com.sleepycat.persist.impl.PersistCatalog Maven / Gradle / Ivy
/*-
* Copyright (C) 2002, 2018, Oracle and/or its affiliates. All rights reserved.
*
* This file was distributed by Oracle as part of a version of Oracle Berkeley
* DB Java Edition made available at:
*
* http://www.oracle.com/technetwork/database/database-technologies/berkeleydb/downloads/index.html
*
* Please see the LICENSE file included in the top-level directory of the
* appropriate version of Oracle Berkeley DB Java Edition for a copy of the
* license and additional information.
*/
package com.sleepycat.persist.impl;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.lang.reflect.Modifier;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.IdentityHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import com.sleepycat.bind.tuple.IntegerBinding;
import com.sleepycat.compat.DbCompat;
import com.sleepycat.je.Database;
import com.sleepycat.je.DatabaseConfig;
import com.sleepycat.je.DatabaseEntry;
import com.sleepycat.je.DatabaseException;
import com.sleepycat.je.LockConflictException;
import com.sleepycat.je.Environment;
import com.sleepycat.je.OperationStatus;
import com.sleepycat.je.Transaction;
/* */
import com.sleepycat.je.rep.ReplicaWriteException;
/* */
import com.sleepycat.persist.DatabaseNamer;
import com.sleepycat.persist.StoreExistsException;
import com.sleepycat.persist.StoreNotFoundException;
import com.sleepycat.persist.evolve.Converter;
import com.sleepycat.persist.evolve.IncompatibleClassException;
import com.sleepycat.persist.evolve.Mutations;
import com.sleepycat.persist.evolve.Renamer;
import com.sleepycat.persist.model.AnnotationModel;
import com.sleepycat.persist.model.ClassMetadata;
import com.sleepycat.persist.model.EntityMetadata;
import com.sleepycat.persist.model.EntityModel;
import com.sleepycat.persist.model.ModelInternal;
import com.sleepycat.persist.raw.RawObject;
import com.sleepycat.persist.raw.RawType;
import com.sleepycat.util.RuntimeExceptionWrapper;
/**
* The catalog of class formats for a store, along with its associated model
* and mutations.
*
* @author Mark Hayes
*/
public class PersistCatalog implements Catalog {
private static final int MAX_TXN_RETRIES = 10;
/**
* Key to Data record in the catalog database. In the JE 3.0.12 beta
* version the formatList record is stored under this key and is converted
* to a Data object when it is read.
*/
private static final byte[] DATA_KEY = getIntBytes(-1);
/**
* Key to a JE 3.0.12 beta version mutations record in the catalog
* database. This record is no longer used because mutations are stored in
* the Data record and is deleted when the beta version is detected.
*/
private static final byte[] BETA_MUTATIONS_KEY = getIntBytes(-2);
private static byte[] getIntBytes(int val) {
DatabaseEntry entry = new DatabaseEntry();
IntegerBinding.intToEntry(val, entry);
assert entry.getSize() == 4 && entry.getData().length == 4;
return entry.getData();
}
/**
* Used by unit tests.
*/
public static boolean expectNoClassChanges;
public static boolean unevolvedFormatsEncountered;
/**
* The object stored under DATA_KEY in the catalog database.
*/
private static class Data implements Serializable {
static final long serialVersionUID = 7515058069137413261L;
List formatList;
Mutations mutations;
int version;
}
/**
* A list of all formats indexed by formatId. Element zero is unused and
* null, since IDs start at one; this avoids adjusting the ID to index the
* list. Some elements are null to account for predefined IDs that are not
* used.
*
* This field, like formatMap, is volatile because it is reassigned
* when dynamically adding new formats. See {@link #addNewFormat}.
*/
private volatile List formatList;
/**
* A map of the current/live formats in formatList, indexed by class name.
*
* This field, like formatList, is volatile because it is reassigned
* when dynamically adding new formats. See {@link #addNewFormat}.
*/
private volatile Map formatMap;
/**
* A map of the latest formats (includes deleted formats) in formatList,
* indexed by class name.
*
* This field, like formatMap, is volatile because it is reassigned
* when dynamically adding new formats. See {@link #addNewFormat}.
*/
private volatile Map latestFormatMap;
/**
* A temporary map of proxied class name to proxy class name. Used during
* catalog creation, and then set to null. This map is used to force proxy
* formats to be created prior to proxied formats. [#14665]
*/
private Map proxyClassMap;
private final Environment env;
private final boolean rawAccess;
private EntityModel model;
private StoredModel storedModel;
private Mutations mutations;
private final Database db;
private int openCount;
private boolean readOnly;
private final boolean transactional;
/**
* If a Replica is upgraded, local in-memory evolution may take place prior
* to the Master being upgraded. In that case, the size of the formatList
* will be greater than nStoredFormats. In this case, the readOnly
* state field will be set to true. We must be sure not to write the
* metadata in this state. [#16655]
*/
private volatile int nStoredFormats;
/**
* The Store is normally present but may be null in unit tests (for
* example, BindingTest).
*/
private final Store store;
/**
* The Evolver and catalog Data are non-null during catalog initialization,
* and null otherwise.
*/
private Evolver initEvolver;
private Data initData;
/**
* Creates a new catalog, opening the database and reading it from a given
* catalog database if it already exists. All predefined formats and
* formats for the given model are added. For modified classes, old
* formats are defined based on the rules for compatible class changes and
* the given mutations. If any format is changed or added, and the
* database is not read-only, write the initialized catalog to the
* database.
*/
public PersistCatalog(final Environment env,
final String storePrefix,
final String dbName,
final DatabaseConfig dbConfig,
final EntityModel modelParam,
final Mutations mutationsParam,
final boolean rawAccess,
final Store store)
throws StoreExistsException,
StoreNotFoundException,
IncompatibleClassException,
DatabaseException {
this.env = env;
this.rawAccess = rawAccess;
this.store = store;
this.transactional = dbConfig.getTransactional();
/* store may be null for testing. */
String[] fileAndDbNames = (store != null) ?
store.parseDbName(dbName) :
Store.parseDbName(dbName, DatabaseNamer.DEFAULT);
/*
* Use a null (auto-commit) transaction for opening the database, so
* that the database is opened even if a ReplicaWriteException occurs
* when attempting to evolve the metadata. We will close the database
* if another exception occurs in the finally statement below.
*/
db = DbCompat.openDatabase(env, null /*txn*/, fileAndDbNames[0],
fileAndDbNames[1], dbConfig);
if (db == null) {
String dbNameMsg = store.getDbNameMessage(fileAndDbNames);
if (dbConfig.getExclusiveCreate()) {
throw new StoreExistsException
("Catalog DB already exists and ExclusiveCreate=true, " +
dbNameMsg);
} else {
assert !dbConfig.getAllowCreate();
throw new StoreNotFoundException
("Catalog DB does not exist and AllowCreate=false, " +
dbNameMsg);
}
}
openCount = 1;
boolean success = false;
try {
initAndRetry(storePrefix, modelParam, mutationsParam);
success = true;
} finally {
if (!success) {
close();
}
}
}
/**
* Creates a new catalog when a Replica refresh occurs. Uses some
* information from the old catalog directly in the new catalog, but all
* formats are created from scratch and class evolution is attempted.
*/
PersistCatalog(final PersistCatalog oldCatalog, final String storePrefix)
throws DatabaseException {
db = oldCatalog.db;
store = oldCatalog.store;
env = oldCatalog.env;
rawAccess = oldCatalog.rawAccess;
openCount = oldCatalog.openCount;
transactional = oldCatalog.transactional;
initAndRetry(storePrefix, oldCatalog.model, oldCatalog.mutations);
}
private void initAndRetry(final String storePrefix,
final EntityModel modelParam,
final Mutations mutationsParam)
throws DatabaseException {
for (int i = 0;; i += 1) {
Transaction txn = null;
if (transactional && DbCompat.getThreadTransaction(env) == null) {
txn =
env.beginTransaction(null, store.getAutoCommitTxnConfig());
}
boolean success = false;
try {
init(txn, storePrefix, modelParam, mutationsParam);
success = true;
return;
} catch (LockConflictException e) {
/*
* It is very unlikely that two threads opening the same
* EntityStore will cause a lock conflict. However, because we
* read-modify-update the catalog record,
* LockPreemptedException must be handled in a replicated JE
* environment. Since LockPreemptedException is a
* LockConfictException, it is simplest to retry when any
* LockConfictException occurs.
*/
if (i >= MAX_TXN_RETRIES) {
throw e;
}
continue;
} finally {
/*
* If the catalog is read-only we abort rather than commit,
* because a ReplicaWriteException may have occurred.
* ReplicaWriteException invalidates the transaction, and there
* are no writes to commit anyway. [#16655]
*/
if (txn != null) {
if (success && !isReadOnly()) {
txn.commit();
} else {
txn.abort();
}
}
}
}
}
private void init(final Transaction txn,
final String storePrefix,
final EntityModel modelParam,
final Mutations mutationsParam)
throws DatabaseException {
try {
initData = readData(txn);
mutations = initData.mutations;
if (mutations == null) {
mutations = new Mutations();
}
/*
* When the beta version is detected, force a re-write of the
* catalog and disallow class changes. This brings the catalog up
* to date so that evolution can proceed correctly from then on.
*/
boolean betaVersion = (initData.version == BETA_VERSION);
boolean needWrite = betaVersion;
boolean disallowClassChanges = betaVersion;
/*
* Store the given mutations if they are different from the stored
* mutations, and force evolution to apply the new mutations.
*/
boolean forceEvolution = false;
if (mutationsParam != null &&
!mutations.equals(mutationsParam)) {
mutations = mutationsParam;
needWrite = true;
forceEvolution = true;
}
final ClassLoader envClassLoader = DbCompat.getClassLoader(env);
/* Get the existing format list, or copy it from SimpleCatalog. */
formatList = initData.formatList;
if (formatList == null) {
formatList = SimpleCatalog.getAllSimpleFormats(envClassLoader);
/*
* Special cases: Object and Number are predefined but are not
* simple types.
*/
Format format = new NonPersistentFormat(this, Object.class);
format.setId(Format.ID_OBJECT);
formatList.set(Format.ID_OBJECT, format);
format = new NonPersistentFormat(this, Number.class);
format.setId(Format.ID_NUMBER);
formatList.set(Format.ID_NUMBER, format);
} else {
/* Pick up any new predefined simple types. */
if (SimpleCatalog.addMissingSimpleFormats(envClassLoader,
formatList)) {
needWrite = true;
}
nStoredFormats = formatList.size();
}
/* Initialize transient catalog field before further use. */
for (Format format : formatList) {
if (format != null) {
format.initCatalog(this);
}
}
/* Special handling for JE 3.0.12 beta formats. */
if (betaVersion) {
Map formatMap = new HashMap();
for (Format format : formatList) {
if (format != null) {
formatMap.put(format.getClassName(), format);
}
}
for (Format format : formatList) {
if (format != null) {
format.migrateFromBeta(formatMap);
}
}
}
/*
* If we should not use the current model, initialize the stored
* model and return.
*/
formatMap = new HashMap(formatList.size());
latestFormatMap = new HashMap(formatList.size());
if (rawAccess) {
for (Format format : formatList) {
if (format != null) {
String name = format.getClassName();
if (format.isCurrentVersion()) {
formatMap.put(name, format);
}
if (format == format.getLatestVersion()) {
latestFormatMap.put(name, format);
}
}
}
if (modelParam != null) {
model = modelParam;
storedModel = (StoredModel) modelParam;
} else {
storedModel = new StoredModel(this);
model = storedModel;
}
ModelInternal.setClassLoader(model, envClassLoader);
for (Format format : formatList) {
if (format != null) {
format.initializeIfNeeded(this, model);
}
}
initModelAndMutations();
return;
}
/*
* We are opening a store that uses the current model. Default to
* the AnnotationModel if no model is specified.
*/
if (modelParam != null) {
model = modelParam;
} else {
model = new AnnotationModel();
}
ModelInternal.setClassLoader(model, envClassLoader);
storedModel = null;
/*
* Add all predefined (simple) formats to the format map. The
* current version of other formats will be added below.
*/
for (int i = 0; i <= Format.ID_PREDEFINED; i += 1) {
Format simpleFormat = formatList.get(i);
if (simpleFormat != null) {
formatMap.put(simpleFormat.getClassName(), simpleFormat);
}
}
/*
* Known classes are those explicitly registered by the user via
* the model, plus the predefined proxy classes.
*/
List knownClasses =
new ArrayList(model.getKnownClasses());
/* Also adds the special classes, i.e., enum or array. [#19377] */
knownClasses.addAll(model.getKnownSpecialClasses());
addPredefinedProxies(knownClasses);
/*
* Create a temporary map of proxied class name to proxy class
* name, using all known formats and classes. This map is used to
* force proxy formats to be created prior to proxied formats.
* [#14665]
*/
proxyClassMap = new HashMap();
for (Format oldFormat : formatList) {
if (oldFormat == null || Format.isPredefined(oldFormat)) {
continue;
}
String oldName = oldFormat.getClassName();
Renamer renamer = mutations.getRenamer
(oldName, oldFormat.getVersion(), null);
String newName =
(renamer != null) ? renamer.getNewName() : oldName;
addProxiedClass(newName, false /*isKnownClass*/);
}
for (String className : knownClasses) {
addProxiedClass(className, true /*isKnownClass*/);
}
/*
* Add known formats from the model and the predefined proxies.
* In general, classes will not be present in an AnnotationModel
* until an instance is stored, in which case an old format exists.
* However, registered proxy classes are an exception and must be
* added in advance. And the user may choose to register new
* classes in advance. The more formats we define in advance, the
* less times we have to write to the catalog database.
*/
Map newFormats = new HashMap();
for (String className : knownClasses) {
createFormat(className, newFormats);
}
/*
* Perform class evolution for all old formats, and throw an
* exception that contains the messages for all of the errors in
* mutations or in the definition of new classes.
*/
initEvolver = new Evolver
(this, storePrefix, mutations, newFormats, forceEvolution,
disallowClassChanges);
for (Format oldFormat : formatList) {
if (oldFormat == null || Format.isPredefined(oldFormat)) {
continue;
}
if (oldFormat.isEntity()) {
initEvolver.evolveFormat(oldFormat);
} else {
initEvolver.addNonEntityFormat(oldFormat);
}
}
initEvolver.finishEvolution();
String errors = initEvolver.getErrors();
if (errors != null) {
throw new IncompatibleClassException(errors);
}
/*
* Add the new formats remaining. New formats that are equal to
* old formats were removed from the newFormats map above.
*/
for (Format newFormat : newFormats.values()) {
addFormat(newFormat);
}
/* Initialize all formats. */
for (Format format : formatList) {
if (format != null) {
format.initializeIfNeeded(this, model);
if (format == format.getLatestVersion()) {
latestFormatMap.put(format.getClassName(), format);
}
}
}
final boolean formatsChanged =
newFormats.size() > 0 ||
initEvolver.areFormatsChanged();
needWrite |= formatsChanged;
/* For unit testing. */
if (expectNoClassChanges && formatsChanged) {
throw new IllegalStateException
("Unexpected changes " +
" newFormats.size=" + newFormats.size() +
" areFormatsChanged=" + initEvolver.areFormatsChanged());
}
readOnly = db.getConfig().getReadOnly();
/* Write the catalog if anything changed. */
if (needWrite && !readOnly) {
/* */
try {
/* */
/*
* Only rename/remove databases if we are going to update
* the catalog to reflect those class changes.
*/
initEvolver.renameAndRemoveDatabases(store, txn);
/*
* Note that we use the Data object that was read above,
* and the beta version determines whether to delete the
* old mutations record.
*/
initData.formatList = formatList;
initData.mutations = mutations;
writeData(txn, initData);
/* */
} catch (ReplicaWriteException e) {
readOnly = true;
}
/* */
}
initModelAndMutations();
} finally {
/*
* Fields needed only for the duration of this ctor and which
* should be null afterwards.
*/
proxyClassMap = null;
initData = null;
initEvolver = null;
}
}
private void initModelAndMutations() {
/*
* 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, this);
for (Converter converter : mutations.getConverters()) {
converter.getConversion().initialize(model);
}
}
public void getEntityFormats(Collection entityFormats) {
for (Format format : formatMap.values()) {
if (format.isEntity()) {
entityFormats.add(format);
}
}
}
private void addProxiedClass(String className, boolean isKnownClass) {
ClassMetadata metadata = model.getClassMetadata(className);
if (metadata != null) {
String proxiedClassName = metadata.getProxiedClassName();
if (proxiedClassName != null) {
/*
* If the class is a registered known class, need to check if
* registering proxy class is allowed or not. Currently, only
* SimpleType is not allowed to register a proxy class.
*/
if (isKnownClass) {
try {
Class type = resolveClass(proxiedClassName);
/*
* Check if the proxied class is allowed to register a
* proxy class. If not, IllegalArgumentException will
* be thrown.
*/
if(!SimpleCatalog.allowRegisterProxy(type)) {
throw new IllegalArgumentException
("Registering proxy is not allowed for " +
proxiedClassName +
", which is a built-in simple type.");
}
} catch (ClassNotFoundException e) {
throw DbCompat.unexpectedState
("Class does not exist: " + proxiedClassName);
}
}
proxyClassMap.put(proxiedClassName, className);
}
}
}
private void addPredefinedProxies(List knownClasses) {
knownClasses.add(CollectionProxy.ArrayListProxy.class.getName());
knownClasses.add(CollectionProxy.LinkedListProxy.class.getName());
knownClasses.add(CollectionProxy.HashSetProxy.class.getName());
knownClasses.add(CollectionProxy.TreeSetProxy.class.getName());
knownClasses.add(MapProxy.HashMapProxy.class.getName());
knownClasses.add(MapProxy.TreeMapProxy.class.getName());
knownClasses.add(MapProxy.LinkedHashMapProxy.class.getName());
}
/**
* Returns a map from format to a set of its superclass formats. The
* format for simple types, enums and class Object are not included. Only
* complex types have superclass formats as defined by
* Format.getSuperFormat.
*/
Map> getSubclassMap() {
Map> subclassMap =
new HashMap>();
for (Format format : formatList) {
if (format == null || Format.isPredefined(format)) {
continue;
}
Format superFormat = format.getSuperFormat();
if (superFormat != null) {
Set subclass = subclassMap.get(superFormat);
if (subclass == null) {
subclass = new HashSet();
subclassMap.put(superFormat, subclass);
}
subclass.add(format);
}
}
return subclassMap;
}
/**
* Returns the model parameter, default model or stored model.
*/
public EntityModel getResolvedModel() {
return model;
}
/**
* Increments the reference count for a catalog that is already open.
*/
public void openExisting() {
openCount += 1;
}
/**
* Returns true if the user opened the store read-only, or we're running in
* Replica upgrade mode.
*/
public boolean isReadOnly() {
return readOnly;
}
/**
* Decrements the reference count and closes the catalog DB when it reaches
* zero. Returns true if the database was closed or false if the reference
* count is still non-zero and the database was left open.
*/
public boolean close()
throws DatabaseException {
if (openCount == 0) {
throw DbCompat.unexpectedState("Catalog is not open");
} else {
openCount -= 1;
if (openCount == 0) {
db.close();
return true;
} else {
return false;
}
}
}
/**
* Returns the current merged mutations.
*/
public Mutations getMutations() {
return mutations;
}
/**
* Convenience method that gets the class for the given class name and
* calls createFormat with the class object.
*/
public Format createFormat(String clsName,
Map newFormats) {
Class type;
try {
type = resolveClass(clsName);
} catch (ClassNotFoundException e) {
throw DbCompat.unexpectedState
("Class does not exist: " + clsName);
}
return createFormat(type, newFormats);
}
/**
* If the given class format is not already present in the given map and
* a format for this class name does not already exist, creates an
* uninitialized format, adds it to the map, and also collects related
* formats in the map.
*/
public Format createFormat(Class type, Map newFormats) {
/* Return a new or existing format for this class. */
String className = type.getName();
Format format = getFormatFromMap(type, newFormats);
if (format != null) {
return format;
}
format = getFormatFromMap(type, formatMap);
if (format != null) {
return format;
}
/* Simple types are predefined. */
assert !SimpleCatalog.isSimpleType(type) : className;
/*
* Although metadata is only needed for a complex type, call
* getClassMetadata for all types to support checks for illegal
* metadata on other types.
*/
ClassMetadata metadata = model.getClassMetadata(className);
/* Create format of the appropriate type. */
String proxyClassName = null;
if (proxyClassMap != null) {
proxyClassName = proxyClassMap.get(className);
}
if (proxyClassName != null) {
format = new ProxiedFormat(this, type, proxyClassName);
} else if (type.isArray()) {
format = type.getComponentType().isPrimitive() ?
(new PrimitiveArrayFormat(this, type)) :
(new ObjectArrayFormat(this, type));
} else if (type.isEnum()) {
format = new EnumFormat(this, type);
} else if (type.getEnclosingClass() != null &&
type.getEnclosingClass().isEnum()) {
/*
* If the type is an anonymous class of an enum class, the format
* which represents the enum class will be created. [#18357]
*/
format = new EnumFormat(this, type.getEnclosingClass());
} else if (type == Object.class || type.isInterface()) {
format = new NonPersistentFormat(this, type);
} else {
if (metadata == null) {
throw new IllegalArgumentException
("Class could not be loaded or is not persistent: " +
className);
}
if (metadata.getCompositeKeyFields() != null &&
(metadata.getPrimaryKey() != null ||
metadata.getSecondaryKeys() != null)) {
throw new IllegalArgumentException
("A composite key class may not have primary or" +
" secondary key fields: " + type.getName());
}
/*
* Check for inner class before default constructor, to give a
* specific error message for each.
*/
if (type.getEnclosingClass() != null &&
!Modifier.isStatic(type.getModifiers())) {
throw new IllegalArgumentException
("Inner classes not allowed: " + type.getName());
}
try {
type.getDeclaredConstructor();
} catch (NoSuchMethodException e) {
throw new IllegalArgumentException
("No default constructor: " + type.getName(), e);
}
if (metadata.getCompositeKeyFields() != null) {
format = new CompositeKeyFormat
(this, type, metadata,
metadata.getCompositeKeyFields());
} else {
EntityMetadata entityMetadata =
model.getEntityMetadata(className);
format =
new ComplexFormat(this, type, metadata, entityMetadata);
}
}
/* Collect new format along with any related new formats. */
newFormats.put(className, format);
format.collectRelatedFormats(this, newFormats);
return format;
}
private Format getFormatFromMap(Class type,
Map formats) {
Format format = formats.get(type.getName());
if (format != null) {
return format;
} else if (type.getEnclosingClass() != null &&
type.getEnclosingClass().isEnum()) {
/*
* If the type is an anonymous class of this enum class, the format
* which represents the enum class will be returned. [#18357]
*/
format = formats.get(type.getEnclosingClass().getName());
if (format != null) {
return format;
}
}
return null;
}
/**
* Adds a format and makes it the current format for the class.
*/
private void addFormat(Format format) {
addFormat(format, formatList, formatMap);
}
/**
* Adds a format to the given the format collections, for use when
* dynamically adding formats.
*/
private void addFormat(Format format,
List list,
Map map) {
format.setId(list.size());
list.add(format);
map.put(format.getClassName(), format);
}
/**
* Installs an existing format when no evolution is needed, i.e, when the
* new and old formats are identical.
*/
void useExistingFormat(Format oldFormat) {
assert oldFormat.isCurrentVersion();
formatMap.put(oldFormat.getClassName(), oldFormat);
}
/**
* Returns a set of all persistent (non-simple type) class names.
*/
Set getModelClasses() {
Set classes = new HashSet();
for (Format format : formatMap.values()) {
if (format.isModelClass()) {
classes.add(format.getClassName());
}
}
return Collections.unmodifiableSet(classes);
}
/**
* Returns all formats as RawTypes.
*/
public List getAllRawTypes() {
List list = new ArrayList();
for (RawType type : formatList) {
if (type != null) {
list.add(type);
}
}
return Collections.unmodifiableList(list);
}
/**
* When a format is intialized, this method is called to get the version
* of the serialized object to be initialized. See Catalog.
*/
public int getInitVersion(Format format, boolean forReader) {
if (initData == null || initData.formatList == null ||
format.getId() >= initData.formatList.size()) {
/*
* For new formats, use the current version. If initData is null,
* the Catalog ctor is finished and the format must be new. If the
* ctor is in progress, the format is new if its ID is greater than
* the ID of all pre-existing formats.
*/
return Catalog.CURRENT_VERSION;
} else {
/*
* Get the version of a pre-existing format during execution of the
* Catalog ctor. The initData field is non-null, but initEvolver
* may be null if the catalog is opened in raw mode.
*/
assert initData != null;
if (forReader) {
/*
* Get the version of the evolution reader for a pre-existing
* format. Use the current version if the format changed
* during class evolution, otherwise use the stored version.
*/
return (initEvolver != null &&
initEvolver.isFormatChanged(format)) ?
Catalog.CURRENT_VERSION : initData.version;
} else {
/* Always used the stored version for a pre-existing format. */
return initData.version;
}
}
}
public Format getFormat(final int formatId, final boolean expectStored)
throws RefreshException {
if (formatId < 0) {
throw DbCompat.unexpectedState
("Format ID " + formatId + " is negative," +
" may indicate data corruption.");
}
/**
* If we're attempting to read a record containing a format ID that is
* greater than the maximum known stored format, then we refresh the
* formats from disk, expecting that the stored formats have been
* updated by the Master node. Note that format IDs greater than
* nStoredFormats may exist in the formatList, if evolution took place
* on this Replica in a read-only mode. Such formats are never written
* (Replicas do not write) and cannot be used for reading an existing
* record. [#16655]
*
* Do not perform this check if we did not get the format ID from a
* stored record (expectStored is false). For example, this would cause
* an erroneous RefreshException when this method is called during a
* convertRawObject operation, which calls this method to get a fresh
* copy of a format that may not be stored. [#18690]
*/
if (expectStored && formatId >= nStoredFormats) {
assert store != null;
throw new RefreshException(store, this, formatId);
}
Format format = formatList.get(formatId);
if (format == null) {
throw DbCompat.unexpectedState
("Format ID " + formatId + " has null format," +
" may indicate data corruption.");
}
/*
* Currently we can't throw DeletedClassException because we should not
* do this if we're being called during a Conversion, and we don't have
* that state information available.
*/
/*
if (format.isDeleted()) {
throw new DeletedClassException
("Class " + format.getClassName() +
" was deleted with a Deleter muation, format ID " +
formatId + '.');
}
*/
return format;
}
/**
* Get a format for a given class, creating it if it does not exist.
*
* This method is called for top level entity instances by
* PersistEntityBinding. When a new entity subclass format is added we
* call Store.checkEntitySubclassSecondaries to ensure that all secondary
* databases have been opened, before storing the entity. We do this here
* while not holding a synchronization mutex, not in addNewFormat, to avoid
* deadlocks. checkEntitySubclassSecondaries synchronizes on the Store.
* [#16399]
*
* Historical note: At one time we opened / created the secondary
* databases rather than requiring the user to open them, see [#15247].
* Later we found this to be problematic since a user txn may have locked
* primary records, see [#16399].
*/
public Format getFormat(Class cls, boolean checkEntitySubclassIndexes)
throws RefreshException {
Format format = formatMap.get(cls.getName());
if (format == null) {
if (model != null) {
format = addNewFormat(cls);
/* Detect and handle new entity subclass. [#15247] */
if (checkEntitySubclassIndexes && store != null) {
Format entityFormat = format.getEntityFormat();
if (entityFormat != null && entityFormat != format) {
try {
store.checkEntitySubclassSecondaries
(entityFormat.getEntityMetadata(),
cls.getName());
} catch (DatabaseException e) {
throw RuntimeExceptionWrapper.wrapIfNeeded(e);
}
}
}
}
if (format == null) {
throw new IllegalArgumentException
("Class is not persistent: " + cls.getName());
}
}
return format;
}
public Format getFormat(String className) {
return formatMap.get(className);
}
public Format getLatestVersion(String className) {
return latestFormatMap.get(className);
}
/**
* Returns the name of an entity class to be used to form the database
* name. Normally this is the same as the class name, but in replica
* upgrade mode it may be an earlier version of a renamed class. Returns
* null if there is no stored version of the class. [#16655]
*/
public String getDatabaseClassName(final String className) {
final Format format = getStoredFormat(className);
if (format == null) {
return null;
}
return format.getClassName();
}
/**
* Similar to getDatabaseClassName but instead handles an earlier version
* of a renamed key. [#16655]
*/
public String getDatabaseKeyName(final String className,
final String keyName) {
final Format format = getStoredFormat(className);
if (format == null) {
return null;
}
return format.getOldKeyName(keyName);
}
private Format getStoredFormat(final String className) {
Format format = getFormat(className);
while (format != null && format.getId() >= nStoredFormats) {
format = format.getPreviousVersion();
}
return format;
}
/**
* Metadata needs refreshing when a Replica with stale metadata is elected
* master, and then a user write operation is attempted. [#16655]
*/
void checkWriteInReplicaUpgradeMode()
throws RefreshException {
if (nStoredFormats < formatList.size()) {
throw new RefreshException(store, this, -1 /*formatId*/);
}
}
/**
* For unit testing.
*/
boolean isReplicaUpgradeMode() {
return nStoredFormats < formatList.size();
}
/**
* Adds a format for a new class. Returns the format added for the given
* class, or throws an exception if the given class is not persistent.
*
* This method uses a copy-on-write technique to add new formats without
* impacting other threads.
*/
private synchronized Format addNewFormat(Class cls)
throws RefreshException {
/*
* After synchronizing, check whether another thread has added the
* format needed. Note that this is not the double-check technique
* because the formatMap field is volatile and is not itself checked
* for null. (The double-check technique is known to be flawed in
* Java.)
*/
Format format = getFormatFromMap(cls, formatMap);
if (format != null) {
return format;
}
/* Copy the read-only format collections. */
List newFormatList = new ArrayList(formatList);
Map newFormatMap =
new HashMap(formatMap);
Map newLatestFormatMap =
new HashMap(latestFormatMap);
/* Add the new format and all related new formats. */
Map newFormats = new HashMap();
format = createFormat(cls, newFormats);
for (Format newFormat : newFormats.values()) {
addFormat(newFormat, newFormatList, newFormatMap);
}
/*
* Initialize new formats using a read-only catalog because we can't
* update this catalog until after we store it (below).
*/
Catalog newFormatCatalog = new ReadOnlyCatalog
(ModelInternal.getClassLoader(model), newFormatList, newFormatMap);
for (Format newFormat : newFormats.values()) {
newFormat.initializeIfNeeded(newFormatCatalog, model);
newLatestFormatMap.put(newFormat.getClassName(), newFormat);
}
/*
* Write the updated catalog using auto-commit, then assign the new
* collections. The database write must occur before the collections
* are used, since a format must be persistent before it can be
* referenced by a data record.
*
* In readOnly mode, which includes Replica upgrade mode, we should not
* attempt to write since we could be elected Master and write stale
* metadata. If ReplicaWriteException occurs then we transition to
* Replica upgrade mode in the same manner as in the init() method.
* This can happen when no schema change is made except for one or more
* new entity classes. The new entity class will not be detected by
* evolution (during init()) but will be detected here if the user
* calls getPrimaryIndex. [#16655]
*/
if (!readOnly) {
try {
Data newData = new Data();
newData.formatList = newFormatList;
newData.mutations = mutations;
writeDataCheckStale(newData);
/* */
} catch (ReplicaWriteException e) {
readOnly = true;
/* */
} catch (DatabaseException e) {
throw RuntimeExceptionWrapper.wrapIfNeeded(e);
}
}
formatList = newFormatList;
formatMap = newFormatMap;
latestFormatMap = newLatestFormatMap;
return format;
}
/**
* Used to write the catalog when a format has been changed, for example,
* when Store.evolve has updated a Format's EvolveNeeded property. Uses
* auto-commit.
*/
public synchronized void flush(Transaction txn)
throws DatabaseException {
Data newData = new Data();
newData.formatList = formatList;
newData.mutations = mutations;
writeData(txn, newData);
}
/**
* Returns the number of stored formats.
*/
int getNFormats() {
return nStoredFormats;
}
/**
* Reads catalog Data, converting old versions as necessary. An empty
* Data object is returned if no catalog data currently exists. Null is
* never returned.
*/
private Data readData(Transaction txn)
throws DatabaseException {
Data oldData;
DatabaseEntry key = new DatabaseEntry(DATA_KEY);
DatabaseEntry data = new DatabaseEntry();
OperationStatus status = db.get(txn, key, data, null);
if (status == OperationStatus.SUCCESS) {
ByteArrayInputStream bais = new ByteArrayInputStream
(data.getData(), data.getOffset(), data.getSize());
try {
ObjectInputStream ois = new ObjectInputStream(bais);
Object object = ois.readObject();
assert ois.available() == 0;
if (object instanceof Data) {
oldData = (Data) object;
} else {
if (!(object instanceof List)) {
throw DbCompat.unexpectedState
(object.getClass().getName());
}
oldData = new Data();
oldData.formatList = (List) object;
oldData.version = BETA_VERSION;
}
return oldData;
} catch (ClassNotFoundException e) {
throw DbCompat.unexpectedException(e);
} catch (IOException e) {
throw DbCompat.unexpectedException(e);
}
} else {
oldData = new Data();
oldData.version = Catalog.CURRENT_VERSION;
}
return oldData;
}
/**
* Metadata needs refreshing when a Replica with stale metadata is elected
* master, and then a user write operation is attempted that also requires
* a metadata update. [#16655]
*/
boolean isMetadataStale(Transaction txn)
throws DatabaseException {
Data oldData = readData(txn);
return (oldData.formatList != null &&
oldData.formatList.size() > nStoredFormats);
}
/**
* Writes catalog Data after checking for stale metadata.
*/
private void writeDataCheckStale(Data newData)
throws DatabaseException, RefreshException {
for (int i = 0;; i += 1) {
Transaction txn = null;
if (transactional && DbCompat.getThreadTransaction(env) == null) {
txn =
env.beginTransaction(null, store.getAutoCommitTxnConfig());
}
boolean success = false;
try {
if (isMetadataStale(txn)) {
throw new RefreshException(store, this, -1 /*formatId*/);
}
writeData(txn, newData);
success = true;
return;
} catch (LockConflictException e) {
/*
* A lock conflict should not occur because writes to the
* catalog DB are in synchronized methods. However, because we
* read-modify-update the catalog record,
* LockPreemptedException must be handled in a replicated JE
* environment. Since LockPreemptedException is a
* LockConfictException, it is simplest to retry when any
* LockConfictException occurs.
*/
if (i >= MAX_TXN_RETRIES) {
throw e;
}
continue;
} finally {
/*
* If the catalog is read-only we abort rather than commit,
* because a ReplicaWriteException may have occurred.
* ReplicaWriteException invalidates the transaction, and there
* are no writes to commit anyway. [#16655]
*/
if (txn != null) {
if (success && !isReadOnly()) {
txn.commit();
} else {
txn.abort();
}
}
}
}
}
/**
* Writes catalog Data. Does not check for stale metadata.
*/
private void writeData(Transaction txn, Data newData)
throws DatabaseException {
/* Catalog data is written in the current version. */
boolean wasBetaVersion = (newData.version == BETA_VERSION);
newData.version = CURRENT_VERSION;
ByteArrayOutputStream baos = new ByteArrayOutputStream();
try {
ObjectOutputStream oos = new ObjectOutputStream(baos);
oos.writeObject(newData);
} catch (IOException e) {
throw DbCompat.unexpectedException(e);
}
DatabaseEntry key = new DatabaseEntry(DATA_KEY);
DatabaseEntry data = new DatabaseEntry(baos.toByteArray());
db.put(txn, key, data);
/*
* Delete the unused beta mutations record if we read the beta version
* record earlier.
*/
if (wasBetaVersion) {
key.setData(BETA_MUTATIONS_KEY);
db.delete(txn, key);
}
nStoredFormats = newData.formatList.size();
}
public boolean isRawAccess() {
return rawAccess;
}
public Object convertRawObject(RawObject o, IdentityHashMap converted)
throws RefreshException {
Format format = (Format) o.getType();
if (this == format.getCatalog()) {
/* Ensure a fresh format is used, in case of Replica refresh. */
format = getFormat(format.getId(), false /*expectStored*/);
} else {
/*
* Use the corresponding format in this catalog when the external
* raw object was created using a different catalog. Create the
* format if it does not already exist, for example, when this
* store is empty. [#16253].
*/
String clsName = format.getClassName();
Class cls;
try {
cls = resolveClass(clsName);
format = getFormat(cls, true /*checkEntitySubclassIndexes*/);
} catch (ClassNotFoundException e) {
format = null;
}
if (format == null) {
throw new IllegalArgumentException
("External raw type not found: " + clsName);
}
}
Format proxiedFormat = format.getProxiedFormat();
if (proxiedFormat != null) {
format = proxiedFormat;
}
if (converted == null) {
converted = new IdentityHashMap();
}
return format.convertRawObject(this, false, o, converted);
}
public Class resolveClass(String clsName)
throws ClassNotFoundException {
return SimpleCatalog.resolveClass
(clsName, ModelInternal.getClassLoader(model));
}
public Class resolveKeyClass(String clsName) {
return SimpleCatalog.resolveKeyClass
(clsName, ModelInternal.getClassLoader(model));
}
}