/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at legal-notices/CDDLv1_0.txt * or http://forgerock.org/license/CDDLv1.0.html. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at legal-notices/CDDLv1_0.txt. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: * Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * * Copyright 2006-2010 Sun Microsystems, Inc. * Portions Copyright 2012-2015 ForgeRock AS. */ package org.opends.server.replication.plugin; import java.util.Collection; import java.util.Collections; import java.util.List; import org.forgerock.opendj.ldap.Assertion; import org.forgerock.opendj.ldap.ByteSequence; import org.forgerock.opendj.ldap.ByteString; import org.forgerock.opendj.ldap.ByteStringBuilder; import org.forgerock.opendj.ldap.ConditionResult; import org.forgerock.opendj.ldap.DecodeException; import org.forgerock.opendj.ldap.schema.MatchingRuleImpl; import org.forgerock.opendj.ldap.schema.Schema; import org.forgerock.opendj.ldap.spi.IndexQueryFactory; import org.forgerock.opendj.ldap.spi.Indexer; import org.forgerock.opendj.ldap.spi.IndexingOptions; import org.opends.server.replication.common.CSN; import static org.forgerock.opendj.ldap.Assertion.*; import static org.opends.messages.ReplicationMessages.*; import static org.opends.server.util.StaticUtils.*; /** * Matching rule used to establish an order between historical information and index them. */ public final class HistoricalCsnOrderingMatchingRuleImpl implements MatchingRuleImpl { private static final String ORDERING_ID = "changeSequenceNumberOrderingMatch"; private final Collection indexers = Collections.singleton(new HistoricalIndexer()); /** Indexer for the matching rule. */ private final class HistoricalIndexer implements Indexer { @Override public void createKeys(Schema schema, ByteSequence value, Collection keys) throws DecodeException { keys.add(normalizeAttributeValue(schema, value)); } @Override public String getIndexID() { return ORDERING_ID; } @Override public String keyToHumanReadableString(ByteSequence key) { ByteStringBuilder bsb = new ByteStringBuilder(); bsb.appendBytes(key.subSequence(2, 10)); bsb.appendBytes(key.subSequence(0, 2)); bsb.appendBytes(key.subSequence(10, 14)); CSN csn = CSN.valueOf(bsb.toByteString()); return csn.toStringUI(); } } /** {@inheritDoc} */ @Override public ByteString normalizeAttributeValue(Schema schema, ByteSequence value) throws DecodeException { /* * Change the format of the value to index and start with the serverId. In * that manner, the search response time is optimized for a particular * serverId. The format of the key is now : serverId + timestamp + seqNum */ try { int csnIndex = value.toString().indexOf(':') + 1; String csn = value.subSequence(csnIndex, csnIndex + 28).toString(); ByteStringBuilder builder = new ByteStringBuilder(14); builder.appendBytes(hexStringToByteArray(csn.substring(16, 20))); builder.appendBytes(hexStringToByteArray(csn.substring(0, 16))); builder.appendBytes(hexStringToByteArray(csn.substring(20, 28))); return builder.toByteString(); } catch (Exception e) { // This should never occur in practice since these attributes are managed // internally. throw DecodeException.error(WARN_INVALID_SYNC_HIST_VALUE.get(value), e); } } /** {@inheritDoc} */ @Override public Assertion getAssertion(final Schema schema, final ByteSequence value) throws DecodeException { final ByteString normAssertion = normalizeAttributeValue(schema, value); return new Assertion() { @Override public ConditionResult matches(final ByteSequence attributeValue) { return ConditionResult.valueOf(attributeValue.compareTo(normAssertion) < 0); } @Override public T createIndexQuery(IndexQueryFactory factory) throws DecodeException { return factory.createRangeMatchQuery(ORDERING_ID, ByteString.empty(), normAssertion, false, false); } }; } /** {@inheritDoc} */ @Override public Assertion getSubstringAssertion(Schema schema, ByteSequence subInitial, List subAnyElements, ByteSequence subFinal) throws DecodeException { return UNDEFINED_ASSERTION; } /** {@inheritDoc} */ @Override public Assertion getGreaterOrEqualAssertion(Schema schema, ByteSequence value) throws DecodeException { final ByteString normAssertion = normalizeAttributeValue(schema, value); return new Assertion() { @Override public ConditionResult matches(final ByteSequence normalizedAttributeValue) { return ConditionResult.valueOf(normalizedAttributeValue.compareTo(normAssertion) >= 0); } @Override public T createIndexQuery(IndexQueryFactory factory) throws DecodeException { return factory.createRangeMatchQuery(ORDERING_ID, normAssertion, ByteString.empty(), true, false); } }; } /** {@inheritDoc} */ @Override public Assertion getLessOrEqualAssertion(Schema schema, ByteSequence value) throws DecodeException { final ByteString normAssertion = normalizeAttributeValue(schema, value); return new Assertion() { @Override public ConditionResult matches(final ByteSequence normalizedAttributeValue) { return ConditionResult.valueOf(normalizedAttributeValue.compareTo(normAssertion) <= 0); } @Override public T createIndexQuery(IndexQueryFactory factory) throws DecodeException { return factory.createRangeMatchQuery(ORDERING_ID, ByteString.empty(), normAssertion, false, true); } }; } /** {@inheritDoc} */ @Override public Collection createIndexers(IndexingOptions options) { return indexers; } }