/*
Derby - Class org.apache.derby.impl.sql.execute.DropTableConstantAction
Licensed to the Apache Software Foundation (ASF) under one or more
contributor license agreements. See the NOTICE file distributed with
this work for additional information regarding copyright ownership.
The ASF licenses this file to you under the Apache License, Version 2.0
(the "License"); you may not use this file except in compliance with
the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package org.apache.derby.impl.sql.execute;
import org.apache.derby.iapi.sql.execute.ConstantAction;
import org.apache.derby.iapi.services.sanity.SanityManager;
import org.apache.derby.iapi.error.StandardException;
import org.apache.derby.iapi.sql.conn.LanguageConnectionContext;
import org.apache.derby.iapi.sql.StatementType;
import org.apache.derby.iapi.sql.dictionary.ColumnDescriptor;
import org.apache.derby.iapi.sql.dictionary.ColumnDescriptorList;
import org.apache.derby.iapi.sql.dictionary.ConglomerateDescriptor;
import org.apache.derby.iapi.sql.dictionary.ConstraintDescriptor;
import org.apache.derby.iapi.sql.dictionary.ConstraintDescriptorList;
import org.apache.derby.iapi.sql.dictionary.DataDictionary;
import org.apache.derby.iapi.sql.dictionary.DefaultDescriptor;
import org.apache.derby.iapi.sql.dictionary.GenericDescriptorList;
import org.apache.derby.iapi.sql.dictionary.ReferencedKeyConstraintDescriptor;
import org.apache.derby.iapi.sql.dictionary.SchemaDescriptor;
import org.apache.derby.iapi.sql.dictionary.TableDescriptor;
import org.apache.derby.iapi.sql.dictionary.TriggerDescriptor;
import org.apache.derby.iapi.sql.depend.DependencyManager;
import org.apache.derby.iapi.reference.SQLState;
import org.apache.derby.iapi.sql.Activation;
import org.apache.derby.iapi.store.access.TransactionController;
import org.apache.derby.catalog.UUID;
import java.util.Iterator;
/**
* This class describes actions that are ALWAYS performed for a
* DROP TABLE Statement at Execution time.
*
*/
class DropTableConstantAction extends DDLSingleTableConstantAction
{
private final long conglomerateNumber;
private final String fullTableName;
private final String tableName;
private final SchemaDescriptor sd;
private final boolean cascade;
// CONSTRUCTORS
/**
* Make the ConstantAction for a DROP TABLE statement.
*
*
* @param fullTableName Fully qualified table name
* @param tableName Table name.
* @param sd Schema that table lives in.
* @param conglomerateNumber Conglomerate number for heap
* @param tableId UUID for table
* @param behavior drop behavior: RESTRICT, CASCADE or default
*
*/
DropTableConstantAction(
String fullTableName,
String tableName,
SchemaDescriptor sd,
long conglomerateNumber,
UUID tableId,
int behavior)
{
super(tableId);
this.fullTableName = fullTableName;
this.tableName = tableName;
this.sd = sd;
this.conglomerateNumber = conglomerateNumber;
this.cascade = (behavior == StatementType.DROP_CASCADE);
if (SanityManager.DEBUG)
{
SanityManager.ASSERT(sd != null, "SchemaDescriptor is null");
}
}
// OBJECT METHODS
public String toString()
{
// Do not put this under SanityManager.DEBUG - it is needed for
// error reporting.
return "DROP TABLE " + fullTableName;
}
// INTERFACE METHODS
/**
* This is the guts of the Execution-time logic for DROP TABLE.
*
* @see ConstantAction#executeConstantAction
*
* @exception StandardException Thrown on failure
*/
public void executeConstantAction( Activation activation )
throws StandardException
{
TableDescriptor td;
UUID tableID;
ConglomerateDescriptor[] cds;
LanguageConnectionContext lcc = activation.getLanguageConnectionContext();
DataDictionary dd = lcc.getDataDictionary();
DependencyManager dm = dd.getDependencyManager();
TransactionController tc = lcc.getTransactionExecute();
if ((sd != null) && sd.getSchemaName().equals(SchemaDescriptor.STD_DECLARED_GLOBAL_TEMPORARY_TABLES_SCHEMA_NAME)) {
td = lcc.getTableDescriptorForDeclaredGlobalTempTable(tableName); //check if this is a temp table before checking data dictionary
if (td == null) //td null here means it is not a temporary table. Look for table in physical SESSION schema
td = dd.getTableDescriptor(tableName, sd, tc);
if (td == null) //td null means tableName is not a temp table and it is not a physical table in SESSION schema
{
throw StandardException.newException(SQLState.LANG_TABLE_NOT_FOUND_DURING_EXECUTION, fullTableName);
}
if (td.getTableType() == TableDescriptor.GLOBAL_TEMPORARY_TABLE_TYPE) {
dm.invalidateFor(td, DependencyManager.DROP_TABLE, lcc);
tc.dropConglomerate(td.getHeapConglomerateId());
lcc.dropDeclaredGlobalTempTable(tableName);
return;
}
}
/* Lock the table before we access the data dictionary
* to prevent deadlocks.
*
* Note that for DROP TABLE replayed at Targets during REFRESH,
* the conglomerateNumber will be 0. That's ok. During REFRESH,
* we don't need to lock the conglomerate.
*/
if ( conglomerateNumber != 0 ) { lockTableForDDL(tc, conglomerateNumber, true); }
/*
** Inform the data dictionary that we are about to write to it.
** There are several calls to data dictionary "get" methods here
** that might be done in "read" mode in the data dictionary, but
** it seemed safer to do this whole operation in "write" mode.
**
** We tell the data dictionary we're done writing at the end of
** the transaction.
*/
dd.startWriting(lcc);
/* Get the table descriptor. */
td = dd.getTableDescriptor(tableId);
if (td == null)
{
throw StandardException.newException(SQLState.LANG_TABLE_NOT_FOUND_DURING_EXECUTION, fullTableName);
}
/* Get an exclusive table lock on the table. */
long heapId = td.getHeapConglomerateId();
lockTableForDDL(tc, heapId, true);
/* Drop the triggers */
GenericDescriptorList tdl = dd.getTriggerDescriptors(td);
for (Iterator descIter = tdl.iterator(); descIter.hasNext(); ) {
TriggerDescriptor trd = (TriggerDescriptor)descIter.next();
trd.drop(lcc);
}
/* Drop all defaults */
ColumnDescriptorList cdl = td.getColumnDescriptorList();
int cdlSize = cdl.size();
for (int index = 0; index < cdlSize; index++)
{
ColumnDescriptor cd = (ColumnDescriptor) cdl.elementAt(index);
// If column has a default we drop the default and
// any dependencies
if (cd.getDefaultInfo() != null)
{
DefaultDescriptor defaultDesc = cd.getDefaultDescriptor(dd);
dm.clearDependencies(lcc, defaultDesc);
}
}
/* Drop the columns */
dd.dropAllColumnDescriptors(tableId, tc);
/* Drop all table and column permission descriptors */
dd.dropAllTableAndColPermDescriptors(tableId, tc);
/* Drop the constraints */
dropAllConstraintDescriptors(td, activation);
/*
** Drop all the conglomerates. Drop the heap last, because the
** store needs it for locking the indexes when they are dropped.
*/
cds = td.getConglomerateDescriptors();
long[] dropped = new long[cds.length - 1];
int numDropped = 0;
for (int index = 0; index < cds.length; index++)
{
ConglomerateDescriptor cd = cds[index];
/* if it's for an index, since similar indexes share one
* conglomerate, we only drop the conglomerate once
*/
if (cd.getConglomerateNumber() != heapId)
{
long thisConglom = cd.getConglomerateNumber();
int i;
for (i = 0; i < numDropped; i++)
{
if (dropped[i] == thisConglom)
break;
}
if (i == numDropped) // not dropped
{
dropped[numDropped++] = thisConglom;
tc.dropConglomerate(thisConglom);
dd.dropStatisticsDescriptors(td.getUUID(), cd.getUUID(), tc);
}
}
}
/* Prepare all dependents to invalidate. (This is there chance
* to say that they can't be invalidated. For example, an open
* cursor referencing a table/view that the user is attempting to
* drop.) If no one objects, then invalidate any dependent objects.
* We check for invalidation before we drop the table descriptor
* since the table descriptor may be looked up as part of
* decoding tuples in SYSDEPENDS.
*/
dm.invalidateFor(td, DependencyManager.DROP_TABLE, lcc);
//
// The table itself can depend on the user defined types of its columns.
// Drop all of those dependencies now.
//
adjustUDTDependencies( lcc, dd, td, null, true );
/* Drop the table */
dd.dropTableDescriptor(td, sd, tc);
/* Drop the conglomerate descriptors */
dd.dropAllConglomerateDescriptors(td, tc);
/* Drop the store element at last, to prevent dangling reference
* for open cursor, beetle 4393.
*/
tc.dropConglomerate(heapId);
}
private void dropAllConstraintDescriptors(TableDescriptor td, Activation activation)
throws StandardException
{
ConstraintDescriptor cd;
ConstraintDescriptorList cdl;
ConstraintDescriptor fkcd;
ConstraintDescriptorList fkcdl;
LanguageConnectionContext lcc = activation.getLanguageConnectionContext();
DataDictionary dd = lcc.getDataDictionary();
DependencyManager dm = dd.getDependencyManager();
TransactionController tc = lcc.getTransactionExecute();
cdl = dd.getConstraintDescriptors(td);
/*
** First go, don't drop unique or primary keys.
** This will ensure that self-referential constraints
** will work ok, even if not cascading.
*/
/* The current element will be deleted underneath
* the loop, so we only increment the counter when
* skipping an element. (HACK!)
*/
for(int index = 0; index < cdl.size(); )
{
cd = cdl.elementAt(index);
if (cd instanceof ReferencedKeyConstraintDescriptor)
{
index++;
continue;
}
dm.invalidateFor(cd, DependencyManager.DROP_CONSTRAINT, lcc);
dropConstraint(cd, td, activation, lcc, true);
}
/*
** Referenced keys (unique or pk) constraints only
*/
/* The current element will be deleted underneath
* the loop. (HACK!)
*/
while (cdl.size() > 0)
{
cd = cdl.elementAt(0);
if (SanityManager.DEBUG)
{
if (!(cd instanceof ReferencedKeyConstraintDescriptor))
{
SanityManager.THROWASSERT("Constraint descriptor not an instance of " +
"ReferencedKeyConstraintDescriptor as expected. Is a "+ cd.getClass().getName());
}
}
/*
** Drop the referenced constraint (after we got
** the primary keys) now. Do this prior to
** droping the referenced keys to avoid performing
** a lot of extra work updating the referencedcount
** field of sys.sysconstraints.
**
** Pass in false to dropConstraintsAndIndex so it
** doesn't clear dependencies, we'll do that ourselves.
*/
dropConstraint(cd, td, activation, lcc, false);
/*
** If we are going to cascade, get all the
** referencing foreign keys and zap them first.
*/
if (cascade)
{
/*
** Go to the system tables to get the foreign keys
** to be safe
*/
fkcdl = dd.getForeignKeys(cd.getUUID());
/*
** For each FK that references this key, drop
** it.
*/
for(int inner = 0; inner < fkcdl.size(); inner++)
{
fkcd = (ConstraintDescriptor) fkcdl.elementAt(inner);
dm.invalidateFor(fkcd, DependencyManager.DROP_CONSTRAINT, lcc);
dropConstraint(fkcd, td, activation, lcc, true);
activation.addWarning(
StandardException.newWarning(SQLState.LANG_CONSTRAINT_DROPPED,
fkcd.getConstraintName(),
fkcd.getTableDescriptor().getName()));
}
}
/*
** Now that we got rid of the fks (if we were cascading), it is
** ok to do an invalidate for.
*/
dm.invalidateFor(cd, DependencyManager.DROP_CONSTRAINT, lcc);
dm.clearDependencies(lcc, cd);
}
}
}