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trigger.h File Reference
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Data Structures

struct  TriggerData
 
struct  TransitionCaptureState
 

Macros

#define CALLED_AS_TRIGGER(fcinfo)    ((fcinfo)->context != NULL && IsA((fcinfo)->context, TriggerData))
 
#define TRIGGER_EVENT_INSERT   0x00000000
 
#define TRIGGER_EVENT_DELETE   0x00000001
 
#define TRIGGER_EVENT_UPDATE   0x00000002
 
#define TRIGGER_EVENT_TRUNCATE   0x00000003
 
#define TRIGGER_EVENT_OPMASK   0x00000003
 
#define TRIGGER_EVENT_ROW   0x00000004
 
#define TRIGGER_EVENT_BEFORE   0x00000008
 
#define TRIGGER_EVENT_AFTER   0x00000000
 
#define TRIGGER_EVENT_INSTEAD   0x00000010
 
#define TRIGGER_EVENT_TIMINGMASK   0x00000018
 
#define AFTER_TRIGGER_DEFERRABLE   0x00000020
 
#define AFTER_TRIGGER_INITDEFERRED   0x00000040
 
#define TRIGGER_FIRED_BY_INSERT(event)    (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_INSERT)
 
#define TRIGGER_FIRED_BY_DELETE(event)    (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_DELETE)
 
#define TRIGGER_FIRED_BY_UPDATE(event)    (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_UPDATE)
 
#define TRIGGER_FIRED_BY_TRUNCATE(event)    (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_TRUNCATE)
 
#define TRIGGER_FIRED_FOR_ROW(event)    ((event) & TRIGGER_EVENT_ROW)
 
#define TRIGGER_FIRED_FOR_STATEMENT(event)    (!TRIGGER_FIRED_FOR_ROW(event))
 
#define TRIGGER_FIRED_BEFORE(event)    (((event) & TRIGGER_EVENT_TIMINGMASK) == TRIGGER_EVENT_BEFORE)
 
#define TRIGGER_FIRED_AFTER(event)    (((event) & TRIGGER_EVENT_TIMINGMASK) == TRIGGER_EVENT_AFTER)
 
#define TRIGGER_FIRED_INSTEAD(event)    (((event) & TRIGGER_EVENT_TIMINGMASK) == TRIGGER_EVENT_INSTEAD)
 
#define SESSION_REPLICATION_ROLE_ORIGIN   0
 
#define SESSION_REPLICATION_ROLE_REPLICA   1
 
#define SESSION_REPLICATION_ROLE_LOCAL   2
 
#define TRIGGER_FIRES_ON_ORIGIN   'O'
 
#define TRIGGER_FIRES_ALWAYS   'A'
 
#define TRIGGER_FIRES_ON_REPLICA   'R'
 
#define TRIGGER_DISABLED   'D'
 
#define RI_TRIGGER_PK   1 /* is a trigger on the PK relation */
 
#define RI_TRIGGER_FK   2 /* is a trigger on the FK relation */
 
#define RI_TRIGGER_NONE   0 /* is not an RI trigger function */
 

Typedefs

typedef uint32 TriggerEvent
 
typedef struct TriggerData TriggerData
 
typedef struct TransitionCaptureState TransitionCaptureState
 

Functions

ObjectAddress CreateTrigger (CreateTrigStmt *stmt, const char *queryString, Oid relOid, Oid refRelOid, Oid constraintOid, Oid indexOid, Oid funcoid, Oid parentTriggerOid, Node *whenClause, bool isInternal, bool in_partition)
 
ObjectAddress CreateTriggerFiringOn (CreateTrigStmt *stmt, const char *queryString, Oid relOid, Oid refRelOid, Oid constraintOid, Oid indexOid, Oid funcoid, Oid parentTriggerOid, Node *whenClause, bool isInternal, bool in_partition, char trigger_fires_when)
 
void TriggerSetParentTrigger (Relation trigRel, Oid childTrigId, Oid parentTrigId, Oid childTableId)
 
void RemoveTriggerById (Oid trigOid)
 
Oid get_trigger_oid (Oid relid, const char *trigname, bool missing_ok)
 
ObjectAddress renametrig (RenameStmt *stmt)
 
void EnableDisableTrigger (Relation rel, const char *tgname, Oid tgparent, char fires_when, bool skip_system, bool recurse, LOCKMODE lockmode)
 
void RelationBuildTriggers (Relation relation)
 
TriggerDescCopyTriggerDesc (TriggerDesc *trigdesc)
 
const char * FindTriggerIncompatibleWithInheritance (TriggerDesc *trigdesc)
 
TransitionCaptureStateMakeTransitionCaptureState (TriggerDesc *trigdesc, Oid relid, CmdType cmdType)
 
void FreeTriggerDesc (TriggerDesc *trigdesc)
 
void ExecBSInsertTriggers (EState *estate, ResultRelInfo *relinfo)
 
void ExecASInsertTriggers (EState *estate, ResultRelInfo *relinfo, TransitionCaptureState *transition_capture)
 
bool ExecBRInsertTriggers (EState *estate, ResultRelInfo *relinfo, TupleTableSlot *slot)
 
void ExecARInsertTriggers (EState *estate, ResultRelInfo *relinfo, TupleTableSlot *slot, List *recheckIndexes, TransitionCaptureState *transition_capture)
 
bool ExecIRInsertTriggers (EState *estate, ResultRelInfo *relinfo, TupleTableSlot *slot)
 
void ExecBSDeleteTriggers (EState *estate, ResultRelInfo *relinfo)
 
void ExecASDeleteTriggers (EState *estate, ResultRelInfo *relinfo, TransitionCaptureState *transition_capture)
 
bool ExecBRDeleteTriggers (EState *estate, EPQState *epqstate, ResultRelInfo *relinfo, ItemPointer tupleid, HeapTuple fdw_trigtuple, TupleTableSlot **epqslot, TM_Result *tmresult, TM_FailureData *tmfd)
 
void ExecARDeleteTriggers (EState *estate, ResultRelInfo *relinfo, ItemPointer tupleid, HeapTuple fdw_trigtuple, TransitionCaptureState *transition_capture, bool is_crosspart_update)
 
bool ExecIRDeleteTriggers (EState *estate, ResultRelInfo *relinfo, HeapTuple trigtuple)
 
void ExecBSUpdateTriggers (EState *estate, ResultRelInfo *relinfo)
 
void ExecASUpdateTriggers (EState *estate, ResultRelInfo *relinfo, TransitionCaptureState *transition_capture)
 
bool ExecBRUpdateTriggers (EState *estate, EPQState *epqstate, ResultRelInfo *relinfo, ItemPointer tupleid, HeapTuple fdw_trigtuple, TupleTableSlot *newslot, TM_Result *tmresult, TM_FailureData *tmfd)
 
void ExecARUpdateTriggers (EState *estate, ResultRelInfo *relinfo, ResultRelInfo *src_partinfo, ResultRelInfo *dst_partinfo, ItemPointer tupleid, HeapTuple fdw_trigtuple, TupleTableSlot *newslot, List *recheckIndexes, TransitionCaptureState *transition_capture, bool is_crosspart_update)
 
bool ExecIRUpdateTriggers (EState *estate, ResultRelInfo *relinfo, HeapTuple trigtuple, TupleTableSlot *newslot)
 
void ExecBSTruncateTriggers (EState *estate, ResultRelInfo *relinfo)
 
void ExecASTruncateTriggers (EState *estate, ResultRelInfo *relinfo)
 
void AfterTriggerBeginXact (void)
 
void AfterTriggerBeginQuery (void)
 
void AfterTriggerEndQuery (EState *estate)
 
void AfterTriggerFireDeferred (void)
 
void AfterTriggerEndXact (bool isCommit)
 
void AfterTriggerBeginSubXact (void)
 
void AfterTriggerEndSubXact (bool isCommit)
 
void AfterTriggerSetState (ConstraintsSetStmt *stmt)
 
bool AfterTriggerPendingOnRel (Oid relid)
 
bool RI_FKey_pk_upd_check_required (Trigger *trigger, Relation pk_rel, TupleTableSlot *oldslot, TupleTableSlot *newslot)
 
bool RI_FKey_fk_upd_check_required (Trigger *trigger, Relation fk_rel, TupleTableSlot *oldslot, TupleTableSlot *newslot)
 
bool RI_Initial_Check (Trigger *trigger, Relation fk_rel, Relation pk_rel)
 
void RI_PartitionRemove_Check (Trigger *trigger, Relation fk_rel, Relation pk_rel)
 
int RI_FKey_trigger_type (Oid tgfoid)
 

Variables

PGDLLIMPORT int SessionReplicationRole
 

Macro Definition Documentation

◆ AFTER_TRIGGER_DEFERRABLE

#define AFTER_TRIGGER_DEFERRABLE   0x00000020

Definition at line 107 of file trigger.h.

◆ AFTER_TRIGGER_INITDEFERRED

#define AFTER_TRIGGER_INITDEFERRED   0x00000040

Definition at line 108 of file trigger.h.

◆ CALLED_AS_TRIGGER

#define CALLED_AS_TRIGGER (   fcinfo)     ((fcinfo)->context != NULL && IsA((fcinfo)->context, TriggerData))

Definition at line 26 of file trigger.h.

◆ RI_TRIGGER_FK

#define RI_TRIGGER_FK   2 /* is a trigger on the FK relation */

Definition at line 283 of file trigger.h.

◆ RI_TRIGGER_NONE

#define RI_TRIGGER_NONE   0 /* is not an RI trigger function */

Definition at line 284 of file trigger.h.

◆ RI_TRIGGER_PK

#define RI_TRIGGER_PK   1 /* is a trigger on the PK relation */

Definition at line 282 of file trigger.h.

◆ SESSION_REPLICATION_ROLE_LOCAL

#define SESSION_REPLICATION_ROLE_LOCAL   2

Definition at line 142 of file trigger.h.

◆ SESSION_REPLICATION_ROLE_ORIGIN

#define SESSION_REPLICATION_ROLE_ORIGIN   0

Definition at line 140 of file trigger.h.

◆ SESSION_REPLICATION_ROLE_REPLICA

#define SESSION_REPLICATION_ROLE_REPLICA   1

Definition at line 141 of file trigger.h.

◆ TRIGGER_DISABLED

#define TRIGGER_DISABLED   'D'

Definition at line 152 of file trigger.h.

◆ TRIGGER_EVENT_AFTER

#define TRIGGER_EVENT_AFTER   0x00000000

Definition at line 101 of file trigger.h.

◆ TRIGGER_EVENT_BEFORE

#define TRIGGER_EVENT_BEFORE   0x00000008

Definition at line 100 of file trigger.h.

◆ TRIGGER_EVENT_DELETE

#define TRIGGER_EVENT_DELETE   0x00000001

Definition at line 93 of file trigger.h.

◆ TRIGGER_EVENT_INSERT

#define TRIGGER_EVENT_INSERT   0x00000000

Definition at line 92 of file trigger.h.

◆ TRIGGER_EVENT_INSTEAD

#define TRIGGER_EVENT_INSTEAD   0x00000010

Definition at line 102 of file trigger.h.

◆ TRIGGER_EVENT_OPMASK

#define TRIGGER_EVENT_OPMASK   0x00000003

Definition at line 96 of file trigger.h.

◆ TRIGGER_EVENT_ROW

#define TRIGGER_EVENT_ROW   0x00000004

Definition at line 98 of file trigger.h.

◆ TRIGGER_EVENT_TIMINGMASK

#define TRIGGER_EVENT_TIMINGMASK   0x00000018

Definition at line 103 of file trigger.h.

◆ TRIGGER_EVENT_TRUNCATE

#define TRIGGER_EVENT_TRUNCATE   0x00000003

Definition at line 95 of file trigger.h.

◆ TRIGGER_EVENT_UPDATE

#define TRIGGER_EVENT_UPDATE   0x00000002

Definition at line 94 of file trigger.h.

◆ TRIGGER_FIRED_AFTER

#define TRIGGER_FIRED_AFTER (   event)     (((event) & TRIGGER_EVENT_TIMINGMASK) == TRIGGER_EVENT_AFTER)

Definition at line 131 of file trigger.h.

◆ TRIGGER_FIRED_BEFORE

#define TRIGGER_FIRED_BEFORE (   event)     (((event) & TRIGGER_EVENT_TIMINGMASK) == TRIGGER_EVENT_BEFORE)

Definition at line 128 of file trigger.h.

◆ TRIGGER_FIRED_BY_DELETE

#define TRIGGER_FIRED_BY_DELETE (   event)     (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_DELETE)

Definition at line 113 of file trigger.h.

◆ TRIGGER_FIRED_BY_INSERT

#define TRIGGER_FIRED_BY_INSERT (   event)     (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_INSERT)

Definition at line 110 of file trigger.h.

◆ TRIGGER_FIRED_BY_TRUNCATE

#define TRIGGER_FIRED_BY_TRUNCATE (   event)     (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_TRUNCATE)

Definition at line 119 of file trigger.h.

◆ TRIGGER_FIRED_BY_UPDATE

#define TRIGGER_FIRED_BY_UPDATE (   event)     (((event) & TRIGGER_EVENT_OPMASK) == TRIGGER_EVENT_UPDATE)

Definition at line 116 of file trigger.h.

◆ TRIGGER_FIRED_FOR_ROW

#define TRIGGER_FIRED_FOR_ROW (   event)     ((event) & TRIGGER_EVENT_ROW)

Definition at line 122 of file trigger.h.

◆ TRIGGER_FIRED_FOR_STATEMENT

#define TRIGGER_FIRED_FOR_STATEMENT (   event)     (!TRIGGER_FIRED_FOR_ROW(event))

Definition at line 125 of file trigger.h.

◆ TRIGGER_FIRED_INSTEAD

#define TRIGGER_FIRED_INSTEAD (   event)     (((event) & TRIGGER_EVENT_TIMINGMASK) == TRIGGER_EVENT_INSTEAD)

Definition at line 134 of file trigger.h.

◆ TRIGGER_FIRES_ALWAYS

#define TRIGGER_FIRES_ALWAYS   'A'

Definition at line 150 of file trigger.h.

◆ TRIGGER_FIRES_ON_ORIGIN

#define TRIGGER_FIRES_ON_ORIGIN   'O'

Definition at line 149 of file trigger.h.

◆ TRIGGER_FIRES_ON_REPLICA

#define TRIGGER_FIRES_ON_REPLICA   'R'

Definition at line 151 of file trigger.h.

Typedef Documentation

◆ TransitionCaptureState

◆ TriggerData

typedef struct TriggerData TriggerData

◆ TriggerEvent

Definition at line 29 of file trigger.h.

Function Documentation

◆ AfterTriggerBeginQuery()

void AfterTriggerBeginQuery ( void  )

Definition at line 5024 of file trigger.c.

5025 {
5026  /* Increase the query stack depth */
5028 }
static AfterTriggersData afterTriggers
Definition: trigger.c:3879

References afterTriggers, and AfterTriggersData::query_depth.

Referenced by CopyFrom(), create_edata_for_relation(), ExecuteTruncateGuts(), and standard_ExecutorStart().

◆ AfterTriggerBeginSubXact()

void AfterTriggerBeginSubXact ( void  )

Definition at line 5307 of file trigger.c.

5308 {
5309  int my_level = GetCurrentTransactionNestLevel();
5310 
5311  /*
5312  * Allocate more space in the trans_stack if needed. (Note: because the
5313  * minimum nest level of a subtransaction is 2, we waste the first couple
5314  * entries of the array; not worth the notational effort to avoid it.)
5315  */
5316  while (my_level >= afterTriggers.maxtransdepth)
5317  {
5318  if (afterTriggers.maxtransdepth == 0)
5319  {
5320  /* Arbitrarily initialize for max of 8 subtransaction levels */
5323  8 * sizeof(AfterTriggersTransData));
5325  }
5326  else
5327  {
5328  /* repalloc will keep the stack in the same context */
5329  int new_alloc = afterTriggers.maxtransdepth * 2;
5330 
5333  new_alloc * sizeof(AfterTriggersTransData));
5334  afterTriggers.maxtransdepth = new_alloc;
5335  }
5336  }
5337 
5338  /*
5339  * Push the current information into the stack. The SET CONSTRAINTS state
5340  * is not saved until/unless changed. Likewise, we don't make a
5341  * per-subtransaction event context until needed.
5342  */
5343  afterTriggers.trans_stack[my_level].state = NULL;
5347 }
MemoryContext TopTransactionContext
Definition: mcxt.c:154
void * repalloc(void *pointer, Size size)
Definition: mcxt.c:1541
void * MemoryContextAlloc(MemoryContext context, Size size)
Definition: mcxt.c:1181
CommandId firing_counter
Definition: trigger.c:3819
AfterTriggersTransData * trans_stack
Definition: trigger.c:3830
AfterTriggerEventList events
Definition: trigger.c:3821
AfterTriggerEventList events
Definition: trigger.c:3845
SetConstraintState state
Definition: trigger.c:3844
CommandId firing_counter
Definition: trigger.c:3847
int GetCurrentTransactionNestLevel(void)
Definition: xact.c:928

References afterTriggers, AfterTriggersData::events, AfterTriggersTransData::events, AfterTriggersData::firing_counter, AfterTriggersTransData::firing_counter, GetCurrentTransactionNestLevel(), AfterTriggersData::maxtransdepth, MemoryContextAlloc(), AfterTriggersData::query_depth, AfterTriggersTransData::query_depth, repalloc(), AfterTriggersTransData::state, TopTransactionContext, and AfterTriggersData::trans_stack.

Referenced by StartSubTransaction().

◆ AfterTriggerBeginXact()

void AfterTriggerBeginXact ( void  )

Definition at line 4992 of file trigger.c.

4993 {
4994  /*
4995  * Initialize after-trigger state structure to empty
4996  */
4997  afterTriggers.firing_counter = (CommandId) 1; /* mustn't be 0 */
4999 
5000  /*
5001  * Verify that there is no leftover state remaining. If these assertions
5002  * trip, it means that AfterTriggerEndXact wasn't called or didn't clean
5003  * up properly.
5004  */
5005  Assert(afterTriggers.state == NULL);
5006  Assert(afterTriggers.query_stack == NULL);
5008  Assert(afterTriggers.event_cxt == NULL);
5009  Assert(afterTriggers.events.head == NULL);
5010  Assert(afterTriggers.trans_stack == NULL);
5012 }
#define Assert(condition)
Definition: c.h:837
uint32 CommandId
Definition: c.h:645
AfterTriggerEventChunk * head
Definition: trigger.c:3713
SetConstraintState state
Definition: trigger.c:3820
AfterTriggersQueryData * query_stack
Definition: trigger.c:3825
MemoryContext event_cxt
Definition: trigger.c:3822

References afterTriggers, Assert, AfterTriggersData::event_cxt, AfterTriggersData::events, AfterTriggersData::firing_counter, AfterTriggerEventList::head, AfterTriggersData::maxquerydepth, AfterTriggersData::maxtransdepth, AfterTriggersData::query_depth, AfterTriggersData::query_stack, AfterTriggersData::state, and AfterTriggersData::trans_stack.

Referenced by StartTransaction().

◆ AfterTriggerEndQuery()

void AfterTriggerEndQuery ( EState estate)

Definition at line 5044 of file trigger.c.

5045 {
5047 
5048  /* Must be inside a query, too */
5050 
5051  /*
5052  * If we never even got as far as initializing the event stack, there
5053  * certainly won't be any events, so exit quickly.
5054  */
5056  {
5058  return;
5059  }
5060 
5061  /*
5062  * Process all immediate-mode triggers queued by the query, and move the
5063  * deferred ones to the main list of deferred events.
5064  *
5065  * Notice that we decide which ones will be fired, and put the deferred
5066  * ones on the main list, before anything is actually fired. This ensures
5067  * reasonably sane behavior if a trigger function does SET CONSTRAINTS ...
5068  * IMMEDIATE: all events we have decided to defer will be available for it
5069  * to fire.
5070  *
5071  * We loop in case a trigger queues more events at the same query level.
5072  * Ordinary trigger functions, including all PL/pgSQL trigger functions,
5073  * will instead fire any triggers in a dedicated query level. Foreign key
5074  * enforcement triggers do add to the current query level, thanks to their
5075  * passing fire_triggers = false to SPI_execute_snapshot(). Other
5076  * C-language triggers might do likewise.
5077  *
5078  * If we find no firable events, we don't have to increment
5079  * firing_counter.
5080  */
5082 
5083  for (;;)
5084  {
5086  {
5087  CommandId firing_id = afterTriggers.firing_counter++;
5088  AfterTriggerEventChunk *oldtail = qs->events.tail;
5089 
5090  if (afterTriggerInvokeEvents(&qs->events, firing_id, estate, false))
5091  break; /* all fired */
5092 
5093  /*
5094  * Firing a trigger could result in query_stack being repalloc'd,
5095  * so we must recalculate qs after each afterTriggerInvokeEvents
5096  * call. Furthermore, it's unsafe to pass delete_ok = true here,
5097  * because that could cause afterTriggerInvokeEvents to try to
5098  * access qs->events after the stack has been repalloc'd.
5099  */
5101 
5102  /*
5103  * We'll need to scan the events list again. To reduce the cost
5104  * of doing so, get rid of completely-fired chunks. We know that
5105  * all events were marked IN_PROGRESS or DONE at the conclusion of
5106  * afterTriggerMarkEvents, so any still-interesting events must
5107  * have been added after that, and so must be in the chunk that
5108  * was then the tail chunk, or in later chunks. So, zap all
5109  * chunks before oldtail. This is approximately the same set of
5110  * events we would have gotten rid of by passing delete_ok = true.
5111  */
5112  Assert(oldtail != NULL);
5113  while (qs->events.head != oldtail)
5115  }
5116  else
5117  break;
5118  }
5119 
5120  /* Release query-level-local storage, including tuplestores if any */
5122 
5124 }
AfterTriggerEventChunk * tail
Definition: trigger.c:3714
AfterTriggerEventList events
Definition: trigger.c:3836
static void afterTriggerDeleteHeadEventChunk(AfterTriggersQueryData *qs)
Definition: trigger.c:4212
static void AfterTriggerFreeQuery(AfterTriggersQueryData *qs)
Definition: trigger.c:5135
static bool afterTriggerMarkEvents(AfterTriggerEventList *events, AfterTriggerEventList *move_list, bool immediate_only)
Definition: trigger.c:4549
static bool afterTriggerInvokeEvents(AfterTriggerEventList *events, CommandId firing_id, EState *estate, bool delete_ok)
Definition: trigger.c:4633

References afterTriggerDeleteHeadEventChunk(), AfterTriggerFreeQuery(), afterTriggerInvokeEvents(), afterTriggerMarkEvents(), afterTriggers, Assert, AfterTriggersData::events, AfterTriggersQueryData::events, AfterTriggersData::firing_counter, AfterTriggerEventList::head, AfterTriggersData::maxquerydepth, AfterTriggersData::query_depth, AfterTriggersData::query_stack, and AfterTriggerEventList::tail.

Referenced by CopyFrom(), ExecuteTruncateGuts(), finish_edata(), and standard_ExecutorFinish().

◆ AfterTriggerEndSubXact()

void AfterTriggerEndSubXact ( bool  isCommit)

Definition at line 5355 of file trigger.c.

5356 {
5357  int my_level = GetCurrentTransactionNestLevel();
5359  AfterTriggerEvent event;
5361  CommandId subxact_firing_id;
5362 
5363  /*
5364  * Pop the prior state if needed.
5365  */
5366  if (isCommit)
5367  {
5368  Assert(my_level < afterTriggers.maxtransdepth);
5369  /* If we saved a prior state, we don't need it anymore */
5370  state = afterTriggers.trans_stack[my_level].state;
5371  if (state != NULL)
5372  pfree(state);
5373  /* this avoids double pfree if error later: */
5374  afterTriggers.trans_stack[my_level].state = NULL;
5377  }
5378  else
5379  {
5380  /*
5381  * Aborting. It is possible subxact start failed before calling
5382  * AfterTriggerBeginSubXact, in which case we mustn't risk touching
5383  * trans_stack levels that aren't there.
5384  */
5385  if (my_level >= afterTriggers.maxtransdepth)
5386  return;
5387 
5388  /*
5389  * Release query-level storage for queries being aborted, and restore
5390  * query_depth to its pre-subxact value. This assumes that a
5391  * subtransaction will not add events to query levels started in a
5392  * earlier transaction state.
5393  */
5395  {
5399  }
5402 
5403  /*
5404  * Restore the global deferred-event list to its former length,
5405  * discarding any events queued by the subxact.
5406  */
5408  &afterTriggers.trans_stack[my_level].events);
5409 
5410  /*
5411  * Restore the trigger state. If the saved state is NULL, then this
5412  * subxact didn't save it, so it doesn't need restoring.
5413  */
5414  state = afterTriggers.trans_stack[my_level].state;
5415  if (state != NULL)
5416  {
5419  }
5420  /* this avoids double pfree if error later: */
5421  afterTriggers.trans_stack[my_level].state = NULL;
5422 
5423  /*
5424  * Scan for any remaining deferred events that were marked DONE or IN
5425  * PROGRESS by this subxact or a child, and un-mark them. We can
5426  * recognize such events because they have a firing ID greater than or
5427  * equal to the firing_counter value we saved at subtransaction start.
5428  * (This essentially assumes that the current subxact includes all
5429  * subxacts started after it.)
5430  */
5431  subxact_firing_id = afterTriggers.trans_stack[my_level].firing_counter;
5433  {
5434  AfterTriggerShared evtshared = GetTriggerSharedData(event);
5435 
5436  if (event->ate_flags &
5438  {
5439  if (evtshared->ats_firing_id >= subxact_firing_id)
5440  event->ate_flags &=
5442  }
5443  }
5444  }
5445 }
uint64 chunk
void pfree(void *pointer)
Definition: mcxt.c:1521
TriggerFlags ate_flags
Definition: trigger.c:3646
CommandId ats_firing_id
Definition: trigger.c:3637
Definition: regguts.h:323
#define AFTER_TRIGGER_IN_PROGRESS
Definition: trigger.c:3622
#define GetTriggerSharedData(evt)
Definition: trigger.c:3689
static void afterTriggerRestoreEventList(AfterTriggerEventList *events, const AfterTriggerEventList *old_events)
Definition: trigger.c:4172
#define AFTER_TRIGGER_DONE
Definition: trigger.c:3621
#define for_each_event_chunk(eptr, cptr, evtlist)
Definition: trigger.c:3726

References AFTER_TRIGGER_DONE, AFTER_TRIGGER_IN_PROGRESS, AfterTriggerFreeQuery(), afterTriggerRestoreEventList(), afterTriggers, Assert, AfterTriggerEventData::ate_flags, AfterTriggerSharedData::ats_firing_id, chunk, AfterTriggersData::events, AfterTriggersTransData::events, AfterTriggersTransData::firing_counter, for_each_event_chunk, GetCurrentTransactionNestLevel(), GetTriggerSharedData, AfterTriggersData::maxquerydepth, AfterTriggersData::maxtransdepth, pfree(), AfterTriggersData::query_depth, AfterTriggersTransData::query_depth, AfterTriggersData::query_stack, AfterTriggersData::state, AfterTriggersTransData::state, and AfterTriggersData::trans_stack.

Referenced by AbortSubTransaction(), and CommitSubTransaction().

◆ AfterTriggerEndXact()

void AfterTriggerEndXact ( bool  isCommit)

Definition at line 5259 of file trigger.c.

5260 {
5261  /*
5262  * Forget the pending-events list.
5263  *
5264  * Since all the info is in TopTransactionContext or children thereof, we
5265  * don't really need to do anything to reclaim memory. However, the
5266  * pending-events list could be large, and so it's useful to discard it as
5267  * soon as possible --- especially if we are aborting because we ran out
5268  * of memory for the list!
5269  */
5271  {
5273  afterTriggers.event_cxt = NULL;
5274  afterTriggers.events.head = NULL;
5275  afterTriggers.events.tail = NULL;
5276  afterTriggers.events.tailfree = NULL;
5277  }
5278 
5279  /*
5280  * Forget any subtransaction state as well. Since this can't be very
5281  * large, we let the eventual reset of TopTransactionContext free the
5282  * memory instead of doing it here.
5283  */
5284  afterTriggers.trans_stack = NULL;
5286 
5287 
5288  /*
5289  * Forget the query stack and constraint-related state information. As
5290  * with the subtransaction state information, we don't bother freeing the
5291  * memory here.
5292  */
5293  afterTriggers.query_stack = NULL;
5295  afterTriggers.state = NULL;
5296 
5297  /* No more afterTriggers manipulation until next transaction starts. */
5299 }
void MemoryContextDelete(MemoryContext context)
Definition: mcxt.c:454

References afterTriggers, AfterTriggersData::event_cxt, AfterTriggersData::events, AfterTriggerEventList::head, AfterTriggersData::maxquerydepth, AfterTriggersData::maxtransdepth, MemoryContextDelete(), AfterTriggersData::query_depth, AfterTriggersData::query_stack, AfterTriggersData::state, AfterTriggerEventList::tail, AfterTriggerEventList::tailfree, and AfterTriggersData::trans_stack.

Referenced by AbortTransaction(), CommitTransaction(), and PrepareTransaction().

◆ AfterTriggerFireDeferred()

void AfterTriggerFireDeferred ( void  )

Definition at line 5203 of file trigger.c.

5204 {
5205  AfterTriggerEventList *events;
5206  bool snap_pushed = false;
5207 
5208  /* Must not be inside a query */
5210 
5211  /*
5212  * If there are any triggers to fire, make sure we have set a snapshot for
5213  * them to use. (Since PortalRunUtility doesn't set a snap for COMMIT, we
5214  * can't assume ActiveSnapshot is valid on entry.)
5215  */
5216  events = &afterTriggers.events;
5217  if (events->head != NULL)
5218  {
5220  snap_pushed = true;
5221  }
5222 
5223  /*
5224  * Run all the remaining triggers. Loop until they are all gone, in case
5225  * some trigger queues more for us to do.
5226  */
5227  while (afterTriggerMarkEvents(events, NULL, false))
5228  {
5229  CommandId firing_id = afterTriggers.firing_counter++;
5230 
5231  if (afterTriggerInvokeEvents(events, firing_id, NULL, true))
5232  break; /* all fired */
5233  }
5234 
5235  /*
5236  * We don't bother freeing the event list, since it will go away anyway
5237  * (and more efficiently than via pfree) in AfterTriggerEndXact.
5238  */
5239 
5240  if (snap_pushed)
5242 }
Snapshot GetTransactionSnapshot(void)
Definition: snapmgr.c:216
void PushActiveSnapshot(Snapshot snapshot)
Definition: snapmgr.c:648
void PopActiveSnapshot(void)
Definition: snapmgr.c:743

References afterTriggerInvokeEvents(), afterTriggerMarkEvents(), afterTriggers, Assert, AfterTriggersData::events, AfterTriggersData::firing_counter, GetTransactionSnapshot(), AfterTriggerEventList::head, PopActiveSnapshot(), PushActiveSnapshot(), and AfterTriggersData::query_depth.

Referenced by CommitTransaction(), and PrepareTransaction().

◆ AfterTriggerPendingOnRel()

bool AfterTriggerPendingOnRel ( Oid  relid)

Definition at line 5980 of file trigger.c.

5981 {
5982  AfterTriggerEvent event;
5984  int depth;
5985 
5986  /* Scan queued events */
5988  {
5989  AfterTriggerShared evtshared = GetTriggerSharedData(event);
5990 
5991  /*
5992  * We can ignore completed events. (Even if a DONE flag is rolled
5993  * back by subxact abort, it's OK because the effects of the TRUNCATE
5994  * or whatever must get rolled back too.)
5995  */
5996  if (event->ate_flags & AFTER_TRIGGER_DONE)
5997  continue;
5998 
5999  if (evtshared->ats_relid == relid)
6000  return true;
6001  }
6002 
6003  /*
6004  * Also scan events queued by incomplete queries. This could only matter
6005  * if TRUNCATE/etc is executed by a function or trigger within an updating
6006  * query on the same relation, which is pretty perverse, but let's check.
6007  */
6008  for (depth = 0; depth <= afterTriggers.query_depth && depth < afterTriggers.maxquerydepth; depth++)
6009  {
6011  {
6012  AfterTriggerShared evtshared = GetTriggerSharedData(event);
6013 
6014  if (event->ate_flags & AFTER_TRIGGER_DONE)
6015  continue;
6016 
6017  if (evtshared->ats_relid == relid)
6018  return true;
6019  }
6020  }
6021 
6022  return false;
6023 }

References AFTER_TRIGGER_DONE, afterTriggers, AfterTriggerEventData::ate_flags, AfterTriggerSharedData::ats_relid, chunk, AfterTriggersData::events, AfterTriggersQueryData::events, for_each_event_chunk, GetTriggerSharedData, AfterTriggersData::maxquerydepth, AfterTriggersData::query_depth, and AfterTriggersData::query_stack.

Referenced by CheckTableNotInUse().

◆ AfterTriggerSetState()

void AfterTriggerSetState ( ConstraintsSetStmt stmt)

Definition at line 5665 of file trigger.c.

5666 {
5667  int my_level = GetCurrentTransactionNestLevel();
5668 
5669  /* If we haven't already done so, initialize our state. */
5670  if (afterTriggers.state == NULL)
5672 
5673  /*
5674  * If in a subtransaction, and we didn't save the current state already,
5675  * save it so it can be restored if the subtransaction aborts.
5676  */
5677  if (my_level > 1 &&
5678  afterTriggers.trans_stack[my_level].state == NULL)
5679  {
5680  afterTriggers.trans_stack[my_level].state =
5682  }
5683 
5684  /*
5685  * Handle SET CONSTRAINTS ALL ...
5686  */
5687  if (stmt->constraints == NIL)
5688  {
5689  /*
5690  * Forget any previous SET CONSTRAINTS commands in this transaction.
5691  */
5693 
5694  /*
5695  * Set the per-transaction ALL state to known.
5696  */
5697  afterTriggers.state->all_isset = true;
5698  afterTriggers.state->all_isdeferred = stmt->deferred;
5699  }
5700  else
5701  {
5702  Relation conrel;
5703  Relation tgrel;
5704  List *conoidlist = NIL;
5705  List *tgoidlist = NIL;
5706  ListCell *lc;
5707 
5708  /*
5709  * Handle SET CONSTRAINTS constraint-name [, ...]
5710  *
5711  * First, identify all the named constraints and make a list of their
5712  * OIDs. Since, unlike the SQL spec, we allow multiple constraints of
5713  * the same name within a schema, the specifications are not
5714  * necessarily unique. Our strategy is to target all matching
5715  * constraints within the first search-path schema that has any
5716  * matches, but disregard matches in schemas beyond the first match.
5717  * (This is a bit odd but it's the historical behavior.)
5718  *
5719  * A constraint in a partitioned table may have corresponding
5720  * constraints in the partitions. Grab those too.
5721  */
5722  conrel = table_open(ConstraintRelationId, AccessShareLock);
5723 
5724  foreach(lc, stmt->constraints)
5725  {
5726  RangeVar *constraint = lfirst(lc);
5727  bool found;
5728  List *namespacelist;
5729  ListCell *nslc;
5730 
5731  if (constraint->catalogname)
5732  {
5733  if (strcmp(constraint->catalogname, get_database_name(MyDatabaseId)) != 0)
5734  ereport(ERROR,
5735  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
5736  errmsg("cross-database references are not implemented: \"%s.%s.%s\"",
5737  constraint->catalogname, constraint->schemaname,
5738  constraint->relname)));
5739  }
5740 
5741  /*
5742  * If we're given the schema name with the constraint, look only
5743  * in that schema. If given a bare constraint name, use the
5744  * search path to find the first matching constraint.
5745  */
5746  if (constraint->schemaname)
5747  {
5748  Oid namespaceId = LookupExplicitNamespace(constraint->schemaname,
5749  false);
5750 
5751  namespacelist = list_make1_oid(namespaceId);
5752  }
5753  else
5754  {
5755  namespacelist = fetch_search_path(true);
5756  }
5757 
5758  found = false;
5759  foreach(nslc, namespacelist)
5760  {
5761  Oid namespaceId = lfirst_oid(nslc);
5762  SysScanDesc conscan;
5763  ScanKeyData skey[2];
5764  HeapTuple tup;
5765 
5766  ScanKeyInit(&skey[0],
5767  Anum_pg_constraint_conname,
5768  BTEqualStrategyNumber, F_NAMEEQ,
5769  CStringGetDatum(constraint->relname));
5770  ScanKeyInit(&skey[1],
5771  Anum_pg_constraint_connamespace,
5772  BTEqualStrategyNumber, F_OIDEQ,
5773  ObjectIdGetDatum(namespaceId));
5774 
5775  conscan = systable_beginscan(conrel, ConstraintNameNspIndexId,
5776  true, NULL, 2, skey);
5777 
5778  while (HeapTupleIsValid(tup = systable_getnext(conscan)))
5779  {
5781 
5782  if (con->condeferrable)
5783  conoidlist = lappend_oid(conoidlist, con->oid);
5784  else if (stmt->deferred)
5785  ereport(ERROR,
5786  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
5787  errmsg("constraint \"%s\" is not deferrable",
5788  constraint->relname)));
5789  found = true;
5790  }
5791 
5792  systable_endscan(conscan);
5793 
5794  /*
5795  * Once we've found a matching constraint we do not search
5796  * later parts of the search path.
5797  */
5798  if (found)
5799  break;
5800  }
5801 
5802  list_free(namespacelist);
5803 
5804  /*
5805  * Not found ?
5806  */
5807  if (!found)
5808  ereport(ERROR,
5809  (errcode(ERRCODE_UNDEFINED_OBJECT),
5810  errmsg("constraint \"%s\" does not exist",
5811  constraint->relname)));
5812  }
5813 
5814  /*
5815  * Scan for any possible descendants of the constraints. We append
5816  * whatever we find to the same list that we're scanning; this has the
5817  * effect that we create new scans for those, too, so if there are
5818  * further descendents, we'll also catch them.
5819  */
5820  foreach(lc, conoidlist)
5821  {
5822  Oid parent = lfirst_oid(lc);
5823  ScanKeyData key;
5824  SysScanDesc scan;
5825  HeapTuple tuple;
5826 
5827  ScanKeyInit(&key,
5828  Anum_pg_constraint_conparentid,
5829  BTEqualStrategyNumber, F_OIDEQ,
5830  ObjectIdGetDatum(parent));
5831 
5832  scan = systable_beginscan(conrel, ConstraintParentIndexId, true, NULL, 1, &key);
5833 
5834  while (HeapTupleIsValid(tuple = systable_getnext(scan)))
5835  {
5837 
5838  conoidlist = lappend_oid(conoidlist, con->oid);
5839  }
5840 
5841  systable_endscan(scan);
5842  }
5843 
5844  table_close(conrel, AccessShareLock);
5845 
5846  /*
5847  * Now, locate the trigger(s) implementing each of these constraints,
5848  * and make a list of their OIDs.
5849  */
5850  tgrel = table_open(TriggerRelationId, AccessShareLock);
5851 
5852  foreach(lc, conoidlist)
5853  {
5854  Oid conoid = lfirst_oid(lc);
5855  ScanKeyData skey;
5856  SysScanDesc tgscan;
5857  HeapTuple htup;
5858 
5859  ScanKeyInit(&skey,
5860  Anum_pg_trigger_tgconstraint,
5861  BTEqualStrategyNumber, F_OIDEQ,
5862  ObjectIdGetDatum(conoid));
5863 
5864  tgscan = systable_beginscan(tgrel, TriggerConstraintIndexId, true,
5865  NULL, 1, &skey);
5866 
5867  while (HeapTupleIsValid(htup = systable_getnext(tgscan)))
5868  {
5869  Form_pg_trigger pg_trigger = (Form_pg_trigger) GETSTRUCT(htup);
5870 
5871  /*
5872  * Silently skip triggers that are marked as non-deferrable in
5873  * pg_trigger. This is not an error condition, since a
5874  * deferrable RI constraint may have some non-deferrable
5875  * actions.
5876  */
5877  if (pg_trigger->tgdeferrable)
5878  tgoidlist = lappend_oid(tgoidlist, pg_trigger->oid);
5879  }
5880 
5881  systable_endscan(tgscan);
5882  }
5883 
5884  table_close(tgrel, AccessShareLock);
5885 
5886  /*
5887  * Now we can set the trigger states of individual triggers for this
5888  * xact.
5889  */
5890  foreach(lc, tgoidlist)
5891  {
5892  Oid tgoid = lfirst_oid(lc);
5894  bool found = false;
5895  int i;
5896 
5897  for (i = 0; i < state->numstates; i++)
5898  {
5899  if (state->trigstates[i].sct_tgoid == tgoid)
5900  {
5901  state->trigstates[i].sct_tgisdeferred = stmt->deferred;
5902  found = true;
5903  break;
5904  }
5905  }
5906  if (!found)
5907  {
5909  SetConstraintStateAddItem(state, tgoid, stmt->deferred);
5910  }
5911  }
5912  }
5913 
5914  /*
5915  * SQL99 requires that when a constraint is set to IMMEDIATE, any deferred
5916  * checks against that constraint must be made when the SET CONSTRAINTS
5917  * command is executed -- i.e. the effects of the SET CONSTRAINTS command
5918  * apply retroactively. We've updated the constraints state, so scan the
5919  * list of previously deferred events to fire any that have now become
5920  * immediate.
5921  *
5922  * Obviously, if this was SET ... DEFERRED then it can't have converted
5923  * any unfired events to immediate, so we need do nothing in that case.
5924  */
5925  if (!stmt->deferred)
5926  {
5928  bool snapshot_set = false;
5929 
5930  while (afterTriggerMarkEvents(events, NULL, true))
5931  {
5932  CommandId firing_id = afterTriggers.firing_counter++;
5933 
5934  /*
5935  * Make sure a snapshot has been established in case trigger
5936  * functions need one. Note that we avoid setting a snapshot if
5937  * we don't find at least one trigger that has to be fired now.
5938  * This is so that BEGIN; SET CONSTRAINTS ...; SET TRANSACTION
5939  * ISOLATION LEVEL SERIALIZABLE; ... works properly. (If we are
5940  * at the start of a transaction it's not possible for any trigger
5941  * events to be queued yet.)
5942  */
5943  if (!snapshot_set)
5944  {
5946  snapshot_set = true;
5947  }
5948 
5949  /*
5950  * We can delete fired events if we are at top transaction level,
5951  * but we'd better not if inside a subtransaction, since the
5952  * subtransaction could later get rolled back.
5953  */
5954  if (afterTriggerInvokeEvents(events, firing_id, NULL,
5955  !IsSubTransaction()))
5956  break; /* all fired */
5957  }
5958 
5959  if (snapshot_set)
5961  }
5962 }
char * get_database_name(Oid dbid)
Definition: dbcommands.c:3187
int errcode(int sqlerrcode)
Definition: elog.c:853
int errmsg(const char *fmt,...)
Definition: elog.c:1070
#define ERROR
Definition: elog.h:39
#define ereport(elevel,...)
Definition: elog.h:149
void systable_endscan(SysScanDesc sysscan)
Definition: genam.c:604
HeapTuple systable_getnext(SysScanDesc sysscan)
Definition: genam.c:511
SysScanDesc systable_beginscan(Relation heapRelation, Oid indexId, bool indexOK, Snapshot snapshot, int nkeys, ScanKey key)
Definition: genam.c:387
Oid MyDatabaseId
Definition: globals.c:93
#define HeapTupleIsValid(tuple)
Definition: htup.h:78
#define GETSTRUCT(TUP)
Definition: htup_details.h:653
#define stmt
Definition: indent_codes.h:59
int i
Definition: isn.c:72
List * lappend_oid(List *list, Oid datum)
Definition: list.c:375
void list_free(List *list)
Definition: list.c:1546
#define AccessShareLock
Definition: lockdefs.h:36
Oid LookupExplicitNamespace(const char *nspname, bool missing_ok)
Definition: namespace.c:3385
List * fetch_search_path(bool includeImplicit)
Definition: namespace.c:4819
FormData_pg_constraint * Form_pg_constraint
#define lfirst(lc)
Definition: pg_list.h:172
#define NIL
Definition: pg_list.h:68
#define list_make1_oid(x1)
Definition: pg_list.h:242
#define lfirst_oid(lc)
Definition: pg_list.h:174
FormData_pg_trigger * Form_pg_trigger
Definition: pg_trigger.h:80
static Datum ObjectIdGetDatum(Oid X)
Definition: postgres.h:252
static Datum CStringGetDatum(const char *X)
Definition: postgres.h:350
unsigned int Oid
Definition: postgres_ext.h:31
void ScanKeyInit(ScanKey entry, AttrNumber attributeNumber, StrategyNumber strategy, RegProcedure procedure, Datum argument)
Definition: scankey.c:76
#define BTEqualStrategyNumber
Definition: stratnum.h:31
Definition: pg_list.h:54
char * relname
Definition: primnodes.h:82
char * catalogname
Definition: primnodes.h:76
char * schemaname
Definition: primnodes.h:79
void table_close(Relation relation, LOCKMODE lockmode)
Definition: table.c:126
Relation table_open(Oid relationId, LOCKMODE lockmode)
Definition: table.c:40
static SetConstraintState SetConstraintStateCopy(SetConstraintState origstate)
Definition: trigger.c:5615
static SetConstraintState SetConstraintStateAddItem(SetConstraintState state, Oid tgoid, bool tgisdeferred)
Definition: trigger.c:5635
static SetConstraintState SetConstraintStateCreate(int numalloc)
Definition: trigger.c:5590
bool IsSubTransaction(void)
Definition: xact.c:5036

References AccessShareLock, afterTriggerInvokeEvents(), afterTriggerMarkEvents(), afterTriggers, SetConstraintStateData::all_isdeferred, SetConstraintStateData::all_isset, BTEqualStrategyNumber, RangeVar::catalogname, CStringGetDatum(), ereport, errcode(), errmsg(), ERROR, AfterTriggersData::events, fetch_search_path(), AfterTriggersData::firing_counter, get_database_name(), GetCurrentTransactionNestLevel(), GETSTRUCT, GetTransactionSnapshot(), HeapTupleIsValid, i, IsSubTransaction(), sort-test::key, lappend_oid(), lfirst, lfirst_oid, list_free(), list_make1_oid, LookupExplicitNamespace(), MyDatabaseId, NIL, SetConstraintStateData::numstates, ObjectIdGetDatum(), PopActiveSnapshot(), PushActiveSnapshot(), RangeVar::relname, ScanKeyInit(), RangeVar::schemaname, SetConstraintStateAddItem(), SetConstraintStateCopy(), SetConstraintStateCreate(), AfterTriggersData::state, AfterTriggersTransData::state, stmt, systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), table_open(), and AfterTriggersData::trans_stack.

Referenced by standard_ProcessUtility().

◆ CopyTriggerDesc()

TriggerDesc* CopyTriggerDesc ( TriggerDesc trigdesc)

Definition at line 2086 of file trigger.c.

2087 {
2088  TriggerDesc *newdesc;
2089  Trigger *trigger;
2090  int i;
2091 
2092  if (trigdesc == NULL || trigdesc->numtriggers <= 0)
2093  return NULL;
2094 
2095  newdesc = (TriggerDesc *) palloc(sizeof(TriggerDesc));
2096  memcpy(newdesc, trigdesc, sizeof(TriggerDesc));
2097 
2098  trigger = (Trigger *) palloc(trigdesc->numtriggers * sizeof(Trigger));
2099  memcpy(trigger, trigdesc->triggers,
2100  trigdesc->numtriggers * sizeof(Trigger));
2101  newdesc->triggers = trigger;
2102 
2103  for (i = 0; i < trigdesc->numtriggers; i++)
2104  {
2105  trigger->tgname = pstrdup(trigger->tgname);
2106  if (trigger->tgnattr > 0)
2107  {
2108  int16 *newattr;
2109 
2110  newattr = (int16 *) palloc(trigger->tgnattr * sizeof(int16));
2111  memcpy(newattr, trigger->tgattr,
2112  trigger->tgnattr * sizeof(int16));
2113  trigger->tgattr = newattr;
2114  }
2115  if (trigger->tgnargs > 0)
2116  {
2117  char **newargs;
2118  int16 j;
2119 
2120  newargs = (char **) palloc(trigger->tgnargs * sizeof(char *));
2121  for (j = 0; j < trigger->tgnargs; j++)
2122  newargs[j] = pstrdup(trigger->tgargs[j]);
2123  trigger->tgargs = newargs;
2124  }
2125  if (trigger->tgqual)
2126  trigger->tgqual = pstrdup(trigger->tgqual);
2127  if (trigger->tgoldtable)
2128  trigger->tgoldtable = pstrdup(trigger->tgoldtable);
2129  if (trigger->tgnewtable)
2130  trigger->tgnewtable = pstrdup(trigger->tgnewtable);
2131  trigger++;
2132  }
2133 
2134  return newdesc;
2135 }
signed short int16
Definition: c.h:481
int j
Definition: isn.c:73
char * pstrdup(const char *in)
Definition: mcxt.c:1696
void * palloc(Size size)
Definition: mcxt.c:1317
int numtriggers
Definition: reltrigger.h:50
Trigger * triggers
Definition: reltrigger.h:49
char * tgoldtable
Definition: reltrigger.h:43
char * tgnewtable
Definition: reltrigger.h:44
char * tgname
Definition: reltrigger.h:27
int16 tgnargs
Definition: reltrigger.h:38
char * tgqual
Definition: reltrigger.h:42
int16 tgnattr
Definition: reltrigger.h:39
char ** tgargs
Definition: reltrigger.h:41
int16 * tgattr
Definition: reltrigger.h:40

References i, j, TriggerDesc::numtriggers, palloc(), pstrdup(), Trigger::tgargs, Trigger::tgattr, Trigger::tgname, Trigger::tgnargs, Trigger::tgnattr, Trigger::tgnewtable, Trigger::tgoldtable, Trigger::tgqual, and TriggerDesc::triggers.

Referenced by InitResultRelInfo(), and RelationBuildTriggers().

◆ CreateTrigger()

ObjectAddress CreateTrigger ( CreateTrigStmt stmt,
const char *  queryString,
Oid  relOid,
Oid  refRelOid,
Oid  constraintOid,
Oid  indexOid,
Oid  funcoid,
Oid  parentTriggerOid,
Node whenClause,
bool  isInternal,
bool  in_partition 
)

Definition at line 158 of file trigger.c.

162 {
163  return
164  CreateTriggerFiringOn(stmt, queryString, relOid, refRelOid,
165  constraintOid, indexOid, funcoid,
166  parentTriggerOid, whenClause, isInternal,
167  in_partition, TRIGGER_FIRES_ON_ORIGIN);
168 }
ObjectAddress CreateTriggerFiringOn(CreateTrigStmt *stmt, const char *queryString, Oid relOid, Oid refRelOid, Oid constraintOid, Oid indexOid, Oid funcoid, Oid parentTriggerOid, Node *whenClause, bool isInternal, bool in_partition, char trigger_fires_when)
Definition: trigger.c:175
#define TRIGGER_FIRES_ON_ORIGIN
Definition: trigger.h:149

References CreateTriggerFiringOn(), stmt, and TRIGGER_FIRES_ON_ORIGIN.

Referenced by CreateFKCheckTrigger(), createForeignKeyActionTriggers(), index_constraint_create(), and ProcessUtilitySlow().

◆ CreateTriggerFiringOn()

ObjectAddress CreateTriggerFiringOn ( CreateTrigStmt stmt,
const char *  queryString,
Oid  relOid,
Oid  refRelOid,
Oid  constraintOid,
Oid  indexOid,
Oid  funcoid,
Oid  parentTriggerOid,
Node whenClause,
bool  isInternal,
bool  in_partition,
char  trigger_fires_when 
)

Definition at line 175 of file trigger.c.

180 {
181  int16 tgtype;
182  int ncolumns;
183  int16 *columns;
184  int2vector *tgattr;
185  List *whenRtable;
186  char *qual;
187  Datum values[Natts_pg_trigger];
188  bool nulls[Natts_pg_trigger];
189  Relation rel;
190  AclResult aclresult;
191  Relation tgrel;
192  Relation pgrel;
193  HeapTuple tuple = NULL;
194  Oid funcrettype;
195  Oid trigoid = InvalidOid;
196  char internaltrigname[NAMEDATALEN];
197  char *trigname;
198  Oid constrrelid = InvalidOid;
199  ObjectAddress myself,
200  referenced;
201  char *oldtablename = NULL;
202  char *newtablename = NULL;
203  bool partition_recurse;
204  bool trigger_exists = false;
205  Oid existing_constraint_oid = InvalidOid;
206  bool existing_isInternal = false;
207  bool existing_isClone = false;
208 
209  if (OidIsValid(relOid))
210  rel = table_open(relOid, ShareRowExclusiveLock);
211  else
212  rel = table_openrv(stmt->relation, ShareRowExclusiveLock);
213 
214  /*
215  * Triggers must be on tables or views, and there are additional
216  * relation-type-specific restrictions.
217  */
218  if (rel->rd_rel->relkind == RELKIND_RELATION)
219  {
220  /* Tables can't have INSTEAD OF triggers */
221  if (stmt->timing != TRIGGER_TYPE_BEFORE &&
222  stmt->timing != TRIGGER_TYPE_AFTER)
223  ereport(ERROR,
224  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
225  errmsg("\"%s\" is a table",
227  errdetail("Tables cannot have INSTEAD OF triggers.")));
228  }
229  else if (rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
230  {
231  /* Partitioned tables can't have INSTEAD OF triggers */
232  if (stmt->timing != TRIGGER_TYPE_BEFORE &&
233  stmt->timing != TRIGGER_TYPE_AFTER)
234  ereport(ERROR,
235  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
236  errmsg("\"%s\" is a table",
238  errdetail("Tables cannot have INSTEAD OF triggers.")));
239 
240  /*
241  * FOR EACH ROW triggers have further restrictions
242  */
243  if (stmt->row)
244  {
245  /*
246  * Disallow use of transition tables.
247  *
248  * Note that we have another restriction about transition tables
249  * in partitions; search for 'has_superclass' below for an
250  * explanation. The check here is just to protect from the fact
251  * that if we allowed it here, the creation would succeed for a
252  * partitioned table with no partitions, but would be blocked by
253  * the other restriction when the first partition was created,
254  * which is very unfriendly behavior.
255  */
256  if (stmt->transitionRels != NIL)
257  ereport(ERROR,
258  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
259  errmsg("\"%s\" is a partitioned table",
261  errdetail("ROW triggers with transition tables are not supported on partitioned tables.")));
262  }
263  }
264  else if (rel->rd_rel->relkind == RELKIND_VIEW)
265  {
266  /*
267  * Views can have INSTEAD OF triggers (which we check below are
268  * row-level), or statement-level BEFORE/AFTER triggers.
269  */
270  if (stmt->timing != TRIGGER_TYPE_INSTEAD && stmt->row)
271  ereport(ERROR,
272  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
273  errmsg("\"%s\" is a view",
275  errdetail("Views cannot have row-level BEFORE or AFTER triggers.")));
276  /* Disallow TRUNCATE triggers on VIEWs */
277  if (TRIGGER_FOR_TRUNCATE(stmt->events))
278  ereport(ERROR,
279  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
280  errmsg("\"%s\" is a view",
282  errdetail("Views cannot have TRUNCATE triggers.")));
283  }
284  else if (rel->rd_rel->relkind == RELKIND_FOREIGN_TABLE)
285  {
286  if (stmt->timing != TRIGGER_TYPE_BEFORE &&
287  stmt->timing != TRIGGER_TYPE_AFTER)
288  ereport(ERROR,
289  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
290  errmsg("\"%s\" is a foreign table",
292  errdetail("Foreign tables cannot have INSTEAD OF triggers.")));
293 
294  /*
295  * We disallow constraint triggers to protect the assumption that
296  * triggers on FKs can't be deferred. See notes with AfterTriggers
297  * data structures, below.
298  */
299  if (stmt->isconstraint)
300  ereport(ERROR,
301  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
302  errmsg("\"%s\" is a foreign table",
304  errdetail("Foreign tables cannot have constraint triggers.")));
305  }
306  else
307  ereport(ERROR,
308  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
309  errmsg("relation \"%s\" cannot have triggers",
311  errdetail_relkind_not_supported(rel->rd_rel->relkind)));
312 
314  ereport(ERROR,
315  (errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
316  errmsg("permission denied: \"%s\" is a system catalog",
317  RelationGetRelationName(rel))));
318 
319  if (stmt->isconstraint)
320  {
321  /*
322  * We must take a lock on the target relation to protect against
323  * concurrent drop. It's not clear that AccessShareLock is strong
324  * enough, but we certainly need at least that much... otherwise, we
325  * might end up creating a pg_constraint entry referencing a
326  * nonexistent table.
327  */
328  if (OidIsValid(refRelOid))
329  {
330  LockRelationOid(refRelOid, AccessShareLock);
331  constrrelid = refRelOid;
332  }
333  else if (stmt->constrrel != NULL)
334  constrrelid = RangeVarGetRelid(stmt->constrrel, AccessShareLock,
335  false);
336  }
337 
338  /* permission checks */
339  if (!isInternal)
340  {
341  aclresult = pg_class_aclcheck(RelationGetRelid(rel), GetUserId(),
342  ACL_TRIGGER);
343  if (aclresult != ACLCHECK_OK)
344  aclcheck_error(aclresult, get_relkind_objtype(rel->rd_rel->relkind),
346 
347  if (OidIsValid(constrrelid))
348  {
349  aclresult = pg_class_aclcheck(constrrelid, GetUserId(),
350  ACL_TRIGGER);
351  if (aclresult != ACLCHECK_OK)
352  aclcheck_error(aclresult, get_relkind_objtype(get_rel_relkind(constrrelid)),
353  get_rel_name(constrrelid));
354  }
355  }
356 
357  /*
358  * When called on a partitioned table to create a FOR EACH ROW trigger
359  * that's not internal, we create one trigger for each partition, too.
360  *
361  * For that, we'd better hold lock on all of them ahead of time.
362  */
363  partition_recurse = !isInternal && stmt->row &&
364  rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE;
365  if (partition_recurse)
367  ShareRowExclusiveLock, NULL));
368 
369  /* Compute tgtype */
370  TRIGGER_CLEAR_TYPE(tgtype);
371  if (stmt->row)
372  TRIGGER_SETT_ROW(tgtype);
373  tgtype |= stmt->timing;
374  tgtype |= stmt->events;
375 
376  /* Disallow ROW-level TRUNCATE triggers */
377  if (TRIGGER_FOR_ROW(tgtype) && TRIGGER_FOR_TRUNCATE(tgtype))
378  ereport(ERROR,
379  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
380  errmsg("TRUNCATE FOR EACH ROW triggers are not supported")));
381 
382  /* INSTEAD triggers must be row-level, and can't have WHEN or columns */
383  if (TRIGGER_FOR_INSTEAD(tgtype))
384  {
385  if (!TRIGGER_FOR_ROW(tgtype))
386  ereport(ERROR,
387  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
388  errmsg("INSTEAD OF triggers must be FOR EACH ROW")));
389  if (stmt->whenClause)
390  ereport(ERROR,
391  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
392  errmsg("INSTEAD OF triggers cannot have WHEN conditions")));
393  if (stmt->columns != NIL)
394  ereport(ERROR,
395  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
396  errmsg("INSTEAD OF triggers cannot have column lists")));
397  }
398 
399  /*
400  * We don't yet support naming ROW transition variables, but the parser
401  * recognizes the syntax so we can give a nicer message here.
402  *
403  * Per standard, REFERENCING TABLE names are only allowed on AFTER
404  * triggers. Per standard, REFERENCING ROW names are not allowed with FOR
405  * EACH STATEMENT. Per standard, each OLD/NEW, ROW/TABLE permutation is
406  * only allowed once. Per standard, OLD may not be specified when
407  * creating a trigger only for INSERT, and NEW may not be specified when
408  * creating a trigger only for DELETE.
409  *
410  * Notice that the standard allows an AFTER ... FOR EACH ROW trigger to
411  * reference both ROW and TABLE transition data.
412  */
413  if (stmt->transitionRels != NIL)
414  {
415  List *varList = stmt->transitionRels;
416  ListCell *lc;
417 
418  foreach(lc, varList)
419  {
421 
422  if (!(tt->isTable))
423  ereport(ERROR,
424  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
425  errmsg("ROW variable naming in the REFERENCING clause is not supported"),
426  errhint("Use OLD TABLE or NEW TABLE for naming transition tables.")));
427 
428  /*
429  * Because of the above test, we omit further ROW-related testing
430  * below. If we later allow naming OLD and NEW ROW variables,
431  * adjustments will be needed below.
432  */
433 
434  if (rel->rd_rel->relkind == RELKIND_FOREIGN_TABLE)
435  ereport(ERROR,
436  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
437  errmsg("\"%s\" is a foreign table",
439  errdetail("Triggers on foreign tables cannot have transition tables.")));
440 
441  if (rel->rd_rel->relkind == RELKIND_VIEW)
442  ereport(ERROR,
443  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
444  errmsg("\"%s\" is a view",
446  errdetail("Triggers on views cannot have transition tables.")));
447 
448  /*
449  * We currently don't allow row-level triggers with transition
450  * tables on partition or inheritance children. Such triggers
451  * would somehow need to see tuples converted to the format of the
452  * table they're attached to, and it's not clear which subset of
453  * tuples each child should see. See also the prohibitions in
454  * ATExecAttachPartition() and ATExecAddInherit().
455  */
456  if (TRIGGER_FOR_ROW(tgtype) && has_superclass(rel->rd_id))
457  {
458  /* Use appropriate error message. */
459  if (rel->rd_rel->relispartition)
460  ereport(ERROR,
461  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
462  errmsg("ROW triggers with transition tables are not supported on partitions")));
463  else
464  ereport(ERROR,
465  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
466  errmsg("ROW triggers with transition tables are not supported on inheritance children")));
467  }
468 
469  if (stmt->timing != TRIGGER_TYPE_AFTER)
470  ereport(ERROR,
471  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
472  errmsg("transition table name can only be specified for an AFTER trigger")));
473 
474  if (TRIGGER_FOR_TRUNCATE(tgtype))
475  ereport(ERROR,
476  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
477  errmsg("TRUNCATE triggers with transition tables are not supported")));
478 
479  /*
480  * We currently don't allow multi-event triggers ("INSERT OR
481  * UPDATE") with transition tables, because it's not clear how to
482  * handle INSERT ... ON CONFLICT statements which can fire both
483  * INSERT and UPDATE triggers. We show the inserted tuples to
484  * INSERT triggers and the updated tuples to UPDATE triggers, but
485  * it's not yet clear what INSERT OR UPDATE trigger should see.
486  * This restriction could be lifted if we can decide on the right
487  * semantics in a later release.
488  */
489  if (((TRIGGER_FOR_INSERT(tgtype) ? 1 : 0) +
490  (TRIGGER_FOR_UPDATE(tgtype) ? 1 : 0) +
491  (TRIGGER_FOR_DELETE(tgtype) ? 1 : 0)) != 1)
492  ereport(ERROR,
493  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
494  errmsg("transition tables cannot be specified for triggers with more than one event")));
495 
496  /*
497  * We currently don't allow column-specific triggers with
498  * transition tables. Per spec, that seems to require
499  * accumulating separate transition tables for each combination of
500  * columns, which is a lot of work for a rather marginal feature.
501  */
502  if (stmt->columns != NIL)
503  ereport(ERROR,
504  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
505  errmsg("transition tables cannot be specified for triggers with column lists")));
506 
507  /*
508  * We disallow constraint triggers with transition tables, to
509  * protect the assumption that such triggers can't be deferred.
510  * See notes with AfterTriggers data structures, below.
511  *
512  * Currently this is enforced by the grammar, so just Assert here.
513  */
514  Assert(!stmt->isconstraint);
515 
516  if (tt->isNew)
517  {
518  if (!(TRIGGER_FOR_INSERT(tgtype) ||
519  TRIGGER_FOR_UPDATE(tgtype)))
520  ereport(ERROR,
521  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
522  errmsg("NEW TABLE can only be specified for an INSERT or UPDATE trigger")));
523 
524  if (newtablename != NULL)
525  ereport(ERROR,
526  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
527  errmsg("NEW TABLE cannot be specified multiple times")));
528 
529  newtablename = tt->name;
530  }
531  else
532  {
533  if (!(TRIGGER_FOR_DELETE(tgtype) ||
534  TRIGGER_FOR_UPDATE(tgtype)))
535  ereport(ERROR,
536  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
537  errmsg("OLD TABLE can only be specified for a DELETE or UPDATE trigger")));
538 
539  if (oldtablename != NULL)
540  ereport(ERROR,
541  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
542  errmsg("OLD TABLE cannot be specified multiple times")));
543 
544  oldtablename = tt->name;
545  }
546  }
547 
548  if (newtablename != NULL && oldtablename != NULL &&
549  strcmp(newtablename, oldtablename) == 0)
550  ereport(ERROR,
551  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
552  errmsg("OLD TABLE name and NEW TABLE name cannot be the same")));
553  }
554 
555  /*
556  * Parse the WHEN clause, if any and we weren't passed an already
557  * transformed one.
558  *
559  * Note that as a side effect, we fill whenRtable when parsing. If we got
560  * an already parsed clause, this does not occur, which is what we want --
561  * no point in adding redundant dependencies below.
562  */
563  if (!whenClause && stmt->whenClause)
564  {
565  ParseState *pstate;
566  ParseNamespaceItem *nsitem;
567  List *varList;
568  ListCell *lc;
569 
570  /* Set up a pstate to parse with */
571  pstate = make_parsestate(NULL);
572  pstate->p_sourcetext = queryString;
573 
574  /*
575  * Set up nsitems for OLD and NEW references.
576  *
577  * 'OLD' must always have varno equal to 1 and 'NEW' equal to 2.
578  */
579  nsitem = addRangeTableEntryForRelation(pstate, rel,
581  makeAlias("old", NIL),
582  false, false);
583  addNSItemToQuery(pstate, nsitem, false, true, true);
584  nsitem = addRangeTableEntryForRelation(pstate, rel,
586  makeAlias("new", NIL),
587  false, false);
588  addNSItemToQuery(pstate, nsitem, false, true, true);
589 
590  /* Transform expression. Copy to be sure we don't modify original */
591  whenClause = transformWhereClause(pstate,
592  copyObject(stmt->whenClause),
594  "WHEN");
595  /* we have to fix its collations too */
596  assign_expr_collations(pstate, whenClause);
597 
598  /*
599  * Check for disallowed references to OLD/NEW.
600  *
601  * NB: pull_var_clause is okay here only because we don't allow
602  * subselects in WHEN clauses; it would fail to examine the contents
603  * of subselects.
604  */
605  varList = pull_var_clause(whenClause, 0);
606  foreach(lc, varList)
607  {
608  Var *var = (Var *) lfirst(lc);
609 
610  switch (var->varno)
611  {
612  case PRS2_OLD_VARNO:
613  if (!TRIGGER_FOR_ROW(tgtype))
614  ereport(ERROR,
615  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
616  errmsg("statement trigger's WHEN condition cannot reference column values"),
617  parser_errposition(pstate, var->location)));
618  if (TRIGGER_FOR_INSERT(tgtype))
619  ereport(ERROR,
620  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
621  errmsg("INSERT trigger's WHEN condition cannot reference OLD values"),
622  parser_errposition(pstate, var->location)));
623  /* system columns are okay here */
624  break;
625  case PRS2_NEW_VARNO:
626  if (!TRIGGER_FOR_ROW(tgtype))
627  ereport(ERROR,
628  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
629  errmsg("statement trigger's WHEN condition cannot reference column values"),
630  parser_errposition(pstate, var->location)));
631  if (TRIGGER_FOR_DELETE(tgtype))
632  ereport(ERROR,
633  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
634  errmsg("DELETE trigger's WHEN condition cannot reference NEW values"),
635  parser_errposition(pstate, var->location)));
636  if (var->varattno < 0 && TRIGGER_FOR_BEFORE(tgtype))
637  ereport(ERROR,
638  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
639  errmsg("BEFORE trigger's WHEN condition cannot reference NEW system columns"),
640  parser_errposition(pstate, var->location)));
641  if (TRIGGER_FOR_BEFORE(tgtype) &&
642  var->varattno == 0 &&
643  RelationGetDescr(rel)->constr &&
644  RelationGetDescr(rel)->constr->has_generated_stored)
645  ereport(ERROR,
646  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
647  errmsg("BEFORE trigger's WHEN condition cannot reference NEW generated columns"),
648  errdetail("A whole-row reference is used and the table contains generated columns."),
649  parser_errposition(pstate, var->location)));
650  if (TRIGGER_FOR_BEFORE(tgtype) &&
651  var->varattno > 0 &&
652  TupleDescAttr(RelationGetDescr(rel), var->varattno - 1)->attgenerated)
653  ereport(ERROR,
654  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
655  errmsg("BEFORE trigger's WHEN condition cannot reference NEW generated columns"),
656  errdetail("Column \"%s\" is a generated column.",
657  NameStr(TupleDescAttr(RelationGetDescr(rel), var->varattno - 1)->attname)),
658  parser_errposition(pstate, var->location)));
659  break;
660  default:
661  /* can't happen without add_missing_from, so just elog */
662  elog(ERROR, "trigger WHEN condition cannot contain references to other relations");
663  break;
664  }
665  }
666 
667  /* we'll need the rtable for recordDependencyOnExpr */
668  whenRtable = pstate->p_rtable;
669 
670  qual = nodeToString(whenClause);
671 
672  free_parsestate(pstate);
673  }
674  else if (!whenClause)
675  {
676  whenClause = NULL;
677  whenRtable = NIL;
678  qual = NULL;
679  }
680  else
681  {
682  qual = nodeToString(whenClause);
683  whenRtable = NIL;
684  }
685 
686  /*
687  * Find and validate the trigger function.
688  */
689  if (!OidIsValid(funcoid))
690  funcoid = LookupFuncName(stmt->funcname, 0, NULL, false);
691  if (!isInternal)
692  {
693  aclresult = object_aclcheck(ProcedureRelationId, funcoid, GetUserId(), ACL_EXECUTE);
694  if (aclresult != ACLCHECK_OK)
695  aclcheck_error(aclresult, OBJECT_FUNCTION,
696  NameListToString(stmt->funcname));
697  }
698  funcrettype = get_func_rettype(funcoid);
699  if (funcrettype != TRIGGEROID)
700  ereport(ERROR,
701  (errcode(ERRCODE_INVALID_OBJECT_DEFINITION),
702  errmsg("function %s must return type %s",
703  NameListToString(stmt->funcname), "trigger")));
704 
705  /*
706  * Scan pg_trigger to see if there is already a trigger of the same name.
707  * Skip this for internally generated triggers, since we'll modify the
708  * name to be unique below.
709  *
710  * NOTE that this is cool only because we have ShareRowExclusiveLock on
711  * the relation, so the trigger set won't be changing underneath us.
712  */
713  tgrel = table_open(TriggerRelationId, RowExclusiveLock);
714  if (!isInternal)
715  {
716  ScanKeyData skeys[2];
717  SysScanDesc tgscan;
718 
719  ScanKeyInit(&skeys[0],
720  Anum_pg_trigger_tgrelid,
721  BTEqualStrategyNumber, F_OIDEQ,
723 
724  ScanKeyInit(&skeys[1],
725  Anum_pg_trigger_tgname,
726  BTEqualStrategyNumber, F_NAMEEQ,
727  CStringGetDatum(stmt->trigname));
728 
729  tgscan = systable_beginscan(tgrel, TriggerRelidNameIndexId, true,
730  NULL, 2, skeys);
731 
732  /* There should be at most one matching tuple */
733  if (HeapTupleIsValid(tuple = systable_getnext(tgscan)))
734  {
735  Form_pg_trigger oldtrigger = (Form_pg_trigger) GETSTRUCT(tuple);
736 
737  trigoid = oldtrigger->oid;
738  existing_constraint_oid = oldtrigger->tgconstraint;
739  existing_isInternal = oldtrigger->tgisinternal;
740  existing_isClone = OidIsValid(oldtrigger->tgparentid);
741  trigger_exists = true;
742  /* copy the tuple to use in CatalogTupleUpdate() */
743  tuple = heap_copytuple(tuple);
744  }
745  systable_endscan(tgscan);
746  }
747 
748  if (!trigger_exists)
749  {
750  /* Generate the OID for the new trigger. */
751  trigoid = GetNewOidWithIndex(tgrel, TriggerOidIndexId,
752  Anum_pg_trigger_oid);
753  }
754  else
755  {
756  /*
757  * If OR REPLACE was specified, we'll replace the old trigger;
758  * otherwise complain about the duplicate name.
759  */
760  if (!stmt->replace)
761  ereport(ERROR,
763  errmsg("trigger \"%s\" for relation \"%s\" already exists",
764  stmt->trigname, RelationGetRelationName(rel))));
765 
766  /*
767  * An internal trigger or a child trigger (isClone) cannot be replaced
768  * by a user-defined trigger. However, skip this test when
769  * in_partition, because then we're recursing from a partitioned table
770  * and the check was made at the parent level.
771  */
772  if ((existing_isInternal || existing_isClone) &&
773  !isInternal && !in_partition)
774  ereport(ERROR,
776  errmsg("trigger \"%s\" for relation \"%s\" is an internal or a child trigger",
777  stmt->trigname, RelationGetRelationName(rel))));
778 
779  /*
780  * It is not allowed to replace with a constraint trigger; gram.y
781  * should have enforced this already.
782  */
783  Assert(!stmt->isconstraint);
784 
785  /*
786  * It is not allowed to replace an existing constraint trigger,
787  * either. (The reason for these restrictions is partly that it seems
788  * difficult to deal with pending trigger events in such cases, and
789  * partly that the command might imply changing the constraint's
790  * properties as well, which doesn't seem nice.)
791  */
792  if (OidIsValid(existing_constraint_oid))
793  ereport(ERROR,
795  errmsg("trigger \"%s\" for relation \"%s\" is a constraint trigger",
796  stmt->trigname, RelationGetRelationName(rel))));
797  }
798 
799  /*
800  * If it's a user-entered CREATE CONSTRAINT TRIGGER command, make a
801  * corresponding pg_constraint entry.
802  */
803  if (stmt->isconstraint && !OidIsValid(constraintOid))
804  {
805  /* Internal callers should have made their own constraints */
806  Assert(!isInternal);
807  constraintOid = CreateConstraintEntry(stmt->trigname,
809  CONSTRAINT_TRIGGER,
810  stmt->deferrable,
811  stmt->initdeferred,
812  true,
813  InvalidOid, /* no parent */
814  RelationGetRelid(rel),
815  NULL, /* no conkey */
816  0,
817  0,
818  InvalidOid, /* no domain */
819  InvalidOid, /* no index */
820  InvalidOid, /* no foreign key */
821  NULL,
822  NULL,
823  NULL,
824  NULL,
825  0,
826  ' ',
827  ' ',
828  NULL,
829  0,
830  ' ',
831  NULL, /* no exclusion */
832  NULL, /* no check constraint */
833  NULL,
834  true, /* islocal */
835  0, /* inhcount */
836  true, /* noinherit */
837  false, /* conperiod */
838  isInternal); /* is_internal */
839  }
840 
841  /*
842  * If trigger is internally generated, modify the provided trigger name to
843  * ensure uniqueness by appending the trigger OID. (Callers will usually
844  * supply a simple constant trigger name in these cases.)
845  */
846  if (isInternal)
847  {
848  snprintf(internaltrigname, sizeof(internaltrigname),
849  "%s_%u", stmt->trigname, trigoid);
850  trigname = internaltrigname;
851  }
852  else
853  {
854  /* user-defined trigger; use the specified trigger name as-is */
855  trigname = stmt->trigname;
856  }
857 
858  /*
859  * Build the new pg_trigger tuple.
860  */
861  memset(nulls, false, sizeof(nulls));
862 
863  values[Anum_pg_trigger_oid - 1] = ObjectIdGetDatum(trigoid);
864  values[Anum_pg_trigger_tgrelid - 1] = ObjectIdGetDatum(RelationGetRelid(rel));
865  values[Anum_pg_trigger_tgparentid - 1] = ObjectIdGetDatum(parentTriggerOid);
866  values[Anum_pg_trigger_tgname - 1] = DirectFunctionCall1(namein,
867  CStringGetDatum(trigname));
868  values[Anum_pg_trigger_tgfoid - 1] = ObjectIdGetDatum(funcoid);
869  values[Anum_pg_trigger_tgtype - 1] = Int16GetDatum(tgtype);
870  values[Anum_pg_trigger_tgenabled - 1] = trigger_fires_when;
871  values[Anum_pg_trigger_tgisinternal - 1] = BoolGetDatum(isInternal);
872  values[Anum_pg_trigger_tgconstrrelid - 1] = ObjectIdGetDatum(constrrelid);
873  values[Anum_pg_trigger_tgconstrindid - 1] = ObjectIdGetDatum(indexOid);
874  values[Anum_pg_trigger_tgconstraint - 1] = ObjectIdGetDatum(constraintOid);
875  values[Anum_pg_trigger_tgdeferrable - 1] = BoolGetDatum(stmt->deferrable);
876  values[Anum_pg_trigger_tginitdeferred - 1] = BoolGetDatum(stmt->initdeferred);
877 
878  if (stmt->args)
879  {
880  ListCell *le;
881  char *args;
882  int16 nargs = list_length(stmt->args);
883  int len = 0;
884 
885  foreach(le, stmt->args)
886  {
887  char *ar = strVal(lfirst(le));
888 
889  len += strlen(ar) + 4;
890  for (; *ar; ar++)
891  {
892  if (*ar == '\\')
893  len++;
894  }
895  }
896  args = (char *) palloc(len + 1);
897  args[0] = '\0';
898  foreach(le, stmt->args)
899  {
900  char *s = strVal(lfirst(le));
901  char *d = args + strlen(args);
902 
903  while (*s)
904  {
905  if (*s == '\\')
906  *d++ = '\\';
907  *d++ = *s++;
908  }
909  strcpy(d, "\\000");
910  }
911  values[Anum_pg_trigger_tgnargs - 1] = Int16GetDatum(nargs);
912  values[Anum_pg_trigger_tgargs - 1] = DirectFunctionCall1(byteain,
914  }
915  else
916  {
917  values[Anum_pg_trigger_tgnargs - 1] = Int16GetDatum(0);
918  values[Anum_pg_trigger_tgargs - 1] = DirectFunctionCall1(byteain,
919  CStringGetDatum(""));
920  }
921 
922  /* build column number array if it's a column-specific trigger */
923  ncolumns = list_length(stmt->columns);
924  if (ncolumns == 0)
925  columns = NULL;
926  else
927  {
928  ListCell *cell;
929  int i = 0;
930 
931  columns = (int16 *) palloc(ncolumns * sizeof(int16));
932  foreach(cell, stmt->columns)
933  {
934  char *name = strVal(lfirst(cell));
935  int16 attnum;
936  int j;
937 
938  /* Lookup column name. System columns are not allowed */
939  attnum = attnameAttNum(rel, name, false);
940  if (attnum == InvalidAttrNumber)
941  ereport(ERROR,
942  (errcode(ERRCODE_UNDEFINED_COLUMN),
943  errmsg("column \"%s\" of relation \"%s\" does not exist",
944  name, RelationGetRelationName(rel))));
945 
946  /* Check for duplicates */
947  for (j = i - 1; j >= 0; j--)
948  {
949  if (columns[j] == attnum)
950  ereport(ERROR,
951  (errcode(ERRCODE_DUPLICATE_COLUMN),
952  errmsg("column \"%s\" specified more than once",
953  name)));
954  }
955 
956  columns[i++] = attnum;
957  }
958  }
959  tgattr = buildint2vector(columns, ncolumns);
960  values[Anum_pg_trigger_tgattr - 1] = PointerGetDatum(tgattr);
961 
962  /* set tgqual if trigger has WHEN clause */
963  if (qual)
964  values[Anum_pg_trigger_tgqual - 1] = CStringGetTextDatum(qual);
965  else
966  nulls[Anum_pg_trigger_tgqual - 1] = true;
967 
968  if (oldtablename)
969  values[Anum_pg_trigger_tgoldtable - 1] = DirectFunctionCall1(namein,
970  CStringGetDatum(oldtablename));
971  else
972  nulls[Anum_pg_trigger_tgoldtable - 1] = true;
973  if (newtablename)
974  values[Anum_pg_trigger_tgnewtable - 1] = DirectFunctionCall1(namein,
975  CStringGetDatum(newtablename));
976  else
977  nulls[Anum_pg_trigger_tgnewtable - 1] = true;
978 
979  /*
980  * Insert or replace tuple in pg_trigger.
981  */
982  if (!trigger_exists)
983  {
984  tuple = heap_form_tuple(tgrel->rd_att, values, nulls);
985  CatalogTupleInsert(tgrel, tuple);
986  }
987  else
988  {
989  HeapTuple newtup;
990 
991  newtup = heap_form_tuple(tgrel->rd_att, values, nulls);
992  CatalogTupleUpdate(tgrel, &tuple->t_self, newtup);
993  heap_freetuple(newtup);
994  }
995 
996  heap_freetuple(tuple); /* free either original or new tuple */
998 
999  pfree(DatumGetPointer(values[Anum_pg_trigger_tgname - 1]));
1000  pfree(DatumGetPointer(values[Anum_pg_trigger_tgargs - 1]));
1001  pfree(DatumGetPointer(values[Anum_pg_trigger_tgattr - 1]));
1002  if (oldtablename)
1003  pfree(DatumGetPointer(values[Anum_pg_trigger_tgoldtable - 1]));
1004  if (newtablename)
1005  pfree(DatumGetPointer(values[Anum_pg_trigger_tgnewtable - 1]));
1006 
1007  /*
1008  * Update relation's pg_class entry; if necessary; and if not, send an SI
1009  * message to make other backends (and this one) rebuild relcache entries.
1010  */
1011  pgrel = table_open(RelationRelationId, RowExclusiveLock);
1012  tuple = SearchSysCacheCopy1(RELOID,
1014  if (!HeapTupleIsValid(tuple))
1015  elog(ERROR, "cache lookup failed for relation %u",
1016  RelationGetRelid(rel));
1017  if (!((Form_pg_class) GETSTRUCT(tuple))->relhastriggers)
1018  {
1019  ((Form_pg_class) GETSTRUCT(tuple))->relhastriggers = true;
1020 
1021  CatalogTupleUpdate(pgrel, &tuple->t_self, tuple);
1022 
1024  }
1025  else
1027 
1028  heap_freetuple(tuple);
1029  table_close(pgrel, RowExclusiveLock);
1030 
1031  /*
1032  * If we're replacing a trigger, flush all the old dependencies before
1033  * recording new ones.
1034  */
1035  if (trigger_exists)
1036  deleteDependencyRecordsFor(TriggerRelationId, trigoid, true);
1037 
1038  /*
1039  * Record dependencies for trigger. Always place a normal dependency on
1040  * the function.
1041  */
1042  myself.classId = TriggerRelationId;
1043  myself.objectId = trigoid;
1044  myself.objectSubId = 0;
1045 
1046  referenced.classId = ProcedureRelationId;
1047  referenced.objectId = funcoid;
1048  referenced.objectSubId = 0;
1049  recordDependencyOn(&myself, &referenced, DEPENDENCY_NORMAL);
1050 
1051  if (isInternal && OidIsValid(constraintOid))
1052  {
1053  /*
1054  * Internally-generated trigger for a constraint, so make it an
1055  * internal dependency of the constraint. We can skip depending on
1056  * the relation(s), as there'll be an indirect dependency via the
1057  * constraint.
1058  */
1059  referenced.classId = ConstraintRelationId;
1060  referenced.objectId = constraintOid;
1061  referenced.objectSubId = 0;
1062  recordDependencyOn(&myself, &referenced, DEPENDENCY_INTERNAL);
1063  }
1064  else
1065  {
1066  /*
1067  * User CREATE TRIGGER, so place dependencies. We make trigger be
1068  * auto-dropped if its relation is dropped or if the FK relation is
1069  * dropped. (Auto drop is compatible with our pre-7.3 behavior.)
1070  */
1071  referenced.classId = RelationRelationId;
1072  referenced.objectId = RelationGetRelid(rel);
1073  referenced.objectSubId = 0;
1074  recordDependencyOn(&myself, &referenced, DEPENDENCY_AUTO);
1075 
1076  if (OidIsValid(constrrelid))
1077  {
1078  referenced.classId = RelationRelationId;
1079  referenced.objectId = constrrelid;
1080  referenced.objectSubId = 0;
1081  recordDependencyOn(&myself, &referenced, DEPENDENCY_AUTO);
1082  }
1083  /* Not possible to have an index dependency in this case */
1084  Assert(!OidIsValid(indexOid));
1085 
1086  /*
1087  * If it's a user-specified constraint trigger, make the constraint
1088  * internally dependent on the trigger instead of vice versa.
1089  */
1090  if (OidIsValid(constraintOid))
1091  {
1092  referenced.classId = ConstraintRelationId;
1093  referenced.objectId = constraintOid;
1094  referenced.objectSubId = 0;
1095  recordDependencyOn(&referenced, &myself, DEPENDENCY_INTERNAL);
1096  }
1097 
1098  /*
1099  * If it's a partition trigger, create the partition dependencies.
1100  */
1101  if (OidIsValid(parentTriggerOid))
1102  {
1103  ObjectAddressSet(referenced, TriggerRelationId, parentTriggerOid);
1104  recordDependencyOn(&myself, &referenced, DEPENDENCY_PARTITION_PRI);
1105  ObjectAddressSet(referenced, RelationRelationId, RelationGetRelid(rel));
1106  recordDependencyOn(&myself, &referenced, DEPENDENCY_PARTITION_SEC);
1107  }
1108  }
1109 
1110  /* If column-specific trigger, add normal dependencies on columns */
1111  if (columns != NULL)
1112  {
1113  int i;
1114 
1115  referenced.classId = RelationRelationId;
1116  referenced.objectId = RelationGetRelid(rel);
1117  for (i = 0; i < ncolumns; i++)
1118  {
1119  referenced.objectSubId = columns[i];
1120  recordDependencyOn(&myself, &referenced, DEPENDENCY_NORMAL);
1121  }
1122  }
1123 
1124  /*
1125  * If it has a WHEN clause, add dependencies on objects mentioned in the
1126  * expression (eg, functions, as well as any columns used).
1127  */
1128  if (whenRtable != NIL)
1129  recordDependencyOnExpr(&myself, whenClause, whenRtable,
1131 
1132  /* Post creation hook for new trigger */
1133  InvokeObjectPostCreateHookArg(TriggerRelationId, trigoid, 0,
1134  isInternal);
1135 
1136  /*
1137  * Lastly, create the trigger on child relations, if needed.
1138  */
1139  if (partition_recurse)
1140  {
1141  PartitionDesc partdesc = RelationGetPartitionDesc(rel, true);
1142  int i;
1143  MemoryContext oldcxt,
1144  perChildCxt;
1145 
1147  "part trig clone",
1149 
1150  /*
1151  * We don't currently expect to be called with a valid indexOid. If
1152  * that ever changes then we'll need to write code here to find the
1153  * corresponding child index.
1154  */
1155  Assert(!OidIsValid(indexOid));
1156 
1157  oldcxt = MemoryContextSwitchTo(perChildCxt);
1158 
1159  /* Iterate to create the trigger on each existing partition */
1160  for (i = 0; i < partdesc->nparts; i++)
1161  {
1162  CreateTrigStmt *childStmt;
1163  Relation childTbl;
1164  Node *qual;
1165 
1166  childTbl = table_open(partdesc->oids[i], ShareRowExclusiveLock);
1167 
1168  /*
1169  * Initialize our fabricated parse node by copying the original
1170  * one, then resetting fields that we pass separately.
1171  */
1172  childStmt = copyObject(stmt);
1173  childStmt->funcname = NIL;
1174  childStmt->whenClause = NULL;
1175 
1176  /* If there is a WHEN clause, create a modified copy of it */
1177  qual = copyObject(whenClause);
1178  qual = (Node *)
1180  childTbl, rel);
1181  qual = (Node *)
1183  childTbl, rel);
1184 
1185  CreateTriggerFiringOn(childStmt, queryString,
1186  partdesc->oids[i], refRelOid,
1188  funcoid, trigoid, qual,
1189  isInternal, true, trigger_fires_when);
1190 
1191  table_close(childTbl, NoLock);
1192 
1193  MemoryContextReset(perChildCxt);
1194  }
1195 
1196  MemoryContextSwitchTo(oldcxt);
1197  MemoryContextDelete(perChildCxt);
1198  }
1199 
1200  /* Keep lock on target rel until end of xact */
1201  table_close(rel, NoLock);
1202 
1203  return myself;
1204 }
AclResult
Definition: acl.h:182
@ ACLCHECK_OK
Definition: acl.h:183
void aclcheck_error(AclResult aclerr, ObjectType objtype, const char *objectname)
Definition: aclchk.c:2622
AclResult object_aclcheck(Oid classid, Oid objectid, Oid roleid, AclMode mode)
Definition: aclchk.c:3810
AclResult pg_class_aclcheck(Oid table_oid, Oid roleid, AclMode mode)
Definition: aclchk.c:4013
#define InvalidAttrNumber
Definition: attnum.h:23
static Datum values[MAXATTR]
Definition: bootstrap.c:151
#define CStringGetTextDatum(s)
Definition: builtins.h:97
#define NameStr(name)
Definition: c.h:725
#define OidIsValid(objectId)
Definition: c.h:754
bool IsSystemRelation(Relation relation)
Definition: catalog.c:73
Oid GetNewOidWithIndex(Relation relation, Oid indexId, AttrNumber oidcolumn)
Definition: catalog.c:419
void recordDependencyOnExpr(const ObjectAddress *depender, Node *expr, List *rtable, DependencyType behavior)
Definition: dependency.c:1553
@ DEPENDENCY_AUTO
Definition: dependency.h:34
@ DEPENDENCY_INTERNAL
Definition: dependency.h:35
@ DEPENDENCY_PARTITION_PRI
Definition: dependency.h:36
@ DEPENDENCY_PARTITION_SEC
Definition: dependency.h:37
@ DEPENDENCY_NORMAL
Definition: dependency.h:33
int errdetail(const char *fmt,...)
Definition: elog.c:1203
int errhint(const char *fmt,...)
Definition: elog.c:1317
#define elog(elevel,...)
Definition: elog.h:225
#define DirectFunctionCall1(func, arg1)
Definition: fmgr.h:641
bool allowSystemTableMods
Definition: globals.c:129
HeapTuple heap_copytuple(HeapTuple tuple)
Definition: heaptuple.c:776
HeapTuple heap_form_tuple(TupleDesc tupleDescriptor, const Datum *values, const bool *isnull)
Definition: heaptuple.c:1116
void heap_freetuple(HeapTuple htup)
Definition: heaptuple.c:1434
void CatalogTupleUpdate(Relation heapRel, ItemPointer otid, HeapTuple tup)
Definition: indexing.c:313
void CatalogTupleInsert(Relation heapRel, HeapTuple tup)
Definition: indexing.c:233
int2vector * buildint2vector(const int16 *int2s, int n)
Definition: int.c:114
void CacheInvalidateRelcacheByTuple(HeapTuple classTuple)
Definition: inval.c:1587
void LockRelationOid(Oid relid, LOCKMODE lockmode)
Definition: lmgr.c:107
#define NoLock
Definition: lockdefs.h:34
#define ShareRowExclusiveLock
Definition: lockdefs.h:41
#define RowExclusiveLock
Definition: lockdefs.h:38
char get_rel_relkind(Oid relid)
Definition: lsyscache.c:2003
char * get_rel_name(Oid relid)
Definition: lsyscache.c:1928
Oid get_func_rettype(Oid funcid)
Definition: lsyscache.c:1655
Alias * makeAlias(const char *aliasname, List *colnames)
Definition: makefuncs.c:389
void MemoryContextReset(MemoryContext context)
Definition: mcxt.c:383
MemoryContext CurrentMemoryContext
Definition: mcxt.c:143
#define AllocSetContextCreate
Definition: memutils.h:129
#define ALLOCSET_SMALL_SIZES
Definition: memutils.h:170
Oid GetUserId(void)
Definition: miscinit.c:524
Datum namein(PG_FUNCTION_ARGS)
Definition: name.c:48
char * NameListToString(const List *names)
Definition: namespace.c:3594
#define RangeVarGetRelid(relation, lockmode, missing_ok)
Definition: namespace.h:80
#define copyObject(obj)
Definition: nodes.h:224
#define InvokeObjectPostCreateHookArg(classId, objectId, subId, is_internal)
Definition: objectaccess.h:175
ObjectType get_relkind_objtype(char relkind)
#define ObjectAddressSet(addr, class_id, object_id)
Definition: objectaddress.h:40
char * nodeToString(const void *obj)
Definition: outfuncs.c:794
Node * transformWhereClause(ParseState *pstate, Node *clause, ParseExprKind exprKind, const char *constructName)
void assign_expr_collations(ParseState *pstate, Node *expr)
Oid LookupFuncName(List *funcname, int nargs, const Oid *argtypes, bool missing_ok)
Definition: parse_func.c:2144
void free_parsestate(ParseState *pstate)
Definition: parse_node.c:72
int parser_errposition(ParseState *pstate, int location)
Definition: parse_node.c:106
ParseState * make_parsestate(ParseState *parentParseState)
Definition: parse_node.c:39
@ EXPR_KIND_TRIGGER_WHEN
Definition: parse_node.h:77
ParseNamespaceItem * addRangeTableEntryForRelation(ParseState *pstate, Relation rel, int lockmode, Alias *alias, bool inh, bool inFromCl)
void addNSItemToQuery(ParseState *pstate, ParseNamespaceItem *nsitem, bool addToJoinList, bool addToRelNameSpace, bool addToVarNameSpace)
int attnameAttNum(Relation rd, const char *attname, bool sysColOK)
@ OBJECT_FUNCTION
Definition: parsenodes.h:2287
#define ACL_EXECUTE
Definition: parsenodes.h:83
#define ACL_TRIGGER
Definition: parsenodes.h:82
PartitionDesc RelationGetPartitionDesc(Relation rel, bool omit_detached)
Definition: partdesc.c:71
List * map_partition_varattnos(List *expr, int fromrel_varno, Relation to_rel, Relation from_rel)
Definition: partition.c:222
int16 attnum
Definition: pg_attribute.h:74
int errdetail_relkind_not_supported(char relkind)
Definition: pg_class.c:24
FormData_pg_class * Form_pg_class
Definition: pg_class.h:153
#define NAMEDATALEN
Oid CreateConstraintEntry(const char *constraintName, Oid constraintNamespace, char constraintType, bool isDeferrable, bool isDeferred, bool isValidated, Oid parentConstrId, Oid relId, const int16 *constraintKey, int constraintNKeys, int constraintNTotalKeys, Oid domainId, Oid indexRelId, Oid foreignRelId, const int16 *foreignKey, const Oid *pfEqOp, const Oid *ppEqOp, const Oid *ffEqOp, int foreignNKeys, char foreignUpdateType, char foreignDeleteType, const int16 *fkDeleteSetCols, int numFkDeleteSetCols, char foreignMatchType, const Oid *exclOp, Node *conExpr, const char *conBin, bool conIsLocal, int16 conInhCount, bool conNoInherit, bool conPeriod, bool is_internal)
Definition: pg_constraint.c:51
const void size_t len
void recordDependencyOn(const ObjectAddress *depender, const ObjectAddress *referenced, DependencyType behavior)
Definition: pg_depend.c:45
long deleteDependencyRecordsFor(Oid classId, Oid objectId, bool skipExtensionDeps)
Definition: pg_depend.c:301
List * find_all_inheritors(Oid parentrelId, LOCKMODE lockmode, List **numparents)
Definition: pg_inherits.c:255
bool has_superclass(Oid relationId)
Definition: pg_inherits.c:377
#define lfirst_node(type, lc)
Definition: pg_list.h:176
static int list_length(const List *l)
Definition: pg_list.h:152
#define snprintf
Definition: port.h:238
static Datum PointerGetDatum(const void *X)
Definition: postgres.h:322
uintptr_t Datum
Definition: postgres.h:64
static Datum Int16GetDatum(int16 X)
Definition: postgres.h:172
static Datum BoolGetDatum(bool X)
Definition: postgres.h:102
static Pointer DatumGetPointer(Datum X)
Definition: postgres.h:312
#define InvalidOid
Definition: postgres_ext.h:36
#define PRS2_OLD_VARNO
Definition: primnodes.h:244
#define PRS2_NEW_VARNO
Definition: primnodes.h:245
MemoryContextSwitchTo(old_ctx)
#define RelationGetRelid(relation)
Definition: rel.h:505
#define RelationGetDescr(relation)
Definition: rel.h:531
#define RelationGetRelationName(relation)
Definition: rel.h:539
#define RelationGetNamespace(relation)
Definition: rel.h:546
#define ERRCODE_DUPLICATE_OBJECT
Definition: streamutil.c:30
Node * whenClause
Definition: parsenodes.h:3042
ItemPointerData t_self
Definition: htup.h:65
Definition: nodes.h:129
const char * p_sourcetext
Definition: parse_node.h:209
List * p_rtable
Definition: parse_node.h:212
TupleDesc rd_att
Definition: rel.h:112
Oid rd_id
Definition: rel.h:113
Form_pg_class rd_rel
Definition: rel.h:111
Definition: primnodes.h:248
ParseLoc location
Definition: primnodes.h:293
AttrNumber varattno
Definition: primnodes.h:260
int varno
Definition: primnodes.h:255
Definition: c.h:694
#define SearchSysCacheCopy1(cacheId, key1)
Definition: syscache.h:91
Relation table_openrv(const RangeVar *relation, LOCKMODE lockmode)
Definition: table.c:83
#define TupleDescAttr(tupdesc, i)
Definition: tupdesc.h:92
#define strVal(v)
Definition: value.h:82
List * pull_var_clause(Node *node, int flags)
Definition: var.c:609
Datum byteain(PG_FUNCTION_ARGS)
Definition: varlena.c:290
const char * name
void CommandCounterIncrement(void)
Definition: xact.c:1099

References AccessShareLock, ACL_EXECUTE, ACL_TRIGGER, aclcheck_error(), ACLCHECK_OK, addNSItemToQuery(), addRangeTableEntryForRelation(), ALLOCSET_SMALL_SIZES, AllocSetContextCreate, allowSystemTableMods, generate_unaccent_rules::args, Assert, assign_expr_collations(), attnameAttNum(), attnum, BoolGetDatum(), BTEqualStrategyNumber, buildint2vector(), byteain(), CacheInvalidateRelcacheByTuple(), CatalogTupleInsert(), CatalogTupleUpdate(), ObjectAddress::classId, CommandCounterIncrement(), copyObject, CreateConstraintEntry(), CStringGetDatum(), CStringGetTextDatum, CurrentMemoryContext, DatumGetPointer(), deleteDependencyRecordsFor(), DEPENDENCY_AUTO, DEPENDENCY_INTERNAL, DEPENDENCY_NORMAL, DEPENDENCY_PARTITION_PRI, DEPENDENCY_PARTITION_SEC, DirectFunctionCall1, elog, ereport, errcode(), ERRCODE_DUPLICATE_OBJECT, errdetail(), errdetail_relkind_not_supported(), errhint(), errmsg(), ERROR, EXPR_KIND_TRIGGER_WHEN, find_all_inheritors(), free_parsestate(), CreateTrigStmt::funcname, get_func_rettype(), get_rel_name(), get_rel_relkind(), get_relkind_objtype(), GetNewOidWithIndex(), GETSTRUCT, GetUserId(), has_superclass(), heap_copytuple(), heap_form_tuple(), heap_freetuple(), HeapTupleIsValid, i, Int16GetDatum(), InvalidAttrNumber, InvalidOid, InvokeObjectPostCreateHookArg, TriggerTransition::isNew, IsSystemRelation(), TriggerTransition::isTable, j, len, lfirst, lfirst_node, list_free(), list_length(), Var::location, LockRelationOid(), LookupFuncName(), make_parsestate(), makeAlias(), map_partition_varattnos(), MemoryContextDelete(), MemoryContextReset(), MemoryContextSwitchTo(), name, TriggerTransition::name, NAMEDATALEN, namein(), NameListToString(), NameStr, NIL, nodeToString(), NoLock, PartitionDescData::nparts, object_aclcheck(), OBJECT_FUNCTION, ObjectAddressSet, ObjectAddress::objectId, ObjectIdGetDatum(), ObjectAddress::objectSubId, OidIsValid, PartitionDescData::oids, ParseState::p_rtable, ParseState::p_sourcetext, palloc(), parser_errposition(), pfree(), pg_class_aclcheck(), PointerGetDatum(), PRS2_NEW_VARNO, PRS2_OLD_VARNO, pull_var_clause(), RangeVarGetRelid, RelationData::rd_att, RelationData::rd_id, RelationData::rd_rel, recordDependencyOn(), recordDependencyOnExpr(), RelationGetDescr, RelationGetNamespace, RelationGetPartitionDesc(), RelationGetRelationName, RelationGetRelid, RowExclusiveLock, ScanKeyInit(), SearchSysCacheCopy1, ShareRowExclusiveLock, snprintf, stmt, strVal, systable_beginscan(), systable_endscan(), systable_getnext(), HeapTupleData::t_self, table_close(), table_open(), table_openrv(), transformWhereClause(), TupleDescAttr, values, Var::varattno, Var::varno, and CreateTrigStmt::whenClause.

Referenced by CloneRowTriggersToPartition(), and CreateTrigger().

◆ EnableDisableTrigger()

void EnableDisableTrigger ( Relation  rel,
const char *  tgname,
Oid  tgparent,
char  fires_when,
bool  skip_system,
bool  recurse,
LOCKMODE  lockmode 
)

Definition at line 1722 of file trigger.c.

1725 {
1726  Relation tgrel;
1727  int nkeys;
1728  ScanKeyData keys[2];
1729  SysScanDesc tgscan;
1730  HeapTuple tuple;
1731  bool found;
1732  bool changed;
1733 
1734  /* Scan the relevant entries in pg_triggers */
1735  tgrel = table_open(TriggerRelationId, RowExclusiveLock);
1736 
1737  ScanKeyInit(&keys[0],
1738  Anum_pg_trigger_tgrelid,
1739  BTEqualStrategyNumber, F_OIDEQ,
1741  if (tgname)
1742  {
1743  ScanKeyInit(&keys[1],
1744  Anum_pg_trigger_tgname,
1745  BTEqualStrategyNumber, F_NAMEEQ,
1746  CStringGetDatum(tgname));
1747  nkeys = 2;
1748  }
1749  else
1750  nkeys = 1;
1751 
1752  tgscan = systable_beginscan(tgrel, TriggerRelidNameIndexId, true,
1753  NULL, nkeys, keys);
1754 
1755  found = changed = false;
1756 
1757  while (HeapTupleIsValid(tuple = systable_getnext(tgscan)))
1758  {
1759  Form_pg_trigger oldtrig = (Form_pg_trigger) GETSTRUCT(tuple);
1760 
1761  if (OidIsValid(tgparent) && tgparent != oldtrig->tgparentid)
1762  continue;
1763 
1764  if (oldtrig->tgisinternal)
1765  {
1766  /* system trigger ... ok to process? */
1767  if (skip_system)
1768  continue;
1769  if (!superuser())
1770  ereport(ERROR,
1771  (errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
1772  errmsg("permission denied: \"%s\" is a system trigger",
1773  NameStr(oldtrig->tgname))));
1774  }
1775 
1776  found = true;
1777 
1778  if (oldtrig->tgenabled != fires_when)
1779  {
1780  /* need to change this one ... make a copy to scribble on */
1781  HeapTuple newtup = heap_copytuple(tuple);
1782  Form_pg_trigger newtrig = (Form_pg_trigger) GETSTRUCT(newtup);
1783 
1784  newtrig->tgenabled = fires_when;
1785 
1786  CatalogTupleUpdate(tgrel, &newtup->t_self, newtup);
1787 
1788  heap_freetuple(newtup);
1789 
1790  changed = true;
1791  }
1792 
1793  /*
1794  * When altering FOR EACH ROW triggers on a partitioned table, do the
1795  * same on the partitions as well, unless ONLY is specified.
1796  *
1797  * Note that we recurse even if we didn't change the trigger above,
1798  * because the partitions' copy of the trigger may have a different
1799  * value of tgenabled than the parent's trigger and thus might need to
1800  * be changed.
1801  */
1802  if (recurse &&
1803  rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE &&
1804  (TRIGGER_FOR_ROW(oldtrig->tgtype)))
1805  {
1806  PartitionDesc partdesc = RelationGetPartitionDesc(rel, true);
1807  int i;
1808 
1809  for (i = 0; i < partdesc->nparts; i++)
1810  {
1811  Relation part;
1812 
1813  part = relation_open(partdesc->oids[i], lockmode);
1814  /* Match on child triggers' tgparentid, not their name */
1815  EnableDisableTrigger(part, NULL, oldtrig->oid,
1816  fires_when, skip_system, recurse,
1817  lockmode);
1818  table_close(part, NoLock); /* keep lock till commit */
1819  }
1820  }
1821 
1822  InvokeObjectPostAlterHook(TriggerRelationId,
1823  oldtrig->oid, 0);
1824  }
1825 
1826  systable_endscan(tgscan);
1827 
1828  table_close(tgrel, RowExclusiveLock);
1829 
1830  if (tgname && !found)
1831  ereport(ERROR,
1832  (errcode(ERRCODE_UNDEFINED_OBJECT),
1833  errmsg("trigger \"%s\" for table \"%s\" does not exist",
1834  tgname, RelationGetRelationName(rel))));
1835 
1836  /*
1837  * If we changed anything, broadcast a SI inval message to force each
1838  * backend (including our own!) to rebuild relation's relcache entry.
1839  * Otherwise they will fail to apply the change promptly.
1840  */
1841  if (changed)
1843 }
void CacheInvalidateRelcache(Relation relation)
Definition: inval.c:1553
#define InvokeObjectPostAlterHook(classId, objectId, subId)
Definition: objectaccess.h:197
Relation relation_open(Oid relationId, LOCKMODE lockmode)
Definition: relation.c:47
bool superuser(void)
Definition: superuser.c:46
void EnableDisableTrigger(Relation rel, const char *tgname, Oid tgparent, char fires_when, bool skip_system, bool recurse, LOCKMODE lockmode)
Definition: trigger.c:1722

References BTEqualStrategyNumber, CacheInvalidateRelcache(), CatalogTupleUpdate(), CStringGetDatum(), ereport, errcode(), errmsg(), ERROR, GETSTRUCT, heap_copytuple(), heap_freetuple(), HeapTupleIsValid, i, InvokeObjectPostAlterHook, NameStr, NoLock, PartitionDescData::nparts, ObjectIdGetDatum(), OidIsValid, PartitionDescData::oids, RelationData::rd_rel, relation_open(), RelationGetPartitionDesc(), RelationGetRelationName, RelationGetRelid, RowExclusiveLock, ScanKeyInit(), superuser(), systable_beginscan(), systable_endscan(), systable_getnext(), HeapTupleData::t_self, table_close(), and table_open().

Referenced by ATExecEnableDisableTrigger().

◆ ExecARDeleteTriggers()

void ExecARDeleteTriggers ( EState estate,
ResultRelInfo relinfo,
ItemPointer  tupleid,
HeapTuple  fdw_trigtuple,
TransitionCaptureState transition_capture,
bool  is_crosspart_update 
)

Definition at line 2775 of file trigger.c.

2781 {
2782  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2783 
2784  if ((trigdesc && trigdesc->trig_delete_after_row) ||
2785  (transition_capture && transition_capture->tcs_delete_old_table))
2786  {
2787  TupleTableSlot *slot = ExecGetTriggerOldSlot(estate, relinfo);
2788 
2789  Assert(HeapTupleIsValid(fdw_trigtuple) ^ ItemPointerIsValid(tupleid));
2790  if (fdw_trigtuple == NULL)
2791  GetTupleForTrigger(estate,
2792  NULL,
2793  relinfo,
2794  tupleid,
2796  slot,
2797  NULL,
2798  NULL,
2799  NULL);
2800  else
2801  ExecForceStoreHeapTuple(fdw_trigtuple, slot, false);
2802 
2803  AfterTriggerSaveEvent(estate, relinfo, NULL, NULL,
2805  true, slot, NULL, NIL, NULL,
2806  transition_capture,
2807  is_crosspart_update);
2808  }
2809 }
void ExecForceStoreHeapTuple(HeapTuple tuple, TupleTableSlot *slot, bool shouldFree)
Definition: execTuples.c:1556
TupleTableSlot * ExecGetTriggerOldSlot(EState *estate, ResultRelInfo *relInfo)
Definition: execUtils.c:1140
static bool ItemPointerIsValid(const ItemPointerData *pointer)
Definition: itemptr.h:83
@ LockTupleExclusive
Definition: lockoptions.h:58
TriggerDesc * ri_TrigDesc
Definition: execnodes.h:492
bool trig_delete_after_row
Definition: reltrigger.h:67
static void AfterTriggerSaveEvent(EState *estate, ResultRelInfo *relinfo, ResultRelInfo *src_partinfo, ResultRelInfo *dst_partinfo, int event, bool row_trigger, TupleTableSlot *oldslot, TupleTableSlot *newslot, List *recheckIndexes, Bitmapset *modifiedCols, TransitionCaptureState *transition_capture, bool is_crosspart_update)
Definition: trigger.c:6067
static bool GetTupleForTrigger(EState *estate, EPQState *epqstate, ResultRelInfo *relinfo, ItemPointer tid, LockTupleMode lockmode, TupleTableSlot *oldslot, TupleTableSlot **epqslot, TM_Result *tmresultp, TM_FailureData *tmfdp)
Definition: trigger.c:3287
#define TRIGGER_EVENT_DELETE
Definition: trigger.h:93

References AfterTriggerSaveEvent(), Assert, ExecForceStoreHeapTuple(), ExecGetTriggerOldSlot(), GetTupleForTrigger(), HeapTupleIsValid, ItemPointerIsValid(), LockTupleExclusive, NIL, ResultRelInfo::ri_TrigDesc, TransitionCaptureState::tcs_delete_old_table, TriggerDesc::trig_delete_after_row, and TRIGGER_EVENT_DELETE.

Referenced by ExecDeleteEpilogue(), and ExecSimpleRelationDelete().

◆ ExecARInsertTriggers()

void ExecARInsertTriggers ( EState estate,
ResultRelInfo relinfo,
TupleTableSlot slot,
List recheckIndexes,
TransitionCaptureState transition_capture 
)

Definition at line 2535 of file trigger.c.

2538 {
2539  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2540 
2541  if ((trigdesc && trigdesc->trig_insert_after_row) ||
2542  (transition_capture && transition_capture->tcs_insert_new_table))
2543  AfterTriggerSaveEvent(estate, relinfo, NULL, NULL,
2545  true, NULL, slot,
2546  recheckIndexes, NULL,
2547  transition_capture,
2548  false);
2549 }
bool trig_insert_after_row
Definition: reltrigger.h:57
#define TRIGGER_EVENT_INSERT
Definition: trigger.h:92

References AfterTriggerSaveEvent(), ResultRelInfo::ri_TrigDesc, TransitionCaptureState::tcs_insert_new_table, TriggerDesc::trig_insert_after_row, and TRIGGER_EVENT_INSERT.

Referenced by CopyFrom(), CopyMultiInsertBufferFlush(), ExecBatchInsert(), ExecInsert(), and ExecSimpleRelationInsert().

◆ ExecARUpdateTriggers()

void ExecARUpdateTriggers ( EState estate,
ResultRelInfo relinfo,
ResultRelInfo src_partinfo,
ResultRelInfo dst_partinfo,
ItemPointer  tupleid,
HeapTuple  fdw_trigtuple,
TupleTableSlot newslot,
List recheckIndexes,
TransitionCaptureState transition_capture,
bool  is_crosspart_update 
)

Definition at line 3098 of file trigger.c.

3107 {
3108  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
3109 
3110  if ((trigdesc && trigdesc->trig_update_after_row) ||
3111  (transition_capture &&
3112  (transition_capture->tcs_update_old_table ||
3113  transition_capture->tcs_update_new_table)))
3114  {
3115  /*
3116  * Note: if the UPDATE is converted into a DELETE+INSERT as part of
3117  * update-partition-key operation, then this function is also called
3118  * separately for DELETE and INSERT to capture transition table rows.
3119  * In such case, either old tuple or new tuple can be NULL.
3120  */
3121  TupleTableSlot *oldslot;
3122  ResultRelInfo *tupsrc;
3123 
3124  Assert((src_partinfo != NULL && dst_partinfo != NULL) ||
3125  !is_crosspart_update);
3126 
3127  tupsrc = src_partinfo ? src_partinfo : relinfo;
3128  oldslot = ExecGetTriggerOldSlot(estate, tupsrc);
3129 
3130  if (fdw_trigtuple == NULL && ItemPointerIsValid(tupleid))
3131  GetTupleForTrigger(estate,
3132  NULL,
3133  tupsrc,
3134  tupleid,
3136  oldslot,
3137  NULL,
3138  NULL,
3139  NULL);
3140  else if (fdw_trigtuple != NULL)
3141  ExecForceStoreHeapTuple(fdw_trigtuple, oldslot, false);
3142  else
3143  ExecClearTuple(oldslot);
3144 
3145  AfterTriggerSaveEvent(estate, relinfo,
3146  src_partinfo, dst_partinfo,
3148  true,
3149  oldslot, newslot, recheckIndexes,
3150  ExecGetAllUpdatedCols(relinfo, estate),
3151  transition_capture,
3152  is_crosspart_update);
3153  }
3154 }
Bitmapset * ExecGetAllUpdatedCols(ResultRelInfo *relinfo, EState *estate)
Definition: execUtils.c:1326
bool trig_update_after_row
Definition: reltrigger.h:62
#define TRIGGER_EVENT_UPDATE
Definition: trigger.h:94
static TupleTableSlot * ExecClearTuple(TupleTableSlot *slot)
Definition: tuptable.h:454

References AfterTriggerSaveEvent(), Assert, ExecClearTuple(), ExecForceStoreHeapTuple(), ExecGetAllUpdatedCols(), ExecGetTriggerOldSlot(), GetTupleForTrigger(), ItemPointerIsValid(), LockTupleExclusive, ResultRelInfo::ri_TrigDesc, TransitionCaptureState::tcs_update_new_table, TransitionCaptureState::tcs_update_old_table, TriggerDesc::trig_update_after_row, and TRIGGER_EVENT_UPDATE.

Referenced by ExecCrossPartitionUpdateForeignKey(), ExecDeleteEpilogue(), ExecInsert(), ExecSimpleRelationUpdate(), and ExecUpdateEpilogue().

◆ ExecASDeleteTriggers()

void ExecASDeleteTriggers ( EState estate,
ResultRelInfo relinfo,
TransitionCaptureState transition_capture 
)

Definition at line 2664 of file trigger.c.

2666 {
2667  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2668 
2669  if (trigdesc && trigdesc->trig_delete_after_statement)
2670  AfterTriggerSaveEvent(estate, relinfo, NULL, NULL,
2672  false, NULL, NULL, NIL, NULL, transition_capture,
2673  false);
2674 }
bool trig_delete_after_statement
Definition: reltrigger.h:70

References AfterTriggerSaveEvent(), NIL, ResultRelInfo::ri_TrigDesc, TriggerDesc::trig_delete_after_statement, and TRIGGER_EVENT_DELETE.

Referenced by fireASTriggers().

◆ ExecASInsertTriggers()

void ExecASInsertTriggers ( EState estate,
ResultRelInfo relinfo,
TransitionCaptureState transition_capture 
)

Definition at line 2446 of file trigger.c.

2448 {
2449  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2450 
2451  if (trigdesc && trigdesc->trig_insert_after_statement)
2452  AfterTriggerSaveEvent(estate, relinfo, NULL, NULL,
2454  false, NULL, NULL, NIL, NULL, transition_capture,
2455  false);
2456 }
bool trig_insert_after_statement
Definition: reltrigger.h:60

References AfterTriggerSaveEvent(), NIL, ResultRelInfo::ri_TrigDesc, TriggerDesc::trig_insert_after_statement, and TRIGGER_EVENT_INSERT.

Referenced by CopyFrom(), and fireASTriggers().

◆ ExecASTruncateTriggers()

void ExecASTruncateTriggers ( EState estate,
ResultRelInfo relinfo 
)

Definition at line 3270 of file trigger.c.

3271 {
3272  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
3273 
3274  if (trigdesc && trigdesc->trig_truncate_after_statement)
3275  AfterTriggerSaveEvent(estate, relinfo,
3276  NULL, NULL,
3278  false, NULL, NULL, NIL, NULL, NULL,
3279  false);
3280 }
bool trig_truncate_after_statement
Definition: reltrigger.h:73
#define TRIGGER_EVENT_TRUNCATE
Definition: trigger.h:95

References AfterTriggerSaveEvent(), NIL, ResultRelInfo::ri_TrigDesc, TriggerDesc::trig_truncate_after_statement, and TRIGGER_EVENT_TRUNCATE.

Referenced by ExecuteTruncateGuts().

◆ ExecASUpdateTriggers()

void ExecASUpdateTriggers ( EState estate,
ResultRelInfo relinfo,
TransitionCaptureState transition_capture 
)

Definition at line 2917 of file trigger.c.

2919 {
2920  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2921 
2922  /* statement-level triggers operate on the parent table */
2923  Assert(relinfo->ri_RootResultRelInfo == NULL);
2924 
2925  if (trigdesc && trigdesc->trig_update_after_statement)
2926  AfterTriggerSaveEvent(estate, relinfo, NULL, NULL,
2928  false, NULL, NULL, NIL,
2929  ExecGetAllUpdatedCols(relinfo, estate),
2930  transition_capture,
2931  false);
2932 }
struct ResultRelInfo * ri_RootResultRelInfo
Definition: execnodes.h:590
bool trig_update_after_statement
Definition: reltrigger.h:65

References AfterTriggerSaveEvent(), Assert, ExecGetAllUpdatedCols(), NIL, ResultRelInfo::ri_RootResultRelInfo, ResultRelInfo::ri_TrigDesc, TriggerDesc::trig_update_after_statement, and TRIGGER_EVENT_UPDATE.

Referenced by fireASTriggers().

◆ ExecBRDeleteTriggers()

bool ExecBRDeleteTriggers ( EState estate,
EPQState epqstate,
ResultRelInfo relinfo,
ItemPointer  tupleid,
HeapTuple  fdw_trigtuple,
TupleTableSlot **  epqslot,
TM_Result tmresult,
TM_FailureData tmfd 
)

Definition at line 2684 of file trigger.c.

2691 {
2692  TupleTableSlot *slot = ExecGetTriggerOldSlot(estate, relinfo);
2693  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2694  bool result = true;
2695  TriggerData LocTriggerData = {0};
2696  HeapTuple trigtuple;
2697  bool should_free = false;
2698  int i;
2699 
2700  Assert(HeapTupleIsValid(fdw_trigtuple) ^ ItemPointerIsValid(tupleid));
2701  if (fdw_trigtuple == NULL)
2702  {
2703  TupleTableSlot *epqslot_candidate = NULL;
2704 
2705  if (!GetTupleForTrigger(estate, epqstate, relinfo, tupleid,
2706  LockTupleExclusive, slot, &epqslot_candidate,
2707  tmresult, tmfd))
2708  return false;
2709 
2710  /*
2711  * If the tuple was concurrently updated and the caller of this
2712  * function requested for the updated tuple, skip the trigger
2713  * execution.
2714  */
2715  if (epqslot_candidate != NULL && epqslot != NULL)
2716  {
2717  *epqslot = epqslot_candidate;
2718  return false;
2719  }
2720 
2721  trigtuple = ExecFetchSlotHeapTuple(slot, true, &should_free);
2722  }
2723  else
2724  {
2725  trigtuple = fdw_trigtuple;
2726  ExecForceStoreHeapTuple(trigtuple, slot, false);
2727  }
2728 
2729  LocTriggerData.type = T_TriggerData;
2730  LocTriggerData.tg_event = TRIGGER_EVENT_DELETE |
2733  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
2734  for (i = 0; i < trigdesc->numtriggers; i++)
2735  {
2736  HeapTuple newtuple;
2737  Trigger *trigger = &trigdesc->triggers[i];
2738 
2739  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
2740  TRIGGER_TYPE_ROW,
2741  TRIGGER_TYPE_BEFORE,
2742  TRIGGER_TYPE_DELETE))
2743  continue;
2744  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
2745  NULL, slot, NULL))
2746  continue;
2747 
2748  LocTriggerData.tg_trigslot = slot;
2749  LocTriggerData.tg_trigtuple = trigtuple;
2750  LocTriggerData.tg_trigger = trigger;
2751  newtuple = ExecCallTriggerFunc(&LocTriggerData,
2752  i,
2753  relinfo->ri_TrigFunctions,
2754  relinfo->ri_TrigInstrument,
2755  GetPerTupleMemoryContext(estate));
2756  if (newtuple == NULL)
2757  {
2758  result = false; /* tell caller to suppress delete */
2759  break;
2760  }
2761  if (newtuple != trigtuple)
2762  heap_freetuple(newtuple);
2763  }
2764  if (should_free)
2765  heap_freetuple(trigtuple);
2766 
2767  return result;
2768 }
HeapTuple ExecFetchSlotHeapTuple(TupleTableSlot *slot, bool materialize, bool *shouldFree)
Definition: execTuples.c:1731
#define GetPerTupleMemoryContext(estate)
Definition: executor.h:566
Instrumentation * ri_TrigInstrument
Definition: execnodes.h:501
Relation ri_RelationDesc
Definition: execnodes.h:459
FmgrInfo * ri_TrigFunctions
Definition: execnodes.h:495
NodeTag type
Definition: trigger.h:33
Relation tg_relation
Definition: trigger.h:35
TriggerEvent tg_event
Definition: trigger.h:34
TupleTableSlot * tg_trigslot
Definition: trigger.h:39
Trigger * tg_trigger
Definition: trigger.h:38
HeapTuple tg_trigtuple
Definition: trigger.h:36
int16 tgtype
Definition: reltrigger.h:29
static bool TriggerEnabled(EState *estate, ResultRelInfo *relinfo, Trigger *trigger, TriggerEvent event, Bitmapset *modifiedCols, TupleTableSlot *oldslot, TupleTableSlot *newslot)
Definition: trigger.c:3423
static HeapTuple ExecCallTriggerFunc(TriggerData *trigdata, int tgindx, FmgrInfo *finfo, Instrumentation *instr, MemoryContext per_tuple_context)
Definition: trigger.c:2303
#define TRIGGER_EVENT_ROW
Definition: trigger.h:98
#define TRIGGER_EVENT_BEFORE
Definition: trigger.h:100

References Assert, ExecCallTriggerFunc(), ExecFetchSlotHeapTuple(), ExecForceStoreHeapTuple(), ExecGetTriggerOldSlot(), GetPerTupleMemoryContext, GetTupleForTrigger(), heap_freetuple(), HeapTupleIsValid, i, ItemPointerIsValid(), LockTupleExclusive, TriggerDesc::numtriggers, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, TriggerData::tg_trigslot, TriggerData::tg_trigtuple, Trigger::tgtype, TRIGGER_EVENT_BEFORE, TRIGGER_EVENT_DELETE, TRIGGER_EVENT_ROW, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by ExecDeletePrologue(), and ExecSimpleRelationDelete().

◆ ExecBRInsertTriggers()

bool ExecBRInsertTriggers ( EState estate,
ResultRelInfo relinfo,
TupleTableSlot slot 
)

Definition at line 2459 of file trigger.c.

2461 {
2462  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2463  HeapTuple newtuple = NULL;
2464  bool should_free;
2465  TriggerData LocTriggerData = {0};
2466  int i;
2467 
2468  LocTriggerData.type = T_TriggerData;
2469  LocTriggerData.tg_event = TRIGGER_EVENT_INSERT |
2472  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
2473  for (i = 0; i < trigdesc->numtriggers; i++)
2474  {
2475  Trigger *trigger = &trigdesc->triggers[i];
2476  HeapTuple oldtuple;
2477 
2478  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
2479  TRIGGER_TYPE_ROW,
2480  TRIGGER_TYPE_BEFORE,
2481  TRIGGER_TYPE_INSERT))
2482  continue;
2483  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
2484  NULL, NULL, slot))
2485  continue;
2486 
2487  if (!newtuple)
2488  newtuple = ExecFetchSlotHeapTuple(slot, true, &should_free);
2489 
2490  LocTriggerData.tg_trigslot = slot;
2491  LocTriggerData.tg_trigtuple = oldtuple = newtuple;
2492  LocTriggerData.tg_trigger = trigger;
2493  newtuple = ExecCallTriggerFunc(&LocTriggerData,
2494  i,
2495  relinfo->ri_TrigFunctions,
2496  relinfo->ri_TrigInstrument,
2497  GetPerTupleMemoryContext(estate));
2498  if (newtuple == NULL)
2499  {
2500  if (should_free)
2501  heap_freetuple(oldtuple);
2502  return false; /* "do nothing" */
2503  }
2504  else if (newtuple != oldtuple)
2505  {
2506  ExecForceStoreHeapTuple(newtuple, slot, false);
2507 
2508  /*
2509  * After a tuple in a partition goes through a trigger, the user
2510  * could have changed the partition key enough that the tuple no
2511  * longer fits the partition. Verify that.
2512  */
2513  if (trigger->tgisclone &&
2514  !ExecPartitionCheck(relinfo, slot, estate, false))
2515  ereport(ERROR,
2516  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
2517  errmsg("moving row to another partition during a BEFORE FOR EACH ROW trigger is not supported"),
2518  errdetail("Before executing trigger \"%s\", the row was to be in partition \"%s.%s\".",
2519  trigger->tgname,
2522 
2523  if (should_free)
2524  heap_freetuple(oldtuple);
2525 
2526  /* signal tuple should be re-fetched if used */
2527  newtuple = NULL;
2528  }
2529  }
2530 
2531  return true;
2532 }
bool ExecPartitionCheck(ResultRelInfo *resultRelInfo, TupleTableSlot *slot, EState *estate, bool emitError)
Definition: execMain.c:1801
char * get_namespace_name(Oid nspid)
Definition: lsyscache.c:3366
bool tgisclone
Definition: reltrigger.h:32

References ereport, errcode(), errdetail(), errmsg(), ERROR, ExecCallTriggerFunc(), ExecFetchSlotHeapTuple(), ExecForceStoreHeapTuple(), ExecPartitionCheck(), get_namespace_name(), GetPerTupleMemoryContext, heap_freetuple(), i, TriggerDesc::numtriggers, RelationGetNamespace, RelationGetRelationName, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, TriggerData::tg_trigslot, TriggerData::tg_trigtuple, Trigger::tgisclone, Trigger::tgname, Trigger::tgtype, TRIGGER_EVENT_BEFORE, TRIGGER_EVENT_INSERT, TRIGGER_EVENT_ROW, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by CopyFrom(), ExecInsert(), and ExecSimpleRelationInsert().

◆ ExecBRUpdateTriggers()

bool ExecBRUpdateTriggers ( EState estate,
EPQState epqstate,
ResultRelInfo relinfo,
ItemPointer  tupleid,
HeapTuple  fdw_trigtuple,
TupleTableSlot newslot,
TM_Result tmresult,
TM_FailureData tmfd 
)

Definition at line 2935 of file trigger.c.

2942 {
2943  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2944  TupleTableSlot *oldslot = ExecGetTriggerOldSlot(estate, relinfo);
2945  HeapTuple newtuple = NULL;
2946  HeapTuple trigtuple;
2947  bool should_free_trig = false;
2948  bool should_free_new = false;
2949  TriggerData LocTriggerData = {0};
2950  int i;
2951  Bitmapset *updatedCols;
2952  LockTupleMode lockmode;
2953 
2954  /* Determine lock mode to use */
2955  lockmode = ExecUpdateLockMode(estate, relinfo);
2956 
2957  Assert(HeapTupleIsValid(fdw_trigtuple) ^ ItemPointerIsValid(tupleid));
2958  if (fdw_trigtuple == NULL)
2959  {
2960  TupleTableSlot *epqslot_candidate = NULL;
2961 
2962  /* get a copy of the on-disk tuple we are planning to update */
2963  if (!GetTupleForTrigger(estate, epqstate, relinfo, tupleid,
2964  lockmode, oldslot, &epqslot_candidate,
2965  tmresult, tmfd))
2966  return false; /* cancel the update action */
2967 
2968  /*
2969  * In READ COMMITTED isolation level it's possible that target tuple
2970  * was changed due to concurrent update. In that case we have a raw
2971  * subplan output tuple in epqslot_candidate, and need to form a new
2972  * insertable tuple using ExecGetUpdateNewTuple to replace the one we
2973  * received in newslot. Neither we nor our callers have any further
2974  * interest in the passed-in tuple, so it's okay to overwrite newslot
2975  * with the newer data.
2976  */
2977  if (epqslot_candidate != NULL)
2978  {
2979  TupleTableSlot *epqslot_clean;
2980 
2981  epqslot_clean = ExecGetUpdateNewTuple(relinfo, epqslot_candidate,
2982  oldslot);
2983 
2984  /*
2985  * Typically, the caller's newslot was also generated by
2986  * ExecGetUpdateNewTuple, so that epqslot_clean will be the same
2987  * slot and copying is not needed. But do the right thing if it
2988  * isn't.
2989  */
2990  if (unlikely(newslot != epqslot_clean))
2991  ExecCopySlot(newslot, epqslot_clean);
2992 
2993  /*
2994  * At this point newslot contains a virtual tuple that may
2995  * reference some fields of oldslot's tuple in some disk buffer.
2996  * If that tuple is in a different page than the original target
2997  * tuple, then our only pin on that buffer is oldslot's, and we're
2998  * about to release it. Hence we'd better materialize newslot to
2999  * ensure it doesn't contain references into an unpinned buffer.
3000  * (We'd materialize it below anyway, but too late for safety.)
3001  */
3002  ExecMaterializeSlot(newslot);
3003  }
3004 
3005  /*
3006  * Here we convert oldslot to a materialized slot holding trigtuple.
3007  * Neither slot passed to the triggers will hold any buffer pin.
3008  */
3009  trigtuple = ExecFetchSlotHeapTuple(oldslot, true, &should_free_trig);
3010  }
3011  else
3012  {
3013  /* Put the FDW-supplied tuple into oldslot to unify the cases */
3014  ExecForceStoreHeapTuple(fdw_trigtuple, oldslot, false);
3015  trigtuple = fdw_trigtuple;
3016  }
3017 
3018  LocTriggerData.type = T_TriggerData;
3019  LocTriggerData.tg_event = TRIGGER_EVENT_UPDATE |
3022  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
3023  updatedCols = ExecGetAllUpdatedCols(relinfo, estate);
3024  LocTriggerData.tg_updatedcols = updatedCols;
3025  for (i = 0; i < trigdesc->numtriggers; i++)
3026  {
3027  Trigger *trigger = &trigdesc->triggers[i];
3028  HeapTuple oldtuple;
3029 
3030  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
3031  TRIGGER_TYPE_ROW,
3032  TRIGGER_TYPE_BEFORE,
3033  TRIGGER_TYPE_UPDATE))
3034  continue;
3035  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
3036  updatedCols, oldslot, newslot))
3037  continue;
3038 
3039  if (!newtuple)
3040  newtuple = ExecFetchSlotHeapTuple(newslot, true, &should_free_new);
3041 
3042  LocTriggerData.tg_trigslot = oldslot;
3043  LocTriggerData.tg_trigtuple = trigtuple;
3044  LocTriggerData.tg_newtuple = oldtuple = newtuple;
3045  LocTriggerData.tg_newslot = newslot;
3046  LocTriggerData.tg_trigger = trigger;
3047  newtuple = ExecCallTriggerFunc(&LocTriggerData,
3048  i,
3049  relinfo->ri_TrigFunctions,
3050  relinfo->ri_TrigInstrument,
3051  GetPerTupleMemoryContext(estate));
3052 
3053  if (newtuple == NULL)
3054  {
3055  if (should_free_trig)
3056  heap_freetuple(trigtuple);
3057  if (should_free_new)
3058  heap_freetuple(oldtuple);
3059  return false; /* "do nothing" */
3060  }
3061  else if (newtuple != oldtuple)
3062  {
3063  ExecForceStoreHeapTuple(newtuple, newslot, false);
3064 
3065  /*
3066  * If the tuple returned by the trigger / being stored, is the old
3067  * row version, and the heap tuple passed to the trigger was
3068  * allocated locally, materialize the slot. Otherwise we might
3069  * free it while still referenced by the slot.
3070  */
3071  if (should_free_trig && newtuple == trigtuple)
3072  ExecMaterializeSlot(newslot);
3073 
3074  if (should_free_new)
3075  heap_freetuple(oldtuple);
3076 
3077  /* signal tuple should be re-fetched if used */
3078  newtuple = NULL;
3079  }
3080  }
3081  if (should_free_trig)
3082  heap_freetuple(trigtuple);
3083 
3084  return true;
3085 }
#define unlikely(x)
Definition: c.h:326
LockTupleMode ExecUpdateLockMode(EState *estate, ResultRelInfo *relinfo)
Definition: execMain.c:2360
LockTupleMode
Definition: lockoptions.h:50
TupleTableSlot * ExecGetUpdateNewTuple(ResultRelInfo *relinfo, TupleTableSlot *planSlot, TupleTableSlot *oldSlot)
const Bitmapset * tg_updatedcols
Definition: trigger.h:43
HeapTuple tg_newtuple
Definition: trigger.h:37
TupleTableSlot * tg_newslot
Definition: trigger.h:40
static TupleTableSlot * ExecCopySlot(TupleTableSlot *dstslot, TupleTableSlot *srcslot)
Definition: tuptable.h:509
static void ExecMaterializeSlot(TupleTableSlot *slot)
Definition: tuptable.h:472

References Assert, ExecCallTriggerFunc(), ExecCopySlot(), ExecFetchSlotHeapTuple(), ExecForceStoreHeapTuple(), ExecGetAllUpdatedCols(), ExecGetTriggerOldSlot(), ExecGetUpdateNewTuple(), ExecMaterializeSlot(), ExecUpdateLockMode(), GetPerTupleMemoryContext, GetTupleForTrigger(), heap_freetuple(), HeapTupleIsValid, i, ItemPointerIsValid(), TriggerDesc::numtriggers, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_newslot, TriggerData::tg_newtuple, TriggerData::tg_relation, TriggerData::tg_trigger, TriggerData::tg_trigslot, TriggerData::tg_trigtuple, TriggerData::tg_updatedcols, Trigger::tgtype, TRIGGER_EVENT_BEFORE, TRIGGER_EVENT_ROW, TRIGGER_EVENT_UPDATE, TriggerEnabled(), TriggerDesc::triggers, TriggerData::type, and unlikely.

Referenced by ExecSimpleRelationUpdate(), and ExecUpdatePrologue().

◆ ExecBSDeleteTriggers()

void ExecBSDeleteTriggers ( EState estate,
ResultRelInfo relinfo 
)

Definition at line 2613 of file trigger.c.

2614 {
2615  TriggerDesc *trigdesc;
2616  int i;
2617  TriggerData LocTriggerData = {0};
2618 
2619  trigdesc = relinfo->ri_TrigDesc;
2620 
2621  if (trigdesc == NULL)
2622  return;
2623  if (!trigdesc->trig_delete_before_statement)
2624  return;
2625 
2626  /* no-op if we already fired BS triggers in this context */
2628  CMD_DELETE))
2629  return;
2630 
2631  LocTriggerData.type = T_TriggerData;
2632  LocTriggerData.tg_event = TRIGGER_EVENT_DELETE |
2634  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
2635  for (i = 0; i < trigdesc->numtriggers; i++)
2636  {
2637  Trigger *trigger = &trigdesc->triggers[i];
2638  HeapTuple newtuple;
2639 
2640  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
2641  TRIGGER_TYPE_STATEMENT,
2642  TRIGGER_TYPE_BEFORE,
2643  TRIGGER_TYPE_DELETE))
2644  continue;
2645  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
2646  NULL, NULL, NULL))
2647  continue;
2648 
2649  LocTriggerData.tg_trigger = trigger;
2650  newtuple = ExecCallTriggerFunc(&LocTriggerData,
2651  i,
2652  relinfo->ri_TrigFunctions,
2653  relinfo->ri_TrigInstrument,
2654  GetPerTupleMemoryContext(estate));
2655 
2656  if (newtuple)
2657  ereport(ERROR,
2658  (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED),
2659  errmsg("BEFORE STATEMENT trigger cannot return a value")));
2660  }
2661 }
@ CMD_DELETE
Definition: nodes.h:268
bool trig_delete_before_statement
Definition: reltrigger.h:69
static bool before_stmt_triggers_fired(Oid relid, CmdType cmdType)
Definition: trigger.c:6464

References before_stmt_triggers_fired(), CMD_DELETE, ereport, errcode(), errmsg(), ERROR, ExecCallTriggerFunc(), GetPerTupleMemoryContext, i, TriggerDesc::numtriggers, RelationGetRelid, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, Trigger::tgtype, TriggerDesc::trig_delete_before_statement, TRIGGER_EVENT_BEFORE, TRIGGER_EVENT_DELETE, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by fireBSTriggers().

◆ ExecBSInsertTriggers()

void ExecBSInsertTriggers ( EState estate,
ResultRelInfo relinfo 
)

Definition at line 2395 of file trigger.c.

2396 {
2397  TriggerDesc *trigdesc;
2398  int i;
2399  TriggerData LocTriggerData = {0};
2400 
2401  trigdesc = relinfo->ri_TrigDesc;
2402 
2403  if (trigdesc == NULL)
2404  return;
2405  if (!trigdesc->trig_insert_before_statement)
2406  return;
2407 
2408  /* no-op if we already fired BS triggers in this context */
2410  CMD_INSERT))
2411  return;
2412 
2413  LocTriggerData.type = T_TriggerData;
2414  LocTriggerData.tg_event = TRIGGER_EVENT_INSERT |
2416  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
2417  for (i = 0; i < trigdesc->numtriggers; i++)
2418  {
2419  Trigger *trigger = &trigdesc->triggers[i];
2420  HeapTuple newtuple;
2421 
2422  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
2423  TRIGGER_TYPE_STATEMENT,
2424  TRIGGER_TYPE_BEFORE,
2425  TRIGGER_TYPE_INSERT))
2426  continue;
2427  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
2428  NULL, NULL, NULL))
2429  continue;
2430 
2431  LocTriggerData.tg_trigger = trigger;
2432  newtuple = ExecCallTriggerFunc(&LocTriggerData,
2433  i,
2434  relinfo->ri_TrigFunctions,
2435  relinfo->ri_TrigInstrument,
2436  GetPerTupleMemoryContext(estate));
2437 
2438  if (newtuple)
2439  ereport(ERROR,
2440  (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED),
2441  errmsg("BEFORE STATEMENT trigger cannot return a value")));
2442  }
2443 }
@ CMD_INSERT
Definition: nodes.h:267
bool trig_insert_before_statement
Definition: reltrigger.h:59

References before_stmt_triggers_fired(), CMD_INSERT, ereport, errcode(), errmsg(), ERROR, ExecCallTriggerFunc(), GetPerTupleMemoryContext, i, TriggerDesc::numtriggers, RelationGetRelid, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, Trigger::tgtype, TriggerDesc::trig_insert_before_statement, TRIGGER_EVENT_BEFORE, TRIGGER_EVENT_INSERT, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by CopyFrom(), and fireBSTriggers().

◆ ExecBSTruncateTriggers()

void ExecBSTruncateTriggers ( EState estate,
ResultRelInfo relinfo 
)

Definition at line 3223 of file trigger.c.

3224 {
3225  TriggerDesc *trigdesc;
3226  int i;
3227  TriggerData LocTriggerData = {0};
3228 
3229  trigdesc = relinfo->ri_TrigDesc;
3230 
3231  if (trigdesc == NULL)
3232  return;
3233  if (!trigdesc->trig_truncate_before_statement)
3234  return;
3235 
3236  LocTriggerData.type = T_TriggerData;
3237  LocTriggerData.tg_event = TRIGGER_EVENT_TRUNCATE |
3239  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
3240 
3241  for (i = 0; i < trigdesc->numtriggers; i++)
3242  {
3243  Trigger *trigger = &trigdesc->triggers[i];
3244  HeapTuple newtuple;
3245 
3246  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
3247  TRIGGER_TYPE_STATEMENT,
3248  TRIGGER_TYPE_BEFORE,
3249  TRIGGER_TYPE_TRUNCATE))
3250  continue;
3251  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
3252  NULL, NULL, NULL))
3253  continue;
3254 
3255  LocTriggerData.tg_trigger = trigger;
3256  newtuple = ExecCallTriggerFunc(&LocTriggerData,
3257  i,
3258  relinfo->ri_TrigFunctions,
3259  relinfo->ri_TrigInstrument,
3260  GetPerTupleMemoryContext(estate));
3261 
3262  if (newtuple)
3263  ereport(ERROR,
3264  (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED),
3265  errmsg("BEFORE STATEMENT trigger cannot return a value")));
3266  }
3267 }
bool trig_truncate_before_statement
Definition: reltrigger.h:72

References ereport, errcode(), errmsg(), ERROR, ExecCallTriggerFunc(), GetPerTupleMemoryContext, i, TriggerDesc::numtriggers, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, Trigger::tgtype, TriggerDesc::trig_truncate_before_statement, TRIGGER_EVENT_BEFORE, TRIGGER_EVENT_TRUNCATE, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by ExecuteTruncateGuts().

◆ ExecBSUpdateTriggers()

void ExecBSUpdateTriggers ( EState estate,
ResultRelInfo relinfo 
)

Definition at line 2859 of file trigger.c.

2860 {
2861  TriggerDesc *trigdesc;
2862  int i;
2863  TriggerData LocTriggerData = {0};
2864  Bitmapset *updatedCols;
2865 
2866  trigdesc = relinfo->ri_TrigDesc;
2867 
2868  if (trigdesc == NULL)
2869  return;
2870  if (!trigdesc->trig_update_before_statement)
2871  return;
2872 
2873  /* no-op if we already fired BS triggers in this context */
2875  CMD_UPDATE))
2876  return;
2877 
2878  /* statement-level triggers operate on the parent table */
2879  Assert(relinfo->ri_RootResultRelInfo == NULL);
2880 
2881  updatedCols = ExecGetAllUpdatedCols(relinfo, estate);
2882 
2883  LocTriggerData.type = T_TriggerData;
2884  LocTriggerData.tg_event = TRIGGER_EVENT_UPDATE |
2886  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
2887  LocTriggerData.tg_updatedcols = updatedCols;
2888  for (i = 0; i < trigdesc->numtriggers; i++)
2889  {
2890  Trigger *trigger = &trigdesc->triggers[i];
2891  HeapTuple newtuple;
2892 
2893  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
2894  TRIGGER_TYPE_STATEMENT,
2895  TRIGGER_TYPE_BEFORE,
2896  TRIGGER_TYPE_UPDATE))
2897  continue;
2898  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
2899  updatedCols, NULL, NULL))
2900  continue;
2901 
2902  LocTriggerData.tg_trigger = trigger;
2903  newtuple = ExecCallTriggerFunc(&LocTriggerData,
2904  i,
2905  relinfo->ri_TrigFunctions,
2906  relinfo->ri_TrigInstrument,
2907  GetPerTupleMemoryContext(estate));
2908 
2909  if (newtuple)
2910  ereport(ERROR,
2911  (errcode(ERRCODE_E_R_I_E_TRIGGER_PROTOCOL_VIOLATED),
2912  errmsg("BEFORE STATEMENT trigger cannot return a value")));
2913  }
2914 }
@ CMD_UPDATE
Definition: nodes.h:266
bool trig_update_before_statement
Definition: reltrigger.h:64

References Assert, before_stmt_triggers_fired(), CMD_UPDATE, ereport, errcode(), errmsg(), ERROR, ExecCallTriggerFunc(), ExecGetAllUpdatedCols(), GetPerTupleMemoryContext, i, TriggerDesc::numtriggers, RelationGetRelid, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_RootResultRelInfo, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, TriggerData::tg_updatedcols, Trigger::tgtype, TriggerDesc::trig_update_before_statement, TRIGGER_EVENT_BEFORE, TRIGGER_EVENT_UPDATE, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by fireBSTriggers().

◆ ExecIRDeleteTriggers()

bool ExecIRDeleteTriggers ( EState estate,
ResultRelInfo relinfo,
HeapTuple  trigtuple 
)

Definition at line 2812 of file trigger.c.

2814 {
2815  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2816  TupleTableSlot *slot = ExecGetTriggerOldSlot(estate, relinfo);
2817  TriggerData LocTriggerData = {0};
2818  int i;
2819 
2820  LocTriggerData.type = T_TriggerData;
2821  LocTriggerData.tg_event = TRIGGER_EVENT_DELETE |
2824  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
2825 
2826  ExecForceStoreHeapTuple(trigtuple, slot, false);
2827 
2828  for (i = 0; i < trigdesc->numtriggers; i++)
2829  {
2830  HeapTuple rettuple;
2831  Trigger *trigger = &trigdesc->triggers[i];
2832 
2833  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
2834  TRIGGER_TYPE_ROW,
2835  TRIGGER_TYPE_INSTEAD,
2836  TRIGGER_TYPE_DELETE))
2837  continue;
2838  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
2839  NULL, slot, NULL))
2840  continue;
2841 
2842  LocTriggerData.tg_trigslot = slot;
2843  LocTriggerData.tg_trigtuple = trigtuple;
2844  LocTriggerData.tg_trigger = trigger;
2845  rettuple = ExecCallTriggerFunc(&LocTriggerData,
2846  i,
2847  relinfo->ri_TrigFunctions,
2848  relinfo->ri_TrigInstrument,
2849  GetPerTupleMemoryContext(estate));
2850  if (rettuple == NULL)
2851  return false; /* Delete was suppressed */
2852  if (rettuple != trigtuple)
2853  heap_freetuple(rettuple);
2854  }
2855  return true;
2856 }
#define TRIGGER_EVENT_INSTEAD
Definition: trigger.h:102

References ExecCallTriggerFunc(), ExecForceStoreHeapTuple(), ExecGetTriggerOldSlot(), GetPerTupleMemoryContext, heap_freetuple(), i, TriggerDesc::numtriggers, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, TriggerData::tg_trigslot, TriggerData::tg_trigtuple, Trigger::tgtype, TRIGGER_EVENT_DELETE, TRIGGER_EVENT_INSTEAD, TRIGGER_EVENT_ROW, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by ExecDelete(), and ExecMergeMatched().

◆ ExecIRInsertTriggers()

bool ExecIRInsertTriggers ( EState estate,
ResultRelInfo relinfo,
TupleTableSlot slot 
)

Definition at line 2552 of file trigger.c.

2554 {
2555  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
2556  HeapTuple newtuple = NULL;
2557  bool should_free;
2558  TriggerData LocTriggerData = {0};
2559  int i;
2560 
2561  LocTriggerData.type = T_TriggerData;
2562  LocTriggerData.tg_event = TRIGGER_EVENT_INSERT |
2565  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
2566  for (i = 0; i < trigdesc->numtriggers; i++)
2567  {
2568  Trigger *trigger = &trigdesc->triggers[i];
2569  HeapTuple oldtuple;
2570 
2571  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
2572  TRIGGER_TYPE_ROW,
2573  TRIGGER_TYPE_INSTEAD,
2574  TRIGGER_TYPE_INSERT))
2575  continue;
2576  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
2577  NULL, NULL, slot))
2578  continue;
2579 
2580  if (!newtuple)
2581  newtuple = ExecFetchSlotHeapTuple(slot, true, &should_free);
2582 
2583  LocTriggerData.tg_trigslot = slot;
2584  LocTriggerData.tg_trigtuple = oldtuple = newtuple;
2585  LocTriggerData.tg_trigger = trigger;
2586  newtuple = ExecCallTriggerFunc(&LocTriggerData,
2587  i,
2588  relinfo->ri_TrigFunctions,
2589  relinfo->ri_TrigInstrument,
2590  GetPerTupleMemoryContext(estate));
2591  if (newtuple == NULL)
2592  {
2593  if (should_free)
2594  heap_freetuple(oldtuple);
2595  return false; /* "do nothing" */
2596  }
2597  else if (newtuple != oldtuple)
2598  {
2599  ExecForceStoreHeapTuple(newtuple, slot, false);
2600 
2601  if (should_free)
2602  heap_freetuple(oldtuple);
2603 
2604  /* signal tuple should be re-fetched if used */
2605  newtuple = NULL;
2606  }
2607  }
2608 
2609  return true;
2610 }

References ExecCallTriggerFunc(), ExecFetchSlotHeapTuple(), ExecForceStoreHeapTuple(), GetPerTupleMemoryContext, heap_freetuple(), i, TriggerDesc::numtriggers, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_relation, TriggerData::tg_trigger, TriggerData::tg_trigslot, TriggerData::tg_trigtuple, Trigger::tgtype, TRIGGER_EVENT_INSERT, TRIGGER_EVENT_INSTEAD, TRIGGER_EVENT_ROW, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by CopyFrom(), and ExecInsert().

◆ ExecIRUpdateTriggers()

bool ExecIRUpdateTriggers ( EState estate,
ResultRelInfo relinfo,
HeapTuple  trigtuple,
TupleTableSlot newslot 
)

Definition at line 3157 of file trigger.c.

3159 {
3160  TriggerDesc *trigdesc = relinfo->ri_TrigDesc;
3161  TupleTableSlot *oldslot = ExecGetTriggerOldSlot(estate, relinfo);
3162  HeapTuple newtuple = NULL;
3163  bool should_free;
3164  TriggerData LocTriggerData = {0};
3165  int i;
3166 
3167  LocTriggerData.type = T_TriggerData;
3168  LocTriggerData.tg_event = TRIGGER_EVENT_UPDATE |
3171  LocTriggerData.tg_relation = relinfo->ri_RelationDesc;
3172 
3173  ExecForceStoreHeapTuple(trigtuple, oldslot, false);
3174 
3175  for (i = 0; i < trigdesc->numtriggers; i++)
3176  {
3177  Trigger *trigger = &trigdesc->triggers[i];
3178  HeapTuple oldtuple;
3179 
3180  if (!TRIGGER_TYPE_MATCHES(trigger->tgtype,
3181  TRIGGER_TYPE_ROW,
3182  TRIGGER_TYPE_INSTEAD,
3183  TRIGGER_TYPE_UPDATE))
3184  continue;
3185  if (!TriggerEnabled(estate, relinfo, trigger, LocTriggerData.tg_event,
3186  NULL, oldslot, newslot))
3187  continue;
3188 
3189  if (!newtuple)
3190  newtuple = ExecFetchSlotHeapTuple(newslot, true, &should_free);
3191 
3192  LocTriggerData.tg_trigslot = oldslot;
3193  LocTriggerData.tg_trigtuple = trigtuple;
3194  LocTriggerData.tg_newslot = newslot;
3195  LocTriggerData.tg_newtuple = oldtuple = newtuple;
3196 
3197  LocTriggerData.tg_trigger = trigger;
3198  newtuple = ExecCallTriggerFunc(&LocTriggerData,
3199  i,
3200  relinfo->ri_TrigFunctions,
3201  relinfo->ri_TrigInstrument,
3202  GetPerTupleMemoryContext(estate));
3203  if (newtuple == NULL)
3204  {
3205  return false; /* "do nothing" */
3206  }
3207  else if (newtuple != oldtuple)
3208  {
3209  ExecForceStoreHeapTuple(newtuple, newslot, false);
3210 
3211  if (should_free)
3212  heap_freetuple(oldtuple);
3213 
3214  /* signal tuple should be re-fetched if used */
3215  newtuple = NULL;
3216  }
3217  }
3218 
3219  return true;
3220 }

References ExecCallTriggerFunc(), ExecFetchSlotHeapTuple(), ExecForceStoreHeapTuple(), ExecGetTriggerOldSlot(), GetPerTupleMemoryContext, heap_freetuple(), i, TriggerDesc::numtriggers, ResultRelInfo::ri_RelationDesc, ResultRelInfo::ri_TrigDesc, ResultRelInfo::ri_TrigFunctions, ResultRelInfo::ri_TrigInstrument, TriggerData::tg_event, TriggerData::tg_newslot, TriggerData::tg_newtuple, TriggerData::tg_relation, TriggerData::tg_trigger, TriggerData::tg_trigslot, TriggerData::tg_trigtuple, Trigger::tgtype, TRIGGER_EVENT_INSTEAD, TRIGGER_EVENT_ROW, TRIGGER_EVENT_UPDATE, TriggerEnabled(), TriggerDesc::triggers, and TriggerData::type.

Referenced by ExecMergeMatched(), and ExecUpdate().

◆ FindTriggerIncompatibleWithInheritance()

const char* FindTriggerIncompatibleWithInheritance ( TriggerDesc trigdesc)

Definition at line 2273 of file trigger.c.

2274 {
2275  if (trigdesc != NULL)
2276  {
2277  int i;
2278 
2279  for (i = 0; i < trigdesc->numtriggers; ++i)
2280  {
2281  Trigger *trigger = &trigdesc->triggers[i];
2282 
2283  if (trigger->tgoldtable != NULL || trigger->tgnewtable != NULL)
2284  return trigger->tgname;
2285  }
2286  }
2287 
2288  return NULL;
2289 }

References i, TriggerDesc::numtriggers, Trigger::tgname, Trigger::tgnewtable, Trigger::tgoldtable, and TriggerDesc::triggers.

Referenced by ATExecAddInherit(), and ATExecAttachPartition().

◆ FreeTriggerDesc()

void FreeTriggerDesc ( TriggerDesc trigdesc)

Definition at line 2141 of file trigger.c.

2142 {
2143  Trigger *trigger;
2144  int i;
2145 
2146  if (trigdesc == NULL)
2147  return;
2148 
2149  trigger = trigdesc->triggers;
2150  for (i = 0; i < trigdesc->numtriggers; i++)
2151  {
2152  pfree(trigger->tgname);
2153  if (trigger->tgnattr > 0)
2154  pfree(trigger->tgattr);
2155  if (trigger->tgnargs > 0)
2156  {
2157  while (--(trigger->tgnargs) >= 0)
2158  pfree(trigger->tgargs[trigger->tgnargs]);
2159  pfree(trigger->tgargs);
2160  }
2161  if (trigger->tgqual)
2162  pfree(trigger->tgqual);
2163  if (trigger->tgoldtable)
2164  pfree(trigger->tgoldtable);
2165  if (trigger->tgnewtable)
2166  pfree(trigger->tgnewtable);
2167  trigger++;
2168  }
2169  pfree(trigdesc->triggers);
2170  pfree(trigdesc);
2171 }

References i, TriggerDesc::numtriggers, pfree(), Trigger::tgargs, Trigger::tgattr, Trigger::tgname, Trigger::tgnargs, Trigger::tgnattr, Trigger::tgnewtable, Trigger::tgoldtable, Trigger::tgqual, and TriggerDesc::triggers.

Referenced by RelationBuildTriggers(), and RelationDestroyRelation().

◆ get_trigger_oid()

Oid get_trigger_oid ( Oid  relid,
const char *  trigname,
bool  missing_ok 
)

Definition at line 1366 of file trigger.c.

1367 {
1368  Relation tgrel;
1369  ScanKeyData skey[2];
1370  SysScanDesc tgscan;
1371  HeapTuple tup;
1372  Oid oid;
1373 
1374  /*
1375  * Find the trigger, verify permissions, set up object address
1376  */
1377  tgrel = table_open(TriggerRelationId, AccessShareLock);
1378 
1379  ScanKeyInit(&skey[0],
1380  Anum_pg_trigger_tgrelid,
1381  BTEqualStrategyNumber, F_OIDEQ,
1382  ObjectIdGetDatum(relid));
1383  ScanKeyInit(&skey[1],
1384  Anum_pg_trigger_tgname,
1385  BTEqualStrategyNumber, F_NAMEEQ,
1386  CStringGetDatum(trigname));
1387 
1388  tgscan = systable_beginscan(tgrel, TriggerRelidNameIndexId, true,
1389  NULL, 2, skey);
1390 
1391  tup = systable_getnext(tgscan);
1392 
1393  if (!HeapTupleIsValid(tup))
1394  {
1395  if (!missing_ok)
1396  ereport(ERROR,
1397  (errcode(ERRCODE_UNDEFINED_OBJECT),
1398  errmsg("trigger \"%s\" for table \"%s\" does not exist",
1399  trigname, get_rel_name(relid))));
1400  oid = InvalidOid;
1401  }
1402  else
1403  {
1404  oid = ((Form_pg_trigger) GETSTRUCT(tup))->oid;
1405  }
1406 
1407  systable_endscan(tgscan);
1408  table_close(tgrel, AccessShareLock);
1409  return oid;
1410 }

References AccessShareLock, BTEqualStrategyNumber, CStringGetDatum(), ereport, errcode(), errmsg(), ERROR, get_rel_name(), GETSTRUCT, HeapTupleIsValid, InvalidOid, ObjectIdGetDatum(), ScanKeyInit(), systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), and table_open().

Referenced by get_object_address_relobject().

◆ MakeTransitionCaptureState()

TransitionCaptureState* MakeTransitionCaptureState ( TriggerDesc trigdesc,
Oid  relid,
CmdType  cmdType 
)

Definition at line 4888 of file trigger.c.

4889 {
4891  bool need_old_upd,
4892  need_new_upd,
4893  need_old_del,
4894  need_new_ins;
4895  AfterTriggersTableData *table;
4896  MemoryContext oldcxt;
4897  ResourceOwner saveResourceOwner;
4898 
4899  if (trigdesc == NULL)
4900  return NULL;
4901 
4902  /* Detect which table(s) we need. */
4903  switch (cmdType)
4904  {
4905  case CMD_INSERT:
4906  need_old_upd = need_old_del = need_new_upd = false;
4907  need_new_ins = trigdesc->trig_insert_new_table;
4908  break;
4909  case CMD_UPDATE:
4910  need_old_upd = trigdesc->trig_update_old_table;
4911  need_new_upd = trigdesc->trig_update_new_table;
4912  need_old_del = need_new_ins = false;
4913  break;
4914  case CMD_DELETE:
4915  need_old_del = trigdesc->trig_delete_old_table;
4916  need_old_upd = need_new_upd = need_new_ins = false;
4917  break;
4918  case CMD_MERGE:
4919  need_old_upd = trigdesc->trig_update_old_table;
4920  need_new_upd = trigdesc->trig_update_new_table;
4921  need_old_del = trigdesc->trig_delete_old_table;
4922  need_new_ins = trigdesc->trig_insert_new_table;
4923  break;
4924  default:
4925  elog(ERROR, "unexpected CmdType: %d", (int) cmdType);
4926  /* keep compiler quiet */
4927  need_old_upd = need_new_upd = need_old_del = need_new_ins = false;
4928  break;
4929  }
4930  if (!need_old_upd && !need_new_upd && !need_new_ins && !need_old_del)
4931  return NULL;
4932 
4933  /* Check state, like AfterTriggerSaveEvent. */
4934  if (afterTriggers.query_depth < 0)
4935  elog(ERROR, "MakeTransitionCaptureState() called outside of query");
4936 
4937  /* Be sure we have enough space to record events at this query depth. */
4940 
4941  /*
4942  * Find or create an AfterTriggersTableData struct to hold the
4943  * tuplestore(s). If there's a matching struct but it's marked closed,
4944  * ignore it; we need a newer one.
4945  *
4946  * Note: the AfterTriggersTableData list, as well as the tuplestores, are
4947  * allocated in the current (sub)transaction's CurTransactionContext, and
4948  * the tuplestores are managed by the (sub)transaction's resource owner.
4949  * This is sufficient lifespan because we do not allow triggers using
4950  * transition tables to be deferrable; they will be fired during
4951  * AfterTriggerEndQuery, after which it's okay to delete the data.
4952  */
4953  table = GetAfterTriggersTableData(relid, cmdType);
4954 
4955  /* Now create required tuplestore(s), if we don't have them already. */
4957  saveResourceOwner = CurrentResourceOwner;
4959 
4960  if (need_old_upd && table->old_upd_tuplestore == NULL)
4961  table->old_upd_tuplestore = tuplestore_begin_heap(false, false, work_mem);
4962  if (need_new_upd && table->new_upd_tuplestore == NULL)
4963  table->new_upd_tuplestore = tuplestore_begin_heap(false, false, work_mem);
4964  if (need_old_del && table->old_del_tuplestore == NULL)
4965  table->old_del_tuplestore = tuplestore_begin_heap(false, false, work_mem);
4966  if (need_new_ins && table->new_ins_tuplestore == NULL)
4967  table->new_ins_tuplestore = tuplestore_begin_heap(false, false, work_mem);
4968 
4969  CurrentResourceOwner = saveResourceOwner;
4970  MemoryContextSwitchTo(oldcxt);
4971 
4972  /* Now build the TransitionCaptureState struct, in caller's context */
4974  state->tcs_delete_old_table = trigdesc->trig_delete_old_table;
4975  state->tcs_update_old_table = trigdesc->trig_update_old_table;
4976  state->tcs_update_new_table = trigdesc->trig_update_new_table;
4977  state->tcs_insert_new_table = trigdesc->trig_insert_new_table;
4978  state->tcs_private = table;
4979 
4980  return state;
4981 }
int work_mem
Definition: globals.c:130
void * palloc0(Size size)
Definition: mcxt.c:1347
MemoryContext CurTransactionContext
Definition: mcxt.c:155
@ CMD_MERGE
Definition: nodes.h:269
ResourceOwner CurrentResourceOwner
Definition: resowner.c:165
ResourceOwner CurTransactionResourceOwner
Definition: resowner.c:166
Tuplestorestate * old_upd_tuplestore
Definition: trigger.c:3868
Tuplestorestate * new_upd_tuplestore
Definition: trigger.c:3870
Tuplestorestate * old_del_tuplestore
Definition: trigger.c:3872
Tuplestorestate * new_ins_tuplestore
Definition: trigger.c:3874
bool trig_update_new_table
Definition: reltrigger.h:77
bool trig_insert_new_table
Definition: reltrigger.h:75
bool trig_delete_old_table
Definition: reltrigger.h:78
bool trig_update_old_table
Definition: reltrigger.h:76
static AfterTriggersTableData * GetAfterTriggersTableData(Oid relid, CmdType cmdType)
Definition: trigger.c:4802
static void AfterTriggerEnlargeQueryState(void)
Definition: trigger.c:5543
Tuplestorestate * tuplestore_begin_heap(bool randomAccess, bool interXact, int maxKBytes)
Definition: tuplestore.c:330

References AfterTriggerEnlargeQueryState(), afterTriggers, CMD_DELETE, CMD_INSERT, CMD_MERGE, CMD_UPDATE, CurrentResourceOwner, CurTransactionContext, CurTransactionResourceOwner, elog, ERROR, GetAfterTriggersTableData(), AfterTriggersData::maxquerydepth, MemoryContextSwitchTo(), AfterTriggersTableData::new_ins_tuplestore, AfterTriggersTableData::new_upd_tuplestore, AfterTriggersTableData::old_del_tuplestore, AfterTriggersTableData::old_upd_tuplestore, palloc0(), AfterTriggersData::query_depth, TriggerDesc::trig_delete_old_table, TriggerDesc::trig_insert_new_table, TriggerDesc::trig_update_new_table, TriggerDesc::trig_update_old_table, tuplestore_begin_heap(), and work_mem.

Referenced by CopyFrom(), and ExecSetupTransitionCaptureState().

◆ RelationBuildTriggers()

void RelationBuildTriggers ( Relation  relation)

Definition at line 1857 of file trigger.c.

1858 {
1859  TriggerDesc *trigdesc;
1860  int numtrigs;
1861  int maxtrigs;
1862  Trigger *triggers;
1863  Relation tgrel;
1864  ScanKeyData skey;
1865  SysScanDesc tgscan;
1866  HeapTuple htup;
1867  MemoryContext oldContext;
1868  int i;
1869 
1870  /*
1871  * Allocate a working array to hold the triggers (the array is extended if
1872  * necessary)
1873  */
1874  maxtrigs = 16;
1875  triggers = (Trigger *) palloc(maxtrigs * sizeof(Trigger));
1876  numtrigs = 0;
1877 
1878  /*
1879  * Note: since we scan the triggers using TriggerRelidNameIndexId, we will
1880  * be reading the triggers in name order, except possibly during
1881  * emergency-recovery operations (ie, IgnoreSystemIndexes). This in turn
1882  * ensures that triggers will be fired in name order.
1883  */
1884  ScanKeyInit(&skey,
1885  Anum_pg_trigger_tgrelid,
1886  BTEqualStrategyNumber, F_OIDEQ,
1887  ObjectIdGetDatum(RelationGetRelid(relation)));
1888 
1889  tgrel = table_open(TriggerRelationId, AccessShareLock);
1890  tgscan = systable_beginscan(tgrel, TriggerRelidNameIndexId, true,
1891  NULL, 1, &skey);
1892 
1893  while (HeapTupleIsValid(htup = systable_getnext(tgscan)))
1894  {
1895  Form_pg_trigger pg_trigger = (Form_pg_trigger) GETSTRUCT(htup);
1896  Trigger *build;
1897  Datum datum;
1898  bool isnull;
1899 
1900  if (numtrigs >= maxtrigs)
1901  {
1902  maxtrigs *= 2;
1903  triggers = (Trigger *) repalloc(triggers, maxtrigs * sizeof(Trigger));
1904  }
1905  build = &(triggers[numtrigs]);
1906 
1907  build->tgoid = pg_trigger->oid;
1909  NameGetDatum(&pg_trigger->tgname)));
1910  build->tgfoid = pg_trigger->tgfoid;
1911  build->tgtype = pg_trigger->tgtype;
1912  build->tgenabled = pg_trigger->tgenabled;
1913  build->tgisinternal = pg_trigger->tgisinternal;
1914  build->tgisclone = OidIsValid(pg_trigger->tgparentid);
1915  build->tgconstrrelid = pg_trigger->tgconstrrelid;
1916  build->tgconstrindid = pg_trigger->tgconstrindid;
1917  build->tgconstraint = pg_trigger->tgconstraint;
1918  build->tgdeferrable = pg_trigger->tgdeferrable;
1919  build->tginitdeferred = pg_trigger->tginitdeferred;
1920  build->tgnargs = pg_trigger->tgnargs;
1921  /* tgattr is first var-width field, so OK to access directly */
1922  build->tgnattr = pg_trigger->tgattr.dim1;
1923  if (build->tgnattr > 0)
1924  {
1925  build->tgattr = (int16 *) palloc(build->tgnattr * sizeof(int16));
1926  memcpy(build->tgattr, &(pg_trigger->tgattr.values),
1927  build->tgnattr * sizeof(int16));
1928  }
1929  else
1930  build->tgattr = NULL;
1931  if (build->tgnargs > 0)
1932  {
1933  bytea *val;
1934  char *p;
1935 
1937  Anum_pg_trigger_tgargs,
1938  tgrel->rd_att, &isnull));
1939  if (isnull)
1940  elog(ERROR, "tgargs is null in trigger for relation \"%s\"",
1941  RelationGetRelationName(relation));
1942  p = (char *) VARDATA_ANY(val);
1943  build->tgargs = (char **) palloc(build->tgnargs * sizeof(char *));
1944  for (i = 0; i < build->tgnargs; i++)
1945  {
1946  build->tgargs[i] = pstrdup(p);
1947  p += strlen(p) + 1;
1948  }
1949  }
1950  else
1951  build->tgargs = NULL;
1952 
1953  datum = fastgetattr(htup, Anum_pg_trigger_tgoldtable,
1954  tgrel->rd_att, &isnull);
1955  if (!isnull)
1956  build->tgoldtable =
1958  else
1959  build->tgoldtable = NULL;
1960 
1961  datum = fastgetattr(htup, Anum_pg_trigger_tgnewtable,
1962  tgrel->rd_att, &isnull);
1963  if (!isnull)
1964  build->tgnewtable =
1966  else
1967  build->tgnewtable = NULL;
1968 
1969  datum = fastgetattr(htup, Anum_pg_trigger_tgqual,
1970  tgrel->rd_att, &isnull);
1971  if (!isnull)
1972  build->tgqual = TextDatumGetCString(datum);
1973  else
1974  build->tgqual = NULL;
1975 
1976  numtrigs++;
1977  }
1978 
1979  systable_endscan(tgscan);
1980  table_close(tgrel, AccessShareLock);
1981 
1982  /* There might not be any triggers */
1983  if (numtrigs == 0)
1984  {
1985  pfree(triggers);
1986  return;
1987  }
1988 
1989  /* Build trigdesc */
1990  trigdesc = (TriggerDesc *) palloc0(sizeof(TriggerDesc));
1991  trigdesc->triggers = triggers;
1992  trigdesc->numtriggers = numtrigs;
1993  for (i = 0; i < numtrigs; i++)
1994  SetTriggerFlags(trigdesc, &(triggers[i]));
1995 
1996  /* Copy completed trigdesc into cache storage */
1998  relation->trigdesc = CopyTriggerDesc(trigdesc);
1999  MemoryContextSwitchTo(oldContext);
2000 
2001  /* Release working memory */
2002  FreeTriggerDesc(trigdesc);
2003 }
#define TextDatumGetCString(d)
Definition: builtins.h:98
#define DatumGetByteaPP(X)
Definition: fmgr.h:291
static Datum fastgetattr(HeapTuple tup, int attnum, TupleDesc tupleDesc, bool *isnull)
Definition: htup_details.h:749
long val
Definition: informix.c:689
MemoryContext CacheMemoryContext
Definition: mcxt.c:152
Datum nameout(PG_FUNCTION_ARGS)
Definition: name.c:71
static char * DatumGetCString(Datum X)
Definition: postgres.h:335
static Datum NameGetDatum(const NameData *X)
Definition: postgres.h:373
TriggerDesc * trigdesc
Definition: rel.h:117
char tgenabled
Definition: reltrigger.h:30
Oid tgoid
Definition: reltrigger.h:25
Oid tgconstrindid
Definition: reltrigger.h:34
Oid tgconstraint
Definition: reltrigger.h:35
Oid tgconstrrelid
Definition: reltrigger.h:33
Oid tgfoid
Definition: reltrigger.h:28
bool tgdeferrable
Definition: reltrigger.h:36
bool tginitdeferred
Definition: reltrigger.h:37
bool tgisinternal
Definition: reltrigger.h:31
Definition: c.h:666
void FreeTriggerDesc(TriggerDesc *trigdesc)
Definition: trigger.c:2141
TriggerDesc * CopyTriggerDesc(TriggerDesc *trigdesc)
Definition: trigger.c:2086
static void SetTriggerFlags(TriggerDesc *trigdesc, Trigger *trigger)
Definition: trigger.c:2009
#define VARDATA_ANY(PTR)
Definition: varatt.h:324

References AccessShareLock, BTEqualStrategyNumber, CacheMemoryContext, CopyTriggerDesc(), DatumGetByteaPP, DatumGetCString(), DirectFunctionCall1, elog, ERROR, fastgetattr(), FreeTriggerDesc(), GETSTRUCT, HeapTupleIsValid, i, MemoryContextSwitchTo(), NameGetDatum(), nameout(), TriggerDesc::numtriggers, ObjectIdGetDatum(), OidIsValid, palloc(), palloc0(), pfree(), pstrdup(), RelationData::rd_att, RelationGetRelationName, RelationGetRelid, repalloc(), ScanKeyInit(), SetTriggerFlags(), systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), table_open(), TextDatumGetCString, Trigger::tgargs, Trigger::tgattr, Trigger::tgconstraint, Trigger::tgconstrindid, Trigger::tgconstrrelid, Trigger::tgdeferrable, Trigger::tgenabled, Trigger::tgfoid, Trigger::tginitdeferred, Trigger::tgisclone, Trigger::tgisinternal, Trigger::tgname, Trigger::tgnargs, Trigger::tgnattr, Trigger::tgnewtable, Trigger::tgoid, Trigger::tgoldtable, Trigger::tgqual, Trigger::tgtype, RelationData::trigdesc, TriggerDesc::triggers, val, and VARDATA_ANY.

Referenced by RelationBuildDesc(), and RelationCacheInitializePhase3().

◆ RemoveTriggerById()

void RemoveTriggerById ( Oid  trigOid)

Definition at line 1287 of file trigger.c.

1288 {
1289  Relation tgrel;
1290  SysScanDesc tgscan;
1291  ScanKeyData skey[1];
1292  HeapTuple tup;
1293  Oid relid;
1294  Relation rel;
1295 
1296  tgrel = table_open(TriggerRelationId, RowExclusiveLock);
1297 
1298  /*
1299  * Find the trigger to delete.
1300  */
1301  ScanKeyInit(&skey[0],
1302  Anum_pg_trigger_oid,
1303  BTEqualStrategyNumber, F_OIDEQ,
1304  ObjectIdGetDatum(trigOid));
1305 
1306  tgscan = systable_beginscan(tgrel, TriggerOidIndexId, true,
1307  NULL, 1, skey);
1308 
1309  tup = systable_getnext(tgscan);
1310  if (!HeapTupleIsValid(tup))
1311  elog(ERROR, "could not find tuple for trigger %u", trigOid);
1312 
1313  /*
1314  * Open and exclusive-lock the relation the trigger belongs to.
1315  */
1316  relid = ((Form_pg_trigger) GETSTRUCT(tup))->tgrelid;
1317 
1318  rel = table_open(relid, AccessExclusiveLock);
1319 
1320  if (rel->rd_rel->relkind != RELKIND_RELATION &&
1321  rel->rd_rel->relkind != RELKIND_VIEW &&
1322  rel->rd_rel->relkind != RELKIND_FOREIGN_TABLE &&
1323  rel->rd_rel->relkind != RELKIND_PARTITIONED_TABLE)
1324  ereport(ERROR,
1325  (errcode(ERRCODE_WRONG_OBJECT_TYPE),
1326  errmsg("relation \"%s\" cannot have triggers",
1328  errdetail_relkind_not_supported(rel->rd_rel->relkind)));
1329 
1331  ereport(ERROR,
1332  (errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
1333  errmsg("permission denied: \"%s\" is a system catalog",
1334  RelationGetRelationName(rel))));
1335 
1336  /*
1337  * Delete the pg_trigger tuple.
1338  */
1339  CatalogTupleDelete(tgrel, &tup->t_self);
1340 
1341  systable_endscan(tgscan);
1342  table_close(tgrel, RowExclusiveLock);
1343 
1344  /*
1345  * We do not bother to try to determine whether any other triggers remain,
1346  * which would be needed in order to decide whether it's safe to clear the
1347  * relation's relhastriggers. (In any case, there might be a concurrent
1348  * process adding new triggers.) Instead, just force a relcache inval to
1349  * make other backends (and this one too!) rebuild their relcache entries.
1350  * There's no great harm in leaving relhastriggers true even if there are
1351  * no triggers left.
1352  */
1354 
1355  /* Keep lock on trigger's rel until end of xact */
1356  table_close(rel, NoLock);
1357 }
void CatalogTupleDelete(Relation heapRel, ItemPointer tid)
Definition: indexing.c:365
#define AccessExclusiveLock
Definition: lockdefs.h:43

References AccessExclusiveLock, allowSystemTableMods, BTEqualStrategyNumber, CacheInvalidateRelcache(), CatalogTupleDelete(), elog, ereport, errcode(), errdetail_relkind_not_supported(), errmsg(), ERROR, GETSTRUCT, HeapTupleIsValid, IsSystemRelation(), NoLock, ObjectIdGetDatum(), RelationData::rd_rel, RelationGetRelationName, RowExclusiveLock, ScanKeyInit(), systable_beginscan(), systable_endscan(), systable_getnext(), HeapTupleData::t_self, table_close(), and table_open().

Referenced by doDeletion().

◆ renametrig()

ObjectAddress renametrig ( RenameStmt stmt)

Definition at line 1463 of file trigger.c.

1464 {
1465  Oid tgoid;
1466  Relation targetrel;
1467  Relation tgrel;
1468  HeapTuple tuple;
1469  SysScanDesc tgscan;
1470  ScanKeyData key[2];
1471  Oid relid;
1472  ObjectAddress address;
1473 
1474  /*
1475  * Look up name, check permissions, and acquire lock (which we will NOT
1476  * release until end of transaction).
1477  */
1479  0,
1481  NULL);
1482 
1483  /* Have lock already, so just need to build relcache entry. */
1484  targetrel = relation_open(relid, NoLock);
1485 
1486  /*
1487  * On partitioned tables, this operation recurses to partitions. Lock all
1488  * tables upfront.
1489  */
1490  if (targetrel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
1491  (void) find_all_inheritors(relid, AccessExclusiveLock, NULL);
1492 
1493  tgrel = table_open(TriggerRelationId, RowExclusiveLock);
1494 
1495  /*
1496  * Search for the trigger to modify.
1497  */
1498  ScanKeyInit(&key[0],
1499  Anum_pg_trigger_tgrelid,
1500  BTEqualStrategyNumber, F_OIDEQ,
1501  ObjectIdGetDatum(relid));
1502  ScanKeyInit(&key[1],
1503  Anum_pg_trigger_tgname,
1504  BTEqualStrategyNumber, F_NAMEEQ,
1505  PointerGetDatum(stmt->subname));
1506  tgscan = systable_beginscan(tgrel, TriggerRelidNameIndexId, true,
1507  NULL, 2, key);
1508  if (HeapTupleIsValid(tuple = systable_getnext(tgscan)))
1509  {
1510  Form_pg_trigger trigform;
1511 
1512  trigform = (Form_pg_trigger) GETSTRUCT(tuple);
1513  tgoid = trigform->oid;
1514 
1515  /*
1516  * If the trigger descends from a trigger on a parent partitioned
1517  * table, reject the rename. We don't allow a trigger in a partition
1518  * to differ in name from that of its parent: that would lead to an
1519  * inconsistency that pg_dump would not reproduce.
1520  */
1521  if (OidIsValid(trigform->tgparentid))
1522  ereport(ERROR,
1523  errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
1524  errmsg("cannot rename trigger \"%s\" on table \"%s\"",
1525  stmt->subname, RelationGetRelationName(targetrel)),
1526  errhint("Rename the trigger on the partitioned table \"%s\" instead.",
1527  get_rel_name(get_partition_parent(relid, false))));
1528 
1529 
1530  /* Rename the trigger on this relation ... */
1531  renametrig_internal(tgrel, targetrel, tuple, stmt->newname,
1532  stmt->subname);
1533 
1534  /* ... and if it is partitioned, recurse to its partitions */
1535  if (targetrel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE)
1536  {
1537  PartitionDesc partdesc = RelationGetPartitionDesc(targetrel, true);
1538 
1539  for (int i = 0; i < partdesc->nparts; i++)
1540  {
1541  Oid partitionId = partdesc->oids[i];
1542 
1543  renametrig_partition(tgrel, partitionId, trigform->oid,
1544  stmt->newname, stmt->subname);
1545  }
1546  }
1547  }
1548  else
1549  {
1550  ereport(ERROR,
1551  (errcode(ERRCODE_UNDEFINED_OBJECT),
1552  errmsg("trigger \"%s\" for table \"%s\" does not exist",
1553  stmt->subname, RelationGetRelationName(targetrel))));
1554  }
1555 
1556  ObjectAddressSet(address, TriggerRelationId, tgoid);
1557 
1558  systable_endscan(tgscan);
1559 
1560  table_close(tgrel, RowExclusiveLock);
1561 
1562  /*
1563  * Close rel, but keep exclusive lock!
1564  */
1565  relation_close(targetrel, NoLock);
1566 
1567  return address;
1568 }
Oid RangeVarGetRelidExtended(const RangeVar *relation, LOCKMODE lockmode, uint32 flags, RangeVarGetRelidCallback callback, void *callback_arg)
Definition: namespace.c:441
Oid get_partition_parent(Oid relid, bool even_if_detached)
Definition: partition.c:53
void relation_close(Relation relation, LOCKMODE lockmode)
Definition: relation.c:205
static void renametrig_internal(Relation tgrel, Relation targetrel, HeapTuple trigtup, const char *newname, const char *expected_name)
Definition: trigger.c:1578
static void RangeVarCallbackForRenameTrigger(const RangeVar *rv, Oid relid, Oid oldrelid, void *arg)
Definition: trigger.c:1416
static void renametrig_partition(Relation tgrel, Oid partitionId, Oid parentTriggerOid, const char *newname, const char *expected_name)
Definition: trigger.c:1649

References AccessExclusiveLock, BTEqualStrategyNumber, ereport, errcode(), errhint(), errmsg(), ERROR, find_all_inheritors(), get_partition_parent(), get_rel_name(), GETSTRUCT, HeapTupleIsValid, i, sort-test::key, NoLock, PartitionDescData::nparts, ObjectAddressSet, ObjectIdGetDatum(), OidIsValid, PartitionDescData::oids, PointerGetDatum(), RangeVarCallbackForRenameTrigger(), RangeVarGetRelidExtended(), RelationData::rd_rel, relation_close(), relation_open(), RelationGetPartitionDesc(), RelationGetRelationName, renametrig_internal(), renametrig_partition(), RowExclusiveLock, ScanKeyInit(), stmt, systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), and table_open().

Referenced by ExecRenameStmt().

◆ RI_FKey_fk_upd_check_required()

bool RI_FKey_fk_upd_check_required ( Trigger trigger,
Relation  fk_rel,
TupleTableSlot oldslot,
TupleTableSlot newslot 
)

Definition at line 1328 of file ri_triggers.c.

1330 {
1331  const RI_ConstraintInfo *riinfo;
1332  int ri_nullcheck;
1333 
1334  /*
1335  * AfterTriggerSaveEvent() handles things such that this function is never
1336  * called for partitioned tables.
1337  */
1338  Assert(fk_rel->rd_rel->relkind != RELKIND_PARTITIONED_TABLE);
1339 
1340  riinfo = ri_FetchConstraintInfo(trigger, fk_rel, false);
1341 
1342  ri_nullcheck = ri_NullCheck(RelationGetDescr(fk_rel), newslot, riinfo, false);
1343 
1344  /*
1345  * If all new key values are NULL, the row satisfies the constraint, so no
1346  * check is needed.
1347  */
1348  if (ri_nullcheck == RI_KEYS_ALL_NULL)
1349  return false;
1350 
1351  /*
1352  * If some new key values are NULL, the behavior depends on the match
1353  * type.
1354  */
1355  else if (ri_nullcheck == RI_KEYS_SOME_NULL)
1356  {
1357  switch (riinfo->confmatchtype)
1358  {
1359  case FKCONSTR_MATCH_SIMPLE:
1360 
1361  /*
1362  * If any new key value is NULL, the row must satisfy the
1363  * constraint, so no check is needed.
1364  */
1365  return false;
1366 
1368 
1369  /*
1370  * Don't know, must run full check.
1371  */
1372  break;
1373 
1374  case FKCONSTR_MATCH_FULL:
1375 
1376  /*
1377  * If some new key values are NULL, the row fails the
1378  * constraint. We must not throw error here, because the row
1379  * might get invalidated before the constraint is to be
1380  * checked, but we should queue the event to apply the check
1381  * later.
1382  */
1383  return true;
1384  }
1385  }
1386 
1387  /*
1388  * Continues here for no new key values are NULL, or we couldn't decide
1389  * yet.
1390  */
1391 
1392  /*
1393  * If the original row was inserted by our own transaction, we must fire
1394  * the trigger whether or not the keys are equal. This is because our
1395  * UPDATE will invalidate the INSERT so that the INSERT RI trigger will
1396  * not do anything; so we had better do the UPDATE check. (We could skip
1397  * this if we knew the INSERT trigger already fired, but there is no easy
1398  * way to know that.)
1399  */
1400  if (slot_is_current_xact_tuple(oldslot))
1401  return true;
1402 
1403  /* If all old and new key values are equal, no check is needed */
1404  if (ri_KeysEqual(fk_rel, oldslot, newslot, riinfo, false))
1405  return false;
1406 
1407  /* Else we need to fire the trigger. */
1408  return true;
1409 }
#define FKCONSTR_MATCH_SIMPLE
Definition: parsenodes.h:2751
#define FKCONSTR_MATCH_PARTIAL
Definition: parsenodes.h:2750
#define FKCONSTR_MATCH_FULL
Definition: parsenodes.h:2749
#define RI_KEYS_SOME_NULL
Definition: ri_triggers.c:66
static int ri_NullCheck(TupleDesc tupDesc, TupleTableSlot *slot, const RI_ConstraintInfo *riinfo, bool rel_is_pk)
Definition: ri_triggers.c:2732
static bool ri_KeysEqual(Relation rel, TupleTableSlot *oldslot, TupleTableSlot *newslot, const RI_ConstraintInfo *riinfo, bool rel_is_pk)
Definition: ri_triggers.c:2894
#define RI_KEYS_ALL_NULL
Definition: ri_triggers.c:65
static const RI_ConstraintInfo * ri_FetchConstraintInfo(Trigger *trigger, Relation trig_rel, bool rel_is_pk)
Definition: ri_triggers.c:2124
static bool slot_is_current_xact_tuple(TupleTableSlot *slot)
Definition: tuptable.h:445

References Assert, RI_ConstraintInfo::confmatchtype, FKCONSTR_MATCH_FULL, FKCONSTR_MATCH_PARTIAL, FKCONSTR_MATCH_SIMPLE, RelationData::rd_rel, RelationGetDescr, ri_FetchConstraintInfo(), RI_KEYS_ALL_NULL, RI_KEYS_SOME_NULL, ri_KeysEqual(), ri_NullCheck(), and slot_is_current_xact_tuple().

Referenced by AfterTriggerSaveEvent().

◆ RI_FKey_pk_upd_check_required()

bool RI_FKey_pk_upd_check_required ( Trigger trigger,
Relation  pk_rel,
TupleTableSlot oldslot,
TupleTableSlot newslot 
)

Definition at line 1296 of file ri_triggers.c.

1298 {
1299  const RI_ConstraintInfo *riinfo;
1300 
1301  riinfo = ri_FetchConstraintInfo(trigger, pk_rel, true);
1302 
1303  /*
1304  * If any old key value is NULL, the row could not have been referenced by
1305  * an FK row, so no check is needed.
1306  */
1307  if (ri_NullCheck(RelationGetDescr(pk_rel), oldslot, riinfo, true) != RI_KEYS_NONE_NULL)
1308  return false;
1309 
1310  /* If all old and new key values are equal, no check is needed */
1311  if (newslot && ri_KeysEqual(pk_rel, oldslot, newslot, riinfo, true))
1312  return false;
1313 
1314  /* Else we need to fire the trigger. */
1315  return true;
1316 }
#define RI_KEYS_NONE_NULL
Definition: ri_triggers.c:67

References RelationGetDescr, ri_FetchConstraintInfo(), RI_KEYS_NONE_NULL, ri_KeysEqual(), and ri_NullCheck().

Referenced by AfterTriggerSaveEvent().

◆ RI_FKey_trigger_type()

int RI_FKey_trigger_type ( Oid  tgfoid)

Definition at line 3119 of file ri_triggers.c.

3120 {
3121  switch (tgfoid)
3122  {
3123  case F_RI_FKEY_CASCADE_DEL:
3124  case F_RI_FKEY_CASCADE_UPD:
3125  case F_RI_FKEY_RESTRICT_DEL:
3126  case F_RI_FKEY_RESTRICT_UPD:
3127  case F_RI_FKEY_SETNULL_DEL:
3128  case F_RI_FKEY_SETNULL_UPD:
3129  case F_RI_FKEY_SETDEFAULT_DEL:
3130  case F_RI_FKEY_SETDEFAULT_UPD:
3131  case F_RI_FKEY_NOACTION_DEL:
3132  case F_RI_FKEY_NOACTION_UPD:
3133  return RI_TRIGGER_PK;
3134 
3135  case F_RI_FKEY_CHECK_INS:
3136  case F_RI_FKEY_CHECK_UPD:
3137  return RI_TRIGGER_FK;
3138  }
3139 
3140  return RI_TRIGGER_NONE;
3141 }
#define RI_TRIGGER_FK
Definition: trigger.h:283
#define RI_TRIGGER_NONE
Definition: trigger.h:284
#define RI_TRIGGER_PK
Definition: trigger.h:282

References RI_TRIGGER_FK, RI_TRIGGER_NONE, and RI_TRIGGER_PK.

Referenced by AfterTriggerSaveEvent(), ExecCrossPartitionUpdateForeignKey(), GetForeignKeyActionTriggers(), and GetForeignKeyCheckTriggers().

◆ RI_Initial_Check()

bool RI_Initial_Check ( Trigger trigger,
Relation  fk_rel,
Relation  pk_rel 
)

Definition at line 1429 of file ri_triggers.c.

1430 {
1431  const RI_ConstraintInfo *riinfo;
1432  StringInfoData querybuf;
1433  char pkrelname[MAX_QUOTED_REL_NAME_LEN];
1434  char fkrelname[MAX_QUOTED_REL_NAME_LEN];
1435  char pkattname[MAX_QUOTED_NAME_LEN + 3];
1436  char fkattname[MAX_QUOTED_NAME_LEN + 3];
1437  RangeTblEntry *rte;
1438  RTEPermissionInfo *pk_perminfo;
1439  RTEPermissionInfo *fk_perminfo;
1440  List *rtes = NIL;
1441  List *perminfos = NIL;
1442  const char *sep;
1443  const char *fk_only;
1444  const char *pk_only;
1445  int save_nestlevel;
1446  char workmembuf[32];
1447  int spi_result;
1448  SPIPlanPtr qplan;
1449 
1450  riinfo = ri_FetchConstraintInfo(trigger, fk_rel, false);
1451 
1452  /*
1453  * Check to make sure current user has enough permissions to do the test
1454  * query. (If not, caller can fall back to the trigger method, which
1455  * works because it changes user IDs on the fly.)
1456  *
1457  * XXX are there any other show-stopper conditions to check?
1458  */
1459  pk_perminfo = makeNode(RTEPermissionInfo);
1460  pk_perminfo->relid = RelationGetRelid(pk_rel);
1461  pk_perminfo->requiredPerms = ACL_SELECT;
1462  perminfos = lappend(perminfos, pk_perminfo);
1463  rte = makeNode(RangeTblEntry);
1464  rte->rtekind = RTE_RELATION;
1465  rte->relid = RelationGetRelid(pk_rel);
1466  rte->relkind = pk_rel->rd_rel->relkind;
1467  rte->rellockmode = AccessShareLock;
1468  rte->perminfoindex = list_length(perminfos);
1469  rtes = lappend(rtes, rte);
1470 
1471  fk_perminfo = makeNode(RTEPermissionInfo);
1472  fk_perminfo->relid = RelationGetRelid(fk_rel);
1473  fk_perminfo->requiredPerms = ACL_SELECT;
1474  perminfos = lappend(perminfos, fk_perminfo);
1475  rte = makeNode(RangeTblEntry);
1476  rte->rtekind = RTE_RELATION;
1477  rte->relid = RelationGetRelid(fk_rel);
1478  rte->relkind = fk_rel->rd_rel->relkind;
1479  rte->rellockmode = AccessShareLock;
1480  rte->perminfoindex = list_length(perminfos);
1481  rtes = lappend(rtes, rte);
1482 
1483  for (int i = 0; i < riinfo->nkeys; i++)
1484  {
1485  int attno;
1486 
1487  attno = riinfo->pk_attnums[i] - FirstLowInvalidHeapAttributeNumber;
1488  pk_perminfo->selectedCols = bms_add_member(pk_perminfo->selectedCols, attno);
1489 
1490  attno = riinfo->fk_attnums[i] - FirstLowInvalidHeapAttributeNumber;
1491  fk_perminfo->selectedCols = bms_add_member(fk_perminfo->selectedCols, attno);
1492  }
1493 
1494  if (!ExecCheckPermissions(rtes, perminfos, false))
1495  return false;
1496 
1497  /*
1498  * Also punt if RLS is enabled on either table unless this role has the
1499  * bypassrls right or is the table owner of the table(s) involved which
1500  * have RLS enabled.
1501  */
1503  ((pk_rel->rd_rel->relrowsecurity &&
1504  !object_ownercheck(RelationRelationId, RelationGetRelid(pk_rel),
1505  GetUserId())) ||
1506  (fk_rel->rd_rel->relrowsecurity &&
1507  !object_ownercheck(RelationRelationId, RelationGetRelid(fk_rel),
1508  GetUserId()))))
1509  return false;
1510 
1511  /*----------
1512  * The query string built is:
1513  * SELECT fk.keycols FROM [ONLY] relname fk
1514  * LEFT OUTER JOIN [ONLY] pkrelname pk
1515  * ON (pk.pkkeycol1=fk.keycol1 [AND ...])
1516  * WHERE pk.pkkeycol1 IS NULL AND
1517  * For MATCH SIMPLE:
1518  * (fk.keycol1 IS NOT NULL [AND ...])
1519  * For MATCH FULL:
1520  * (fk.keycol1 IS NOT NULL [OR ...])
1521  *
1522  * We attach COLLATE clauses to the operators when comparing columns
1523  * that have different collations.
1524  *----------
1525  */
1526  initStringInfo(&querybuf);
1527  appendStringInfoString(&querybuf, "SELECT ");
1528  sep = "";
1529  for (int i = 0; i < riinfo->nkeys; i++)
1530  {
1531  quoteOneName(fkattname,
1532  RIAttName(fk_rel, riinfo->fk_attnums[i]));
1533  appendStringInfo(&querybuf, "%sfk.%s", sep, fkattname);
1534  sep = ", ";
1535  }
1536 
1537  quoteRelationName(pkrelname, pk_rel);
1538  quoteRelationName(fkrelname, fk_rel);
1539  fk_only = fk_rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE ?
1540  "" : "ONLY ";
1541  pk_only = pk_rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE ?
1542  "" : "ONLY ";
1543  appendStringInfo(&querybuf,
1544  " FROM %s%s fk LEFT OUTER JOIN %s%s pk ON",
1545  fk_only, fkrelname, pk_only, pkrelname);
1546 
1547  strcpy(pkattname, "pk.");
1548  strcpy(fkattname, "fk.");
1549  sep = "(";
1550  for (int i = 0; i < riinfo->nkeys; i++)
1551  {
1552  Oid pk_type = RIAttType(pk_rel, riinfo->pk_attnums[i]);
1553  Oid fk_type = RIAttType(fk_rel, riinfo->fk_attnums[i]);
1554  Oid pk_coll = RIAttCollation(pk_rel, riinfo->pk_attnums[i]);
1555  Oid fk_coll = RIAttCollation(fk_rel, riinfo->fk_attnums[i]);
1556 
1557  quoteOneName(pkattname + 3,
1558  RIAttName(pk_rel, riinfo->pk_attnums[i]));
1559  quoteOneName(fkattname + 3,
1560  RIAttName(fk_rel, riinfo->fk_attnums[i]));
1561  ri_GenerateQual(&querybuf, sep,
1562  pkattname, pk_type,
1563  riinfo->pf_eq_oprs[i],
1564  fkattname, fk_type);
1565  if (pk_coll != fk_coll)
1566  ri_GenerateQualCollation(&querybuf, pk_coll);
1567  sep = "AND";
1568  }
1569 
1570  /*
1571  * It's sufficient to test any one pk attribute for null to detect a join
1572  * failure.
1573  */
1574  quoteOneName(pkattname, RIAttName(pk_rel, riinfo->pk_attnums[0]));
1575  appendStringInfo(&querybuf, ") WHERE pk.%s IS NULL AND (", pkattname);
1576 
1577  sep = "";
1578  for (int i = 0; i < riinfo->nkeys; i++)
1579  {
1580  quoteOneName(fkattname, RIAttName(fk_rel, riinfo->fk_attnums[i]));
1581  appendStringInfo(&querybuf,
1582  "%sfk.%s IS NOT NULL",
1583  sep, fkattname);
1584  switch (riinfo->confmatchtype)
1585  {
1586  case FKCONSTR_MATCH_SIMPLE:
1587  sep = " AND ";
1588  break;
1589  case FKCONSTR_MATCH_FULL:
1590  sep = " OR ";
1591  break;
1592  }
1593  }
1594  appendStringInfoChar(&querybuf, ')');
1595 
1596  /*
1597  * Temporarily increase work_mem so that the check query can be executed
1598  * more efficiently. It seems okay to do this because the query is simple
1599  * enough to not use a multiple of work_mem, and one typically would not
1600  * have many large foreign-key validations happening concurrently. So
1601  * this seems to meet the criteria for being considered a "maintenance"
1602  * operation, and accordingly we use maintenance_work_mem. However, we
1603  * must also set hash_mem_multiplier to 1, since it is surely not okay to
1604  * let that get applied to the maintenance_work_mem value.
1605  *
1606  * We use the equivalent of a function SET option to allow the setting to
1607  * persist for exactly the duration of the check query. guc.c also takes
1608  * care of undoing the setting on error.
1609  */
1610  save_nestlevel = NewGUCNestLevel();
1611 
1612  snprintf(workmembuf, sizeof(workmembuf), "%d", maintenance_work_mem);
1613  (void) set_config_option("work_mem", workmembuf,
1615  GUC_ACTION_SAVE, true, 0, false);
1616  (void) set_config_option("hash_mem_multiplier", "1",
1618  GUC_ACTION_SAVE, true, 0, false);
1619 
1620  SPI_connect();
1621 
1622  /*
1623  * Generate the plan. We don't need to cache it, and there are no
1624  * arguments to the plan.
1625  */
1626  qplan = SPI_prepare(querybuf.data, 0, NULL);
1627 
1628  if (qplan == NULL)
1629  elog(ERROR, "SPI_prepare returned %s for %s",
1631 
1632  /*
1633  * Run the plan. For safety we force a current snapshot to be used. (In
1634  * transaction-snapshot mode, this arguably violates transaction isolation
1635  * rules, but we really haven't got much choice.) We don't need to
1636  * register the snapshot, because SPI_execute_snapshot will see to it. We
1637  * need at most one tuple returned, so pass limit = 1.
1638  */
1639  spi_result = SPI_execute_snapshot(qplan,
1640  NULL, NULL,
1643  true, false, 1);
1644 
1645  /* Check result */
1646  if (spi_result != SPI_OK_SELECT)
1647  elog(ERROR, "SPI_execute_snapshot returned %s", SPI_result_code_string(spi_result));
1648 
1649  /* Did we find a tuple violating the constraint? */
1650  if (SPI_processed > 0)
1651  {
1652  TupleTableSlot *slot;
1653  HeapTuple tuple = SPI_tuptable->vals[0];
1654  TupleDesc tupdesc = SPI_tuptable->tupdesc;
1655  RI_ConstraintInfo fake_riinfo;
1656 
1657  slot = MakeSingleTupleTableSlot(tupdesc, &TTSOpsVirtual);
1658 
1659  heap_deform_tuple(tuple, tupdesc,
1660  slot->tts_values, slot->tts_isnull);
1661  ExecStoreVirtualTuple(slot);
1662 
1663  /*
1664  * The columns to look at in the result tuple are 1..N, not whatever
1665  * they are in the fk_rel. Hack up riinfo so that the subroutines
1666  * called here will behave properly.
1667  *
1668  * In addition to this, we have to pass the correct tupdesc to
1669  * ri_ReportViolation, overriding its normal habit of using the pk_rel
1670  * or fk_rel's tupdesc.
1671  */
1672  memcpy(&fake_riinfo, riinfo, sizeof(RI_ConstraintInfo));
1673  for (int i = 0; i < fake_riinfo.nkeys; i++)
1674  fake_riinfo.fk_attnums[i] = i + 1;
1675 
1676  /*
1677  * If it's MATCH FULL, and there are any nulls in the FK keys,
1678  * complain about that rather than the lack of a match. MATCH FULL
1679  * disallows partially-null FK rows.
1680  */
1681  if (fake_riinfo.confmatchtype == FKCONSTR_MATCH_FULL &&
1682  ri_NullCheck(tupdesc, slot, &fake_riinfo, false) != RI_KEYS_NONE_NULL)
1683  ereport(ERROR,
1684  (errcode(ERRCODE_FOREIGN_KEY_VIOLATION),
1685  errmsg("insert or update on table \"%s\" violates foreign key constraint \"%s\"",
1686  RelationGetRelationName(fk_rel),
1687  NameStr(fake_riinfo.conname)),
1688  errdetail("MATCH FULL does not allow mixing of null and nonnull key values."),
1689  errtableconstraint(fk_rel,
1690  NameStr(fake_riinfo.conname))));
1691 
1692  /*
1693  * We tell ri_ReportViolation we were doing the RI_PLAN_CHECK_LOOKUPPK
1694  * query, which isn't true, but will cause it to use
1695  * fake_riinfo.fk_attnums as we need.
1696  */
1697  ri_ReportViolation(&fake_riinfo,
1698  pk_rel, fk_rel,
1699  slot, tupdesc,
1700  RI_PLAN_CHECK_LOOKUPPK, false, false);
1701 
1703  }
1704 
1705  if (SPI_finish() != SPI_OK_FINISH)
1706  elog(ERROR, "SPI_finish failed");
1707 
1708  /*
1709  * Restore work_mem and hash_mem_multiplier.
1710  */
1711  AtEOXact_GUC(true, save_nestlevel);
1712 
1713  return true;
1714 }
bool has_bypassrls_privilege(Oid roleid)
Definition: aclchk.c:4164
bool object_ownercheck(Oid classid, Oid objectid, Oid roleid)
Definition: aclchk.c:4064
Bitmapset * bms_add_member(Bitmapset *a, int x)
Definition: bitmapset.c:815
bool ExecCheckPermissions(List *rangeTable, List *rteperminfos, bool ereport_on_violation)
Definition: execMain.c:582
const TupleTableSlotOps TTSOpsVirtual
Definition: execTuples.c:84
TupleTableSlot * ExecStoreVirtualTuple(TupleTableSlot *slot)
Definition: execTuples.c:1639
void ExecDropSingleTupleTableSlot(TupleTableSlot *slot)
Definition: execTuples.c:1341
TupleTableSlot * MakeSingleTupleTableSlot(TupleDesc tupdesc, const TupleTableSlotOps *tts_ops)
Definition: execTuples.c:1325
int maintenance_work_mem
Definition: globals.c:132
int NewGUCNestLevel(void)
Definition: guc.c:2235
void AtEOXact_GUC(bool isCommit, int nestLevel)
Definition: guc.c:2262
int set_config_option(const char *name, const char *value, GucContext context, GucSource source, GucAction action, bool changeVal, int elevel, bool is_reload)
Definition: guc.c:3342
@ GUC_ACTION_SAVE
Definition: guc.h:201
@ PGC_S_SESSION
Definition: guc.h:122
@ PGC_USERSET
Definition: guc.h:75
void heap_deform_tuple(HeapTuple tuple, TupleDesc tupleDesc, Datum *values, bool *isnull)
Definition: heaptuple.c:1345
if(TABLE==NULL||TABLE_index==NULL)
Definition: isn.c:76
List * lappend(List *list, void *datum)
Definition: list.c:339
#define makeNode(_type_)
Definition: nodes.h:155
@ RTE_RELATION
Definition: parsenodes.h:1017
#define ACL_SELECT
Definition: parsenodes.h:77
int errtableconstraint(Relation rel, const char *conname)
Definition: relcache.c:6000
static void quoteOneName(char *buffer, const char *name)
Definition: ri_triggers.c:1941
#define RIAttType(rel, attnum)
Definition: ri_triggers.c:88
static void ri_GenerateQualCollation(StringInfo buf, Oid collation)
Definition: ri_triggers.c:2005
#define MAX_QUOTED_REL_NAME_LEN
Definition: ri_triggers.c:85
static void ri_ReportViolation(const RI_ConstraintInfo *riinfo, Relation pk_rel, Relation fk_rel, TupleTableSlot *violatorslot, TupleDesc tupdesc, int queryno, bool is_restrict, bool partgone) pg_attribute_noreturn()
Definition: ri_triggers.c:2560
static void quoteRelationName(char *buffer, Relation rel)
Definition: ri_triggers.c:1961
static void ri_GenerateQual(StringInfo buf, const char *sep, const char *leftop, Oid leftoptype, Oid opoid, const char *rightop, Oid rightoptype)
Definition: ri_triggers.c:1978
#define RIAttCollation(rel, attnum)
Definition: ri_triggers.c:89
#define RI_PLAN_CHECK_LOOKUPPK
Definition: ri_triggers.c:71
#define MAX_QUOTED_NAME_LEN
Definition: ri_triggers.c:84
#define RIAttName(rel, attnum)
Definition: ri_triggers.c:87
Snapshot GetLatestSnapshot(void)
Definition: snapmgr.c:291
#define InvalidSnapshot
Definition: snapshot.h:123
uint64 SPI_processed
Definition: spi.c:44
SPITupleTable * SPI_tuptable
Definition: spi.c:45
int SPI_connect(void)
Definition: spi.c:94
int SPI_execute_snapshot(SPIPlanPtr plan, Datum *Values, const char *Nulls, Snapshot snapshot, Snapshot crosscheck_snapshot, bool read_only, bool fire_triggers, long tcount)
Definition: spi.c:773
int SPI_result
Definition: spi.c:46
const char * SPI_result_code_string(int code)
Definition: spi.c:1972
int SPI_finish(void)
Definition: spi.c:182
SPIPlanPtr SPI_prepare(const char *src, int nargs, Oid *argtypes)
Definition: spi.c:860
#define SPI_OK_FINISH
Definition: spi.h:83
#define SPI_OK_SELECT
Definition: spi.h:86
void appendStringInfo(StringInfo str, const char *fmt,...)
Definition: stringinfo.c:94
void appendStringInfoString(StringInfo str, const char *s)
Definition: stringinfo.c:179
void appendStringInfoChar(StringInfo str, char ch)
Definition: stringinfo.c:191
void initStringInfo(StringInfo str)
Definition: stringinfo.c:56
int16 pk_attnums[RI_MAX_NUMKEYS]
Definition: ri_triggers.c:125
int16 fk_attnums[RI_MAX_NUMKEYS]
Definition: ri_triggers.c:126
Oid pf_eq_oprs[RI_MAX_NUMKEYS]
Definition: ri_triggers.c:127
Bitmapset * selectedCols
Definition: parsenodes.h:1293
AclMode requiredPerms
Definition: parsenodes.h:1291
RTEKind rtekind
Definition: parsenodes.h:1047