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org.yaml.snakeyaml.constructor.SafeConstructor Maven / Gradle / Ivy
/**
* Copyright (c) 2008, http://www.snakeyaml.org
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.yaml.snakeyaml.constructor;
import java.math.BigInteger;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TimeZone;
import java.util.TreeSet;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import org.yaml.snakeyaml.LoaderOptions;
import org.yaml.snakeyaml.error.YAMLException;
import org.yaml.snakeyaml.external.biz.base64Coder.Base64Coder;
import org.yaml.snakeyaml.nodes.MappingNode;
import org.yaml.snakeyaml.nodes.Node;
import org.yaml.snakeyaml.nodes.NodeId;
import org.yaml.snakeyaml.nodes.NodeTuple;
import org.yaml.snakeyaml.nodes.ScalarNode;
import org.yaml.snakeyaml.nodes.SequenceNode;
import org.yaml.snakeyaml.nodes.Tag;
/**
* Construct standard Java classes
*/
public class SafeConstructor extends BaseConstructor {
public static final ConstructUndefined undefinedConstructor = new ConstructUndefined();
public SafeConstructor() {
this(new LoaderOptions());
}
public SafeConstructor(LoaderOptions loadingConfig) {
super(loadingConfig);
this.yamlConstructors.put(Tag.NULL, new ConstructYamlNull());
this.yamlConstructors.put(Tag.BOOL, new ConstructYamlBool());
this.yamlConstructors.put(Tag.INT, new ConstructYamlInt());
this.yamlConstructors.put(Tag.FLOAT, new ConstructYamlFloat());
this.yamlConstructors.put(Tag.BINARY, new ConstructYamlBinary());
this.yamlConstructors.put(Tag.TIMESTAMP, new ConstructYamlTimestamp());
this.yamlConstructors.put(Tag.OMAP, new ConstructYamlOmap());
this.yamlConstructors.put(Tag.PAIRS, new ConstructYamlPairs());
this.yamlConstructors.put(Tag.SET, new ConstructYamlSet());
this.yamlConstructors.put(Tag.STR, new ConstructYamlStr());
this.yamlConstructors.put(Tag.SEQ, new ConstructYamlSeq());
this.yamlConstructors.put(Tag.MAP, new ConstructYamlMap());
this.yamlConstructors.put(null, undefinedConstructor);
this.yamlClassConstructors.put(NodeId.scalar, undefinedConstructor);
this.yamlClassConstructors.put(NodeId.sequence, undefinedConstructor);
this.yamlClassConstructors.put(NodeId.mapping, undefinedConstructor);
}
protected void flattenMapping(MappingNode node) {
// perform merging only on nodes containing merge node(s)
processDuplicateKeys(node);
if (node.isMerged()) {
node.setValue(mergeNode(node, true, new HashMap(),
new ArrayList()));
}
}
protected void processDuplicateKeys(MappingNode node) {
List nodeValue = node.getValue();
Map keys = new HashMap(nodeValue.size());
TreeSet toRemove = new TreeSet();
int i = 0;
for (NodeTuple tuple : nodeValue) {
Node keyNode = tuple.getKeyNode();
if (!keyNode.getTag().equals(Tag.MERGE)) {
Object key = constructObject(keyNode);
if (key != null) {
try {
key.hashCode();// check circular dependencies
} catch (Exception e) {
throw new ConstructorException("while constructing a mapping",
node.getStartMark(), "found unacceptable key " + key,
tuple.getKeyNode().getStartMark(), e);
}
}
Integer prevIndex = keys.put(key, i);
if (prevIndex != null) {
if (!isAllowDuplicateKeys()) {
throw new DuplicateKeyException(node.getStartMark(), key,
tuple.getKeyNode().getStartMark());
}
toRemove.add(prevIndex);
}
}
i = i + 1;
}
Iterator indicies2remove = toRemove.descendingIterator();
while (indicies2remove.hasNext()) {
nodeValue.remove(indicies2remove.next().intValue());
}
}
/**
* Does merge for supplied mapping node.
*
* @param node
* where to merge
* @param isPreffered
* true if keys of node should take precedence over others...
* @param key2index
* maps already merged keys to index from values
* @param values
* collects merged NodeTuple
* @return list of the merged NodeTuple (to be set as value for the
* MappingNode)
*/
private List mergeNode(MappingNode node, boolean isPreffered,
Map key2index, List values) {
Iterator iter = node.getValue().iterator();
while (iter.hasNext()) {
final NodeTuple nodeTuple = iter.next();
final Node keyNode = nodeTuple.getKeyNode();
final Node valueNode = nodeTuple.getValueNode();
if (keyNode.getTag().equals(Tag.MERGE)) {
iter.remove();
switch (valueNode.getNodeId()) {
case mapping:
MappingNode mn = (MappingNode) valueNode;
mergeNode(mn, false, key2index, values);
break;
case sequence:
SequenceNode sn = (SequenceNode) valueNode;
List vals = sn.getValue();
for (Node subnode : vals) {
if (!(subnode instanceof MappingNode)) {
throw new ConstructorException("while constructing a mapping",
node.getStartMark(),
"expected a mapping for merging, but found "
+ subnode.getNodeId(),
subnode.getStartMark());
}
MappingNode mnode = (MappingNode) subnode;
mergeNode(mnode, false, key2index, values);
}
break;
default:
throw new ConstructorException("while constructing a mapping",
node.getStartMark(),
"expected a mapping or list of mappings for merging, but found "
+ valueNode.getNodeId(),
valueNode.getStartMark());
}
} else {
// we need to construct keys to avoid duplications
Object key = constructObject(keyNode);
if (!key2index.containsKey(key)) { // 1st time merging key
values.add(nodeTuple);
// keep track where tuple for the key is
key2index.put(key, values.size() - 1);
} else if (isPreffered) { // there is value for the key, but we
// need to override it
// change value for the key using saved position
values.set(key2index.get(key), nodeTuple);
}
}
}
return values;
}
@Override
protected void constructMapping2ndStep(MappingNode node, Map mapping) {
flattenMapping(node);
super.constructMapping2ndStep(node, mapping);
}
@Override
protected void constructSet2ndStep(MappingNode node, Set set) {
flattenMapping(node);
super.constructSet2ndStep(node, set);
}
public class ConstructYamlNull extends AbstractConstruct {
@Override
public Object construct(Node node) {
if (node != null) constructScalar((ScalarNode) node);
return null;
}
}
private final static Map BOOL_VALUES = new HashMap();
static {
BOOL_VALUES.put("yes", Boolean.TRUE);
BOOL_VALUES.put("no", Boolean.FALSE);
BOOL_VALUES.put("true", Boolean.TRUE);
BOOL_VALUES.put("false", Boolean.FALSE);
BOOL_VALUES.put("on", Boolean.TRUE);
BOOL_VALUES.put("off", Boolean.FALSE);
}
public class ConstructYamlBool extends AbstractConstruct {
@Override
public Object construct(Node node) {
String val = (String) constructScalar((ScalarNode) node);
return BOOL_VALUES.get(val.toLowerCase());
}
}
public class ConstructYamlInt extends AbstractConstruct {
@Override
public Object construct(Node node) {
String value = constructScalar((ScalarNode) node).toString().replaceAll("_", "");
int sign = +1;
char first = value.charAt(0);
if (first == '-') {
sign = -1;
value = value.substring(1);
} else if (first == '+') {
value = value.substring(1);
}
int base = 10;
if ("0".equals(value)) {
return Integer.valueOf(0);
} else if (value.startsWith("0b")) {
value = value.substring(2);
base = 2;
} else if (value.startsWith("0x")) {
value = value.substring(2);
base = 16;
} else if (value.startsWith("0")) {
value = value.substring(1);
base = 8;
} else if (value.indexOf(':') != -1) {
String[] digits = value.split(":");
int bes = 1;
int val = 0;
for (int i = 0, j = digits.length; i < j; i++) {
val += Long.parseLong(digits[j - i - 1]) * bes;
bes *= 60;
}
return createNumber(sign, String.valueOf(val), 10);
} else {
return createNumber(sign, value, 10);
}
return createNumber(sign, value, base);
}
}
private static final int[][] RADIX_MAX = new int[17][2];
static {
int[] radixList = new int[] {2, 8, 10, 16};
for( int radix : radixList) {
RADIX_MAX[radix] = new int[] { maxLen(Integer.MAX_VALUE,radix), maxLen(Long.MAX_VALUE,radix)};
}
}
private static int maxLen(final int max, final int radix) {
return Integer.toString(max,radix).length();
}
private static int maxLen(final long max,final int radix) {
return Long.toString(max,radix).length();
}
private Number createNumber(int sign, String number, int radix) {
final int len = number != null ? number.length() : 0;
if (sign < 0) {
number = "-" + number;
}
final int[] maxArr = radix < RADIX_MAX.length ? RADIX_MAX[radix] : null;
if (maxArr != null) {
final boolean gtInt = len >maxArr[0];
if (gtInt) {
if(len > maxArr[1]) {
return new BigInteger(number, radix);
}
return createLongOrBigInteger(number, radix);
}
}
Number result;
try {
result = Integer.valueOf(number, radix);
} catch (NumberFormatException e) {
result = createLongOrBigInteger(number, radix);
}
return result;
}
protected static Number createLongOrBigInteger(final String number,final int radix) {
try {
return Long.valueOf(number, radix);
} catch (NumberFormatException e1) {
return new BigInteger(number, radix);
}
}
public class ConstructYamlFloat extends AbstractConstruct {
@Override
public Object construct(Node node) {
String value = constructScalar((ScalarNode) node).toString().replaceAll("_", "");
int sign = +1;
char first = value.charAt(0);
if (first == '-') {
sign = -1;
value = value.substring(1);
} else if (first == '+') {
value = value.substring(1);
}
String valLower = value.toLowerCase();
if (".inf".equals(valLower)) {
return Double
.valueOf(sign == -1 ? Double.NEGATIVE_INFINITY : Double.POSITIVE_INFINITY);
} else if (".nan".equals(valLower)) {
return Double.valueOf(Double.NaN);
} else if (value.indexOf(':') != -1) {
String[] digits = value.split(":");
int bes = 1;
double val = 0.0;
for (int i = 0, j = digits.length; i < j; i++) {
val += Double.parseDouble(digits[j - i - 1]) * bes;
bes *= 60;
}
return Double.valueOf(sign * val);
} else {
Double d = Double.valueOf(value);
return Double.valueOf(d.doubleValue() * sign);
}
}
}
public class ConstructYamlBinary extends AbstractConstruct {
@Override
public Object construct(Node node) {
// Ignore white spaces for base64 encoded scalar
String noWhiteSpaces = constructScalar((ScalarNode) node).toString().replaceAll("\\s",
"");
byte[] decoded = Base64Coder.decode(noWhiteSpaces.toCharArray());
return decoded;
}
}
private final static Pattern TIMESTAMP_REGEXP = Pattern.compile(
"^([0-9][0-9][0-9][0-9])-([0-9][0-9]?)-([0-9][0-9]?)(?:(?:[Tt]|[ \t]+)([0-9][0-9]?):([0-9][0-9]):([0-9][0-9])(?:\\.([0-9]*))?(?:[ \t]*(?:Z|([-+][0-9][0-9]?)(?::([0-9][0-9])?)?))?)?$");
private final static Pattern YMD_REGEXP = Pattern
.compile("^([0-9][0-9][0-9][0-9])-([0-9][0-9]?)-([0-9][0-9]?)$");
public static class ConstructYamlTimestamp extends AbstractConstruct {
private Calendar calendar;
public Calendar getCalendar() {
return calendar;
}
@Override
public Object construct(Node node) {
ScalarNode scalar = (ScalarNode) node;
String nodeValue = scalar.getValue();
Matcher match = YMD_REGEXP.matcher(nodeValue);
if (match.matches()) {
String year_s = match.group(1);
String month_s = match.group(2);
String day_s = match.group(3);
calendar = Calendar.getInstance(TimeZone.getTimeZone("UTC"));
calendar.clear();
calendar.set(Calendar.YEAR, Integer.parseInt(year_s));
// Java's months are zero-based...
calendar.set(Calendar.MONTH, Integer.parseInt(month_s) - 1); // x
calendar.set(Calendar.DAY_OF_MONTH, Integer.parseInt(day_s));
return calendar.getTime();
} else {
match = TIMESTAMP_REGEXP.matcher(nodeValue);
if (!match.matches()) {
throw new YAMLException("Unexpected timestamp: " + nodeValue);
}
String year_s = match.group(1);
String month_s = match.group(2);
String day_s = match.group(3);
String hour_s = match.group(4);
String min_s = match.group(5);
// seconds and milliseconds
String seconds = match.group(6);
String millis = match.group(7);
if (millis != null) {
seconds = seconds + "." + millis;
}
double fractions = Double.parseDouble(seconds);
int sec_s = (int) Math.round(Math.floor(fractions));
int usec = (int) Math.round((fractions - sec_s) * 1000);
// timezone
String timezoneh_s = match.group(8);
String timezonem_s = match.group(9);
TimeZone timeZone;
if (timezoneh_s != null) {
String time = timezonem_s != null ? ":" + timezonem_s : "00";
timeZone = TimeZone.getTimeZone("GMT" + timezoneh_s + time);
} else {
// no time zone provided
timeZone = TimeZone.getTimeZone("UTC");
}
calendar = Calendar.getInstance(timeZone);
calendar.set(Calendar.YEAR, Integer.parseInt(year_s));
// Java's months are zero-based...
calendar.set(Calendar.MONTH, Integer.parseInt(month_s) - 1);
calendar.set(Calendar.DAY_OF_MONTH, Integer.parseInt(day_s));
calendar.set(Calendar.HOUR_OF_DAY, Integer.parseInt(hour_s));
calendar.set(Calendar.MINUTE, Integer.parseInt(min_s));
calendar.set(Calendar.SECOND, sec_s);
calendar.set(Calendar.MILLISECOND, usec);
return calendar.getTime();
}
}
}
public class ConstructYamlOmap extends AbstractConstruct {
@Override
public Object construct(Node node) {
// Note: we do not check for duplicate keys, because it's too
// CPU-expensive.
Map omap = new LinkedHashMap();
if (!(node instanceof SequenceNode)) {
throw new ConstructorException("while constructing an ordered map",
node.getStartMark(), "expected a sequence, but found " + node.getNodeId(),
node.getStartMark());
}
SequenceNode snode = (SequenceNode) node;
for (Node subnode : snode.getValue()) {
if (!(subnode instanceof MappingNode)) {
throw new ConstructorException("while constructing an ordered map",
node.getStartMark(),
"expected a mapping of length 1, but found " + subnode.getNodeId(),
subnode.getStartMark());
}
MappingNode mnode = (MappingNode) subnode;
if (mnode.getValue().size() != 1) {
throw new ConstructorException("while constructing an ordered map",
node.getStartMark(), "expected a single mapping item, but found "
+ mnode.getValue().size() + " items",
mnode.getStartMark());
}
Node keyNode = mnode.getValue().get(0).getKeyNode();
Node valueNode = mnode.getValue().get(0).getValueNode();
Object key = constructObject(keyNode);
Object value = constructObject(valueNode);
omap.put(key, value);
}
return omap;
}
}
public class ConstructYamlPairs extends AbstractConstruct {
@Override
public Object construct(Node node) {
// Note: we do not check for duplicate keys, because it's too
// CPU-expensive.
if (!(node instanceof SequenceNode)) {
throw new ConstructorException("while constructing pairs", node.getStartMark(),
"expected a sequence, but found " + node.getNodeId(), node.getStartMark());
}
SequenceNode snode = (SequenceNode) node;
List pairs = new ArrayList(snode.getValue().size());
for (Node subnode : snode.getValue()) {
if (!(subnode instanceof MappingNode)) {
throw new ConstructorException("while constructingpairs", node.getStartMark(),
"expected a mapping of length 1, but found " + subnode.getNodeId(),
subnode.getStartMark());
}
MappingNode mnode = (MappingNode) subnode;
if (mnode.getValue().size() != 1) {
throw new ConstructorException("while constructing pairs", node.getStartMark(),
"expected a single mapping item, but found " + mnode.getValue().size()
+ " items",
mnode.getStartMark());
}
Node keyNode = mnode.getValue().get(0).getKeyNode();
Node valueNode = mnode.getValue().get(0).getValueNode();
Object key = constructObject(keyNode);
Object value = constructObject(valueNode);
pairs.add(new Object[] { key, value });
}
return pairs;
}
}
public class ConstructYamlSet implements Construct {
@Override
public Object construct(Node node) {
if (node.isTwoStepsConstruction()) {
return (constructedObjects.containsKey(node) ? constructedObjects.get(node)
: createDefaultSet(((MappingNode) node).getValue().size()));
} else {
return constructSet((MappingNode) node);
}
}
@Override
@SuppressWarnings("unchecked")
public void construct2ndStep(Node node, Object object) {
if (node.isTwoStepsConstruction()) {
constructSet2ndStep((MappingNode) node, (Set) object);
} else {
throw new YAMLException("Unexpected recursive set structure. Node: " + node);
}
}
}
public class ConstructYamlStr extends AbstractConstruct {
@Override
public Object construct(Node node) {
return constructScalar((ScalarNode) node);
}
}
public class ConstructYamlSeq implements Construct {
@Override
public Object construct(Node node) {
SequenceNode seqNode = (SequenceNode) node;
if (node.isTwoStepsConstruction()) {
return newList(seqNode);
} else {
return constructSequence(seqNode);
}
}
@Override
@SuppressWarnings("unchecked")
public void construct2ndStep(Node node, Object data) {
if (node.isTwoStepsConstruction()) {
constructSequenceStep2((SequenceNode) node, (List) data);
} else {
throw new YAMLException("Unexpected recursive sequence structure. Node: " + node);
}
}
}
public class ConstructYamlMap implements Construct {
@Override
public Object construct(Node node) {
MappingNode mnode = (MappingNode) node;
if (node.isTwoStepsConstruction()) {
return createDefaultMap(mnode.getValue().size());
} else {
return constructMapping(mnode);
}
}
@Override
@SuppressWarnings("unchecked")
public void construct2ndStep(Node node, Object object) {
if (node.isTwoStepsConstruction()) {
constructMapping2ndStep((MappingNode) node, (Map) object);
} else {
throw new YAMLException("Unexpected recursive mapping structure. Node: " + node);
}
}
}
public static final class ConstructUndefined extends AbstractConstruct {
@Override
public Object construct(Node node) {
throw new ConstructorException(null, null,
"could not determine a constructor for the tag " + node.getTag(),
node.getStartMark());
}
}
}