/**
* 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.jdbc;
import static org.apache.hadoop.hive.conf.SystemVariables.SET_COLUMN_NAME;
import static org.apache.hadoop.hive.ql.exec.ExplainTask.EXPL_COLUMN_NAME;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNotNull;
import static org.junit.Assert.assertNull;
import static org.junit.Assert.assertTrue;
import static org.junit.Assert.fail;
import java.io.InputStream;
import java.sql.Connection;
import java.sql.DatabaseMetaData;
import java.sql.DriverManager;
import java.sql.DriverPropertyInfo;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.ResultSetMetaData;
import java.sql.SQLException;
import java.sql.Statement;
import java.sql.Types;
import java.util.ArrayList;
import java.util.Date;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Properties;
import java.util.Set;
import java.util.regex.Pattern;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.hive.conf.HiveConf;
import org.apache.hadoop.hive.conf.HiveConf.ConfVars;
import org.apache.hadoop.hive.metastore.TableType;
import org.apache.hadoop.hive.ql.exec.UDF;
import org.apache.hadoop.hive.ql.processors.DfsProcessor;
import org.apache.hive.common.util.HiveVersionInfo;
import org.apache.hive.jdbc.Utils.JdbcConnectionParams;
import org.apache.hive.service.cli.operation.ClassicTableTypeMapping;
import org.apache.hive.service.cli.operation.ClassicTableTypeMapping.ClassicTableTypes;
import org.apache.hive.service.cli.operation.HiveTableTypeMapping;
import org.apache.hive.service.cli.operation.TableTypeMappingFactory.TableTypeMappings;
import org.junit.After;
import org.junit.Before;
import org.junit.BeforeClass;
import org.junit.Test;
/**
* TestJdbcDriver2
*
*/
public class TestJdbcDriver2 {
private static final Log LOG = LogFactory.getLog(TestJdbcDriver2.class);
private static final String driverName = "org.apache.hive.jdbc.HiveDriver";
private static final String tableName = "testHiveJdbcDriver_Table";
private static final String tableComment = "Simple table";
private static final String viewName = "testHiveJdbcDriverView";
private static final String viewComment = "Simple view";
private static final String partitionedTableName = "testHiveJdbcDriverPartitionedTable";
private static final String partitionedColumnName = "partcolabc";
private static final String partitionedColumnValue = "20090619";
private static final String partitionedTableComment = "Partitioned table";
private static final String dataTypeTableName = "testdatatypetable";
private static final String dataTypeTableComment = "Table with many column data types";
private final HiveConf conf;
public static String dataFileDir;
private final Path dataFilePath;
private final Path dataTypeDataFilePath;
private Connection con;
private static boolean standAloneServer = false;
private static final float floatCompareDelta = 0.0001f;
public TestJdbcDriver2() {
conf = new HiveConf(TestJdbcDriver2.class);
dataFileDir = conf.get("test.data.files").replace('\\', '/')
.replace("c:", "");
dataFilePath = new Path(dataFileDir, "kv1.txt");
dataTypeDataFilePath = new Path(dataFileDir, "datatypes.txt");
standAloneServer = "true".equals(System
.getProperty("test.service.standalone.server"));
}
@BeforeClass
public static void setUpBeforeClass() throws SQLException, ClassNotFoundException{
Class.forName(driverName);
Connection con1 = getConnection("default");
System.setProperty(ConfVars.HIVE_SERVER2_LOGGING_OPERATION_VERBOSE.varname, "" + true);
Statement stmt1 = con1.createStatement();
assertNotNull("Statement is null", stmt1);
stmt1.execute("set hive.support.concurrency = false");
DatabaseMetaData metadata = con1.getMetaData();
// Drop databases created by other test cases
ResultSet databaseRes = metadata.getSchemas();
while(databaseRes.next()){
String db = databaseRes.getString(1);
if(!db.equals("default")){
System.err.println("Dropping database " + db);
stmt1.execute("DROP DATABASE " + db + " CASCADE");
}
}
stmt1.close();
con1.close();
}
@Before
public void setUp() throws Exception {
con = getConnection("default");
Statement stmt = con.createStatement();
assertNotNull("Statement is null", stmt);
stmt.execute("set hive.support.concurrency = false");
// drop table. ignore error.
try {
stmt.execute("drop table " + tableName);
} catch (Exception ex) {
fail(ex.toString());
}
// create table
stmt.execute("create table " + tableName
+ " (under_col int comment 'the under column', value string) comment '"
+ tableComment + "'");
// load data
stmt.execute("load data local inpath '"
+ dataFilePath.toString() + "' into table " + tableName);
// also initialize a paritioned table to test against.
// drop table. ignore error.
try {
stmt.execute("drop table " + partitionedTableName);
} catch (Exception ex) {
fail(ex.toString());
}
stmt.execute("create table " + partitionedTableName
+ " (under_col int, value string) comment '"+partitionedTableComment
+"' partitioned by (" + partitionedColumnName + " STRING)");
// load data
stmt.execute("load data local inpath '"
+ dataFilePath.toString() + "' into table " + partitionedTableName
+ " PARTITION (" + partitionedColumnName + "="
+ partitionedColumnValue + ")");
// drop table. ignore error.
try {
stmt.execute("drop table " + dataTypeTableName);
} catch (Exception ex) {
fail(ex.toString());
}
stmt.execute("create table " + dataTypeTableName
+ " (c1 int, c2 boolean, c3 double, c4 string,"
+ " c5 array<int>, c6 map<int,string>, c7 map<string,string>,"
+ " c8 struct<r:string,s:int,t:double>,"
+ " c9 tinyint, c10 smallint, c11 float, c12 bigint,"
+ " c13 array<array<string>>,"
+ " c14 map<int, map<int,int>>,"
+ " c15 struct<r:int,s:struct<a:int,b:string>>,"
+ " c16 array<struct<m:map<string,string>,n:int>>,"
+ " c17 timestamp, "
+ " c18 decimal(16,7), "
+ " c19 binary, "
+ " c20 date,"
+ " c21 varchar(20),"
+ " c22 char(15),"
+ " c23 binary"
+ ") comment'" + dataTypeTableComment
+"' partitioned by (dt STRING)");
stmt.execute("load data local inpath '"
+ dataTypeDataFilePath.toString() + "' into table " + dataTypeTableName
+ " PARTITION (dt='20090619')");
// drop view. ignore error.
try {
stmt.execute("drop view " + viewName);
} catch (Exception ex) {
fail(ex.toString());
}
// create view
stmt.execute("create view " + viewName + " comment '"+viewComment
+"' as select * from "+ tableName);
}
private static Connection getConnection(String postfix) throws SQLException {
Connection con1;
if (standAloneServer) {
// get connection
con1 = DriverManager.getConnection("jdbc:hive2://localhost:10000/" + postfix,
"", "");
} else {
con1 = DriverManager.getConnection("jdbc:hive2:///" + postfix, "", "");
}
assertNotNull("Connection is null", con1);
assertFalse("Connection should not be closed", con1.isClosed());
return con1;
}
@After
public void tearDown() throws Exception {
// drop table
Statement stmt = con.createStatement();
assertNotNull("Statement is null", stmt);
stmt.execute("drop table " + tableName);
stmt.execute("drop table " + partitionedTableName);
stmt.execute("drop table " + dataTypeTableName);
con.close();
assertTrue("Connection should be closed", con.isClosed());
Exception expectedException = null;
try {
con.createStatement();
} catch (Exception e) {
expectedException = e;
}
assertNotNull(
"createStatement() on closed connection should throw exception",
expectedException);
}
@Test
public void testBadURL() throws Exception {
checkBadUrl("jdbc:hive2://localhost:10000;principal=test");
checkBadUrl("jdbc:hive2://localhost:10000;" +
"principal=hive/HiveServer2Host@YOUR-REALM.COM");
checkBadUrl("jdbc:hive2://localhost:10000test");
}
private void checkBadUrl(String url) throws SQLException {
try{
DriverManager.getConnection(url, "", "");
fail("Should have thrown JdbcUriParseException but did not ");
} catch(JdbcUriParseException e) {
assertTrue(e.getMessage().contains("Bad URL format"));
}
}
@Test
public void testParentReferences() throws Exception {
/* Test parent references from Statement */
Statement s = this.con.createStatement();
ResultSet rs = s.executeQuery("SELECT * FROM " + dataTypeTableName);
assertTrue(s.getConnection() == this.con);
assertTrue(rs.getStatement() == s);
rs.close();
s.close();
/* Test parent references from PreparedStatement */
PreparedStatement ps = this.con.prepareStatement("SELECT * FROM " + dataTypeTableName);
rs = ps.executeQuery();
assertTrue(ps.getConnection() == this.con);
assertTrue(rs.getStatement() == ps);
rs.close();
ps.close();
/* Test DatabaseMetaData queries which do not have a parent Statement */
DatabaseMetaData md = this.con.getMetaData();
assertTrue(md.getConnection() == this.con);
rs = md.getCatalogs();
assertNull(rs.getStatement());
rs.close();
rs = md.getColumns(null, null, null, null);
assertNull(rs.getStatement());
rs.close();
rs = md.getFunctions(null, null, null);
assertNull(rs.getStatement());
rs.close();
rs = md.getImportedKeys(null, null, null);
assertNull(rs.getStatement());
rs.close();
rs = md.getPrimaryKeys(null, null, null);
assertNull(rs.getStatement());
rs.close();
rs = md.getProcedureColumns(null, null, null, null);
assertNull(rs.getStatement());
rs.close();
rs = md.getProcedures(null, null, null);
assertNull(rs.getStatement());
rs.close();
rs = md.getSchemas();
assertNull(rs.getStatement());
rs.close();
rs = md.getTableTypes();
assertNull(rs.getStatement());
rs.close();
rs = md.getTables(null, null, null, null);
assertNull(rs.getStatement());
rs.close();
rs = md.getTypeInfo();
assertNull(rs.getStatement());
rs.close();
}
@Test
public void testDataTypes2() throws Exception {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery(
"select c5, c1 from " + dataTypeTableName + " order by c1");
ResultSetMetaData meta = res.getMetaData();
// row 1
assertTrue(res.next());
// skip the last (partitioning) column since it is always non-null
for (int i = 1; i < meta.getColumnCount(); i++) {
assertNull(res.getObject(i));
}
}
@Test
public void testErrorDiag() throws SQLException {
Statement stmt = con.createStatement();
// verify syntax error
try {
stmt.executeQuery("select from " + dataTypeTableName);
fail("SQLException is expected");
} catch (SQLException e) {
assertEquals("42000", e.getSQLState());
}
// verify table not fuond error
try {
stmt.executeQuery("select * from nonTable");
fail("SQLException is expected");
} catch (SQLException e) {
assertEquals("42S02", e.getSQLState());
}
// verify invalid column error
try {
stmt.executeQuery("select zzzz from " + dataTypeTableName);
fail("SQLException is expected");
} catch (SQLException e) {
assertEquals("42000", e.getSQLState());
}
}
/**
* verify 'explain ...' resultset
* @throws SQLException
*/
@Test
public void testExplainStmt() throws SQLException {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery(
"explain select c1, c2, c3, c4, c5 as a, c6, c7, c8, c9, c10, c11, c12, " +
"c1*2, sentences(null, null, null) as b, c23 from " + dataTypeTableName + " limit 1");
ResultSetMetaData md = res.getMetaData();
// only one result column
assertEquals(md.getColumnCount(), 1);
// verify the column name
assertEquals(md.getColumnLabel(1), EXPL_COLUMN_NAME);
//verify that there is data in the resultset
assertTrue("Nothing returned explain", res.next());
}
@Test
public void testPrepareStatement() {
String sql = "from (select count(1) from "
+ tableName
+ " where 'not?param?not?param' <> 'not_param??not_param' and ?=? "
+ " and 1=? and 2=? and 3.0=? and 4.0=? and 'test\\'string\"'=? and 5=? and ?=? "
+ " and date '2012-01-01' = date ?"
+ " ) t select '2011-03-25' ddate,'China',true bv, 10 num limit 10";
///////////////////////////////////////////////
//////////////////// correct testcase
//////////////////// executed twice: once with the typed ps setters, once with the generic setObject
//////////////////////////////////////////////
try {
PreparedStatement ps = createPreapredStatementUsingSetXXX(sql);
ResultSet res = ps.executeQuery();
assertPreparedStatementResultAsExpected(res);
ps.close();
ps = createPreapredStatementUsingSetObject(sql);
res = ps.executeQuery();
assertPreparedStatementResultAsExpected(res);
ps.close();
} catch (Exception e) {
e.printStackTrace();
fail(e.toString());
}
///////////////////////////////////////////////
//////////////////// other failure testcases
//////////////////////////////////////////////
// set nothing for prepared sql
Exception expectedException = null;
try {
PreparedStatement ps = con.prepareStatement(sql);
ps.executeQuery();
} catch (Exception e) {
expectedException = e;
}
assertNotNull(
"Execute the un-setted sql statement should throw exception",
expectedException);
// set some of parameters for prepared sql, not all of them.
expectedException = null;
try {
PreparedStatement ps = con.prepareStatement(sql);
ps.setBoolean(1, true);
ps.setBoolean(2, true);
ps.executeQuery();
} catch (Exception e) {
expectedException = e;
}
assertNotNull(
"Execute the invalid setted sql statement should throw exception",
expectedException);
// set the wrong type parameters for prepared sql.
expectedException = null;
try {
PreparedStatement ps = con.prepareStatement(sql);
// wrong type here
ps.setString(1, "wrong");
assertTrue(true);
ResultSet res = ps.executeQuery();
if (!res.next()) {
throw new Exception("there must be a empty result set");
}
} catch (Exception e) {
expectedException = e;
}
assertNotNull(
"Execute the invalid setted sql statement should throw exception",
expectedException);
// setObject to the yet unknown type java.util.Date
expectedException = null;
try {
PreparedStatement ps = con.prepareStatement(sql);
ps.setObject(1, new Date());
ps.executeQuery();
} catch (Exception e) {
expectedException = e;
}
assertNotNull(
"Setting to an unknown type should throw an exception",
expectedException);
}
private PreparedStatement createPreapredStatementUsingSetObject(String sql) throws SQLException {
PreparedStatement ps = con.prepareStatement(sql);
ps.setObject(1, true); //setBoolean
ps.setObject(2, true); //setBoolean
ps.setObject(3, Short.valueOf("1")); //setShort
ps.setObject(4, 2); //setInt
ps.setObject(5, 3f); //setFloat
ps.setObject(6, Double.valueOf(4)); //setDouble
ps.setObject(7, "test'string\""); //setString
ps.setObject(8, 5L); //setLong
ps.setObject(9, (byte) 1); //setByte
ps.setObject(10, (byte) 1); //setByte
ps.setString(11, "2012-01-01"); //setString
ps.setMaxRows(2);
return ps;
}
private PreparedStatement createPreapredStatementUsingSetXXX(String sql) throws SQLException {
PreparedStatement ps = con.prepareStatement(sql);
ps.setBoolean(1, true); //setBoolean
ps.setBoolean(2, true); //setBoolean
ps.setShort(3, Short.valueOf("1")); //setShort
ps.setInt(4, 2); //setInt
ps.setFloat(5, 3f); //setFloat
ps.setDouble(6, Double.valueOf(4)); //setDouble
ps.setString(7, "test'string\""); //setString
ps.setLong(8, 5L); //setLong
ps.setByte(9, (byte) 1); //setByte
ps.setByte(10, (byte) 1); //setByte
ps.setString(11, "2012-01-01"); //setString
ps.setMaxRows(2);
return ps;
}
private void assertPreparedStatementResultAsExpected(ResultSet res ) throws SQLException {
assertNotNull(res);
while (res.next()) {
assertEquals("2011-03-25", res.getString("ddate"));
assertEquals("10", res.getString("num"));
assertEquals((byte) 10, res.getByte("num"));
assertEquals("2011-03-25", res.getDate("ddate").toString());
assertEquals(Double.valueOf(10).doubleValue(), res.getDouble("num"), 0.1);
assertEquals(10, res.getInt("num"));
assertEquals(Short.valueOf("10").shortValue(), res.getShort("num"));
assertEquals(10L, res.getLong("num"));
assertEquals(true, res.getBoolean("bv"));
Object o = res.getObject("ddate");
assertNotNull(o);
o = res.getObject("num");
assertNotNull(o);
}
res.close();
assertTrue(true);
}
/**
* Execute non-select statements using execute() and executeUpdated() APIs
* of PreparedStatement interface
* @throws Exception
*/
@Test
public void testExecutePreparedStatement() throws Exception {
String key = "testKey";
String val1 = "val1";
String val2 = "val2";
PreparedStatement ps = con.prepareStatement("set " + key + " = ?");
// execute() of Prepared statement
ps.setString(1, val1);
ps.execute();
verifyConfValue(con, key, val1);
// executeUpdate() of Prepared statement
ps.clearParameters();
ps.setString(1, val2);
ps.executeUpdate();
verifyConfValue(con, key, val2);
}
@Test
public void testSetOnConnection() throws Exception {
Connection connection = getConnection("test?conf1=conf2;conf3=conf4#var1=var2;var3=var4");
try {
verifyConfValue(connection, "conf1", "conf2");
verifyConfValue(connection, "conf3", "conf4");
verifyConfValue(connection, "var1", "var2");
verifyConfValue(connection, "var3", "var4");
} catch (Exception e) {
connection.close();
}
}
/**
* Execute "set x" and extract value from key=val format result
* Verify the extracted value
* @param key
* @param expectedVal
* @throws Exception
*/
private void verifyConfValue(Connection con, String key, String expectedVal) throws Exception {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery("set " + key);
assertTrue(res.next());
String value = res.getString(1);
String resultValues[] = value.split("="); // "key = 'val'"
assertEquals("Result not in key = val format: " + value, 2, resultValues.length);
if (resultValues[1].startsWith("'") && resultValues[1].endsWith("'")) {
resultValues[1] = resultValues[1].substring(1, resultValues[1].length() -1); // remove '
}
assertEquals("Conf value should be set by execute()", expectedVal, resultValues[1]);
}
@Test
public final void testSelectAll() throws Exception {
doTestSelectAll(tableName, -1, -1); // tests not setting maxRows (return all)
doTestSelectAll(tableName, 0, -1); // tests setting maxRows to 0 (return all)
}
@Test
public final void testSelectAllPartioned() throws Exception {
doTestSelectAll(partitionedTableName, -1, -1); // tests not setting maxRows
// (return all)
doTestSelectAll(partitionedTableName, 0, -1); // tests setting maxRows to 0
// (return all)
}
@Test
public final void testSelectAllMaxRows() throws Exception {
doTestSelectAll(tableName, 100, -1);
}
@Test
public final void testSelectAllFetchSize() throws Exception {
doTestSelectAll(tableName, 100, 20);
}
@Test
public void testNullType() throws Exception {
Statement stmt = con.createStatement();
try {
ResultSet res = stmt.executeQuery("select null from " + dataTypeTableName);
assertTrue(res.next());
assertNull(res.getObject(1));
} finally {
stmt.close();
}
}
// executeQuery should always throw a SQLException,
// when it executes a non-ResultSet query (like create)
@Test
public void testExecuteQueryException() throws Exception {
Statement stmt = con.createStatement();
try {
stmt.executeQuery("create table test_t2 (under_col int, value string)");
fail("Expecting SQLException");
}
catch (SQLException e) {
System.out.println("Caught an expected SQLException: " + e.getMessage());
}
finally {
stmt.close();
}
}
private void checkResultSetExpected(Statement stmt, List<String> setupQueries, String testQuery,
boolean isExpectedResultSet) throws Exception {
boolean hasResultSet;
// execute the setup queries
for(String setupQuery: setupQueries) {
try {
stmt.execute(setupQuery);
} catch (Exception e) {
failWithExceptionMsg(e);
}
}
// execute the test query
try {
hasResultSet = stmt.execute(testQuery);
assertEquals(hasResultSet, isExpectedResultSet);
}
catch(Exception e) {
failWithExceptionMsg(e);
}
}
private void failWithExceptionMsg(Exception e) {
e.printStackTrace();
fail(e.toString());
}
@Test
public void testNullResultSet() throws Exception {
List<String> setupQueries = new ArrayList<String>();
String testQuery;
Statement stmt = con.createStatement();
// -select- should return a ResultSet
try {
stmt.executeQuery("select * from " + tableName);
System.out.println("select: success");
} catch(SQLException e) {
failWithExceptionMsg(e);
}
// -create- should not return a ResultSet
setupQueries.add("drop table test_t1");
testQuery = "create table test_t1 (under_col int, value string)";
checkResultSetExpected(stmt, setupQueries, testQuery, false);
setupQueries.clear();
// -create table as select- should not return a ResultSet
setupQueries.add("drop table test_t1");
testQuery = "create table test_t1 as select * from " + tableName;
checkResultSetExpected(stmt, setupQueries, testQuery, false);
setupQueries.clear();
// -insert table as select- should not return a ResultSet
setupQueries.add("drop table test_t1");
setupQueries.add("create table test_t1 (under_col int, value string)");
testQuery = "insert into table test_t1 select under_col, value from " + tableName;
checkResultSetExpected(stmt, setupQueries, testQuery, false);
setupQueries.clear();
stmt.close();
}
@Test
public void testCloseResultSet() throws Exception {
Statement stmt = con.createStatement();
// execute query, ignore exception if any
ResultSet res = stmt.executeQuery("select * from " + tableName);
// close ResultSet, ignore exception if any
res.close();
// A statement should be open even after ResultSet#close
assertFalse(stmt.isClosed());
// A Statement#cancel after ResultSet#close should be a no-op
try {
stmt.cancel();
} catch(SQLException e) {
failWithExceptionMsg(e);
}
stmt.close();
stmt = con.createStatement();
// execute query, ignore exception if any
res = stmt.executeQuery("select * from " + tableName);
// close ResultSet, ignore exception if any
res.close();
// A Statement#execute after ResultSet#close should be fine too
try {
stmt.executeQuery("select * from " + tableName);
} catch(SQLException e) {
failWithExceptionMsg(e);
}
// A Statement#close after ResultSet#close should close the statement
stmt.close();
assertTrue(stmt.isClosed());
}
@Test
public void testDataTypes() throws Exception {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery(
"select * from " + dataTypeTableName + " order by c1");
ResultSetMetaData meta = res.getMetaData();
// row 1
assertTrue(res.next());
// skip the last (partitioning) column since it is always non-null
for (int i = 1; i < meta.getColumnCount(); i++) {
assertNull("Column " + i + " should be null", res.getObject(i));
}
// getXXX returns 0 for numeric types, false for boolean and null for other
assertEquals(0, res.getInt(1));
assertEquals(false, res.getBoolean(2));
assertEquals(0d, res.getDouble(3), floatCompareDelta);
assertEquals(null, res.getString(4));
assertEquals(null, res.getString(5));
assertEquals(null, res.getString(6));
assertEquals(null, res.getString(7));
assertEquals(null, res.getString(8));
assertEquals(0, res.getByte(9));
assertEquals(0, res.getShort(10));
assertEquals(0f, res.getFloat(11), floatCompareDelta);
assertEquals(0L, res.getLong(12));
assertEquals(null, res.getString(13));
assertEquals(null, res.getString(14));
assertEquals(null, res.getString(15));
assertEquals(null, res.getString(16));
assertEquals(null, res.getString(17));
assertEquals(null, res.getString(18));
assertEquals(null, res.getString(19));
assertEquals(null, res.getString(20));
assertEquals(null, res.getDate(20));
assertEquals(null, res.getString(21));
assertEquals(null, res.getString(22));
// row 2
assertTrue(res.next());
assertEquals(-1, res.getInt(1));
assertEquals(false, res.getBoolean(2));
assertEquals(-1.1d, res.getDouble(3), floatCompareDelta);
assertEquals("", res.getString(4));
assertEquals("[]", res.getString(5));
assertEquals("{}", res.getString(6));
assertEquals("{}", res.getString(7));
assertEquals("{\"r\":null,\"s\":null,\"t\":null}", res.getString(8));
assertEquals(-1, res.getByte(9));
assertEquals(-1, res.getShort(10));
assertEquals(-1.0f, res.getFloat(11), floatCompareDelta);
assertEquals(-1, res.getLong(12));
assertEquals("[]", res.getString(13));
assertEquals("{}", res.getString(14));
assertEquals("{\"r\":null,\"s\":null}", res.getString(15));
assertEquals("[]", res.getString(16));
assertEquals(null, res.getString(17));
assertEquals(null, res.getTimestamp(17));
assertEquals(null, res.getBigDecimal(18));
assertEquals(null, res.getString(19));
assertEquals(null, res.getString(20));
assertEquals(null, res.getDate(20));
assertEquals(null, res.getString(21));
assertEquals(null, res.getString(22));
assertEquals(null, res.getString(23));
// row 3
assertTrue(res.next());
assertEquals(1, res.getInt(1));
assertEquals(true, res.getBoolean(2));
assertEquals(1.1d, res.getDouble(3), floatCompareDelta);
assertEquals("1", res.getString(4));
assertEquals("[1,2]", res.getString(5));
assertEquals("{1:\"x\",2:\"y\"}", res.getString(6));
assertEquals("{\"k\":\"v\"}", res.getString(7));
assertEquals("{\"r\":\"a\",\"s\":9,\"t\":2.2}", res.getString(8));
assertEquals(1, res.getByte(9));
assertEquals(1, res.getShort(10));
assertEquals(1.0f, res.getFloat(11), floatCompareDelta);
assertEquals(1, res.getLong(12));
assertEquals("[[\"a\",\"b\"],[\"c\",\"d\"]]", res.getString(13));
assertEquals("{1:{11:12,13:14},2:{21:22}}", res.getString(14));
assertEquals("{\"r\":1,\"s\":{\"a\":2,\"b\":\"x\"}}", res.getString(15));
assertEquals("[{\"m\":{},\"n\":1},{\"m\":{\"a\":\"b\",\"c\":\"d\"},\"n\":2}]", res.getString(16));
assertEquals("2012-04-22 09:00:00.123456789", res.getString(17));
assertEquals("2012-04-22 09:00:00.123456789", res.getTimestamp(17).toString());
assertEquals("123456789.0123456", res.getBigDecimal(18).toString());
assertEquals("abcd", res.getString(19));
assertEquals("2013-01-01", res.getString(20));
assertEquals("2013-01-01", res.getDate(20).toString());
assertEquals("abc123", res.getString(21));
assertEquals("abc123 ", res.getString(22));
byte[] bytes = "X'01FF'".getBytes("UTF-8");
InputStream resultSetInputStream = res.getBinaryStream(23);
int len = bytes.length;
byte[] b = new byte[len];
resultSetInputStream.read(b, 0, len);
for ( int i = 0; i< len; i++) {
assertEquals(bytes[i], b[i]);
}
// test getBoolean rules on non-boolean columns
assertEquals(true, res.getBoolean(1));
assertEquals(true, res.getBoolean(4));
// test case sensitivity
assertFalse(meta.isCaseSensitive(1));
assertFalse(meta.isCaseSensitive(2));
assertFalse(meta.isCaseSensitive(3));
assertTrue(meta.isCaseSensitive(4));
// no more rows
assertFalse(res.next());
}
private void doTestSelectAll(String tableName, int maxRows, int fetchSize) throws Exception {
boolean isPartitionTable = tableName.equals(partitionedTableName);
Statement stmt = con.createStatement();
if (maxRows >= 0) {
stmt.setMaxRows(maxRows);
}
if (fetchSize > 0) {
stmt.setFetchSize(fetchSize);
assertEquals(fetchSize, stmt.getFetchSize());
}
// JDBC says that 0 means return all, which is the default
int expectedMaxRows = maxRows < 1 ? 0 : maxRows;
assertNotNull("Statement is null", stmt);
assertEquals("Statement max rows not as expected", expectedMaxRows, stmt
.getMaxRows());
assertFalse("Statement should not be closed", stmt.isClosed());
ResultSet res;
// run some queries
res = stmt.executeQuery("select * from " + tableName);
assertNotNull("ResultSet is null", res);
assertTrue("getResultSet() not returning expected ResultSet", res == stmt
.getResultSet());
assertEquals("get update count not as expected", -1, stmt.getUpdateCount());
int i = 0;
ResultSetMetaData meta = res.getMetaData();
int expectedColCount = isPartitionTable ? 3 : 2;
assertEquals(
"Unexpected column count", expectedColCount, meta.getColumnCount());
String colQualifier = ((tableName != null) && !tableName.isEmpty()) ? tableName.toLowerCase() + "." : "";
boolean moreRow = res.next();
while (moreRow) {
try {
i++;
assertEquals(res.getInt(1), res.getInt(colQualifier + "under_col"));
assertEquals(res.getString(1), res.getString(colQualifier + "under_col"));
assertEquals(res.getString(2), res.getString(colQualifier + "value"));
if (isPartitionTable) {
assertEquals(res.getString(3), partitionedColumnValue);
assertEquals(res.getString(3), res.getString(colQualifier + partitionedColumnName));
}
assertFalse("Last result value was not null", res.wasNull());
assertNull("No warnings should be found on ResultSet", res
.getWarnings());
res.clearWarnings(); // verifying that method is supported
// System.out.println(res.getString(1) + " " + res.getString(2));
assertEquals(
"getInt and getString don't align for the same result value",
String.valueOf(res.getInt(1)), res.getString(1));
assertEquals("Unexpected result found", "val_" + res.getString(1), res
.getString(2));
moreRow = res.next();
} catch (SQLException e) {
System.out.println(e.toString());
e.printStackTrace();
throw new Exception(e.toString());
}
}
// supposed to get 500 rows if maxRows isn't set
int expectedRowCount = maxRows > 0 ? maxRows : 500;
assertEquals("Incorrect number of rows returned", expectedRowCount, i);
// should have no more rows
assertEquals(false, moreRow);
assertNull("No warnings should be found on statement", stmt.getWarnings());
stmt.clearWarnings(); // verifying that method is supported
assertNull("No warnings should be found on connection", con.getWarnings());
con.clearWarnings(); // verifying that method is supported
stmt.close();
assertTrue("Statement should be closed", stmt.isClosed());
}
@Test
public void testErrorMessages() throws SQLException {
String invalidSyntaxSQLState = "42000";
// These tests inherently cause exceptions to be written to the test output
// logs. This is undesirable, since you it might appear to someone looking
// at the test output logs as if something is failing when it isn't. Not
// sure
// how to get around that.
doTestErrorCase("SELECTT * FROM " + tableName,
"cannot recognize input near 'SELECTT' '*' 'FROM'",
invalidSyntaxSQLState, 40000);
doTestErrorCase("SELECT * FROM some_table_that_does_not_exist",
"Table not found", "42S02", 10001);
doTestErrorCase("drop table some_table_that_does_not_exist",
"Table not found", "42S02", 10001);
doTestErrorCase("SELECT invalid_column FROM " + tableName,
"Invalid table alias or column reference", invalidSyntaxSQLState, 10004);
doTestErrorCase("SELECT invalid_function(under_col) FROM " + tableName,
"Invalid function", invalidSyntaxSQLState, 10011);
// TODO: execute errors like this currently don't return good error
// codes and messages. This should be fixed.
doTestErrorCase(
"create table " + tableName + " (key int, value string)",
"FAILED: Execution Error, return code 1 from org.apache.hadoop.hive.ql.exec.DDLTask",
"08S01", 1);
}
private void doTestErrorCase(String sql, String expectedMessage,
String expectedSQLState, int expectedErrorCode) throws SQLException {
Statement stmt = con.createStatement();
boolean exceptionFound = false;
try {
stmt.execute(sql);
} catch (SQLException e) {
assertTrue("Adequate error messaging not found for '" + sql + "': "
+ e.getMessage(), e.getMessage().contains(expectedMessage));
assertEquals("Expected SQLState not found for '" + sql + "'",
expectedSQLState, e.getSQLState());
assertEquals("Expected error code not found for '" + sql + "'",
expectedErrorCode, e.getErrorCode());
exceptionFound = true;
}
assertNotNull("Exception should have been thrown for query: " + sql,
exceptionFound);
}
@Test
public void testShowTables() throws SQLException {
Statement stmt = con.createStatement();
assertNotNull("Statement is null", stmt);
ResultSet res = stmt.executeQuery("show tables");
boolean testTableExists = false;
while (res.next()) {
assertNotNull("table name is null in result set", res.getString(1));
if (tableName.equalsIgnoreCase(res.getString(1))) {
testTableExists = true;
}
}
assertTrue("table name " + tableName
+ " not found in SHOW TABLES result set", testTableExists);
}
@Test
public void testMetaDataGetTables() throws SQLException {
getTablesTest(ClassicTableTypes.TABLE.toString(), ClassicTableTypes.VIEW.toString());
}
@Test
public void testMetaDataGetTablesHive() throws SQLException {
Statement stmt = con.createStatement();
stmt.execute("set " + HiveConf.ConfVars.HIVE_SERVER2_TABLE_TYPE_MAPPING.varname +
" = " + TableTypeMappings.HIVE.toString());
getTablesTest(TableType.MANAGED_TABLE.toString(), TableType.VIRTUAL_VIEW.toString());
}
@Test
public void testMetaDataGetTablesClassic() throws SQLException {
Statement stmt = con.createStatement();
stmt.execute("set " + HiveConf.ConfVars.HIVE_SERVER2_TABLE_TYPE_MAPPING.varname +
" = " + TableTypeMappings.CLASSIC.toString());
stmt.close();
getTablesTest(ClassicTableTypes.TABLE.toString(), ClassicTableTypes.VIEW.toString());
}
/**
* Test the type returned for pre-created table type table and view type
* table
* @param tableTypeName expected table type
* @param viewTypeName expected view type
* @throws SQLException
*/
private void getTablesTest(String tableTypeName, String viewTypeName) throws SQLException {
Map<String, Object[]> tests = new HashMap<String, Object[]>();
tests.put("test%jdbc%", new Object[]{"testhivejdbcdriver_table"
, "testhivejdbcdriverpartitionedtable"
, "testhivejdbcdriverview"});
tests.put("%jdbcdriver\\_table", new Object[]{"testhivejdbcdriver_table"});
tests.put("testhivejdbcdriver\\_table", new Object[]{"testhivejdbcdriver_table"});
tests.put("test_ivejdbcdri_er\\_table", new Object[]{"testhivejdbcdriver_table"});
tests.put("test_ivejdbcdri_er_table", new Object[]{"testhivejdbcdriver_table"});
tests.put("test_ivejdbcdri_er%table", new Object[]{
"testhivejdbcdriver_table", "testhivejdbcdriverpartitionedtable" });
tests.put("%jdbc%", new Object[]{ "testhivejdbcdriver_table"
, "testhivejdbcdriverpartitionedtable"
, "testhivejdbcdriverview"});
tests.put("", new Object[]{});
for (String checkPattern: tests.keySet()) {
ResultSet rs = con.getMetaData().getTables("default", null, checkPattern, null);
ResultSetMetaData resMeta = rs.getMetaData();
assertEquals(5, resMeta.getColumnCount());
assertEquals("TABLE_CAT", resMeta.getColumnName(1));
assertEquals("TABLE_SCHEM", resMeta.getColumnName(2));
assertEquals("TABLE_NAME", resMeta.getColumnName(3));
assertEquals("TABLE_TYPE", resMeta.getColumnName(4));
assertEquals("REMARKS", resMeta.getColumnName(5));
int cnt = 0;
while (rs.next()) {
String resultTableName = rs.getString("TABLE_NAME");
assertEquals("Get by index different from get by name.", rs.getString(3), resultTableName);
assertEquals("Excpected a different table.", tests.get(checkPattern)[cnt], resultTableName);
String resultTableComment = rs.getString("REMARKS");
assertTrue("Missing comment on the table.", resultTableComment.length()>0);
String tableType = rs.getString("TABLE_TYPE");
if (resultTableName.endsWith("view")) {
assertEquals("Expected a tabletype view but got something else.", viewTypeName, tableType);
} else {
assertEquals("Expected a tabletype table but got something else.", tableTypeName, tableType);
}
cnt++;
}
rs.close();
assertEquals("Received an incorrect number of tables.", tests.get(checkPattern).length, cnt);
}
// only ask for the views.
ResultSet rs = con.getMetaData().getTables("default", null, null
, new String[]{viewTypeName});
int cnt=0;
while (rs.next()) {
cnt++;
}
rs.close();
assertEquals("Incorrect number of views found.", 1, cnt);
}
@Test
public void testMetaDataGetCatalogs() throws SQLException {
ResultSet rs = con.getMetaData().getCatalogs();
ResultSetMetaData resMeta = rs.getMetaData();
assertEquals(1, resMeta.getColumnCount());
assertEquals("TABLE_CAT", resMeta.getColumnName(1));
assertFalse(rs.next());
}
@Test
public void testMetaDataGetSchemas() throws SQLException {
ResultSet rs = con.getMetaData().getSchemas();
ResultSetMetaData resMeta = rs.getMetaData();
assertEquals(2, resMeta.getColumnCount());
assertEquals("TABLE_SCHEM", resMeta.getColumnName(1));
assertEquals("TABLE_CATALOG", resMeta.getColumnName(2));
assertTrue(rs.next());
assertEquals("default", rs.getString(1));
assertFalse(rs.next());
rs.close();
}
// test default table types returned in
// Connection.getMetaData().getTableTypes()
@Test
public void testMetaDataGetTableTypes() throws SQLException {
metaDataGetTableTypeTest(new ClassicTableTypeMapping().getTableTypeNames());
}
// test default table types returned in
// Connection.getMetaData().getTableTypes() when type config is set to "HIVE"
@Test
public void testMetaDataGetHiveTableTypes() throws SQLException {
Statement stmt = con.createStatement();
stmt.execute("set " + HiveConf.ConfVars.HIVE_SERVER2_TABLE_TYPE_MAPPING.varname +
" = " + TableTypeMappings.HIVE.toString());
stmt.close();
metaDataGetTableTypeTest(new HiveTableTypeMapping().getTableTypeNames());
}
// test default table types returned in
// Connection.getMetaData().getTableTypes() when type config is set to "CLASSIC"
@Test
public void testMetaDataGetClassicTableTypes() throws SQLException {
Statement stmt = con.createStatement();
stmt.execute("set " + HiveConf.ConfVars.HIVE_SERVER2_TABLE_TYPE_MAPPING.varname +
" = " + TableTypeMappings.CLASSIC.toString());
stmt.close();
metaDataGetTableTypeTest(new ClassicTableTypeMapping().getTableTypeNames());
}
/**
* Test if Connection.getMetaData().getTableTypes() returns expected
* tabletypes
* @param tabletypes expected table types
* @throws SQLException
*/
private void metaDataGetTableTypeTest(Set<String> tabletypes)
throws SQLException {
ResultSet rs = con.getMetaData().getTableTypes();
int cnt = 0;
while (rs.next()) {
String tabletype = rs.getString("TABLE_TYPE");
assertEquals("Get by index different from get by name", rs.getString(1), tabletype);
tabletypes.remove(tabletype);
cnt++;
}
rs.close();
assertEquals("Incorrect tabletype count.", 0, tabletypes.size());
assertTrue("Found less tabletypes then we test for.", cnt >= tabletypes.size());
}
@Test
public void testMetaDataGetColumns() throws SQLException {
Map<String[], Integer> tests = new HashMap<String[], Integer>();
tests.put(new String[]{"testhivejdbcdriver\\_table", null}, 2);
tests.put(new String[]{"testhivejdbc%", null}, 7);
tests.put(new String[]{"testhiveJDBC%", null}, 7);
tests.put(new String[]{"%jdbcdriver\\_table", null}, 2);
tests.put(new String[]{"%jdbcdriver\\_table%", "under\\_col"}, 1);
// tests.put(new String[]{"%jdbcdriver\\_table%", "under\\_COL"}, 1);
tests.put(new String[]{"%jdbcdriver\\_table%", "under\\_co_"}, 1);
tests.put(new String[]{"%jdbcdriver\\_table%", "under_col"}, 1);
tests.put(new String[]{"%jdbcdriver\\_table%", "und%"}, 1);
tests.put(new String[]{"%jdbcdriver\\_table%", "%"}, 2);
tests.put(new String[]{"%jdbcdriver\\_table%", "_%"}, 2);
for (String[] checkPattern: tests.keySet()) {
ResultSet rs = con.getMetaData().getColumns(null, null, checkPattern[0],
checkPattern[1]);
// validate the metadata for the getColumns result set
ResultSetMetaData rsmd = rs.getMetaData();
assertEquals("TABLE_CAT", rsmd.getColumnName(1));
int cnt = 0;
while (rs.next()) {
String columnname = rs.getString("COLUMN_NAME");
int ordinalPos = rs.getInt("ORDINAL_POSITION");
switch(cnt) {
case 0:
assertEquals("Wrong column name found", "under_col", columnname);
assertEquals("Wrong ordinal position found", ordinalPos, 1);
break;
case 1:
assertEquals("Wrong column name found", "value", columnname);
assertEquals("Wrong ordinal position found", ordinalPos, 2);
break;
default:
break;
}
cnt++;
}
rs.close();
assertEquals("Found less columns then we test for.", tests.get(checkPattern).intValue(), cnt);
}
}
/**
* Validate the Metadata for the result set of a metadata getColumns call.
*/
@Test
public void testMetaDataGetColumnsMetaData() throws SQLException {
ResultSet rs = con.getMetaData().getColumns(null, null
, "testhivejdbcdriver\\_table", null);
ResultSetMetaData rsmd = rs.getMetaData();
assertEquals("TABLE_CAT", rsmd.getColumnName(1));
assertEquals(Types.VARCHAR, rsmd.getColumnType(1));
assertEquals(Integer.MAX_VALUE, rsmd.getColumnDisplaySize(1));
assertEquals("ORDINAL_POSITION", rsmd.getColumnName(17));
assertEquals(Types.INTEGER, rsmd.getColumnType(17));
assertEquals(11, rsmd.getColumnDisplaySize(17));
}
/*
public void testConversionsBaseResultSet() throws SQLException {
ResultSet rs = new HiveMetaDataResultSet(Arrays.asList("key")
, Arrays.asList("long")
, Arrays.asList(1234, "1234", "abc")) {
private int cnt=1;
public boolean next() throws SQLException {
if (cnt<data.size()) {
row = Arrays.asList(data.get(cnt));
cnt++;
return true;
} else {
return false;
}
}
};
while (rs.next()) {
String key = rs.getString("key");
if ("1234".equals(key)) {
assertEquals("Converting a string column into a long failed.", rs.getLong("key"), 1234L);
assertEquals("Converting a string column into a int failed.", rs.getInt("key"), 1234);
} else if ("abc".equals(key)) {
Object result = null;
Exception expectedException = null;
try {
result = rs.getLong("key");
} catch (SQLException e) {
expectedException = e;
}
assertTrue("Trying to convert 'abc' into a long should not work.", expectedException!=null);
try {
result = rs.getInt("key");
} catch (SQLException e) {
expectedException = e;
}
assertTrue("Trying to convert 'abc' into a int should not work.", expectedException!=null);
}
}
}
*/
@Test
public void testDescribeTable() throws SQLException {
Statement stmt = con.createStatement();
assertNotNull("Statement is null", stmt);
ResultSet res = stmt.executeQuery("describe " + tableName);
res.next();
assertEquals("Column name 'under_col' not found", "under_col", res.getString(1));
assertEquals("Column type 'under_col' for column under_col not found", "int", res
.getString(2));
res.next();
assertEquals("Column name 'value' not found", "value", res.getString(1));
assertEquals("Column type 'string' for column key not found", "string", res
.getString(2));
assertFalse("More results found than expected", res.next());
}
@Test
public void testShowColumns() throws SQLException {
Statement stmt = con.createStatement();
assertNotNull("Statement is null", stmt);
ResultSet res = stmt.executeQuery("show columns in " + tableName);
res.next();
assertEquals("Column name 'under_col' not found",
"under_col", res.getString(1));
res.next();
assertEquals("Column name 'value' not found",
"value", res.getString(1));
assertFalse("More results found than expected", res.next());
}
@Test
public void testDatabaseMetaData() throws SQLException {
DatabaseMetaData meta = con.getMetaData();
assertEquals("Apache Hive", meta.getDatabaseProductName());
assertEquals(HiveVersionInfo.getVersion(), meta.getDatabaseProductVersion());
assertEquals(System.getProperty("hive.version"), meta.getDatabaseProductVersion());
assertTrue("verifying hive version pattern. got " + meta.getDatabaseProductVersion(),
Pattern.matches("\\d+\\.\\d+\\.\\d+.*", meta.getDatabaseProductVersion()) );
assertEquals(DatabaseMetaData.sqlStateSQL99, meta.getSQLStateType());
assertFalse(meta.supportsCatalogsInTableDefinitions());
assertTrue(meta.supportsSchemasInTableDefinitions());
assertTrue(meta.supportsSchemasInDataManipulation());
assertFalse(meta.supportsMultipleResultSets());
assertFalse(meta.supportsStoredProcedures());
assertTrue(meta.supportsAlterTableWithAddColumn());
//-1 indicates malformed version.
assertTrue(meta.getDatabaseMajorVersion() > -1);
assertTrue(meta.getDatabaseMinorVersion() > -1);
}
@Test
public void testResultSetColumnNameCaseInsensitive() throws SQLException {
Statement stmt = con.createStatement();
ResultSet res;
res = stmt.executeQuery("select c1 from " + dataTypeTableName + " limit 1");
try {
int count = 0;
while (res.next()) {
res.findColumn("c1");
res.findColumn("C1");
count++;
}
assertEquals(count, 1);
} catch (Exception e) {
String msg = "Unexpected exception: " + e;
LOG.info(msg, e);
fail(msg);
}
res = stmt.executeQuery("select c1 C1 from " + dataTypeTableName + " limit 1");
try {
int count = 0;
while (res.next()) {
res.findColumn("c1");
res.findColumn("C1");
count++;
}
assertEquals(count, 1);
} catch (Exception e) {
String msg = "Unexpected exception: " + e;
LOG.info(msg, e);
fail(msg);
}
}
@Test
public void testResultSetMetaData() throws SQLException {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery(
"select c1, c2, c3, c4, c5 as a, c6, c7, c8, c9, c10, c11, c12, " +
"c1*2, sentences(null, null, null) as b, c17, c18, c20, c21, c22, c23 from " + dataTypeTableName +
" limit 1");
ResultSetMetaData meta = res.getMetaData();
ResultSet colRS = con.getMetaData().getColumns(null, null,
dataTypeTableName.toLowerCase(), null);
assertEquals(20, meta.getColumnCount());
assertTrue(colRS.next());
assertEquals("c1", meta.getColumnName(1));
assertEquals(Types.INTEGER, meta.getColumnType(1));
assertEquals("int", meta.getColumnTypeName(1));
assertEquals(11, meta.getColumnDisplaySize(1));
assertEquals(10, meta.getPrecision(1));
assertEquals(0, meta.getScale(1));
assertEquals("c1", colRS.getString("COLUMN_NAME"));
assertEquals(Types.INTEGER, colRS.getInt("DATA_TYPE"));
assertEquals("int", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(1), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(1), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c2", meta.getColumnName(2));
assertEquals("boolean", meta.getColumnTypeName(2));
assertEquals(Types.BOOLEAN, meta.getColumnType(2));
assertEquals(1, meta.getColumnDisplaySize(2));
assertEquals(1, meta.getPrecision(2));
assertEquals(0, meta.getScale(2));
assertEquals("c2", colRS.getString("COLUMN_NAME"));
assertEquals(Types.BOOLEAN, colRS.getInt("DATA_TYPE"));
assertEquals("boolean", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getScale(2), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c3", meta.getColumnName(3));
assertEquals(Types.DOUBLE, meta.getColumnType(3));
assertEquals("double", meta.getColumnTypeName(3));
assertEquals(25, meta.getColumnDisplaySize(3));
assertEquals(15, meta.getPrecision(3));
assertEquals(15, meta.getScale(3));
assertEquals("c3", colRS.getString("COLUMN_NAME"));
assertEquals(Types.DOUBLE, colRS.getInt("DATA_TYPE"));
assertEquals("double", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(3), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(3), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c4", meta.getColumnName(4));
assertEquals(Types.VARCHAR, meta.getColumnType(4));
assertEquals("string", meta.getColumnTypeName(4));
assertEquals(Integer.MAX_VALUE, meta.getColumnDisplaySize(4));
assertEquals(Integer.MAX_VALUE, meta.getPrecision(4));
assertEquals(0, meta.getScale(4));
assertEquals("c4", colRS.getString("COLUMN_NAME"));
assertEquals(Types.VARCHAR, colRS.getInt("DATA_TYPE"));
assertEquals("string", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(4), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(4), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("a", meta.getColumnName(5));
assertEquals(Types.ARRAY, meta.getColumnType(5));
assertEquals("array", meta.getColumnTypeName(5));
assertEquals(Integer.MAX_VALUE, meta.getColumnDisplaySize(5));
assertEquals(Integer.MAX_VALUE, meta.getPrecision(5));
assertEquals(0, meta.getScale(5));
assertEquals("c5", colRS.getString("COLUMN_NAME"));
assertEquals(Types.ARRAY, colRS.getInt("DATA_TYPE"));
assertEquals("array<int>", colRS.getString("TYPE_NAME").toLowerCase());
assertTrue(colRS.next());
assertEquals("c6", meta.getColumnName(6));
assertEquals(Types.JAVA_OBJECT, meta.getColumnType(6));
assertEquals("map", meta.getColumnTypeName(6));
assertEquals(Integer.MAX_VALUE, meta.getColumnDisplaySize(6));
assertEquals(Integer.MAX_VALUE, meta.getPrecision(6));
assertEquals(0, meta.getScale(6));
assertEquals("c6", colRS.getString("COLUMN_NAME"));
assertEquals(Types.JAVA_OBJECT, colRS.getInt("DATA_TYPE"));
assertEquals("map<int,string>", colRS.getString("TYPE_NAME").toLowerCase());
assertTrue(colRS.next());
assertEquals("c7", meta.getColumnName(7));
assertEquals(Types.JAVA_OBJECT, meta.getColumnType(7));
assertEquals("map", meta.getColumnTypeName(7));
assertEquals(Integer.MAX_VALUE, meta.getColumnDisplaySize(7));
assertEquals(Integer.MAX_VALUE, meta.getPrecision(7));
assertEquals(0, meta.getScale(7));
assertEquals("c7", colRS.getString("COLUMN_NAME"));
assertEquals(Types.JAVA_OBJECT, colRS.getInt("DATA_TYPE"));
assertEquals("map<string,string>", colRS.getString("TYPE_NAME").toLowerCase());
assertTrue(colRS.next());
assertEquals("c8", meta.getColumnName(8));
assertEquals(Types.STRUCT, meta.getColumnType(8));
assertEquals("struct", meta.getColumnTypeName(8));
assertEquals(Integer.MAX_VALUE, meta.getColumnDisplaySize(8));
assertEquals(Integer.MAX_VALUE, meta.getPrecision(8));
assertEquals(0, meta.getScale(8));
assertEquals("c8", colRS.getString("COLUMN_NAME"));
assertEquals(Types.STRUCT, colRS.getInt("DATA_TYPE"));
assertEquals("struct<r:string,s:int,t:double>", colRS.getString("TYPE_NAME").toLowerCase());
assertTrue(colRS.next());
assertEquals("c9", meta.getColumnName(9));
assertEquals(Types.TINYINT, meta.getColumnType(9));
assertEquals("tinyint", meta.getColumnTypeName(9));
assertEquals(4, meta.getColumnDisplaySize(9));
assertEquals(3, meta.getPrecision(9));
assertEquals(0, meta.getScale(9));
assertEquals("c9", colRS.getString("COLUMN_NAME"));
assertEquals(Types.TINYINT, colRS.getInt("DATA_TYPE"));
assertEquals("tinyint", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(9), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(9), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c10", meta.getColumnName(10));
assertEquals(Types.SMALLINT, meta.getColumnType(10));
assertEquals("smallint", meta.getColumnTypeName(10));
assertEquals(6, meta.getColumnDisplaySize(10));
assertEquals(5, meta.getPrecision(10));
assertEquals(0, meta.getScale(10));
assertEquals("c10", colRS.getString("COLUMN_NAME"));
assertEquals(Types.SMALLINT, colRS.getInt("DATA_TYPE"));
assertEquals("smallint", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(10), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(10), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c11", meta.getColumnName(11));
assertEquals(Types.FLOAT, meta.getColumnType(11));
assertEquals("float", meta.getColumnTypeName(11));
assertEquals(24, meta.getColumnDisplaySize(11));
assertEquals(7, meta.getPrecision(11));
assertEquals(7, meta.getScale(11));
assertEquals("c11", colRS.getString("COLUMN_NAME"));
assertEquals(Types.FLOAT, colRS.getInt("DATA_TYPE"));
assertEquals("float", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(11), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(11), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c12", meta.getColumnName(12));
assertEquals(Types.BIGINT, meta.getColumnType(12));
assertEquals("bigint", meta.getColumnTypeName(12));
assertEquals(20, meta.getColumnDisplaySize(12));
assertEquals(19, meta.getPrecision(12));
assertEquals(0, meta.getScale(12));
assertEquals("c12", colRS.getString("COLUMN_NAME"));
assertEquals(Types.BIGINT, colRS.getInt("DATA_TYPE"));
assertEquals("bigint", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(12), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(12), colRS.getInt("DECIMAL_DIGITS"));
assertEquals("_c12", meta.getColumnName(13));
assertEquals(Types.INTEGER, meta.getColumnType(13));
assertEquals("int", meta.getColumnTypeName(13));
assertEquals(11, meta.getColumnDisplaySize(13));
assertEquals(10, meta.getPrecision(13));
assertEquals(0, meta.getScale(13));
assertEquals("b", meta.getColumnName(14));
assertEquals(Types.ARRAY, meta.getColumnType(14));
assertEquals("array", meta.getColumnTypeName(14));
assertEquals(Integer.MAX_VALUE, meta.getColumnDisplaySize(14));
assertEquals(Integer.MAX_VALUE, meta.getPrecision(14));
assertEquals(0, meta.getScale(14));
// Move the result of getColumns() forward to match the columns of the query
assertTrue(colRS.next()); // c13
assertTrue(colRS.next()); // c14
assertTrue(colRS.next()); // c15
assertTrue(colRS.next()); // c16
assertTrue(colRS.next()); // c17
assertEquals("c17", meta.getColumnName(15));
assertEquals(Types.TIMESTAMP, meta.getColumnType(15));
assertEquals("timestamp", meta.getColumnTypeName(15));
assertEquals(29, meta.getColumnDisplaySize(15));
assertEquals(29, meta.getPrecision(15));
assertEquals(9, meta.getScale(15));
assertEquals("c17", colRS.getString("COLUMN_NAME"));
assertEquals(Types.TIMESTAMP, colRS.getInt("DATA_TYPE"));
assertEquals("timestamp", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(15), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(15), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c18", meta.getColumnName(16));
assertEquals(Types.DECIMAL, meta.getColumnType(16));
assertEquals("decimal", meta.getColumnTypeName(16));
assertEquals(18, meta.getColumnDisplaySize(16));
assertEquals(16, meta.getPrecision(16));
assertEquals(7, meta.getScale(16));
assertEquals("c18", colRS.getString("COLUMN_NAME"));
assertEquals(Types.DECIMAL, colRS.getInt("DATA_TYPE"));
assertEquals("decimal", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(16), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(16), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next()); // skip c19, since not selected by query
assertTrue(colRS.next());
assertEquals("c20", meta.getColumnName(17));
assertEquals(Types.DATE, meta.getColumnType(17));
assertEquals("date", meta.getColumnTypeName(17));
assertEquals(10, meta.getColumnDisplaySize(17));
assertEquals(10, meta.getPrecision(17));
assertEquals(0, meta.getScale(17));
assertEquals("c20", colRS.getString("COLUMN_NAME"));
assertEquals(Types.DATE, colRS.getInt("DATA_TYPE"));
assertEquals("date", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(17), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(17), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c21", meta.getColumnName(18));
assertEquals(Types.VARCHAR, meta.getColumnType(18));
assertEquals("varchar", meta.getColumnTypeName(18));
// varchar columns should have correct display size/precision
assertEquals(20, meta.getColumnDisplaySize(18));
assertEquals(20, meta.getPrecision(18));
assertEquals(0, meta.getScale(18));
assertEquals("c21", colRS.getString("COLUMN_NAME"));
assertEquals(Types.VARCHAR, colRS.getInt("DATA_TYPE"));
assertEquals("varchar", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(18), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(18), colRS.getInt("DECIMAL_DIGITS"));
assertTrue(colRS.next());
assertEquals("c22", meta.getColumnName(19));
assertEquals(Types.CHAR, meta.getColumnType(19));
assertEquals("char", meta.getColumnTypeName(19));
// char columns should have correct display size/precision
assertEquals(15, meta.getColumnDisplaySize(19));
assertEquals(15, meta.getPrecision(19));
assertEquals(0, meta.getScale(19));
assertEquals("c23", meta.getColumnName(20));
assertEquals(Types.BINARY, meta.getColumnType(20));
assertEquals("binary", meta.getColumnTypeName(20));
assertEquals(Integer.MAX_VALUE, meta.getColumnDisplaySize(20));
assertEquals(Integer.MAX_VALUE, meta.getPrecision(20));
assertEquals(0, meta.getScale(20));
assertEquals("c22", colRS.getString("COLUMN_NAME"));
assertEquals(Types.CHAR, colRS.getInt("DATA_TYPE"));
assertEquals("char", colRS.getString("TYPE_NAME").toLowerCase());
assertEquals(meta.getPrecision(19), colRS.getInt("COLUMN_SIZE"));
assertEquals(meta.getScale(19), colRS.getInt("DECIMAL_DIGITS"));
for (int i = 1; i <= meta.getColumnCount(); i++) {
assertFalse(meta.isAutoIncrement(i));
assertFalse(meta.isCurrency(i));
assertEquals(ResultSetMetaData.columnNullable, meta.isNullable(i));
}
}
// [url] [host] [port] [db]
private static final String[][] URL_PROPERTIES = new String[][] {
// binary mode
// For embedded mode, the JDBC uri is of the form:
// jdbc:hive2:///dbName;sess_var_list?hive_conf_list#hive_var_list
// and does not contain host:port string.
// As a result port is parsed to '-1' per the Java URI conventions
{"jdbc:hive2://", "", "", "default"},
{"jdbc:hive2://localhost:10001/default", "localhost", "10001", "default"},
{"jdbc:hive2://localhost/notdefault", "localhost", "10000", "notdefault"},
{"jdbc:hive2://foo:1243", "foo", "1243", "default"},
// http mode
{"jdbc:hive2://server:10002/db;user=foo;password=bar?" +
"hive.server2.transport.mode=http;" +
"hive.server2.thrift.http.path=hs2",
"server", "10002", "db"},
};
@Test
public void testDriverProperties() throws SQLException {
HiveDriver driver = new HiveDriver();
for (String[] testValues : URL_PROPERTIES) {
DriverPropertyInfo[] dpi = driver.getPropertyInfo(testValues[0], null);
assertEquals("unexpected DriverPropertyInfo array size", 3, dpi.length);
assertDpi(dpi[0], "HOST", testValues[1]);
assertDpi(dpi[1], "PORT", testValues[2]);
assertDpi(dpi[2], "DBNAME", testValues[3]);
}
}
private static final String[][] HTTP_URL_PROPERTIES = new String[][] {
{ "jdbc:hive2://server:10002/db;user=foo;password=bar;transportMode=http;httpPath=hs2",
"server", "10002", "db", "http", "hs2" },
{ "jdbc:hive2://server:10000/testdb;user=foo;password=bar;transportMode=binary;httpPath=",
"server", "10000", "testdb", "binary", "" }, };
@Test
public void testParseUrlHttpMode() throws SQLException, JdbcUriParseException,
ZooKeeperHiveClientException {
new HiveDriver();
for (String[] testValues : HTTP_URL_PROPERTIES) {
JdbcConnectionParams params = Utils.parseURL(testValues[0]);
assertEquals(params.getHost(), testValues[1]);
assertEquals(params.getPort(), Integer.parseInt(testValues[2]));
assertEquals(params.getDbName(), testValues[3]);
assertEquals(params.getSessionVars().get("transportMode"), testValues[4]);
assertEquals(params.getSessionVars().get("httpPath"), testValues[5]);
}
}
private static void assertDpi(DriverPropertyInfo dpi, String name,
String value) {
assertEquals("Invalid DriverPropertyInfo name", name, dpi.name);
assertEquals("Invalid DriverPropertyInfo value", value, dpi.value);
assertEquals("Invalid DriverPropertyInfo required", false, dpi.required);
}
/**
* validate schema generated by "set" command
* @throws SQLException
*/
@Test
public void testSetCommand() throws SQLException {
// execute set command
String sql = "set -v";
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery(sql);
// Validate resultset columns
ResultSetMetaData md = res.getMetaData() ;
assertEquals(1, md.getColumnCount());
assertEquals(SET_COLUMN_NAME, md.getColumnLabel(1));
//check if there is data in the resultset
assertTrue("Nothing returned by set -v", res.next());
res.close();
stmt.close();
}
/**
* Validate error on closed resultset
* @throws SQLException
*/
@Test
public void testPostClose() throws SQLException {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery("select * from " + tableName);
assertNotNull("ResultSet is null", res);
res.close();
try { res.getInt(1); fail("Expected SQLException"); }
catch (SQLException e) { }
try { res.getMetaData(); fail("Expected SQLException"); }
catch (SQLException e) { }
try { res.setFetchSize(10); fail("Expected SQLException"); }
catch (SQLException e) { }
}
/*
* The JDBC spec says when you have duplicate column names,
* the first one should be returned.
*/
@Test
public void testDuplicateColumnNameOrder() throws SQLException {
Statement stmt = con.createStatement();
ResultSet rs = stmt.executeQuery("SELECT 1 AS a, 2 AS a from " + tableName);
assertTrue(rs.next());
assertEquals(1, rs.getInt("a"));
rs.close();
}
/**
* Test bad args to getXXX()
* @throws SQLException
*/
@Test
public void testOutOfBoundCols() throws SQLException {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery(
"select * from " + tableName);
// row 1
assertTrue(res.next());
try {
res.getInt(200);
} catch (SQLException e) {
}
try {
res.getInt("zzzz");
} catch (SQLException e) {
}
}
/**
* Verify selecting using builtin UDFs
* @throws SQLException
*/
@Test
public void testBuiltInUDFCol() throws SQLException {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery("select c12, bin(c12) from " + dataTypeTableName
+ " where c1=1");
ResultSetMetaData md = res.getMetaData();
assertEquals(md.getColumnCount(), 2); // only one result column
assertEquals(md.getColumnLabel(2), "_c1" ); // verify the system generated column name
assertTrue(res.next());
assertEquals(res.getLong(1), 1);
assertEquals(res.getString(2), "1");
res.close();
}
/**
* Verify selecting named expression columns
* @throws SQLException
*/
@Test
public void testExprCol() throws SQLException {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery("select c1+1 as col1, length(c4) as len from " + dataTypeTableName
+ " where c1=1");
ResultSetMetaData md = res.getMetaData();
assertEquals(md.getColumnCount(), 2); // only one result column
assertEquals(md.getColumnLabel(1), "col1" ); // verify the column name
assertEquals(md.getColumnLabel(2), "len" ); // verify the column name
assertTrue(res.next());
assertEquals(res.getInt(1), 2);
assertEquals(res.getInt(2), 1);
res.close();
}
/**
* test getProcedureColumns()
* @throws SQLException
*/
@Test
public void testProcCols() throws SQLException {
DatabaseMetaData dbmd = con.getMetaData();
assertNotNull(dbmd);
// currently getProcedureColumns always returns an empty resultset for Hive
ResultSet res = dbmd.getProcedureColumns(null, null, null, null);
ResultSetMetaData md = res.getMetaData();
assertEquals(md.getColumnCount(), 20);
assertFalse(res.next());
}
/**
* test testProccedures()
* @throws SQLException
*/
@Test
public void testProccedures() throws SQLException {
DatabaseMetaData dbmd = con.getMetaData();
assertNotNull(dbmd);
// currently testProccedures always returns an empty resultset for Hive
ResultSet res = dbmd.getProcedures(null, null, null);
ResultSetMetaData md = res.getMetaData();
assertEquals(md.getColumnCount(), 9);
assertFalse(res.next());
}
/**
* test getPrimaryKeys()
* @throws SQLException
*/
@Test
public void testPrimaryKeys() throws SQLException {
DatabaseMetaData dbmd = con.getMetaData();
assertNotNull(dbmd);
// currently getPrimaryKeys always returns an empty resultset for Hive
ResultSet res = dbmd.getPrimaryKeys(null, null, null);
ResultSetMetaData md = res.getMetaData();
assertEquals(md.getColumnCount(), 6);
assertFalse(res.next());
}
/**
* test getImportedKeys()
* @throws SQLException
*/
@Test
public void testImportedKeys() throws SQLException {
DatabaseMetaData dbmd = con.getMetaData();
assertNotNull(dbmd);
// currently getImportedKeys always returns an empty resultset for Hive
ResultSet res = dbmd.getImportedKeys(null, null, null);
ResultSetMetaData md = res.getMetaData();
assertEquals(md.getColumnCount(), 14);
assertFalse(res.next());
}
/**
* If the Driver implementation understands the URL, it will return a Connection object;
* otherwise it returns null
*/
@Test
public void testInvalidURL() throws Exception {
HiveDriver driver = new HiveDriver();
Connection conn = driver.connect("jdbc:derby://localhost:10000/default", new Properties());
assertNull(conn);
}
/**
* Test the cursor repositioning to start of resultset
* @throws Exception
*/
@Test
public void testFetchFirstQuery() throws Exception {
execFetchFirst("select c4, c1 from " + dataTypeTableName + " order by c1", "c4", false);
execFetchFirst("select c4, c1 from " + dataTypeTableName + " order by c1", "c4", true);
}
/**
* Test the cursor repositioning to start of resultset from non-mr query
* @throws Exception
*/
@Test
public void testFetchFirstNonMR() throws Exception {
execFetchFirst("select * from " + dataTypeTableName, dataTypeTableName.toLowerCase() + "." + "c4", false);
}
/**
* Test for cursor repositioning to start of resultset for non-sql commands
* @throws Exception
*/
@Test
public void testFetchFirstSetCmds() throws Exception {
execFetchFirst("set -v", SET_COLUMN_NAME, false);
}
/**
* Test for cursor repositioning to start of resultset for non-sql commands
* @throws Exception
*/
@Test
public void testFetchFirstDfsCmds() throws Exception {
String wareHouseDir = conf.get(HiveConf.ConfVars.METASTOREWAREHOUSE.varname);
execFetchFirst("dfs -ls " + wareHouseDir, DfsProcessor.DFS_RESULT_HEADER, false);
}
/**
* Negative Test for cursor repositioning to start of resultset
* Verify unsupported JDBC resultset attributes
* @throws Exception
*/
@Test
public void testUnsupportedFetchTypes() throws Exception {
try {
con.createStatement(ResultSet.TYPE_SCROLL_SENSITIVE,
ResultSet.CONCUR_READ_ONLY);
fail("createStatement with TYPE_SCROLL_SENSITIVE should fail");
} catch(SQLException e) {
assertEquals("HYC00", e.getSQLState().trim());
}
try {
con.createStatement(ResultSet.TYPE_SCROLL_INSENSITIVE,
ResultSet.CONCUR_UPDATABLE);
fail("createStatement with CONCUR_UPDATABLE should fail");
} catch(SQLException e) {
assertEquals("HYC00", e.getSQLState().trim());
}
}
/**
* Negative Test for cursor repositioning to start of resultset
* Verify unsupported JDBC resultset methods
* @throws Exception
*/
@Test
public void testFetchFirstError() throws Exception {
Statement stmt = con.createStatement();
ResultSet res = stmt.executeQuery("select * from " + tableName);
try {
res.beforeFirst();
fail("beforeFirst() should fail for normal resultset");
} catch (SQLException e) {
assertEquals("Method not supported for TYPE_FORWARD_ONLY resultset", e.getMessage());
}
}
/**
* Read the results locally. Then reset the read position to start and read the
* rows again verify that we get the same results next time.
* @param sqlStmt - SQL statement to execute
* @param colName - columns name to read
* @param oneRowOnly - read and compare only one row from the resultset
* @throws Exception
*/
private void execFetchFirst(String sqlStmt, String colName, boolean oneRowOnly)
throws Exception {
Statement stmt = con.createStatement(ResultSet.TYPE_SCROLL_INSENSITIVE,
ResultSet.CONCUR_READ_ONLY);
ResultSet res = stmt.executeQuery(sqlStmt);
List<String> results = new ArrayList<String> ();
assertTrue(res.isBeforeFirst());
int rowNum = 0;
while (res.next()) {
results.add(res.getString(colName));
assertEquals(++rowNum, res.getRow());
assertFalse(res.isBeforeFirst());
if (oneRowOnly) {
break;
}
}
// reposition at the begining
res.beforeFirst();
assertTrue(res.isBeforeFirst());
rowNum = 0;
while (res.next()) {
// compare the results fetched last time
assertEquals(results.get(rowNum++), res.getString(colName));
assertEquals(rowNum, res.getRow());
assertFalse(res.isBeforeFirst());
if (oneRowOnly) {
break;
}
}
}
@Test
public void testShowGrant() throws SQLException {
Statement stmt = con.createStatement();
stmt.execute("grant select on table " + dataTypeTableName + " to user hive_test_user");
stmt.execute("show grant user hive_test_user on table " + dataTypeTableName);
ResultSet res = stmt.getResultSet();
assertTrue(res.next());
assertEquals("default", res.getString(1));
assertEquals(dataTypeTableName, res.getString(2));
assertEquals("", res.getString(3)); // partition
assertEquals("", res.getString(4)); // column
assertEquals("hive_test_user", res.getString(5));
assertEquals("USER", res.getString(6));
assertEquals("SELECT", res.getString(7));
assertEquals(false, res.getBoolean(8)); // grant option
assertEquals(-1, res.getLong(9));
assertNotNull(res.getString(10)); // grantor
assertFalse(res.next());
res.close();
}
@Test
public void testShowRoleGrant() throws SQLException {
Statement stmt = con.createStatement();
// drop role. ignore error.
try {
stmt.execute("drop role role1");
} catch (Exception ex) {
LOG.warn("Ignoring error during drop role: " + ex);
}
stmt.execute("create role role1");
stmt.execute("grant role role1 to user hive_test_user");
stmt.execute("show role grant user hive_test_user");
ResultSet res = stmt.getResultSet();
assertTrue(res.next());
assertEquals("public", res.getString(1));
assertTrue(res.next());
assertEquals("role1", res.getString(1));
res.close();
}
/**
* Test the cancellation of a query that is running.
* We spawn 2 threads - one running the query and
* the other attempting to cancel.
* We're using a dummy udf to simulate a query,
* that runs for a sufficiently long time.
* @throws Exception
*/
@Test
public void testQueryCancel() throws Exception {
String udfName = SleepUDF.class.getName();
Statement stmt1 = con.createStatement();
stmt1.execute("create temporary function sleepUDF as '" + udfName + "'");
stmt1.close();
final Statement stmt = con.createStatement();
// Thread executing the query
Thread tExecute = new Thread(new Runnable() {
@Override
public void run() {
try {
System.out.println("Executing query: ");
stmt.executeQuery("select sleepUDF(t1.under_col) as u0, t1.under_col as u1, " +
"t2.under_col as u2 from " + tableName + "t1 join " + tableName +
" t2 on t1.under_col = t2.under_col");
fail("Expecting SQLException");
} catch (SQLException e) {
// This thread should throw an exception
assertNotNull(e);
System.out.println(e.toString());
}
}
});
// Thread cancelling the query
Thread tCancel = new Thread(new Runnable() {
@Override
public void run() {
try {
Thread.sleep(1000);
System.out.println("Cancelling query: ");
stmt.cancel();
} catch (Exception e) {
// No-op
}
}
});
tExecute.start();
tCancel.start();
tExecute.join();
tCancel.join();
stmt.close();
}
// A udf which sleeps for 100ms to simulate a long running query
public static class SleepUDF extends UDF {
public Integer evaluate(final Integer value) {
try {
Thread.sleep(100);
} catch (InterruptedException e) {
// No-op
}
return value;
}
}
/**
* Loads data from a table containing non-ascii value column
* Runs a query and compares the return value
* @throws Exception
*/
@Test
public void testNonAsciiReturnValues() throws Exception {
String nonAsciiTableName = "nonAsciiTable";
String nonAsciiString = "Garçu Kôkaku kidôtai";
Path nonAsciiFilePath = new Path(dataFileDir, "non_ascii_tbl.txt");
Statement stmt = con.createStatement();
stmt.execute("set hive.support.concurrency = false");
// Create table
stmt.execute("create table " + nonAsciiTableName + " (key int, value string) " +
"row format delimited fields terminated by '|'");
// Load data
stmt.execute("load data local inpath '"
+ nonAsciiFilePath.toString() + "' into table " + nonAsciiTableName);
ResultSet rs = stmt.executeQuery("select value from " + nonAsciiTableName + " limit 1");
while(rs.next()) {
String resultValue = rs.getString(1);
assertTrue(resultValue.equalsIgnoreCase(nonAsciiString));
}
// Drop table, ignore error.
try {
stmt.execute("drop table " + nonAsciiTableName);
} catch (Exception ex) {
// no-op
}
stmt.close();
}
/**
* Test getting query log method in Jdbc
* @throws Exception
*/
@Test
public void testGetQueryLog() throws Exception {
// Prepare
String[] expectedLogs = {
"Parsing command",
"Parse Completed",
"Starting Semantic Analysis",
"Semantic Analysis Completed",
"Starting command"
};
String sql = "select count(*) from " + tableName;
// Verify the fetched log (from the beginning of log file)
HiveStatement stmt = (HiveStatement)con.createStatement();
assertNotNull("Statement is null", stmt);
stmt.executeQuery(sql);
List<String> logs = stmt.getQueryLog(false, 10000);
stmt.close();
verifyFetchedLog(logs, expectedLogs);
// Verify the fetched log (incrementally)
final HiveStatement statement = (HiveStatement)con.createStatement();
assertNotNull("Statement is null", statement);
statement.setFetchSize(10000);
final List<String> incrementalLogs = new ArrayList<String>();
Runnable logThread = new Runnable() {
@Override
public void run() {
while (statement.hasMoreLogs()) {
try {
incrementalLogs.addAll(statement.getQueryLog());
Thread.sleep(500);
} catch (SQLException e) {
LOG.error("Failed getQueryLog. Error message: " + e.getMessage());
fail("error in getting log thread");
} catch (InterruptedException e) {
LOG.error("Getting log thread is interrupted. Error message: " + e.getMessage());
fail("error in getting log thread");
}
}
}
};
Thread thread = new Thread(logThread);
thread.setDaemon(true);
thread.start();
statement.executeQuery(sql);
thread.interrupt();
thread.join(10000);
// fetch remaining logs
List<String> remainingLogs;
do {
remainingLogs = statement.getQueryLog();
incrementalLogs.addAll(remainingLogs);
} while (remainingLogs.size() > 0);
statement.close();
verifyFetchedLog(incrementalLogs, expectedLogs);
}
private void verifyFetchedLog(List<String> logs, String[] expectedLogs) {
StringBuilder stringBuilder = new StringBuilder();
for (String log : logs) {
stringBuilder.append(log);
}
String accumulatedLogs = stringBuilder.toString();
for (String expectedLog : expectedLogs) {
assertTrue(accumulatedLogs.contains(expectedLog));
}
}
}