use of org.apache.accumulo.core.security.Authorizations in project hive by apache.
the class HiveAccumuloTableInputFormat method configure.
/**
* Configure the underlying AccumuloInputFormat
*
* @param conf
* Job configuration
* @param instance
* Accumulo instance
* @param connector
* Accumulo connector
* @param accumuloParams
* Connection information to the Accumulo instance
* @param columnMapper
* Configuration of Hive to Accumulo columns
* @param iterators
* Any iterators to be configured server-side
* @param ranges
* Accumulo ranges on for the query
* @throws AccumuloSecurityException
* @throws AccumuloException
* @throws SerDeException
*/
protected void configure(JobConf conf, Instance instance, Connector connector, AccumuloConnectionParameters accumuloParams, ColumnMapper columnMapper, List<IteratorSetting> iterators, Collection<Range> ranges) throws AccumuloSecurityException, AccumuloException, SerDeException, IOException {
// Handle implementation of Instance and invoke appropriate InputFormat method
if (instance instanceof MockInstance) {
setMockInstance(conf, instance.getInstanceName());
} else {
setZooKeeperInstance(conf, instance.getInstanceName(), instance.getZooKeepers(), accumuloParams.useSasl());
}
// Set the username/passwd for the Accumulo connection
if (accumuloParams.useSasl()) {
UserGroupInformation ugi = UserGroupInformation.getCurrentUser();
// If we have Kerberos credentials, we should obtain the delegation token
if (ugi.hasKerberosCredentials()) {
Connector conn = accumuloParams.getConnector();
AuthenticationToken token = helper.getDelegationToken(conn);
// Send the DelegationToken down to the Configuration for Accumulo to use
setConnectorInfo(conf, accumuloParams.getAccumuloUserName(), token);
// Convert the Accumulo token in a Hadoop token
Token<? extends TokenIdentifier> accumuloToken = helper.getHadoopToken(token);
log.info("Adding Hadoop Token for Accumulo to Job's Credentials");
// Add the Hadoop token to the JobConf
helper.mergeTokenIntoJobConf(conf, accumuloToken);
if (!ugi.addToken(accumuloToken)) {
throw new IOException("Failed to add Accumulo Token to UGI");
}
}
try {
helper.addTokenFromUserToJobConf(ugi, conf);
} catch (IOException e) {
throw new IOException("Current user did not contain necessary delegation Tokens " + ugi, e);
}
} else {
setConnectorInfo(conf, accumuloParams.getAccumuloUserName(), new PasswordToken(accumuloParams.getAccumuloPassword()));
}
// Read from the given Accumulo table
setInputTableName(conf, accumuloParams.getAccumuloTableName());
// Check Configuration for any user-provided Authorization definition
Authorizations auths = AccumuloSerDeParameters.getAuthorizationsFromConf(conf);
if (null == auths) {
// Default to all of user's authorizations when no configuration is provided
auths = connector.securityOperations().getUserAuthorizations(accumuloParams.getAccumuloUserName());
}
// Implicitly handles users providing invalid authorizations
setScanAuthorizations(conf, auths);
// restrict with any filters found from WHERE predicates.
addIterators(conf, iterators);
// not setting ranges scans the entire table
if (null != ranges) {
log.info("Setting ranges: " + ranges);
setRanges(conf, ranges);
}
// Restrict the set of columns that we want to read from the Accumulo table
HashSet<Pair<Text, Text>> pairs = getPairCollection(columnMapper.getColumnMappings());
if (null != pairs && !pairs.isEmpty()) {
fetchColumns(conf, pairs);
}
}
use of org.apache.accumulo.core.security.Authorizations in project hive by apache.
the class TestHiveAccumuloTableOutputFormat method testWriteMap.
@Test
public void testWriteMap() throws Exception {
Instance inst = new MockInstance(test.getMethodName());
Connector conn = inst.getConnector("root", new PasswordToken(""));
HiveAccumuloTableOutputFormat outputFormat = new HiveAccumuloTableOutputFormat();
String table = test.getMethodName();
conn.tableOperations().create(table);
JobConf conf = new JobConf();
conf.set(AccumuloConnectionParameters.INSTANCE_NAME, inst.getInstanceName());
conf.set(AccumuloConnectionParameters.USER_NAME, "root");
conf.set(AccumuloConnectionParameters.USER_PASS, "");
conf.setBoolean(AccumuloConnectionParameters.USE_MOCK_INSTANCE, true);
conf.set(AccumuloConnectionParameters.TABLE_NAME, test.getMethodName());
FileSystem local = FileSystem.getLocal(conf);
outputFormat.checkOutputSpecs(local, conf);
RecordWriter<Text, Mutation> recordWriter = outputFormat.getRecordWriter(local, conf, null, null);
List<String> names = Arrays.asList("row", "col1");
List<TypeInfo> types = Arrays.<TypeInfo>asList(TypeInfoFactory.stringTypeInfo, TypeInfoFactory.stringTypeInfo);
Properties tableProperties = new Properties();
tableProperties.setProperty(AccumuloSerDeParameters.COLUMN_MAPPINGS, ":rowID,cf:*");
tableProperties.setProperty(serdeConstants.FIELD_DELIM, " ");
tableProperties.setProperty(serdeConstants.LIST_COLUMNS, Joiner.on(',').join(names));
tableProperties.setProperty(serdeConstants.LIST_COLUMN_TYPES, Joiner.on(',').join(types));
AccumuloSerDeParameters accumuloSerDeParams = new AccumuloSerDeParameters(new Configuration(), tableProperties, AccumuloSerDe.class.getSimpleName());
LazySerDeParameters serDeParams = accumuloSerDeParams.getSerDeParameters();
AccumuloRowSerializer serializer = new AccumuloRowSerializer(0, serDeParams, accumuloSerDeParams.getColumnMappings(), AccumuloSerDeParameters.DEFAULT_VISIBILITY_LABEL, accumuloSerDeParams.getRowIdFactory());
TypeInfo stringTypeInfo = TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.STRING_TYPE_NAME);
LazyStringObjectInspector stringOI = (LazyStringObjectInspector) LazyFactory.createLazyObjectInspector(stringTypeInfo, new byte[] { 0 }, 0, serDeParams.getNullSequence(), serDeParams.isEscaped(), serDeParams.getEscapeChar());
LazyMapObjectInspector mapOI = LazyObjectInspectorFactory.getLazySimpleMapObjectInspector(stringOI, stringOI, (byte) ',', (byte) ':', serDeParams.getNullSequence(), serDeParams.isEscaped(), serDeParams.getEscapeChar());
LazySimpleStructObjectInspector structOI = (LazySimpleStructObjectInspector) LazyObjectInspectorFactory.getLazySimpleStructObjectInspector(Arrays.asList("row", "data"), Arrays.asList(stringOI, mapOI), (byte) ' ', serDeParams.getNullSequence(), serDeParams.isLastColumnTakesRest(), serDeParams.isEscaped(), serDeParams.getEscapeChar());
LazyStruct struct = (LazyStruct) LazyFactory.createLazyObject(structOI);
ByteArrayRef bytes = new ByteArrayRef();
bytes.setData("row cq1:value1,cq2:value2".getBytes());
struct.init(bytes, 0, bytes.getData().length);
// Serialize the struct into a mutation
Mutation m = serializer.serialize(struct, structOI);
// Write the mutation
recordWriter.write(new Text(table), m);
// Close the writer
recordWriter.close(null);
Iterator<Entry<Key, Value>> iter = conn.createScanner(table, new Authorizations()).iterator();
Assert.assertTrue("Iterator did not have an element as expected", iter.hasNext());
Entry<Key, Value> entry = iter.next();
Key k = entry.getKey();
Value v = entry.getValue();
Assert.assertEquals("row", k.getRow().toString());
Assert.assertEquals("cf", k.getColumnFamily().toString());
Assert.assertEquals("cq1", k.getColumnQualifier().toString());
Assert.assertEquals(AccumuloSerDeParameters.DEFAULT_VISIBILITY_LABEL, k.getColumnVisibilityParsed());
Assert.assertEquals("value1", new String(v.get()));
Assert.assertTrue("Iterator did not have an element as expected", iter.hasNext());
entry = iter.next();
k = entry.getKey();
v = entry.getValue();
Assert.assertEquals("row", k.getRow().toString());
Assert.assertEquals("cf", k.getColumnFamily().toString());
Assert.assertEquals("cq2", k.getColumnQualifier().toString());
Assert.assertEquals(AccumuloSerDeParameters.DEFAULT_VISIBILITY_LABEL, k.getColumnVisibilityParsed());
Assert.assertEquals("value2", new String(v.get()));
Assert.assertFalse("Iterator unexpectedly had more data", iter.hasNext());
}
use of org.apache.accumulo.core.security.Authorizations in project hive by apache.
the class TestHiveAccumuloTypes method testUtf8Types.
@Test
public void testUtf8Types() throws Exception {
final String tableName = test.getMethodName(), user = "root", pass = "";
MockInstance mockInstance = new MockInstance(test.getMethodName());
Connector conn = mockInstance.getConnector(user, new PasswordToken(pass));
HiveAccumuloTableInputFormat inputformat = new HiveAccumuloTableInputFormat();
JobConf conf = new JobConf();
conf.set(AccumuloSerDeParameters.TABLE_NAME, tableName);
conf.set(AccumuloSerDeParameters.USE_MOCK_INSTANCE, "true");
conf.set(AccumuloSerDeParameters.INSTANCE_NAME, test.getMethodName());
conf.set(AccumuloSerDeParameters.USER_NAME, user);
conf.set(AccumuloSerDeParameters.USER_PASS, pass);
// not used for mock, but
conf.set(AccumuloSerDeParameters.ZOOKEEPERS, "localhost:2181");
// required by input format.
conf.set(AccumuloSerDeParameters.COLUMN_MAPPINGS, AccumuloHiveConstants.ROWID + ",cf:string,cf:boolean,cf:tinyint,cf:smallint,cf:int,cf:bigint" + ",cf:float,cf:double,cf:decimal,cf:date,cf:timestamp,cf:char,cf:varchar");
conf.set(serdeConstants.LIST_COLUMNS, "string,string,boolean,tinyint,smallint,int,bigint,float,double,decimal,date,timestamp,char(4),varchar(7)");
conf.set(serdeConstants.LIST_COLUMN_TYPES, "string,string,boolean,tinyint,smallint,int,bigint,float,double,decimal,date,timestamp,char(4),varchar(7)");
conn.tableOperations().create(tableName);
BatchWriterConfig writerConf = new BatchWriterConfig();
BatchWriter writer = conn.createBatchWriter(tableName, writerConf);
ByteArrayOutputStream baos = new ByteArrayOutputStream();
String cf = "cf";
byte[] cfBytes = cf.getBytes();
ByteArrayRef byteRef = new ByteArrayRef();
Mutation m = new Mutation("row1");
// string
String stringValue = "string";
baos.reset();
JavaStringObjectInspector stringOI = (JavaStringObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.STRING_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, stringOI.create(stringValue), stringOI, false, (byte) 0, null);
m.put(cfBytes, "string".getBytes(), baos.toByteArray());
// boolean
boolean booleanValue = true;
baos.reset();
JavaBooleanObjectInspector booleanOI = (JavaBooleanObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.BOOLEAN_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, booleanOI.create(booleanValue), booleanOI, false, (byte) 0, null);
m.put(cfBytes, "boolean".getBytes(), baos.toByteArray());
// tinyint
byte tinyintValue = -127;
baos.reset();
JavaByteObjectInspector byteOI = (JavaByteObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.TINYINT_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, tinyintValue, byteOI, false, (byte) 0, null);
m.put(cfBytes, "tinyint".getBytes(), baos.toByteArray());
// smallint
short smallintValue = Short.MAX_VALUE;
baos.reset();
JavaShortObjectInspector shortOI = (JavaShortObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.SMALLINT_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, smallintValue, shortOI, false, (byte) 0, null);
m.put(cfBytes, "smallint".getBytes(), baos.toByteArray());
// int
int intValue = Integer.MAX_VALUE;
baos.reset();
JavaIntObjectInspector intOI = (JavaIntObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.INT_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, intValue, intOI, false, (byte) 0, null);
m.put(cfBytes, "int".getBytes(), baos.toByteArray());
// bigint
long bigintValue = Long.MAX_VALUE;
baos.reset();
JavaLongObjectInspector longOI = (JavaLongObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.BIGINT_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, bigintValue, longOI, false, (byte) 0, null);
m.put(cfBytes, "bigint".getBytes(), baos.toByteArray());
// float
float floatValue = Float.MAX_VALUE;
baos.reset();
JavaFloatObjectInspector floatOI = (JavaFloatObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.FLOAT_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, floatValue, floatOI, false, (byte) 0, null);
m.put(cfBytes, "float".getBytes(), baos.toByteArray());
// double
double doubleValue = Double.MAX_VALUE;
baos.reset();
JavaDoubleObjectInspector doubleOI = (JavaDoubleObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.DOUBLE_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, doubleValue, doubleOI, false, (byte) 0, null);
m.put(cfBytes, "double".getBytes(), baos.toByteArray());
// decimal
HiveDecimal decimalValue = HiveDecimal.create("1.23");
baos.reset();
JavaHiveDecimalObjectInspector decimalOI = (JavaHiveDecimalObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(new DecimalTypeInfo(5, 2));
LazyUtils.writePrimitiveUTF8(baos, decimalOI.create(decimalValue), decimalOI, false, (byte) 0, null);
m.put(cfBytes, "decimal".getBytes(), baos.toByteArray());
// date
Date now = new Date(System.currentTimeMillis());
DateWritable dateWritable = new DateWritable(now);
Date dateValue = dateWritable.get();
baos.reset();
JavaDateObjectInspector dateOI = (JavaDateObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.DATE_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, dateOI.create(dateValue), dateOI, false, (byte) 0, null);
m.put(cfBytes, "date".getBytes(), baos.toByteArray());
// timestamp
Timestamp timestampValue = new Timestamp(now.getTime());
baos.reset();
JavaTimestampObjectInspector timestampOI = (JavaTimestampObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.TIMESTAMP_TYPE_NAME));
LazyUtils.writePrimitiveUTF8(baos, timestampOI.create(timestampValue), timestampOI, false, (byte) 0, null);
m.put(cfBytes, "timestamp".getBytes(), baos.toByteArray());
// char
baos.reset();
HiveChar charValue = new HiveChar("char", 4);
JavaHiveCharObjectInspector charOI = (JavaHiveCharObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(new CharTypeInfo(4));
LazyUtils.writePrimitiveUTF8(baos, charOI.create(charValue), charOI, false, (byte) 0, null);
m.put(cfBytes, "char".getBytes(), baos.toByteArray());
// varchar
baos.reset();
HiveVarchar varcharValue = new HiveVarchar("varchar", 7);
JavaHiveVarcharObjectInspector varcharOI = (JavaHiveVarcharObjectInspector) PrimitiveObjectInspectorFactory.getPrimitiveJavaObjectInspector(new VarcharTypeInfo(7));
LazyUtils.writePrimitiveUTF8(baos, varcharOI.create(varcharValue), varcharOI, false, (byte) 0, null);
m.put(cfBytes, "varchar".getBytes(), baos.toByteArray());
writer.addMutation(m);
writer.close();
for (Entry<Key, Value> e : conn.createScanner(tableName, new Authorizations())) {
System.out.println(e);
}
// Create the RecordReader
FileInputFormat.addInputPath(conf, new Path("unused"));
InputSplit[] splits = inputformat.getSplits(conf, 0);
assertEquals(splits.length, 1);
RecordReader<Text, AccumuloHiveRow> reader = inputformat.getRecordReader(splits[0], conf, null);
Text key = reader.createKey();
AccumuloHiveRow value = reader.createValue();
reader.next(key, value);
Assert.assertEquals(13, value.getTuples().size());
// string
Text cfText = new Text(cf), cqHolder = new Text();
cqHolder.set("string");
byte[] valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyStringObjectInspector lazyStringOI = LazyPrimitiveObjectInspectorFactory.getLazyStringObjectInspector(false, (byte) 0);
LazyString lazyString = (LazyString) LazyFactory.createLazyObject(lazyStringOI);
lazyString.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(new Text(stringValue), lazyString.getWritableObject());
// boolean
cqHolder.set("boolean");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyBooleanObjectInspector lazyBooleanOI = (LazyBooleanObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.BOOLEAN_TYPE_NAME));
LazyBoolean lazyBoolean = (LazyBoolean) LazyFactory.createLazyObject(lazyBooleanOI);
lazyBoolean.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(booleanValue, lazyBoolean.getWritableObject().get());
// tinyint
cqHolder.set("tinyint");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyByteObjectInspector lazyByteOI = (LazyByteObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.TINYINT_TYPE_NAME));
LazyByte lazyByte = (LazyByte) LazyFactory.createLazyObject(lazyByteOI);
lazyByte.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(tinyintValue, lazyByte.getWritableObject().get());
// smallint
cqHolder.set("smallint");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyShortObjectInspector lazyShortOI = (LazyShortObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.SMALLINT_TYPE_NAME));
LazyShort lazyShort = (LazyShort) LazyFactory.createLazyObject(lazyShortOI);
lazyShort.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(smallintValue, lazyShort.getWritableObject().get());
// int
cqHolder.set("int");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyIntObjectInspector lazyIntOI = (LazyIntObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.INT_TYPE_NAME));
LazyInteger lazyInt = (LazyInteger) LazyFactory.createLazyObject(lazyIntOI);
lazyInt.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(intValue, lazyInt.getWritableObject().get());
// bigint
cqHolder.set("bigint");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyLongObjectInspector lazyLongOI = (LazyLongObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.BIGINT_TYPE_NAME));
LazyLong lazyLong = (LazyLong) LazyFactory.createLazyObject(lazyLongOI);
lazyLong.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(bigintValue, lazyLong.getWritableObject().get());
// float
cqHolder.set("float");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyFloatObjectInspector lazyFloatOI = (LazyFloatObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.FLOAT_TYPE_NAME));
LazyFloat lazyFloat = (LazyFloat) LazyFactory.createLazyObject(lazyFloatOI);
lazyFloat.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(floatValue, lazyFloat.getWritableObject().get(), 0);
// double
cqHolder.set("double");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyDoubleObjectInspector lazyDoubleOI = (LazyDoubleObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.DOUBLE_TYPE_NAME));
LazyDouble lazyDouble = (LazyDouble) LazyFactory.createLazyObject(lazyDoubleOI);
lazyDouble.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(doubleValue, lazyDouble.getWritableObject().get(), 0);
// decimal
cqHolder.set("decimal");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyHiveDecimalObjectInspector lazyDecimalOI = (LazyHiveDecimalObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(new DecimalTypeInfo(5, 2));
LazyHiveDecimal lazyDecimal = (LazyHiveDecimal) LazyFactory.createLazyObject(lazyDecimalOI);
lazyDecimal.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(decimalValue, lazyDecimal.getWritableObject().getHiveDecimal());
// date
cqHolder.set("date");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyDateObjectInspector lazyDateOI = (LazyDateObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.DATE_TYPE_NAME));
LazyDate lazyDate = (LazyDate) LazyFactory.createLazyObject(lazyDateOI);
lazyDate.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(dateValue, lazyDate.getWritableObject().get());
// timestamp
cqHolder.set("timestamp");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyTimestampObjectInspector lazyTimestampOI = (LazyTimestampObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(TypeInfoFactory.getPrimitiveTypeInfo(serdeConstants.TIMESTAMP_TYPE_NAME));
LazyTimestamp lazyTimestamp = (LazyTimestamp) LazyFactory.createLazyObject(lazyTimestampOI);
lazyTimestamp.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(timestampValue, lazyTimestamp.getWritableObject().getTimestamp());
// char
cqHolder.set("char");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyHiveCharObjectInspector lazyCharOI = (LazyHiveCharObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(new CharTypeInfo(4));
LazyHiveChar lazyChar = (LazyHiveChar) LazyFactory.createLazyObject(lazyCharOI);
lazyChar.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(charValue, lazyChar.getWritableObject().getHiveChar());
// varchar
cqHolder.set("varchar");
valueBytes = value.getValue(cfText, cqHolder);
Assert.assertNotNull(valueBytes);
byteRef.setData(valueBytes);
LazyHiveVarcharObjectInspector lazyVarcharOI = (LazyHiveVarcharObjectInspector) LazyPrimitiveObjectInspectorFactory.getLazyObjectInspector(new VarcharTypeInfo(7));
LazyHiveVarchar lazyVarchar = (LazyHiveVarchar) LazyFactory.createLazyObject(lazyVarcharOI);
lazyVarchar.init(byteRef, 0, valueBytes.length);
Assert.assertEquals(varcharValue.toString(), lazyVarchar.getWritableObject().getHiveVarchar().toString());
}
use of org.apache.accumulo.core.security.Authorizations in project Gaffer by gchq.
the class RowIdAggregatorTest method testAggregatingMultiplePropertySetsAcrossRowIDRange.
private void testAggregatingMultiplePropertySetsAcrossRowIDRange(final AccumuloStore store, final AccumuloElementConverter elementConverter) throws StoreException, AccumuloElementConversionException, RangeFactoryException {
String visibilityString = "public";
try {
// Create table
// (this method creates the table, removes the versioning iterator, and adds the SetOfStatisticsCombiner iterator).
TableUtils.createTable(store);
final Properties properties1 = new Properties();
properties1.put(AccumuloPropertyNames.COUNT, 1);
final Properties properties2 = new Properties();
properties2.put(AccumuloPropertyNames.COUNT, 1);
final Properties properties3 = new Properties();
properties3.put(AccumuloPropertyNames.COUNT, 2);
// Create edge
final Edge edge = new Edge(TestGroups.EDGE);
edge.setSource("2");
edge.setDestination("1");
edge.setDirected(true);
edge.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 1);
edge.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge.putProperty(AccumuloPropertyNames.PROP_4, 0);
final Edge edge2 = new Edge(TestGroups.EDGE);
edge2.setSource("B");
edge2.setDestination("Z");
edge2.setDirected(true);
edge2.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 1);
edge2.putProperty(AccumuloPropertyNames.PROP_1, 1);
edge2.putProperty(AccumuloPropertyNames.PROP_2, 1);
edge2.putProperty(AccumuloPropertyNames.PROP_3, 1);
edge2.putProperty(AccumuloPropertyNames.PROP_4, 1);
final Edge edge3 = new Edge(TestGroups.EDGE);
edge3.setSource("3");
edge3.setDestination("8");
edge3.setDirected(true);
edge3.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 1);
edge3.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge3.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge3.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge3.putProperty(AccumuloPropertyNames.PROP_4, 0);
final Edge edge6 = new Edge("BasicEdge2");
edge6.setSource("1");
edge6.setDestination("5");
edge6.setDirected(true);
edge6.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 2);
edge6.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge6.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge6.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge6.putProperty(AccumuloPropertyNames.PROP_4, 0);
final Edge edge7 = new Edge("BasicEdge2");
edge7.setSource("2");
edge7.setDestination("6");
edge7.setDirected(true);
edge7.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 1);
edge7.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge7.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge7.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge7.putProperty(AccumuloPropertyNames.PROP_4, 0);
final Edge edge8 = new Edge("BasicEdge2");
edge8.setSource("4");
edge8.setDestination("8");
edge8.setDirected(true);
edge8.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 2);
edge8.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge8.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge8.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge8.putProperty(AccumuloPropertyNames.PROP_4, 0);
final Edge edge9 = new Edge("BasicEdge2");
edge9.setSource("5");
edge9.setDestination("9");
edge9.setDirected(true);
edge9.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 2);
edge9.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge9.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge9.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge9.putProperty(AccumuloPropertyNames.PROP_4, 0);
// Accumulo key
final Key key = elementConverter.getKeysFromEdge(edge).getFirst();
final Key key2 = elementConverter.getKeysFromEdge(edge2).getFirst();
final Key key3 = elementConverter.getKeysFromEdge(edge3).getFirst();
final Key key4 = elementConverter.getKeysFromEdge(edge6).getFirst();
final Key key5 = elementConverter.getKeysFromEdge(edge7).getFirst();
final Key key6 = elementConverter.getKeysFromEdge(edge8).getFirst();
final Key key7 = elementConverter.getKeysFromEdge(edge9).getFirst();
// Accumulo values
final Value value1 = elementConverter.getValueFromProperties(TestGroups.EDGE, properties1);
final Value value2 = elementConverter.getValueFromProperties(TestGroups.EDGE, properties2);
final Value value3 = elementConverter.getValueFromProperties(TestGroups.EDGE, properties3);
final Value value4 = elementConverter.getValueFromProperties(TestGroups.EDGE_2, properties1);
final Value value5 = elementConverter.getValueFromProperties(TestGroups.EDGE_2, properties2);
//Create mutation
final Mutation m1 = new Mutation(key.getRow());
m1.put(key.getColumnFamily(), key.getColumnQualifier(), new ColumnVisibility(key.getColumnVisibility()), key.getTimestamp(), value1);
final Mutation m2 = new Mutation(key.getRow());
m2.put(key.getColumnFamily(), key.getColumnQualifier(), new ColumnVisibility(key.getColumnVisibility()), key.getTimestamp(), value2);
final Mutation m3 = new Mutation(key.getRow());
m3.put(key.getColumnFamily(), key.getColumnQualifier(), new ColumnVisibility(key.getColumnVisibility()), key.getTimestamp(), value3);
final Mutation m4 = new Mutation(key2.getRow());
m4.put(key2.getColumnFamily(), key2.getColumnQualifier(), new ColumnVisibility(key2.getColumnVisibility()), key2.getTimestamp(), value1);
final Mutation m5 = new Mutation(key.getRow());
m5.put(key3.getColumnFamily(), key3.getColumnQualifier(), new ColumnVisibility(key3.getColumnVisibility()), key3.getTimestamp(), value1);
final Mutation m6 = new Mutation(key4.getRow());
m6.put(key4.getColumnFamily(), key4.getColumnQualifier(), new ColumnVisibility(key4.getColumnVisibility()), key4.getTimestamp(), value4);
final Mutation m7 = new Mutation(key5.getRow());
m7.put(key5.getColumnFamily(), key5.getColumnQualifier(), new ColumnVisibility(key5.getColumnVisibility()), key5.getTimestamp(), value5);
final Mutation m8 = new Mutation(key6.getRow());
m8.put(key6.getColumnFamily(), key6.getColumnQualifier(), new ColumnVisibility(key6.getColumnVisibility()), key6.getTimestamp(), value5);
final Mutation m9 = new Mutation(key7.getRow());
m9.put(key7.getColumnFamily(), key7.getColumnQualifier(), new ColumnVisibility(key7.getColumnVisibility()), key7.getTimestamp(), value5);
// Write mutation
final BatchWriterConfig writerConfig = new BatchWriterConfig();
writerConfig.setMaxMemory(1000000L);
writerConfig.setMaxLatency(1000L, TimeUnit.MILLISECONDS);
writerConfig.setMaxWriteThreads(1);
final BatchWriter writer = store.getConnection().createBatchWriter(store.getProperties().getTable(), writerConfig);
writer.addMutation(m1);
writer.addMutation(m2);
writer.addMutation(m3);
writer.addMutation(m4);
writer.addMutation(m5);
writer.addMutation(m6);
writer.addMutation(m7);
writer.addMutation(m8);
writer.addMutation(m9);
writer.close();
// Read data back and check we get one merged element
final Authorizations authorizations = new Authorizations(visibilityString);
final BatchScanner scanner = store.getConnection().createBatchScanner(store.getProperties().getTable(), authorizations, 1000);
try {
scanner.addScanIterator(store.getKeyPackage().getIteratorFactory().getRowIDAggregatorIteratorSetting(store, "BasicEdge2"));
} catch (IteratorSettingException e) {
fail(e.getMessage());
}
final RangeFactory rangeF = store.getKeyPackage().getRangeFactory();
final Range r = rangeF.getRangeFromPair(new Pair<ElementSeed>((new EntitySeed("1")), new EntitySeed("4")), new SummariseGroupOverRanges());
final Range r2 = rangeF.getRangeFromPair(new Pair<ElementSeed>((new EntitySeed("5")), new EntitySeed("5")), new SummariseGroupOverRanges());
scanner.setRanges(Arrays.asList(r, r2));
final Iterator<Entry<Key, Value>> it = scanner.iterator();
Entry<Key, Value> entry = it.next();
Element readEdge = elementConverter.getFullElement(entry.getKey(), entry.getValue());
Edge expectedEdge = new Edge("BasicEdge2");
expectedEdge.setSource("4");
expectedEdge.setDestination("8");
expectedEdge.setDirected(true);
expectedEdge.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 5);
expectedEdge.putProperty(AccumuloPropertyNames.COUNT, 3);
assertEquals(expectedEdge, readEdge);
assertEquals(5, readEdge.getProperty(AccumuloPropertyNames.COLUMN_QUALIFIER));
assertEquals(3, readEdge.getProperty(AccumuloPropertyNames.COUNT));
// Check we get the Result of the second provided range
assertTrue(it.hasNext());
entry = it.next();
readEdge = elementConverter.getFullElement(entry.getKey(), entry.getValue());
expectedEdge = new Edge("BasicEdge2");
expectedEdge.setSource("5");
expectedEdge.setDestination("9");
expectedEdge.setDirected(true);
expectedEdge.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 2);
expectedEdge.putProperty(AccumuloPropertyNames.COUNT, 1);
assertEquals(expectedEdge, readEdge);
//Check no additional rows are found. (For a table of this size we shouldn't see this)
if (it.hasNext()) {
fail("Additional row found.");
}
} catch (AccumuloException | TableExistsException | TableNotFoundException e) {
fail(this.getClass().getSimpleName() + " failed with exception: " + e);
}
}
use of org.apache.accumulo.core.security.Authorizations in project Gaffer by gchq.
the class CoreKeyGroupByAggregatorIteratorTest method testAggregatingEmptyColumnQualifier.
public void testAggregatingEmptyColumnQualifier(final AccumuloStore store, final AccumuloElementConverter elementConverter) throws StoreException, AccumuloElementConversionException {
final String visibilityString = "public";
try {
// Create edge
final Edge edge = new Edge(TestGroups.EDGE);
edge.setSource("1");
edge.setDestination("2");
edge.setDirected(true);
edge.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 8);
edge.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge.putProperty(AccumuloPropertyNames.PROP_4, 0);
edge.putProperty(AccumuloPropertyNames.COUNT, 1);
//THIS EDGE WILL BE REDUCED MEANING ITS CQ (columnQualifier) will only occur once because its key is equal.
final Edge edge2 = new Edge(TestGroups.EDGE);
edge2.setSource("1");
edge2.setDestination("2");
edge2.setDirected(true);
edge2.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge2.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge2.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge2.putProperty(AccumuloPropertyNames.PROP_4, 0);
edge2.putProperty(AccumuloPropertyNames.COUNT, 2);
final Edge edge3 = new Edge(TestGroups.EDGE);
edge3.setSource("1");
edge3.setDestination("2");
edge3.setDirected(true);
edge3.putProperty(AccumuloPropertyNames.PROP_1, 0);
edge3.putProperty(AccumuloPropertyNames.PROP_2, 0);
edge3.putProperty(AccumuloPropertyNames.PROP_3, 0);
edge3.putProperty(AccumuloPropertyNames.PROP_4, 0);
edge3.putProperty(AccumuloPropertyNames.COUNT, 10);
// Accumulo key
final Key key = elementConverter.getKeysFromEdge(edge).getFirst();
final Key key2 = elementConverter.getKeysFromEdge(edge2).getFirst();
final Key key3 = elementConverter.getKeysFromEdge(edge3).getFirst();
// Accumulo values
final Value value1 = elementConverter.getValueFromProperties(TestGroups.EDGE, edge.getProperties());
final Value value2 = elementConverter.getValueFromProperties(TestGroups.EDGE, edge2.getProperties());
final Value value3 = elementConverter.getValueFromProperties(TestGroups.EDGE, edge3.getProperties());
// Create mutation
final Mutation m1 = new Mutation(key.getRow());
m1.put(key.getColumnFamily(), key.getColumnQualifier(), new ColumnVisibility(key.getColumnVisibility()), key.getTimestamp(), value1);
final Mutation m2 = new Mutation(key.getRow());
m2.put(key.getColumnFamily(), key.getColumnQualifier(), new ColumnVisibility(key.getColumnVisibility()), key.getTimestamp(), value2);
final Mutation m3 = new Mutation(key.getRow());
m3.put(key.getColumnFamily(), key.getColumnQualifier(), new ColumnVisibility(key.getColumnVisibility()), key.getTimestamp(), value3);
final Mutation m4 = new Mutation(key2.getRow());
m4.put(key2.getColumnFamily(), key2.getColumnQualifier(), new ColumnVisibility(key2.getColumnVisibility()), key2.getTimestamp(), value1);
final Mutation m5 = new Mutation(key.getRow());
m5.put(key3.getColumnFamily(), key3.getColumnQualifier(), new ColumnVisibility(key3.getColumnVisibility()), key3.getTimestamp(), value1);
// Write mutation
final BatchWriterConfig writerConfig = new BatchWriterConfig();
writerConfig.setMaxMemory(1000000L);
writerConfig.setMaxLatency(1000L, TimeUnit.MILLISECONDS);
writerConfig.setMaxWriteThreads(1);
final BatchWriter writer = store.getConnection().createBatchWriter(store.getProperties().getTable(), writerConfig);
writer.addMutation(m1);
writer.addMutation(m2);
writer.addMutation(m3);
writer.addMutation(m4);
writer.addMutation(m5);
writer.close();
Edge expectedEdge = new Edge(TestGroups.EDGE);
expectedEdge.setSource("1");
expectedEdge.setDestination("2");
expectedEdge.setDirected(true);
expectedEdge.putProperty(AccumuloPropertyNames.COLUMN_QUALIFIER, 8);
expectedEdge.putProperty(AccumuloPropertyNames.COUNT, 15);
expectedEdge.putProperty(AccumuloPropertyNames.PROP_1, 0);
expectedEdge.putProperty(AccumuloPropertyNames.PROP_2, 0);
expectedEdge.putProperty(AccumuloPropertyNames.PROP_3, 0);
expectedEdge.putProperty(AccumuloPropertyNames.PROP_4, 0);
// Read data back and check we get one merged element
final Authorizations authorizations = new Authorizations(visibilityString);
final Scanner scanner = store.getConnection().createScanner(store.getProperties().getTable(), authorizations);
final IteratorSetting iteratorSetting = new IteratorSettingBuilder(AccumuloStoreConstants.COLUMN_QUALIFIER_AGGREGATOR_ITERATOR_PRIORITY, "KeyCombiner", CoreKeyGroupByAggregatorIterator.class).all().view(new View.Builder().edge(TestGroups.EDGE, new ViewElementDefinition.Builder().groupBy().build()).build()).schema(store.getSchema()).keyConverter(store.getKeyPackage().getKeyConverter()).build();
scanner.addScanIterator(iteratorSetting);
final Iterator<Entry<Key, Value>> it = scanner.iterator();
final Entry<Key, Value> entry = it.next();
final Element readEdge = elementConverter.getFullElement(entry.getKey(), entry.getValue());
assertEquals(expectedEdge, readEdge);
assertEquals(8, readEdge.getProperty(AccumuloPropertyNames.COLUMN_QUALIFIER));
assertEquals(15, readEdge.getProperty(AccumuloPropertyNames.COUNT));
// Check no more entries
if (it.hasNext()) {
fail("Additional row found.");
}
} catch (AccumuloException | TableNotFoundException e) {
fail(this.getClass().getSimpleName() + " failed with exception: " + e);
}
}
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