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/*
* 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.openjpa.jdbc.meta;
import java.io.File;
import java.io.IOException;
import java.io.PrintWriter;
import java.io.Writer;
import java.security.AccessController;
import java.security.PrivilegedActionException;
import java.sql.SQLException;
import java.util.Arrays;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import org.apache.openjpa.conf.OpenJPAConfiguration;
import org.apache.openjpa.jdbc.conf.JDBCConfiguration;
import org.apache.openjpa.jdbc.conf.JDBCConfigurationImpl;
import org.apache.openjpa.jdbc.kernel.JDBCSeq;
import org.apache.openjpa.jdbc.schema.Column;
import org.apache.openjpa.jdbc.schema.DynamicSchemaFactory;
import org.apache.openjpa.jdbc.schema.LazySchemaFactory;
import org.apache.openjpa.jdbc.schema.Schema;
import org.apache.openjpa.jdbc.schema.SchemaGenerator;
import org.apache.openjpa.jdbc.schema.SchemaGroup;
import org.apache.openjpa.jdbc.schema.SchemaSerializer;
import org.apache.openjpa.jdbc.schema.SchemaTool;
import org.apache.openjpa.jdbc.schema.Table;
import org.apache.openjpa.jdbc.schema.XMLSchemaSerializer;
import org.apache.openjpa.jdbc.sql.DBDictionary;
import org.apache.openjpa.kernel.Seq;
import org.apache.openjpa.lib.conf.Configurations;
import org.apache.openjpa.lib.log.Log;
import org.apache.openjpa.lib.meta.ClassArgParser;
import org.apache.openjpa.lib.meta.MetaDataSerializer;
import org.apache.openjpa.lib.meta.SourceTracker;
import org.apache.openjpa.lib.util.Files;
import org.apache.openjpa.lib.util.J2DoPrivHelper;
import org.apache.openjpa.lib.util.Localizer;
import org.apache.openjpa.lib.util.Options;
import org.apache.openjpa.lib.util.Services;
import org.apache.openjpa.meta.ClassMetaData;
import org.apache.openjpa.meta.FieldMetaData;
import org.apache.openjpa.meta.JavaTypes;
import org.apache.openjpa.meta.MetaDataFactory;
import org.apache.openjpa.meta.MetaDataModes;
import org.apache.openjpa.meta.MetaDataRepository;
import org.apache.openjpa.meta.QueryMetaData;
import org.apache.openjpa.meta.SequenceMetaData;
import org.apache.openjpa.meta.ValueStrategies;
import org.apache.openjpa.util.GeneralException;
import org.apache.openjpa.util.InternalException;
import org.apache.openjpa.util.MetaDataException;
/**
* Tool for manipulating class mappings and associated schema.
*
* @author Abe White
*/
public class MappingTool
implements MetaDataModes {
public static final String SCHEMA_ACTION_NONE = "none";
public static final String ACTION_ADD = "add";
public static final String ACTION_REFRESH = "refresh";
public static final String ACTION_BUILD_SCHEMA = "buildSchema";
public static final String ACTION_DROP = "drop";
public static final String ACTION_VALIDATE = "validate";
public static final String ACTION_EXPORT = "export";
public static final String ACTION_IMPORT = "import";
public static final String[] ACTIONS = new String[]{
ACTION_ADD,
ACTION_REFRESH,
ACTION_BUILD_SCHEMA,
ACTION_DROP,
ACTION_VALIDATE,
ACTION_EXPORT,
ACTION_IMPORT,
};
private static final Localizer _loc = Localizer.forPackage(MappingTool.class);
private final JDBCConfiguration _conf;
private final Log _log;
private final String _action;
private final boolean _meta;
private final int _mode;
private final DBDictionary _dict;
private MappingRepository _repos = null;
private SchemaGroup _schema = null;
private SchemaTool _schemaTool = null;
private String _schemaActions = SchemaTool.ACTION_ADD;
private boolean _readSchema = false;
private boolean _pks = false;
private boolean _fks = false;
private boolean _indexes = false;
private boolean _seqs = true;
private boolean _dropUnused = true;
private boolean _ignoreErrors = false;
private File _file = null;
private Writer _mappingWriter = null;
private Writer _schemaWriter = null;
// buffer metadatas to be dropped
private Set> _dropCls = null;
private Set _dropMap = null;
private boolean _flush = false;
private boolean _flushSchema = false;
/**
* Constructor. Supply configuration and action.
*/
public MappingTool(JDBCConfiguration conf, String action, boolean meta) {
_conf = conf;
_log = conf.getLog(JDBCConfiguration.LOG_METADATA);
_meta = meta;
if (action == null)
_action = ACTION_REFRESH;
else if (!Arrays.asList(ACTIONS).contains(action))
throw new IllegalArgumentException("action == " + action);
else
_action = action;
if (meta && ACTION_ADD.equals(_action))
_mode = MODE_META;
else if (meta && ACTION_DROP.equals(_action))
_mode = MODE_META | MODE_MAPPING | MODE_QUERY;
else
_mode = MODE_MAPPING;
_dict = _conf.getDBDictionaryInstance();
}
/**
* The action supplied on construction.
*/
public String getAction() {
return _action;
}
/**
* Whether the action works on metadata as well as mappings.
*/
public boolean isMetaDataAction() {
return _meta;
}
/**
* The schema modification policy, or none. See the
* ACTION constants in {@link SchemaTool}. May be a comma-separated
* list of values. Defaults to {@link SchemaTool#ACTION_ADD}.
*/
public String getSchemaAction() {
return _schemaActions;
}
/**
* The schema modification policy, or none. See the
* ACTION constants in {@link SchemaTool}. May be a comma-separated
* list of values. Defaults to {@link SchemaTool#ACTION_ADD}.
*/
public void setSchemaAction(String schemaAction) {
_schemaActions = schemaAction;
}
/**
* Set to true to read the entire schema before mapping.
* Leaving this option false saves time, but is dangerous when adding
* new mappings, because without full knowledge of the existing schema the
* mapping tool might create tables or indexes that conflict with
* existing components.
*/
public boolean getReadSchema() {
return _readSchema;
}
/**
* Set to true to read the entire schema before mapping.
* Leaving this option false saves time, but is dangerous when adding
* new mappings, because without full knowledge of the existing schema the
* mapping tool might create tables or indexes that conflict with
* existing components.
*/
public void setReadSchema(boolean readSchema) {
_readSchema = readSchema;
}
/**
* Whether to manipulate sequences. Defaults to true.
*/
public boolean getSequences() {
return _seqs;
}
/**
* Whether to manipulate sequences. Defaults to true.
*/
public void setSequences(boolean seqs) {
_seqs = seqs;
}
/**
* Whether indexes on existing tables should be manipulated.
* Defaults to false.
*/
public boolean getIndexes() {
return _indexes;
}
/**
* Whether indexes on existing tables should be manipulated.
* Defaults to false.
*/
public void setIndexes(boolean indexes) {
_indexes = indexes;
}
/**
* Whether foreign keys on existing tables should be manipulated.
* Defaults to false.
*/
public boolean getForeignKeys() {
return _fks;
}
/**
* Whether foreign keys on existing tables should be manipulated.
* Defaults to false.
*/
public void setForeignKeys(boolean fks) {
_fks = fks;
}
/**
* Whether primary keys on existing tables should be manipulated.
* Defaults to false.
*/
public boolean getPrimaryKeys() {
return _pks;
}
/**
* Whether primary keys on existing tables should be manipulated.
* Defaults to false.
*/
public void setPrimaryKeys(boolean pks) {
_pks = pks;
}
/**
* Whether schema components that are unused by any mapping will be
* dropped from this tool's {@link SchemaGroup}, and, depending on
* the schema action, from the database. Defaults to true.
*/
public boolean getDropUnusedComponents() {
return _dropUnused;
}
/**
* Whether schema components that are unused by any mapping will be
* dropped from this tool's {@link SchemaGroup}, and, depending on
* the schema action, from the database. Defaults to true.
*/
public void setDropUnusedComponents(boolean dropUnused) {
_dropUnused = dropUnused;
}
/**
* Whether and SQL errors should cause a failure or just issue a warning.
*/
public void setIgnoreErrors(boolean ignoreErrors) {
_ignoreErrors = ignoreErrors;
}
/**
* Whether and SQL errors should cause a failure or just issue a warning.
*/
public boolean getIgnoreErrors() {
return _ignoreErrors;
}
/**
* Return the schema tool to use for schema modification.
*/
private SchemaTool newSchemaTool(String action) {
if (SCHEMA_ACTION_NONE.equals(action))
action = null;
SchemaTool tool = new SchemaTool(_conf, action);
tool.setIgnoreErrors(getIgnoreErrors());
tool.setPrimaryKeys(getPrimaryKeys());
tool.setForeignKeys(getForeignKeys());
tool.setIndexes(getIndexes());
tool.setSequences(getSequences());
return tool;
}
/**
* Set the schema tool to use for schema modification.
*/
public void setSchemaTool(SchemaTool tool) {
_schemaTool = tool;
}
/**
* The stream to export the planned schema to as an XML document.
* If non-null, then the database schema will not be altered.
*/
public Writer getSchemaWriter() {
return _schemaWriter;
}
/**
* The stream to export the planned schema to as an XML document.
* If non-null, then the database schema will not be altered.
*/
public void setSchemaWriter(Writer schemaWriter) {
_schemaWriter = schemaWriter;
}
/**
* The stream to export the planned mappings to as an XML document.
* If non-null, then the mapping repository will not be altered.
*/
public Writer getMappingWriter() {
return _mappingWriter;
}
/**
* The stream to export the planned mappings to as an XML document.
* If non-null, then the mapping repository will not be altered.
*/
public void setMappingWriter(Writer mappingWriter) {
_mappingWriter = mappingWriter;
}
/**
* If adding metadata, the metadata file to add to.
*/
public File getMetaDataFile() {
return _file;
}
/**
* If adding metadata, the metadata file to add to.
*/
public void setMetaDataFile(File file) {
_file = file;
}
/**
* Return the repository to use to access mapping information.
* Defaults to a new {@link MappingRepository}.
*/
public MappingRepository getRepository() {
if (_repos == null) {
_repos = _conf.newMappingRepositoryInstance();
_repos.setSchemaGroup(getSchemaGroup());
_repos.setValidate(MetaDataRepository.VALIDATE_UNENHANCED, false);
}
return _repos;
}
/**
* Set the repository to use to access mapping information.
*/
public void setRepository(MappingRepository repos) {
_repos = repos;
}
/**
* Return the schema group to use in mapping. If none has been set, the
* schema will be generated from the database.
*/
public SchemaGroup getSchemaGroup() {
if (_schema == null) {
if (_action.indexOf(ACTION_BUILD_SCHEMA) != -1) {
DynamicSchemaFactory factory = new DynamicSchemaFactory();
factory.setConfiguration(_conf);
_schema = factory;
} else if (_readSchema
|| contains(_schemaActions,SchemaTool.ACTION_RETAIN)
|| contains(_schemaActions,SchemaTool.ACTION_REFRESH)) {
_schema = (SchemaGroup) newSchemaTool(null).getDBSchemaGroup().
clone();
} else {
// with this we'll just read tables as different mappings
// look for them
LazySchemaFactory factory = new LazySchemaFactory();
factory.setConfiguration(_conf);
factory.setPrimaryKeys(getPrimaryKeys());
factory.setForeignKeys(getForeignKeys());
factory.setIndexes(getIndexes());
_schema = factory;
}
if (_schema.getSchemas().length == 0)
_schema.addSchema();
}
return _schema;
}
/**
* Set the schema to use in mapping.
*/
public void setSchemaGroup(SchemaGroup schema) {
_schema = schema;
}
/**
* Reset the internal repository. This is called automatically after
* every {@link #record}.
*/
public void clear() {
_repos = null;
_schema = null;
_schemaTool = null;
_flush = false;
_flushSchema = false;
if (_dropCls != null)
_dropCls.clear();
if (_dropMap != null)
_dropMap.clear();
}
/**
* Records the changes that have been made to both the mappings and the
* associated schema, and clears the tool for further use. This also
* involves clearing the internal mapping repository.
*/
public void record() {
record(null);
}
public void record(MappingTool.Flags flags) {
MappingRepository repos = getRepository();
MetaDataFactory io = repos.getMetaDataFactory();
ClassMapping[] mappings;
if (!ACTION_DROP.equals(_action))
mappings = repos.getMappings();
else if (_dropMap != null)
mappings = (ClassMapping[]) _dropMap.toArray
(new ClassMapping[_dropMap.size()]);
else
mappings = new ClassMapping[0];
try {
if (_dropCls != null && !_dropCls.isEmpty()) {
Class>[] cls = (Class[]) _dropCls.toArray
(new Class[_dropCls.size()]);
if (!io.drop(cls, _mode, null))
_log.warn(_loc.get("bad-drop", _dropCls));
}
if (_flushSchema) {
// drop portions of the known schema that no mapping uses, and
// add sequences used for value generation
if (_dropUnused)
dropUnusedSchemaComponents(mappings);
addSequenceComponents(mappings);
// now run the schematool as long as we're doing some schema
// action and the user doesn't just want an xml output
String[] schemaActions = _schemaActions.split(",");
for (int i = 0; i < schemaActions.length; i++) {
if (!SCHEMA_ACTION_NONE.equals(schemaActions[i])
&& (_schemaWriter == null || (_schemaTool != null
&& _schemaTool.getWriter() != null))) {
SchemaTool tool = newSchemaTool(schemaActions[i]);
// configure the tool with additional settings
if (flags != null) {
tool.setDropTables(flags.dropTables);
tool.setDropSequences(flags.dropSequences);
tool.setWriter(flags.sqlWriter);
tool.setOpenJPATables(flags.openjpaTables);
tool.setSQLTerminator(flags.sqlTerminator);
}
tool.setSchemaGroup(getSchemaGroup());
tool.run();
tool.record();
tool.clear();
}
}
// xml output of schema?
if (_schemaWriter != null) {
// serialize the planned schema to the stream
SchemaSerializer ser = new XMLSchemaSerializer(_conf);
ser.addAll(getSchemaGroup());
ser.serialize(_schemaWriter, MetaDataSerializer.PRETTY);
_schemaWriter.flush();
}
}
if (!_flush)
return;
QueryMetaData[] queries = repos.getQueryMetaDatas();
SequenceMetaData[] seqs = repos.getSequenceMetaDatas();
Map output = null;
// if we're outputting to stream, set all metas to same file so
// they get placed in single string
if (_mappingWriter != null) {
output = new HashMap();
File tmp = new File("openjpatmp");
for (int i = 0; i < mappings.length; i++) {
mappings[i].setSource(tmp, SourceTracker.SRC_OTHER, "openjpatmp");
}
for (int i = 0; i < queries.length; i++) {
queries[i].setSource(tmp, queries[i].getSourceScope(), SourceTracker.SRC_OTHER, "openjpatmp");
}
for (int i = 0; i < seqs.length; i++)
seqs[i].setSource(tmp, seqs[i].getSourceScope(),
SourceTracker.SRC_OTHER);
}
// store
if (!io.store(mappings, queries, seqs, _mode, output))
throw new MetaDataException(_loc.get("bad-store"));
// write to stream
if (_mappingWriter != null) {
PrintWriter out = new PrintWriter(_mappingWriter);
for (Iterator itr = output.values().iterator();
itr.hasNext();)
out.println(itr.next());
out.flush();
}
}
catch (RuntimeException re) {
throw re;
} catch (Exception e) {
throw new GeneralException(e);
} finally {
clear();
}
}
/**
* Drops schema components that appear to be unused from the local
* copy of the schema group.
*/
private void dropUnusedSchemaComponents(ClassMapping[] mappings) {
FieldMapping[] fields;
for (int i = 0; i < mappings.length; i++) {
mappings[i].refSchemaComponents();
mappings[i].getDiscriminator().refSchemaComponents();
mappings[i].getVersion().refSchemaComponents();
fields = mappings[i].getDefinedFieldMappings();
for (int j = 0; j < fields.length; j++)
fields[j].refSchemaComponents();
}
// also allow the dbdictionary to ref any schema components that
// it adds apart from mappings
SchemaGroup group = getSchemaGroup();
Schema[] schemas = group.getSchemas();
Table[] tables;
for (int i = 0; i < schemas.length; i++) {
tables = schemas[i].getTables();
for (int j = 0; j < tables.length; j++)
_dict.refSchemaComponents(tables[j]);
}
group.removeUnusedComponents();
}
/**
* Add tables used by sequences to the given schema.
*/
private void addSequenceComponents(ClassMapping[] mappings) {
SchemaGroup group = getSchemaGroup();
for (int i = 0; i < mappings.length; i++)
addSequenceComponents(mappings[i], group);
}
/**
* Add tables used by sequences to the given schema.
*/
private void addSequenceComponents(ClassMapping mapping,
SchemaGroup group) {
SequenceMetaData smd = mapping.getIdentitySequenceMetaData();
Seq seq = null;
if (smd != null)
seq = smd.getInstance(null);
else if (mapping.getIdentityStrategy() == ValueStrategies.NATIVE
|| (mapping.getIdentityStrategy() == ValueStrategies.NONE
&& mapping.getIdentityType() == ClassMapping.ID_DATASTORE))
seq = _conf.getSequenceInstance();
if (seq instanceof JDBCSeq)
((JDBCSeq) seq).addSchema(mapping, group);
FieldMapping[] fmds;
if (mapping.getEmbeddingMetaData() == null)
fmds = mapping.getDefinedFieldMappings();
else
fmds = mapping.getFieldMappings();
for (int i = 0; i < fmds.length; i++) {
smd = fmds[i].getValueSequenceMetaData();
if (smd != null) {
seq = smd.getInstance(null);
if (seq instanceof JDBCSeq)
((JDBCSeq) seq).addSchema(mapping, group);
} else if (fmds[i].getEmbeddedMapping() != null)
addSequenceComponents(fmds[i].getEmbeddedMapping(), group);
}
}
///////////
// Actions
///////////
/**
* Run the configured action on the given instance.
*/
public void run(Class> cls) {
if (ACTION_ADD.equals(_action)) {
if (_meta)
addMeta(cls);
else
add(cls);
} else if (ACTION_REFRESH.equals(_action))
refresh(cls);
else if (ACTION_BUILD_SCHEMA.equals(_action))
buildSchema(cls);
else if (ACTION_DROP.equals(_action))
drop(cls);
else if (ACTION_VALIDATE.equals(_action))
validate(cls);
}
/**
* Add the mapping for the given instance.
*/
private void add(Class> cls) {
if (cls == null)
return;
MappingRepository repos = getRepository();
repos.setStrategyInstaller(new MappingStrategyInstaller(repos));
if (getMapping(repos, cls, true) != null) {
_flush = true;
_flushSchema = true;
}
}
/**
* Return the mapping for the given type, or null if the type is
* persistence-aware.
*/
private static ClassMapping getMapping(MappingRepository repos, Class> cls,
boolean validate) {
// this will parse all possible metadata rsrcs looking for cls, so
// will detect if p-aware
ClassMapping mapping = repos.getMapping(cls, null, false);
if (mapping != null)
return mapping;
if (!validate || cls.isInterface()
|| repos.getPersistenceAware(cls) != null)
return null;
throw new MetaDataException(_loc.get("no-meta", cls, cls.getClassLoader()));
}
/**
* Create a metadata for the given instance.
*/
private void addMeta(Class> cls) {
if (cls == null)
return;
_flush = true;
MappingRepository repos = getRepository();
repos.setResolve(MODE_MAPPING, false);
MetaDataFactory factory = repos.getMetaDataFactory();
factory.getDefaults().setIgnoreNonPersistent(false);
factory.setStoreMode(MetaDataFactory.STORE_VERBOSE);
ClassMetaData meta = repos.addMetaData(cls);
FieldMetaData[] fmds = meta.getDeclaredFields();
for (int i = 0; i < fmds.length; i++) {
if (fmds[i].getDeclaredTypeCode() == JavaTypes.OBJECT
&& fmds[i].getDeclaredType() != Object.class)
fmds[i].setDeclaredTypeCode(JavaTypes.PC);
}
meta.setSource(_file, meta.getSourceType(), _file == null ? "": _file.getPath() );
meta.setResolve(MODE_META, true);
}
/**
* Refresh or add the mapping for the given instance.
*/
private void refresh(Class> cls) {
if (cls == null)
return;
MappingRepository repos = getRepository();
repos.setStrategyInstaller(new RefreshStrategyInstaller(repos));
if (getMapping(repos, cls, true) != null) {
_flush = true;
_flushSchema = true;
}
}
/**
* Validate the mappings for the given class and its fields.
*/
private void validate(Class> cls) {
if (cls == null)
return;
MappingRepository repos = getRepository();
repos.setStrategyInstaller(new RuntimeStrategyInstaller(repos));
if (getMapping(repos, cls, true) != null)
_flushSchema = !contains(_schemaActions,SCHEMA_ACTION_NONE)
&& !contains(_schemaActions,SchemaTool.ACTION_ADD);
}
/**
* Create the schema using the mapping for the given instance.
*/
private void buildSchema(Class> cls) {
if (cls == null)
return;
MappingRepository repos = getRepository();
repos.setStrategyInstaller(new RuntimeStrategyInstaller(repos));
if (getMapping(repos, cls, true) == null)
return;
// set any logical pks to non-logical so they get flushed
_flushSchema = true;
Schema[] schemas = _schema.getSchemas();
Table[] tables;
Column[] cols;
for (int i = 0; i < schemas.length; i++) {
tables = schemas[i].getTables();
for (int j = 0; j < tables.length; j++) {
if (tables[j].getPrimaryKey() == null)
continue;
tables[j].getPrimaryKey().setLogical(false);
cols = tables[j].getPrimaryKey().getColumns();
for (int k = 0; k < cols.length; k++)
cols[k].setNotNull(true);
}
}
}
/**
* Drop mapping for given class.
*/
private void drop(Class> cls) {
if (cls == null)
return;
if (_dropCls == null)
_dropCls = new HashSet>();
_dropCls.add(cls);
if (!contains(_schemaActions,SchemaTool.ACTION_DROP))
return;
MappingRepository repos = getRepository();
repos.setStrategyInstaller(new RuntimeStrategyInstaller(repos));
ClassMapping mapping = null;
try {
mapping = repos.getMapping(cls, null, false);
} catch (Exception e) {
}
if (mapping != null) {
_flushSchema = true;
if (_dropMap == null)
_dropMap = new HashSet();
_dropMap.add(mapping);
} else
_log.warn(_loc.get("no-drop-meta", cls));
}
////////
// Main
////////
/**
* Usage: java org.apache.openjpa.jdbc.meta.MappingTool [option]*
* [-action/-a <refresh | add | buildSchema | drop | validate | import
* | export>] <class name | .java file | .class file | .jdo file>*
* Where the following options are recognized.
*
*
-properties/-p <properties file or resource>: The
* path or resource name of a OpenJPA properties file containing
* information as outlined in {@link OpenJPAConfiguration}. Optional.
*
-<property name> <property value>: All bean
* properties of the OpenJPA {@link JDBCConfiguration} can be set by
* using their names and supplying a value. For example:
* -licenseKey adslfja83r3lkadf
*
-file/-f <stdout | output file or resource>: Use
* this option to write the planned mappings to an XML document rather
* than store them in the repository. This option also specifies the
* metadata file to write to if using the add action with
* the -meta true flag, or the file to dump to if using
* the export action.
*
-schemaAction/-sa <schema action | none>: The
* {@link SchemaTool} defines the actions possible. The actions will
* apply to all schema components used by the mappings involved.
* Unless you are running the mapping tool on all of your persistent
* types at once, be careful running schema actions that can drop data.
* It is possible to accidentally drop schema components that are
* used by classes you aren't currently running the tool over. The
* action defaults to add.
*
-schemaFile/-sf <stdout | output file or resource>: Use
* this option to write the planned schema to an XML document rather
* than modify the data store.
*
-sqlFile/-sql <stdout | output file or resource>: Use
* this option to write the planned schema changes as a SQL
* script rather than modifying the data store.
*
-sqlEncode/-se <encoding>: Use
* this option with the -sqlFile flag to write the SQL script
* in a different Java character set encoding than the default JVM locale,
* such as UTF-8.
*
-dropTables/-dt <true/t | false/f>: Corresponds to the
* same-named option in the {@link SchemaTool}.
*
-dropSequences/-dsq <true/t | false/f>: Corresponds
* to the same-named option in the {@link SchemaTool}.
*
-openjpaTables/-kt <true/t | false/f>: Corresponds to
* the same-named option in the {@link SchemaTool}.
*
-ignoreErrors/-i <true/t | false/f>: Corresponds to the
* same-named option in the {@link SchemaTool}.
*
-readSchema/-rs <true/t | false/f>: Set this to true
* to read the entire existing schema (even when false the parts of
* the schema used by classes the tool is run on will still be read).
* Turning on schema reading can ensure that no naming conflicts will
* occur, but it can take a long time.
*
-primaryKeys/-pk <true/t | false/f>: Whether primary
* keys on existing tables are manipulated. Defaults to false.
*
-foreignKeys/-fk <true/t | false/f>: Whether foreign
* keys on existing tables are manipulated. Defaults to false.
*
-indexes/-ix <true/t | false/f>: Whether indexes on
* existing tables are manipulated. Defaults to false.
*
-sequences/-sq <true/t | false/f>: Whether sequences
* are manipulated. Defaults to true.
*
-schemas/-s <schema and table names>: A list of schemas
* and/or tables to read. Corresponds to the
* same-named option in the {@link SchemaGenerator}. This option
* is ignored if readSchema is false.
*
-meta/-m <true/t | false/f>: Whether the given action
* applies to metadata as well as mappings.
*
* The various actions are as follows.
*
*
refresh: Bring the mapping information up-to-date
* with the class definitions. OpenJPA will attempt to use any provided
* mapping information, and fill in missing information. If the
* provided information conflicts with the class definition, the
* conflicting information will be discarded and the class/field will
* be re-mapped to new columns/tables. This is the default action.
*
add: If used with the -meta option, adds new
* default metadata for the given class(es). Otherwise, brings the
* mapping information up-to-date with the class
* definitions. OpenJPA will attempt to use any provided mapping
* information, and fill in missing information. OpenJPA will fail if
* the provided information conflicts with the class definition.
*
buildSchema: Create the schema matching the existing
* mappings for the given class(es). Any invalid mapping information
* will cause an exception.
*
drop: Delete mappings for the given classes. If used with
* the -meta option, also deletes metadata.
*
validate: Validate the given mappings. The mapping
* repository and schema will not be affected.
*
import: Import mappings from an XML document and store
* them as the current system mappings.
*
export: Dump the current mappings for the given classes to
* an XML document specified by the file option.
* If used with the -meta option, the metadata will be
* included in the export.
*
* Each class supplied as an argument must have valid metadata. If
* no class arguments are given, the tool runs on all metadata files in
* the CLASSPATH.
* Examples:
*
*
Refresh the mappings for given package, without dropping any
* schema components:
* java org.apache.openjpa.jdbc.meta.MappingTool
* mypackage.jdo
*
Refresh the mappings for all persistent classes in the classpath,
* dropping any unused columns and even tables:
* java org.apache.openjpa.jdbc.meta.MappingTool -sa refresh
* -dt true
*
Make sure the mappings you've created by hand match the object
* model and schema:
* java org.apache.openjpa.jbdc.meta.MappingTool
* -a validate Person.java
*
Remove the recorded mapping for a given class:
* java org.apache.openjpa.jbdc.meta.MappingTool
* -a drop Person.java
*
Record the current mappings in an XML file:
* java org.apache.openjpa.jdbc.meta.MappingTool
* -f mypackage.orm -a export mypackage.jdo
*
*/
public static void main(String[] arguments)
throws IOException, SQLException {
Options opts = new Options();
final String[] args = opts.setFromCmdLine(arguments);
boolean ret = Configurations.runAgainstAllAnchors(opts,
new Configurations.Runnable() {
public boolean run(Options opts) throws IOException, SQLException {
JDBCConfiguration conf = new JDBCConfigurationImpl();
try {
return MappingTool.run(conf, args, opts);
} finally {
conf.close();
}
}
});
if (!ret)
System.err.println(_loc.get("tool-usage"));
}
/**
* Run the tool. Returns false if invalid options are given.
*
* @see #main
*/
public static boolean run(JDBCConfiguration conf, String[] args,
Options opts)
throws IOException, SQLException {
// flags
Flags flags = new Flags();
flags.action = opts.removeProperty("action", "a", flags.action);
flags.schemaAction = opts.removeProperty("schemaAction", "sa",
flags.schemaAction);
flags.dropTables = opts.removeBooleanProperty
("dropTables", "dt", flags.dropTables);
flags.openjpaTables = opts.removeBooleanProperty
("openjpaTables", "ot", flags.openjpaTables);
flags.dropSequences = opts.removeBooleanProperty
("dropSequences", "dsq", flags.dropSequences);
flags.readSchema = opts.removeBooleanProperty
("readSchema", "rs", flags.readSchema);
flags.primaryKeys = opts.removeBooleanProperty
("primaryKeys", "pk", flags.primaryKeys);
flags.indexes = opts.removeBooleanProperty("indexes", "ix",
flags.indexes);
flags.foreignKeys = opts.removeBooleanProperty("foreignKeys", "fk",
flags.foreignKeys);
flags.sequences = opts.removeBooleanProperty("sequences", "sq",
flags.sequences);
flags.ignoreErrors = opts.removeBooleanProperty
("ignoreErrors", "i", flags.ignoreErrors);
flags.meta = opts.removeBooleanProperty("meta", "m", flags.meta);
String fileName = opts.removeProperty("file", "f", null);
String schemaFileName = opts.removeProperty("schemaFile", "sf", null);
String sqlFileName = opts.removeProperty("sqlFile", "sql", null);
String sqlEncoding = opts.removeProperty("sqlEncode", "se", null);
String sqlTerminator = opts.removeProperty("sqlTerminator", "st", ";");
String schemas = opts.removeProperty("s");
if (schemas != null)
opts.setProperty("schemas", schemas);
Configurations.populateConfiguration(conf, opts);
ClassLoader loader = conf.getClassResolverInstance().
getClassLoader(MappingTool.class, null);
if (flags.meta && ACTION_ADD.equals(flags.action))
flags.metaDataFile = Files.getFile(fileName, loader);
else
flags.mappingWriter = Files.getWriter(fileName, loader);
flags.schemaWriter = Files.getWriter(schemaFileName, loader);
if (sqlEncoding != null)
flags.sqlWriter = Files.getWriter(sqlFileName, loader, sqlEncoding);
else
flags.sqlWriter = Files.getWriter(sqlFileName, loader);
flags.sqlTerminator = sqlTerminator;
return run(conf, args, flags, loader);
}
/**
* Run the tool. Return false if an invalid option was given.
*/
public static boolean run(JDBCConfiguration conf, String[] args,
Flags flags, ClassLoader loader)
throws IOException, SQLException {
// default action based on whether the mapping defaults fills in
// missing info
if (flags.action == null) {
if (conf.getMappingDefaultsInstance().defaultMissingInfo())
flags.action = ACTION_BUILD_SCHEMA;
else
flags.action = ACTION_REFRESH;
}
// collect the classes to act on
Log log = conf.getLog(OpenJPAConfiguration.LOG_TOOL);
Collection> classes = null;
if (args.length == 0) {
if (ACTION_IMPORT.equals(flags.action))
return false;
log.info(_loc.get("running-all-classes"));
classes = conf.getMappingRepositoryInstance().
loadPersistentTypes(true, loader);
} else {
classes = new HashSet>();
ClassArgParser classParser = conf.getMetaDataRepositoryInstance().
getMetaDataFactory().newClassArgParser();
classParser.setClassLoader(loader);
Class>[] parsed;
for (int i = 0; i < args.length; i++) {
parsed = classParser.parseTypes(args[i]);
classes.addAll(Arrays.asList(parsed));
}
}
Class>[] act = (Class[]) classes.toArray(new Class[classes.size()]);
if (ACTION_EXPORT.equals(flags.action)) {
// run exports until the first export succeeds
ImportExport[] instances = newImportExports();
for (int i = 0; i < instances.length; i++) {
if (instances[i].exportMappings(conf, act, flags.meta, log,
flags.mappingWriter))
return true;
}
return false;
}
if (ACTION_IMPORT.equals(flags.action)) {
// run exports until the first export succeeds
ImportExport[] instances = newImportExports();
for (int i = 0; i < instances.length; i++) {
if (instances[i].importMappings(conf, act, args, flags.meta,
log, loader))
return true;
}
return false;
}
MappingTool tool;
try {
tool = new MappingTool(conf, flags.action, flags.meta);
} catch (IllegalArgumentException iae) {
return false;
}
// setup the tool
tool.setIgnoreErrors(flags.ignoreErrors);
tool.setMetaDataFile(flags.metaDataFile);
tool.setMappingWriter(flags.mappingWriter);
tool.setSchemaAction(flags.schemaAction);
tool.setSchemaWriter(flags.schemaWriter);
tool.setReadSchema(flags.readSchema
&& !ACTION_VALIDATE.equals(flags.action));
tool.setPrimaryKeys(flags.primaryKeys);
tool.setForeignKeys(flags.foreignKeys);
tool.setIndexes(flags.indexes);
tool.setSequences(flags.sequences || flags.dropSequences);
// and run the action
for (int i = 0; i < act.length; i++) {
log.info(_loc.get("tool-running", act[i], flags.action));
if (i == 0 && flags.readSchema)
log.info(_loc.get("tool-time"));
tool.run(act[i]);
}
log.info(_loc.get("tool-record"));
tool.record(flags);
return true;
}
/**
* Create an {@link ImportExport} instance.
*/
private static ImportExport[] newImportExports() {
try {
Class>[] types = Services.getImplementorClasses(ImportExport.class);
ImportExport[] instances = new ImportExport[types.length];
for (int i = 0; i < types.length; i++)
instances[i] = (ImportExport) AccessController.doPrivileged(
J2DoPrivHelper.newInstanceAction(types[i]));
return instances;
} catch (Throwable t) {
if (t instanceof PrivilegedActionException)
t = ((PrivilegedActionException) t).getException();
throw new InternalException(_loc.get("importexport-instantiate"),t);
}
}
private static boolean contains(String list, String key) {
return (list == null) ? false : list.indexOf(key) != -1;
}
/**
* Run flags.
*/
public static class Flags {
public String action = null;
public boolean meta = false;
public String schemaAction = SchemaTool.ACTION_ADD;
public File metaDataFile = null;
public Writer mappingWriter = null;
public Writer schemaWriter = null;
public Writer sqlWriter = null;
public boolean ignoreErrors = false;
public boolean readSchema = false;
public boolean dropTables = false;
public boolean openjpaTables = false;
public boolean dropSequences = false;
public boolean sequences = true;
public boolean primaryKeys = false;
public boolean foreignKeys = false;
public boolean indexes = false;
public String sqlTerminator = ";";
}
/**
* Helper used to import and export mapping data.
*/
public static interface ImportExport {
/**
* Import mappings for the given classes based on the given arguments.
*/
public boolean importMappings(JDBCConfiguration conf, Class>[] act,
String[] args, boolean meta, Log log, ClassLoader loader)
throws IOException;
/**
* Export mappings for the given classes based on the given arguments.
*/
public boolean exportMappings(JDBCConfiguration conf, Class>[] act,
boolean meta, Log log, Writer writer)
throws IOException;
}
}