public static Object getOriginalValueFromColumnValue( ByteBuffer byteBuffer, AttributeType attributeType) throws IOException { switch (attributeType) { case BOOL: { return booleanSerializer.fromByteBuffer(byteBuffer); } case INT: { return integerSerializer.fromByteBuffer(byteBuffer); } case DOUBLE: { return doubleSerializer.fromByteBuffer(byteBuffer); } case FLOAT: { return floatSerializer.fromByteBuffer(byteBuffer); } case LONG: { return longSerializer.fromByteBuffer(byteBuffer); } case STRING: { return stringSerializer.fromByteBuffer(byteBuffer); } } return null; }
public void setFloat(N columnName, Float value) { addInsertion(columnName, value, FloatSerializer.get(), globalTtl); }
public void setFloat(N columnName, Float value, int ttl) { addInsertion(columnName, value, FloatSerializer.get(), ttl); }
/** * Copyright (c) WSO2 Inc. (http://www.wso2.org) All Rights Reserved. * * <p>Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of the License at * * <p>http://www.apache.org/licenses/LICENSE-2.0 * * <p>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. */ public class CassandraSDSUtils { public static String convertStreamNameToCFName(String streamName) { if (streamName == null) { return null; } int keySpaceLength = KeySpaceUtils.getKeySpaceName().length(); if ((streamName.length() + keySpaceLength) > 48) { throw new RuntimeException( "The stream name you provided is too long. This has caused the" + " generated key (\"" + streamName + "\") to go " + "beyond the allowed characters. of " + (48 - keySpaceLength)); } return streamName.replace(":", "_").replace(".", "_"); } public static long getLong(ByteBuffer byteBuffer) throws IOException { return longSerializer.fromByteBuffer(byteBuffer); } public static String getString(ByteBuffer byteBuffer) throws IOException { return stringSerializer.fromByteBuffer(byteBuffer); } private static final StringSerializer stringSerializer = StringSerializer.get(); private static final IntegerSerializer integerSerializer = IntegerSerializer.get(); private static final LongSerializer longSerializer = LongSerializer.get(); private static final BooleanSerializer booleanSerializer = BooleanSerializer.get(); private static final FloatSerializer floatSerializer = FloatSerializer.get(); private static final DoubleSerializer doubleSerializer = DoubleSerializer.get(); public static Object getOriginalValueFromColumnValue( ByteBuffer byteBuffer, AttributeType attributeType) throws IOException { switch (attributeType) { case BOOL: { return booleanSerializer.fromByteBuffer(byteBuffer); } case INT: { return integerSerializer.fromByteBuffer(byteBuffer); } case DOUBLE: { return doubleSerializer.fromByteBuffer(byteBuffer); } case FLOAT: { return floatSerializer.fromByteBuffer(byteBuffer); } case LONG: { return longSerializer.fromByteBuffer(byteBuffer); } case STRING: { return stringSerializer.fromByteBuffer(byteBuffer); } } return null; } public static String getColumnName(DataType dataType, Attribute attribute) { return dataType.name() + "_" + attribute.getName(); } public static String createRowKey(long timestamp, String ip, int port, int count) { return timestamp + "::" + ip + "::" + port + "::" + count; } }
/** * Parent class of Composite and DynamicComposite. Acts as a list of objects that get serialized * into a composite column name. Unless setAutoDeserialize(true) is called, it's going to try to * match serializers to Cassandra comparator types. * * @author edanuff */ @SuppressWarnings("rawtypes") public abstract class AbstractComposite extends AbstractList<Object> implements Comparable<AbstractComposite> { public static Logger log = LoggerFactory.getLogger(AbstractComposite.class); public enum ComponentEquality { LESS_THAN_EQUAL((byte) -1), EQUAL((byte) 0), GREATER_THAN_EQUAL((byte) 1); private final byte equality; ComponentEquality(byte equality) { this.equality = equality; } public byte toByte() { return equality; } public static ComponentEquality fromByte(byte equality) { if (equality > 0) { return GREATER_THAN_EQUAL; } if (equality < 0) { return LESS_THAN_EQUAL; } return EQUAL; } } public static final BiMap<Class<? extends Serializer>, String> DEFAULT_SERIALIZER_TO_COMPARATOR_MAPPING = new ImmutableBiMap.Builder<Class<? extends Serializer>, String>() .put(AsciiSerializer.class, AsciiSerializer.get().getComparatorType().getTypeName()) .put( BigIntegerSerializer.class, BigIntegerSerializer.get().getComparatorType().getTypeName()) .put( ByteBufferSerializer.class, ByteBufferSerializer.get().getComparatorType().getTypeName()) .put(LongSerializer.class, LongSerializer.get().getComparatorType().getTypeName()) .put(StringSerializer.class, StringSerializer.get().getComparatorType().getTypeName()) .put(FloatSerializer.class, FloatSerializer.get().getComparatorType().getTypeName()) .put(UUIDSerializer.class, UUIDSerializer.get().getComparatorType().getTypeName()) .build(); static final ImmutableClassToInstanceMap<Serializer> SERIALIZERS = new ImmutableClassToInstanceMap.Builder<Serializer>() .put(AsciiSerializer.class, AsciiSerializer.get()) .put(BigIntegerSerializer.class, BigIntegerSerializer.get()) .put(ByteBufferSerializer.class, ByteBufferSerializer.get()) .put(FloatSerializer.class, FloatSerializer.get()) .put(LongSerializer.class, LongSerializer.get()) .put(StringSerializer.class, StringSerializer.get()) .put(UUIDSerializer.class, UUIDSerializer.get()) .build(); public static final BiMap<Byte, String> DEFAULT_ALIAS_TO_COMPARATOR_MAPPING = new ImmutableBiMap.Builder<Byte, String>() .put((byte) 'a', ASCIITYPE.getTypeName()) .put((byte) 'b', BYTESTYPE.getTypeName()) .put((byte) 'f', FLOATTYPE.getTypeName()) .put((byte) 'i', INTEGERTYPE.getTypeName()) .put((byte) 'x', LEXICALUUIDTYPE.getTypeName()) .put((byte) 'l', LONGTYPE.getTypeName()) .put((byte) 't', TIMEUUIDTYPE.getTypeName()) .put((byte) 's', UTF8TYPE.getTypeName()) .put((byte) 'u', UUIDTYPE.getTypeName()) .build(); BiMap<Class<? extends Serializer>, String> serializerToComparatorMapping = DEFAULT_SERIALIZER_TO_COMPARATOR_MAPPING; BiMap<Byte, String> aliasToComparatorMapping = DEFAULT_ALIAS_TO_COMPARATOR_MAPPING; final boolean dynamic; List<Serializer<?>> serializersByPosition = null; List<String> comparatorsByPosition = null; public class Component<T> { final Serializer<T> serializer; final T value; final ByteBuffer bytes; final String comparator; final ComponentEquality equality; public Component( T value, ByteBuffer bytes, Serializer<T> serializer, String comparator, ComponentEquality equality) { this.serializer = serializer; this.value = value; this.bytes = bytes; this.comparator = comparator; this.equality = equality; } public Serializer<T> getSerializer() { return serializer; } @SuppressWarnings("unchecked") public <A> A getValue(Serializer<A> s) { if (s == null) { s = (Serializer<A>) serializer; } if ((value == null) && (bytes != null) && (s != null)) { ByteBuffer cb = bytes.duplicate(); return s.fromByteBuffer(cb); } if (value instanceof ByteBuffer) { return (A) ((ByteBuffer) value).duplicate(); } return (A) value; } public T getValue() { return getValue(serializer); } @SuppressWarnings("unchecked") public <A> ByteBuffer getBytes(Serializer<A> s) { if (bytes == null) { if (value instanceof ByteBuffer) { return ((ByteBuffer) value).duplicate(); } if (value == null) { return null; } if (s == null) { s = (Serializer<A>) serializer; } if (s != null) { return s.toByteBuffer((A) value).duplicate(); } } return bytes.duplicate(); } public ByteBuffer getBytes() { return getBytes(serializer); } public String getComparator() { return comparator; } public ComponentEquality getEquality() { return equality; } @Override public String toString() { return "Component [" + getValue() + "]"; } } List<Component<?>> components = new ArrayList<Component<?>>(); ComponentEquality equality = ComponentEquality.EQUAL; ByteBuffer serialized = null; public AbstractComposite(boolean dynamic) { this.dynamic = dynamic; } public AbstractComposite(boolean dynamic, Object... o) { this.dynamic = dynamic; this.addAll(Arrays.asList(o)); } public AbstractComposite(boolean dynamic, List<?> l) { this.dynamic = dynamic; this.addAll(l); } public List<Component<?>> getComponents() { return components; } public void setComponents(List<Component<?>> components) { serialized = null; this.components = components; } public Map<Class<? extends Serializer>, String> getSerializerToComparatorMapping() { return serializerToComparatorMapping; } public void setSerializerToComparatorMapping( Map<Class<? extends Serializer>, String> serializerToComparatorMapping) { serialized = null; this.serializerToComparatorMapping = new ImmutableBiMap.Builder<Class<? extends Serializer>, String>() .putAll(serializerToComparatorMapping) .build(); } public Map<Byte, String> getAliasesToComparatorMapping() { return aliasToComparatorMapping; } public void setAliasesToComparatorMapping(Map<Byte, String> aliasesToComparatorMapping) { serialized = null; aliasToComparatorMapping = new ImmutableBiMap.Builder<Byte, String>().putAll(aliasesToComparatorMapping).build(); } public boolean isDynamic() { return dynamic; } public List<Serializer<?>> getSerializersByPosition() { return serializersByPosition; } public void setSerializersByPosition(List<Serializer<?>> serializersByPosition) { this.serializersByPosition = serializersByPosition; } public void setSerializersByPosition(Serializer<?>... serializers) { serializersByPosition = Arrays.asList(serializers); } public void setSerializerByPosition(int index, Serializer<?> s) { if (serializersByPosition == null) { serializersByPosition = new ArrayList<Serializer<?>>(); } while (serializersByPosition.size() <= index) { serializersByPosition.add(null); } serializersByPosition.set(index, s); } public List<String> getComparatorsByPosition() { return comparatorsByPosition; } public void setComparatorsByPosition(List<String> comparatorsByPosition) { this.comparatorsByPosition = comparatorsByPosition; } public void setComparatorsByPosition(String... comparators) { comparatorsByPosition = Arrays.asList(comparators); } public void setComparatorByPosition(int index, String c) { if (comparatorsByPosition == null) { comparatorsByPosition = new ArrayList<String>(); } while (comparatorsByPosition.size() <= index) { comparatorsByPosition.add(null); } comparatorsByPosition.set(index, c); } @Override public int compareTo(AbstractComposite o) { return serialize().compareTo(o.serialize()); } private String comparatorForSerializer(Serializer<?> s) { String comparator = serializerToComparatorMapping.get(s.getClass()); if (comparator != null) { return comparator; } return BYTESTYPE.getTypeName(); } private Serializer<?> serializerForComparator(String c) { int p = c.indexOf('('); if (p >= 0) { c = c.substring(0, p); } if (LEXICALUUIDTYPE.getTypeName().equals(c) || TIMEUUIDTYPE.getTypeName().equals(c)) { return UUIDSerializer.get(); } Serializer<?> s = SERIALIZERS.getInstance(serializerToComparatorMapping.inverse().get(c)); if (s != null) { return s; } return ByteBufferSerializer.get(); } private Serializer<?> serializerForPosition(int i) { if (serializersByPosition == null) { return null; } if (i >= serializersByPosition.size()) { return null; } return serializersByPosition.get(i); } private Serializer<?> getSerializer(int i, String c) { Serializer<?> s = serializerForPosition(i); if (s != null) { return s; } return serializerForComparator(c); } private String comparatorForPosition(int i) { if (comparatorsByPosition == null) { return null; } if (i >= comparatorsByPosition.size()) { return null; } return comparatorsByPosition.get(i); } private String getComparator(int i, ByteBuffer bb) { String name = comparatorForPosition(i); if (name != null) { return name; } if (!dynamic) { if (bb.hasRemaining()) { return BYTESTYPE.getTypeName(); } else { return null; } } if (bb.hasRemaining()) { try { int header = getShortLength(bb); if ((header & 0x8000) == 0) { name = Charsets.UTF_8.newDecoder().decode(getBytes(bb, header).duplicate()).toString(); } else { byte a = (byte) (header & 0xFF); name = aliasToComparatorMapping.get(a); if (name == null) { a = (byte) Character.toLowerCase((char) a); name = aliasToComparatorMapping.get(a); if (name != null) { name += "(reversed=true)"; } } } } catch (CharacterCodingException e) { throw new RuntimeException(e); } } if ((name != null) && (name.length() == 0)) { name = null; } return name; } @Override public void clear() { serialized = null; components = new ArrayList<Component<?>>(); } @Override public int size() { return components.size(); } @SuppressWarnings("unchecked") public <T> AbstractComposite addComponent(int index, T element, ComponentEquality equality) { serialized = null; if (element instanceof Component) { components.add(index, (Component<?>) element); return this; } Serializer s = serializerForPosition(index); if (s == null) { s = SerializerTypeInferer.getSerializer(element); } String c = comparatorForPosition(index); if (c == null) { c = comparatorForSerializer(s); } components.add(index, new Component(element, null, s, c, equality)); setSerializerByPosition(index, s); return this; } public <T> AbstractComposite addComponent(T value, Serializer<T> s) { addComponent(value, s, comparatorForSerializer(s)); return this; } public <T> AbstractComposite addComponent(T value, Serializer<T> s, String comparator) { addComponent(value, s, comparator, ComponentEquality.EQUAL); return this; } public <T> AbstractComposite addComponent( T value, Serializer<T> s, String comparator, ComponentEquality equality) { addComponent(-1, value, s, comparator, equality); return this; } @SuppressWarnings("unchecked") public <T> AbstractComposite addComponent( int index, T value, Serializer<T> s, String comparator, ComponentEquality equality) { serialized = null; if (value == null) { throw new NullPointerException("Unable able to add null component"); } if (index < 0) { index = components.size(); } while (components.size() < index) { components.add(null); } components.add(index, new Component(value, null, s, comparator, equality)); return this; } private static Object mapIfNumber(Object o) { if ((o instanceof Byte) || (o instanceof Integer) || (o instanceof Short)) { return BigInteger.valueOf(((Number) o).longValue()); } return o; } @SuppressWarnings({"unchecked"}) private static Collection<?> flatten(Collection<?> c) { if (c instanceof AbstractComposite) { return ((AbstractComposite) c).getComponents(); } boolean hasCollection = false; for (Object o : c) { if (o instanceof Collection) { hasCollection = true; break; } } if (!hasCollection) { return c; } List newList = new ArrayList(); for (Object o : c) { if (o instanceof Collection) { newList.addAll(flatten((Collection) o)); } else { newList.add(o); } } return newList; } /** * For education purposes, when addAll is called, it ultimately ends up calling add(int,Object). * The call stack using JDK7 is the following. 1. addAll 2. * AbstractCollection<E>.addAll(Collection<Object>) 3. AbstractList<E>.add(E) 4. * AbstractComposite.add(int,Object) * * <p>What happens is AbstractList<E>.add(E) does this add(size(),E). Neither * java.util.AbstractList or java.util.AbstractCollection provide storage in the base class. It * expects the subclass to provide the storage. */ @Override public boolean addAll(Collection<? extends Object> c) { return super.addAll(flatten(c)); } @Override public boolean containsAll(Collection<?> c) { return super.containsAll(flatten(c)); } @Override public boolean removeAll(Collection<?> c) { return super.removeAll(flatten(c)); } @Override public boolean retainAll(Collection<?> c) { return super.retainAll(flatten(c)); } /** * Method is similar to addAll(Collection<? extends Object>) in that it ends up calling * AbstractComposite.add(int,Object). */ @Override public boolean addAll(int i, Collection<? extends Object> c) { return super.addAll(i, flatten(c)); } /** * add(int,Object) is the primary method that adds elements to the list. All other add methods end * up here. */ @Override public void add(int index, Object element) { element = mapIfNumber(element); addComponent(index, element, ComponentEquality.EQUAL); } /** * remove(int) is the primary method that removes elements from the list. All other remove methods * end up calling AbstractComposite.remove(int). */ @Override public Object remove(int index) { serialized = null; Component prev = components.remove(index); if (prev != null) { return prev.getValue(); } return null; } public <T> AbstractComposite setComponent(int index, T value, Serializer<T> s) { setComponent(index, value, s, comparatorForSerializer(s)); return this; } public <T> AbstractComposite setComponent( int index, T value, Serializer<T> s, String comparator) { setComponent(index, value, s, comparator, ComponentEquality.EQUAL); return this; } @SuppressWarnings("unchecked") public <T> AbstractComposite setComponent( int index, T value, Serializer<T> s, String comparator, ComponentEquality equality) { serialized = null; while (components.size() <= index) { components.add(null); } components.set(index, new Component(value, null, s, comparator, equality)); return this; } @SuppressWarnings("unchecked") @Override public Object set(int index, Object element) { serialized = null; if (element instanceof Component) { Component prev = components.set(index, (Component<?>) element); if (prev != null) { return prev.getValue(); } return null; } element = mapIfNumber(element); Serializer s = serializerForPosition(index); if (s == null) { s = SerializerTypeInferer.getSerializer(element); } String c = comparatorForPosition(index); if (c == null) { c = comparatorForSerializer(s); } Component prev = components.set(index, new Component(element, null, s, c, ComponentEquality.EQUAL)); if (prev != null) { return prev.getValue(); } return null; } @Override public Object get(int i) { Component c = components.get(i); if (c != null) { return c.getValue(); } return null; } public <T> T get(int i, Serializer<T> s) throws ClassCastException { T value = null; Component<?> c = components.get(i); if (c != null) { value = c.getValue(s); } return value; } public Component getComponent(int i) { if (i >= components.size()) { return null; } Component c = components.get(i); return c; } public Iterator<Component<?>> componentsIterator() { return components.iterator(); } @SuppressWarnings("unchecked") public ByteBuffer serialize() { if (serialized != null) { return serialized.duplicate(); } ByteBufferOutputStream out = new ByteBufferOutputStream(); int i = 0; for (Component c : components) { Serializer<?> s = serializerForPosition(i); ByteBuffer cb = c.getBytes(s); if (cb == null) { cb = ByteBuffer.allocate(0); } if (dynamic) { String comparator = comparatorForPosition(i); if (comparator == null) { comparator = c.getComparator(); } if (comparator == null) { comparator = BYTESTYPE.getTypeName(); } int p = comparator.indexOf("(reversed=true)"); boolean desc = false; if (p >= 0) { comparator = comparator.substring(0, p); desc = true; } if (aliasToComparatorMapping.inverse().containsKey(comparator)) { byte a = aliasToComparatorMapping.inverse().get(comparator); if (desc) { a = (byte) Character.toUpperCase((char) a); } out.writeShort((short) (0x8000 | a)); } else { out.writeShort((short) comparator.length()); out.write(comparator.getBytes(Charsets.UTF_8)); } // if (comparator.equals(BYTESTYPE.getTypeName()) && (cb.remaining() == // 0)) { // log.warn("Writing zero-length BytesType, probably an error"); // } } out.writeShort((short) cb.remaining()); out.write(cb.slice()); if ((i == (components.size() - 1)) && (equality != ComponentEquality.EQUAL)) { out.write(equality.toByte()); } else { out.write(c.getEquality().toByte()); } i++; } serialized = out.getByteBuffer(); return serialized.duplicate(); } @SuppressWarnings("unchecked") public void deserialize(ByteBuffer b) { serialized = b.duplicate(); components = new ArrayList<Component<?>>(); String comparator = null; int i = 0; while ((comparator = getComparator(i, b)) != null) { ByteBuffer data = getWithShortLength(b); if (data != null) { Serializer<?> s = getSerializer(i, comparator); ComponentEquality equality = ComponentEquality.fromByte(b.get()); components.add(new Component(null, data.slice(), s, comparator, equality)); } else { throw new RuntimeException("Missing component data in composite type"); } i++; } } protected static int getShortLength(ByteBuffer bb) { int length = (bb.get() & 0xFF) << 8; return length | (bb.get() & 0xFF); } protected static ByteBuffer getBytes(ByteBuffer bb, int length) { ByteBuffer copy = bb.duplicate(); copy.limit(copy.position() + length); bb.position(bb.position() + length); return copy; } protected static ByteBuffer getWithShortLength(ByteBuffer bb) { int length = getShortLength(bb); return getBytes(bb, length); } public ComponentEquality getEquality() { return equality; } public void setEquality(ComponentEquality equality) { serialized = null; this.equality = equality; } }