
403  HASHCTL hash_ctl;
404 
405  /* Be sure we do initialization only once (should be redundant now) */
406  if (pltcl_pm_init_done)
407  return;
408 
410 
411 #ifdef WIN32
412  /* Required on win32 to prevent error loading init.tcl */
413  Tcl_FindExecutable("");
414 #endif
415 
416  /*
417  * Override the functions in the Notifier subsystem. See comments above.
418  */
419  notifier.setTimerProc = pltcl_SetTimer;
420  notifier.waitForEventProc = pltcl_WaitForEvent;
421  notifier.createFileHandlerProc = pltcl_CreateFileHandler;
422  notifier.deleteFileHandlerProc = pltcl_DeleteFileHandler;
423  notifier.initNotifierProc = pltcl_InitNotifier;
424  notifier.finalizeNotifierProc = pltcl_FinalizeNotifier;
425  notifier.alertNotifierProc = pltcl_AlertNotifier;
426  notifier.serviceModeHookProc = pltcl_ServiceModeHook;
427  Tcl_SetNotifier(&notifier);
428 
429  /************************************************************
430  * Create the dummy hold interpreter to prevent close of
431  * stdout and stderr on DeleteInterp
432  ************************************************************/
433  if ((pltcl_hold_interp = Tcl_CreateInterp()) == NULL)
434  elog(ERROR, "could not create dummy Tcl interpreter");
435  if (Tcl_Init(pltcl_hold_interp) == TCL_ERROR)
436  elog(ERROR, "could not initialize dummy Tcl interpreter");
437 
438  /************************************************************
439  * Create the hash table for working interpreters
440  ************************************************************/
441  hash_ctl.keysize = sizeof(Oid);
442  hash_ctl.entrysize = sizeof(pltcl_interp_desc);
443  pltcl_interp_htab = hash_create("PL/Tcl interpreters",
444  8,
445  &hash_ctl,
447 
448  /************************************************************
449  * Create the hash table for function lookup
450  ************************************************************/
451  hash_ctl.keysize = sizeof(pltcl_proc_key);
452  hash_ctl.entrysize = sizeof(pltcl_proc_ptr);
453  pltcl_proc_htab = hash_create("PL/Tcl functions",
454  100,
455  &hash_ctl,
457 
458  /************************************************************
459  * Define PL/Tcl's custom GUCs
460  ************************************************************/
461  DefineCustomStringVariable("pltcl.start_proc",
462  gettext_noop("PL/Tcl function to call once when pltcl is first used."),
463  NULL,
465  NULL,
466  PGC_SUSET, 0,
467  NULL, NULL, NULL);
468  DefineCustomStringVariable("pltclu.start_proc",
469  gettext_noop("PL/TclU function to call once when pltclu is first used."),
470  NULL,
472  NULL,
473  PGC_SUSET, 0,
474  NULL, NULL, NULL);
475 
476  MarkGUCPrefixReserved("pltcl");
477  MarkGUCPrefixReserved("pltclu");
478 
479  pltcl_pm_init_done = true;
480 }
481 
482 /**********************************************************************
483  * pltcl_init_interp() - initialize a new Tcl interpreter
484  **********************************************************************/
485 static void
486 pltcl_init_interp(pltcl_interp_desc *interp_desc, Oid prolang, bool pltrusted)
487 {
488  Tcl_Interp *interp;
489  char interpname[32];
490 
491  /************************************************************
492  * Create the Tcl interpreter subsidiary to pltcl_hold_interp.
493  * Note: Tcl automatically does Tcl_Init in the untrusted case,
494  * and it's not wanted in the trusted case.
495  ************************************************************/
496  snprintf(interpname, sizeof(interpname), "subsidiary_%u", interp_desc->user_id);
497  if ((interp = Tcl_CreateSlave(pltcl_hold_interp, interpname,
498  pltrusted ? 1 : 0)) == NULL)
499  elog(ERROR, "could not create subsidiary Tcl interpreter");
500 
501  /************************************************************
502  * Initialize the query hash table associated with interpreter
503  ************************************************************/
504  Tcl_InitHashTable(&interp_desc->query_hash, TCL_STRING_KEYS);
505 
506  /************************************************************
507  * Install the commands for SPI support in the interpreter
508  ************************************************************/
509  Tcl_CreateObjCommand(interp, "elog",
510  pltcl_elog, NULL, NULL);
511  Tcl_CreateObjCommand(interp, "quote",
512  pltcl_quote, NULL, NULL);
513  Tcl_CreateObjCommand(interp, "argisnull",
514  pltcl_argisnull, NULL, NULL);
515  Tcl_CreateObjCommand(interp, "return_null",
516  pltcl_returnnull, NULL, NULL);
517  Tcl_CreateObjCommand(interp, "return_next",
518  pltcl_returnnext, NULL, NULL);
519  Tcl_CreateObjCommand(interp, "spi_exec",
520  pltcl_SPI_execute, NULL, NULL);
521  Tcl_CreateObjCommand(interp, "spi_prepare",
522  pltcl_SPI_prepare, NULL, NULL);
523  Tcl_CreateObjCommand(interp, "spi_execp",
524  pltcl_SPI_execute_plan, NULL, NULL);
525  Tcl_CreateObjCommand(interp, "subtransaction",
526  pltcl_subtransaction, NULL, NULL);
527  Tcl_CreateObjCommand(interp, "commit",
528  pltcl_commit, NULL, NULL);
529  Tcl_CreateObjCommand(interp, "rollback",
530  pltcl_rollback, NULL, NULL);
531 
532  /************************************************************
533  * Call the appropriate start_proc, if there is one.
534  *
535  * We must set interp_desc->interp before the call, else the start_proc
536  * won't find the interpreter it's supposed to use. But, if the
537  * start_proc fails, we want to abandon use of the interpreter.
538  ************************************************************/
539  PG_TRY();
540  {
541  interp_desc->interp = interp;
542  call_pltcl_start_proc(prolang, pltrusted);
543  }
544  PG_CATCH();
545  {
546  interp_desc->interp = NULL;
547  Tcl_DeleteInterp(interp);
548  PG_RE_THROW();
549  }
550  PG_END_TRY();
551 }
552 
553 /**********************************************************************
554  * pltcl_fetch_interp() - fetch the Tcl interpreter to use for a function
555  *
556  * This also takes care of any on-first-use initialization required.
557  **********************************************************************/
558 static pltcl_interp_desc *
559 pltcl_fetch_interp(Oid prolang, bool pltrusted)
560 {
561  Oid user_id;
562  pltcl_interp_desc *interp_desc;
563  bool found;
564 
565  /* Find or create the interpreter hashtable entry for this userid */
566  if (pltrusted)
567  user_id = GetUserId();
568  else
569  user_id = InvalidOid;
570 
571  interp_desc = hash_search(pltcl_interp_htab, &user_id,
572  HASH_ENTER,
573  &found);
574  if (!found)
575  interp_desc->interp = NULL;
576 
577  /* If we haven't yet successfully made an interpreter, try to do that */
578  if (!interp_desc->interp)
579  pltcl_init_interp(interp_desc, prolang, pltrusted);
580 
581  return interp_desc;
582 }
583 
584 
585 /**********************************************************************
586  * call_pltcl_start_proc() - Call user-defined initialization proc, if any
587  **********************************************************************/
588 static void
589 call_pltcl_start_proc(Oid prolang, bool pltrusted)
590 {
591  LOCAL_FCINFO(fcinfo, 0);
592  char *start_proc;
593  const char *gucname;
594  ErrorContextCallback errcallback;
595  List *namelist;
596  Oid procOid;
597  HeapTuple procTup;
598  Form_pg_proc procStruct;
599  AclResult aclresult;
600  FmgrInfo finfo;
601  PgStat_FunctionCallUsage fcusage;
602 
603  /* select appropriate GUC */
604  start_proc = pltrusted ? pltcl_start_proc : pltclu_start_proc;
605  gucname = pltrusted ? "pltcl.start_proc" : "pltclu.start_proc";
606 
607  /* Nothing to do if it's empty or unset */
608  if (start_proc == NULL || start_proc[0] == '\0')
609  return;
610 
611  /* Set up errcontext callback to make errors more helpful */
612  errcallback.callback = start_proc_error_callback;
613  errcallback.arg = unconstify(char *, gucname);
614  errcallback.previous = error_context_stack;
615  error_context_stack = &errcallback;
616 
617  /* Parse possibly-qualified identifier and look up the function */
618  namelist = stringToQualifiedNameList(start_proc, NULL);
619  procOid = LookupFuncName(namelist, 0, NULL, false);
620 
621  /* Current user must have permission to call function */
622  aclresult = object_aclcheck(ProcedureRelationId, procOid, GetUserId(), ACL_EXECUTE);
623  if (aclresult != ACLCHECK_OK)
624  aclcheck_error(aclresult, OBJECT_FUNCTION, start_proc);
625 
626  /* Get the function's pg_proc entry */
627  procTup = SearchSysCache1(PROCOID, ObjectIdGetDatum(procOid));
628  if (!HeapTupleIsValid(procTup))
629  elog(ERROR, "cache lookup failed for function %u", procOid);
630  procStruct = (Form_pg_proc) GETSTRUCT(procTup);
631 
632  /* It must be same language as the function we're currently calling */
633  if (procStruct->prolang != prolang)
634  ereport(ERROR,
635  (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
636  errmsg("function \"%s\" is in the wrong language",
637  start_proc)));
638 
639  /*
640  * It must not be SECURITY DEFINER, either. This together with the
641  * language match check ensures that the function will execute in the same
642  * Tcl interpreter we just finished initializing.
643  */
644  if (procStruct->prosecdef)
645  ereport(ERROR,
646  (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
647  errmsg("function \"%s\" must not be SECURITY DEFINER",
648  start_proc)));
649 
650  /* A-OK */
651  ReleaseSysCache(procTup);
652 
653  /*
654  * Call the function using the normal SQL function call mechanism. We
655  * could perhaps cheat and jump directly to pltcl_handler(), but it seems
656  * better to do it this way so that the call is exposed to, eg, call
657  * statistics collection.
658  */
659  InvokeFunctionExecuteHook(procOid);
660  fmgr_info(procOid, &finfo);
661  InitFunctionCallInfoData(*fcinfo, &finfo,
662  0,
663  InvalidOid, NULL, NULL);
664  pgstat_init_function_usage(fcinfo, &fcusage);
665  (void) FunctionCallInvoke(fcinfo);
666  pgstat_end_function_usage(&fcusage, true);
667 
668  /* Pop the error context stack */
669  error_context_stack = errcallback.previous;
670 }
671 
672 /*
673  * Error context callback for errors occurring during start_proc processing.
674  */
675 static void
677 {
678  const char *gucname = (const char *) arg;
679 
680  /* translator: %s is "pltcl.start_proc" or "pltclu.start_proc" */
681  errcontext("processing %s parameter", gucname);
682 }
683 
684 
685 /**********************************************************************
686  * pltcl_call_handler - This is the only visible function
687  * of the PL interpreter. The PostgreSQL
688  * function manager and trigger manager
689  * call this function for execution of
690  * PL/Tcl procedures.
691  **********************************************************************/
693 
694 /* keep non-static */
695 Datum
697 {
698  return pltcl_handler(fcinfo, true);
699 }
700 
701 /*
702  * Alternative handler for unsafe functions
703  */
705 
706 /* keep non-static */
707 Datum
709 {
710  return pltcl_handler(fcinfo, false);
711 }
712 
713 
714 /**********************************************************************
715  * pltcl_handler() - Handler for function and trigger calls, for
716  * both trusted and untrusted interpreters.
717  **********************************************************************/
718 static Datum
720 {
721  Datum retval = (Datum) 0;
722  pltcl_call_state current_call_state;
723  pltcl_call_state *save_call_state;
724 
725  /*
726  * Initialize current_call_state to nulls/zeroes; in particular, set its
727  * prodesc pointer to null. Anything that sets it non-null should
728  * increase the prodesc's fn_refcount at the same time. We'll decrease
729  * the refcount, and then delete the prodesc if it's no longer referenced,
730  * on the way out of this function. This ensures that prodescs live as
731  * long as needed even if somebody replaces the originating pg_proc row
732  * while they're executing.
733  */
734  memset(&current_call_state, 0, sizeof(current_call_state));
735 
736  /*
737  * Ensure that static pointer is saved/restored properly
738  */
739  save_call_state = pltcl_current_call_state;
740  pltcl_current_call_state = &current_call_state;
741 
742  PG_TRY();
743  {
744  /*
745  * Determine if called as function or trigger and call appropriate
746  * subhandler
747  */
748  if (CALLED_AS_TRIGGER(fcinfo))
749  {
750  /* invoke the trigger handler */
751  retval = PointerGetDatum(pltcl_trigger_handler(fcinfo,
752  &current_call_state,
753  pltrusted));
754  }
755  else if (CALLED_AS_EVENT_TRIGGER(fcinfo))
756  {
757  /* invoke the event trigger handler */
758  pltcl_event_trigger_handler(fcinfo, &current_call_state, pltrusted);
759  retval = (Datum) 0;
760  }
761  else
762  {
763  /* invoke the regular function handler */
764  current_call_state.fcinfo = fcinfo;
765  retval = pltcl_func_handler(fcinfo, &current_call_state, pltrusted);
766  }
767  }
768  PG_FINALLY();
769  {
770  /* Restore static pointer, then clean up the prodesc refcount if any */
771  /*
772  * (We're being paranoid in case an error is thrown in context
773  * deletion)
774  */
775  pltcl_current_call_state = save_call_state;
776  if (current_call_state.prodesc != NULL)
777  {
778  Assert(current_call_state.prodesc->fn_refcount > 0);
779  if (--current_call_state.prodesc->fn_refcount == 0)
780  MemoryContextDelete(current_call_state.prodesc->fn_cxt);
781  }
782  }
783  PG_END_TRY();
784 
785  return retval;
786 }
787 
788 
789 /**********************************************************************
790  * pltcl_func_handler() - Handler for regular function calls
791  **********************************************************************/
792 static Datum
794  bool pltrusted)
795 {
796  bool nonatomic;
797  pltcl_proc_desc *prodesc;
798  Tcl_Interp *volatile interp;
799  Tcl_Obj *tcl_cmd;
800  int i;
801  int tcl_rc;
802  Datum retval;
803 
804  nonatomic = fcinfo->context &&
805  IsA(fcinfo->context, CallContext) &&
806  !castNode(CallContext, fcinfo->context)->atomic;
807 
808  /* Connect to SPI manager */
809  if (SPI_connect_ext(nonatomic ? SPI_OPT_NONATOMIC : 0) != SPI_OK_CONNECT)
810  elog(ERROR, "could not connect to SPI manager");
811 
812  /* Find or compile the function */
813  prodesc = compile_pltcl_function(fcinfo->flinfo->fn_oid, InvalidOid,
814  false, pltrusted);
815 
816  call_state->prodesc = prodesc;
817  prodesc->fn_refcount++;
818 
819  interp = prodesc->interp_desc->interp;
820 
821  /*
822  * If we're a SRF, check caller can handle materialize mode, and save
823  * relevant info into call_state. We must ensure that the returned
824  * tuplestore is owned by the caller's context, even if we first create it
825  * inside a subtransaction.
826  */
827  if (prodesc->fn_retisset)
828  {
829  ReturnSetInfo *rsi = (ReturnSetInfo *) fcinfo->resultinfo;
830 
831  if (!rsi || !IsA(rsi, ReturnSetInfo))
832  ereport(ERROR,
833  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
834  errmsg("set-valued function called in context that cannot accept a set")));
835 
836  if (!(rsi->allowedModes & SFRM_Materialize))
837  ereport(ERROR,
838  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
839  errmsg("materialize mode required, but it is not allowed in this context")));
840 
841  call_state->rsi = rsi;
842  call_state->tuple_store_cxt = rsi->econtext->ecxt_per_query_memory;
844  }
845 
846  /************************************************************
847  * Create the tcl command to call the internal
848  * proc in the Tcl interpreter
849  ************************************************************/
850  tcl_cmd = Tcl_NewObj();
851  Tcl_ListObjAppendElement(NULL, tcl_cmd,
852  Tcl_NewStringObj(prodesc->internal_proname, -1));
853 
854  /* We hold a refcount on tcl_cmd just to be sure it stays around */
855  Tcl_IncrRefCount(tcl_cmd);
856 
857  /************************************************************
858  * Add all call arguments to the command
859  ************************************************************/
860  PG_TRY();
861  {
862  for (i = 0; i < prodesc->nargs; i++)
863  {
864  if (prodesc->arg_is_rowtype[i])
865  {
866  /**************************************************
867  * For tuple values, add a list for 'array set ...'
868  **************************************************/
869  if (fcinfo->args[i].isnull)
870  Tcl_ListObjAppendElement(NULL, tcl_cmd, Tcl_NewObj());
871  else
872  {
873  HeapTupleHeader td;
874  Oid tupType;
875  int32 tupTypmod;
876  TupleDesc tupdesc;
877  HeapTupleData tmptup;
878  Tcl_Obj *list_tmp;
879 
880  td = DatumGetHeapTupleHeader(fcinfo->args[i].value);
881  /* Extract rowtype info and find a tupdesc */
882  tupType = HeapTupleHeaderGetTypeId(td);
883  tupTypmod = HeapTupleHeaderGetTypMod(td);
884  tupdesc = lookup_rowtype_tupdesc(tupType, tupTypmod);
885  /* Build a temporary HeapTuple control structure */
887  tmptup.t_data = td;
888 
889  list_tmp = pltcl_build_tuple_argument(&tmptup, tupdesc, true);
890  Tcl_ListObjAppendElement(NULL, tcl_cmd, list_tmp);
891 
892  ReleaseTupleDesc(tupdesc);
893  }
894  }
895  else
896  {
897  /**************************************************
898  * Single values are added as string element
899  * of their external representation
900  **************************************************/
901  if (fcinfo->args[i].isnull)
902  Tcl_ListObjAppendElement(NULL, tcl_cmd, Tcl_NewObj());
903  else
904  {
905  char *tmp;
906 
907  tmp = OutputFunctionCall(&prodesc->arg_out_func[i],
908  fcinfo->args[i].value);
909  UTF_BEGIN;
910  Tcl_ListObjAppendElement(NULL, tcl_cmd,
911  Tcl_NewStringObj(UTF_E2U(tmp), -1));
912  UTF_END;
913  pfree(tmp);
914  }
915  }
916  }
917  }
918  PG_CATCH();
919  {
920  /* Release refcount to free tcl_cmd */
921  Tcl_DecrRefCount(tcl_cmd);
922  PG_RE_THROW();
923  }
924  PG_END_TRY();
925 
926  /************************************************************
927  * Call the Tcl function
928  *
929  * We assume no PG error can be thrown directly from this call.
930  ************************************************************/
931  tcl_rc = Tcl_EvalObjEx(interp, tcl_cmd, (TCL_EVAL_DIRECT | TCL_EVAL_GLOBAL));
932 
933  /* Release refcount to free tcl_cmd (and all subsidiary objects) */
934  Tcl_DecrRefCount(tcl_cmd);
935 
936  /************************************************************
937  * Check for errors reported by Tcl.
938  ************************************************************/
939  if (tcl_rc != TCL_OK)
940  throw_tcl_error(interp, prodesc->user_proname);
941 
942  /************************************************************
943  * Disconnect from SPI manager and then create the return
944  * value datum (if the input function does a palloc for it
945  * this must not be allocated in the SPI memory context
946  * because SPI_finish would free it). But don't try to call
947  * the result_in_func if we've been told to return a NULL;
948  * the Tcl result may not be a valid value of the result type
949  * in that case.
950  ************************************************************/
951  if (SPI_finish() != SPI_OK_FINISH)
952  elog(ERROR, "SPI_finish() failed");
953 
954  if (prodesc->fn_retisset)
955  {
956  ReturnSetInfo *rsi = call_state->rsi;
957 
958  /* We already checked this is OK */
960 
961  /* If we produced any tuples, send back the result */
962  if (call_state->tuple_store)
963  {
964  rsi->setResult = call_state->tuple_store;
965  if (call_state->ret_tupdesc)
966  {
967  MemoryContext oldcxt;
968 
969  oldcxt = MemoryContextSwitchTo(call_state->tuple_store_cxt);
970  rsi->setDesc = CreateTupleDescCopy(call_state->ret_tupdesc);
971  MemoryContextSwitchTo(oldcxt);
972  }
973  }
974  retval = (Datum) 0;
975  fcinfo->isnull = true;
976  }
977  else if (fcinfo->isnull)
978  {
979  retval = InputFunctionCall(&prodesc->result_in_func,
980  NULL,
981  prodesc->result_typioparam,
982  -1);
983  }
984  else if (prodesc->fn_retistuple)
985  {
986  TupleDesc td;
987  HeapTuple tup;
988  Tcl_Obj *resultObj;
989  Tcl_Obj **resultObjv;
990  int resultObjc;
991 
992  /*
993  * Set up data about result type. XXX it's tempting to consider
994  * caching this in the prodesc, in the common case where the rowtype
995  * is determined by the function not the calling query. But we'd have
996  * to be able to deal with ADD/DROP/ALTER COLUMN events when the
997  * result type is a named composite type, so it's not exactly trivial.
998  * Maybe worth improving someday.
999  */
1000  switch (get_call_result_type(fcinfo, NULL, &td))
1001  {
1002  case TYPEFUNC_COMPOSITE:
1003  /* success */
1004  break;
1006  Assert(prodesc->fn_retisdomain);
1007  break;
1008  case TYPEFUNC_RECORD:
1009  /* failed to determine actual type of RECORD */
1010  ereport(ERROR,
1011  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1012  errmsg("function returning record called in context "
1013  "that cannot accept type record")));
1014  break;
1015  default:
1016  /* result type isn't composite? */
1017  elog(ERROR, "return type must be a row type");
1018  break;
1019  }
1020 
1021  Assert(!call_state->ret_tupdesc);
1022  Assert(!call_state->attinmeta);
1023  call_state->ret_tupdesc = td;
1024  call_state->attinmeta = TupleDescGetAttInMetadata(td);
1025 
1026  /* Convert function result to tuple */
1027  resultObj = Tcl_GetObjResult(interp);
1028  if (Tcl_ListObjGetElements(interp, resultObj, &resultObjc, &resultObjv) == TCL_ERROR)
1029  throw_tcl_error(interp, prodesc->user_proname);
1030 
1031  tup = pltcl_build_tuple_result(interp, resultObjv, resultObjc,
1032  call_state);
1033  retval = HeapTupleGetDatum(tup);
1034  }
1035  else
1036  retval = InputFunctionCall(&prodesc->result_in_func,
1037  utf_u2e(Tcl_GetStringResult(interp)),
1038  prodesc->result_typioparam,
1039  -1);
1040 
1041  return retval;
1042 }
1043 
1044 
1045 /**********************************************************************
1046  * pltcl_trigger_handler() - Handler for trigger calls
1047  **********************************************************************/
1048 static HeapTuple
1050  bool pltrusted)
1051 {
1052  pltcl_proc_desc *prodesc;
1053  Tcl_Interp *volatile interp;
1054  TriggerData *trigdata = (TriggerData *) fcinfo->context;
1055  char *stroid;
1056  TupleDesc tupdesc;
1057  volatile HeapTuple rettup;
1058  Tcl_Obj *tcl_cmd;
1059  Tcl_Obj *tcl_trigtup;
1060  int tcl_rc;
1061  int i;
1062  const char *result;
1063  int result_Objc;
1064  Tcl_Obj **result_Objv;
1065  int rc PG_USED_FOR_ASSERTS_ONLY;
1066 
1067  call_state->trigdata = trigdata;
1068 
1069  /* Connect to SPI manager */
1071  elog(ERROR, "could not connect to SPI manager");
1072 
1073  /* Make transition tables visible to this SPI connection */
1074  rc = SPI_register_trigger_data(trigdata);
1075  Assert(rc >= 0);
1076 
1077  /* Find or compile the function */
1078  prodesc = compile_pltcl_function(fcinfo->flinfo->fn_oid,
1079  RelationGetRelid(trigdata->tg_relation),
1080  false, /* not an event trigger */
1081  pltrusted);
1082 
1083  call_state->prodesc = prodesc;
1084  prodesc->fn_refcount++;
1085 
1086  interp = prodesc->interp_desc->interp;
1087 
1088  tupdesc = RelationGetDescr(trigdata->tg_relation);
1089 
1090  /************************************************************
1091  * Create the tcl command to call the internal
1092  * proc in the interpreter
1093  ************************************************************/
1094  tcl_cmd = Tcl_NewObj();
1095  Tcl_IncrRefCount(tcl_cmd);
1096 
1097  PG_TRY();
1098  {
1099  /* The procedure name (note this is all ASCII, so no utf_e2u) */
1100  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1101  Tcl_NewStringObj(prodesc->internal_proname, -1));
1102 
1103  /* The trigger name for argument TG_name */
1104  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1105  Tcl_NewStringObj(utf_e2u(trigdata->tg_trigger->tgname), -1));
1106 
1107  /* The oid of the trigger relation for argument TG_relid */
1108  /* Consider not converting to a string for more performance? */
1110  ObjectIdGetDatum(trigdata->tg_relation->rd_id)));
1111  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1112  Tcl_NewStringObj(stroid, -1));
1113  pfree(stroid);
1114 
1115  /* The name of the table the trigger is acting on: TG_table_name */
1116  stroid = SPI_getrelname(trigdata->tg_relation);
1117  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1118  Tcl_NewStringObj(utf_e2u(stroid), -1));
1119  pfree(stroid);
1120 
1121  /* The schema of the table the trigger is acting on: TG_table_schema */
1122  stroid = SPI_getnspname(trigdata->tg_relation);
1123  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1124  Tcl_NewStringObj(utf_e2u(stroid), -1));
1125  pfree(stroid);
1126 
1127  /* A list of attribute names for argument TG_relatts */
1128  tcl_trigtup = Tcl_NewObj();
1129  Tcl_ListObjAppendElement(NULL, tcl_trigtup, Tcl_NewObj());
1130  for (i = 0; i < tupdesc->natts; i++)
1131  {
1132  Form_pg_attribute att = TupleDescAttr(tupdesc, i);
1133 
1134  if (att->attisdropped)
1135  Tcl_ListObjAppendElement(NULL, tcl_trigtup, Tcl_NewObj());
1136  else
1137  Tcl_ListObjAppendElement(NULL, tcl_trigtup,
1138  Tcl_NewStringObj(utf_e2u(NameStr(att->attname)), -1));
1139  }
1140  Tcl_ListObjAppendElement(NULL, tcl_cmd, tcl_trigtup);
1141 
1142  /* The when part of the event for TG_when */
1143  if (TRIGGER_FIRED_BEFORE(trigdata->tg_event))
1144  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1145  Tcl_NewStringObj("BEFORE", -1));
1146  else if (TRIGGER_FIRED_AFTER(trigdata->tg_event))
1147  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1148  Tcl_NewStringObj("AFTER", -1));
1149  else if (TRIGGER_FIRED_INSTEAD(trigdata->tg_event))
1150  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1151  Tcl_NewStringObj("INSTEAD OF", -1));
1152  else
1153  elog(ERROR, "unrecognized WHEN tg_event: %u", trigdata->tg_event);
1154 
1155  /* The level part of the event for TG_level */
1156  if (TRIGGER_FIRED_FOR_ROW(trigdata->tg_event))
1157  {
1158  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1159  Tcl_NewStringObj("ROW", -1));
1160 
1161  /*
1162  * Now the command part of the event for TG_op and data for NEW
1163  * and OLD
1164  *
1165  * Note: In BEFORE trigger, stored generated columns are not
1166  * computed yet, so don't make them accessible in NEW row.
1167  */
1168  if (TRIGGER_FIRED_BY_INSERT(trigdata->tg_event))
1169  {
1170  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1171  Tcl_NewStringObj("INSERT", -1));
1172 
1173  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1175  tupdesc,
1176  !TRIGGER_FIRED_BEFORE(trigdata->tg_event)));
1177  Tcl_ListObjAppendElement(NULL, tcl_cmd, Tcl_NewObj());
1178 
1179  rettup = trigdata->tg_trigtuple;
1180  }
1181  else if (TRIGGER_FIRED_BY_DELETE(trigdata->tg_event))
1182  {
1183  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1184  Tcl_NewStringObj("DELETE", -1));
1185 
1186  Tcl_ListObjAppendElement(NULL, tcl_cmd, Tcl_NewObj());
1187  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1189  tupdesc,
1190  true));
1191 
1192  rettup = trigdata->tg_trigtuple;
1193  }
1194  else if (TRIGGER_FIRED_BY_UPDATE(trigdata->tg_event))
1195  {
1196  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1197  Tcl_NewStringObj("UPDATE", -1));
1198 
1199  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1201  tupdesc,
1202  !TRIGGER_FIRED_BEFORE(trigdata->tg_event)));
1203  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1205  tupdesc,
1206  true));
1207 
1208  rettup = trigdata->tg_newtuple;
1209  }
1210  else
1211  elog(ERROR, "unrecognized OP tg_event: %u", trigdata->tg_event);
1212  }
1213  else if (TRIGGER_FIRED_FOR_STATEMENT(trigdata->tg_event))
1214  {
1215  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1216  Tcl_NewStringObj("STATEMENT", -1));
1217 
1218  if (TRIGGER_FIRED_BY_INSERT(trigdata->tg_event))
1219  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1220  Tcl_NewStringObj("INSERT", -1));
1221  else if (TRIGGER_FIRED_BY_DELETE(trigdata->tg_event))
1222  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1223  Tcl_NewStringObj("DELETE", -1));
1224  else if (TRIGGER_FIRED_BY_UPDATE(trigdata->tg_event))
1225  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1226  Tcl_NewStringObj("UPDATE", -1));
1227  else if (TRIGGER_FIRED_BY_TRUNCATE(trigdata->tg_event))
1228  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1229  Tcl_NewStringObj("TRUNCATE", -1));
1230  else
1231  elog(ERROR, "unrecognized OP tg_event: %u", trigdata->tg_event);
1232 
1233  Tcl_ListObjAppendElement(NULL, tcl_cmd, Tcl_NewObj());
1234  Tcl_ListObjAppendElement(NULL, tcl_cmd, Tcl_NewObj());
1235 
1236  rettup = (HeapTuple) NULL;
1237  }
1238  else
1239  elog(ERROR, "unrecognized LEVEL tg_event: %u", trigdata->tg_event);
1240 
1241  /* Finally append the arguments from CREATE TRIGGER */
1242  for (i = 0; i < trigdata->tg_trigger->tgnargs; i++)
1243  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1244  Tcl_NewStringObj(utf_e2u(trigdata->tg_trigger->tgargs[i]), -1));
1245  }
1246  PG_CATCH();
1247  {
1248  Tcl_DecrRefCount(tcl_cmd);
1249  PG_RE_THROW();
1250  }
1251  PG_END_TRY();
1252 
1253  /************************************************************
1254  * Call the Tcl function
1255  *
1256  * We assume no PG error can be thrown directly from this call.
1257  ************************************************************/
1258  tcl_rc = Tcl_EvalObjEx(interp, tcl_cmd, (TCL_EVAL_DIRECT | TCL_EVAL_GLOBAL));
1259 
1260  /* Release refcount to free tcl_cmd (and all subsidiary objects) */
1261  Tcl_DecrRefCount(tcl_cmd);
1262 
1263  /************************************************************
1264  * Check for errors reported by Tcl.
1265  ************************************************************/
1266  if (tcl_rc != TCL_OK)
1267  throw_tcl_error(interp, prodesc->user_proname);
1268 
1269  /************************************************************
1270  * Exit SPI environment.
1271  ************************************************************/
1272  if (SPI_finish() != SPI_OK_FINISH)
1273  elog(ERROR, "SPI_finish() failed");
1274 
1275  /************************************************************
1276  * The return value from the procedure might be one of
1277  * the magic strings OK or SKIP, or a list from array get.
1278  * We can check for OK or SKIP without worrying about encoding.
1279  ************************************************************/
1280  result = Tcl_GetStringResult(interp);
1281 
1282  if (strcmp(result, "OK") == 0)
1283  return rettup;
1284  if (strcmp(result, "SKIP") == 0)
1285  return (HeapTuple) NULL;
1286 
1287  /************************************************************
1288  * Otherwise, the return value should be a column name/value list
1289  * specifying the modified tuple to return.
1290  ************************************************************/
1291  if (Tcl_ListObjGetElements(interp, Tcl_GetObjResult(interp),
1292  &result_Objc, &result_Objv) != TCL_OK)
1293  ereport(ERROR,
1294  (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED),
1295  errmsg("could not split return value from trigger: %s",
1296  utf_u2e(Tcl_GetStringResult(interp)))));
1297 
1298  /* Convert function result to tuple */
1299  rettup = pltcl_build_tuple_result(interp, result_Objv, result_Objc,
1300  call_state);
1301 
1302  return rettup;
1303 }
1304 
1305 /**********************************************************************
1306  * pltcl_event_trigger_handler() - Handler for event trigger calls
1307  **********************************************************************/
1308 static void
1310  bool pltrusted)
1311 {
1312  pltcl_proc_desc *prodesc;
1313  Tcl_Interp *volatile interp;
1314  EventTriggerData *tdata = (EventTriggerData *) fcinfo->context;
1315  Tcl_Obj *tcl_cmd;
1316  int tcl_rc;
1317 
1318  /* Connect to SPI manager */
1320  elog(ERROR, "could not connect to SPI manager");
1321 
1322  /* Find or compile the function */
1323  prodesc = compile_pltcl_function(fcinfo->flinfo->fn_oid,
1324  InvalidOid, true, pltrusted);
1325 
1326  call_state->prodesc = prodesc;
1327  prodesc->fn_refcount++;
1328 
1329  interp = prodesc->interp_desc->interp;
1330 
1331  /* Create the tcl command and call the internal proc */
1332  tcl_cmd = Tcl_NewObj();
1333  Tcl_IncrRefCount(tcl_cmd);
1334  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1335  Tcl_NewStringObj(prodesc->internal_proname, -1));
1336  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1337  Tcl_NewStringObj(utf_e2u(tdata->event), -1));
1338  Tcl_ListObjAppendElement(NULL, tcl_cmd,
1339  Tcl_NewStringObj(utf_e2u(GetCommandTagName(tdata->tag)),
1340  -1));
1341 
1342  tcl_rc = Tcl_EvalObjEx(interp, tcl_cmd, (TCL_EVAL_DIRECT | TCL_EVAL_GLOBAL));
1343 
1344  /* Release refcount to free tcl_cmd (and all subsidiary objects) */
1345  Tcl_DecrRefCount(tcl_cmd);
1346 
1347  /* Check for errors reported by Tcl. */
1348  if (tcl_rc != TCL_OK)
1349  throw_tcl_error(interp, prodesc->user_proname);
1350 
1351  if (SPI_finish() != SPI_OK_FINISH)
1352  elog(ERROR, "SPI_finish() failed");
1353 }
1354 
1355 
1356 /**********************************************************************
1357  * throw_tcl_error - ereport an error returned from the Tcl interpreter
1358  **********************************************************************/
1359 static void
1360 throw_tcl_error(Tcl_Interp *interp, const char *proname)
1361 {
1362  /*
1363  * Caution is needed here because Tcl_GetVar could overwrite the
1364  * interpreter result (even though it's not really supposed to), and we
1365  * can't control the order of evaluation of ereport arguments. Hence, make
1366  * real sure we have our own copy of the result string before invoking
1367  * Tcl_GetVar.
1368  */
1369  char *emsg;
1370  char *econtext;
1371 
1372  emsg = pstrdup(utf_u2e(Tcl_GetStringResult(interp)));
1373  econtext = utf_u2e(Tcl_GetVar(interp, "errorInfo", TCL_GLOBAL_ONLY));
1374  ereport(ERROR,
1375  (errcode(ERRCODE_EXTERNAL_ROUTINE_EXCEPTION),
1376  errmsg("%s", emsg),
1377  errcontext("%s\nin PL/Tcl function \"%s\"",
1378  econtext, proname)));
1379 }
1380 
1381 
1382 /**********************************************************************
1383  * compile_pltcl_function - compile (or hopefully just look up) function
1384  *
1385  * tgreloid is the OID of the relation when compiling a trigger, or zero
1386  * (InvalidOid) when compiling a plain function.
1387  **********************************************************************/
1388 static pltcl_proc_desc *
1389 compile_pltcl_function(Oid fn_oid, Oid tgreloid,
1390  bool is_event_trigger, bool pltrusted)
1391 {
1392  HeapTuple procTup;
1393  Form_pg_proc procStruct;
1394  pltcl_proc_key proc_key;
1395  pltcl_proc_ptr *proc_ptr;
1396  bool found;
1397  pltcl_proc_desc *prodesc;
1398  pltcl_proc_desc *old_prodesc;
1399  volatile MemoryContext proc_cxt = NULL;
1400  Tcl_DString proc_internal_def;
1401  Tcl_DString proc_internal_body;
1402 
1403  /* We'll need the pg_proc tuple in any case... */
1404  procTup = SearchSysCache1(PROCOID, ObjectIdGetDatum(fn_oid));
1405  if (!HeapTupleIsValid(procTup))
1406  elog(ERROR, "cache lookup failed for function %u", fn_oid);
1407  procStruct = (Form_pg_proc) GETSTRUCT(procTup);
1408 
1409  /*
1410  * Look up function in pltcl_proc_htab; if it's not there, create an entry
1411  * and set the entry's proc_ptr to NULL.
1412  */
1413  proc_key.proc_id = fn_oid;
1414  proc_key.is_trigger = OidIsValid(tgreloid);
1415  proc_key.user_id = pltrusted ? GetUserId() : InvalidOid;
1416 
1417  proc_ptr = hash_search(pltcl_proc_htab, &proc_key,
1418  HASH_ENTER,
1419  &found);
1420  if (!found)
1421  proc_ptr->proc_ptr = NULL;
1422 
1423  prodesc = proc_ptr->proc_ptr;
1424 
1425  /************************************************************
1426  * If it's present, must check whether it's still up to date.
1427  * This is needed because CREATE OR REPLACE FUNCTION can modify the
1428  * function's pg_proc entry without changing its OID.
1429  ************************************************************/
1430  if (prodesc != NULL &&
1431  prodesc->fn_xmin == HeapTupleHeaderGetRawXmin(procTup->t_data) &&
1432  ItemPointerEquals(&prodesc->fn_tid, &procTup->t_self))
1433  {
1434  /* It's still up-to-date, so we can use it */
1435  ReleaseSysCache(procTup);
1436  return prodesc;
1437  }
1438 
1439  /************************************************************
1440  * If we haven't found it in the hashtable, we analyze
1441  * the functions arguments and returntype and store
1442  * the in-/out-functions in the prodesc block and create
1443  * a new hashtable entry for it.
1444  *
1445  * Then we load the procedure into the Tcl interpreter.
1446  ************************************************************/
1447  Tcl_DStringInit(&proc_internal_def);
1448  Tcl_DStringInit(&proc_internal_body);
1449  PG_TRY();
1450  {
1451  bool is_trigger = OidIsValid(tgreloid);
1452  char internal_proname[128];
1453  HeapTuple typeTup;
1454  Form_pg_type typeStruct;
1455  char proc_internal_args[33 * FUNC_MAX_ARGS];
1456  Datum prosrcdatum;
1457  char *proc_source;
1458  char buf[48];
1459  Tcl_Interp *interp;
1460  int i;
1461  int tcl_rc;
1462  MemoryContext oldcontext;
1463 
1464  /************************************************************
1465  * Build our internal proc name from the function's Oid. Append
1466  * "_trigger" when appropriate to ensure the normal and trigger
1467  * cases are kept separate. Note name must be all-ASCII.
1468  ************************************************************/
1469  if (is_event_trigger)
1470  snprintf(internal_proname, sizeof(internal_proname),
1471  "__PLTcl_proc_%u_evttrigger", fn_oid);
1472  else if (is_trigger)
1473  snprintf(internal_proname, sizeof(internal_proname),
1474  "__PLTcl_proc_%u_trigger", fn_oid);
1475  else
1476  snprintf(internal_proname, sizeof(internal_proname),
1477  "__PLTcl_proc_%u", fn_oid);
1478 
1479  /************************************************************
1480  * Allocate a context that will hold all PG data for the procedure.
1481  ************************************************************/
1483  "PL/Tcl function",
1485 
1486  /************************************************************
1487  * Allocate and fill a new procedure description block.
1488  * struct prodesc and subsidiary data must all live in proc_cxt.
1489  ************************************************************/
1490  oldcontext = MemoryContextSwitchTo(proc_cxt);
1491  prodesc = (pltcl_proc_desc *) palloc0(sizeof(pltcl_proc_desc));
1492  prodesc->user_proname = pstrdup(NameStr(procStruct->proname));
1493  MemoryContextSetIdentifier(proc_cxt, prodesc->user_proname);
1494  prodesc->internal_proname = pstrdup(internal_proname);
1495  prodesc->fn_cxt = proc_cxt;
1496  prodesc->fn_refcount = 0;
1497  prodesc->fn_xmin = HeapTupleHeaderGetRawXmin(procTup->t_data);
1498  prodesc->fn_tid = procTup->t_self;
1499  prodesc->nargs = procStruct->pronargs;
1500  prodesc->arg_out_func = (FmgrInfo *) palloc0(prodesc->nargs * sizeof(FmgrInfo));
1501  prodesc->arg_is_rowtype = (bool *) palloc0(prodesc->nargs * sizeof(bool));
1502  MemoryContextSwitchTo(oldcontext);
1503 
1504  /* Remember if function is STABLE/IMMUTABLE */
1505  prodesc->fn_readonly =
1506  (procStruct->provolatile != PROVOLATILE_VOLATILE);
1507  /* And whether it is trusted */
1508  prodesc->lanpltrusted = pltrusted;
1509 
1510  /************************************************************
1511  * Identify the interpreter to use for the function
1512  ************************************************************/
1513  prodesc->interp_desc = pltcl_fetch_interp(procStruct->prolang,
1514  prodesc->lanpltrusted);
1515  interp = prodesc->interp_desc->interp;
1516 
1517  /************************************************************
1518  * Get the required information for input conversion of the
1519  * return value.
1520  ************************************************************/
1521  if (!is_trigger && !is_event_trigger)
1522  {
1523  Oid rettype = procStruct->prorettype;
1524 
1525  typeTup = SearchSysCache1(TYPEOID, ObjectIdGetDatum(rettype));
1526  if (!HeapTupleIsValid(typeTup))
1527  elog(ERROR, "cache lookup failed for type %u", rettype);
1528  typeStruct = (Form_pg_type) GETSTRUCT(typeTup);
1529 
1530  /* Disallow pseudotype result, except VOID and RECORD */
1531  if (typeStruct->typtype == TYPTYPE_PSEUDO)
1532  {
1533  if (rettype == VOIDOID ||
1534  rettype == RECORDOID)
1535  /* okay */ ;
1536  else if (rettype == TRIGGEROID ||
1537  rettype == EVENT_TRIGGEROID)
1538  ereport(ERROR,
1539  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1540  errmsg("trigger functions can only be called as triggers")));
1541  else
1542  ereport(ERROR,
1543  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1544  errmsg("PL/Tcl functions cannot return type %s",
1545  format_type_be(rettype))));
1546  }
1547 
1548  prodesc->result_typid = rettype;
1549  fmgr_info_cxt(typeStruct->typinput,
1550  &(prodesc->result_in_func),
1551  proc_cxt);
1552  prodesc->result_typioparam = getTypeIOParam(typeTup);
1553 
1554  prodesc->fn_retisset = procStruct->proretset;
1555  prodesc->fn_retistuple = type_is_rowtype(rettype);
1556  prodesc->fn_retisdomain = (typeStruct->typtype == TYPTYPE_DOMAIN);
1557  prodesc->domain_info = NULL;
1558 
1559  ReleaseSysCache(typeTup);
1560  }
1561 
1562  /************************************************************
1563  * Get the required information for output conversion
1564  * of all procedure arguments, and set up argument naming info.
1565  ************************************************************/
1566  if (!is_trigger && !is_event_trigger)
1567  {
1568  proc_internal_args[0] = '\0';
1569  for (i = 0; i < prodesc->nargs; i++)
1570  {
1571  Oid argtype = procStruct->proargtypes.values[i];
1572 
1573  typeTup = SearchSysCache1(TYPEOID, ObjectIdGetDatum(argtype));
1574  if (!HeapTupleIsValid(typeTup))
1575  elog(ERROR, "cache lookup failed for type %u", argtype);
1576  typeStruct = (Form_pg_type) GETSTRUCT(typeTup);
1577 
1578  /* Disallow pseudotype argument, except RECORD */
1579  if (typeStruct->typtype == TYPTYPE_PSEUDO &&
1580  argtype != RECORDOID)
1581  ereport(ERROR,
1582  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1583  errmsg("PL/Tcl functions cannot accept type %s",
1584  format_type_be(argtype))));
1585 
1586  if (type_is_rowtype(argtype))
1587  {
1588  prodesc->arg_is_rowtype[i] = true;
1589  snprintf(buf, sizeof(buf), "__PLTcl_Tup_%d", i + 1);
1590  }
1591  else
1592  {
1593  prodesc->arg_is_rowtype[i] = false;
1594  fmgr_info_cxt(typeStruct->typoutput,
1595  &(prodesc->arg_out_func[i]),
1596  proc_cxt);
1597  snprintf(buf, sizeof(buf), "%d", i + 1);
1598  }
1599 
1600  if (i > 0)
1601  strcat(proc_internal_args, " ");
1602  strcat(proc_internal_args, buf);
1603 
1604  ReleaseSysCache(typeTup);
1605  }
1606  }
1607  else if (is_trigger)
1608  {
1609  /* trigger procedure has fixed args */
1610  strcpy(proc_internal_args,
1611  "TG_name TG_relid TG_table_name TG_table_schema TG_relatts TG_when TG_level TG_op __PLTcl_Tup_NEW __PLTcl_Tup_OLD args");
1612  }
1613  else if (is_event_trigger)
1614  {
1615  /* event trigger procedure has fixed args */
1616  strcpy(proc_internal_args, "TG_event TG_tag");
1617  }
1618 
1619  /************************************************************
1620  * Create the tcl command to define the internal
1621  * procedure
1622  *
1623  * Leave this code as DString - performance is not critical here,
1624  * and we don't want to duplicate the knowledge of the Tcl quoting
1625  * rules that's embedded in Tcl_DStringAppendElement.
1626  ************************************************************/
1627  Tcl_DStringAppendElement(&proc_internal_def, "proc");
1628  Tcl_DStringAppendElement(&proc_internal_def, internal_proname);
1629  Tcl_DStringAppendElement(&proc_internal_def, proc_internal_args);
1630 
1631  /************************************************************
1632  * prefix procedure body with
1633  * upvar #0 <internal_proname> GD
1634  * and with appropriate setting of arguments
1635  ************************************************************/
1636  Tcl_DStringAppend(&proc_internal_body, "upvar #0 ", -1);
1637  Tcl_DStringAppend(&proc_internal_body, internal_proname, -1);
1638  Tcl_DStringAppend(&proc_internal_body, " GD\n", -1);
1639  if (is_trigger)
1640  {
1641  Tcl_DStringAppend(&proc_internal_body,
1642  "array set NEW $__PLTcl_Tup_NEW\n", -1);
1643  Tcl_DStringAppend(&proc_internal_body,
1644  "array set OLD $__PLTcl_Tup_OLD\n", -1);
1645  Tcl_DStringAppend(&proc_internal_body,
1646  "set i 0\n"
1647  "set v 0\n"
1648  "foreach v $args {\n"
1649  " incr i\n"
1650  " set $i $v\n"
1651  "}\n"
1652  "unset i v\n\n", -1);
1653  }
1654  else if (is_event_trigger)
1655  {
1656  /* no argument support for event triggers */
1657  }
1658  else
1659  {
1660  for (i = 0; i < prodesc->nargs; i++)
1661  {
1662  if (prodesc->arg_is_rowtype[i])
1663  {
1664  snprintf(buf, sizeof(buf),
1665  "array set %d $__PLTcl_Tup_%d\n",
1666  i + 1, i + 1);
1667  Tcl_DStringAppend(&proc_internal_body, buf, -1);
1668  }
1669  }
1670  }
1671 
1672  /************************************************************
1673  * Add user's function definition to proc body
1674  ************************************************************/
1675  prosrcdatum = SysCacheGetAttrNotNull(PROCOID, procTup,
1676  Anum_pg_proc_prosrc);
1677  proc_source = TextDatumGetCString(prosrcdatum);
1678  UTF_BEGIN;
1679  Tcl_DStringAppend(&proc_internal_body, UTF_E2U(proc_source), -1);
1680  UTF_END;
1681  pfree(proc_source);
1682  Tcl_DStringAppendElement(&proc_internal_def,
1683  Tcl_DStringValue(&proc_internal_body));
1684 
1685  /************************************************************
1686  * Create the procedure in the interpreter
1687  ************************************************************/
1688  tcl_rc = Tcl_EvalEx(interp,
1689  Tcl_DStringValue(&proc_internal_def),
1690  Tcl_DStringLength(&proc_internal_def),
1691  TCL_EVAL_GLOBAL);
1692  if (tcl_rc != TCL_OK)
1693  ereport(ERROR,
1694  (errcode(ERRCODE_EXTERNAL_ROUTINE_EXCEPTION),
1695  errmsg("could not create internal procedure \"%s\": %s",
1696  internal_proname,
1697  utf_u2e(Tcl_GetStringResult(interp)))));
1698  }
1699  PG_CATCH();
1700  {
1701  /*
1702  * If we failed anywhere above, clean up whatever got allocated. It
1703  * should all be in the proc_cxt, except for the DStrings.
1704  */
1705  if (proc_cxt)
1706  MemoryContextDelete(proc_cxt);
1707  Tcl_DStringFree(&proc_internal_def);
1708  Tcl_DStringFree(&proc_internal_body);
1709  PG_RE_THROW();
1710  }
1711  PG_END_TRY();
1712 
1713  /*
1714  * Install the new proc description block in the hashtable, incrementing
1715  * its refcount (the hashtable link counts as a reference). Then, if
1716  * there was a previous definition of the function, decrement that one's
1717  * refcount, and delete it if no longer referenced. The order of
1718  * operations here is important: if something goes wrong during the
1719  * MemoryContextDelete, leaking some memory for the old definition is OK,
1720  * but we don't want to corrupt the live hashtable entry. (Likewise,
1721  * freeing the DStrings is pretty low priority if that happens.)
1722  */
1723  old_prodesc = proc_ptr->proc_ptr;
1724 
1725  proc_ptr->proc_ptr = prodesc;
1726  prodesc->fn_refcount++;
1727 
1728  if (old_prodesc != NULL)
1729  {
1730  Assert(old_prodesc->fn_refcount > 0);
1731  if (--old_prodesc->fn_refcount == 0)
1732  MemoryContextDelete(old_prodesc->fn_cxt);
1733  }
1734 
1735  Tcl_DStringFree(&proc_internal_def);
1736  Tcl_DStringFree(&proc_internal_body);
1737 
1738  ReleaseSysCache(procTup);
1739 
1740  return prodesc;
1741 }
1742 
1743 
1744 /**********************************************************************
1745  * pltcl_elog() - elog() support for PLTcl
1746  **********************************************************************/
1747 static int
1748 pltcl_elog(ClientData cdata, Tcl_Interp *interp,
1749  int objc, Tcl_Obj *const objv[])
1750 {
1751  volatile int level;
1752  MemoryContext oldcontext;
1753  int priIndex;
1754 
1755  static const char *logpriorities[] = {
1756  "DEBUG", "LOG", "INFO", "NOTICE",
1757  "WARNING", "ERROR", "FATAL", (const char *) NULL
1758  };
1759 
1760  static const int loglevels[] = {
1761  DEBUG2, LOG, INFO, NOTICE,
1762  WARNING, ERROR, FATAL
1763  };
1764 
1765  if (objc != 3)
1766  {
1767  Tcl_WrongNumArgs(interp, 1, objv, "level msg");
1768  return TCL_ERROR;
1769  }
1770 
1771  if (Tcl_GetIndexFromObj(interp, objv[1], logpriorities, "priority",
1772  TCL_EXACT, &priIndex) != TCL_OK)
1773  return TCL_ERROR;
1774 
1775  level = loglevels[priIndex];
1776 
1777  if (level == ERROR)
1778  {
1779  /*
1780  * We just pass the error back to Tcl. If it's not caught, it'll
1781  * eventually get converted to a PG error when we reach the call
1782  * handler.
1783  */
1784  Tcl_SetObjResult(interp, objv[2]);
1785  return TCL_ERROR;
1786  }
1787 
1788  /*
1789  * For non-error messages, just pass 'em to ereport(). We do not expect
1790  * that this will fail, but just on the off chance it does, report the
1791  * error back to Tcl. Note we are assuming that ereport() can't have any
1792  * internal failures that are so bad as to require a transaction abort.
1793  *
1794  * This path is also used for FATAL errors, which aren't going to come
1795  * back to us at all.
1796  */
1797  oldcontext = CurrentMemoryContext;
1798  PG_TRY();
1799  {
1800  UTF_BEGIN;
1801  ereport(level,
1802  (errcode(ERRCODE_EXTERNAL_ROUTINE_EXCEPTION),
1803  errmsg("%s", UTF_U2E(Tcl_GetString(objv[2])))));
1804  UTF_END;
1805  }
1806  PG_CATCH();
1807  {
1808  ErrorData *edata;
1809 
1810  /* Must reset elog.c's state */
1811  MemoryContextSwitchTo(oldcontext);
1812  edata = CopyErrorData();
1813  FlushErrorState();
1814 
1815  /* Pass the error data to Tcl */
1816  pltcl_construct_errorCode(interp, edata);
1817  UTF_BEGIN;
1818  Tcl_SetObjResult(interp, Tcl_NewStringObj(UTF_E2U(edata->message), -1));
1819  UTF_END;
1820  FreeErrorData(edata);
1821 
1822  return TCL_ERROR;
1823  }
1824  PG_END_TRY();
1825 
1826  return TCL_OK;
1827 }
1828 
1829 
1830 /**********************************************************************
1831  * pltcl_construct_errorCode() - construct a Tcl errorCode
1832  * list with detailed information from the PostgreSQL server
1833  **********************************************************************/
1834 static void
1835 pltcl_construct_errorCode(Tcl_Interp *interp, ErrorData *edata)
1836 {
1837  Tcl_Obj *obj = Tcl_NewObj();
1838 
1839  Tcl_ListObjAppendElement(interp, obj,
1840  Tcl_NewStringObj("POSTGRES", -1));
1841  Tcl_ListObjAppendElement(interp, obj,
1842  Tcl_NewStringObj(PG_VERSION, -1));
1843  Tcl_ListObjAppendElement(interp, obj,
1844  Tcl_NewStringObj("SQLSTATE", -1));
1845  Tcl_ListObjAppendElement(interp, obj,
1846  Tcl_NewStringObj(unpack_sql_state(edata->sqlerrcode), -1));
1847  Tcl_ListObjAppendElement(interp, obj,
1848  Tcl_NewStringObj("condition", -1));
1849  Tcl_ListObjAppendElement(interp, obj,
1850  Tcl_NewStringObj(pltcl_get_condition_name(edata->sqlerrcode), -1));
1851  Tcl_ListObjAppendElement(interp, obj,
1852  Tcl_NewStringObj("message", -1));
1853  UTF_BEGIN;
1854  Tcl_ListObjAppendElement(interp, obj,
1855  Tcl_NewStringObj(UTF_E2U(edata->message), -1));
1856  UTF_END;
1857  if (edata->detail)
1858  {
1859  Tcl_ListObjAppendElement(interp, obj,
1860  Tcl_NewStringObj("detail", -1));
1861  UTF_BEGIN;
1862  Tcl_ListObjAppendElement(interp, obj,
1863  Tcl_NewStringObj(UTF_E2U(edata->detail), -1));
1864  UTF_END;
1865  }
1866  if (edata->hint)
1867  {
1868  Tcl_ListObjAppendElement(interp, obj,
1869  Tcl_NewStringObj("hint", -1));
1870  UTF_BEGIN;
1871  Tcl_ListObjAppendElement(interp, obj,
1872  Tcl_NewStringObj(UTF_E2U(edata->hint), -1));
1873  UTF_END;
1874  }
1875  if (edata->context)
1876  {
1877  Tcl_ListObjAppendElement(interp, obj,
1878  Tcl_NewStringObj("context", -1));
1879  UTF_BEGIN;
1880  Tcl_ListObjAppendElement(interp, obj,
1881  Tcl_NewStringObj(UTF_E2U(edata->context), -1));
1882  UTF_END;
1883  }
1884  if (edata->schema_name)
1885  {
1886  Tcl_ListObjAppendElement(interp, obj,
1887  Tcl_NewStringObj("schema", -1));
1888  UTF_BEGIN;
1889  Tcl_ListObjAppendElement(interp, obj,
1890  Tcl_NewStringObj(UTF_E2U(edata->schema_name), -1));
1891  UTF_END;
1892  }
1893  if (edata->table_name)
1894  {
1895  Tcl_ListObjAppendElement(interp, obj,
1896  Tcl_NewStringObj("table", -1));
1897  UTF_BEGIN;
1898  Tcl_ListObjAppendElement(interp, obj,
1899  Tcl_NewStringObj(UTF_E2U(edata->table_name), -1));
1900  UTF_END;
1901  }
1902  if (edata->column_name)
1903  {
1904  Tcl_ListObjAppendElement(interp, obj,
1905  Tcl_NewStringObj("column", -1));
1906  UTF_BEGIN;
1907  Tcl_ListObjAppendElement(interp, obj,
1908  Tcl_NewStringObj(UTF_E2U(edata->column_name), -1));
1909  UTF_END;
1910  }
1911  if (edata->datatype_name)
1912  {
1913  Tcl_ListObjAppendElement(interp, obj,
1914  Tcl_NewStringObj("datatype", -1));
1915  UTF_BEGIN;
1916  Tcl_ListObjAppendElement(interp, obj,
1917  Tcl_NewStringObj(UTF_E2U(edata->datatype_name), -1));
1918  UTF_END;
1919  }
1920  if (edata->constraint_name)
1921  {
1922  Tcl_ListObjAppendElement(interp, obj,
1923  Tcl_NewStringObj("constraint", -1));
1924  UTF_BEGIN;
1925  Tcl_ListObjAppendElement(interp, obj,
1926  Tcl_NewStringObj(UTF_E2U(edata->constraint_name), -1));
1927  UTF_END;
1928  }
1929  /* cursorpos is never interesting here; report internal query/pos */
1930  if (edata->internalquery)
1931  {
1932  Tcl_ListObjAppendElement(interp, obj,
1933  Tcl_NewStringObj("statement", -1));
1934  UTF_BEGIN;
1935  Tcl_ListObjAppendElement(interp, obj,
1936  Tcl_NewStringObj(UTF_E2U(edata->internalquery), -1));
1937  UTF_END;
1938  }
1939  if (edata->internalpos > 0)
1940  {
1941  Tcl_ListObjAppendElement(interp, obj,
1942  Tcl_NewStringObj("cursor_position", -1));
1943  Tcl_ListObjAppendElement(interp, obj,
1944  Tcl_NewIntObj(edata->internalpos));
1945  }
1946  if (edata->filename)
1947  {
1948  Tcl_ListObjAppendElement(interp, obj,
1949  Tcl_NewStringObj("filename", -1));
1950  UTF_BEGIN;
1951  Tcl_ListObjAppendElement(interp, obj,
1952  Tcl_NewStringObj(UTF_E2U(edata->filename), -1));
1953  UTF_END;
1954  }
1955  if (edata->lineno > 0)
1956  {
1957  Tcl_ListObjAppendElement(interp, obj,
1958  Tcl_NewStringObj("lineno", -1));
1959  Tcl_ListObjAppendElement(interp, obj,
1960  Tcl_NewIntObj(edata->lineno));
1961  }
1962  if (edata->funcname)
1963  {
1964  Tcl_ListObjAppendElement(interp, obj,
1965  Tcl_NewStringObj("funcname", -1));
1966  UTF_BEGIN;
1967  Tcl_ListObjAppendElement(interp, obj,
1968  Tcl_NewStringObj(UTF_E2U(edata->funcname), -1));
1969  UTF_END;
1970  }
1971 
1972  Tcl_SetObjErrorCode(interp, obj);
1973 }
1974 
1975 
1976 /**********************************************************************
1977  * pltcl_get_condition_name() - find name for SQLSTATE
1978  **********************************************************************/
1979 static const char *
1981 {
1982  int i;
1983 
1984  for (i = 0; exception_name_map[i].label != NULL; i++)
1985  {
1986  if (exception_name_map[i].sqlerrstate == sqlstate)
1987  return exception_name_map[i].label;
1988  }
1989  return "unrecognized_sqlstate";
1990 }
1991 
1992 
1993 /**********************************************************************
1994  * pltcl_quote() - quote literal strings that are to
1995  * be used in SPI_execute query strings
1996  **********************************************************************/
1997 static int
1998 pltcl_quote(ClientData cdata, Tcl_Interp *interp,
1999  int objc, Tcl_Obj *const objv[])
2000 {
2001  char *tmp;
2002  const char *cp1;
2003  char *cp2;
2004  int length;
2005 
2006  /************************************************************
2007  * Check call syntax
2008  ************************************************************/
2009  if (objc != 2)
2010  {
2011  Tcl_WrongNumArgs(interp, 1, objv, "string");
2012  return TCL_ERROR;
2013  }
2014 
2015  /************************************************************
2016  * Allocate space for the maximum the string can
2017  * grow to and initialize pointers
2018  ************************************************************/
2019  cp1 = Tcl_GetStringFromObj(objv[1], &length);
2020  tmp = palloc(length * 2 + 1);
2021  cp2 = tmp;
2022 
2023  /************************************************************
2024  * Walk through string and double every quote and backslash
2025  ************************************************************/
2026  while (*cp1)
2027  {
2028  if (*cp1 == '\'')
2029  *cp2++ = '\'';
2030  else
2031  {
2032  if (*cp1 == '\\')
2033  *cp2++ = '\\';
2034  }
2035  *cp2++ = *cp1++;
2036  }
2037 
2038  /************************************************************
2039  * Terminate the string and set it as result
2040  ************************************************************/
2041  *cp2 = '\0';
2042  Tcl_SetObjResult(interp, Tcl_NewStringObj(tmp, -1));
2043  pfree(tmp);
2044  return TCL_OK;
2045 }
2046 
2047 
2048 /**********************************************************************
2049  * pltcl_argisnull() - determine if a specific argument is NULL
2050  **********************************************************************/
2051 static int
2052 pltcl_argisnull(ClientData cdata, Tcl_Interp *interp,
2053  int objc, Tcl_Obj *const objv[])
2054 {
2055  int argno;
2057 
2058  /************************************************************
2059  * Check call syntax
2060  ************************************************************/
2061  if (objc != 2)
2062  {
2063  Tcl_WrongNumArgs(interp, 1, objv, "argno");
2064  return TCL_ERROR;
2065  }
2066 
2067  /************************************************************
2068  * Check that we're called as a normal function
2069  ************************************************************/
2070  if (fcinfo == NULL)
2071  {
2072  Tcl_SetObjResult(interp,
2073  Tcl_NewStringObj("argisnull cannot be used in triggers", -1));
2074  return TCL_ERROR;
2075  }
2076 
2077  /************************************************************
2078  * Get the argument number
2079  ************************************************************/
2080  if (Tcl_GetIntFromObj(interp, objv[1], &argno) != TCL_OK)
2081  return TCL_ERROR;
2082 
2083  /************************************************************
2084  * Check that the argno is valid
2085  ************************************************************/
2086  argno--;
2087  if (argno < 0 || argno >= fcinfo->nargs)
2088  {
2089  Tcl_SetObjResult(interp,
2090  Tcl_NewStringObj("argno out of range", -1));
2091  return TCL_ERROR;
2092  }
2093 
2094  /************************************************************
2095  * Get the requested NULL state
2096  ************************************************************/
2097  Tcl_SetObjResult(interp, Tcl_NewBooleanObj(PG_ARGISNULL(argno)));
2098  return TCL_OK;
2099 }
2100 
2101 
2102 /**********************************************************************
2103  * pltcl_returnnull() - Cause a NULL return from the current function
2104  **********************************************************************/
2105 static int
2106 pltcl_returnnull(ClientData cdata, Tcl_Interp *interp,
2107  int objc, Tcl_Obj *const objv[])
2108 {
2110 
2111  /************************************************************
2112  * Check call syntax
2113  ************************************************************/
2114  if (objc != 1)
2115  {
2116  Tcl_WrongNumArgs(interp, 1, objv, "");
2117  return TCL_ERROR;
2118  }
2119 
2120  /************************************************************
2121  * Check that we're called as a normal function
2122  ************************************************************/
2123  if (fcinfo == NULL)
2124  {
2125  Tcl_SetObjResult(interp,
2126  Tcl_NewStringObj("return_null cannot be used in triggers", -1));
2127  return TCL_ERROR;
2128  }
2129 
2130  /************************************************************
2131  * Set the NULL return flag and cause Tcl to return from the
2132  * procedure.
2133  ************************************************************/
2134  fcinfo->isnull = true;
2135 
2136  return TCL_RETURN;
2137 }
2138 
2139 
2140 /**********************************************************************
2141  * pltcl_returnnext() - Add a row to the result tuplestore in a SRF.
2142  **********************************************************************/
2143 static int
2144 pltcl_returnnext(ClientData cdata, Tcl_Interp *interp,
2145  int objc, Tcl_Obj *const objv[])
2146 {
2148  FunctionCallInfo fcinfo = call_state->fcinfo;
2149  pltcl_proc_desc *prodesc = call_state->prodesc;
2150  MemoryContext oldcontext = CurrentMemoryContext;
2152  volatile int result = TCL_OK;
2153 
2154  /*
2155  * Check that we're called as a set-returning function
2156  */
2157  if (fcinfo == NULL)
2158  {
2159  Tcl_SetObjResult(interp,
2160  Tcl_NewStringObj("return_next cannot be used in triggers", -1));
2161  return TCL_ERROR;
2162  }
2163 
2164  if (!prodesc->fn_retisset)
2165  {
2166  Tcl_SetObjResult(interp,
2167  Tcl_NewStringObj("return_next cannot be used in non-set-returning functions", -1));
2168  return TCL_ERROR;
2169  }
2170 
2171  /*
2172  * Check call syntax
2173  */
2174  if (objc != 2)
2175  {
2176  Tcl_WrongNumArgs(interp, 1, objv, "result");
2177  return TCL_ERROR;
2178  }
2179 
2180  /*
2181  * The rest might throw elog(ERROR), so must run in a subtransaction.
2182  *
2183  * A small advantage of using a subtransaction is that it provides a
2184  * short-lived memory context for free, so we needn't worry about leaking
2185  * memory here. To use that context, call BeginInternalSubTransaction
2186  * directly instead of going through pltcl_subtrans_begin.
2187  */
2189  PG_TRY();
2190  {
2191  /* Set up tuple store if first output row */
2192  if (call_state->tuple_store == NULL)
2193  pltcl_init_tuple_store(call_state);
2194 
2195  if (prodesc->fn_retistuple)
2196  {
2197  Tcl_Obj **rowObjv;
2198  int rowObjc;
2199 
2200  /* result should be a list, so break it down */
2201  if (Tcl_ListObjGetElements(interp, objv[1], &rowObjc, &rowObjv) == TCL_ERROR)
2202  result = TCL_ERROR;
2203  else
2204  {
2205  HeapTuple tuple;
2206 
2207  tuple = pltcl_build_tuple_result(interp, rowObjv, rowObjc,
2208  call_state);
2209  tuplestore_puttuple(call_state->tuple_store, tuple);
2210  }
2211  }
2212  else
2213  {
2214  Datum retval;
2215  bool isNull = false;
2216 
2217  /* for paranoia's sake, check that tupdesc has exactly one column */
2218  if (call_state->ret_tupdesc->natts != 1)
2219  elog(ERROR, "wrong result type supplied in return_next");
2220 
2221  retval = InputFunctionCall(&prodesc->result_in_func,
2222  utf_u2e((char *) Tcl_GetString(objv[1])),
2223  prodesc->result_typioparam,
2224  -1);
2225  tuplestore_putvalues(call_state->tuple_store, call_state->ret_tupdesc,
2226  &retval, &isNull);
2227  }
2228 
2229  pltcl_subtrans_commit(oldcontext, oldowner);
2230  }
2231  PG_CATCH();
2232  {
2233  pltcl_subtrans_abort(interp, oldcontext, oldowner);
2234  return TCL_ERROR;
2235  }
2236  PG_END_TRY();
2237 
2238  return result;
2239 }
2240 
2241 
2242 /*----------
2243  * Support for running SPI operations inside subtransactions
2244  *
2245  * Intended usage pattern is:
2246  *
2247  * MemoryContext oldcontext = CurrentMemoryContext;
2248  * ResourceOwner oldowner = CurrentResourceOwner;
2249  *
2250  * ...
2251  * pltcl_subtrans_begin(oldcontext, oldowner);
2252  * PG_TRY();
2253  * {
2254  * do something risky;
2255  * pltcl_subtrans_commit(oldcontext, oldowner);
2256  * }
2257  * PG_CATCH();
2258  * {
2259  * pltcl_subtrans_abort(interp, oldcontext, oldowner);
2260  * return TCL_ERROR;
2261  * }
2262  * PG_END_TRY();
2263  * return TCL_OK;
2264  *----------
2265  */
2266 static void
2268 {
2270 
2271  /* Want to run inside function's memory context */
2272  MemoryContextSwitchTo(oldcontext);
2273 }
2274 
2275 static void
2277 {
2278  /* Commit the inner transaction, return to outer xact context */
2280  MemoryContextSwitchTo(oldcontext);
2281  CurrentResourceOwner = oldowner;
2282 }
2283 
2284 static void
2285 pltcl_subtrans_abort(Tcl_Interp *interp,
2286  MemoryContext oldcontext, ResourceOwner oldowner)
2287 {
2288  ErrorData *edata;
2289 
2290  /* Save error info */
2291  MemoryContextSwitchTo(oldcontext);
2292  edata = CopyErrorData();
2293  FlushErrorState();
2294 
2295  /* Abort the inner transaction */
2297  MemoryContextSwitchTo(oldcontext);
2298  CurrentResourceOwner = oldowner;
2299 
2300  /* Pass the error data to Tcl */
2301  pltcl_construct_errorCode(interp, edata);
2302  UTF_BEGIN;
2303  Tcl_SetObjResult(interp, Tcl_NewStringObj(UTF_E2U(edata->message), -1));
2304  UTF_END;
2305  FreeErrorData(edata);
2306 }
2307 
2308 
2309 /**********************************************************************
2310  * pltcl_SPI_execute() - The builtin SPI_execute command
2311  * for the Tcl interpreter
2312  **********************************************************************/
2313 static int
2314 pltcl_SPI_execute(ClientData cdata, Tcl_Interp *interp,
2315  int objc, Tcl_Obj *const objv[])
2316 {
2317  int my_rc;
2318  int spi_rc;
2319  int query_idx;
2320  int i;
2321  int optIndex;
2322  int count = 0;
2323  const char *volatile arrayname = NULL;
2324  Tcl_Obj *volatile loop_body = NULL;
2325  MemoryContext oldcontext = CurrentMemoryContext;
2327 
2328  enum options
2329  {
2330  OPT_ARRAY, OPT_COUNT
2331  };
2332 
2333  static const char *options[] = {
2334  "-array", "-count", (const char *) NULL
2335  };
2336 
2337  /************************************************************
2338  * Check the call syntax and get the options
2339  ************************************************************/
2340  if (objc < 2)
2341  {
2342  Tcl_WrongNumArgs(interp, 1, objv,
2343  "?-count n? ?-array name? query ?loop body?");
2344  return TCL_ERROR;
2345  }
2346 
2347  i = 1;
2348  while (i < objc)
2349  {
2350  if (Tcl_GetIndexFromObj(NULL, objv[i], options, NULL,
2351  TCL_EXACT, &optIndex) != TCL_OK)
2352  break;
2353 
2354  if (++i >= objc)
2355  {
2356  Tcl_SetObjResult(interp,
2357  Tcl_NewStringObj("missing argument to -count or -array", -1));
2358  return TCL_ERROR;
2359  }
2360 
2361  switch ((enum options) optIndex)
2362  {
2363  case OPT_ARRAY:
2364  arrayname = Tcl_GetString(objv[i++]);
2365  break;
2366 
2367  case OPT_COUNT:
2368  if (Tcl_GetIntFromObj(interp, objv[i++], &count) != TCL_OK)
2369  return TCL_ERROR;
2370  break;
2371  }
2372  }
2373 
2374  query_idx = i;
2375  if (query_idx >= objc || query_idx + 2 < objc)
2376  {
2377  Tcl_WrongNumArgs(interp, query_idx - 1, objv, "query ?loop body?");
2378  return TCL_ERROR;
2379  }
2380 
2381  if (query_idx + 1 < objc)
2382  loop_body = objv[query_idx + 1];
2383 
2384  /************************************************************
2385  * Execute the query inside a sub-transaction, so we can cope with
2386  * errors sanely
2387  ************************************************************/
2388 
2389  pltcl_subtrans_begin(oldcontext, oldowner);
2390 
2391  PG_TRY();
2392  {
2393  UTF_BEGIN;
2394  spi_rc = SPI_execute(UTF_U2E(Tcl_GetString(objv[query_idx])),
2396  UTF_END;
2397 
2398  my_rc = pltcl_process_SPI_result(interp,
2399  arrayname,
2400  loop_body,
2401  spi_rc,
2402  SPI_tuptable,
2403  SPI_processed);
2404 
2405  pltcl_subtrans_commit(oldcontext, oldowner);
2406  }
2407  PG_CATCH();
2408  {
2409  pltcl_subtrans_abort(interp, oldcontext, oldowner);
2410  return TCL_ERROR;
2411  }
2412  PG_END_TRY();
2413 
2414  return my_rc;
2415 }
2416 
2417 /*
2418  * Process the result from SPI_execute or SPI_execute_plan
2419  *
2420  * Shared code between pltcl_SPI_execute and pltcl_SPI_execute_plan
2421  */
2422 static int
2423 pltcl_process_SPI_result(Tcl_Interp *interp,
2424  const char *arrayname,
2425  Tcl_Obj *loop_body,
2426  int spi_rc,
2427  SPITupleTable *tuptable,
2428  uint64 ntuples)
2429 {
2430  int my_rc = TCL_OK;
2431  int loop_rc;
2432  HeapTuple *tuples;
2433  TupleDesc tupdesc;
2434 
2435  switch (spi_rc)
2436  {
2437  case SPI_OK_SELINTO:
2438  case SPI_OK_INSERT:
2439  case SPI_OK_DELETE:
2440  case SPI_OK_UPDATE:
2441  case SPI_OK_MERGE:
2442  Tcl_SetObjResult(interp, Tcl_NewWideIntObj(ntuples));
2443  break;
2444 
2445  case SPI_OK_UTILITY:
2446  case SPI_OK_REWRITTEN:
2447  if (tuptable == NULL)
2448  {
2449  Tcl_SetObjResult(interp, Tcl_NewIntObj(0));
2450  break;
2451  }
2452  /* fall through for utility returning tuples */
2453  /* FALLTHROUGH */
2454 
2455  case SPI_OK_SELECT:
2459 
2460  /*
2461  * Process the tuples we got
2462  */
2463  tuples = tuptable->vals;
2464  tupdesc = tuptable->tupdesc;
2465 
2466  if (loop_body == NULL)
2467  {
2468  /*
2469  * If there is no loop body given, just set the variables from
2470  * the first tuple (if any)
2471  */
2472  if (ntuples > 0)
2473  pltcl_set_tuple_values(interp, arrayname, 0,
2474  tuples[0], tupdesc);
2475  }
2476  else
2477  {
2478  /*
2479  * There is a loop body - process all tuples and evaluate the
2480  * body on each
2481  */
2482  uint64 i;
2483 
2484  for (i = 0; i < ntuples; i++)
2485  {
2486  pltcl_set_tuple_values(interp, arrayname, i,
2487  tuples[i], tupdesc);
2488 
2489  loop_rc = Tcl_EvalObjEx(interp, loop_body, 0);
2490 
2491  if (loop_rc == TCL_OK)
2492  continue;
2493  if (loop_rc == TCL_CONTINUE)
2494  continue;
2495  if (loop_rc == TCL_RETURN)
2496  {
2497  my_rc = TCL_RETURN;
2498  break;
2499  }
2500  if (loop_rc == TCL_BREAK)
2501  break;
2502  my_rc = TCL_ERROR;
2503  break;
2504  }
2505  }
2506 
2507  if (my_rc == TCL_OK)
2508  {
2509  Tcl_SetObjResult(interp, Tcl_NewWideIntObj(ntuples));
2510  }
2511  break;
2512 
2513  default:
2514  Tcl_AppendResult(interp, "pltcl: SPI_execute failed: ",
2515  SPI_result_code_string(spi_rc), NULL);
2516  my_rc = TCL_ERROR;
2517  break;
2518  }
2519 
2520  SPI_freetuptable(tuptable);
2521 
2522  return my_rc;
2523 }
2524 
2525 
2526 /**********************************************************************
2527  * pltcl_SPI_prepare() - Builtin support for prepared plans
2528  * The Tcl command SPI_prepare
2529  * always saves the plan using
2530  * SPI_keepplan and returns a key for
2531  * access. There is no chance to prepare
2532  * and not save the plan currently.
2533  **********************************************************************/
2534 static int
2535 pltcl_SPI_prepare(ClientData cdata, Tcl_Interp *interp,
2536  int objc, Tcl_Obj *const objv[])
2537 {
2538  volatile MemoryContext plan_cxt = NULL;
2539  int nargs;
2540  Tcl_Obj **argsObj;
2541  pltcl_query_desc *qdesc;
2542  int i;
2543  Tcl_HashEntry *hashent;
2544  int hashnew;
2545  Tcl_HashTable *query_hash;
2546  MemoryContext oldcontext = CurrentMemoryContext;
2548 
2549  /************************************************************
2550  * Check the call syntax
2551  ************************************************************/
2552  if (objc != 3)
2553  {
2554  Tcl_WrongNumArgs(interp, 1, objv, "query argtypes");
2555  return TCL_ERROR;
2556  }
2557 
2558  /************************************************************
2559  * Split the argument type list
2560  ************************************************************/
2561  if (Tcl_ListObjGetElements(interp, objv[2], &nargs, &argsObj) != TCL_OK)
2562  return TCL_ERROR;
2563 
2564  /************************************************************
2565  * Allocate the new querydesc structure
2566  *
2567  * struct qdesc and subsidiary data all live in plan_cxt. Note that if the
2568  * function is recompiled for whatever reason, permanent memory leaks
2569  * occur. FIXME someday.
2570  ************************************************************/
2572  "PL/Tcl spi_prepare query",
2574  MemoryContextSwitchTo(plan_cxt);
2575  qdesc = (pltcl_query_desc *) palloc0(sizeof(pltcl_query_desc));
2576  snprintf(qdesc->qname, sizeof(qdesc->qname), "%p", qdesc);
2577  qdesc->nargs = nargs;
2578  qdesc->argtypes = (Oid *) palloc(nargs * sizeof(Oid));
2579  qdesc->arginfuncs = (FmgrInfo *) palloc(nargs * sizeof(FmgrInfo));
2580  qdesc->argtypioparams = (Oid *) palloc(nargs * sizeof(Oid));
2581  MemoryContextSwitchTo(oldcontext);
2582 
2583  /************************************************************
2584  * Execute the prepare inside a sub-transaction, so we can cope with
2585  * errors sanely
2586  ************************************************************/
2587 
2588  pltcl_subtrans_begin(oldcontext, oldowner);
2589 
2590  PG_TRY();
2591  {
2592  /************************************************************
2593  * Resolve argument type names and then look them up by oid
2594  * in the system cache, and remember the required information
2595  * for input conversion.
2596  ************************************************************/
2597  for (i = 0; i < nargs; i++)
2598  {
2599  Oid typId,
2600  typInput,
2601  typIOParam;
2602  int32 typmod;
2603 
2604  (void) parseTypeString(Tcl_GetString(argsObj[i]),
2605  &typId, &typmod, NULL);
2606 
2607  getTypeInputInfo(typId, &typInput, &typIOParam);
2608 
2609  qdesc->argtypes[i] = typId;
2610  fmgr_info_cxt(typInput, &(qdesc->arginfuncs[i]), plan_cxt);
2611  qdesc->argtypioparams[i] = typIOParam;
2612  }
2613 
2614  /************************************************************
2615  * Prepare the plan and check for errors
2616  ************************************************************/
2617  UTF_BEGIN;
2618  qdesc->plan = SPI_prepare(UTF_U2E(Tcl_GetString(objv[1])),
2619  nargs, qdesc->argtypes);
2620  UTF_END;
2621 
2622  if (qdesc->plan == NULL)
2623  elog(ERROR, "SPI_prepare() failed");
2624 
2625  /************************************************************
2626  * Save the plan into permanent memory (right now it's in the
2627  * SPI procCxt, which will go away at function end).
2628  ************************************************************/
2629  if (SPI_keepplan(qdesc->plan))
2630  elog(ERROR, "SPI_keepplan() failed");
2631 
2632  pltcl_subtrans_commit(oldcontext, oldowner);
2633  }
2634  PG_CATCH();
2635  {
2636  pltcl_subtrans_abort(interp, oldcontext, oldowner);
2637 
2638  MemoryContextDelete(plan_cxt);
2639 
2640  return TCL_ERROR;
2641  }
2642  PG_END_TRY();
2643 
2644  /************************************************************
2645  * Insert a hashtable entry for the plan and return
2646  * the key to the caller
2647  ************************************************************/
2649 
2650  hashent = Tcl_CreateHashEntry(query_hash, qdesc->qname, &hashnew);
2651  Tcl_SetHashValue(hashent, (ClientData) qdesc);
2652 
2653  /* qname is ASCII, so no need for encoding conversion */
2654  Tcl_SetObjResult(interp, Tcl_NewStringObj(qdesc->qname, -1));
2655  return TCL_OK;
2656 }
2657 
2658 
2659 /**********************************************************************
2660  * pltcl_SPI_execute_plan() - Execute a prepared plan
2661  **********************************************************************/
2662 static int
2663 pltcl_SPI_execute_plan(ClientData cdata, Tcl_Interp *interp,
2664  int objc, Tcl_Obj *const objv[])
2665 {
2666  int my_rc;
2667  int spi_rc;
2668  int i;
2669  int j;
2670  int optIndex;
2671  Tcl_HashEntry *hashent;
2672  pltcl_query_desc *qdesc;
2673  const char *nulls = NULL;
2674  const char *arrayname = NULL;
2675  Tcl_Obj *loop_body = NULL;
2676  int count = 0;
2677  int callObjc;
2678  Tcl_Obj **callObjv = NULL;
2679  Datum *argvalues;
2680  MemoryContext oldcontext = CurrentMemoryContext;
2682  Tcl_HashTable *query_hash;
2683 
2684  enum options
2685  {
2686  OPT_ARRAY, OPT_COUNT, OPT_NULLS
2687  };
2688 
2689  static const char *options[] = {
2690  "-array", "-count", "-nulls", (const char *) NULL
2691  };
2692 
2693  /************************************************************
2694  * Get the options and check syntax
2695  ************************************************************/
2696  i = 1;
2697  while (i < objc)
2698  {
2699  if (Tcl_GetIndexFromObj(NULL, objv[i], options, NULL,
2700  TCL_EXACT, &optIndex) != TCL_OK)
2701  break;
2702 
2703  if (++i >= objc)
2704  {
2705  Tcl_SetObjResult(interp,
2706  Tcl_NewStringObj("missing argument to -array, -count or -nulls", -1));
2707  return TCL_ERROR;
2708  }
2709 
2710  switch ((enum options) optIndex)
2711  {
2712  case OPT_ARRAY:
2713  arrayname = Tcl_GetString(objv[i++]);
2714  break;
2715 
2716  case OPT_COUNT:
2717  if (Tcl_GetIntFromObj(interp, objv[i++], &count) != TCL_OK)
2718  return TCL_ERROR;
2719  break;
2720 
2721  case OPT_NULLS:
2722  nulls = Tcl_GetString(objv[i++]);
2723  break;
2724  }
2725  }
2726 
2727  /************************************************************
2728  * Get the prepared plan descriptor by its key
2729  ************************************************************/
2730  if (i >= objc)
2731  {
2732  Tcl_SetObjResult(interp,
2733  Tcl_NewStringObj("missing argument to -count or -array", -1));
2734  return TCL_ERROR;
2735  }
2736 
2738 
2739  hashent = Tcl_FindHashEntry(query_hash, Tcl_GetString(objv[i]));
2740  if (hashent == NULL)
2741  {
2742  Tcl_AppendResult(interp, "invalid queryid '", Tcl_GetString(objv[i]), "'", NULL);
2743  return TCL_ERROR;
2744  }
2745  qdesc = (pltcl_query_desc *) Tcl_GetHashValue(hashent);
2746  i++;
2747 
2748  /************************************************************
2749  * If a nulls string is given, check for correct length
2750  ************************************************************/
2751  if (nulls != NULL)
2752  {
2753  if (strlen(nulls) != qdesc->nargs)
2754  {
2755  Tcl_SetObjResult(interp,
2756  Tcl_NewStringObj("length of nulls string doesn't match number of arguments",
2757  -1));
2758  return TCL_ERROR;
2759  }
2760  }
2761 
2762  /************************************************************
2763  * If there was an argtype list on preparation, we need
2764  * an argument value list now
2765  ************************************************************/
2766  if (qdesc->nargs > 0)
2767  {
2768  if (i >= objc)
2769  {
2770  Tcl_SetObjResult(interp,
2771  Tcl_NewStringObj("argument list length doesn't match number of arguments for query",
2772  -1));
2773  return TCL_ERROR;
2774  }
2775 
2776  /************************************************************
2777  * Split the argument values
2778  ************************************************************/
2779  if (Tcl_ListObjGetElements(interp, objv[i++], &callObjc, &callObjv) != TCL_OK)
2780  return TCL_ERROR;
2781 
2782  /************************************************************
2783  * Check that the number of arguments matches
2784  ************************************************************/
2785  if (callObjc != qdesc->nargs)
2786  {
2787  Tcl_SetObjResult(interp,
2788  Tcl_NewStringObj("argument list length doesn't match number of arguments for query",
2789  -1));
2790  return TCL_ERROR;
2791  }
2792  }
2793  else
2794  callObjc = 0;
2795 
2796  /************************************************************
2797  * Get loop body if present
2798  ************************************************************/
2799  if (i < objc)
2800  loop_body = objv[i++];
2801 
2802  if (i != objc)
2803  {
2804  Tcl_WrongNumArgs(interp, 1, objv,
2805  "?-count n? ?-array name? ?-nulls string? "
2806  "query ?args? ?loop body?");
2807  return TCL_ERROR;
2808  }
2809 
2810  /************************************************************
2811  * Execute the plan inside a sub-transaction, so we can cope with
2812  * errors sanely
2813  ************************************************************/
2814 
2815  pltcl_subtrans_begin(oldcontext, oldowner);
2816 
2817  PG_TRY();
2818  {
2819  /************************************************************
2820  * Setup the value array for SPI_execute_plan() using
2821  * the type specific input functions
2822  ************************************************************/
2823  argvalues = (Datum *) palloc(callObjc * sizeof(Datum));
2824 
2825  for (j = 0; j < callObjc; j++)
2826  {
2827  if (nulls && nulls[j] == 'n')
2828  {
2829  argvalues[j] = InputFunctionCall(&qdesc->arginfuncs[j],
2830  NULL,
2831  qdesc->argtypioparams[j],
2832  -1);
2833  }
2834  else
2835  {
2836  UTF_BEGIN;
2837  argvalues[j] = InputFunctionCall(&qdesc->arginfuncs[j],
2838  UTF_U2E(Tcl_GetString(callObjv[j])),
2839  qdesc->argtypioparams[j],
2840  -1);
2841  UTF_END;
2842  }
2843  }
2844 
2845  /************************************************************
2846  * Execute the plan
2847  ************************************************************/
2848  spi_rc = SPI_execute_plan(qdesc->plan, argvalues, nulls,
2850  count);
2851 
2852  my_rc = pltcl_process_SPI_result(interp,
2853  arrayname,
2854  loop_body,
2855  spi_rc,
2856  SPI_tuptable,
2857  SPI_processed);
2858 
2859  pltcl_subtrans_commit(oldcontext, oldowner);
2860  }
2861  PG_CATCH();
2862  {
2863  pltcl_subtrans_abort(interp, oldcontext, oldowner);
2864  return TCL_ERROR;
2865  }
2866  PG_END_TRY();
2867 
2868  return my_rc;
2869 }
2870 
2871 
2872 /**********************************************************************
2873  * pltcl_subtransaction() - Execute some Tcl code in a subtransaction
2874  *
2875  * The subtransaction is aborted if the Tcl code fragment returns TCL_ERROR,
2876  * otherwise it's subcommitted.
2877  **********************************************************************/
2878 static int
2879 pltcl_subtransaction(ClientData cdata, Tcl_Interp *interp,
2880  int objc, Tcl_Obj *const objv[])
2881 {
2882  MemoryContext oldcontext = CurrentMemoryContext;
2884  int retcode;
2885 
2886  if (objc != 2)
2887  {
2888  Tcl_WrongNumArgs(interp, 1, objv, "command");
2889  return TCL_ERROR;
2890  }
2891 
2892  /*
2893  * Note: we don't use pltcl_subtrans_begin and friends here because we
2894  * don't want the error handling in pltcl_subtrans_abort. But otherwise
2895  * the processing should be about the same as in those functions.
2896  */
2898  MemoryContextSwitchTo(oldcontext);
2899 
2900  retcode = Tcl_EvalObjEx(interp, objv[1], 0);
2901 
2902  if (retcode == TCL_ERROR)
2903  {
2904  /* Rollback the subtransaction */
2906  }
2907  else
2908  {
2909  /* Commit the subtransaction */
2911  }
2912 
2913  /* In either case, restore previous memory context and resource owner */
2914  MemoryContextSwitchTo(oldcontext);
2915  CurrentResourceOwner = oldowner;
2916 
2917  return retcode;
2918 }
2919 
2920 
2921 /**********************************************************************
2922  * pltcl_commit()
2923  *
2924  * Commit the transaction and start a new one.
2925  **********************************************************************/
2926 static int
2927 pltcl_commit(ClientData cdata, Tcl_Interp *interp,
2928  int objc, Tcl_Obj *const objv[])
2929 {
2930  MemoryContext oldcontext = CurrentMemoryContext;
2931 
2932  PG_TRY();
2933  {
2934  SPI_commit();
2935  }
2936  PG_CATCH();
2937  {
2938  ErrorData *edata;
2939 
2940  /* Save error info */
2941  MemoryContextSwitchTo(oldcontext);
2942  edata = CopyErrorData();
2943  FlushErrorState();
2944 
2945  /* Pass the error data to Tcl */
2946  pltcl_construct_errorCode(interp, edata);
2947  UTF_BEGIN;
2948  Tcl_SetObjResult(interp, Tcl_NewStringObj(UTF_E2U(edata->message), -1));
2949  UTF_END;
2950  FreeErrorData(edata);
2951 
2952  return TCL_ERROR;
2953  }
2954  PG_END_TRY();
2955 
2956  return TCL_OK;
2957 }
2958 
2959 
2960 /**********************************************************************
2961  * pltcl_rollback()
2962  *
2963  * Abort the transaction and start a new one.
2964  **********************************************************************/
2965 static int
2966 pltcl_rollback(ClientData cdata, Tcl_Interp *interp,
2967  int objc, Tcl_Obj *const objv[])
2968 {
2969  MemoryContext oldcontext = CurrentMemoryContext;
2970 
2971  PG_TRY();
2972  {
2973  SPI_rollback();
2974  }
2975  PG_CATCH();
2976  {
2977  ErrorData *edata;
2978 
2979  /* Save error info */
2980  MemoryContextSwitchTo(oldcontext);
2981  edata = CopyErrorData();
2982  FlushErrorState();
2983 
2984  /* Pass the error data to Tcl */
2985  pltcl_construct_errorCode(interp, edata);
2986  UTF_BEGIN;
2987  Tcl_SetObjResult(interp, Tcl_NewStringObj(UTF_E2U(edata->message), -1));
2988  UTF_END;
2989  FreeErrorData(edata);
2990 
2991  return TCL_ERROR;
2992  }
2993  PG_END_TRY();
2994 
2995  return TCL_OK;
2996 }
2997 
2998 
2999 /**********************************************************************
3000  * pltcl_set_tuple_values() - Set variables for all attributes
3001  * of a given tuple
3002  *
3003  * Note: arrayname is presumed to be UTF8; it usually came from Tcl
3004  **********************************************************************/
3005 static void
3006 pltcl_set_tuple_values(Tcl_Interp *interp, const char *arrayname,
3007  uint64 tupno, HeapTuple tuple, TupleDesc tupdesc)
3008 {
3009  int i;
3010  char *outputstr;
3011  Datum attr;
3012  bool isnull;
3013  const char *attname;
3014  Oid typoutput;
3015  bool typisvarlena;
3016  const char **arrptr;
3017  const char **nameptr;
3018  const char *nullname = NULL;
3019 
3020  /************************************************************
3021  * Prepare pointers for Tcl_SetVar2Ex() below
3022  ************************************************************/
3023  if (arrayname == NULL)
3024  {
3025  arrptr = &attname;
3026  nameptr = &nullname;
3027  }
3028  else
3029  {
3030  arrptr = &arrayname;
3031  nameptr = &attname;
3032 
3033  /*
3034  * When outputting to an array, fill the ".tupno" element with the
3035  * current tuple number. This will be overridden below if ".tupno" is
3036  * in use as an actual field name in the rowtype.
3037  */
3038  Tcl_SetVar2Ex(interp, arrayname, ".tupno", Tcl_NewWideIntObj(tupno), 0);
3039  }
3040 
3041  for (i = 0; i < tupdesc->natts; i++)
3042  {
3043  Form_pg_attribute att = TupleDescAttr(tupdesc, i);
3044 
3045  /* ignore dropped attributes */
3046  if (att->attisdropped)
3047  continue;
3048 
3049  /************************************************************
3050  * Get the attribute name
3051  ************************************************************/
3052  UTF_BEGIN;
3053  attname = pstrdup(UTF_E2U(NameStr(att->attname)));
3054  UTF_END;
3055 
3056  /************************************************************
3057  * Get the attributes value
3058  ************************************************************/
3059  attr = heap_getattr(tuple, i + 1, tupdesc, &isnull);
3060 
3061  /************************************************************
3062  * If there is a value, set the variable
3063  * If not, unset it
3064  *
3065  * Hmmm - Null attributes will cause functions to
3066  * crash if they don't expect them - need something
3067  * smarter here.
3068  ************************************************************/
3069  if (!isnull)
3070  {
3071  getTypeOutputInfo(att->atttypid, &typoutput, &typisvarlena);
3072  outputstr = OidOutputFunctionCall(typoutput, attr);
3073  UTF_BEGIN;
3074  Tcl_SetVar2Ex(interp, *arrptr, *nameptr,
3075  Tcl_NewStringObj(UTF_E2U(outputstr), -1), 0);
3076  UTF_END;
3077  pfree(outputstr);
3078  }
3079  else
3080  Tcl_UnsetVar2(interp, *arrptr, *nameptr, 0);
3081 
3082  pfree(unconstify(char *, attname));
3083  }
3084 }
3085 
3086 
3087 /**********************************************************************
3088  * pltcl_build_tuple_argument() - Build a list object usable for 'array set'
3089  * from all attributes of a given tuple
3090  **********************************************************************/
3091 static Tcl_Obj *
3092 pltcl_build_tuple_argument(HeapTuple tuple, TupleDesc tupdesc, bool include_generated)
3093 {
3094  Tcl_Obj *retobj = Tcl_NewObj();
3095  int i;
3096  char *outputstr;
3097  Datum attr;
3098  bool isnull;
3099  char *attname;
3100  Oid typoutput;
3101  bool typisvarlena;
3102 
3103  for (i = 0; i < tupdesc->natts; i++)
3104  {
3105  Form_pg_attribute att = TupleDescAttr(tupdesc, i);
3106 
3107  /* ignore dropped attributes */
3108  if (att->attisdropped)
3109  continue;
3110 
3111  if (att->attgenerated)
3112  {
3113  /* don't include unless requested */
3114  if (!include_generated)
3115  continue;
3116  }
3117 
3118  /************************************************************
3119  * Get the attribute name
3120  ************************************************************/
3121  attname = NameStr(att->attname);
3122 
3123  /************************************************************
3124  * Get the attributes value
3125  ************************************************************/
3126  attr = heap_getattr(tuple, i + 1, tupdesc, &isnull);
3127 
3128  /************************************************************
3129  * If there is a value, append the attribute name and the
3130  * value to the list
3131  *
3132  * Hmmm - Null attributes will cause functions to
3133  * crash if they don't expect them - need something
3134  * smarter here.
3135  ************************************************************/
3136  if (!isnull)
3137  {
3138  getTypeOutputInfo(att->atttypid,
3139  &typoutput, &typisvarlena);
3140  outputstr = OidOutputFunctionCall(typoutput, attr);
3141  UTF_BEGIN;
3142  Tcl_ListObjAppendElement(NULL, retobj,
3143  Tcl_NewStringObj(UTF_E2U(attname), -1));
3144  UTF_END;
3145  UTF_BEGIN;
3146  Tcl_ListObjAppendElement(NULL, retobj,
3147  Tcl_NewStringObj(UTF_E2U(outputstr), -1));
3148  UTF_END;
3149  pfree(outputstr);
3150  }
3151  }
3152 
3153  return retobj;
3154 }
3155 
3156 /**********************************************************************
3157  * pltcl_build_tuple_result() - Build a tuple of function's result rowtype
3158  * from a Tcl list of column names and values
3159  *
3160  * In a trigger function, we build a tuple of the trigger table's rowtype.
3161  *
3162  * Note: this function leaks memory. Even if we made it clean up its own
3163  * mess, there's no way to prevent the datatype input functions it calls
3164  * from leaking. Run it in a short-lived context, unless we're about to
3165  * exit the procedure anyway.
3166  **********************************************************************/
3167 static HeapTuple
3168 pltcl_build_tuple_result(Tcl_Interp *interp, Tcl_Obj **kvObjv, int kvObjc,
3169  pltcl_call_state *call_state)
3170 {
3171  HeapTuple tuple;
3172  TupleDesc tupdesc;
3173  AttInMetadata *attinmeta;
3174  char **values;
3175  int i;
3176 
3177  if (call_state->ret_tupdesc)
3178  {
3179  tupdesc = call_state->ret_tupdesc;
3180  attinmeta = call_state->attinmeta;
3181  }
3182  else if (call_state->trigdata)
3183  {
3184  tupdesc = RelationGetDescr(call_state->trigdata->tg_relation);
3185  attinmeta = TupleDescGetAttInMetadata(tupdesc);
3186  }
3187  else
3188  {
3189  elog(ERROR, "PL/Tcl function does not return a tuple");
3190  tupdesc = NULL; /* keep compiler quiet */
3191  attinmeta = NULL;
3192  }
3193 
3194  values = (char **) palloc0(tupdesc->natts * sizeof(char *));
3195 
3196  if (kvObjc % 2 != 0)
3197  ereport(ERROR,
3198  (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
3199  errmsg("column name/value list must have even number of elements")));
3200 
3201  for (i = 0; i < kvObjc; i += 2)
3202  {
3203  char *fieldName = utf_u2e(Tcl_GetString(kvObjv[i]));
3204  int attn = SPI_fnumber(tupdesc, fieldName);
3205 
3206  /*
3207  * We silently ignore ".tupno", if it's present but doesn't match any
3208  * actual output column. This allows direct use of a row returned by
3209  * pltcl_set_tuple_values().
3210  */
3211  if (attn == SPI_ERROR_NOATTRIBUTE)
3212  {
3213  if (strcmp(fieldName, ".tupno") == 0)
3214  continue;
3215  ereport(ERROR,
3216  (errcode(ERRCODE_UNDEFINED_COLUMN),
3217  errmsg("column name/value list contains nonexistent column name \"%s\"",
3218  fieldName)));
3219  }
3220 
3221  if (attn <= 0)
3222  ereport(ERROR,
3223  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
3224  errmsg("cannot set system attribute \"%s\"",
3225  fieldName)));
3226 
3227  if (TupleDescAttr(tupdesc, attn - 1)->attgenerated)
3228  ereport(ERROR,
3229  (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED),
3230  errmsg("cannot set generated column \"%s\"",
3231  fieldName)));
3232 
3233  values[attn - 1] = utf_u2e(Tcl_GetString(kvObjv[i + 1]));
3234  }
3235 
3236  tuple = BuildTupleFromCStrings(attinmeta, values);
3237 
3238  /* if result type is domain-over-composite, check domain constraints */
3239  if (call_state->prodesc->fn_retisdomain)
3240  domain_check(HeapTupleGetDatum(tuple), false,
3241  call_state->prodesc->result_typid,
3242  &call_state->prodesc->domain_info,
3243  call_state->prodesc->fn_cxt);
3244 
3245  return tuple;
3246 }
3247 
3248 /**********************************************************************
3249  * pltcl_init_tuple_store() - Initialize the result tuplestore for a SRF
3250  **********************************************************************/
3251 static void
3253 {
3254  ReturnSetInfo *rsi = call_state->rsi;
3255  MemoryContext oldcxt;
3256  ResourceOwner oldowner;
3257 
3258  /* Should be in a SRF */
3259  Assert(rsi);
3260  /* Should be first time through */
3261  Assert(!call_state->tuple_store);
3262  Assert(!call_state->attinmeta);
3263 
3264  /* We expect caller to provide an appropriate result tupdesc */
3265  Assert(rsi->expectedDesc);
3266  call_state->ret_tupdesc = rsi->expectedDesc;
3267 
3268  /*
3269  * Switch to the right memory context and resource owner for storing the
3270  * tuplestore. If we're within a subtransaction opened for an exception
3271  * block, for example, we must still create the tuplestore in the resource
3272  * owner that was active when this function was entered, and not in the
3273  * subtransaction's resource owner.
3274  */
3275  oldcxt = MemoryContextSwitchTo(call_state->tuple_store_cxt);
3276  oldowner = CurrentResourceOwner;
3278 
3279  call_state->tuple_store =
3281  false, work_mem);
3282 
3283  /* Build attinmeta in this context, too */
3284  call_state->attinmeta = TupleDescGetAttInMetadata(call_state->ret_tupdesc);
3285 
3286  CurrentResourceOwner = oldowner;
3287  MemoryContextSwitchTo(oldcxt);
3288 }
AclResult
Definition: acl.h:181
@ ACLCHECK_OK
Definition: acl.h:182
void aclcheck_error(AclResult aclerr, ObjectType objtype, const char *objectname)
Definition: aclchk.c:2669
AclResult object_aclcheck(Oid classid, Oid objectid, Oid roleid, AclMode mode)
Definition: aclchk.c:3760
static Datum values[MAXATTR]
Definition: bootstrap.c:156
#define TextDatumGetCString(d)
Definition: builtins.h:95
#define NameStr(name)
Definition: c.h:735
#define unconstify(underlying_type, expr)
Definition: c.h:1255
signed int int32
Definition: c.h:483
#define gettext_noop(x)
Definition: c.h:1209
#define PG_USED_FOR_ASSERTS_ONLY
Definition: c.h:171
uint32 TransactionId
Definition: c.h:641
#define OidIsValid(objectId)
Definition: c.h:764
const char * GetCommandTagName(CommandTag commandTag)
Definition: cmdtag.c:48
void domain_check(Datum value, bool isnull, Oid domainType, void **extra, MemoryContext mcxt)
Definition: domains.c:343
void * hash_search(HTAB *hashp, const void *keyPtr, HASHACTION action, bool *foundPtr)
Definition: dynahash.c:953
HTAB * hash_create(const char *tabname, long nelem, const HASHCTL *info, int flags)
Definition: dynahash.c:350
void FreeErrorData(ErrorData *edata)
Definition: elog.c:1776
ErrorContextCallback * error_context_stack
Definition: elog.c:95
void FlushErrorState(void)
Definition: elog.c:1825
char * unpack_sql_state(int sql_state)
Definition: elog.c:3124
int errcode(int sqlerrcode)
Definition: elog.c:858
int errmsg(const char *fmt,...)
Definition: elog.c:1069
ErrorData * CopyErrorData(void)
Definition: elog.c:1720
#define LOG
Definition: elog.h:31
#define PG_RE_THROW()
Definition: elog.h:411
#define errcontext
Definition: elog.h:196
#define FATAL
Definition: elog.h:41
#define PG_TRY(...)
Definition: elog.h:370
#define WARNING
Definition: elog.h:36
#define DEBUG2
Definition: elog.h:29
#define PG_END_TRY(...)
Definition: elog.h:395
#define ERROR
Definition: elog.h:39
#define PG_CATCH(...)
Definition: elog.h:380
#define NOTICE
Definition: elog.h:35
#define PG_FINALLY(...)
Definition: elog.h:387
#define INFO
Definition: elog.h:34
#define ereport(elevel,...)
Definition: elog.h:149
#define CALLED_AS_EVENT_TRIGGER(fcinfo)
Definition: event_trigger.h:43
HeapTuple BuildTupleFromCStrings(AttInMetadata *attinmeta, char **values)
Definition: execTuples.c:2136
AttInMetadata * TupleDescGetAttInMetadata(TupleDesc tupdesc)
Definition: execTuples.c:2087
@ SFRM_Materialize_Random
Definition: execnodes.h:312
@ SFRM_Materialize
Definition: execnodes.h:311
Datum InputFunctionCall(FmgrInfo *flinfo, char *str, Oid typioparam, int32 typmod)
Definition: fmgr.c:1513
void fmgr_info(Oid functionId, FmgrInfo *finfo)
Definition: fmgr.c:127
void fmgr_info_cxt(Oid functionId, FmgrInfo *finfo, MemoryContext mcxt)
Definition: fmgr.c:137
char * OidOutputFunctionCall(Oid functionId, Datum val)
Definition: fmgr.c:1746
char * OutputFunctionCall(FmgrInfo *flinfo, Datum val)
Definition: fmgr.c:1666
#define DatumGetHeapTupleHeader(X)
Definition: fmgr.h:295
#define InitFunctionCallInfoData(Fcinfo, Flinfo, Nargs, Collation, Context, Resultinfo)
Definition: fmgr.h:150
#define PG_ARGISNULL(n)
Definition: fmgr.h:209
#define DirectFunctionCall1(func, arg1)
Definition: fmgr.h:642
#define LOCAL_FCINFO(name, nargs)
Definition: fmgr.h:110
#define FunctionCallInvoke(fcinfo)
Definition: fmgr.h:172
#define PG_FUNCTION_ARGS
Definition: fmgr.h:193
char * format_type_be(Oid type_oid)
Definition: format_type.c:343
TypeFuncClass get_call_result_type(FunctionCallInfo fcinfo, Oid *resultTypeId, TupleDesc *resultTupleDesc)
Definition: funcapi.c:276
@ TYPEFUNC_COMPOSITE
Definition: funcapi.h:149
@ TYPEFUNC_RECORD
Definition: funcapi.h:151
@ TYPEFUNC_COMPOSITE_DOMAIN
Definition: funcapi.h:150
static Datum HeapTupleGetDatum(const HeapTupleData *tuple)
Definition: funcapi.h:230
int work_mem
Definition: globals.c:125
void DefineCustomStringVariable(const char *name, const char *short_desc, const char *long_desc, char **valueAddr, const char *bootValue, GucContext context, int flags, GucStringCheckHook check_hook, GucStringAssignHook assign_hook, GucShowHook show_hook)
Definition: guc.c:5044
void MarkGUCPrefixReserved(const char *className)
Definition: guc.c:5105
@ PGC_SUSET
Definition: guc.h:74
@ HASH_ENTER
Definition: hsearch.h:114
#define HASH_ELEM
Definition: hsearch.h:95
#define HASH_BLOBS
Definition: hsearch.h:97
HeapTupleData * HeapTuple
Definition: htup.h:71
#define HeapTupleIsValid(tuple)
Definition: htup.h:78
static Datum heap_getattr(HeapTuple tup, int attnum, TupleDesc tupleDesc, bool *isnull)
Definition: htup_details.h:792
#define HeapTupleHeaderGetTypMod(tup)
Definition: htup_details.h:466
#define HeapTupleHeaderGetTypeId(tup)
Definition: htup_details.h:456
#define HeapTupleHeaderGetDatumLength(tup)
Definition: htup_details.h:450
#define HeapTupleHeaderGetRawXmin(tup)
Definition: htup_details.h:304
#define GETSTRUCT(TUP)
Definition: htup_details.h:653
int j
Definition: isn.c:74
int i
Definition: isn.c:73
if(TABLE==NULL||TABLE_index==NULL)
Definition: isn.c:77
bool ItemPointerEquals(ItemPointer pointer1, ItemPointer pointer2)
Definition: itemptr.c:35
Assert(fmt[strlen(fmt) - 1] !='\n')
bool type_is_rowtype(Oid typid)
Definition: lsyscache.c:2637
void getTypeOutputInfo(Oid type, Oid *typOutput, bool *typIsVarlena)
Definition: lsyscache.c:2889
void getTypeInputInfo(Oid type, Oid *typInput, Oid *typIOParam)
Definition: lsyscache.c:2856
Oid getTypeIOParam(HeapTuple typeTuple)
Definition: lsyscache.c:2285
char * pg_any_to_server(const char *s, int len, int encoding)
Definition: mbutils.c:677
char * pg_server_to_any(const char *s, int len, int encoding)
Definition: mbutils.c:750
char * pstrdup(const char *in)
Definition: mcxt.c:1644
void pfree(void *pointer)
Definition: mcxt.c:1456
MemoryContext TopMemoryContext
Definition: mcxt.c:141
void * palloc0(Size size)
Definition: mcxt.c:1257
MemoryContext CurrentMemoryContext
Definition: mcxt.c:135
void MemoryContextDelete(MemoryContext context)
Definition: mcxt.c:403
void * palloc(Size size)
Definition: mcxt.c:1226
void MemoryContextSetIdentifier(MemoryContext context, const char *id)
Definition: mcxt.c:521
#define AllocSetContextCreate
Definition: memutils.h:129
#define ALLOCSET_SMALL_SIZES
Definition: memutils.h:163
Oid GetUserId(void)
Definition: miscinit.c:509
void pg_bindtextdomain(const char *domain)
Definition: miscinit.c:1866
#define IsA(nodeptr, _type_)
Definition: nodes.h:179
#define castNode(_type_, nodeptr)
Definition: nodes.h:197
#define InvokeFunctionExecuteHook(objectId)
Definition: objectaccess.h:213
Datum oidout(PG_FUNCTION_ARGS)
Definition: oid.c:46
static MemoryContext MemoryContextSwitchTo(MemoryContext context)
Definition: palloc.h:138
Oid LookupFuncName(List *funcname, int nargs, const Oid *argtypes, bool missing_ok)
Definition: parse_func.c:2143
bool parseTypeString(const char *str, Oid *typeid_p, int32 *typmod_p, Node *escontext)
Definition: parse_type.c:785
@ OBJECT_FUNCTION
Definition: parsenodes.h:2139
#define ACL_EXECUTE
Definition: parsenodes.h:90
NameData attname
Definition: pg_attribute.h:41
FormData_pg_attribute * Form_pg_attribute
Definition: pg_attribute.h:209
void * arg
static PgChecksumMode mode
Definition: pg_checksums.c:56
#define FUNC_MAX_ARGS
FormData_pg_proc * Form_pg_proc
Definition: pg_proc.h:136
NameData proname
Definition: pg_proc.h:35
static char * buf
Definition: pg_test_fsync.c:67
FormData_pg_type * Form_pg_type
Definition: pg_type.h:261
@ PG_UTF8
Definition: pg_wchar.h:232
void pgstat_init_function_usage(FunctionCallInfo fcinfo, PgStat_FunctionCallUsage *fcu)
void pgstat_end_function_usage(PgStat_FunctionCallUsage *fcu, bool finalize)
static HeapTuple pltcl_trigger_handler(PG_FUNCTION_ARGS, pltcl_call_state *call_state, bool pltrusted)
Definition: pltcl.c:1049
PG_FUNCTION_INFO_V1(pltcl_call_handler)
static void pltcl_ServiceModeHook(int mode)
Definition: pltcl.c:380
static const char * pltcl_get_condition_name(int sqlstate)
Definition: pltcl.c:1980
static HTAB * pltcl_proc_htab
Definition: pltcl.c:242
static void pltcl_AlertNotifier(ClientData clientData)
Definition: pltcl.c:364
void _PG_init(void)
Definition: pltcl.c:400
#define UTF_E2U(x)
Definition: pltcl.c:99
static int pltcl_WaitForEvent(CONST86 Tcl_Time *timePtr)
Definition: pltcl.c:385
static void pltcl_init_tuple_store(pltcl_call_state *call_state)
Definition: pltcl.c:3252
static Tcl_Obj * pltcl_build_tuple_argument(HeapTuple tuple, TupleDesc tupdesc, bool include_generated)
Definition: pltcl.c:3092
static pltcl_proc_desc * compile_pltcl_function(Oid fn_oid, Oid tgreloid, bool is_event_trigger, bool pltrusted)
Definition: pltcl.c:1389
static void call_pltcl_start_proc(Oid prolang, bool pltrusted)
Definition: pltcl.c:589
PG_MODULE_MAGIC
Definition: pltcl.c:43
static int pltcl_returnnext(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2144
static void pltcl_SetTimer(CONST86 Tcl_Time *timePtr)
Definition: pltcl.c:359
static int pltcl_SPI_execute(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2314
#define CONST86
Definition: pltcl.c:56
static int pltcl_process_SPI_result(Tcl_Interp *interp, const char *arrayname, Tcl_Obj *loop_body, int spi_rc, SPITupleTable *tuptable, uint64 ntuples)
Definition: pltcl.c:2423
static int pltcl_elog(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:1748
static void pltcl_subtrans_abort(Tcl_Interp *interp, MemoryContext oldcontext, ResourceOwner oldowner)
Definition: pltcl.c:2285
static void pltcl_DeleteFileHandler(int fd)
Definition: pltcl.c:375
static char * utf_e2u(const char *src)
Definition: pltcl.c:81
static int pltcl_quote(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:1998
struct pltcl_proc_desc pltcl_proc_desc
static void pltcl_FinalizeNotifier(ClientData clientData)
Definition: pltcl.c:354
#define UTF_END
Definition: pltcl.c:91
static void throw_tcl_error(Tcl_Interp *interp, const char *proname)
Definition: pltcl.c:1360
static void pltcl_CreateFileHandler(int fd, int mask, Tcl_FileProc *proc, ClientData clientData)
Definition: pltcl.c:369
static int pltcl_SPI_prepare(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2535
#define UTF_BEGIN
Definition: pltcl.c:86
static char * pltcl_start_proc
Definition: pltcl.c:237
static Datum pltcl_handler(PG_FUNCTION_ARGS, bool pltrusted)
Definition: pltcl.c:719
static HTAB * pltcl_interp_htab
Definition: pltcl.c:241
struct pltcl_proc_key pltcl_proc_key
#define TEXTDOMAIN
Definition: pltcl.c:61
static pltcl_interp_desc * pltcl_fetch_interp(Oid prolang, bool pltrusted)
Definition: pltcl.c:559
struct pltcl_interp_desc pltcl_interp_desc
static pltcl_call_state * pltcl_current_call_state
Definition: pltcl.c:245
static void pltcl_init_interp(pltcl_interp_desc *interp_desc, Oid prolang, bool pltrusted)
Definition: pltcl.c:486
static void pltcl_construct_errorCode(Tcl_Interp *interp, ErrorData *edata)
Definition: pltcl.c:1835
static char * pltclu_start_proc
Definition: pltcl.c:238
static void pltcl_event_trigger_handler(PG_FUNCTION_ARGS, pltcl_call_state *call_state, bool pltrusted)
Definition: pltcl.c:1309
static ClientData pltcl_InitNotifier(void)
Definition: pltcl.c:346
struct pltcl_query_desc pltcl_query_desc
static const TclExceptionNameMap exception_name_map[]
Definition: pltcl.c:256
#define UTF_U2E(x)
Definition: pltcl.c:96
static int pltcl_rollback(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2966
static void pltcl_set_tuple_values(Tcl_Interp *interp, const char *arrayname, uint64 tupno, HeapTuple tuple, TupleDesc tupdesc)
Definition: pltcl.c:3006
Datum pltclu_call_handler(PG_FUNCTION_ARGS)
Definition: pltcl.c:708
static void start_proc_error_callback(void *arg)
Definition: pltcl.c:676
static int pltcl_argisnull(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2052
static int pltcl_returnnull(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2106
static void pltcl_subtrans_begin(MemoryContext oldcontext, ResourceOwner oldowner)
Definition: pltcl.c:2267
static Datum pltcl_func_handler(PG_FUNCTION_ARGS, pltcl_call_state *call_state, bool pltrusted)
Definition: pltcl.c:793
static Tcl_Interp * pltcl_hold_interp
Definition: pltcl.c:240
static int pltcl_SPI_execute_plan(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2663
struct pltcl_call_state pltcl_call_state
static void pltcl_subtrans_commit(MemoryContext oldcontext, ResourceOwner oldowner)
Definition: pltcl.c:2276
static HeapTuple pltcl_build_tuple_result(Tcl_Interp *interp, Tcl_Obj **kvObjv, int kvObjc, pltcl_call_state *call_state)
Definition: pltcl.c:3168
static char * utf_u2e(const char *src)
Definition: pltcl.c:75
Datum pltcl_call_handler(PG_FUNCTION_ARGS)
Definition: pltcl.c:696
static bool pltcl_pm_init_done
Definition: pltcl.c:239
static int pltcl_subtransaction(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2879
struct pltcl_proc_ptr pltcl_proc_ptr
static int pltcl_commit(ClientData cdata, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[])
Definition: pltcl.c:2927
#define snprintf
Definition: port.h:238
static Datum PointerGetDatum(const void *X)
Definition: postgres.h:322
static char * DatumGetCString(Datum X)
Definition: postgres.h:335
uintptr_t Datum
Definition: postgres.h:64
static Datum ObjectIdGetDatum(Oid X)
Definition: postgres.h:252
#define InvalidOid
Definition: postgres_ext.h:36
unsigned int Oid
Definition: postgres_ext.h:31
static int fd(const char *x, int i)
Definition: preproc-init.c:105
List * stringToQualifiedNameList(const char *string, Node *escontext)
Definition: regproc.c:1777
#define RelationGetRelid(relation)
Definition: rel.h:504
#define RelationGetDescr(relation)
Definition: rel.h:530
ResourceOwner CurrentResourceOwner
Definition: resowner.c:147
void SPI_commit(void)
Definition: spi.c:321
char * SPI_getrelname(Relation rel)
Definition: spi.c:1324
int SPI_fnumber(TupleDesc tupdesc, const char *fname)
Definition: spi.c:1173
uint64 SPI_processed
Definition: spi.c:45
SPITupleTable * SPI_tuptable
Definition: spi.c:46
int SPI_connect(void)
Definition: spi.c:95
const char * SPI_result_code_string(int code)
Definition: spi.c:1970
int SPI_finish(void)
Definition: spi.c:183
int SPI_execute_plan(SPIPlanPtr plan, Datum *Values, const char *Nulls, bool read_only, long tcount)
Definition: spi.c:670
int SPI_register_trigger_data(TriggerData *tdata)
Definition: spi.c:3340
void SPI_freetuptable(SPITupleTable *tuptable)
Definition: spi.c:1384
SPIPlanPtr SPI_prepare(const char *src, int nargs, Oid *argtypes)
Definition: spi.c:858
int SPI_keepplan(SPIPlanPtr plan)
Definition: spi.c:974
char * SPI_getnspname(Relation rel)
Definition: spi.c:1330
int SPI_connect_ext(int options)
Definition: spi.c:101
void SPI_rollback(void)
Definition: spi.c:414
int SPI_execute(const char *src, bool read_only, long tcount)
Definition: spi.c:594
#define SPI_OPT_NONATOMIC
Definition: spi.h:101
#define SPI_OK_UTILITY
Definition: spi.h:85
#define SPI_OK_REWRITTEN
Definition: spi.h:95
#define SPI_OK_INSERT
Definition: spi.h:88
#define SPI_OK_UPDATE
Definition: spi.h:90
#define SPI_OK_MERGE
Definition: spi.h:99
#define SPI_OK_SELINTO
Definition: spi.h:87
#define SPI_OK_UPDATE_RETURNING
Definition: spi.h:94
#define SPI_OK_DELETE
Definition: spi.h:89
#define SPI_ERROR_NOATTRIBUTE
Definition: spi.h:76
#define SPI_OK_INSERT_RETURNING
Definition: spi.h:92
#define SPI_OK_CONNECT
Definition: spi.h:82
#define SPI_OK_DELETE_RETURNING
Definition: spi.h:93
#define SPI_OK_FINISH
Definition: spi.h:83
#define SPI_OK_SELECT
Definition: spi.h:86
struct ErrorContextCallback * previous
Definition: elog.h:295
void(* callback)(void *arg)
Definition: elog.h:296
int internalpos
Definition: elog.h:452
char * schema_name
Definition: elog.h:446
char * context
Definition: elog.h:443
char * internalquery
Definition: elog.h:453
int sqlerrcode
Definition: elog.h:438
const char * filename
Definition: elog.h:433
char * datatype_name
Definition: elog.h:449
char * detail
Definition: elog.h:440
const char * funcname
Definition: elog.h:435
char * table_name
Definition: elog.h:447
char * message
Definition: elog.h:439
int lineno
Definition: elog.h:434
char * hint
Definition: elog.h:442
char * constraint_name
Definition: elog.h:450
char * column_name
Definition: elog.h:448
CommandTag tag
Definition: event_trigger.h:29
const char * event
Definition: event_trigger.h:27
MemoryContext ecxt_per_query_memory
Definition: execnodes.h:256
Definition: fmgr.h:57
Size keysize
Definition: hsearch.h:75
Size entrysize
Definition: hsearch.h:76
Definition: dynahash.c:220
ItemPointerData t_self
Definition: htup.h:65
uint32 t_len
Definition: htup.h:64
HeapTupleHeader t_data
Definition: htup.h:68
Definition: pg_list.h:54
Oid rd_id
Definition: rel.h:113
SetFunctionReturnMode returnMode
Definition: execnodes.h:330
ExprContext * econtext
Definition: execnodes.h:326
TupleDesc setDesc
Definition: execnodes.h:334
Tuplestorestate * setResult
Definition: execnodes.h:333
TupleDesc expectedDesc
Definition: execnodes.h:327
int allowedModes
Definition: execnodes.h:328
TupleDesc tupdesc
Definition: spi.h:25
HeapTuple * vals
Definition: spi.h:26
const char * label
Definition: pltcl.c:252
Relation tg_relation
Definition: trigger.h:35
TriggerEvent tg_event
Definition: trigger.h:34
HeapTuple tg_newtuple
Definition: trigger.h:37
Trigger * tg_trigger
Definition: trigger.h:38
HeapTuple tg_trigtuple
Definition: trigger.h:36
char * tgname
Definition: reltrigger.h:27
int16 tgnargs
Definition: reltrigger.h:38
char ** tgargs
Definition: reltrigger.h:41
ReturnSetInfo * rsi
Definition: pltcl.c:227
pltcl_proc_desc * prodesc
Definition: pltcl.c:217
MemoryContext tuple_store_cxt
Definition: pltcl.c:229
Tuplestorestate * tuple_store
Definition: pltcl.c:228
TriggerData * trigdata
Definition: pltcl.c:214
ResourceOwner tuple_store_owner
Definition: pltcl.c:230
AttInMetadata * attinmeta
Definition: pltcl.c:225
FunctionCallInfo fcinfo
Definition: pltcl.c:211
TupleDesc ret_tupdesc
Definition: pltcl.c:224
Tcl_HashTable query_hash
Definition: pltcl.c:117
Tcl_Interp * interp
Definition: pltcl.c:116
FmgrInfo result_in_func
Definition: pltcl.c:148
Oid result_typid
Definition: pltcl.c:147
FmgrInfo * arg_out_func
Definition: pltcl.c:156
bool fn_retisdomain
Definition: pltcl.c:152
char * user_proname
Definition: pltcl.c:138
ItemPointerData fn_tid
Definition: pltcl.c:143
char * internal_proname
Definition: pltcl.c:139
pltcl_interp_desc * interp_desc
Definition: pltcl.c:146
bool fn_retisset
Definition: pltcl.c:150
unsigned long fn_refcount
Definition: pltcl.c:141
void * domain_info
Definition: pltcl.c:153
MemoryContext fn_cxt
Definition: pltcl.c:140
bool fn_readonly
Definition: pltcl.c:144
bool fn_retistuple
Definition: pltcl.c:151
Oid result_typioparam
Definition: pltcl.c:149
bool lanpltrusted
Definition: pltcl.c:145
bool * arg_is_rowtype
Definition: pltcl.c:157
TransactionId fn_xmin
Definition: pltcl.c:142
Oid is_trigger
Definition: pltcl.c:194
Oid user_id
Definition: pltcl.c:195
Oid proc_id
Definition: pltcl.c:188
pltcl_proc_desc * proc_ptr
Definition: pltcl.c:201
pltcl_proc_key proc_key
Definition: pltcl.c:200
char qname[20]
Definition: pltcl.c:166
Oid * argtypioparams
Definition: pltcl.c:171
SPIPlanPtr plan
Definition: pltcl.c:167
FmgrInfo * arginfuncs
Definition: pltcl.c:170
Oid * argtypes
Definition: pltcl.c:169
void ReleaseSysCache(HeapTuple tuple)
Definition: syscache.c:868
HeapTuple SearchSysCache1(int cacheId, Datum key1)
Definition: syscache.c:820
Datum SysCacheGetAttrNotNull(int cacheId, HeapTuple tup, AttrNumber attributeNumber)
Definition: syscache.c:1112
@ TYPEOID
Definition: syscache.h:114
@ PROCOID
Definition: syscache.h:79
#define TRIGGER_FIRED_FOR_STATEMENT(event)
Definition: trigger.h:125
#define TRIGGER_FIRED_BY_DELETE(event)
Definition: trigger.h:113
#define TRIGGER_FIRED_BEFORE(event)
Definition: trigger.h:128
#define CALLED_AS_TRIGGER(fcinfo)
Definition: trigger.h:26
#define TRIGGER_FIRED_FOR_ROW(event)
Definition: trigger.h:122
#define TRIGGER_FIRED_AFTER(event)
Definition: trigger.h:131
#define TRIGGER_FIRED_BY_TRUNCATE(event)
Definition: trigger.h:119
#define TRIGGER_FIRED_BY_INSERT(event)
Definition: trigger.h:110
#define TRIGGER_FIRED_BY_UPDATE(event)
Definition: trigger.h:116
#define TRIGGER_FIRED_INSTEAD(event)
Definition: trigger.h:134
TupleDesc CreateTupleDescCopy(TupleDesc tupdesc)
Definition: tupdesc.c:111
#define ReleaseTupleDesc(tupdesc)
Definition: tupdesc.h:122
#define TupleDescAttr(tupdesc, i)
Definition: tupdesc.h:92
void tuplestore_putvalues(Tuplestorestate *state, TupleDesc tdesc, Datum *values, bool *isnull)
Definition: tuplestore.c:750
Tuplestorestate * tuplestore_begin_heap(bool randomAccess, bool interXact, int maxKBytes)
Definition: tuplestore.c:318
void tuplestore_puttuple(Tuplestorestate *state, HeapTuple tuple)
Definition: tuplestore.c:730
TupleDesc lookup_rowtype_tupdesc(Oid type_id, int32 typmod)
Definition: typcache.c:1830
void BeginInternalSubTransaction(const char *name)
Definition: xact.c:4540
void RollbackAndReleaseCurrentSubTransaction(void)
Definition: xact.c:4645
void ReleaseCurrentSubTransaction(void)
Definition: xact.c:4611