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/*
 * Copyright 1999-2004 The Apache Software Foundation.
 *
 * 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.
 */
/*
 * $Id: Encodings.java,v 1.3 2005/09/28 13:49:04 pvedula Exp $
 */
package jdk8u.jaxp.org.apache.xml.external.serializer;

import java.io.InputStream;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.UnsupportedEncodingException;
import java.io.Writer;
import java.io.BufferedWriter;
import java.net.URL;
import java.util.Enumeration;
import java.util.HashMap;
import java.util.Properties;
import java.util.StringTokenizer;
import java.io.IOException;
import java.net.MalformedURLException;
import java.nio.charset.Charset;
import java.nio.charset.IllegalCharsetNameException;
import java.nio.charset.UnsupportedCharsetException;
import java.util.Collections;
import java.util.Map;
import java.util.Map.Entry;

import jdk8u.jaxp.org.apache.xalan.external.utils.SecuritySupport;

/**
 * Provides information about encodings. Depends on the Java runtime
 * to provides writers for the different encodings, but can be used
 * to override encoding names and provide the last printable character
 * for each encoding.
 *
 * @version $Revision: 1.11 $ $Date: 2010-11-01 04:34:44 $
 * @author Assaf Arkin
 */

public final class Encodings extends Object
{

    /**
     * The last printable character for unknown encodings.
     */
    private static final int m_defaultLastPrintable = 0x7F;

    /**
     * Standard filename for properties file with encodings data.
     */
    private static final String ENCODINGS_FILE = "jdk8u/jaxp/org/apache/xml/external/serializer/Encodings.properties";

    /**
     * Standard filename for properties file with encodings data.
     */
    private static final String ENCODINGS_PROP = "jdk8u.jaxp.org.apache.xalan.external.serialize.encodings";


    /**
     * Returns a writer for the specified encoding based on
     * an output stream.
     *
     * @param output The output stream
     * @param encoding The encoding
     * @return A suitable writer
     * @throws UnsupportedEncodingException There is no convertor
     *  to support this encoding
     */
    static Writer getWriter(OutputStream output, String encoding)
        throws UnsupportedEncodingException
    {

        final EncodingInfo ei = _encodingInfos.findEncoding(toUpperCaseFast(encoding));
        if (ei != null) {
            try {
                return new BufferedWriter(new OutputStreamWriter(
                        output, ei.javaName));
            } catch (UnsupportedEncodingException usee) {
                // keep trying
            }
        }

        return new BufferedWriter(new OutputStreamWriter(output, encoding));
    }


    /**
     * Returns the last printable character for an unspecified
     * encoding.
     *
     * @return the default size
     */
    public static int getLastPrintable()
    {
        return m_defaultLastPrintable;
    }



    /**
     * Returns the EncodingInfo object for the specified
     * encoding.
     * 

* This is not a public API. * * @param encoding The encoding * @return The object that is used to determine if * characters are in the given encoding. * @xsl.usage internal */ static EncodingInfo getEncodingInfo(String encoding) { EncodingInfo ei; String normalizedEncoding = toUpperCaseFast(encoding); ei = _encodingInfos.findEncoding(normalizedEncoding); if (ei == null) { // We shouldn't have to do this, but just in case. try { // This may happen if the caller tries to use // an encoding that wasn't registered in the // (java name)->(preferred mime name) mapping file. // In that case we attempt to load the charset for the // given encoding, and if that succeeds - we create a new // EncodingInfo instance - assuming the canonical name // of the charset can be used as the mime name. final Charset c = Charset.forName(encoding); final String name = c.name(); ei = new EncodingInfo(name, name); _encodingInfos.putEncoding(normalizedEncoding, ei); } catch (IllegalCharsetNameException | UnsupportedCharsetException x) { ei = new EncodingInfo(null,null); } } return ei; } /** * A fast and cheap way to uppercase a String that is * only made of printable ASCII characters. *

* This is not a public API. * @param s a String of ASCII characters * @return an uppercased version of the input String, * possibly the same String. * @xsl.usage internal */ static private String toUpperCaseFast(final String s) { boolean different = false; final int mx = s.length(); char[] chars = new char[mx]; for (int i=0; i < mx; i++) { char ch = s.charAt(i); // is the character a lower case ASCII one? if ('a' <= ch && ch <= 'z') { // a cheap and fast way to uppercase that is good enough ch = (char) (ch + ('A' - 'a')); different = true; // the uppercased String is different } chars[i] = ch; } // A little optimization, don't call String.valueOf() if // the uppercased string is the same as the input string. final String upper; if (different) upper = String.valueOf(chars); else upper = s; return upper; } /** The default encoding, ISO style, ISO style. */ static final String DEFAULT_MIME_ENCODING = "UTF-8"; /** * Get the proper mime encoding. From the XSLT recommendation: "The encoding * attribute specifies the preferred encoding to use for outputting the result * tree. XSLT processors are required to respect values of UTF-8 and UTF-16. * For other values, if the XSLT processor does not support the specified * encoding it may signal an error; if it does not signal an error it should * use UTF-8 or UTF-16 instead. The XSLT processor must not use an encoding * whose name does not match the EncName production of the XML Recommendation * [XML]. If no encoding attribute is specified, then the XSLT processor should * use either UTF-8 or UTF-16." * * @param encoding Reference to java-style encoding string, which may be null, * in which case a default will be found. * * @return The ISO-style encoding string, or null if failure. */ static String getMimeEncoding(String encoding) { if (null == encoding) { try { // Get the default system character encoding. This may be // incorrect if they passed in a writer, but right now there // seems to be no way to get the encoding from a writer. encoding = SecuritySupport.getSystemProperty("file.encoding", "UTF8"); if (null != encoding) { /* * See if the mime type is equal to UTF8. If you don't * do that, then convertJava2MimeEncoding will convert * 8859_1 to "ISO-8859-1", which is not what we want, * I think, and I don't think I want to alter the tables * to convert everything to UTF-8. */ String jencoding = (encoding.equalsIgnoreCase("Cp1252") || encoding.equalsIgnoreCase("ISO8859_1") || encoding.equalsIgnoreCase("8859_1") || encoding.equalsIgnoreCase("UTF8")) ? DEFAULT_MIME_ENCODING : convertJava2MimeEncoding(encoding); encoding = (null != jencoding) ? jencoding : DEFAULT_MIME_ENCODING; } else { encoding = DEFAULT_MIME_ENCODING; } } catch (SecurityException se) { encoding = DEFAULT_MIME_ENCODING; } } else { encoding = convertJava2MimeEncoding(encoding); } return encoding; } /** * Try the best we can to convert a Java encoding to a XML-style encoding. * * @param encoding non-null reference to encoding string, java style. * * @return ISO-style encoding string. */ private static String convertJava2MimeEncoding(String encoding) { final EncodingInfo enc = _encodingInfos.getEncodingFromJavaKey(toUpperCaseFast(encoding)); if (null != enc) return enc.name; return encoding; } /** * Try the best we can to convert a Java encoding to a XML-style encoding. * * @param encoding non-null reference to encoding string, java style. * * @return ISO-style encoding string. */ public static String convertMime2JavaEncoding(String encoding) { final EncodingInfo info = _encodingInfos.findEncoding(toUpperCaseFast(encoding)); return info != null ? info.javaName : encoding; } // Using an inner static class here prevent initialization races // where the hash maps could be used before they were populated. // private final static class EncodingInfos { // These maps are final and not modified after initialization. private final Map _encodingTableKeyJava = new HashMap<>(); private final Map _encodingTableKeyMime = new HashMap<>(); // This map will be added to after initialization: make sure it's // thread-safe. This map should not be used frequently - only in cases // where the mapping requested was not declared in the Encodings.properties // file. private final Map _encodingDynamicTable = Collections.synchronizedMap(new HashMap()); private EncodingInfos() { loadEncodingInfo(); } // Opens the file/resource containing java charset name -> preferred mime // name mapping and returns it as an InputStream. private InputStream openEncodingsFileStream() throws MalformedURLException, IOException { String urlString = null; InputStream is = null; try { urlString = SecuritySupport.getSystemProperty(ENCODINGS_PROP, ""); } catch (SecurityException e) { } if (urlString != null && urlString.length() > 0) { URL url = new URL(urlString); is = url.openStream(); } if (is == null) { is = SecuritySupport.getResourceAsStream(ENCODINGS_FILE); } return is; } // Loads the Properties resource containing the mapping: // java charset name -> preferred mime name // and returns it. private Properties loadProperties() throws MalformedURLException, IOException { Properties props = new Properties(); try (InputStream is = openEncodingsFileStream()) { if (is != null) { props.load(is); } else { // Seems to be no real need to force failure here, let the // system do its best... The issue is not really very critical, // and the output will be in any case _correct_ though maybe not // always human-friendly... :) // But maybe report/log the resource problem? // Any standard ways to report/log errors (in static context)? } } return props; } // Parses the mime list associated to a java charset name. // The first mime name in the list is supposed to be the preferred // mime name. private String[] parseMimeTypes(String val) { int pos = val.indexOf(' '); //int lastPrintable; if (pos < 0) { // Maybe report/log this problem? // "Last printable character not defined for encoding " + // mimeName + " (" + val + ")" ... return new String[] { val }; //lastPrintable = 0x00FF; } //lastPrintable = // Integer.decode(val.substring(pos).trim()).intValue(); StringTokenizer st = new StringTokenizer(val.substring(0, pos), ","); String[] values = new String[st.countTokens()]; for (int i=0; st.hasMoreTokens(); i++) { values[i] = st.nextToken(); } return values; } // This method here attempts to find the canonical charset name for the // the given name - which is supposed to be either a java name or a mime // name. // For that, it attempts to load the charset using the given name, and // then returns the charset's canonical name. // If the charset could not be loaded from the given name, // the method returns null. private String findCharsetNameFor(String name) { try { return Charset.forName(name).name(); } catch (Exception x) { return null; } } // This method here attempts to find the canonical charset name for the // the set javaName+mimeNames - which are supposed to all refer to the // same charset. // For that it attempts to load the charset using the javaName, and if // not found, attempts again using each of the mime names in turn. // If the charset could be loaded from the javaName, then the javaName // itself is returned as charset name. Otherwise, each of the mime names // is tried in turn, until a charset can be loaded from one of the names, // and the loaded charset's canonical name is returned. // If no charset can be loaded from either the javaName or one of the // mime names, then null is returned. // // Note that the returned name is the 'java' name that will be used in // instances of EncodingInfo. // This is important because EncodingInfo uses that 'java name' later on // in calls to String.getBytes(javaName). // As it happens, sometimes only one element of the set mime names/javaName // is known by Charset: sometimes only one of the mime names is known, // sometime only the javaName is known, sometimes all are known. // // By using this method here, we fix the problem where one of the mime // names is known but the javaName is unknown, by associating the charset // loaded from one of the mime names with the unrecognized javaName. // // When none of the mime names or javaName are known - there's not much we can // do... It can mean that this encoding is not supported for this // OS. If such a charset is ever use it will result in having all characters // escaped. // private String findCharsetNameFor(String javaName, String[] mimes) { String cs = findCharsetNameFor(javaName); if (cs != null) return javaName; for (String m : mimes) { cs = findCharsetNameFor(m); if (cs != null) break; } return cs; } /** * Loads a list of all the supported encodings. * * System property "encodings" formatted using URL syntax may define an * external encodings list. Thanks to Sergey Ushakov for the code * contribution! */ private void loadEncodingInfo() { try { // load (java name)->(preferred mime name) mapping. final Properties props = loadProperties(); // create instances of EncodingInfo from the loaded mapping Enumeration keys = props.keys(); Map canonicals = new HashMap<>(); while (keys.hasMoreElements()) { final String javaName = (String) keys.nextElement(); final String[] mimes = parseMimeTypes(props.getProperty(javaName)); final String charsetName = findCharsetNameFor(javaName, mimes); if (charsetName != null) { final String kj = toUpperCaseFast(javaName); final String kc = toUpperCaseFast(charsetName); for (int i = 0; i < mimes.length; ++i) { final String mimeName = mimes[i]; final String km = toUpperCaseFast(mimeName); EncodingInfo info = new EncodingInfo(mimeName, charsetName); _encodingTableKeyMime.put(km, info); if (!canonicals.containsKey(kc)) { // canonicals will map the charset name to // the info containing the prefered mime name // (the preferred mime name is the first mime // name in the list). canonicals.put(kc, info); _encodingTableKeyJava.put(kc, info); } _encodingTableKeyJava.put(kj, info); } } else { // None of the java or mime names on the line were // recognized => this charset is not supported? } } // Fix up the _encodingTableKeyJava so that the info mapped to // the java name contains the preferred mime name. // (a given java name can correspond to several mime name, // but we want the _encodingTableKeyJava to point to the // preferred mime name). for (Entry e : _encodingTableKeyJava.entrySet()) { e.setValue(canonicals.get(toUpperCaseFast(e.getValue().javaName))); } } catch (java.net.MalformedURLException mue) { throw new jdk8u.jaxp.org.apache.xml.external.serializer.utils.WrappedRuntimeException(mue); } catch (java.io.IOException ioe) { throw new jdk8u.jaxp.org.apache.xml.external.serializer.utils.WrappedRuntimeException(ioe); } } EncodingInfo findEncoding(String normalizedEncoding) { EncodingInfo info = _encodingTableKeyJava.get(normalizedEncoding); if (info == null) { info = _encodingTableKeyMime.get(normalizedEncoding); } if (info == null) { info = _encodingDynamicTable.get(normalizedEncoding); } return info; } EncodingInfo getEncodingFromMimeKey(String normalizedMimeName) { return _encodingTableKeyMime.get(normalizedMimeName); } EncodingInfo getEncodingFromJavaKey(String normalizedJavaName) { return _encodingTableKeyJava.get(normalizedJavaName); } void putEncoding(String key, EncodingInfo info) { _encodingDynamicTable.put(key, info); } } /** * Return true if the character is the high member of a surrogate pair. *

* This is not a public API. * @param ch the character to test * @xsl.usage internal */ static boolean isHighUTF16Surrogate(char ch) { return ('\uD800' <= ch && ch <= '\uDBFF'); } /** * Return true if the character is the low member of a surrogate pair. *

* This is not a public API. * @param ch the character to test * @xsl.usage internal */ static boolean isLowUTF16Surrogate(char ch) { return ('\uDC00' <= ch && ch <= '\uDFFF'); } /** * Return the unicode code point represented by the high/low surrogate pair. *

* This is not a public API. * @param highSurrogate the high char of the high/low pair * @param lowSurrogate the low char of the high/low pair * @xsl.usage internal */ static int toCodePoint(char highSurrogate, char lowSurrogate) { int codePoint = ((highSurrogate - 0xd800) << 10) + (lowSurrogate - 0xdc00) + 0x10000; return codePoint; } /** * Return the unicode code point represented by the char. * A bit of a dummy method, since all it does is return the char, * but as an int value. *

* This is not a public API. * @param ch the char. * @xsl.usage internal */ static int toCodePoint(char ch) { int codePoint = ch; return codePoint; } private final static EncodingInfos _encodingInfos = new EncodingInfos(); }





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