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postgres/src/backend/commands/prepare.c
Tom Lane 28e82066a1 PREPARE/EXECUTE statements. Patch by Neil Conway, some kibitzing 
from Tom Lane.
2002-08-27 04:55:12 +00:00

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/*-------------------------------------------------------------------------
*
* prepare.c
* Prepareable SQL statements via PREPARE, EXECUTE and DEALLOCATE
*
* Copyright (c) 2002, PostgreSQL Global Development Group
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/commands/prepare.c,v 1.1 2002/08/27 04:55:07 tgl Exp $
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "commands/prepare.h"
#include "executor/executor.h"
#include "utils/guc.h"
#include "optimizer/planner.h"
#include "rewrite/rewriteHandler.h"
#include "tcop/pquery.h"
#include "tcop/tcopprot.h"
#include "tcop/utility.h"
#include "utils/hsearch.h"
#include "utils/memutils.h"
#define HASH_KEY_LEN NAMEDATALEN
/* All the data we need to remember about a stored query */
typedef struct
{
/* dynahash.c requires key to be first field */
char key[HASH_KEY_LEN];
List *query_list; /* list of queries */
List *plan_list; /* list of plans */
List *argtype_list; /* list of parameter type OIDs */
MemoryContext context; /* context containing this query */
} QueryHashEntry;
/*
* The hash table in which prepared queries are stored. This is
* per-backend: query plans are not shared between backends.
* The keys for this hash table are the arguments to PREPARE
* and EXECUTE ("plan names"); the entries are QueryHashEntry structs.
*/
static HTAB *prepared_queries = NULL;
static void InitQueryHashTable(void);
static void StoreQuery(const char *stmt_name, List *query_list,
List *plan_list, List *argtype_list);
static QueryHashEntry *FetchQuery(const char *plan_name);
static void RunQuery(QueryDesc *qdesc, EState *state);
/*
* Implements the 'PREPARE' utility statement.
*/
void
PrepareQuery(PrepareStmt *stmt)
{
List *plan_list = NIL;
List *query_list,
*query_list_item;
if (!stmt->name)
elog(ERROR, "No statement name given");
if (stmt->query->commandType == CMD_UTILITY)
elog(ERROR, "Utility statements cannot be prepared");
/* Rewrite the query. The result could be 0, 1, or many queries. */
query_list = QueryRewrite(stmt->query);
foreach(query_list_item, query_list)
{
Query *query = (Query *) lfirst(query_list_item);
Plan *plan;
/* We can't generate plans for utility statements. */
if (query->commandType == CMD_UTILITY)
plan = NULL;
else
{
/* Call the query planner to generate a plan. */
plan = planner(query);
}
plan_list = lappend(plan_list, plan);
}
StoreQuery(stmt->name, query_list, plan_list, stmt->argtype_oids);
}
/*
* Implements the 'EXECUTE' utility statement.
*/
void
ExecuteQuery(ExecuteStmt *stmt, CommandDest outputDest)
{
QueryHashEntry *entry;
List *l,
*query_list,
*plan_list;
ParamListInfo paramLI = NULL;
/* Look it up in the hash table */
entry = FetchQuery(stmt->name);
/* Make working copies the executor can safely scribble on */
query_list = (List *) copyObject(entry->query_list);
plan_list = (List *) copyObject(entry->plan_list);
Assert(length(query_list) == length(plan_list));
/* Evaluate parameters, if any */
if (entry->argtype_list != NIL)
{
int nargs = length(entry->argtype_list);
int i = 0;
ExprContext *econtext = MakeExprContext(NULL, CurrentMemoryContext);
/* Parser should have caught this error, but check */
if (nargs != length(stmt->params))
elog(ERROR, "ExecuteQuery: wrong number of arguments");
paramLI = (ParamListInfo) palloc((nargs + 1) * sizeof(ParamListInfoData));
MemSet(paramLI, 0, (nargs + 1) * sizeof(ParamListInfoData));
foreach (l, stmt->params)
{
Node *n = lfirst(l);
bool isNull;
paramLI[i].value = ExecEvalExprSwitchContext(n,
econtext,
&isNull,
NULL);
paramLI[i].kind = PARAM_NUM;
paramLI[i].id = i + 1;
paramLI[i].isnull = isNull;
i++;
}
paramLI[i].kind = PARAM_INVALID;
}
/* Execute each query */
foreach(l, query_list)
{
Query *query = lfirst(l);
Plan *plan = lfirst(plan_list);
bool is_last_query;
plan_list = lnext(plan_list);
is_last_query = (plan_list == NIL);
if (query->commandType == CMD_UTILITY)
ProcessUtility(query->utilityStmt, outputDest, NULL);
else
{
QueryDesc *qdesc;
EState *state;
if (Show_executor_stats)
ResetUsage();
qdesc = CreateQueryDesc(query, plan, outputDest, NULL);
state = CreateExecutorState();
state->es_param_list_info = paramLI;
if (stmt->into)
{
if (qdesc->operation != CMD_SELECT)
elog(ERROR, "INTO clause specified for non-SELECT query");
query->into = stmt->into;
qdesc->dest = None;
}
RunQuery(qdesc, state);
if (Show_executor_stats)
ShowUsage("EXECUTOR STATISTICS");
}
/*
* If we're processing multiple queries, we need to increment
* the command counter between them. For the last query,
* there's no need to do this, it's done automatically.
*/
if (! is_last_query)
CommandCounterIncrement();
}
/* No need to pfree memory, MemoryContext will be reset */
}
/*
* Initialize query hash table upon first use.
*/
static void
InitQueryHashTable(void)
{
HASHCTL hash_ctl;
MemSet(&hash_ctl, 0, sizeof(hash_ctl));
hash_ctl.keysize = HASH_KEY_LEN;
hash_ctl.entrysize = sizeof(QueryHashEntry);
prepared_queries = hash_create("Prepared Queries",
32,
&hash_ctl,
HASH_ELEM);
if (!prepared_queries)
elog(ERROR, "InitQueryHashTable: unable to create hash table");
}
/*
* Store all the data pertaining to a query in the hash table using
* the specified key. A copy of the data is made in a memory context belonging
* to the hash entry, so the caller can dispose of their copy.
*/
static void
StoreQuery(const char *stmt_name, List *query_list, List *plan_list,
List *argtype_list)
{
QueryHashEntry *entry;
MemoryContext oldcxt,
entrycxt;
char key[HASH_KEY_LEN];
bool found;
/* Initialize the hash table, if necessary */
if (!prepared_queries)
InitQueryHashTable();
/* Check for pre-existing entry of same name */
/* See notes in FetchQuery */
MemSet(key, 0, sizeof(key));
strncpy(key, stmt_name, sizeof(key));
hash_search(prepared_queries, key, HASH_FIND, &found);
if (found)
elog(ERROR, "Prepared statement with name \"%s\" already exists",
stmt_name);
/* Okay. Make a permanent memory context for the hashtable entry */
entrycxt = AllocSetContextCreate(TopMemoryContext,
stmt_name,
1024,
1024,
ALLOCSET_DEFAULT_MAXSIZE);
oldcxt = MemoryContextSwitchTo(entrycxt);
/*
* We need to copy the data so that it is stored in the correct
* memory context. Do this before making hashtable entry, so that
* an out-of-memory failure only wastes memory and doesn't leave us
* with an incomplete (ie corrupt) hashtable entry.
*/
query_list = (List *) copyObject(query_list);
plan_list = (List *) copyObject(plan_list);
argtype_list = listCopy(argtype_list);
/* Now we can add entry to hash table */
entry = (QueryHashEntry *) hash_search(prepared_queries,
key,
HASH_ENTER,
&found);
/* Shouldn't get a failure, nor duplicate entry */
if (!entry || found)
elog(ERROR, "Unable to store prepared statement \"%s\"!",
stmt_name);
/* Fill in the hash table entry with copied data */
entry->query_list = query_list;
entry->plan_list = plan_list;
entry->argtype_list = argtype_list;
entry->context = entrycxt;
MemoryContextSwitchTo(oldcxt);
}
/*
* Lookup an existing query in the hash table.
*/
static QueryHashEntry *
FetchQuery(const char *plan_name)
{
char key[HASH_KEY_LEN];
QueryHashEntry *entry;
/*
* If the hash table hasn't been initialized, it can't be storing
* anything, therefore it couldn't possibly store our plan.
*/
if (!prepared_queries)
elog(ERROR, "Prepared statement with name \"%s\" does not exist",
plan_name);
/*
* We can't just use the statement name as supplied by the user: the
* hash package is picky enough that it needs to be NULL-padded out
* to the appropriate length to work correctly.
*/
MemSet(key, 0, sizeof(key));
strncpy(key, plan_name, sizeof(key));
entry = (QueryHashEntry *) hash_search(prepared_queries,
key,
HASH_FIND,
NULL);
if (!entry)
elog(ERROR, "Prepared statement with name \"%s\" does not exist",
plan_name);
return entry;
}
/*
* Given a plan name, look up the stored plan (giving error if not found).
* If found, return the list of argument type OIDs.
*/
List *
FetchQueryParams(const char *plan_name)
{
QueryHashEntry *entry;
entry = FetchQuery(plan_name);
return entry->argtype_list;
}
/*
* Actually execute a prepared query.
*/
static void
RunQuery(QueryDesc *qdesc, EState *state)
{
TupleDesc tupdesc;
tupdesc = ExecutorStart(qdesc, state);
ExecutorRun(qdesc, state, state->es_direction, 0L);
ExecutorEnd(qdesc, state);
}
/*
* Implements the 'DEALLOCATE' utility statement: deletes the
* specified plan from storage.
*
* The initial part of this routine is identical to FetchQuery(),
* but we repeat the coding because we need to use the key twice.
*/
void
DeallocateQuery(DeallocateStmt *stmt)
{
char key[HASH_KEY_LEN];
QueryHashEntry *entry;
/*
* If the hash table hasn't been initialized, it can't be storing
* anything, therefore it couldn't possibly store our plan.
*/
if (!prepared_queries)
elog(ERROR, "Prepared statement with name \"%s\" does not exist",
stmt->name);
/*
* We can't just use the statement name as supplied by the user: the
* hash package is picky enough that it needs to be NULL-padded out
* to the appropriate length to work correctly.
*/
MemSet(key, 0, sizeof(key));
strncpy(key, stmt->name, sizeof(key));
/*
* First lookup the entry, so we can release all the subsidiary memory
* it has allocated (when it's removed, hash_search() will return
* a dangling pointer, so it needs to be done prior to HASH_REMOVE).
* This requires an extra hash-table lookup, but DEALLOCATE
* isn't exactly a performance bottleneck.
*/
entry = (QueryHashEntry *) hash_search(prepared_queries,
key,
HASH_FIND,
NULL);
if (!entry)
elog(ERROR, "Prepared statement with name \"%s\" does not exist",
stmt->name);
/* Flush the context holding the subsidiary data */
if (MemoryContextIsValid(entry->context))
MemoryContextDelete(entry->context);
/* Now we can remove the hash table entry */
hash_search(prepared_queries, key, HASH_REMOVE, NULL);
}
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