private synchronized DatabaseConfig getPrimaryConfig(EntityMetadata meta) {
String clsName = meta.getClassName();
DatabaseConfig config = priConfigMap.get(clsName);
if (config == null) {
config = new DatabaseConfig();
config.setTransactional(storeConfig.getTransactional());
config.setAllowCreate(!storeConfig.getReadOnly());
config.setReadOnly(storeConfig.getReadOnly());
DbCompat.setDeferredWrite(config, storeConfig.getDeferredWrite());
setBtreeComparator(config, meta.getPrimaryKey().getClassName());
priConfigMap.put(clsName, config);
}
return config;
}
public synchronized Sequence getSequence(String name) throws DatabaseException {
checkOpen();
if (storeConfig.getReadOnly()) {
throw new IllegalStateException("Store is read-only");
}
Sequence seq = sequenceMap.get(name);
if (seq == null) {
if (sequenceDb == null) {
String dbName = storePrefix + SEQUENCE_DB;
DatabaseConfig dbConfig = new DatabaseConfig();
dbConfig.setTransactional(storeConfig.getTransactional());
dbConfig.setAllowCreate(true);
sequenceDb = env.openDatabase(null, dbName, dbConfig);
}
DatabaseEntry entry = new DatabaseEntry();
StringBinding.stringToEntry(name, entry);
seq = sequenceDb.openSequence(null, entry, getSequenceConfig(name));
sequenceMap.put(name, seq);
}
return seq;
}
public Store(Environment env, String storeName, StoreConfig config, boolean rawAccess)
throws DatabaseException {
this.env = env;
this.storeName = storeName;
this.rawAccess = rawAccess;
if (env == null || storeName == null) {
throw new NullPointerException("env and storeName parameters must not be null");
}
if (config != null) {
model = config.getModel();
mutations = config.getMutations();
}
if (config == null) {
storeConfig = StoreConfig.DEFAULT;
} else {
storeConfig = config.cloneConfig();
}
storePrefix = NAME_PREFIX + storeName + NAME_SEPARATOR;
priIndexMap = new HashMap<String, PrimaryIndex>();
secIndexMap = new HashMap<String, SecondaryIndex>();
priConfigMap = new HashMap<String, DatabaseConfig>();
secConfigMap = new HashMap<String, SecondaryConfig>();
keyBindingMap = new HashMap<String, PersistKeyBinding>();
sequenceMap = new HashMap<String, Sequence>();
sequenceConfigMap = new HashMap<String, SequenceConfig>();
deferredWriteDatabases = new IdentityHashMap<Database, Object>();
if (rawAccess) {
/* Open a read-only catalog that uses the stored model. */
if (model != null) {
throw new IllegalArgumentException("A model may not be specified when opening a RawStore");
}
DatabaseConfig dbConfig = new DatabaseConfig();
dbConfig.setReadOnly(true);
dbConfig.setTransactional(storeConfig.getTransactional());
catalog =
new PersistCatalog(
null,
env,
storePrefix,
storePrefix + CATALOG_DB,
dbConfig,
model,
mutations,
rawAccess,
this);
} else {
/* Open the shared catalog that uses the current model. */
synchronized (catalogPool) {
Map<String, PersistCatalog> catalogMap = catalogPool.get(env);
if (catalogMap == null) {
catalogMap = new HashMap<String, PersistCatalog>();
catalogPool.put(env, catalogMap);
}
catalog = catalogMap.get(storeName);
if (catalog != null) {
catalog.openExisting();
} else {
Transaction txn = null;
if (storeConfig.getTransactional() && env.getThreadTransaction() == null) {
txn = env.beginTransaction(null, null);
}
boolean success = false;
try {
DatabaseConfig dbConfig = new DatabaseConfig();
dbConfig.setAllowCreate(storeConfig.getAllowCreate());
dbConfig.setReadOnly(storeConfig.getReadOnly());
dbConfig.setTransactional(storeConfig.getTransactional());
catalog =
new PersistCatalog(
txn,
env,
storePrefix,
storePrefix + CATALOG_DB,
dbConfig,
model,
mutations,
rawAccess,
this);
catalogMap.put(storeName, catalog);
success = true;
} finally {
if (txn != null) {
if (success) {
txn.commit();
} else {
txn.abort();
}
}
}
}
}
}
/* Get the merged mutations from the catalog. */
mutations = catalog.getMutations();
/*
* If there is no model parameter, use the default or stored model
* obtained from the catalog.
*/
model = catalog.getResolvedModel();
/*
* Give the model a reference to the catalog to fully initialize the
* model. Only then may we initialize the Converter mutations, which
* themselves may call model methods and expect the model to be fully
* initialized.
*/
ModelInternal.setCatalog(model, catalog);
for (Converter converter : mutations.getConverters()) {
converter.getConversion().initialize(model);
}
/*
* For each existing entity with a relatedEntity reference, create an
* inverse map (back pointer) from the class named in the relatedEntity
* to the class containing the secondary key. This is used to open the
* class containing the secondary key whenever we open the
* relatedEntity class, to configure foreign key constraints. Note that
* we do not need to update this map as new primary indexes are
* created, because opening the new index will setup the foreign key
* constraints. [#15358]
*/
inverseRelatedEntityMap = new HashMap<String, Set<String>>();
List<Format> entityFormats = new ArrayList<Format>();
catalog.getEntityFormats(entityFormats);
for (Format entityFormat : entityFormats) {
EntityMetadata entityMeta = entityFormat.getEntityMetadata();
for (SecondaryKeyMetadata secKeyMeta : entityMeta.getSecondaryKeys().values()) {
String relatedClsName = secKeyMeta.getRelatedEntity();
if (relatedClsName != null) {
Set<String> inverseClassNames = inverseRelatedEntityMap.get(relatedClsName);
if (inverseClassNames == null) {
inverseClassNames = new HashSet<String>();
inverseRelatedEntityMap.put(relatedClsName, inverseClassNames);
}
inverseClassNames.add(entityMeta.getClassName());
}
}
}
}