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A bundle project producing JAX-RS RI bundles. The primary artifact is an "all-in-one" OSGi-fied JAX-RS RI bundle
(jaxrs-ri.jar).
Attached to that are two compressed JAX-RS RI archives. The first archive (jaxrs-ri.zip) consists of binary RI bits and
contains the API jar (under "api" directory), RI libraries (under "lib" directory) as well as all external
RI dependencies (under "ext" directory). The secondary archive (jaxrs-ri-src.zip) contains buildable JAX-RS RI source
bundle and contains the API jar (under "api" directory), RI sources (under "src" directory) as well as all external
RI dependencies (under "ext" directory). The second archive also contains "build.xml" ANT script that builds the RI
sources. To build the JAX-RS RI simply unzip the archive, cd to the created jaxrs-ri directory and invoke "ant" from
the command line.
/*
* Copyright (c) 2010, 2020 Oracle and/or its affiliates. All rights reserved.
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Public License v. 2.0, which is available at
* http://www.eclipse.org/legal/epl-2.0.
*
* This Source Code may also be made available under the following Secondary
* Licenses when the conditions for such availability set forth in the
* Eclipse Public License v. 2.0 are satisfied: GNU General Public License,
* version 2 with the GNU Classpath Exception, which is available at
* https://www.gnu.org/software/classpath/license.html.
*
* SPDX-License-Identifier: EPL-2.0 OR GPL-2.0 WITH Classpath-exception-2.0
*/
package org.glassfish.jersey.uri;
import java.io.UnsupportedEncodingException;
import java.net.URI;
import java.net.URLDecoder;
import java.nio.ByteBuffer;
import java.nio.Buffer;
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 jakarta.ws.rs.core.MultivaluedMap;
import jakarta.ws.rs.core.PathSegment;
import org.glassfish.jersey.internal.LocalizationMessages;
import org.glassfish.jersey.internal.util.collection.MultivaluedStringMap;
/**
* Utility class for validating, encoding and decoding components
* of a URI.
*
* @author Paul Sandoz
* @author Marek Potociar
*/
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, encoded using application/x-www-form-urlencoded rules.
*/
QUERY,
/**
* The URI query component type that is a query parameter, encoded using
* application/x-www-form-urlencoded rules (space character is encoded
* as {@code +}).
*/
QUERY_PARAM,
/**
* The URI query component type that is a query parameter, encoded using
* application/x-www-form-urlencoded (space character is encoded as
* {@code %20}).
*/
QUERY_PARAM_SPACE_ENCODED,
/**
* 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(final String s, final 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(final String s, final Type t, final boolean template) {
final int i = _valid(s, t, template);
if (i > -1) {
throw new IllegalArgumentException(LocalizationMessages.URI_COMPONENT_INVALID_CHARACTER(s, t, s.charAt(i), 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(final String s, final 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(final String s, final Type t, final boolean template) {
return _valid(s, t, template) == -1;
}
private static int _valid(final String s, final Type t, final boolean template) {
final 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(final String s, final 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(final String s, final Type t, final 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(final String s, final 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(final String s, final Type t, final 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(final String s, final Type t, final boolean template, final 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(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 static final char[] HEX_DIGITS = {
'0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'A', 'B', 'C', 'D', 'E', 'F'
};
private static void appendPercentEncodedOctet(final StringBuilder sb, final int b) {
sb.append('%');
sb.append(HEX_DIGITS[b >> 4]);
sb.append(HEX_DIGITS[b & 0x0F]);
}
private static void appendUTF8EncodedCharacter(final StringBuilder sb, final int codePoint) {
final CharBuffer chars = CharBuffer.wrap(Character.toChars(codePoint));
final ByteBuffer bytes = UTF_8_CHARSET.encode(chars);
while (bytes.hasRemaining()) {
appendPercentEncodedOctet(sb, bytes.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 = {"!", "$", "&", "'", "(", ")", "*", "+", ",", ";", "="};
private static final boolean[][] ENCODING_TABLES = initEncodingTables();
private static boolean[][] initEncodingTables() {
final boolean[][] tables = new boolean[Type.values().length][];
final List l = new ArrayList();
l.addAll(Arrays.asList(SCHEME));
tables[Type.SCHEME.ordinal()] = initEncodingTable(l);
l.clear();
l.addAll(Arrays.asList(UNRESERVED));
tables[Type.UNRESERVED.ordinal()] = initEncodingTable(l);
l.addAll(Arrays.asList(SUB_DELIMS));
tables[Type.HOST.ordinal()] = initEncodingTable(l);
tables[Type.PORT.ordinal()] = initEncodingTable(Arrays.asList("0-9"));
l.add(":");
tables[Type.USER_INFO.ordinal()] = initEncodingTable(l);
l.add("@");
tables[Type.AUTHORITY.ordinal()] = initEncodingTable(l);
tables[Type.PATH_SEGMENT.ordinal()] = initEncodingTable(l);
tables[Type.PATH_SEGMENT.ordinal()][';'] = false;
tables[Type.MATRIX_PARAM.ordinal()] = tables[Type.PATH_SEGMENT.ordinal()].clone();
tables[Type.MATRIX_PARAM.ordinal()]['='] = false;
l.add("/");
tables[Type.PATH.ordinal()] = initEncodingTable(l);
tables[Type.QUERY.ordinal()] = initEncodingTable(l);
tables[Type.QUERY.ordinal()]['!'] = false;
tables[Type.QUERY.ordinal()]['*'] = false;
tables[Type.QUERY.ordinal()]['\''] = false;
tables[Type.QUERY.ordinal()]['('] = false;
tables[Type.QUERY.ordinal()][')'] = false;
tables[Type.QUERY.ordinal()][';'] = false;
tables[Type.QUERY.ordinal()][':'] = false;
tables[Type.QUERY.ordinal()]['@'] = false;
tables[Type.QUERY.ordinal()]['$'] = false;
tables[Type.QUERY.ordinal()][','] = false;
tables[Type.QUERY.ordinal()]['/'] = false;
tables[Type.QUERY.ordinal()]['?'] = false;
tables[Type.QUERY_PARAM.ordinal()] = Arrays.copyOf(
tables[Type.QUERY.ordinal()],
tables[Type.QUERY.ordinal()].length);
tables[Type.QUERY_PARAM.ordinal()]['='] = false;
tables[Type.QUERY_PARAM.ordinal()]['+'] = false;
tables[Type.QUERY_PARAM.ordinal()]['&'] = false;
tables[Type.QUERY_PARAM_SPACE_ENCODED.ordinal()] = tables[Type.QUERY_PARAM.ordinal()];
tables[Type.FRAGMENT.ordinal()] = tables[Type.QUERY.ordinal()];
return tables;
}
private static boolean[] initEncodingTable(final List allowed) {
final boolean[] table = new boolean[0x80];
for (final 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(final String s, final 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) {
throw new IllegalArgumentException(LocalizationMessages.URI_COMPONENT_ENCODED_OCTET_MALFORMED(1));
}
// Malformed percent-escaped octet at the end
if (s.charAt(n - 2) == '%') {
throw new IllegalArgumentException(LocalizationMessages.URI_COMPONENT_ENCODED_OCTET_MALFORMED(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(final URI u, final 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(final String q, final 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(final String q, final boolean decodeNames,
final boolean decodeValues) {
final MultivaluedMap queryParameters = new MultivaluedStringMap();
if (q == null || q.length() == 0) {
return queryParameters;
}
int s = 0;
do {
final 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(final MultivaluedMap params, final String param,
final boolean decodeNames, final boolean decodeValues) {
try {
final 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((decodeNames) ? URLDecoder.decode(param, "UTF-8") : param, "");
}
} catch (final 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(final String path, final boolean decode) {
this(path, decode, new MultivaluedStringMap());
}
PathSegmentImpl(final String path, final boolean decode, final 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(final URI u, final 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(final String path, final boolean decode) {
final 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(final List segments, final String segment, final boolean decode) {
final 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(final String pathSegment, final boolean decode) {
final MultivaluedMap matrixMap = new MultivaluedStringMap();
// Skip over path segment
int s = pathSegment.indexOf(';') + 1;
if (s == 0 || s == pathSegment.length()) {
return matrixMap;
}
do {
final 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(final MultivaluedMap params, final String param, final boolean decode) {
final 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(final String s, final 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(final String s, final 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(final String s, final 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(final String s, int i, ByteBuffer bb) {
if (bb == null) {
bb = ByteBuffer.allocate(1);
} else {
((Buffer) 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 (((Buffer) bb).position() == bb.capacity()) {
((Buffer) bb).flip();
// Create a new byte buffer with the maximum number of possible
// octets, hence resize should only occur once
final ByteBuffer bb_new = ByteBuffer.allocate(s.length() / 3);
bb_new.put(bb);
bb = bb_new;
}
}
((Buffer) 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(final int i, final ByteBuffer bb, final StringBuilder sb) {
// If there is only one octet and is an ASCII character
if (((Buffer) bb).limit() == 1 && (bb.get(0) & 0xFF) < 0x80) {
// Octet can be appended directly
sb.append((char) bb.get(0));
return i + 2;
} else {
//
final CharBuffer cb = UTF_8_CHARSET.decode(bb);
sb.append(cb.toString());
return i + ((Buffer) bb).limit() * 3 - 1;
}
}
private static int decodeHex(final String s, final int i) {
final int v = decodeHex(s.charAt(i));
if (v == -1) {
throw new IllegalArgumentException(LocalizationMessages.URI_COMPONENT_ENCODED_OCTET_INVALID_DIGIT(i, s.charAt(i)));
}
return v;
}
private static final int[] HEX_TABLE = initHexTable();
private static int[] initHexTable() {
final 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(final 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(final char c) {
return c < 128 && HEX_TABLE[c] != -1;
}
/**
* Return the {@code Request-Uri} representation as defined by HTTP spec. For example:
* <Method> <Request-URI> HTTP/<Version> (e.g. GET /auth;foo=bar/hello?foo=bar HTTP/1.1)
*
* @param uri uri to obtain {@code Request-Uri} from.
* @return {@code Request-Uri} representation or {@code null} if {@code uri} is not provided.
*/
public static String fullRelativeUri(final URI uri) {
if (uri == null) {
return null;
}
final String query = uri.getRawQuery();
return uri.getRawPath() + (query != null && query.length() > 0 ? "?" + query : "");
}
}