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From suma...@apache.org
Subject [1/5] incubator-atlas git commit: ATLAS-352 Improve write performance on type and entity creation with Hbase(sumasai)
Date Thu, 03 Dec 2015 05:46:12 GMT
Repository: incubator-atlas
Updated Branches:
  refs/heads/master 91ad0218f -> 919120f65


http://git-wip-us.apache.org/repos/asf/incubator-atlas/blob/919120f6/titan/src/main/java/com/thinkaurelius/titan/diskstorage/solr/Solr5Index.java
----------------------------------------------------------------------
diff --git a/titan/src/main/java/com/thinkaurelius/titan/diskstorage/solr/Solr5Index.java b/titan/src/main/java/com/thinkaurelius/titan/diskstorage/solr/Solr5Index.java
new file mode 100644
index 0000000..f756a4a
--- /dev/null
+++ b/titan/src/main/java/com/thinkaurelius/titan/diskstorage/solr/Solr5Index.java
@@ -0,0 +1,973 @@
+/*
+ * Copyright 2012-2013 Aurelius LLC
+ * Licensed 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 com.thinkaurelius.titan.diskstorage.solr;
+
+import com.google.common.base.Joiner;
+import com.google.common.base.Preconditions;
+import com.google.common.collect.Sets;
+import com.thinkaurelius.titan.core.Order;
+import com.thinkaurelius.titan.core.TitanElement;
+import com.thinkaurelius.titan.core.attribute.Cmp;
+import com.thinkaurelius.titan.core.attribute.Geo;
+import com.thinkaurelius.titan.core.attribute.Geoshape;
+import com.thinkaurelius.titan.core.attribute.Text;
+import com.thinkaurelius.titan.core.schema.Mapping;
+import com.thinkaurelius.titan.diskstorage.BackendException;
+import com.thinkaurelius.titan.diskstorage.BaseTransaction;
+import com.thinkaurelius.titan.diskstorage.BaseTransactionConfig;
+import com.thinkaurelius.titan.diskstorage.BaseTransactionConfigurable;
+import com.thinkaurelius.titan.diskstorage.PermanentBackendException;
+import com.thinkaurelius.titan.diskstorage.TemporaryBackendException;
+import com.thinkaurelius.titan.diskstorage.configuration.ConfigNamespace;
+import com.thinkaurelius.titan.diskstorage.configuration.ConfigOption;
+import com.thinkaurelius.titan.diskstorage.configuration.Configuration;
+import com.thinkaurelius.titan.diskstorage.indexing.IndexEntry;
+import com.thinkaurelius.titan.diskstorage.indexing.IndexFeatures;
+import com.thinkaurelius.titan.diskstorage.indexing.IndexMutation;
+import com.thinkaurelius.titan.diskstorage.indexing.IndexProvider;
+import com.thinkaurelius.titan.diskstorage.indexing.IndexQuery;
+import com.thinkaurelius.titan.diskstorage.indexing.KeyInformation;
+import com.thinkaurelius.titan.diskstorage.indexing.RawQuery;
+import com.thinkaurelius.titan.diskstorage.util.DefaultTransaction;
+import com.thinkaurelius.titan.graphdb.configuration.GraphDatabaseConfiguration;
+import com.thinkaurelius.titan.graphdb.configuration.PreInitializeConfigOptions;
+import com.thinkaurelius.titan.graphdb.database.serialize.AttributeUtil;
+import com.thinkaurelius.titan.graphdb.database.serialize.attribute.AbstractDecimal;
+import com.thinkaurelius.titan.graphdb.query.TitanPredicate;
+import com.thinkaurelius.titan.graphdb.query.condition.And;
+import com.thinkaurelius.titan.graphdb.query.condition.Condition;
+import com.thinkaurelius.titan.graphdb.query.condition.Not;
+import com.thinkaurelius.titan.graphdb.query.condition.Or;
+import com.thinkaurelius.titan.graphdb.query.condition.PredicateCondition;
+import com.thinkaurelius.titan.graphdb.types.ParameterType;
+import org.apache.commons.lang.StringUtils;
+import org.apache.http.client.HttpClient;
+import org.apache.solr.client.solrj.SolrClient;
+import org.apache.solr.client.solrj.SolrQuery;
+import org.apache.solr.client.solrj.SolrServerException;
+import org.apache.solr.client.solrj.impl.CloudSolrClient;
+import org.apache.solr.client.solrj.impl.HttpClientUtil;
+import org.apache.solr.client.solrj.impl.HttpSolrClient;
+import org.apache.solr.client.solrj.impl.LBHttpSolrClient;
+import org.apache.solr.client.solrj.request.CollectionAdminRequest;
+import org.apache.solr.client.solrj.request.UpdateRequest;
+import org.apache.solr.client.solrj.response.CollectionAdminResponse;
+import org.apache.solr.client.solrj.response.QueryResponse;
+import org.apache.solr.client.solrj.util.ClientUtils;
+import org.apache.solr.common.SolrDocument;
+import org.apache.solr.common.SolrInputDocument;
+import org.apache.solr.common.cloud.ClusterState;
+import org.apache.solr.common.cloud.Replica;
+import org.apache.solr.common.cloud.Slice;
+import org.apache.solr.common.cloud.ZkStateReader;
+import org.apache.solr.common.params.ModifiableSolrParams;
+import org.apache.zookeeper.KeeperException;
+import org.slf4j.Logger;
+import org.slf4j.LoggerFactory;
+
+import java.io.IOException;
+import java.text.DateFormat;
+import java.text.SimpleDateFormat;
+import java.util.ArrayList;
+import java.util.Collection;
+import java.util.Date;
+import java.util.HashMap;
+import java.util.HashSet;
+import java.util.List;
+import java.util.Map;
+import java.util.TimeZone;
+import java.util.UUID;
+
+import static com.thinkaurelius.titan.core.attribute.Cmp.*;
+import static com.thinkaurelius.titan.core.schema.Mapping.*;
+
+/**
+ * NOTE: Copied from titan for supporting sol5. Do not change
+ */
+@PreInitializeConfigOptions
+public class Solr5Index implements IndexProvider {
+
+    private static final Logger logger = LoggerFactory.getLogger(Solr5Index.class);
+
+
+    private static final String DEFAULT_ID_FIELD = "id";
+
+    private enum Mode {
+        HTTP, CLOUD;
+
+        public static Mode parse(String mode) {
+            for (Mode m : Mode.values()) {
+                if (m.toString().equalsIgnoreCase(mode)) return m;
+            }
+            throw new IllegalArgumentException("Unrecognized mode: "+mode);
+        }
+    }
+
+    public static final ConfigNamespace SOLR_NS =
+            new ConfigNamespace(GraphDatabaseConfiguration.INDEX_NS, "solr", "Solr index configuration");
+
+    public static final ConfigOption<String> SOLR_MODE = new ConfigOption<String>(SOLR_NS,"mode",
+            "The operation mode for Solr which is either via HTTP (`http`) or using SolrCloud (`cloud`)",
+            ConfigOption.Type.GLOBAL_OFFLINE, "cloud");
+
+    public static final ConfigOption<Boolean> DYNAMIC_FIELDS = new ConfigOption<Boolean>(SOLR_NS,"dyn-fields",
+            "Whether to use dynamic fields (which appends the data type to the field name). If dynamic fields is disabled" +
+                    "the user must map field names and define them explicitly in the schema.",
+            ConfigOption.Type.GLOBAL_OFFLINE, true);
+
+    public static final ConfigOption<String[]> KEY_FIELD_NAMES = new ConfigOption<String[]>(SOLR_NS,"key-field-names",
+            "Field name that uniquely identifies each document in Solr. Must be specified as a list of `collection=field`.",
+            ConfigOption.Type.GLOBAL, String[].class);
+
+    public static final ConfigOption<String> TTL_FIELD = new ConfigOption<String>(SOLR_NS,"ttl_field",
+            "Name of the TTL field for Solr collections.",
+            ConfigOption.Type.GLOBAL_OFFLINE, "ttl");
+
+    /** SolrCloud Configuration */
+
+    public static final ConfigOption<String> ZOOKEEPER_URL = new ConfigOption<String>(SOLR_NS,"zookeeper-url",
+            "URL of the Zookeeper instance coordinating the SolrCloud cluster",
+            ConfigOption.Type.MASKABLE, "localhost:2181");
+
+    public static final ConfigOption<Integer> NUM_SHARDS = new ConfigOption<Integer>(SOLR_NS,"num-shards",
+            "Number of shards for a collection. This applies when creating a new collection which is only supported under the SolrCloud operation mode.",
+            ConfigOption.Type.GLOBAL_OFFLINE, 1);
+
+    public static final ConfigOption<Integer> MAX_SHARDS_PER_NODE = new ConfigOption<Integer>(SOLR_NS,"max-shards-per-node",
+            "Maximum number of shards per node. This applies when creating a new collection which is only supported under the SolrCloud operation mode.",
+            ConfigOption.Type.GLOBAL_OFFLINE, 1);
+
+    public static final ConfigOption<Integer> REPLICATION_FACTOR = new ConfigOption<Integer>(SOLR_NS,"replication-factor",
+            "Replication factor for a collection. This applies when creating a new collection which is only supported under the SolrCloud operation mode.",
+            ConfigOption.Type.GLOBAL_OFFLINE, 1);
+
+
+    /** HTTP Configuration */
+
+    public static final ConfigOption<String[]> HTTP_URLS = new ConfigOption<String[]>(SOLR_NS,"http-urls",
+            "List of URLs to use to connect to Solr Servers (LBHttpSolrClient is used), don't add core or collection name to the URL.",
+            ConfigOption.Type.MASKABLE, new String[] { "http://localhost:8983/solr" });
+
+    public static final ConfigOption<Integer> HTTP_CONNECTION_TIMEOUT = new ConfigOption<Integer>(SOLR_NS,"http-connection-timeout",
+            "Solr HTTP connection timeout.",
+            ConfigOption.Type.MASKABLE, 5000);
+
+    public static final ConfigOption<Boolean> HTTP_ALLOW_COMPRESSION = new ConfigOption<Boolean>(SOLR_NS,"http-compression",
+            "Enable/disable compression on the HTTP connections made to Solr.",
+            ConfigOption.Type.MASKABLE, false);
+
+    public static final ConfigOption<Integer> HTTP_MAX_CONNECTIONS_PER_HOST = new ConfigOption<Integer>(SOLR_NS,"http-max-per-host",
+            "Maximum number of HTTP connections per Solr host.",
+            ConfigOption.Type.MASKABLE, 20);
+
+    public static final ConfigOption<Integer> HTTP_GLOBAL_MAX_CONNECTIONS = new ConfigOption<Integer>(SOLR_NS,"http-max",
+            "Maximum number of HTTP connections in total to all Solr servers.",
+            ConfigOption.Type.MASKABLE, 100);
+
+    public static final ConfigOption<Boolean> WAIT_SEARCHER = new ConfigOption<Boolean>(SOLR_NS, "wait-searcher",
+            "When mutating - wait for the index to reflect new mutations before returning. This can have a negative impact on performance.",
+            ConfigOption.Type.LOCAL, false);
+
+
+
+    private static final IndexFeatures SOLR_FEATURES = new IndexFeatures.Builder().supportsDocumentTTL()
+            .setDefaultStringMapping(TEXT).supportedStringMappings(TEXT, STRING).build();
+
+    private final SolrClient solrClient;
+    private final Configuration configuration;
+    private final Mode mode;
+    private final boolean dynFields;
+    private final Map<String, String> keyFieldIds;
+    private final String ttlField;
+    private final int maxResults;
+    private final boolean waitSearcher;
+
+    public Solr5Index(final Configuration config) throws BackendException {
+        Preconditions.checkArgument(config!=null);
+        configuration = config;
+
+        mode = Mode.parse(config.get(SOLR_MODE));
+        dynFields = config.get(DYNAMIC_FIELDS);
+        keyFieldIds = parseKeyFieldsForCollections(config);
+        maxResults = config.get(GraphDatabaseConfiguration.INDEX_MAX_RESULT_SET_SIZE);
+        ttlField = config.get(TTL_FIELD);
+        waitSearcher = config.get(WAIT_SEARCHER);
+
+        if (mode==Mode.CLOUD) {
+            String zookeeperUrl = config.get(Solr5Index.ZOOKEEPER_URL);
+            CloudSolrClient cloudServer = new CloudSolrClient(zookeeperUrl, true);
+            cloudServer.connect();
+            solrClient = cloudServer;
+        } else if (mode==Mode.HTTP) {
+            HttpClient clientParams = HttpClientUtil.createClient(new ModifiableSolrParams() {{
+                add(HttpClientUtil.PROP_ALLOW_COMPRESSION, config.get(HTTP_ALLOW_COMPRESSION).toString());
+                add(HttpClientUtil.PROP_CONNECTION_TIMEOUT, config.get(HTTP_CONNECTION_TIMEOUT).toString());
+                add(HttpClientUtil.PROP_MAX_CONNECTIONS_PER_HOST, config.get(HTTP_MAX_CONNECTIONS_PER_HOST).toString());
+                add(HttpClientUtil.PROP_MAX_CONNECTIONS, config.get(HTTP_GLOBAL_MAX_CONNECTIONS).toString());
+            }});
+
+            solrClient = new LBHttpSolrClient(clientParams, config.get(HTTP_URLS));
+
+
+        } else {
+            throw new IllegalArgumentException("Unsupported Solr operation mode: " + mode);
+        }
+    }
+
+    private Map<String, String> parseKeyFieldsForCollections(Configuration config) throws BackendException {
+        Map<String, String> keyFieldNames = new HashMap<String, String>();
+        String[] collectionFieldStatements = config.has(KEY_FIELD_NAMES)?config.get(KEY_FIELD_NAMES):new String[0];
+        for (String collectionFieldStatement : collectionFieldStatements) {
+            String[] parts = collectionFieldStatement.trim().split("=");
+            if (parts.length != 2) {
+                throw new PermanentBackendException("Unable to parse the collection name / key field name pair. It should be of the format collection=field");
+            }
+            String collectionName = parts[0];
+            String keyFieldName = parts[1];
+            keyFieldNames.put(collectionName, keyFieldName);
+        }
+        return keyFieldNames;
+    }
+
+    private String getKeyFieldId(String collection) {
+        String field = keyFieldIds.get(collection);
+        if (field==null) field = DEFAULT_ID_FIELD;
+        return field;
+    }
+
+    /**
+     * Unlike the ElasticSearch Index, which is schema free, Solr requires a schema to
+     * support searching. This means that you will need to modify the solr schema with the
+     * appropriate field definitions in order to work properly.  If you have a running instance
+     * of Solr and you modify its schema with new fields, don't forget to re-index!
+     * @param store Index store
+     * @param key New key to register
+     * @param information Datatype to register for the key
+     * @param tx enclosing transaction
+     * @throws com.thinkaurelius.titan.diskstorage.BackendException
+     */
+    @Override
+    public void register(String store, String key, KeyInformation information, BaseTransaction tx) throws BackendException {
+        if (mode==Mode.CLOUD) {
+            CloudSolrClient client = (CloudSolrClient) solrClient;
+            try {
+                createCollectionIfNotExists(client, configuration, store);
+            } catch (IOException e) {
+                throw new PermanentBackendException(e);
+            } catch (SolrServerException e) {
+                throw new PermanentBackendException(e);
+            } catch (InterruptedException e) {
+                throw new PermanentBackendException(e);
+            } catch (KeeperException e) {
+                throw new PermanentBackendException(e);
+            }
+        }
+        //Since all data types must be defined in the schema.xml, pre-registering a type does not work
+    }
+
+    @Override
+    public void mutate(Map<String, Map<String, IndexMutation>> mutations, KeyInformation.IndexRetriever informations, BaseTransaction tx) throws BackendException {
+        logger.debug("Mutating SOLR");
+        try {
+            for (Map.Entry<String, Map<String, IndexMutation>> stores : mutations.entrySet()) {
+                String collectionName = stores.getKey();
+                String keyIdField = getKeyFieldId(collectionName);
+
+                List<String> deleteIds = new ArrayList<String>();
+                Collection<SolrInputDocument> changes = new ArrayList<SolrInputDocument>();
+
+                for (Map.Entry<String, IndexMutation> entry : stores.getValue().entrySet()) {
+                    String docId = entry.getKey();
+                    IndexMutation mutation = entry.getValue();
+                    Preconditions.checkArgument(!(mutation.isNew() && mutation.isDeleted()));
+                    Preconditions.checkArgument(!mutation.isNew() || !mutation.hasDeletions());
+                    Preconditions.checkArgument(!mutation.isDeleted() || !mutation.hasAdditions());
+
+                    //Handle any deletions
+                    if (mutation.hasDeletions()) {
+                        if (mutation.isDeleted()) {
+                            logger.trace("Deleting entire document {}", docId);
+                            deleteIds.add(docId);
+                        } else {
+                            HashSet<IndexEntry> fieldDeletions = Sets.newHashSet(mutation.getDeletions());
+                            if (mutation.hasAdditions()) {
+                                for (IndexEntry indexEntry : mutation.getAdditions()) {
+                                    fieldDeletions.remove(indexEntry);
+                                }
+                            }
+                            deleteIndividualFieldsFromIndex(collectionName, keyIdField, docId, fieldDeletions);
+                        }
+                    }
+
+                    if (mutation.hasAdditions()) {
+                        int ttl = mutation.determineTTL();
+
+                        SolrInputDocument doc = new SolrInputDocument();
+                        doc.setField(keyIdField, docId);
+
+                        boolean isNewDoc = mutation.isNew();
+
+                        if (isNewDoc)
+                            logger.trace("Adding new document {}", docId);
+
+                        for (IndexEntry e : mutation.getAdditions()) {
+                            final Object fieldValue = convertValue(e.value);
+                            doc.setField(e.field, isNewDoc
+                                    ? fieldValue : new HashMap<String, Object>(1) {{ put("set", fieldValue); }});
+                        }
+                        if (ttl>0) {
+                            Preconditions.checkArgument(isNewDoc,"Solr only supports TTL on new documents [%s]",docId);
+                            doc.setField(ttlField, String.format("+%dSECONDS", ttl));
+                        }
+                        changes.add(doc);
+                    }
+                }
+
+                commitDeletes(collectionName, deleteIds);
+                commitDocumentChanges(collectionName, changes);
+            }
+        } catch (Exception e) {
+            throw storageException(e);
+        }
+    }
+
+    private Object convertValue(Object value) throws BackendException {
+        if (value instanceof Geoshape)
+            return GeoToWktConverter.convertToWktString((Geoshape) value);
+        // in order to serialize/deserialize properly Solr will have to have an
+        // access to Titan source which has Decimal type, so for now we simply convert to
+        // double and let Solr do the same thing or fail.
+        if (value instanceof AbstractDecimal)
+            return ((AbstractDecimal) value).doubleValue();
+        if (value instanceof UUID)
+            return value.toString();
+        return value;
+    }
+
+    @Override
+    public void restore(Map<String, Map<String, List<IndexEntry>>> documents, KeyInformation.IndexRetriever informations, BaseTransaction tx) throws BackendException {
+        try {
+            for (Map.Entry<String, Map<String, List<IndexEntry>>> stores : documents.entrySet()) {
+                final String collectionName = stores.getKey();
+
+                List<String> deleteIds = new ArrayList<String>();
+                List<SolrInputDocument> newDocuments = new ArrayList<SolrInputDocument>();
+
+                for (Map.Entry<String, List<IndexEntry>> entry : stores.getValue().entrySet()) {
+                    final String docID = entry.getKey();
+                    final List<IndexEntry> content = entry.getValue();
+
+                    if (content == null || content.isEmpty()) {
+                        if (logger.isTraceEnabled())
+                            logger.trace("Deleting document [{}]", docID);
+
+                        deleteIds.add(docID);
+                        continue;
+                    }
+
+                    newDocuments.add(new SolrInputDocument() {{
+                        setField(getKeyFieldId(collectionName), docID);
+
+                        for (IndexEntry addition : content) {
+                            Object fieldValue = addition.value;
+                            setField(addition.field, convertValue(fieldValue));
+                        }
+                    }});
+                }
+
+                commitDeletes(collectionName, deleteIds);
+                commitDocumentChanges(collectionName, newDocuments);
+            }
+        } catch (Exception e) {
+            throw new TemporaryBackendException("Could not restore Solr index", e);
+        }
+    }
+
+    private void deleteIndividualFieldsFromIndex(String collectionName, String keyIdField, String docId, HashSet<IndexEntry> fieldDeletions) throws SolrServerException, IOException {
+        if (fieldDeletions.isEmpty()) return;
+
+        Map<String, String> fieldDeletes = new HashMap<String, String>(1) {{ put("set", null); }};
+
+        SolrInputDocument doc = new SolrInputDocument();
+        doc.addField(keyIdField, docId);
+        StringBuilder sb = new StringBuilder();
+        for (IndexEntry fieldToDelete : fieldDeletions) {
+            doc.addField(fieldToDelete.field, fieldDeletes);
+            sb.append(fieldToDelete).append(",");
+        }
+
+        if (logger.isTraceEnabled())
+            logger.trace("Deleting individual fields [{}] for document {}", sb.toString(), docId);
+
+        UpdateRequest singleDocument = newUpdateRequest();
+        singleDocument.add(doc);
+        solrClient.request(singleDocument, collectionName);
+    }
+
+    private void commitDocumentChanges(String collectionName, Collection<SolrInputDocument> documents) throws SolrServerException, IOException {
+        if (documents.size() == 0) return;
+
+        try {
+            solrClient.request(newUpdateRequest().add(documents), collectionName);
+        } catch (HttpSolrClient.RemoteSolrException rse) {
+            logger.error("Unable to save documents to Solr as one of the shape objects stored were not compatible with Solr.", rse);
+            logger.error("Details in failed document batch: ");
+            for (SolrInputDocument d : documents) {
+                Collection<String> fieldNames = d.getFieldNames();
+                for (String name : fieldNames) {
+                    logger.error(name + ":" + d.getFieldValue(name).toString());
+                }
+            }
+
+            throw rse;
+        }
+    }
+
+    private void commitDeletes(String collectionName, List<String> deleteIds) throws SolrServerException, IOException {
+        if (deleteIds.size() == 0) return;
+        solrClient.request(newUpdateRequest().deleteById(deleteIds), collectionName);
+    }
+
+    @Override
+    public List<String> query(IndexQuery query, KeyInformation.IndexRetriever informations, BaseTransaction tx) throws BackendException {
+        List<String> result;
+        String collection = query.getStore();
+        String keyIdField = getKeyFieldId(collection);
+        SolrQuery solrQuery = new SolrQuery("*:*");
+        String queryFilter = buildQueryFilter(query.getCondition(), informations.get(collection));
+        solrQuery.addFilterQuery(queryFilter);
+        if (!query.getOrder().isEmpty()) {
+            List<IndexQuery.OrderEntry> orders = query.getOrder();
+            for (IndexQuery.OrderEntry order1 : orders) {
+                String item = order1.getKey();
+                SolrQuery.ORDER order = order1.getOrder() == Order.ASC ? SolrQuery.ORDER.asc : SolrQuery.ORDER.desc;
+                solrQuery.addSort(new SolrQuery.SortClause(item, order));
+            }
+        }
+        solrQuery.setStart(0);
+        if (query.hasLimit()) {
+            solrQuery.setRows(query.getLimit());
+        } else {
+            solrQuery.setRows(maxResults);
+        }
+        try {
+            QueryResponse response = solrClient.query(collection, solrQuery);
+
+            if (logger.isDebugEnabled())
+                logger.debug("Executed query [{}] in {} ms", query.getCondition(), response.getElapsedTime());
+
+            int totalHits = response.getResults().size();
+
+            if (!query.hasLimit() && totalHits >= maxResults)
+                logger.warn("Query result set truncated to first [{}] elements for query: {}", maxResults, query);
+
+            result = new ArrayList<String>(totalHits);
+            for (SolrDocument hit : response.getResults()) {
+                result.add(hit.getFieldValue(keyIdField).toString());
+            }
+        } catch (IOException e) {
+            logger.error("Query did not complete : ", e);
+            throw new PermanentBackendException(e);
+        } catch (SolrServerException e) {
+            logger.error("Unable to query Solr index.", e);
+            throw new PermanentBackendException(e);
+        }
+        return result;
+    }
+
+    @Override
+    public Iterable<RawQuery.Result<String>> query(RawQuery query, KeyInformation.IndexRetriever informations, BaseTransaction tx) throws BackendException {
+        List<RawQuery.Result<String>> result;
+        String collection = query.getStore();
+        String keyIdField = getKeyFieldId(collection);
+        SolrQuery solrQuery = new SolrQuery(query.getQuery())
+                .addField(keyIdField)
+                .setIncludeScore(true)
+                .setStart(query.getOffset())
+                .setRows(query.hasLimit() ? query.getLimit() : maxResults);
+
+        try {
+            QueryResponse response = solrClient.query(collection, solrQuery);
+            if (logger.isDebugEnabled())
+                logger.debug("Executed query [{}] in {} ms", query.getQuery(), response.getElapsedTime());
+
+            int totalHits = response.getResults().size();
+            if (!query.hasLimit() && totalHits >= maxResults) {
+                logger.warn("Query result set truncated to first [{}] elements for query: {}", maxResults, query);
+            }
+            result = new ArrayList<RawQuery.Result<String>>(totalHits);
+
+            for (SolrDocument hit : response.getResults()) {
+                double score = Double.parseDouble(hit.getFieldValue("score").toString());
+                result.add(new RawQuery.Result<String>(hit.getFieldValue(keyIdField).toString(), score));
+            }
+        } catch (IOException e) {
+            logger.error("Query did not complete : ", e);
+            throw new PermanentBackendException(e);
+        } catch (SolrServerException e) {
+            logger.error("Unable to query Solr index.", e);
+            throw new PermanentBackendException(e);
+        }
+        return result;
+    }
+
+    private static String escapeValue(Object value) {
+        return ClientUtils.escapeQueryChars(value.toString());
+    }
+
+    public String buildQueryFilter(Condition<TitanElement> condition, KeyInformation.StoreRetriever informations) {
+        if (condition instanceof PredicateCondition) {
+            PredicateCondition<String, TitanElement> atom = (PredicateCondition<String, TitanElement>) condition;
+            Object value = atom.getValue();
+            String key = atom.getKey();
+            TitanPredicate titanPredicate = atom.getPredicate();
+
+            if (value instanceof Number) {
+                String queryValue = escapeValue(value);
+                Preconditions.checkArgument(titanPredicate instanceof Cmp, "Relation not supported on numeric types: " + titanPredicate);
+                Cmp numRel = (Cmp) titanPredicate;
+                switch (numRel) {
+                    case EQUAL:
+                        return (key + ":" + queryValue);
+                    case NOT_EQUAL:
+                        return ("-" + key + ":" + queryValue);
+                    case LESS_THAN:
+                        //use right curly to mean up to but not including value
+                        return (key + ":[* TO " + queryValue + "}");
+                    case LESS_THAN_EQUAL:
+                        return (key + ":[* TO " + queryValue + "]");
+                    case GREATER_THAN:
+                        //use left curly to mean greater than but not including value
+                        return (key + ":{" + queryValue + " TO *]");
+                    case GREATER_THAN_EQUAL:
+                        return (key + ":[" + queryValue + " TO *]");
+                    default: throw new IllegalArgumentException("Unexpected relation: " + numRel);
+                }
+            } else if (value instanceof String) {
+                Mapping map = getStringMapping(informations.get(key));
+                assert map== TEXT || map== STRING;
+                if (map== TEXT && !titanPredicate.toString().startsWith("CONTAINS"))
+                    throw new IllegalArgumentException("Text mapped string values only support CONTAINS queries and not: " + titanPredicate);
+                if (map== STRING && titanPredicate.toString().startsWith("CONTAINS"))
+                    throw new IllegalArgumentException("String mapped string values do not support CONTAINS queries: " + titanPredicate);
+
+                //Special case
+                if (titanPredicate == Text.CONTAINS) {
+                    //e.g. - if terms tomorrow and world were supplied, and fq=text:(tomorrow  world)
+                    //sample data set would return 2 documents: one where text = Tomorrow is the World,
+                    //and the second where text = Hello World. Hence, we are decomposing the query string
+                    //and building an AND query explicitly because we need AND semantics
+                    value = ((String) value).toLowerCase();
+                    List<String> terms = Text.tokenize((String) value);
+
+                    if (terms.isEmpty()) {
+                        return "";
+                    } else if (terms.size() == 1) {
+                        return (key + ":(" + escapeValue(terms.get(0)) + ")");
+                    } else {
+                        And<TitanElement> andTerms = new And<TitanElement>();
+                        for (String term : terms) {
+                            andTerms.add(new PredicateCondition<String, TitanElement>(key, titanPredicate, term));
+                        }
+                        return buildQueryFilter(andTerms, informations);
+                    }
+                }
+                if (titanPredicate == Text.PREFIX || titanPredicate == Text.CONTAINS_PREFIX) {
+                    return (key + ":" + escapeValue(value) + "*");
+                } else if (titanPredicate == Text.REGEX || titanPredicate == Text.CONTAINS_REGEX) {
+                    return (key + ":/" + value + "/");
+                } else if (titanPredicate == EQUAL) {
+                    return (key + ":\"" + escapeValue(value) + "\"");
+                } else if (titanPredicate == NOT_EQUAL) {
+                    return ("-" + key + ":\"" + escapeValue(value) + "\"");
+                } else {
+                    throw new IllegalArgumentException("Relation is not supported for string value: " + titanPredicate);
+                }
+            } else if (value instanceof Geoshape) {
+                Geoshape geo = (Geoshape)value;
+                if (geo.getType() == Geoshape.Type.CIRCLE) {
+                    Geoshape.Point center = geo.getPoint();
+                    return ("{!geofilt sfield=" + key +
+                            " pt=" + center.getLatitude() + "," + center.getLongitude() +
+                            " d=" + geo.getRadius() + "} distErrPct=0"); //distance in kilometers
+                } else if (geo.getType() == Geoshape.Type.BOX) {
+                    Geoshape.Point southwest = geo.getPoint(0);
+                    Geoshape.Point northeast = geo.getPoint(1);
+                    return (key + ":[" + southwest.getLatitude() + "," + southwest.getLongitude() +
+                            " TO " + northeast.getLatitude() + "," + northeast.getLongitude() + "]");
+                } else if (geo.getType() == Geoshape.Type.POLYGON) {
+                    List<Geoshape.Point> coordinates = getPolygonPoints(geo);
+                    StringBuilder poly = new StringBuilder(key + ":\"IsWithin(POLYGON((");
+                    for (Geoshape.Point coordinate : coordinates) {
+                        poly.append(coordinate.getLongitude()).append(" ").append(coordinate.getLatitude()).append(", ");
+                    }
+                    //close the polygon with the first coordinate
+                    poly.append(coordinates.get(0).getLongitude()).append(" ").append(coordinates.get(0).getLatitude());
+                    poly.append(")))\" distErrPct=0");
+                    return (poly.toString());
+                }
+            } else if (value instanceof Date) {
+                String queryValue = escapeValue(toIsoDate((Date)value));
+                Preconditions.checkArgument(titanPredicate instanceof Cmp, "Relation not supported on date types: " + titanPredicate);
+                Cmp numRel = (Cmp) titanPredicate;
+
+                switch (numRel) {
+                    case EQUAL:
+                        return (key + ":" + queryValue);
+                    case NOT_EQUAL:
+                        return ("-" + key + ":" + queryValue);
+                    case LESS_THAN:
+                        //use right curly to mean up to but not including value
+                        return (key + ":[* TO " + queryValue + "}");
+                    case LESS_THAN_EQUAL:
+                        return (key + ":[* TO " + queryValue + "]");
+                    case GREATER_THAN:
+                        //use left curly to mean greater than but not including value
+                        return (key + ":{" + queryValue + " TO *]");
+                    case GREATER_THAN_EQUAL:
+                        return (key + ":[" + queryValue + " TO *]");
+                    default: throw new IllegalArgumentException("Unexpected relation: " + numRel);
+                }
+            } else if (value instanceof Boolean) {
+                Cmp numRel = (Cmp) titanPredicate;
+                String queryValue = escapeValue(value);
+                switch (numRel) {
+                    case EQUAL:
+                        return (key + ":" + queryValue);
+                    case NOT_EQUAL:
+                        return ("-" + key + ":" + queryValue);
+                    default:
+                        throw new IllegalArgumentException("Boolean types only support EQUAL or NOT_EQUAL");
+                }
+            } else if (value instanceof UUID) {
+                if (titanPredicate == EQUAL) {
+                    return (key + ":\"" + escapeValue(value) + "\"");
+                } else if (titanPredicate == NOT_EQUAL) {
+                    return ("-" + key + ":\"" + escapeValue(value) + "\"");
+                } else {
+                    throw new IllegalArgumentException("Relation is not supported for uuid value: " + titanPredicate);
+                }
+            } else throw new IllegalArgumentException("Unsupported type: " + value);
+        } else if (condition instanceof Not) {
+            String sub = buildQueryFilter(((Not)condition).getChild(),informations);
+            if (StringUtils.isNotBlank(sub)) return "-("+sub+")";
+            else return "";
+        } else if (condition instanceof And) {
+            int numChildren = ((And) condition).size();
+            StringBuilder sb = new StringBuilder();
+            for (Condition<TitanElement> c : condition.getChildren()) {
+                String sub = buildQueryFilter(c, informations);
+
+                if (StringUtils.isBlank(sub))
+                    continue;
+
+                // we don't have to add "+" which means AND iff
+                // a. it's a NOT query,
+                // b. expression is a single statement in the AND.
+                if (!sub.startsWith("-") && numChildren > 1)
+                    sb.append("+");
+
+                sb.append(sub).append(" ");
+            }
+            return sb.toString();
+        } else if (condition instanceof Or) {
+            StringBuilder sb = new StringBuilder();
+            int element=0;
+            for (Condition<TitanElement> c : condition.getChildren()) {
+                String sub = buildQueryFilter(c,informations);
+                if (StringUtils.isBlank(sub)) continue;
+                if (element==0) sb.append("(");
+                else sb.append(" OR ");
+                sb.append(sub);
+                element++;
+            }
+            if (element>0) sb.append(")");
+            return sb.toString();
+        } else {
+            throw new IllegalArgumentException("Invalid condition: " + condition);
+        }
+        return null;
+    }
+
+    private String toIsoDate(Date value) {
+        TimeZone tz = TimeZone.getTimeZone("UTC");
+        DateFormat df = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss'Z'");
+        df.setTimeZone(tz);
+        return df.format(value);
+    }
+
+    private List<Geoshape.Point> getPolygonPoints(Geoshape polygon) {
+        List<Geoshape.Point> locations = new ArrayList<Geoshape.Point>();
+
+        int index = 0;
+        boolean hasCoordinates = true;
+        while (hasCoordinates) {
+            try {
+                locations.add(polygon.getPoint(index));
+            } catch (ArrayIndexOutOfBoundsException ignore) {
+                //just means we asked for a point past the size of the list
+                //of known coordinates
+                hasCoordinates = false;
+            }
+        }
+
+        return locations;
+    }
+
+    /**
+     * Solr handles all transactions on the server-side. That means all
+     * commit, optimize, or rollback applies since the last commit/optimize/rollback.
+     * Solr documentation recommends best way to update Solr is in one process to avoid
+     * race conditions.
+     *
+     * @return New Transaction Handle
+     * @throws com.thinkaurelius.titan.diskstorage.BackendException
+     */
+    @Override
+    public BaseTransactionConfigurable beginTransaction(BaseTransactionConfig config) throws BackendException {
+        return new DefaultTransaction(config);
+    }
+
+    @Override
+    public void close() throws BackendException {
+        logger.trace("Shutting down connection to Solr", solrClient);
+        try {
+            solrClient.close();
+        } catch (IOException e) {
+            throw new TemporaryBackendException(e);
+        }
+    }
+
+    @Override
+    public void clearStorage() throws BackendException {
+        try {
+            if (mode!=Mode.CLOUD) throw new UnsupportedOperationException("Operation only supported for SolrCloud");
+            logger.debug("Clearing storage from Solr: {}", solrClient);
+            ZkStateReader zkStateReader = ((CloudSolrClient) solrClient).getZkStateReader();
+            zkStateReader.updateClusterState(true);
+            ClusterState clusterState = zkStateReader.getClusterState();
+            for (String collection : clusterState.getCollections()) {
+                logger.debug("Clearing collection [{}] in Solr",collection);
+                UpdateRequest deleteAll = newUpdateRequest();
+                deleteAll.deleteByQuery("*:*");
+                solrClient.request(deleteAll, collection);
+            }
+
+        } catch (SolrServerException e) {
+            logger.error("Unable to clear storage from index due to server error on Solr.", e);
+            throw new PermanentBackendException(e);
+        } catch (IOException e) {
+            logger.error("Unable to clear storage from index due to low-level I/O error.", e);
+            throw new PermanentBackendException(e);
+        } catch (Exception e) {
+            logger.error("Unable to clear storage from index due to general error.", e);
+            throw new PermanentBackendException(e);
+        }
+    }
+
+    @Override
+    public boolean supports(KeyInformation information, TitanPredicate titanPredicate) {
+        Class<?> dataType = information.getDataType();
+        Mapping mapping = getMapping(information);
+        if (mapping!= DEFAULT && !AttributeUtil.isString(dataType)) return false;
+
+        if (Number.class.isAssignableFrom(dataType)) {
+            return titanPredicate instanceof Cmp;
+        } else if (dataType == Geoshape.class) {
+            return titanPredicate == Geo.WITHIN;
+        } else if (AttributeUtil.isString(dataType)) {
+            switch(mapping) {
+                case DEFAULT:
+                case TEXT:
+                    return titanPredicate == Text.CONTAINS || titanPredicate == Text.CONTAINS_PREFIX || titanPredicate == Text.CONTAINS_REGEX;
+                case STRING:
+                    return titanPredicate == EQUAL || titanPredicate== NOT_EQUAL || titanPredicate==Text.REGEX || titanPredicate==Text.PREFIX;
+                //                case TEXTSTRING:
+                //                    return (titanPredicate instanceof Text) || titanPredicate == Cmp.EQUAL || titanPredicate==Cmp.NOT_EQUAL;
+            }
+        } else if (dataType == Date.class) {
+            if (titanPredicate instanceof Cmp) return true;
+        } else if (dataType == Boolean.class) {
+            return titanPredicate == EQUAL || titanPredicate == NOT_EQUAL;
+        } else if (dataType == UUID.class) {
+            return titanPredicate == EQUAL || titanPredicate== NOT_EQUAL;
+        }
+        return false;
+    }
+
+    @Override
+    public boolean supports(KeyInformation information) {
+        Class<?> dataType = information.getDataType();
+        Mapping mapping = getMapping(information);
+        if (Number.class.isAssignableFrom(dataType) || dataType == Geoshape.class || dataType == Date.class || dataType == Boolean.class || dataType == UUID.class) {
+            if (mapping== DEFAULT) return true;
+        } else if (AttributeUtil.isString(dataType)) {
+            if (mapping== DEFAULT || mapping== TEXT || mapping== STRING) return true;
+        }
+        return false;
+    }
+
+    @Override
+    public String mapKey2Field(String key, KeyInformation keyInfo) {
+        Preconditions.checkArgument(!StringUtils.containsAny(key, new char[]{' '}),"Invalid key name provided: %s",key);
+        if (!dynFields) return key;
+        if (ParameterType.MAPPED_NAME.hasParameter(keyInfo.getParameters())) return key;
+        String postfix;
+        Class datatype = keyInfo.getDataType();
+        if (AttributeUtil.isString(datatype)) {
+            Mapping map = getStringMapping(keyInfo);
+            switch (map) {
+                case TEXT: postfix = "_t"; break;
+                case STRING: postfix = "_s"; break;
+                default: throw new IllegalArgumentException("Unsupported string mapping: " + map);
+            }
+        } else if (AttributeUtil.isWholeNumber(datatype)) {
+            if (datatype.equals(Long.class)) postfix = "_l";
+            else postfix = "_i";
+        } else if (AttributeUtil.isDecimal(datatype)) {
+            if (datatype.equals(Float.class)) postfix = "_f";
+            else postfix = "_d";
+        } else if (datatype.equals(Geoshape.class)) {
+            postfix = "_g";
+        } else if (datatype.equals(Date.class)) {
+            postfix = "_dt";
+        } else if (datatype.equals(Boolean.class)) {
+            postfix = "_b";
+        } else if (datatype.equals(UUID.class)) {
+            postfix = "_uuid";
+        } else throw new IllegalArgumentException("Unsupported data type ["+datatype+"] for field: " + key);
+        return key+postfix;
+    }
+
+    @Override
+    public IndexFeatures getFeatures() {
+        return SOLR_FEATURES;
+    }
+
+    /*
+    ################# UTILITY METHODS #######################
+     */
+
+    private static Mapping getStringMapping(KeyInformation information) {
+        assert AttributeUtil.isString(information.getDataType());
+        Mapping map = getMapping(information);
+        if (map== DEFAULT) map = TEXT;
+        return map;
+    }
+
+    private UpdateRequest newUpdateRequest() {
+        UpdateRequest req = new UpdateRequest();
+        req.setAction(UpdateRequest.ACTION.COMMIT, true, true);
+        if (waitSearcher) {
+            req.setAction(UpdateRequest.ACTION.COMMIT, true, true);
+        }
+        return req;
+    }
+
+    private BackendException storageException(Exception solrException) {
+        return new TemporaryBackendException("Unable to complete query on Solr.", solrException);
+    }
+
+    private static void createCollectionIfNotExists(CloudSolrClient client, Configuration config, String collection)
+            throws IOException, SolrServerException, KeeperException, InterruptedException {
+        if (!checkIfCollectionExists(client, collection)) {
+            Integer numShards = config.get(NUM_SHARDS);
+            Integer maxShardsPerNode = config.get(MAX_SHARDS_PER_NODE);
+            Integer replicationFactor = config.get(REPLICATION_FACTOR);
+
+            CollectionAdminRequest.Create createRequest = new CollectionAdminRequest.Create();
+
+            createRequest.setConfigName(collection);
+            createRequest.setCollectionName(collection);
+            createRequest.setNumShards(numShards);
+            createRequest.setMaxShardsPerNode(maxShardsPerNode);
+            createRequest.setReplicationFactor(replicationFactor);
+
+            CollectionAdminResponse createResponse = createRequest.process(client);
+            if (createResponse.isSuccess()) {
+                logger.trace("Collection {} successfully created.", collection);
+            } else {
+                throw new SolrServerException(Joiner.on("\n").join(createResponse.getErrorMessages()));
+            }
+        }
+
+        waitForRecoveriesToFinish(client, collection);
+    }
+
+    /**
+     * Checks if the collection has already been created in Solr.
+     */
+    private static boolean checkIfCollectionExists(CloudSolrClient server, String collection) throws KeeperException, InterruptedException {
+        ZkStateReader zkStateReader = server.getZkStateReader();
+        zkStateReader.updateClusterState(true);
+        ClusterState clusterState = zkStateReader.getClusterState();
+        return clusterState.getCollectionOrNull(collection) != null;
+    }
+
+    /**
+     * Wait for all the collection shards to be ready.
+     */
+    private static void waitForRecoveriesToFinish(CloudSolrClient server, String collection) throws KeeperException, InterruptedException {
+        ZkStateReader zkStateReader = server.getZkStateReader();
+        try {
+            boolean cont = true;
+
+            while (cont) {
+                boolean sawLiveRecovering = false;
+                zkStateReader.updateClusterState(true);
+                ClusterState clusterState = zkStateReader.getClusterState();
+                Map<String, Slice> slices = clusterState.getSlicesMap(collection);
+                Preconditions.checkNotNull("Could not find collection:" + collection, slices);
+
+                for (Map.Entry<String, Slice> entry : slices.entrySet()) {
+                    Map<String, Replica> shards = entry.getValue().getReplicasMap();
+                    for (Map.Entry<String, Replica> shard : shards.entrySet()) {
+                        String state = shard.getValue().getStr(ZkStateReader.STATE_PROP);
+                        if ((state.equals(ZkStateReader.RECOVERING)
+                                || state.equals(ZkStateReader.SYNC) || state
+                                .equals(ZkStateReader.DOWN))
+                                && clusterState.liveNodesContain(shard.getValue().getStr(
+                                ZkStateReader.NODE_NAME_PROP))) {
+                            sawLiveRecovering = true;
+                        }
+                    }
+                }
+                if (!sawLiveRecovering) {
+                    cont = false;
+                } else {
+                    Thread.sleep(1000);
+                }
+            }
+        } finally {
+            logger.info("Exiting solr wait");
+        }
+    }
+
+    private static class GeoToWktConverter {
+        /**
+         * {@link com.thinkaurelius.titan.core.attribute.Geoshape} stores Points in the String format: point[X.0,Y.0].
+         * Solr needs it to be in Well-Known Text format: POINT(X.0 Y.0)
+         */
+        static String convertToWktString(Geoshape fieldValue) throws BackendException {
+            if (fieldValue.getType() == Geoshape.Type.POINT) {
+                Geoshape.Point point = fieldValue.getPoint();
+                return "POINT(" + point.getLongitude() + " " + point.getLatitude() + ")";
+            } else {
+                throw new PermanentBackendException("Cannot index " + fieldValue.getType());
+            }
+        }
+    }
+
+}

http://git-wip-us.apache.org/repos/asf/incubator-atlas/blob/919120f6/titan/src/test/java/com/thinkaurelius/titan/diskstorage/locking/LocalLockMediatorTest.java
----------------------------------------------------------------------
diff --git a/titan/src/test/java/com/thinkaurelius/titan/diskstorage/locking/LocalLockMediatorTest.java b/titan/src/test/java/com/thinkaurelius/titan/diskstorage/locking/LocalLockMediatorTest.java
new file mode 100644
index 0000000..d0fd401
--- /dev/null
+++ b/titan/src/test/java/com/thinkaurelius/titan/diskstorage/locking/LocalLockMediatorTest.java
@@ -0,0 +1,60 @@
+/*
+ * Copyright 2012-2013 Aurelius LLC
+ * Licensed 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 com.thinkaurelius.titan.diskstorage.locking;
+
+import com.thinkaurelius.titan.diskstorage.hbase.HBaseTransaction;
+import com.thinkaurelius.titan.diskstorage.util.time.TimestampProvider;
+import com.thinkaurelius.titan.diskstorage.util.time.Timestamps;
+import com.thinkaurelius.titan.diskstorage.StaticBuffer;
+import com.thinkaurelius.titan.diskstorage.util.KeyColumn;
+import com.thinkaurelius.titan.diskstorage.util.StaticArrayBuffer;
+import org.mockito.Mockito;
+import org.testng.Assert;
+import org.testng.annotations.Test;
+
+import java.util.concurrent.TimeUnit;
+
+public class LocalLockMediatorTest {
+
+    private static final String LOCK_NAMESPACE = "test";
+    private static final StaticBuffer LOCK_ROW = StaticArrayBuffer.of(new byte[]{1});
+    private static final StaticBuffer LOCK_COL = StaticArrayBuffer.of(new byte[]{1});
+    private static final KeyColumn kc = new KeyColumn(LOCK_ROW, LOCK_COL);
+    private static final HBaseTransaction mockTx1 = Mockito.mock(HBaseTransaction.class);
+    private static final HBaseTransaction mockTx2 = Mockito.mock(HBaseTransaction.class);
+
+    @Test
+    public void testLock() throws InterruptedException {
+        TimestampProvider times = Timestamps.MICRO;
+        LocalLockMediator<HBaseTransaction> llm =
+            new LocalLockMediator<HBaseTransaction>(LOCK_NAMESPACE, times);
+
+        //Expire immediately
+        Assert.assertTrue(llm.lock(kc, mockTx1, times.getTime(0, TimeUnit.NANOSECONDS)));
+        Assert.assertTrue(llm.lock(kc, mockTx2, times.getTime(Long.MAX_VALUE, TimeUnit.NANOSECONDS)));
+
+        llm = new LocalLockMediator<HBaseTransaction>(LOCK_NAMESPACE, times);
+
+        //Expire later
+        Assert.assertTrue(llm.lock(kc, mockTx1, times.getTime(Long.MAX_VALUE, TimeUnit.NANOSECONDS)));
+        //So second lock should fail on same keyCol
+        Assert.assertFalse(llm.lock(kc, mockTx2, times.getTime(Long.MAX_VALUE, TimeUnit.NANOSECONDS)));
+
+        //Unlock
+        Assert.assertTrue(llm.unlock(kc, mockTx1));
+        //Now locking should succeed
+        Assert.assertTrue(llm.lock(kc, mockTx2, times.getTime(Long.MAX_VALUE, TimeUnit.NANOSECONDS)));
+    }
+}


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