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Google HTTP Client Library for Java. Functionality that works on all supported Java platforms, including Java 7 (or higher) desktop (SE) and web (EE), Android, and Google App Engine.

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/*
 * Copyright (c) 2010 Google Inc.
 *
 * 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 com.google.api.client.http;

import com.google.api.client.util.ArrayValueMap;
import com.google.api.client.util.ClassInfo;
import com.google.api.client.util.Data;
import com.google.api.client.util.FieldInfo;
import com.google.api.client.util.GenericData;
import com.google.api.client.util.ObjectParser;
import com.google.api.client.util.Preconditions;
import com.google.api.client.util.Throwables;
import com.google.api.client.util.Types;
import com.google.api.client.util.escape.CharEscapers;
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.Reader;
import java.io.StringReader;
import java.io.StringWriter;
import java.lang.reflect.Type;
import java.nio.charset.Charset;
import java.nio.charset.StandardCharsets;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.List;
import java.util.Map;

/**
 * Implements support for HTTP form content encoding parsing of type {@code
 * application/x-www-form-urlencoded} as specified in the HTML 4.0
 * Specification.
 *
 * 

Implementation is thread-safe. * *

The data is parsed using {@link #parse(String, Object)}. * *

Sample usage: * *

 * static void setParser(HttpTransport transport) {
 * transport.addParser(new UrlEncodedParser());
 * }
 * 
* * @since 1.0 * @author Yaniv Inbar */ public class UrlEncodedParser implements ObjectParser { /** {@code "application/x-www-form-urlencoded"} content type. */ public static final String CONTENT_TYPE = "application/x-www-form-urlencoded"; /** * {@code "application/x-www-form-urlencoded"} media type with UTF-8 encoding. * * @since 1.13 */ public static final String MEDIA_TYPE = new HttpMediaType(UrlEncodedParser.CONTENT_TYPE) .setCharsetParameter(StandardCharsets.UTF_8) .build(); /** * Parses the given URL-encoded content into the given data object of data key name/value pairs * using {@link #parse(Reader, Object)}. * * @param content URL-encoded content or {@code null} to ignore content * @param data data key name/value pairs */ public static void parse(String content, Object data) { parse(content, data, true); } /** * Parses the given URL-encoded content into the given data object of data key name/value pairs * using {@link #parse(Reader, Object)}. * * @param content URL-encoded content or {@code null} to ignore content * @param data data key name/value pairs * @param decodeEnabled flag that specifies whether decoding should be enabled. */ public static void parse(String content, Object data, boolean decodeEnabled) { if (content == null) { return; } try { parse(new StringReader(content), data, decodeEnabled); } catch (IOException exception) { // I/O exception not expected on a string throw Throwables.propagate(exception); } } /** * Parses the given URL-encoded content into the given data object of data key name/value pairs, * including support for repeating data key names. * *

Declared fields of a "primitive" type (as defined by {@link Data#isPrimitive(Type)} are * parsed using {@link Data#parsePrimitiveValue(Type, String)} where the {@link Class} parameter * is the declared field class. Declared fields of type {@link Collection} are used to support * repeating data key names, so each member of the collection is an additional data key value. * They are parsed the same as "primitive" fields, except that the generic type parameter of the * collection is used as the {@link Class} parameter. * *

If there is no declared field for an input parameter name, it will be ignored unless the * input {@code data} parameter is a {@link Map}. If it is a map, the parameter value will be * stored either as a string, or as a {@link ArrayList}<String> in the case of repeated * parameters. * * @param reader URL-encoded reader * @param data data key name/value pairs * @since 1.14 */ public static void parse(Reader reader, Object data) throws IOException { parse(reader, data, true); } /** * Parses the given URL-encoded content into the given data object of data key name/value pairs, * including support for repeating data key names. * *

Declared fields of a "primitive" type (as defined by {@link Data#isPrimitive(Type)} are * parsed using {@link Data#parsePrimitiveValue(Type, String)} where the {@link Class} parameter * is the declared field class. Declared fields of type {@link Collection} are used to support * repeating data key names, so each member of the collection is an additional data key value. * They are parsed the same as "primitive" fields, except that the generic type parameter of the * collection is used as the {@link Class} parameter. * *

If there is no declared field for an input parameter name, it is ignored unless the input * {@code data} parameter is a {@link Map}. If it is a map, the parameter value is stored either * as a string, or as a {@link ArrayList}<String> in the case of repeated parameters. * * @param reader URL-encoded reader * @param data data key name/value pairs * @param decodeEnabled flag that specifies whether data should be decoded. * @since 1.14 */ public static void parse(Reader reader, Object data, boolean decodeEnabled) throws IOException { Class clazz = data.getClass(); ClassInfo classInfo = ClassInfo.of(clazz); List context = Arrays.asList(clazz); GenericData genericData = GenericData.class.isAssignableFrom(clazz) ? (GenericData) data : null; @SuppressWarnings("unchecked") Map map = Map.class.isAssignableFrom(clazz) ? (Map) data : null; ArrayValueMap arrayValueMap = new ArrayValueMap(data); StringWriter nameWriter = new StringWriter(); StringWriter valueWriter = new StringWriter(); boolean readingName = true; mainLoop: while (true) { int read = reader.read(); switch (read) { case -1: // falls through case '&': // parse name/value pair String name = decodeEnabled ? CharEscapers.decodeUri(nameWriter.toString()) : nameWriter.toString(); if (name.length() != 0) { String stringValue = decodeEnabled ? CharEscapers.decodeUri(valueWriter.toString()) : valueWriter.toString(); // get the field from the type information FieldInfo fieldInfo = classInfo.getFieldInfo(name); if (fieldInfo != null) { Type type = Data.resolveWildcardTypeOrTypeVariable(context, fieldInfo.getGenericType()); // type is now class, parameterized type, or generic array type if (Types.isArray(type)) { // array that can handle repeating values Class rawArrayComponentType = Types.getRawArrayComponentType(context, Types.getArrayComponentType(type)); arrayValueMap.put( fieldInfo.getField(), rawArrayComponentType, parseValue(rawArrayComponentType, context, stringValue)); } else if (Types.isAssignableToOrFrom( Types.getRawArrayComponentType(context, type), Iterable.class)) { // iterable that can handle repeating values @SuppressWarnings("unchecked") Collection collection = (Collection) fieldInfo.getValue(data); if (collection == null) { collection = Data.newCollectionInstance(type); fieldInfo.setValue(data, collection); } Type subFieldType = type == Object.class ? null : Types.getIterableParameter(type); collection.add(parseValue(subFieldType, context, stringValue)); } else { // parse into a field that assumes it is a single value fieldInfo.setValue(data, parseValue(type, context, stringValue)); } } else if (map != null) { // parse into a map: store as an ArrayList of values @SuppressWarnings("unchecked") ArrayList listValue = (ArrayList) map.get(name); if (listValue == null) { listValue = new ArrayList(); if (genericData != null) { genericData.set(name, listValue); } else { map.put(name, listValue); } } listValue.add(stringValue); } } // ready to read next name/value pair readingName = true; nameWriter = new StringWriter(); valueWriter = new StringWriter(); if (read == -1) { break mainLoop; } break; case '=': if (readingName) { // finished with name, now read value readingName = false; } else { // '=' is in the value valueWriter.write(read); } break; default: // read one more character if (readingName) { nameWriter.write(read); } else { valueWriter.write(read); } } } arrayValueMap.setValues(); } private static Object parseValue(Type valueType, List context, String value) { Type resolved = Data.resolveWildcardTypeOrTypeVariable(context, valueType); return Data.parsePrimitiveValue(resolved, value); } public T parseAndClose(InputStream in, Charset charset, Class dataClass) throws IOException { InputStreamReader r = new InputStreamReader(in, charset); return parseAndClose(r, dataClass); } public Object parseAndClose(InputStream in, Charset charset, Type dataType) throws IOException { InputStreamReader r = new InputStreamReader(in, charset); return parseAndClose(r, dataType); } @SuppressWarnings("unchecked") public T parseAndClose(Reader reader, Class dataClass) throws IOException { return (T) parseAndClose(reader, (Type) dataClass); } public Object parseAndClose(Reader reader, Type dataType) throws IOException { Preconditions.checkArgument( dataType instanceof Class, "dataType has to be of type Class"); Object newInstance = Types.newInstance((Class) dataType); parse(new BufferedReader(reader), newInstance); return newInstance; } }