From 049af6bb165d9624004395c6b32ae0ff49314993 Mon Sep 17 00:00:00 2001 From: amitlan Date: Tue, 12 Jan 2021 14:17:31 +0900 Subject: [PATCH v4 2/4] Avoid using an SQL query for some RI checks For RI triggers that want to check if a given referenced value exists in the referenced relation, it suffices to simply scan the foreign key constraint's unique index, instead of issuing an SQL query to do the same thing. To do so, this commit builds on the RIPlan infrastructure added in the previous commit. It replaces ri_SqlStringPlanCreate() used in RI_FKey_check() and ri_Check_Pk_Match() for creating the plan for their respective checks by ri_LookupKeyInPkRelPlanCreate(), which installs ri_LookupKeyInPkRel() as the plan to implement those checks. ri_LookupKeyInPkRel() contains the logic to directly scan the unique key associated with the foreign key constraint. --- src/backend/executor/execPartition.c | 167 +++++++++- src/backend/executor/nodeLockRows.c | 160 +++++----- src/backend/utils/adt/ri_triggers.c | 447 +++++++++++++++++++++------ src/include/executor/execPartition.h | 6 + src/include/executor/executor.h | 9 + 5 files changed, 610 insertions(+), 179 deletions(-) diff --git a/src/backend/executor/execPartition.c b/src/backend/executor/execPartition.c index 40e3c07693..764f2b9f8a 100644 --- a/src/backend/executor/execPartition.c +++ b/src/backend/executor/execPartition.c @@ -176,8 +176,9 @@ static void FormPartitionKeyDatum(PartitionDispatch pd, EState *estate, Datum *values, bool *isnull); -static int get_partition_for_tuple(PartitionDispatch pd, Datum *values, - bool *isnull); +static int get_partition_for_tuple(PartitionKey key, + PartitionDesc partdesc, + Datum *values, bool *isnull); static char *ExecBuildSlotPartitionKeyDescription(Relation rel, Datum *values, bool *isnull, @@ -318,7 +319,9 @@ ExecFindPartition(ModifyTableState *mtstate, * these values, error out. */ if (partdesc->nparts == 0 || - (partidx = get_partition_for_tuple(dispatch, values, isnull)) < 0) + (partidx = get_partition_for_tuple(dispatch->key, + dispatch->partdesc, + values, isnull)) < 0) { char *val_desc; @@ -1379,12 +1382,12 @@ FormPartitionKeyDatum(PartitionDispatch pd, * found or -1 if none found. */ static int -get_partition_for_tuple(PartitionDispatch pd, Datum *values, bool *isnull) +get_partition_for_tuple(PartitionKey key, + PartitionDesc partdesc, + Datum *values, bool *isnull) { int bound_offset = -1; int part_index = -1; - PartitionKey key = pd->key; - PartitionDesc partdesc = pd->partdesc; PartitionBoundInfo boundinfo = partdesc->boundinfo; /* @@ -1591,6 +1594,158 @@ get_partition_for_tuple(PartitionDispatch pd, Datum *values, bool *isnull) return part_index; } +/* + * ExecGetLeafPartitionForKey + * Finds the leaf partition of a partitioned table 'root_rel' that might + * contain the specified primary key tuple containing a subset of the + * table's columns (including all of the partition key columns) + * + * 'key_natts' specifies the number columns contained in the key, + * 'key_attnums' their attribute numbers as defined in 'root_rel', and + * 'key_vals' and 'key_nulls' specify the key tuple. + * + * Any intermediate parent tables encountered on the way to finding the leaf + * partition are locked using 'lockmode' when opening. + * + * Returns NULL if no leaf partition is found for the key. + * + * This also finds the index in thus found leaf partition that is recorded as + * descending from 'root_idxoid' and returns it in '*leaf_idxoid'. + * + * Caller must close the returned relation, if any. + * + * This works because the unique key defined on the root relation is required + * to contain the partition key columns of all of the ancestors that lead up to + * a given leaf partition. + */ +Relation +ExecGetLeafPartitionForKey(Relation root_rel, int key_natts, + const AttrNumber *key_attnums, + Datum *key_vals, char *key_nulls, + Oid root_idxoid, int lockmode, + Oid *leaf_idxoid) +{ + Relation rel = root_rel; + Oid constr_idxoid = root_idxoid; + + *leaf_idxoid = InvalidOid; + + /* + * Descend through partitioned parents to find the leaf partition that + * would accept a row with the provided key values, starting with the root + * parent. + */ + while (true) + { + PartitionKey partkey = RelationGetPartitionKey(rel); + PartitionDirectory partdir; + PartitionDesc partdesc; + Datum partkey_vals[PARTITION_MAX_KEYS]; + bool partkey_isnull[PARTITION_MAX_KEYS]; + AttrNumber *root_partattrs = partkey->partattrs; + int i, + j; + int partidx; + Oid partoid; + bool is_leaf; + + /* + * Collect partition key values from the unique key. + * + * Because we only have the root table's copy of pk_attnums, must map + * any non-root table's partition key attribute numbers to the root + * table's. + */ + if (rel != root_rel) + { + /* + * map->attnums will contain root table attribute numbers for each + * attribute of the current partitioned relation. + */ + AttrMap *map = build_attrmap_by_name_if_req(RelationGetDescr(root_rel), + RelationGetDescr(rel)); + + if (map) + { + root_partattrs = palloc(partkey->partnatts * + sizeof(AttrNumber)); + for (i = 0; i < partkey->partnatts; i++) + { + AttrNumber partattno = partkey->partattrs[i]; + + root_partattrs[i] = map->attnums[partattno - 1]; + } + + free_attrmap(map); + } + } + + /* + * Referenced key specification does not allow expressions, so there + * would not be expressions in the partition keys either. + */ + Assert(partkey->partexprs == NIL); + for (i = 0, j = 0; i < partkey->partnatts; i++) + { + int k; + + for (k = 0; k < key_natts; k++) + { + if (root_partattrs[i] == key_attnums[k]) + { + partkey_vals[j] = key_vals[k]; + partkey_isnull[j] = (key_nulls[k] == 'n'); + j++; + break; + } + } + } + /* Had better have found values for all of the partition keys. */ + Assert(j == partkey->partnatts); + + if (root_partattrs != partkey->partattrs) + pfree(root_partattrs); + + /* Get the PartitionDesc using the partition directory machinery. */ + partdir = CreatePartitionDirectory(CurrentMemoryContext, true); + partdesc = PartitionDirectoryLookup(partdir, rel); + + /* Find the partition for the key. */ + partidx = get_partition_for_tuple(partkey, partdesc, partkey_vals, + partkey_isnull); + Assert(partidx < 0 || partidx < partdesc->nparts); + + /* Done using the partition directory. */ + DestroyPartitionDirectory(partdir); + + /* Close any intermediate parents we opened, but keep the lock. */ + if (rel != root_rel) + table_close(rel, NoLock); + + /* No partition found. */ + if (partidx < 0) + return NULL; + + partoid = partdesc->oids[partidx]; + rel = table_open(partoid, lockmode); + constr_idxoid = index_get_partition(rel, constr_idxoid); + + /* + * Return if the partition is a leaf, else find its partition in the + * next iteration. + */ + is_leaf = partdesc->is_leaf[partidx]; + if (is_leaf) + { + *leaf_idxoid = constr_idxoid; + return rel; + } + } + + Assert(false); + return NULL; +} + /* * ExecBuildSlotPartitionKeyDescription * diff --git a/src/backend/executor/nodeLockRows.c b/src/backend/executor/nodeLockRows.c index a74813c7aa..352cacd70b 100644 --- a/src/backend/executor/nodeLockRows.c +++ b/src/backend/executor/nodeLockRows.c @@ -79,10 +79,7 @@ lnext: Datum datum; bool isNull; ItemPointerData tid; - TM_FailureData tmfd; LockTupleMode lockmode; - int lockflags = 0; - TM_Result test; TupleTableSlot *markSlot; /* clear any leftover test tuple for this rel */ @@ -179,74 +176,11 @@ lnext: break; } - lockflags = TUPLE_LOCK_FLAG_LOCK_UPDATE_IN_PROGRESS; - if (!IsolationUsesXactSnapshot()) - lockflags |= TUPLE_LOCK_FLAG_FIND_LAST_VERSION; - - test = table_tuple_lock(erm->relation, &tid, estate->es_snapshot, - markSlot, estate->es_output_cid, - lockmode, erm->waitPolicy, - lockflags, - &tmfd); - - switch (test) - { - case TM_WouldBlock: - /* couldn't lock tuple in SKIP LOCKED mode */ - goto lnext; - - case TM_SelfModified: - - /* - * The target tuple was already updated or deleted by the - * current command, or by a later command in the current - * transaction. We *must* ignore the tuple in the former - * case, so as to avoid the "Halloween problem" of repeated - * update attempts. In the latter case it might be sensible - * to fetch the updated tuple instead, but doing so would - * require changing heap_update and heap_delete to not - * complain about updating "invisible" tuples, which seems - * pretty scary (table_tuple_lock will not complain, but few - * callers expect TM_Invisible, and we're not one of them). So - * for now, treat the tuple as deleted and do not process. - */ - goto lnext; - - case TM_Ok: - - /* - * Got the lock successfully, the locked tuple saved in - * markSlot for, if needed, EvalPlanQual testing below. - */ - if (tmfd.traversed) - epq_needed = true; - break; - - case TM_Updated: - if (IsolationUsesXactSnapshot()) - ereport(ERROR, - (errcode(ERRCODE_T_R_SERIALIZATION_FAILURE), - errmsg("could not serialize access due to concurrent update"))); - elog(ERROR, "unexpected table_tuple_lock status: %u", - test); - break; - - case TM_Deleted: - if (IsolationUsesXactSnapshot()) - ereport(ERROR, - (errcode(ERRCODE_T_R_SERIALIZATION_FAILURE), - errmsg("could not serialize access due to concurrent update"))); - /* tuple was deleted so don't return it */ - goto lnext; - - case TM_Invisible: - elog(ERROR, "attempted to lock invisible tuple"); - break; - - default: - elog(ERROR, "unrecognized table_tuple_lock status: %u", - test); - } + /* skip tuple if it couldn't be locked */ + if (!ExecLockTableTuple(erm->relation, &tid, markSlot, + estate->es_snapshot, estate->es_output_cid, + lockmode, erm->waitPolicy, &epq_needed)) + goto lnext; /* Remember locked tuple's TID for EPQ testing and WHERE CURRENT OF */ erm->curCtid = tid; @@ -281,6 +215,90 @@ lnext: return slot; } +/* + * ExecLockTableTuple + * Locks tuple with the specified TID in lockmode following given wait + * policy + * + * Returns true if the tuple was successfully locked. Locked tuple is loaded + * into provided slot. + */ +bool +ExecLockTableTuple(Relation relation, ItemPointer tid, TupleTableSlot *slot, + Snapshot snapshot, CommandId cid, + LockTupleMode lockmode, LockWaitPolicy waitPolicy, + bool *epq_needed) +{ + TM_FailureData tmfd; + int lockflags = TUPLE_LOCK_FLAG_LOCK_UPDATE_IN_PROGRESS; + TM_Result test; + + if (!IsolationUsesXactSnapshot()) + lockflags |= TUPLE_LOCK_FLAG_FIND_LAST_VERSION; + + test = table_tuple_lock(relation, tid, snapshot, slot, cid, lockmode, + waitPolicy, lockflags, &tmfd); + + switch (test) + { + case TM_WouldBlock: + /* couldn't lock tuple in SKIP LOCKED mode */ + return false; + + case TM_SelfModified: + /* + * The target tuple was already updated or deleted by the + * current command, or by a later command in the current + * transaction. We *must* ignore the tuple in the former + * case, so as to avoid the "Halloween problem" of repeated + * update attempts. In the latter case it might be sensible + * to fetch the updated tuple instead, but doing so would + * require changing heap_update and heap_delete to not + * complain about updating "invisible" tuples, which seems + * pretty scary (table_tuple_lock will not complain, but few + * callers expect TM_Invisible, and we're not one of them). So + * for now, treat the tuple as deleted and do not process. + */ + return false; + + case TM_Ok: + /* + * Got the lock successfully, the locked tuple saved in + * slot for EvalPlanQual, if asked by the caller. + */ + if (tmfd.traversed && epq_needed) + *epq_needed = true; + break; + + case TM_Updated: + if (IsolationUsesXactSnapshot()) + ereport(ERROR, + (errcode(ERRCODE_T_R_SERIALIZATION_FAILURE), + errmsg("could not serialize access due to concurrent update"))); + elog(ERROR, "unexpected table_tuple_lock status: %u", + test); + break; + + case TM_Deleted: + if (IsolationUsesXactSnapshot()) + ereport(ERROR, + (errcode(ERRCODE_T_R_SERIALIZATION_FAILURE), + errmsg("could not serialize access due to concurrent update"))); + /* tuple was deleted so don't return it */ + return false; + + case TM_Invisible: + elog(ERROR, "attempted to lock invisible tuple"); + return false; + + default: + elog(ERROR, "unrecognized table_tuple_lock status: %u", test); + return false; + } + + return true; +} + /* ---------------------------------------------------------------- * ExecInitLockRows * diff --git a/src/backend/utils/adt/ri_triggers.c b/src/backend/utils/adt/ri_triggers.c index cfebd9c4f2..174e9746ff 100644 --- a/src/backend/utils/adt/ri_triggers.c +++ b/src/backend/utils/adt/ri_triggers.c @@ -23,22 +23,27 @@ #include "postgres.h" +#include "access/genam.h" #include "access/htup_details.h" +#include "access/skey.h" #include "access/sysattr.h" #include "access/table.h" #include "access/tableam.h" #include "access/xact.h" +#include "catalog/partition.h" #include "catalog/pg_collation.h" #include "catalog/pg_constraint.h" #include "catalog/pg_operator.h" #include "catalog/pg_type.h" #include "commands/trigger.h" +#include "executor/execPartition.h" #include "executor/executor.h" #include "executor/spi.h" #include "lib/ilist.h" #include "miscadmin.h" #include "parser/parse_coerce.h" #include "parser/parse_relation.h" +#include "partitioning/partdesc.h" #include "storage/bufmgr.h" #include "tcop/pquery.h" #include "tcop/utility.h" @@ -50,6 +55,7 @@ #include "utils/inval.h" #include "utils/lsyscache.h" #include "utils/memutils.h" +#include "utils/partcache.h" #include "utils/rel.h" #include "utils/rls.h" #include "utils/ruleutils.h" @@ -151,6 +157,12 @@ typedef void (*RI_PlanFreeFunc_type) (struct RI_Plan *plan); */ typedef struct RI_Plan { + /* Constraint for this plan. */ + const RI_ConstraintInfo *riinfo; + + /* RI query type code. */ + int constr_queryno; + /* * Context under which this struct and its subsidiary data gets allocated. * It is made a child of CacheMemoryContext. @@ -265,7 +277,8 @@ static const RI_ConstraintInfo *ri_FetchConstraintInfo(Trigger *trigger, Relation trig_rel, bool rel_is_pk); static const RI_ConstraintInfo *ri_LoadConstraintInfo(Oid constraintOid); static Oid get_ri_constraint_root(Oid constrOid); -static RI_Plan *ri_PlanCheck(RI_PlanCreateFunc_type plan_create_func, +static RI_Plan *ri_PlanCheck(const RI_ConstraintInfo *riinfo, + RI_PlanCreateFunc_type plan_create_func, const char *querystr, int nargs, Oid *argtypes, RI_QueryKey *qkey, Relation fk_rel, Relation pk_rel); static bool ri_PerformCheck(const RI_ConstraintInfo *riinfo, @@ -289,6 +302,15 @@ static int ri_SqlStringPlanExecute(RI_Plan *plan, Relation fk_rel, Relation pk_r Snapshot crosscheck_snapshot, int limit, CmdType *last_stmt_cmdtype); static void ri_SqlStringPlanFree(RI_Plan *plan); +static void ri_LookupKeyInPkRelPlanCreate(RI_Plan *plan, + const char *querystr, int nargs, Oid *paramtypes); +static int ri_LookupKeyInPkRel(struct RI_Plan *plan, + Relation fk_rel, Relation pk_rel, + Datum *pk_vals, char *pk_nulls, + Snapshot test_snapshot, Snapshot crosscheck_snapshot, + int limit, CmdType *last_stmt_cmdtype); +static bool ri_LookupKeyInPkRelPlanIsValid(RI_Plan *plan); +static void ri_LookupKeyInPkRelPlanFree(RI_Plan *plan); /* @@ -384,9 +406,9 @@ RI_FKey_check(TriggerData *trigdata) /* * MATCH PARTIAL - all non-null columns must match. (not - * implemented, can be done by modifying the query below - * to only include non-null columns, or by writing a - * special version here) + * implemented, can be done by modifying + * LookupKeyInPkRelPlanExecute() to only include non-null + * columns. */ break; #endif @@ -406,49 +428,9 @@ RI_FKey_check(TriggerData *trigdata) if ((qplan = ri_FetchPreparedPlan(&qkey)) == NULL) { - StringInfoData querybuf; - char pkrelname[MAX_QUOTED_REL_NAME_LEN]; - char attname[MAX_QUOTED_NAME_LEN]; - char paramname[16]; - const char *querysep; - Oid queryoids[RI_MAX_NUMKEYS]; - const char *pk_only; - - /* ---------- - * The query string built is - * SELECT 1 FROM [ONLY] x WHERE pkatt1 = $1 [AND ...] - * FOR KEY SHARE OF x - * The type id's for the $ parameters are those of the - * corresponding FK attributes. - * ---------- - */ - initStringInfo(&querybuf); - pk_only = pk_rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE ? - "" : "ONLY "; - quoteRelationName(pkrelname, pk_rel); - appendStringInfo(&querybuf, "SELECT 1 FROM %s%s x", - pk_only, pkrelname); - querysep = "WHERE"; - for (int i = 0; i < riinfo->nkeys; i++) - { - Oid pk_type = RIAttType(pk_rel, riinfo->pk_attnums[i]); - Oid fk_type = RIAttType(fk_rel, riinfo->fk_attnums[i]); - - quoteOneName(attname, - RIAttName(pk_rel, riinfo->pk_attnums[i])); - sprintf(paramname, "$%d", i + 1); - ri_GenerateQual(&querybuf, querysep, - attname, pk_type, - riinfo->pf_eq_oprs[i], - paramname, fk_type); - querysep = "AND"; - queryoids[i] = fk_type; - } - appendStringInfoString(&querybuf, " FOR KEY SHARE OF x"); - - /* Prepare and save the plan using ri_SqlStringPlanCreate(). */ - qplan = ri_PlanCheck(ri_SqlStringPlanCreate, - querybuf.data, riinfo->nkeys, queryoids, + /* Prepare and save the plan using ri_LookupKeyInPkRelPlanCreate(). */ + qplan = ri_PlanCheck(riinfo, ri_LookupKeyInPkRelPlanCreate, + NULL, 0 /* nargs */, NULL /* argtypes */, &qkey, fk_rel, pk_rel); } @@ -533,48 +515,9 @@ ri_Check_Pk_Match(Relation pk_rel, Relation fk_rel, if ((qplan = ri_FetchPreparedPlan(&qkey)) == NULL) { - StringInfoData querybuf; - char pkrelname[MAX_QUOTED_REL_NAME_LEN]; - char attname[MAX_QUOTED_NAME_LEN]; - char paramname[16]; - const char *querysep; - const char *pk_only; - Oid queryoids[RI_MAX_NUMKEYS]; - - /* ---------- - * The query string built is - * SELECT 1 FROM [ONLY] x WHERE pkatt1 = $1 [AND ...] - * FOR KEY SHARE OF x - * The type id's for the $ parameters are those of the - * PK attributes themselves. - * ---------- - */ - initStringInfo(&querybuf); - pk_only = pk_rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE ? - "" : "ONLY "; - quoteRelationName(pkrelname, pk_rel); - appendStringInfo(&querybuf, "SELECT 1 FROM %s%s x", - pk_only, pkrelname); - querysep = "WHERE"; - for (int i = 0; i < riinfo->nkeys; i++) - { - Oid pk_type = RIAttType(pk_rel, riinfo->pk_attnums[i]); - - quoteOneName(attname, - RIAttName(pk_rel, riinfo->pk_attnums[i])); - sprintf(paramname, "$%d", i + 1); - ri_GenerateQual(&querybuf, querysep, - attname, pk_type, - riinfo->pp_eq_oprs[i], - paramname, pk_type); - querysep = "AND"; - queryoids[i] = pk_type; - } - appendStringInfoString(&querybuf, " FOR KEY SHARE OF x"); - - /* Prepare and save the plan using ri_SqlStringPlanCreate(). */ - qplan = ri_PlanCheck(ri_SqlStringPlanCreate, - querybuf.data, riinfo->nkeys, queryoids, + /* Prepare and save the plan using ri_LookupKeyInPkRelPlanCreate(). */ + qplan = ri_PlanCheck(riinfo, ri_LookupKeyInPkRelPlanCreate, + NULL, 0 /* nargs */, NULL /* argtypes */, &qkey, fk_rel, pk_rel); } @@ -760,7 +703,7 @@ ri_restrict(TriggerData *trigdata, bool is_no_action) appendStringInfoString(&querybuf, " FOR KEY SHARE OF x"); /* Prepare and save the plan using ri_SqlStringPlanCreate(). */ - qplan = ri_PlanCheck(ri_SqlStringPlanCreate, + qplan = ri_PlanCheck(riinfo, ri_SqlStringPlanCreate, querybuf.data, riinfo->nkeys, queryoids, &qkey, fk_rel, pk_rel); } @@ -860,7 +803,7 @@ RI_FKey_cascade_del(PG_FUNCTION_ARGS) } /* Prepare and save the plan using ri_SqlStringPlanCreate(). */ - qplan = ri_PlanCheck(ri_SqlStringPlanCreate, + qplan = ri_PlanCheck(riinfo, ri_SqlStringPlanCreate, querybuf.data, riinfo->nkeys, queryoids, &qkey, fk_rel, pk_rel); } @@ -977,7 +920,7 @@ RI_FKey_cascade_upd(PG_FUNCTION_ARGS) appendBinaryStringInfo(&querybuf, qualbuf.data, qualbuf.len); /* Prepare and save the plan using ri_SqlStringPlanCreate(). */ - qplan = ri_PlanCheck(ri_SqlStringPlanCreate, + qplan = ri_PlanCheck(riinfo, ri_SqlStringPlanCreate, querybuf.data, riinfo->nkeys * 2, queryoids, &qkey, fk_rel, pk_rel); } @@ -1204,7 +1147,7 @@ ri_set(TriggerData *trigdata, bool is_set_null, int tgkind) } /* Prepare and save the plan using ri_SqlStringPlanCreate(). */ - qplan = ri_PlanCheck(ri_SqlStringPlanCreate, + qplan = ri_PlanCheck(riinfo, ri_SqlStringPlanCreate, querybuf.data, riinfo->nkeys, queryoids, &qkey, fk_rel, pk_rel); } @@ -2013,6 +1956,11 @@ ri_BuildQueryKey(RI_QueryKey *key, const RI_ConstraintInfo *riinfo, * saving lots of work and memory when there are many partitions with * similar FK constraints. * + * We must not share the plan for RI_PLAN_CHECK_LOOKUPPK queries either, + * because its execution function (ri_LookupKeyInPkRel()) expects to see + * the RI_ConstraintInfo of the individual leaf partitions that the + * query fired on. + * * (Note that we must still have a separate RI_ConstraintInfo for each * constraint, because partitions can have different column orders, * resulting in different pk_attnums[] or fk_attnums[] array contents.) @@ -2020,7 +1968,8 @@ ri_BuildQueryKey(RI_QueryKey *key, const RI_ConstraintInfo *riinfo, * We assume struct RI_QueryKey contains no padding bytes, else we'd need * to use memset to clear them. */ - if (constr_queryno != RI_PLAN_CHECK_LOOKUPPK_FROM_PK) + if (constr_queryno != RI_PLAN_CHECK_LOOKUPPK_FROM_PK && + constr_queryno != RI_PLAN_CHECK_LOOKUPPK) key->constr_id = riinfo->constraint_root_id; else key->constr_id = riinfo->constraint_id; @@ -2285,10 +2234,17 @@ InvalidateConstraintCacheCallBack(Datum arg, int cacheid, uint32 hashvalue) } } +typedef enum RI_Plantype +{ + RI_PLAN_SQL = 0, + RI_PLAN_CHECK_FUNCTION +} RI_Plantype; + /* Query string or an equivalent name to show in the error CONTEXT. */ typedef struct RIErrorCallbackArg { const char *query; + RI_Plantype plantype; } RIErrorCallbackArg; /* @@ -2318,7 +2274,17 @@ _RI_error_callback(void *arg) internalerrquery(query); } else - errcontext("SQL statement \"%s\"", query); + { + switch (carg->plantype) + { + case RI_PLAN_SQL: + errcontext("SQL statement \"%s\"", query); + break; + case RI_PLAN_CHECK_FUNCTION: + errcontext("RI check function \"%s\"", query); + break; + } + } } /* @@ -2555,14 +2521,276 @@ ri_SqlStringPlanFree(RI_Plan *plan) } } +/* + * Creates an RI_Plan to look a key up in the PK table. + * + * Not much to do beside initializing the expected callback members, because + * there is no query string to parse and plan. + */ +static void +ri_LookupKeyInPkRelPlanCreate(RI_Plan *plan, + const char *querystr, int nargs, Oid *paramtypes) +{ + Assert(querystr == NULL); + plan->plan_exec_func = ri_LookupKeyInPkRel; + plan->plan_exec_arg = NULL; + plan->plan_is_valid_func = ri_LookupKeyInPkRelPlanIsValid; + plan->plan_free_func = ri_LookupKeyInPkRelPlanFree; +} + +/* + * get_fkey_unique_index + * Returns the unique index used by a supposedly foreign key constraint + */ +static Oid +get_fkey_unique_index(Oid conoid) +{ + Oid result = InvalidOid; + HeapTuple tp; + + tp = SearchSysCache1(CONSTROID, ObjectIdGetDatum(conoid)); + if (HeapTupleIsValid(tp)) + { + Form_pg_constraint contup = (Form_pg_constraint) GETSTRUCT(tp); + + if (contup->contype == CONSTRAINT_FOREIGN) + result = contup->conindid; + ReleaseSysCache(tp); + } + + if (!OidIsValid(result)) + elog(ERROR, "unique index not found for foreign key constraint %u", + conoid); + + return result; +} + +/* + * Checks whether a tuple containing the given unique key given by pk_vals, + * pk_nulls exists in 'pk_rel'. The key is looked up using the constraint's + * index given in plan->riinfo. + * + * If 'pk_rel' is a partitioned table, the check is performed on its leaf + * partition that would contain the key. + * + * The provided tuple is either the one being inserted into the referencing + * relation (fk_rel) or the one being deleted from the referenced relation + * (pk_rel). + */ +static int +ri_LookupKeyInPkRel(struct RI_Plan *plan, + Relation fk_rel, Relation pk_rel, + Datum *pk_vals, char *pk_nulls, + Snapshot test_snapshot, Snapshot crosscheck_snapshot, + int limit, CmdType *last_stmt_cmdtype) +{ + const RI_ConstraintInfo *riinfo = plan->riinfo; + Oid constr_id = riinfo->constraint_id; + Oid idxoid; + Relation idxrel; + Relation leaf_pk_rel = NULL; + int num_pk; + int i; + int tuples_processed = 0; + const Oid *eq_oprs; + ScanKeyData skey[INDEX_MAX_KEYS]; + IndexScanDesc scan; + TupleTableSlot *outslot; + AclResult aclresult; + RIErrorCallbackArg ricallbackarg; + ErrorContextCallback rierrcontext; + + /* We're effectively doing a CMD_SELECT below. */ + *last_stmt_cmdtype = CMD_SELECT; + + /* + * Setup error traceback support for ereport() + */ + ricallbackarg.query = "ri_LookupKeyInPkRel"; + ricallbackarg.plantype = RI_PLAN_CHECK_FUNCTION; + rierrcontext.callback = _RI_error_callback; + rierrcontext.arg = &ricallbackarg; + rierrcontext.previous = error_context_stack; + error_context_stack = &rierrcontext; + + /* XXX Maybe afterTriggerInvokeEvents() / AfterTriggerExecute() should? */ + CHECK_FOR_INTERRUPTS(); + + /* + * Choose the equality operators to use when scanning the PK index below. + */ + if (plan->constr_queryno == RI_PLAN_CHECK_LOOKUPPK) + { + /* Use PK = FK equality operator. */ + eq_oprs = riinfo->pf_eq_oprs; + + /* + * May need to cast each of the individual values of the foreign key + * to the corresponding PK column's type if the equality operator + * demands it. + */ + for (i = 0; i < riinfo->nkeys; i++) + { + if (pk_nulls[i] != 'n') + { + Oid eq_opr = eq_oprs[i]; + Oid typeid = RIAttType(fk_rel, riinfo->fk_attnums[i]); + RI_CompareHashEntry *entry = ri_HashCompareOp(eq_opr, typeid); + + if (OidIsValid(entry->cast_func_finfo.fn_oid)) + pk_vals[i] = FunctionCall3(&entry->cast_func_finfo, + pk_vals[i], + Int32GetDatum(-1), /* typmod */ + BoolGetDatum(false)); /* implicit coercion */ + } + } + } + else + { + Assert(plan->constr_queryno == RI_PLAN_CHECK_LOOKUPPK_FROM_PK); + /* Use PK = PK equality operator. */ + eq_oprs = riinfo->pp_eq_oprs; + } + + /* + * Must explicitly check that the new user has permissions to look into the + * schema of and SELECT from the referenced table. + */ + aclresult = pg_namespace_aclcheck(RelationGetNamespace(pk_rel), + GetUserId(), ACL_USAGE); + if (aclresult != ACLCHECK_OK) + aclcheck_error(aclresult, OBJECT_SCHEMA, + get_namespace_name(RelationGetNamespace(pk_rel))); + aclresult = pg_class_aclcheck(RelationGetRelid(pk_rel), GetUserId(), + ACL_SELECT); + if (aclresult != ACLCHECK_OK) + aclcheck_error(aclresult, OBJECT_TABLE, + RelationGetRelationName(pk_rel)); + + /* + * Open the constraint index to be scanned. + * + * If the target table is partitioned, we must look up the leaf partition + * and its corresponding unique index to search the keys in. + */ + idxoid = get_fkey_unique_index(constr_id); + if (pk_rel->rd_rel->relkind == RELKIND_PARTITIONED_TABLE) + { + Oid leaf_idxoid; + + /* + * Note that this relies on the latest snapshot having been pushed by + * the caller to be the ActiveSnapshot. The PartitionDesc machinery + * that runs as part of this will need to use the snapshot to determine + * whether to omit or include any detach-pending partition based on the + * whether the pg_inherits row that marks it as detach-pending is + * is visible to it or not, respectively. + */ + leaf_pk_rel = ExecGetLeafPartitionForKey(pk_rel, riinfo->nkeys, + riinfo->pk_attnums, + pk_vals, pk_nulls, + idxoid, RowShareLock, + &leaf_idxoid); + + /* + * If no suitable leaf partition exists, neither can the key we're + * looking for. + */ + if (leaf_pk_rel == NULL) + return false; + + pk_rel = leaf_pk_rel; + idxoid = leaf_idxoid; + } + idxrel = index_open(idxoid, RowShareLock); + + /* Set up ScanKeys for the index scan. */ + num_pk = IndexRelationGetNumberOfKeyAttributes(idxrel); + for (i = 0; i < num_pk; i++) + { + int pkattno = i + 1; + Oid operator = eq_oprs[i]; + Oid opfamily = idxrel->rd_opfamily[i]; + StrategyNumber strat = get_op_opfamily_strategy(operator, opfamily); + RegProcedure regop = get_opcode(operator); + + /* Initialize the scankey. */ + ScanKeyInit(&skey[i], + pkattno, + strat, + regop, + pk_vals[i]); + + skey[i].sk_collation = idxrel->rd_indcollation[i]; + + /* + * Check for null value. Should not occur, because callers currently + * take care of the cases in which they do occur. + */ + if (pk_nulls[i] == 'n') + skey[i].sk_flags |= SK_ISNULL; + } + + scan = index_beginscan(pk_rel, idxrel, test_snapshot, num_pk, 0); + index_rescan(scan, skey, num_pk, NULL, 0); + + /* Look for the tuple, and if found, try to lock it in key share mode. */ + outslot = table_slot_create(pk_rel, NULL); + if (index_getnext_slot(scan, ForwardScanDirection, outslot)) + { + /* + * If we fail to lock the tuple for whatever reason, assume it doesn't + * exist. + */ + if (ExecLockTableTuple(pk_rel, &(outslot->tts_tid), outslot, + test_snapshot, + GetCurrentCommandId(false), + LockTupleKeyShare, + LockWaitBlock, NULL)) + tuples_processed = 1; + } + + index_endscan(scan); + ExecDropSingleTupleTableSlot(outslot); + + /* Don't release lock until commit. */ + index_close(idxrel, NoLock); + + /* Close leaf partition relation if any. */ + if (leaf_pk_rel) + table_close(leaf_pk_rel, NoLock); + + /* + * Pop the error context stack + */ + error_context_stack = rierrcontext.previous; + + return tuples_processed; +} + +static bool +ri_LookupKeyInPkRelPlanIsValid(RI_Plan *plan) +{ + /* Never store anything that can be invalidated. */ + return true; +} + +static void +ri_LookupKeyInPkRelPlanFree(RI_Plan *plan) +{ + /* Nothing to free. */ +} + /* * Create an RI_Plan for a given RI check query and initialize the * plan callbacks and execution argument using the caller specified * function. */ static RI_Plan * -ri_PlanCreate(RI_PlanCreateFunc_type plan_create_func, - const char *querystr, int nargs, Oid *paramtypes) +ri_PlanCreate(const RI_ConstraintInfo *riinfo, + RI_PlanCreateFunc_type plan_create_func, + const char *querystr, int nargs, Oid *paramtypes, + int constr_queryno) { RI_Plan *plan; MemoryContext plancxt, @@ -2577,6 +2805,8 @@ ri_PlanCreate(RI_PlanCreateFunc_type plan_create_func, ALLOCSET_SMALL_SIZES); oldcxt = MemoryContextSwitchTo(plancxt); plan = (RI_Plan *) palloc0(sizeof(*plan)); + plan->riinfo = riinfo; + plan->constr_queryno = constr_queryno; plan->plancxt = plancxt; plan->nargs = nargs; if (plan->nargs > 0) @@ -2642,7 +2872,8 @@ ri_FreePlan(RI_Plan *plan) * Prepare execution plan for a query to enforce an RI restriction */ static RI_Plan * -ri_PlanCheck(RI_PlanCreateFunc_type plan_create_func, +ri_PlanCheck(const RI_ConstraintInfo *riinfo, + RI_PlanCreateFunc_type plan_create_func, const char *querystr, int nargs, Oid *argtypes, RI_QueryKey *qkey, Relation fk_rel, Relation pk_rel) { @@ -2666,7 +2897,8 @@ ri_PlanCheck(RI_PlanCreateFunc_type plan_create_func, save_sec_context | SECURITY_LOCAL_USERID_CHANGE | SECURITY_NOFORCE_RLS); /* Create the plan */ - qplan = ri_PlanCreate(plan_create_func, querystr, nargs, argtypes); + qplan = ri_PlanCreate(riinfo, plan_create_func, querystr, nargs, + argtypes, qkey->constr_queryno); /* Restore UID and security context */ SetUserIdAndSecContext(save_userid, save_sec_context); @@ -3277,7 +3509,10 @@ ri_AttributesEqual(Oid eq_opr, Oid typeid, * ri_HashCompareOp - * * See if we know how to compare two values, and create a new hash entry - * if not. + * if not. The entry contains the FmgrInfo of the equality operator function + * and that of the cast function, if one is needed to convert the right + * operand (whose type OID has been passed) before passing it to the equality + * function. */ static RI_CompareHashEntry * ri_HashCompareOp(Oid eq_opr, Oid typeid) @@ -3333,8 +3568,16 @@ ri_HashCompareOp(Oid eq_opr, Oid typeid) * moment since that will never be generated for implicit coercions. */ op_input_types(eq_opr, &lefttype, &righttype); - Assert(lefttype == righttype); - if (typeid == lefttype) + + /* + * Don't need to cast if the values that will be passed to the + * operator will be of expected operand type(s). The operator can be + * cross-type (such as when called by ri_LookupKeyInPkRel()), in which + * case, we only need the cast if the right operand value doesn't match + * the type expected by the operator. + */ + if ((lefttype == righttype && typeid == lefttype) || + (lefttype != righttype && typeid == righttype)) castfunc = InvalidOid; /* simplest case */ else { diff --git a/src/include/executor/execPartition.h b/src/include/executor/execPartition.h index 708435e952..cbe1d996e6 100644 --- a/src/include/executor/execPartition.h +++ b/src/include/executor/execPartition.h @@ -31,6 +31,12 @@ extern ResultRelInfo *ExecFindPartition(ModifyTableState *mtstate, EState *estate); extern void ExecCleanupTupleRouting(ModifyTableState *mtstate, PartitionTupleRouting *proute); +extern Relation ExecGetLeafPartitionForKey(Relation root_rel, + int key_natts, + const AttrNumber *key_attnums, + Datum *key_vals, char *key_nulls, + Oid root_idxoid, int lockmode, + Oid *leaf_idxoid); /* diff --git a/src/include/executor/executor.h b/src/include/executor/executor.h index ed95ed1176..2f415b80ce 100644 --- a/src/include/executor/executor.h +++ b/src/include/executor/executor.h @@ -243,6 +243,15 @@ extern void ExecShutdownNode(PlanState *node); extern void ExecSetTupleBound(int64 tuples_needed, PlanState *child_node); +/* + * functions in execLockRows.c + */ + +extern bool ExecLockTableTuple(Relation relation, ItemPointer tid, TupleTableSlot *slot, + Snapshot snapshot, CommandId cid, + LockTupleMode lockmode, LockWaitPolicy waitPolicy, + bool *epq_needed); + /* ---------------------------------------------------------------- * ExecProcNode * -- 2.35.3