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 * obtain a copy of the License at
 * http://glassfish.java.net/public/CDDL+GPL_1_1.html
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package com.sun.jersey.api.uri;

import java.io.UnsupportedEncodingException;
import java.net.URI;
import java.net.URLDecoder;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.charset.Charset;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.LinkedList;
import java.util.List;

import javax.ws.rs.core.MultivaluedMap;
import javax.ws.rs.core.PathSegment;

import com.sun.jersey.core.util.MultivaluedMapImpl;

/**
 * Utility class for validating, encoding and decoding components
 * of a URI.
 *
 * @author Paul Sandoz
 * @author Marek Potociar (marek.potociar at oracle.com)
 */
public class UriComponent {

    // TODO rewrite to use masks and not lookup tables

    /**
     * The URI component type.
     */
    public enum Type {

        /**
         * ALPHA / DIGIT / "-" / "." / "_" / "~" characters
         */
        UNRESERVED,
        /**
         * The URI scheme component type.
         */
        SCHEME,
        /**
         * The URI authority component type.
         */
        AUTHORITY,
        /**
         * The URI user info component type.
         */
        USER_INFO,
        /**
         * The URI host component type.
         */
        HOST,
        /**
         * The URI port component type.
         */
        PORT,
        /**
         * The URI path component type.
         */
        PATH,
        /**
         * The URI path component type that is a path segment.
         */
        PATH_SEGMENT,
        /**
         * The URI path component type that is a matrix parameter.
         */
        MATRIX_PARAM,
        /**
         * The URI query component type.
         */
        QUERY,
        /**
         * The URI query component type that is a query parameter.
         */
        QUERY_PARAM,
        /**
         * The URI fragment component type.
         */
        FRAGMENT,
    }

    private UriComponent() {
    }

    /**
     * Validates the legal characters of a percent-encoded string that
     * represents a URI component type.
     *
     * @param s the encoded string.
     * @param t the URI component type identifying the legal characters.
     * @throws IllegalArgumentException if the encoded string contains illegal
     *                                  characters.
     */
    public static void validate(String s, Type t) {
        validate(s, t, false);
    }

    /**
     * Validates the legal characters of a percent-encoded string that
     * represents a URI component type.
     *
     * @param s        the encoded string.
     * @param t        the URI component type identifying the legal characters.
     * @param template true if the encoded string contains URI template variables
     * @throws IllegalArgumentException if the encoded string contains illegal
     *                                  characters.
     */
    public static void validate(String s, Type t, boolean template) {
        int i = _valid(s, t, template);
        if (i > -1) // TODO localize
        {
            throw new IllegalArgumentException("The string '" + s +
                    "' for the URI component " + t +
                    " contains an invalid character, '" + s.charAt(i) + "', at index " + i);
        }
    }

    /**
     * Validates the legal characters of a percent-encoded string that
     * represents a URI component type.
     *
     * @param s the encoded string.
     * @param t the URI component type identifying the legal characters.
     * @return true if the encoded string is valid, otherwise false.
     */
    public static boolean valid(String s, Type t) {
        return valid(s, t, false);
    }

    /**
     * Validates the legal characters of a percent-encoded string that
     * represents a URI component type.
     *
     * @param s        the encoded string.
     * @param t        the URI component type identifying the legal characters.
     * @param template true if the encoded string contains URI template variables
     * @return true if the encoded string is valid, otherwise false.
     */
    public static boolean valid(String s, Type t, boolean template) {
        return _valid(s, t, template) == -1;
    }

    private static int _valid(String s, Type t, boolean template) {
        boolean[] table = ENCODING_TABLES[t.ordinal()];

        for (int i = 0; i < s.length(); i++) {
            final char c = s.charAt(i);
            if ((c < 0x80 && c != '%' && !table[c]) || c >= 0x80) {
                if (!template || (c != '{' && c != '}')) {
                    return i;
                }
            }
        }
        return -1;
    }

    /**
     * Contextually encodes the characters of string that are either non-ASCII
     * characters or are ASCII characters that must be percent-encoded using the
     * UTF-8 encoding. Percent-encoded characters will be recognized and not
     * double encoded.
     *
     * @param s the string to be encoded.
     * @param t the URI component type identifying the ASCII characters that
     *          must be percent-encoded.
     * @return the encoded string.
     */
    public static String contextualEncode(String s, Type t) {
        return _encode(s, t, false, true);
    }

    /**
     * Contextually encodes the characters of string that are either non-ASCII
     * characters or are ASCII characters that must be percent-encoded using the
     * UTF-8 encoding. Percent-encoded characters will be recognized and not
     * double encoded.
     *
     * @param s        the string to be encoded.
     * @param t        the URI component type identifying the ASCII characters that
     *                 must be percent-encoded.
     * @param template true if the encoded string contains URI template variables
     * @return the encoded string.
     */
    public static String contextualEncode(String s, Type t, boolean template) {
        return _encode(s, t, template, true);
    }

    /**
     * Encodes the characters of string that are either non-ASCII characters
     * or are ASCII characters that must be percent-encoded using the
     * UTF-8 encoding.
     *
     * @param s the string to be encoded.
     * @param t the URI component type identifying the ASCII characters that
     *          must be percent-encoded.
     * @return the encoded string.
     */
    public static String encode(String s, Type t) {
        return _encode(s, t, false, false);
    }

    /**
     * Encodes the characters of string that are either non-ASCII characters
     * or are ASCII characters that must be percent-encoded using the
     * UTF-8 encoding.
     *
     * @param s        the string to be encoded.
     * @param t        the URI component type identifying the ASCII characters that
     *                 must be percent-encoded.
     * @param template true if the encoded string contains URI template variables
     * @return the encoded string.
     */
    public static String encode(String s, Type t, boolean template) {
        return _encode(s, t, template, false);
    }

    /**
     * Encodes a string with template parameters names present, specifically the
     * characters '{' and '}' will be percent-encoded.
     *
     * @param s the string with zero or more template parameters names
     * @return the string with encoded template parameters names.
     */
    public static String encodeTemplateNames(String s) {
        int i = s.indexOf('{');
        if (i != -1) {
            s = s.replace("{", "%7B");
        }
        i = s.indexOf('}');
        if (i != -1) {
            s = s.replace("}", "%7D");
        }

        return s;
    }

    private static String _encode(String s, Type t, boolean template, boolean contextualEncode) {
        final boolean[] table = ENCODING_TABLES[t.ordinal()];
        boolean insideTemplateParam = false;

        StringBuilder sb = null;
        for (int offset = 0, codePoint;
             offset < s.length();
             offset += Character.charCount(codePoint))
        {
            codePoint = s.codePointAt(offset);

            if (codePoint < 0x80 && table[codePoint]) {
                if (sb != null) {
                    sb.append((char)codePoint);
                }
            } else {
                if (template) {
                    boolean leavingTemplateParam = false;
                    if (codePoint == '{') {
                        insideTemplateParam = true;
                    } else if (codePoint == '}') {
                        insideTemplateParam = false;
                        leavingTemplateParam = true;
                    }
                    if (insideTemplateParam || leavingTemplateParam) {
                        if (sb != null) {
                            sb.append(java.lang.Character.toChars(codePoint));
                        }
                        continue;
                    }
                }

                if (contextualEncode
                        && codePoint == '%'
                        && offset + 2 < s.length()
                        && isHexCharacter(s.charAt(offset + 1))
                        && isHexCharacter(s.charAt(offset + 2)))
                {
                    if (sb != null) {
                        sb.append('%').append(s.charAt(offset + 1)).append(s.charAt(offset + 2));
                    }
                    offset += 2;
                    continue;
                }

                if (sb == null) {
                    sb = new StringBuilder();
                    sb.append(s.substring(0, offset));
                }

                if (codePoint < 0x80) {
                    if (codePoint == ' ' && (t == Type.QUERY_PARAM)) {
                        sb.append('+');
                    } else {
                        appendPercentEncodedOctet(sb, (char)codePoint);
                    }
                } else {
                    appendUTF8EncodedCharacter(sb, codePoint);
                }
            }
        }

        return (sb == null) ? s : sb.toString();
    }

    private final static char[] HEX_DIGITS = {
            '0', '1', '2', '3', '4', '5', '6', '7',
            '8', '9', 'A', 'B', 'C', 'D', 'E', 'F'
    };

    private static void appendPercentEncodedOctet(StringBuilder sb, int b) {
        sb.append('%');
        sb.append(HEX_DIGITS[b >> 4]);
        sb.append(HEX_DIGITS[b & 0x0F]);
    }

    private static void appendUTF8EncodedCharacter(StringBuilder sb, int codePoint) {
        final CharBuffer cb = CharBuffer.wrap(java.lang.Character.toChars(codePoint));
        final ByteBuffer bb = UTF_8_CHARSET.encode(cb);

        while (bb.hasRemaining()) {
            appendPercentEncodedOctet(sb, bb.get() & 0xFF);
        }
    }

    private static final String[] SCHEME = {"0-9", "A-Z", "a-z", "+", "-", "."};
    private static final String[] UNRESERVED = {"0-9", "A-Z", "a-z", "-", ".", "_", "~"};
    private static final String[] SUB_DELIMS = {"!", "$", "&", "'", "(", ")", "*", "+", ",", ";", "="};
    private static final boolean[][] ENCODING_TABLES = initEncodingTables();

    private static boolean[][] initEncodingTables() {
        boolean[][] tables = new boolean[Type.values().length][];

        List l = new ArrayList();
        l.addAll(Arrays.asList(SCHEME));
        tables[Type.SCHEME.ordinal()] = initEncodingTable(l);

        l.clear();

        l.addAll(Arrays.asList(UNRESERVED));
        tables[Type.UNRESERVED.ordinal()] = initEncodingTable(l);

        l.addAll(Arrays.asList(SUB_DELIMS));

        tables[Type.HOST.ordinal()] = initEncodingTable(l);

        tables[Type.PORT.ordinal()] = initEncodingTable(Arrays.asList("0-9"));

        l.add(":");

        tables[Type.USER_INFO.ordinal()] = initEncodingTable(l);

        l.add("@");

        tables[Type.AUTHORITY.ordinal()] = initEncodingTable(l);

        tables[Type.PATH_SEGMENT.ordinal()] = initEncodingTable(l);
        tables[Type.PATH_SEGMENT.ordinal()][';'] = false;

        tables[Type.MATRIX_PARAM.ordinal()] = tables[Type.PATH_SEGMENT.ordinal()].clone();
        tables[Type.MATRIX_PARAM.ordinal()]['='] = false;

        l.add("/");

        tables[Type.PATH.ordinal()] = initEncodingTable(l);

        l.add("?");

        tables[Type.QUERY.ordinal()] = initEncodingTable(l);

        tables[Type.FRAGMENT.ordinal()] = tables[Type.QUERY.ordinal()];

        tables[Type.QUERY_PARAM.ordinal()] = initEncodingTable(l);
        tables[Type.QUERY_PARAM.ordinal()]['='] = false;
        tables[Type.QUERY_PARAM.ordinal()]['+'] = false;
        tables[Type.QUERY_PARAM.ordinal()]['&'] = false;

        return tables;
    }

    private static boolean[] initEncodingTable(List allowed) {
        boolean[] table = new boolean[0x80];
        for (String range : allowed) {
            if (range.length() == 1) {
                table[range.charAt(0)] = true;
            } else if (range.length() == 3 && range.charAt(1) == '-') {
                for (int i = range.charAt(0); i <= range.charAt(2); i++) {
                    table[i] = true;
                }
            }
        }

        return table;
    }

    private static final Charset UTF_8_CHARSET = Charset.forName("UTF-8");

    /**
     * Decodes characters of a string that are percent-encoded octets using
     * UTF-8 decoding (if needed).
     * 

* It is assumed that the string is valid according to an (unspecified) URI * component type. If a sequence of contiguous percent-encoded octets is * not a valid UTF-8 character then the octets are replaced with '\uFFFD'. *

* If the URI component is of type HOST then any "%" found between "[]" is * left alone. It is an IPv6 literal with a scope_id. *

* If the URI component is of type QUERY_PARAM then any "+" is decoded as * as ' '. *

* * @param s the string to be decoded. * @param t the URI component type, may be null. * @return the decoded string. * @throws IllegalArgumentException if a malformed percent-encoded octet is * detected */ public static String decode(String s, Type t) { if (s == null) { throw new IllegalArgumentException(); } final int n = s.length(); if (n == 0) { return s; } // If there are no percent-escaped octets if (s.indexOf('%') < 0) { // If there are no '+' characters for query param if (t == Type.QUERY_PARAM) { if (s.indexOf('+') < 0) { return s; } } else { return s; } } else { // Malformed percent-escaped octet at the end if (n < 2) // TODO localize { throw new IllegalArgumentException("Malformed percent-encoded octet at index 1"); } // Malformed percent-escaped octet at the end if (s.charAt(n - 2) == '%') // TODO localize { throw new IllegalArgumentException("Malformed percent-encoded octet at index " + (n - 2)); } } if (t == null) { return decode(s, n); } switch (t) { case HOST: return decodeHost(s, n); case QUERY_PARAM: return decodeQueryParam(s, n); default: return decode(s, n); } } /** * Decode the query component of a URI. *

* Query parameter names in the returned map are always decoded. Decoding of query parameter * values can be controlled using the {@code decode} parameter flag. *

* * @param u the URI. * @param decode {@code true} if the returned query parameter values of the query component * should be in decoded form. * @return the multivalued map of query parameters. */ public static MultivaluedMap decodeQuery(URI u, boolean decode) { return decodeQuery(u.getRawQuery(), decode); } /** * Decode the query component of a URI. *

* Query parameter names in the returned map are always decoded. Decoding of query parameter * values can be controlled using the {@code decode} parameter flag. *

* * @param q the query component in encoded form. * @param decode {@code true} if the returned query parameter values of the query component * should be in decoded form. * @return the multivalued map of query parameters. */ public static MultivaluedMap decodeQuery(String q, boolean decode) { return decodeQuery(q, true, decode); } /** * Decode the query component of a URI. *

* Decoding of query parameter names and values can be controlled using the {@code decodeNames} * and {@code decodeValues} parameter flags. *

* * @param q the query component in encoded form. * @param decodeNames {@code true} if the returned query parameter names of the query component * should be in decoded form. * @param decodeValues {@code true} if the returned query parameter values of the query component * should be in decoded form. * @return the multivalued map of query parameters. */ public static MultivaluedMap decodeQuery(String q, boolean decodeNames, boolean decodeValues) { MultivaluedMap queryParameters = new MultivaluedMapImpl(); if (q == null || q.length() == 0) { return queryParameters; } int s = 0; do { int e = q.indexOf('&', s); if (e == -1) { decodeQueryParam(queryParameters, q.substring(s), decodeNames, decodeValues); } else if (e > s) { decodeQueryParam(queryParameters, q.substring(s, e), decodeNames, decodeValues); } s = e + 1; } while (s > 0 && s < q.length()); return queryParameters; } @SuppressWarnings("StatementWithEmptyBody") private static void decodeQueryParam(MultivaluedMap params, String param, boolean decodeNames, boolean decodeValues) { try { int equals = param.indexOf('='); if (equals > 0) { params.add( (decodeNames) ? URLDecoder.decode(param.substring(0, equals), "UTF-8") : param.substring(0, equals), (decodeValues) ? URLDecoder.decode(param.substring(equals + 1), "UTF-8") : param.substring(equals + 1)); } else if (equals == 0) { // no key declared, ignore } else if (param.length() > 0) { params.add( URLDecoder.decode(param, "UTF-8"), ""); } } catch (UnsupportedEncodingException ex) { // This should never occur throw new IllegalArgumentException(ex); } } private static final class PathSegmentImpl implements PathSegment { private static final PathSegment EMPTY_PATH_SEGMENT = new PathSegmentImpl("", false); private final String path; private final MultivaluedMap matrixParameters; PathSegmentImpl(String path, boolean decode) { this(path, decode, new MultivaluedMapImpl()); } PathSegmentImpl(String path, boolean decode, MultivaluedMap matrixParameters) { this.path = (decode) ? UriComponent.decode(path, UriComponent.Type.PATH_SEGMENT) : path; this.matrixParameters = matrixParameters; } @Override public String getPath() { return path; } @Override public MultivaluedMap getMatrixParameters() { return matrixParameters; } @Override public String toString() { return path; } } /** * Decode the path component of a URI as path segments. * * @param u the URI. If the path component is an absolute path component * then the leading '/' is ignored and is not considered a delimiator * of a path segment. * @param decode true if the path segments of the path component * should be in decoded form. * @return the list of path segments. */ public static List decodePath(URI u, boolean decode) { String rawPath = u.getRawPath(); if (rawPath != null && rawPath.length() > 0 && rawPath.charAt(0) == '/') { rawPath = rawPath.substring(1); } return decodePath(rawPath, decode); } /** * Decode the path component of a URI as path segments. *

* Any '/' character in the path is considered to be a deliminator * between two path segments. Thus if the path is '/' then the path segment * list will contain two empty path segments. If the path is "//" then * the path segment list will contain three empty path segments. If the path * is "/a/" the path segment list will consist of the following path * segments in order: "", "a" and "". *

* * @param path the path component in encoded form. * @param decode true if the path segments of the path component * should be in decoded form. * @return the list of path segments. */ public static List decodePath(String path, boolean decode) { List segments = new LinkedList(); if (path == null) { return segments; } int s; int e = -1; do { s = e + 1; e = path.indexOf('/', s); if (e > s) { decodePathSegment(segments, path.substring(s, e), decode); } else if (e == s) { segments.add(PathSegmentImpl.EMPTY_PATH_SEGMENT); } } while (e != -1); if (s < path.length()) { decodePathSegment(segments, path.substring(s), decode); } else { segments.add(PathSegmentImpl.EMPTY_PATH_SEGMENT); } return segments; } /** * Decode the path segment and add it to the list of path segments. * * @param segments mutable list of path segments. * @param segment path segment to be decoded. * @param decode {@code true} if the path segment should be in a decoded form. */ public static void decodePathSegment(List segments, String segment, boolean decode) { int colon = segment.indexOf(';'); if (colon != -1) { segments.add(new PathSegmentImpl( (colon == 0) ? "" : segment.substring(0, colon), decode, decodeMatrix(segment, decode))); } else { segments.add(new PathSegmentImpl( segment, decode)); } } /** * Decode the matrix component of a URI path segment. * * @param pathSegment the path segment component in encoded form. * @param decode true if the matrix parameters of the path segment component * should be in decoded form. * @return the multivalued map of matrix parameters. */ public static MultivaluedMap decodeMatrix(String pathSegment, boolean decode) { MultivaluedMap matrixMap = new MultivaluedMapImpl(); // Skip over path segment int s = pathSegment.indexOf(';') + 1; if (s == 0 || s == pathSegment.length()) { return matrixMap; } do { int e = pathSegment.indexOf(';', s); if (e == -1) { decodeMatrixParam(matrixMap, pathSegment.substring(s), decode); } else if (e > s) { decodeMatrixParam(matrixMap, pathSegment.substring(s, e), decode); } s = e + 1; } while (s > 0 && s < pathSegment.length()); return matrixMap; } @SuppressWarnings("StatementWithEmptyBody") private static void decodeMatrixParam(MultivaluedMap params, String param, boolean decode) { int equals = param.indexOf('='); if (equals > 0) { params.add( UriComponent.decode(param.substring(0, equals), UriComponent.Type.MATRIX_PARAM), (decode) ? UriComponent.decode(param.substring(equals + 1), UriComponent.Type.MATRIX_PARAM) : param .substring(equals + 1)); } else if (equals == 0) { // no key declared, ignore } else if (param.length() > 0) { params.add( UriComponent.decode(param, UriComponent.Type.MATRIX_PARAM), ""); } } private static String decode(String s, int n) { final StringBuilder sb = new StringBuilder(n); ByteBuffer bb = null; for (int i = 0; i < n; ) { final char c = s.charAt(i++); if (c != '%') { sb.append(c); } else { bb = decodePercentEncodedOctets(s, i, bb); i = decodeOctets(i, bb, sb); } } return sb.toString(); } private static String decodeQueryParam(String s, int n) { final StringBuilder sb = new StringBuilder(n); ByteBuffer bb = null; for (int i = 0; i < n; ) { final char c = s.charAt(i++); if (c != '%') { if (c != '+') { sb.append(c); } else { sb.append(' '); } } else { bb = decodePercentEncodedOctets(s, i, bb); i = decodeOctets(i, bb, sb); } } return sb.toString(); } private static String decodeHost(String s, int n) { final StringBuilder sb = new StringBuilder(n); ByteBuffer bb = null; boolean betweenBrackets = false; for (int i = 0; i < n; ) { final char c = s.charAt(i++); if (c == '[') { betweenBrackets = true; } else if (betweenBrackets && c == ']') { betweenBrackets = false; } if (c != '%' || betweenBrackets) { sb.append(c); } else { bb = decodePercentEncodedOctets(s, i, bb); i = decodeOctets(i, bb, sb); } } return sb.toString(); } /** * Decode a continuous sequence of percent encoded octets. *

* Assumes the index, i, starts that the first hex digit of the first * percent-encoded octet. */ private static ByteBuffer decodePercentEncodedOctets(String s, int i, ByteBuffer bb) { if (bb == null) { bb = ByteBuffer.allocate(1); } else { bb.clear(); } while (true) { // Decode the hex digits bb.put((byte) (decodeHex(s, i++) << 4 | decodeHex(s, i++))); // Finish if at the end of the string if (i == s.length()) { break; } // Finish if no more percent-encoded octets follow if (s.charAt(i++) != '%') { break; } // Check if the byte buffer needs to be increased in size if (bb.position() == bb.capacity()) { bb.flip(); // Create a new byte buffer with the maximum number of possible // octets, hence resize should only occur once ByteBuffer bb_new = ByteBuffer.allocate(s.length() / 3); bb_new.put(bb); bb = bb_new; } } bb.flip(); return bb; } /** * Decodes octets to characters using the UTF-8 decoding and appends * the characters to a StringBuffer. * * @return the index to the next unchecked character in the string to decode */ private static int decodeOctets(int i, ByteBuffer bb, StringBuilder sb) { // If there is only one octet and is an ASCII character if (bb.limit() == 1 && (bb.get(0) & 0xFF) < 0x80) { // Octet can be appended directly sb.append((char) bb.get(0)); return i + 2; } else { // CharBuffer cb = UTF_8_CHARSET.decode(bb); sb.append(cb.toString()); return i + bb.limit() * 3 - 1; } } private static int decodeHex(String s, int i) { final int v = decodeHex(s.charAt(i)); if (v == -1) // TODO localize { throw new IllegalArgumentException("Malformed percent-encoded octet at index " + i + ", invalid hexadecimal digit '" + s.charAt(i) + "'"); } return v; } private static final int[] HEX_TABLE = initHexTable(); private static int[] initHexTable() { int[] table = new int[0x80]; Arrays.fill(table, -1); for (char c = '0'; c <= '9'; c++) { table[c] = c - '0'; } for (char c = 'A'; c <= 'F'; c++) { table[c] = c - 'A' + 10; } for (char c = 'a'; c <= 'f'; c++) { table[c] = c - 'a' + 10; } return table; } private static int decodeHex(char c) { return (c < 128) ? HEX_TABLE[c] : -1; } /** * Checks whether the character {@code c} is hexadecimal character. * * @param c Any character * @return The is {@code c} is a hexadecimal character (e.g. 0, 5, a, A, f, ...) */ public static boolean isHexCharacter(char c) { return c < 128 && HEX_TABLE[c] != -1; } }





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