Java tutorial
/** * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ package org.apache.hive.hcatalog.common; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.File; import java.io.IOException; import java.io.ObjectInputStream; import java.io.ObjectOutputStream; import java.io.Serializable; import java.util.ArrayList; import java.util.HashMap; import java.util.LinkedList; import java.util.List; import java.util.Map; import java.util.Properties; import org.apache.commons.codec.binary.Base64; import org.apache.hadoop.classification.InterfaceAudience; import org.apache.hadoop.classification.InterfaceStability; import org.apache.hadoop.conf.Configuration; import org.apache.hadoop.fs.permission.FsAction; import org.apache.hadoop.hive.conf.HiveConf; import org.apache.hadoop.hive.metastore.HiveMetaStoreClient; import org.apache.hadoop.hive.metastore.IMetaStoreClient; import org.apache.hadoop.hive.metastore.MetaStoreUtils; import org.apache.hadoop.hive.metastore.api.FieldSchema; import org.apache.hadoop.hive.metastore.api.MetaException; import org.apache.hadoop.hive.metastore.api.NoSuchObjectException; import org.apache.hadoop.hive.ql.exec.Utilities; import org.apache.hadoop.hive.ql.io.IgnoreKeyTextOutputFormat; import org.apache.hadoop.hive.ql.metadata.HiveStorageHandler; import org.apache.hadoop.hive.ql.metadata.Partition; import org.apache.hadoop.hive.ql.metadata.Table; import org.apache.hadoop.hive.ql.plan.TableDesc; import org.apache.hadoop.hive.serde.serdeConstants; import org.apache.hadoop.hive.serde2.typeinfo.TypeInfo; import org.apache.hadoop.hive.serde2.typeinfo.TypeInfoUtils; import org.apache.hadoop.hive.thrift.DelegationTokenIdentifier; import org.apache.hadoop.io.Text; import org.apache.hadoop.mapred.JobClient; import org.apache.hadoop.mapred.JobConf; import org.apache.hadoop.mapreduce.JobContext; import org.apache.hadoop.security.token.Token; import org.apache.hadoop.security.token.delegation.AbstractDelegationTokenIdentifier; import org.apache.hadoop.util.ReflectionUtils; import org.apache.hive.hcatalog.data.Pair; import org.apache.hive.hcatalog.data.schema.HCatFieldSchema; import org.apache.hive.hcatalog.data.schema.HCatSchema; import org.apache.hive.hcatalog.data.schema.HCatSchemaUtils; import org.apache.hive.hcatalog.mapreduce.FosterStorageHandler; import org.apache.hive.hcatalog.mapreduce.HCatOutputFormat; import org.apache.hive.hcatalog.mapreduce.InputJobInfo; import org.apache.hive.hcatalog.mapreduce.OutputJobInfo; import org.apache.hive.hcatalog.mapreduce.PartInfo; import org.apache.hive.hcatalog.mapreduce.StorerInfo; import org.apache.thrift.TException; import org.slf4j.Logger; import org.slf4j.LoggerFactory; import javax.security.auth.login.LoginException; public class HCatUtil { private static final Logger LOG = LoggerFactory.getLogger(HCatUtil.class); private static volatile HiveClientCache hiveClientCache; public static boolean checkJobContextIfRunningFromBackend(JobContext j) { if (j.getConfiguration().get("pig.job.converted.fetch", "").equals("") && j.getConfiguration().get("mapred.task.id", "").equals("") && !("true".equals(j.getConfiguration().get("pig.illustrating")))) { return false; } return true; } public static String serialize(Serializable obj) throws IOException { if (obj == null) { return ""; } try { ByteArrayOutputStream serialObj = new ByteArrayOutputStream(); ObjectOutputStream objStream = new ObjectOutputStream(serialObj); objStream.writeObject(obj); objStream.close(); return encodeBytes(serialObj.toByteArray()); } catch (Exception e) { throw new IOException("Serialization error: " + e.getMessage(), e); } } public static Object deserialize(String str) throws IOException { if (str == null || str.length() == 0) { return null; } try { ByteArrayInputStream serialObj = new ByteArrayInputStream(decodeBytes(str)); ObjectInputStream objStream = new ObjectInputStream(serialObj); return objStream.readObject(); } catch (Exception e) { throw new IOException("Deserialization error: " + e.getMessage(), e); } } public static String encodeBytes(byte[] bytes) { return new String(Base64.encodeBase64(bytes, false, false)); } public static byte[] decodeBytes(String str) { return Base64.decodeBase64(str.getBytes()); } public static List<HCatFieldSchema> getHCatFieldSchemaList(FieldSchema... fields) throws HCatException { List<HCatFieldSchema> result = new ArrayList<HCatFieldSchema>(fields.length); for (FieldSchema f : fields) { result.add(HCatSchemaUtils.getHCatFieldSchema(f)); } return result; } public static List<HCatFieldSchema> getHCatFieldSchemaList(List<FieldSchema> fields) throws HCatException { if (fields == null) { return null; } else { List<HCatFieldSchema> result = new ArrayList<HCatFieldSchema>(); for (FieldSchema f : fields) { result.add(HCatSchemaUtils.getHCatFieldSchema(f)); } return result; } } public static HCatSchema extractSchema(Table table) throws HCatException { return new HCatSchema(HCatUtil.getHCatFieldSchemaList(table.getCols())); } public static HCatSchema extractSchema(Partition partition) throws HCatException { return new HCatSchema(HCatUtil.getHCatFieldSchemaList(partition.getCols())); } public static List<FieldSchema> getFieldSchemaList(List<HCatFieldSchema> hcatFields) { if (hcatFields == null) { return null; } else { List<FieldSchema> result = new ArrayList<FieldSchema>(); for (HCatFieldSchema f : hcatFields) { result.add(HCatSchemaUtils.getFieldSchema(f)); } return result; } } public static Table getTable(IMetaStoreClient client, String dbName, String tableName) throws NoSuchObjectException, TException, MetaException { return new Table(client.getTable(dbName, tableName)); } public static HCatSchema getTableSchemaWithPtnCols(Table table) throws IOException { HCatSchema tableSchema = new HCatSchema(HCatUtil.getHCatFieldSchemaList(table.getCols())); if (table.getPartitionKeys().size() != 0) { // add partition keys to table schema // NOTE : this assumes that we do not ever have ptn keys as columns // inside the table schema as well! for (FieldSchema fs : table.getPartitionKeys()) { tableSchema.append(HCatSchemaUtils.getHCatFieldSchema(fs)); } } return tableSchema; } /** * return the partition columns from a table instance * * @param table the instance to extract partition columns from * @return HCatSchema instance which contains the partition columns * @throws IOException */ public static HCatSchema getPartitionColumns(Table table) throws IOException { HCatSchema cols = new HCatSchema(new LinkedList<HCatFieldSchema>()); if (table.getPartitionKeys().size() != 0) { for (FieldSchema fs : table.getPartitionKeys()) { cols.append(HCatSchemaUtils.getHCatFieldSchema(fs)); } } return cols; } /** * Validate partition schema, checks if the column types match between the * partition and the existing table schema. Returns the list of columns * present in the partition but not in the table. * * @param table the table * @param partitionSchema the partition schema * @return the list of newly added fields * @throws IOException Signals that an I/O exception has occurred. */ public static List<FieldSchema> validatePartitionSchema(Table table, HCatSchema partitionSchema) throws IOException { Map<String, FieldSchema> partitionKeyMap = new HashMap<String, FieldSchema>(); for (FieldSchema field : table.getPartitionKeys()) { partitionKeyMap.put(field.getName().toLowerCase(), field); } List<FieldSchema> tableCols = table.getCols(); List<FieldSchema> newFields = new ArrayList<FieldSchema>(); for (int i = 0; i < partitionSchema.getFields().size(); i++) { FieldSchema field = HCatSchemaUtils.getFieldSchema(partitionSchema.getFields().get(i)); FieldSchema tableField; if (i < tableCols.size()) { tableField = tableCols.get(i); if (!tableField.getName().equalsIgnoreCase(field.getName())) { throw new HCatException(ErrorType.ERROR_SCHEMA_COLUMN_MISMATCH, "Expected column <" + tableField.getName() + "> at position " + (i + 1) + ", found column <" + field.getName() + ">"); } } else { tableField = partitionKeyMap.get(field.getName().toLowerCase()); if (tableField != null) { throw new HCatException(ErrorType.ERROR_SCHEMA_PARTITION_KEY, "Key <" + field.getName() + ">"); } } if (tableField == null) { // field present in partition but not in table newFields.add(field); } else { // field present in both. validate type has not changed TypeInfo partitionType = TypeInfoUtils.getTypeInfoFromTypeString(field.getType()); TypeInfo tableType = TypeInfoUtils.getTypeInfoFromTypeString(tableField.getType()); if (!partitionType.equals(tableType)) { String msg = "Column <" + field.getName() + ">, expected <" + tableType.getTypeName() + ">, got <" + partitionType.getTypeName() + ">"; LOG.warn(msg); throw new HCatException(ErrorType.ERROR_SCHEMA_TYPE_MISMATCH, msg); } } } return newFields; } /** * Test if the first FsAction is more permissive than the second. This is * useful in cases where we want to ensure that a file owner has more * permissions than the group they belong to, for eg. More completely(but * potentially more cryptically) owner-r >= group-r >= world-r : bitwise * and-masked with 0444 => 444 >= 440 >= 400 >= 000 owner-w >= group-w >= * world-w : bitwise and-masked with &0222 => 222 >= 220 >= 200 >= 000 * owner-x >= group-x >= world-x : bitwise and-masked with &0111 => 111 >= * 110 >= 100 >= 000 * * @return true if first FsAction is more permissive than the second, false * if not. */ public static boolean validateMorePermissive(FsAction first, FsAction second) { if ((first == FsAction.ALL) || (second == FsAction.NONE) || (first == second)) { return true; } switch (first) { case READ_EXECUTE: return ((second == FsAction.READ) || (second == FsAction.EXECUTE)); case READ_WRITE: return ((second == FsAction.READ) || (second == FsAction.WRITE)); case WRITE_EXECUTE: return ((second == FsAction.WRITE) || (second == FsAction.EXECUTE)); } return false; } /** * Ensure that read or write permissions are not granted without also * granting execute permissions. Essentially, r-- , rw- and -w- are invalid, * r-x, -wx, rwx, ---, --x are valid * * @param perms The FsAction to verify * @return true if the presence of read or write permission is accompanied * by execute permissions */ public static boolean validateExecuteBitPresentIfReadOrWrite(FsAction perms) { if ((perms == FsAction.READ) || (perms == FsAction.WRITE) || (perms == FsAction.READ_WRITE)) { return false; } return true; } public static Token<org.apache.hadoop.mapreduce.security.token.delegation.DelegationTokenIdentifier> getJobTrackerDelegationToken( Configuration conf, String userName) throws Exception { // LOG.info("getJobTrackerDelegationToken("+conf+","+userName+")"); JobClient jcl = new JobClient(new JobConf(conf, HCatOutputFormat.class)); Token<org.apache.hadoop.mapreduce.security.token.delegation.DelegationTokenIdentifier> t = jcl .getDelegationToken(new Text(userName)); // LOG.info("got "+t); return t; // return null; } public static Token<? extends AbstractDelegationTokenIdentifier> extractThriftToken(String tokenStrForm, String tokenSignature) throws MetaException, TException, IOException { // LOG.info("extractThriftToken("+tokenStrForm+","+tokenSignature+")"); Token<? extends AbstractDelegationTokenIdentifier> t = new Token<DelegationTokenIdentifier>(); t.decodeFromUrlString(tokenStrForm); t.setService(new Text(tokenSignature)); // LOG.info("returning "+t); return t; } /** * Create an instance of a storage handler defined in storerInfo. If one cannot be found * then FosterStorageHandler is used to encapsulate the InputFormat, OutputFormat and SerDe. * This StorageHandler assumes the other supplied storage artifacts are for a file-based storage system. * @param conf job's configuration will be used to configure the Configurable StorageHandler * @param storerInfo StorerInfo to definining the StorageHandler and InputFormat, OutputFormat and SerDe * @return storageHandler instance * @throws IOException */ public static HiveStorageHandler getStorageHandler(Configuration conf, StorerInfo storerInfo) throws IOException { return getStorageHandler(conf, storerInfo.getStorageHandlerClass(), storerInfo.getSerdeClass(), storerInfo.getIfClass(), storerInfo.getOfClass()); } public static HiveStorageHandler getStorageHandler(Configuration conf, PartInfo partitionInfo) throws IOException { return HCatUtil.getStorageHandler(conf, partitionInfo.getStorageHandlerClassName(), partitionInfo.getSerdeClassName(), partitionInfo.getInputFormatClassName(), partitionInfo.getOutputFormatClassName()); } /** * Create an instance of a storage handler. If storageHandler == null, * then surrrogate StorageHandler is used to encapsulate the InputFormat, OutputFormat and SerDe. * This StorageHandler assumes the other supplied storage artifacts are for a file-based storage system. * @param conf job's configuration will be used to configure the Configurable StorageHandler * @param storageHandler fully qualified class name of the desired StorageHandle instance * @param serDe fully qualified class name of the desired SerDe instance * @param inputFormat fully qualified class name of the desired InputFormat instance * @param outputFormat fully qualified class name of the desired outputFormat instance * @return storageHandler instance * @throws IOException */ public static HiveStorageHandler getStorageHandler(Configuration conf, String storageHandler, String serDe, String inputFormat, String outputFormat) throws IOException { if ((storageHandler == null) || (storageHandler.equals(FosterStorageHandler.class.getName()))) { try { FosterStorageHandler fosterStorageHandler = new FosterStorageHandler(inputFormat, outputFormat, serDe); fosterStorageHandler.setConf(conf); return fosterStorageHandler; } catch (ClassNotFoundException e) { throw new IOException("Failed to load " + "foster storage handler", e); } } try { Class<? extends HiveStorageHandler> handlerClass = (Class<? extends HiveStorageHandler>) Class .forName(storageHandler, true, Utilities.getSessionSpecifiedClassLoader()); return (HiveStorageHandler) ReflectionUtils.newInstance(handlerClass, conf); } catch (ClassNotFoundException e) { throw new IOException("Error in loading storage handler." + e.getMessage(), e); } } public static Pair<String, String> getDbAndTableName(String tableName) throws IOException { String[] dbTableNametokens = tableName.split("\\."); if (dbTableNametokens.length == 1) { return new Pair<String, String>(MetaStoreUtils.DEFAULT_DATABASE_NAME, tableName); } else if (dbTableNametokens.length == 2) { return new Pair<String, String>(dbTableNametokens[0], dbTableNametokens[1]); } else { throw new IOException("tableName expected in the form " + "<databasename>.<table name> or <table name>. Got " + tableName); } } public static Map<String, String> getInputJobProperties(HiveStorageHandler storageHandler, InputJobInfo inputJobInfo) { Properties props = inputJobInfo.getTableInfo().getStorerInfo().getProperties(); props.put(serdeConstants.SERIALIZATION_LIB, storageHandler.getSerDeClass().getName()); TableDesc tableDesc = new TableDesc(storageHandler.getInputFormatClass(), storageHandler.getOutputFormatClass(), props); if (tableDesc.getJobProperties() == null) { tableDesc.setJobProperties(new HashMap<String, String>()); } Properties mytableProperties = tableDesc.getProperties(); mytableProperties.setProperty(org.apache.hadoop.hive.metastore.api.hive_metastoreConstants.META_TABLE_NAME, inputJobInfo.getDatabaseName() + "." + inputJobInfo.getTableName()); Map<String, String> jobProperties = new HashMap<String, String>(); try { tableDesc.getJobProperties().put(HCatConstants.HCAT_KEY_JOB_INFO, HCatUtil.serialize(inputJobInfo)); storageHandler.configureInputJobProperties(tableDesc, jobProperties); } catch (IOException e) { throw new IllegalStateException("Failed to configure StorageHandler", e); } return jobProperties; } @InterfaceAudience.Private @InterfaceStability.Evolving public static void configureOutputStorageHandler(HiveStorageHandler storageHandler, Configuration conf, OutputJobInfo outputJobInfo) { //TODO replace IgnoreKeyTextOutputFormat with a //HiveOutputFormatWrapper in StorageHandler Properties props = outputJobInfo.getTableInfo().getStorerInfo().getProperties(); props.put(serdeConstants.SERIALIZATION_LIB, storageHandler.getSerDeClass().getName()); TableDesc tableDesc = new TableDesc(storageHandler.getInputFormatClass(), IgnoreKeyTextOutputFormat.class, props); if (tableDesc.getJobProperties() == null) tableDesc.setJobProperties(new HashMap<String, String>()); for (Map.Entry<String, String> el : conf) { tableDesc.getJobProperties().put(el.getKey(), el.getValue()); } Properties mytableProperties = tableDesc.getProperties(); mytableProperties.setProperty(org.apache.hadoop.hive.metastore.api.hive_metastoreConstants.META_TABLE_NAME, outputJobInfo.getDatabaseName() + "." + outputJobInfo.getTableName()); Map<String, String> jobProperties = new HashMap<String, String>(); try { tableDesc.getJobProperties().put(HCatConstants.HCAT_KEY_OUTPUT_INFO, HCatUtil.serialize(outputJobInfo)); storageHandler.configureOutputJobProperties(tableDesc, jobProperties); Map<String, String> tableJobProperties = tableDesc.getJobProperties(); if (tableJobProperties != null) { if (tableJobProperties.containsKey(HCatConstants.HCAT_KEY_OUTPUT_INFO)) { String jobString = tableJobProperties.get(HCatConstants.HCAT_KEY_OUTPUT_INFO); if (jobString != null) { if (!jobProperties.containsKey(HCatConstants.HCAT_KEY_OUTPUT_INFO)) { jobProperties.put(HCatConstants.HCAT_KEY_OUTPUT_INFO, tableJobProperties.get(HCatConstants.HCAT_KEY_OUTPUT_INFO)); } } } } for (Map.Entry<String, String> el : jobProperties.entrySet()) { conf.set(el.getKey(), el.getValue()); } } catch (IOException e) { throw new IllegalStateException("Failed to configure StorageHandler", e); } } /** * Replace the contents of dest with the contents of src * @param src * @param dest */ public static void copyConf(Configuration src, Configuration dest) { dest.clear(); for (Map.Entry<String, String> el : src) { dest.set(el.getKey(), el.getValue()); } } /** * Get or create a hive client depending on whether it exits in cache or not * @param hiveConf The hive configuration * @return the client * @throws MetaException When HiveMetaStoreClient couldn't be created * @throws IOException */ public static IMetaStoreClient getHiveMetastoreClient(HiveConf hiveConf) throws MetaException, IOException { if (hiveConf.getBoolean(HCatConstants.HCAT_HIVE_CLIENT_DISABLE_CACHE, false)) { // If cache is disabled, don't use it. return HiveClientCache.getNonCachedHiveMetastoreClient(hiveConf); } // Singleton behaviour: create the cache instance if required. if (hiveClientCache == null) { synchronized (IMetaStoreClient.class) { if (hiveClientCache == null) { hiveClientCache = new HiveClientCache(hiveConf); } } } try { return hiveClientCache.get(hiveConf); } catch (LoginException e) { throw new IOException("Couldn't create hiveMetaStoreClient, Error getting UGI for user", e); } } /** * Get or create a hive client depending on whether it exits in cache or not. * @Deprecated : use {@link #getHiveMetastoreClient(HiveConf)} instead. * This was deprecated in Hive 1.2, slated for removal in two versions * (i.e. 1.2 & 1.3(projected) will have it, but it will be removed after that) * @param hiveConf The hive configuration * @return the client * @throws MetaException When HiveMetaStoreClient couldn't be created * @throws IOException */ @Deprecated public static HiveMetaStoreClient getHiveClient(HiveConf hiveConf) throws MetaException, IOException { LOG.warn("HCatUtil.getHiveClient is unsafe and can be a resource leak depending on HMSC " + "implementation and caching mechanism. Use HCatUtil.getHiveMetastoreClient instead."); return new HiveMetaStoreClient(hiveConf); } public static void closeHiveClientQuietly(IMetaStoreClient client) { try { if (client != null) client.close(); } catch (Exception e) { LOG.debug("Error closing metastore client. Ignored the error.", e); } } public static HiveConf getHiveConf(Configuration conf) throws IOException { HiveConf hiveConf = new HiveConf(conf, HCatUtil.class); //copy the hive conf into the job conf and restore it //in the backend context if (conf.get(HCatConstants.HCAT_KEY_HIVE_CONF) == null) { conf.set(HCatConstants.HCAT_KEY_HIVE_CONF, HCatUtil.serialize(hiveConf.getAllProperties())); } else { //Copy configuration properties into the hive conf Properties properties = (Properties) HCatUtil.deserialize(conf.get(HCatConstants.HCAT_KEY_HIVE_CONF)); for (Map.Entry<Object, Object> prop : properties.entrySet()) { if (prop.getValue() instanceof String) { hiveConf.set((String) prop.getKey(), (String) prop.getValue()); } else if (prop.getValue() instanceof Integer) { hiveConf.setInt((String) prop.getKey(), (Integer) prop.getValue()); } else if (prop.getValue() instanceof Boolean) { hiveConf.setBoolean((String) prop.getKey(), (Boolean) prop.getValue()); } else if (prop.getValue() instanceof Long) { hiveConf.setLong((String) prop.getKey(), (Long) prop.getValue()); } else if (prop.getValue() instanceof Float) { hiveConf.setFloat((String) prop.getKey(), (Float) prop.getValue()); } } } if (conf.get(HCatConstants.HCAT_KEY_TOKEN_SIGNATURE) != null) { hiveConf.setVar(HiveConf.ConfVars.METASTORE_TOKEN_SIGNATURE, conf.get(HCatConstants.HCAT_KEY_TOKEN_SIGNATURE)); } return hiveConf; } public static JobConf getJobConfFromContext(JobContext jobContext) { JobConf jobConf; // we need to convert the jobContext into a jobConf // 0.18 jobConf (Hive) vs 0.20+ jobContext (HCat) // begin conversion.. jobConf = new JobConf(jobContext.getConfiguration()); // ..end of conversion return jobConf; } public static void copyJobPropertiesToJobConf(Map<String, String> jobProperties, JobConf jobConf) { for (Map.Entry<String, String> entry : jobProperties.entrySet()) { jobConf.set(entry.getKey(), entry.getValue()); } } public static boolean isHadoop23() { String version = org.apache.hadoop.util.VersionInfo.getVersion(); if (version.matches("\\b0\\.23\\..+\\b") || version.matches("\\b2\\..*")) return true; return false; } /** * Used by various tests to make sure the path is safe for Windows */ public static String makePathASafeFileName(String filePath) { return new File(filePath).getPath().replaceAll("\\\\", "/"); } public static void assertNotNull(Object t, String msg, Logger logger) { if (t == null) { if (logger != null) { logger.warn(msg); } throw new IllegalArgumentException(msg); } } }