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/*
* $Header: /home/cvs/jakarta-commons/httpclient/src/java/org/apache/commons/httpclient/URI.java,v 1.36.2.5 2004/02/22 18:21:13 olegk Exp $
* $Revision: 1.36.2.5 $
* $Date: 2004/02/22 18:21:13 $
*
* ====================================================================
*
* Copyright 2002-2004 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.
* ====================================================================
*
* This software consists of voluntary contributions made by many
* individuals on behalf of the Apache Software Foundation. For more
* information on the Apache Software Foundation, please see
*
* A URI is always in an "escaped" form, since escaping or unescaping a
* completed URI might change its semantics.
*
* Implementers should be careful not to escape or unescape the same string
* more than once, since unescaping an already unescaped string might lead to
* misinterpreting a percent data character as another escaped character,
* or vice versa in the case of escaping an already escaped string.
*
* In order to avoid these problems, data types used as follows:
*
* URI character sequence: char
* octet sequence: byte
* original character sequence: String
*
*
* So, a URI is a sequence of characters as an array of a char type, which
* is not always represented as a sequence of octets as an array of byte.
*
*
* URI Syntactic Components
*
* - In general, written as follows:
* Absolute URI = <scheme>:<scheme-specific-part>
* Generic URI = <scheme>://<authority><path>?<query>
*
* - Syntax
* absoluteURI = scheme ":" ( hier_part | opaque_part )
* hier_part = ( net_path | abs_path ) [ "?" query ]
* net_path = "//" authority [ abs_path ]
* abs_path = "/" path_segments
*
*
* The following examples illustrate URI that are in common use.
*
* ftp://ftp.is.co.za/rfc/rfc1808.txt
* -- ftp scheme for File Transfer Protocol services
* gopher://spinaltap.micro.umn.edu/00/Weather/California/Los%20Angeles
* -- gopher scheme for Gopher and Gopher+ Protocol services
* http://www.math.uio.no/faq/compression-faq/part1.html
* -- http scheme for Hypertext Transfer Protocol services
* mailto:[email protected]
* -- mailto scheme for electronic mail addresses
* news:comp.infosystems.www.servers.unix
* -- news scheme for USENET news groups and articles
* telnet://melvyl.ucop.edu/
* -- telnet scheme for interactive services via the TELNET Protocol
*
* Please, notice that there are many modifications from URL(RFC 1738) and
* relative URL(RFC 1808).
*
* The expressions for a URI
*
* For escaped URI forms
* - URI(char[]) // constructor
* - char[] getRawXxx() // method
* - String getEscapedXxx() // method
* - String toString() // method
*
* For unescaped URI forms
* - URI(String) // constructor
* - String getXXX() // method
*
*
* @author Sung-Gu
* @author Mike Bowler
* @version $Revision: 1.36.2.5 $ $Date: 2002/03/14 15:14:01
*/
public class URI implements Cloneable, Comparable, Serializable {
// ----------------------------------------------------------- Constructors
/** Create an instance as an internal use */
protected URI() {
}
/**
* Construct a URI as an escaped form of a character array with the given
* charset.
*
* @param escaped the URI character sequence
* @param charset the charset string to do escape encoding
* @throws URIException If the URI cannot be created.
* @throws NullPointerException if escaped is null
* @see #getProtocolCharset
*/
public URI(char[] escaped, String charset)
throws URIException, NullPointerException {
protocolCharset = charset;
parseUriReference(new String(escaped), true);
}
/**
* Construct a URI as an escaped form of a character array.
* An URI can be placed within double-quotes or angle brackets like
* "http://test.com/" and <http://test.com/>
*
* @param escaped the URI character sequence
* @throws URIException If the URI cannot be created.
* @throws NullPointerException if escaped is null
* @see #getDefaultProtocolCharset
*/
public URI(char[] escaped)
throws URIException, NullPointerException {
parseUriReference(new String(escaped), true);
}
/**
* Construct a URI from the given string with the given charset.
*
* @param original the string to be represented to URI character sequence
* It is one of absoluteURI and relativeURI.
* @param charset the charset string to do escape encoding
* @throws URIException If the URI cannot be created.
* @see #getProtocolCharset
*/
public URI(String original, String charset) throws URIException {
protocolCharset = charset;
parseUriReference(original, false);
}
/**
* Construct a URI from the given string.
*
* URI-reference = [ absoluteURI | relativeURI ] [ "#" fragment ]
*
* An URI can be placed within double-quotes or angle brackets like
* "http://test.com/" and <http://test.com/>
*
* @param original the string to be represented to URI character sequence
* It is one of absoluteURI and relativeURI.
* @throws URIException If the URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String original) throws URIException {
parseUriReference(original, false);
}
/**
* Construct a URI from a URL.
*
* @param url a valid URL.
* @throws URIException If the URI cannot be created.
* @since 2.0
* @deprecated currently somewhat wrong and diffrent with java.net.URL usage
*/
public URI(URL url) throws URIException {
this(url.toString());
}
/**
* Construct a general URI from the given components.
*
* URI-reference = [ absoluteURI | relativeURI ] [ "#" fragment ]
* absoluteURI = scheme ":" ( hier_part | opaque_part )
* opaque_part = uric_no_slash *uric
*
* It's for absolute URI = <scheme>:<scheme-specific-part>#
* <fragment>.
*
* @param scheme the scheme string
* @param schemeSpecificPart scheme_specific_part
* @param fragment the fragment string
* @throws URIException If the URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String scheme, String schemeSpecificPart, String fragment)
throws URIException {
// validate and contruct the URI character sequence
if (scheme == null) {
throw new URIException(URIException.PARSING, "scheme required");
}
char[] s = scheme.toLowerCase().toCharArray();
if (validate(s, URI.scheme)) {
_scheme = s; // is_absoluteURI
} else {
throw new URIException(URIException.PARSING, "incorrect scheme");
}
_opaque = encode(schemeSpecificPart, allowed_opaque_part,
getProtocolCharset());
// Set flag
_is_opaque_part = true;
_fragment = fragment.toCharArray();
setURI();
}
/**
* Construct a general URI from the given components.
*
* URI-reference = [ absoluteURI | relativeURI ] [ "#" fragment ]
* absoluteURI = scheme ":" ( hier_part | opaque_part )
* relativeURI = ( net_path | abs_path | rel_path ) [ "?" query ]
* hier_part = ( net_path | abs_path ) [ "?" query ]
*
* It's for absolute URI = <scheme>:<path>?<query>#<
* fragment> and relative URI = <path>?<query>#<fragment
* >.
*
* @param scheme the scheme string
* @param authority the authority string
* @param path the path string
* @param query the query string
* @param fragment the fragment string
* @throws URIException If the new URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String scheme, String authority, String path, String query,
String fragment) throws URIException {
// validate and contruct the URI character sequence
StringBuffer buff = new StringBuffer();
if (scheme != null) {
buff.append(scheme);
buff.append(':');
}
if (authority != null) {
buff.append("//");
buff.append(authority);
}
if (path != null) { // accept empty path
if ((scheme != null || authority != null)
&& !path.startsWith("/")) {
throw new URIException(URIException.PARSING,
"abs_path requested");
}
buff.append(path);
}
if (query != null) {
buff.append('?');
buff.append(query);
}
if (fragment != null) {
buff.append('#');
buff.append(fragment);
}
parseUriReference(buff.toString(), false);
}
/**
* Construct a general URI from the given components.
*
* @param scheme the scheme string
* @param userinfo the userinfo string
* @param host the host string
* @param port the port number
* @throws URIException If the new URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String scheme, String userinfo, String host, int port)
throws URIException {
this(scheme, userinfo, host, port, null, null, null);
}
/**
* Construct a general URI from the given components.
*
* @param scheme the scheme string
* @param userinfo the userinfo string
* @param host the host string
* @param port the port number
* @param path the path string
* @throws URIException If the new URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String scheme, String userinfo, String host, int port,
String path) throws URIException {
this(scheme, userinfo, host, port, path, null, null);
}
/**
* Construct a general URI from the given components.
*
* @param scheme the scheme string
* @param userinfo the userinfo string
* @param host the host string
* @param port the port number
* @param path the path string
* @param query the query string
* @throws URIException If the new URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String scheme, String userinfo, String host, int port,
String path, String query) throws URIException {
this(scheme, userinfo, host, port, path, query, null);
}
/**
* Construct a general URI from the given components.
*
* @param scheme the scheme string
* @param userinfo the userinfo string
* @param host the host string
* @param port the port number
* @param path the path string
* @param query the query string
* @param fragment the fragment string
* @throws URIException If the new URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String scheme, String userinfo, String host, int port,
String path, String query, String fragment) throws URIException {
this(scheme, (host == null) ? null
: ((userinfo != null) ? userinfo + '@' : "") + host
+ ((port != -1) ? ":" + port : ""), path, query, fragment);
}
/**
* Construct a general URI from the given components.
*
* @param scheme the scheme string
* @param host the host string
* @param path the path string
* @param fragment the fragment string
* @throws URIException If the new URI cannot be created.
* @see #getDefaultProtocolCharset
*/
public URI(String scheme, String host, String path, String fragment)
throws URIException {
this(scheme, host, path, null, fragment);
}
/**
* Construct a general URI with the given relative URI string.
*
* @param base the base URI
* @param relative the relative URI string
* @throws URIException If the new URI cannot be created.
*/
public URI(URI base, String relative) throws URIException {
this(base, new URI(relative));
}
/**
* Construct a general URI with the given relative URI.
*
* URI-reference = [ absoluteURI | relativeURI ] [ "#" fragment ]
* relativeURI = ( net_path | abs_path | rel_path ) [ "?" query ]
*
* Resolving Relative References to Absolute Form.
*
* Examples of Resolving Relative URI References
*
* Within an object with a well-defined base URI of
*
* http://a/b/c/d;p?q
*
* the relative URI would be resolved as follows:
*
* Normal Examples
*
*
* g:h = g:h
* g = http://a/b/c/g
* ./g = http://a/b/c/g
* g/ = http://a/b/c/g/
* /g = http://a/g
* //g = http://g
* ?y = http://a/b/c/?y
* g?y = http://a/b/c/g?y
* #s = (current document)#s
* g#s = http://a/b/c/g#s
* g?y#s = http://a/b/c/g?y#s
* ;x = http://a/b/c/;x
* g;x = http://a/b/c/g;x
* g;x?y#s = http://a/b/c/g;x?y#s
* . = http://a/b/c/
* ./ = http://a/b/c/
* .. = http://a/b/
* ../ = http://a/b/
* ../g = http://a/b/g
* ../.. = http://a/
* ../../ = http://a/
* ../../g = http://a/g
*
*
* Some URI schemes do not allow a hierarchical syntax matching the
* syntax, and thus cannot use relative references.
*
* @param base the base URI
* @param relative the relative URI
* @throws URIException If the new URI cannot be created.
*/
public URI(URI base, URI relative) throws URIException {
if (base._scheme == null) {
throw new URIException(URIException.PARSING, "base URI required");
}
if (base._scheme != null) {
this._scheme = base._scheme;
this._authority = base._authority;
}
if (base._is_opaque_part || relative._is_opaque_part) {
this._scheme = base._scheme;
this._is_opaque_part = base._is_opaque_part
|| relative._is_opaque_part;
this._opaque = relative._opaque;
this._fragment = relative._fragment;
this.setURI();
return;
}
if (relative._scheme != null) {
this._scheme = relative._scheme;
this._is_net_path = relative._is_net_path;
this._authority = relative._authority;
if (relative._is_server) {
this._is_server = relative._is_server;
this._userinfo = relative._userinfo;
this._host = relative._host;
this._port = relative._port;
} else if (relative._is_reg_name) {
this._is_reg_name = relative._is_reg_name;
}
this._is_abs_path = relative._is_abs_path;
this._is_rel_path = relative._is_rel_path;
this._path = relative._path;
} else if (base._authority != null && relative._scheme == null) {
this._is_net_path = base._is_net_path;
this._authority = base._authority;
if (base._is_server) {
this._is_server = base._is_server;
this._userinfo = base._userinfo;
this._host = base._host;
this._port = base._port;
} else if (base._is_reg_name) {
this._is_reg_name = base._is_reg_name;
}
}
if (relative._authority != null) {
this._is_net_path = relative._is_net_path;
this._authority = relative._authority;
if (relative._is_server) {
this._is_server = relative._is_server;
this._userinfo = relative._userinfo;
this._host = relative._host;
this._port = relative._port;
} else if (relative._is_reg_name) {
this._is_reg_name = relative._is_reg_name;
}
this._is_abs_path = relative._is_abs_path;
this._is_rel_path = relative._is_rel_path;
this._path = relative._path;
}
// resolve the path and query if necessary
if (relative._scheme == null && relative._authority == null) {
if ((relative._path == null || relative._path.length == 0)
&& relative._query == null) {
// handle a reference to the current document, see RFC 2396
// section 5.2 step 2
this._path = base._path;
this._query = base._query;
} else {
this._path = resolvePath(base._path, relative._path);
}
}
// base._query removed
if (relative._query != null) {
this._query = relative._query;
}
// base._fragment removed
if (relative._fragment != null) {
this._fragment = relative._fragment;
}
this.setURI();
// reparse the newly built URI, this will ensure that all flags are set correctly.
// TODO there must be a better way to do this
parseUriReference(new String(_uri), true);
}
// --------------------------------------------------- Instance Variables
/** Version ID for serialization */
static final long serialVersionUID = 604752400577948726L;
/**
* Cache the hash code for this URI.
*/
protected int hash = 0;
/**
* This Uniform Resource Identifier (URI).
* The URI is always in an "escaped" form, since escaping or unescaping
* a completed URI might change its semantics.
*/
protected char[] _uri = null;
/**
* The charset of the protocol used by this URI instance.
*/
protected String protocolCharset = null;
/**
* The default charset of the protocol. RFC 2277, 2396
*/
protected static String defaultProtocolCharset = "UTF-8";
/**
* The default charset of the document. RFC 2277, 2396
* The platform's charset is used for the document by default.
*/
protected static String defaultDocumentCharset = null;
protected static String defaultDocumentCharsetByLocale = null;
protected static String defaultDocumentCharsetByPlatform = null;
// Static initializer for defaultDocumentCharset
static {
Locale locale = Locale.getDefault();
// in order to support backward compatiblity
if (locale != null) {
defaultDocumentCharsetByLocale =
LocaleToCharsetMap.getCharset(locale);
// set the default document charset
defaultDocumentCharset = defaultDocumentCharsetByLocale;
}
// in order to support platform encoding
try {
defaultDocumentCharsetByPlatform = System.getProperty("file.encoding");
} catch(SecurityException ignore) {
}
if (defaultDocumentCharset == null) {
// set the default document charset
defaultDocumentCharset = defaultDocumentCharsetByPlatform;
}
}
/**
* The scheme.
*/
protected char[] _scheme = null;
/**
* The opaque.
*/
protected char[] _opaque = null;
/**
* The authority.
*/
protected char[] _authority = null;
/**
* The userinfo.
*/
protected char[] _userinfo = null;
/**
* The host.
*/
protected char[] _host = null;
/**
* The port.
*/
protected int _port = -1;
/**
* The path.
*/
protected char[] _path = null;
/**
* The query.
*/
protected char[] _query = null;
/**
* The fragment.
*/
protected char[] _fragment = null;
/**
* The root path.
*/
protected static char[] rootPath = { '/' };
// ---------------------- Generous characters for each component validation
/**
* The percent "%" character always has the reserved purpose of being the
* escape indicator, it must be escaped as "%25" in order to be used as
* data within a URI.
*/
protected static final BitSet percent = new BitSet(256);
// Static initializer for percent
static {
percent.set('%');
}
/**
* BitSet for digit.
*
* digit = "0" | "1" | "2" | "3" | "4" | "5" | "6" | "7" |
* "8" | "9"
*
*/
protected static final BitSet digit = new BitSet(256);
// Static initializer for digit
static {
for (int i = '0'; i <= '9'; i++) {
digit.set(i);
}
}
/**
* BitSet for alpha.
*
* alpha = lowalpha | upalpha
*
*/
protected static final BitSet alpha = new BitSet(256);
// Static initializer for alpha
static {
for (int i = 'a'; i <= 'z'; i++) {
alpha.set(i);
}
for (int i = 'A'; i <= 'Z'; i++) {
alpha.set(i);
}
}
/**
* BitSet for alphanum (join of alpha & digit).
*
* alphanum = alpha | digit
*
*/
protected static final BitSet alphanum = new BitSet(256);
// Static initializer for alphanum
static {
alphanum.or(alpha);
alphanum.or(digit);
}
/**
* BitSet for hex.
*
* hex = digit | "A" | "B" | "C" | "D" | "E" | "F" |
* "a" | "b" | "c" | "d" | "e" | "f"
*
*/
protected static final BitSet hex = new BitSet(256);
// Static initializer for hex
static {
hex.or(digit);
for (int i = 'a'; i <= 'f'; i++) {
hex.set(i);
}
for (int i = 'A'; i <= 'F'; i++) {
hex.set(i);
}
}
/**
* BitSet for escaped.
*
* escaped = "%" hex hex
*
*/
protected static final BitSet escaped = new BitSet(256);
// Static initializer for escaped
static {
escaped.or(percent);
escaped.or(hex);
}
/**
* BitSet for mark.
*
* mark = "-" | "_" | "." | "!" | "~" | "*" | "'" |
* "(" | ")"
*
*/
protected static final BitSet mark = new BitSet(256);
// Static initializer for mark
static {
mark.set('-');
mark.set('_');
mark.set('.');
mark.set('!');
mark.set('~');
mark.set('*');
mark.set('\'');
mark.set('(');
mark.set(')');
}
/**
* Data characters that are allowed in a URI but do not have a reserved
* purpose are called unreserved.
*
* unreserved = alphanum | mark
*
*/
protected static final BitSet unreserved = new BitSet(256);
// Static initializer for unreserved
static {
unreserved.or(alphanum);
unreserved.or(mark);
}
/**
* BitSet for reserved.
*
* reserved = ";" | "/" | "?" | ":" | "@" | "&" | "=" | "+" |
* "$" | ","
*
*/
protected static final BitSet reserved = new BitSet(256);
// Static initializer for reserved
static {
reserved.set(';');
reserved.set('/');
reserved.set('?');
reserved.set(':');
reserved.set('@');
reserved.set('&');
reserved.set('=');
reserved.set('+');
reserved.set('$');
reserved.set(',');
}
/**
* BitSet for uric.
*
* uric = reserved | unreserved | escaped
*
*/
protected static final BitSet uric = new BitSet(256);
// Static initializer for uric
static {
uric.or(reserved);
uric.or(unreserved);
uric.or(escaped);
}
/**
* BitSet for fragment (alias for uric).
*
* fragment = *uric
*
*/
protected static final BitSet fragment = uric;
/**
* BitSet for query (alias for uric).
*
* query = *uric
*
*/
protected static final BitSet query = uric;
/**
* BitSet for pchar.
*
* pchar = unreserved | escaped |
* ":" | "@" | "&" | "=" | "+" | "$" | ","
*
*/
protected static final BitSet pchar = new BitSet(256);
// Static initializer for pchar
static {
pchar.or(unreserved);
pchar.or(escaped);
pchar.set(':');
pchar.set('@');
pchar.set('&');
pchar.set('=');
pchar.set('+');
pchar.set('$');
pchar.set(',');
}
/**
* BitSet for param (alias for pchar).
*
* param = *pchar
*
*/
protected static final BitSet param = pchar;
/**
* BitSet for segment.
*
* segment = *pchar *( ";" param )
*
*/
protected static final BitSet segment = new BitSet(256);
// Static initializer for segment
static {
segment.or(pchar);
segment.set(';');
segment.or(param);
}
/**
* BitSet for path segments.
*
* path_segments = segment *( "/" segment )
*
*/
protected static final BitSet path_segments = new BitSet(256);
// Static initializer for path_segments
static {
path_segments.set('/');
path_segments.or(segment);
}
/**
* URI absolute path.
*
* abs_path = "/" path_segments
*
*/
protected static final BitSet abs_path = new BitSet(256);
// Static initializer for abs_path
static {
abs_path.set('/');
abs_path.or(path_segments);
}
/**
* URI bitset for encoding typical non-slash characters.
*
* uric_no_slash = unreserved | escaped | ";" | "?" | ":" | "@" |
* "&" | "=" | "+" | "$" | ","
*
*/
protected static final BitSet uric_no_slash = new BitSet(256);
// Static initializer for uric_no_slash
static {
uric_no_slash.or(unreserved);
uric_no_slash.or(escaped);
uric_no_slash.set(';');
uric_no_slash.set('?');
uric_no_slash.set(';');
uric_no_slash.set('@');
uric_no_slash.set('&');
uric_no_slash.set('=');
uric_no_slash.set('+');
uric_no_slash.set('$');
uric_no_slash.set(',');
}
/**
* URI bitset that combines uric_no_slash and uric.
*
* opaque_part = uric_no_slash *uric
*
*/
protected static final BitSet opaque_part = new BitSet(256);
// Static initializer for opaque_part
static {
// it's generous. because first character must not include a slash
opaque_part.or(uric_no_slash);
opaque_part.or(uric);
}
/**
* URI bitset that combines absolute path and opaque part.
*
* path = [ abs_path | opaque_part ]
*
*/
protected static final BitSet path = new BitSet(256);
// Static initializer for path
static {
path.or(abs_path);
path.or(opaque_part);
}
/**
* Port, a logical alias for digit.
*/
protected static final BitSet port = digit;
/**
* Bitset that combines digit and dot fo IPv$address.
*
* IPv4address = 1*digit "." 1*digit "." 1*digit "." 1*digit
*
*/
protected static final BitSet IPv4address = new BitSet(256);
// Static initializer for IPv4address
static {
IPv4address.or(digit);
IPv4address.set('.');
}
/**
* RFC 2373.
*
* IPv6address = hexpart [ ":" IPv4address ]
*
*/
protected static final BitSet IPv6address = new BitSet(256);
// Static initializer for IPv6address reference
static {
IPv6address.or(hex); // hexpart
IPv6address.set(':');
IPv6address.or(IPv4address);
}
/**
* RFC 2732, 2373.
*
* IPv6reference = "[" IPv6address "]"
*
*/
protected static final BitSet IPv6reference = new BitSet(256);
// Static initializer for IPv6reference
static {
IPv6reference.set('[');
IPv6reference.or(IPv6address);
IPv6reference.set(']');
}
/**
* BitSet for toplabel.
*
* toplabel = alpha | alpha *( alphanum | "-" ) alphanum
*
*/
protected static final BitSet toplabel = new BitSet(256);
// Static initializer for toplabel
static {
toplabel.or(alphanum);
toplabel.set('-');
}
/**
* BitSet for domainlabel.
*
* domainlabel = alphanum | alphanum *( alphanum | "-" ) alphanum
*
*/
protected static final BitSet domainlabel = toplabel;
/**
* BitSet for hostname.
*
* hostname = *( domainlabel "." ) toplabel [ "." ]
*
*/
protected static final BitSet hostname = new BitSet(256);
// Static initializer for hostname
static {
hostname.or(toplabel);
// hostname.or(domainlabel);
hostname.set('.');
}
/**
* BitSet for host.
*
* host = hostname | IPv4address | IPv6reference
*
*/
protected static final BitSet host = new BitSet(256);
// Static initializer for host
static {
host.or(hostname);
// host.or(IPv4address);
host.or(IPv6reference); // IPv4address
}
/**
* BitSet for hostport.
*
* hostport = host [ ":" port ]
*
*/
protected static final BitSet hostport = new BitSet(256);
// Static initializer for hostport
static {
hostport.or(host);
hostport.set(':');
hostport.or(port);
}
/**
* Bitset for userinfo.
*
* userinfo = *( unreserved | escaped |
* ";" | ":" | "&" | "=" | "+" | "$" | "," )
*
*/
protected static final BitSet userinfo = new BitSet(256);
// Static initializer for userinfo
static {
userinfo.or(unreserved);
userinfo.or(escaped);
userinfo.set(';');
userinfo.set(':');
userinfo.set('&');
userinfo.set('=');
userinfo.set('+');
userinfo.set('$');
userinfo.set(',');
}
/**
* BitSet for within the userinfo component like user and password.
*/
public static final BitSet within_userinfo = new BitSet(256);
// Static initializer for within_userinfo
static {
within_userinfo.or(userinfo);
within_userinfo.clear(';'); // reserved within authority
within_userinfo.clear(':');
within_userinfo.clear('@');
within_userinfo.clear('?');
within_userinfo.clear('/');
}
/**
* Bitset for server.
*
* server = [ [ userinfo "@" ] hostport ]
*
*/
protected static final BitSet server = new BitSet(256);
// Static initializer for server
static {
server.or(userinfo);
server.set('@');
server.or(hostport);
}
/**
* BitSet for reg_name.
*
* reg_name = 1*( unreserved | escaped | "$" | "," |
* ";" | ":" | "@" | "&" | "=" | "+" )
*
*/
protected static final BitSet reg_name = new BitSet(256);
// Static initializer for reg_name
static {
reg_name.or(unreserved);
reg_name.or(escaped);
reg_name.set('$');
reg_name.set(',');
reg_name.set(';');
reg_name.set(':');
reg_name.set('@');
reg_name.set('&');
reg_name.set('=');
reg_name.set('+');
}
/**
* BitSet for authority.
*
* authority = server | reg_name
*
*/
protected static final BitSet authority = new BitSet(256);
// Static initializer for authority
static {
authority.or(server);
authority.or(reg_name);
}
/**
* BitSet for scheme.
*
* scheme = alpha *( alpha | digit | "+" | "-" | "." )
*
*/
protected static final BitSet scheme = new BitSet(256);
// Static initializer for scheme
static {
scheme.or(alpha);
scheme.or(digit);
scheme.set('+');
scheme.set('-');
scheme.set('.');
}
/**
* BitSet for rel_segment.
*
* rel_segment = 1*( unreserved | escaped |
* ";" | "@" | "&" | "=" | "+" | "$" | "," )
*
*/
protected static final BitSet rel_segment = new BitSet(256);
// Static initializer for rel_segment
static {
rel_segment.or(unreserved);
rel_segment.or(escaped);
rel_segment.set(';');
rel_segment.set('@');
rel_segment.set('&');
rel_segment.set('=');
rel_segment.set('+');
rel_segment.set('$');
rel_segment.set(',');
}
/**
* BitSet for rel_path.
*
* rel_path = rel_segment [ abs_path ]
*
*/
protected static final BitSet rel_path = new BitSet(256);
// Static initializer for rel_path
static {
rel_path.or(rel_segment);
rel_path.or(abs_path);
}
/**
* BitSet for net_path.
*
* net_path = "//" authority [ abs_path ]
*
*/
protected static final BitSet net_path = new BitSet(256);
// Static initializer for net_path
static {
net_path.set('/');
net_path.or(authority);
net_path.or(abs_path);
}
/**
* BitSet for hier_part.
*
* hier_part = ( net_path | abs_path ) [ "?" query ]
*
*/
protected static final BitSet hier_part = new BitSet(256);
// Static initializer for hier_part
static {
hier_part.or(net_path);
hier_part.or(abs_path);
// hier_part.set('?'); aleady included
hier_part.or(query);
}
/**
* BitSet for relativeURI.
*
* relativeURI = ( net_path | abs_path | rel_path ) [ "?" query ]
*
*/
protected static final BitSet relativeURI = new BitSet(256);
// Static initializer for relativeURI
static {
relativeURI.or(net_path);
relativeURI.or(abs_path);
relativeURI.or(rel_path);
// relativeURI.set('?'); aleady included
relativeURI.or(query);
}
/**
* BitSet for absoluteURI.
*
* absoluteURI = scheme ":" ( hier_part | opaque_part )
*
*/
protected static final BitSet absoluteURI = new BitSet(256);
// Static initializer for absoluteURI
static {
absoluteURI.or(scheme);
absoluteURI.set(':');
absoluteURI.or(hier_part);
absoluteURI.or(opaque_part);
}
/**
* BitSet for URI-reference.
*
* URI-reference = [ absoluteURI | relativeURI ] [ "#" fragment ]
*
*/
protected static final BitSet URI_reference = new BitSet(256);
// Static initializer for URI_reference
static {
URI_reference.or(absoluteURI);
URI_reference.or(relativeURI);
URI_reference.set('#');
URI_reference.or(fragment);
}
// ---------------------------- Characters disallowed within the URI syntax
// Excluded US-ASCII Characters are like control, space, delims and unwise
/**
* BitSet for control.
*/
public static final BitSet control = new BitSet(256);
// Static initializer for control
static {
for (int i = 0; i <= 0x1F; i++) {
control.set(i);
}
control.set(0x7F);
}
/**
* BitSet for space.
*/
public static final BitSet space = new BitSet(256);
// Static initializer for space
static {
space.set(0x20);
}
/**
* BitSet for delims.
*/
public static final BitSet delims = new BitSet(256);
// Static initializer for delims
static {
delims.set('<');
delims.set('>');
delims.set('#');
delims.set('%');
delims.set('"');
}
/**
* BitSet for unwise.
*/
public static final BitSet unwise = new BitSet(256);
// Static initializer for unwise
static {
unwise.set('{');
unwise.set('}');
unwise.set('|');
unwise.set('\\');
unwise.set('^');
unwise.set('[');
unwise.set(']');
unwise.set('`');
}
/**
* Disallowed rel_path before escaping.
*/
public static final BitSet disallowed_rel_path = new BitSet(256);
// Static initializer for disallowed_rel_path
static {
disallowed_rel_path.or(uric);
disallowed_rel_path.andNot(rel_path);
}
/**
* Disallowed opaque_part before escaping.
*/
public static final BitSet disallowed_opaque_part = new BitSet(256);
// Static initializer for disallowed_opaque_part
static {
disallowed_opaque_part.or(uric);
disallowed_opaque_part.andNot(opaque_part);
}
// ----------------------- Characters allowed within and for each component
/**
* Those characters that are allowed for the authority component.
*/
public static final BitSet allowed_authority = new BitSet(256);
// Static initializer for allowed_authority
static {
allowed_authority.or(authority);
allowed_authority.clear('%');
}
/**
* Those characters that are allowed for the opaque_part.
*/
public static final BitSet allowed_opaque_part = new BitSet(256);
// Static initializer for allowed_opaque_part
static {
allowed_opaque_part.or(opaque_part);
allowed_opaque_part.clear('%');
}
/**
* Those characters that are allowed for the reg_name.
*/
public static final BitSet allowed_reg_name = new BitSet(256);
// Static initializer for allowed_reg_name
static {
allowed_reg_name.or(reg_name);
// allowed_reg_name.andNot(percent);
allowed_reg_name.clear('%');
}
/**
* Those characters that are allowed for the userinfo component.
*/
public static final BitSet allowed_userinfo = new BitSet(256);
// Static initializer for allowed_userinfo
static {
allowed_userinfo.or(userinfo);
// allowed_userinfo.andNot(percent);
allowed_userinfo.clear('%');
}
/**
* Those characters that are allowed for within the userinfo component.
*/
public static final BitSet allowed_within_userinfo = new BitSet(256);
// Static initializer for allowed_within_userinfo
static {
allowed_within_userinfo.or(within_userinfo);
allowed_within_userinfo.clear('%');
}
/**
* Those characters that are allowed for the IPv6reference component.
* The characters '[', ']' in IPv6reference should be excluded.
*/
public static final BitSet allowed_IPv6reference = new BitSet(256);
// Static initializer for allowed_IPv6reference
static {
allowed_IPv6reference.or(IPv6reference);
// allowed_IPv6reference.andNot(unwise);
allowed_IPv6reference.clear('[');
allowed_IPv6reference.clear(']');
}
/**
* Those characters that are allowed for the host component.
* The characters '[', ']' in IPv6reference should be excluded.
*/
public static final BitSet allowed_host = new BitSet(256);
// Static initializer for allowed_host
static {
allowed_host.or(hostname);
allowed_host.or(allowed_IPv6reference);
}
/**
* Those characters that are allowed for the authority component.
*/
public static final BitSet allowed_within_authority = new BitSet(256);
// Static initializer for allowed_within_authority
static {
allowed_within_authority.or(server);
allowed_within_authority.or(reg_name);
allowed_within_authority.clear(';');
allowed_within_authority.clear(':');
allowed_within_authority.clear('@');
allowed_within_authority.clear('?');
allowed_within_authority.clear('/');
}
/**
* Those characters that are allowed for the abs_path.
*/
public static final BitSet allowed_abs_path = new BitSet(256);
// Static initializer for allowed_abs_path
static {
allowed_abs_path.or(abs_path);
// allowed_abs_path.set('/'); // aleady included
allowed_abs_path.andNot(percent);
}
/**
* Those characters that are allowed for the rel_path.
*/
public static final BitSet allowed_rel_path = new BitSet(256);
// Static initializer for allowed_rel_path
static {
allowed_rel_path.or(rel_path);
allowed_rel_path.clear('%');
}
/**
* Those characters that are allowed within the path.
*/
public static final BitSet allowed_within_path = new BitSet(256);
// Static initializer for allowed_within_path
static {
allowed_within_path.or(abs_path);
allowed_within_path.clear('/');
allowed_within_path.clear(';');
allowed_within_path.clear('=');
allowed_within_path.clear('?');
}
/**
* Those characters that are allowed for the query component.
*/
public static final BitSet allowed_query = new BitSet(256);
// Static initializer for allowed_query
static {
allowed_query.or(uric);
allowed_query.clear('%');
}
/**
* Those characters that are allowed within the query component.
*/
public static final BitSet allowed_within_query = new BitSet(256);
// Static initializer for allowed_within_query
static {
allowed_within_query.or(allowed_query);
allowed_within_query.andNot(reserved); // excluded 'reserved'
}
/**
* Those characters that are allowed for the fragment component.
*/
public static final BitSet allowed_fragment = new BitSet(256);
// Static initializer for allowed_fragment
static {
allowed_fragment.or(uric);
allowed_fragment.clear('%');
}
// ------------------------------------------- Flags for this URI-reference
// TODO: Figure out what all these variables are for and provide javadoc
// URI-reference = [ absoluteURI | relativeURI ] [ "#" fragment ]
// absoluteURI = scheme ":" ( hier_part | opaque_part )
protected boolean _is_hier_part;
protected boolean _is_opaque_part;
// relativeURI = ( net_path | abs_path | rel_path ) [ "?" query ]
// hier_part = ( net_path | abs_path ) [ "?" query ]
protected boolean _is_net_path;
protected boolean _is_abs_path;
protected boolean _is_rel_path;
// net_path = "//" authority [ abs_path ]
// authority = server | reg_name
protected boolean _is_reg_name;
protected boolean _is_server; // = _has_server
// server = [ [ userinfo "@" ] hostport ]
// host = hostname | IPv4address | IPv6reference
protected boolean _is_hostname;
protected boolean _is_IPv4address;
protected boolean _is_IPv6reference;
// ------------------------------------------ Character and escape encoding
/**
* Encodes URI string.
*
* This is a two mapping, one from original characters to octets, and
* subsequently a second from octets to URI characters:
*
* original character sequence->octet sequence->URI character sequence
*
*
* An escaped octet is encoded as a character triplet, consisting of the
* percent character "%" followed by the two hexadecimal digits
* representing the octet code. For example, "%20" is the escaped
* encoding for the US-ASCII space character.
*
* Conversion from the local filesystem character set to UTF-8 will
* normally involve a two step process. First convert the local character
* set to the UCS; then convert the UCS to UTF-8.
* The first step in the process can be performed by maintaining a mapping
* table that includes the local character set code and the corresponding
* UCS code.
* The next step is to convert the UCS character code to the UTF-8 encoding.
*
* Mapping between vendor codepages can be done in a very similar manner
* as described above.
*
* The only time escape encodings can allowedly be made is when a URI is
* being created from its component parts. The escape and validate methods
* are internally performed within this method.
*
* @param original the original character sequence
* @param allowed those characters that are allowed within a component
* @param charset the protocol charset
* @return URI character sequence
* @throws URIException null component or unsupported character encoding
*/
protected static char[] encode(String original, BitSet allowed,
String charset) throws URIException {
// encode original to uri characters.
if (original == null) {
throw new URIException(URIException.PARSING, "null");
}
// escape octet to uri characters.
if (allowed == null) {
throw new URIException(URIException.PARSING,
"null allowed characters");
}
byte[] octets;
try {
octets = original.getBytes(charset);
} catch (UnsupportedEncodingException error) {
throw new URIException(URIException.UNSUPPORTED_ENCODING, charset);
}
StringBuffer buf = new StringBuffer(octets.length);
for (int i = 0; i < octets.length; i++) {
char c = (char) octets[i];
if (allowed.get(c)) {
buf.append(c);
} else {
buf.append('%');
byte b = octets[i]; // use the original byte value
char hexadecimal = Character.forDigit((b >> 4) & 0xF, 16);
buf.append(Character.toUpperCase(hexadecimal)); // high
hexadecimal = Character.forDigit(b & 0xF, 16);
buf.append(Character.toUpperCase(hexadecimal)); // low
}
}
return buf.toString().toCharArray();
}
/**
* Decodes URI encoded string.
*
* This is a two mapping, one from URI characters to octets, and
* subsequently a second from octets to original characters:
*
* URI character sequence->octet sequence->original character sequence
*
*
* A URI must be separated into its components before the escaped
* characters within those components can be allowedly decoded.
*
* Notice that there is a chance that URI characters that are non UTF-8
* may be parsed as valid UTF-8. A recent non-scientific analysis found
* that EUC encoded Japanese words had a 2.7% false reading; SJIS had a
* 0.0005% false reading; other encoding such as ASCII or KOI-8 have a 0%
* false reading.
*
* The percent "%" character always has the reserved purpose of being
* the escape indicator, it must be escaped as "%25" in order to be used
* as data within a URI.
*
* The unescape method is internally performed within this method.
*
* @param component the URI character sequence
* @param charset the protocol charset
* @return original character sequence
* @throws URIException incomplete trailing escape pattern or unsupported
* character encoding
*/
protected static String decode(char[] component, String charset)
throws URIException {
// unescape uri characters to octets
if (component == null) {
return null;
}
byte[] octets;
try {
octets = new String(component).getBytes(charset);
} catch (UnsupportedEncodingException error) {
throw new URIException(URIException.UNSUPPORTED_ENCODING,
"not supported " + charset + " encoding");
}
int length = octets.length;
int oi = 0; // output index
for (int ii = 0; ii < length; oi++) {
byte aByte = (byte) octets[ii++];
if (aByte == '%' && ii + 2 <= length) {
byte high = (byte) Character.digit((char) octets[ii++], 16);
byte low = (byte) Character.digit((char) octets[ii++], 16);
if (high == -1 || low == -1) {
throw new URIException(URIException.ESCAPING,
"incomplete trailing escape pattern");
}
aByte = (byte) ((high << 4) + low);
}
octets[oi] = (byte) aByte;
}
String result;
try {
result = new String(octets, 0, oi, charset);
} catch (UnsupportedEncodingException error) {
throw new URIException(URIException.UNSUPPORTED_ENCODING,
"not supported " + charset + " encoding");
}
return result;
}
/**
* Pre-validate the unescaped URI string within a specific component.
*
* @param component the component string within the component
* @param disallowed those characters disallowed within the component
* @return if true, it doesn't have the disallowed characters
* if false, the component is undefined or an incorrect one
*/
protected boolean prevalidate(String component, BitSet disallowed) {
// prevalidate the given component by disallowed characters
if (component == null) {
return false; // undefined
}
char[] target = component.toCharArray();
for (int i = 0; i < target.length; i++) {
if (disallowed.get(target[i])) {
return false;
}
}
return true;
}
/**
* Validate the URI characters within a specific component.
* The component must be performed after escape encoding. Or it doesn't
* include escaped characters.
*
* @param component the characters sequence within the component
* @param generous those characters that are allowed within a component
* @return if true, it's the correct URI character sequence
*/
protected boolean validate(char[] component, BitSet generous) {
// validate each component by generous characters
return validate(component, 0, -1, generous);
}
/**
* Validate the URI characters within a specific component.
* The component must be performed after escape encoding. Or it doesn't
* include escaped characters.
*
* It's not that much strict, generous. The strict validation might be
* performed before being called this method.
*
* @param component the characters sequence within the component
* @param soffset the starting offset of the given component
* @param eoffset the ending offset of the given component
* if -1, it means the length of the component
* @param generous those characters that are allowed within a component
* @return if true, it's the correct URI character sequence
*/
protected boolean validate(char[] component, int soffset, int eoffset,
BitSet generous) {
// validate each component by generous characters
if (eoffset == -1) {
eoffset = component.length - 1;
}
for (int i = soffset; i <= eoffset; i++) {
if (!generous.get(component[i])) {
return false;
}
}
return true;
}
/**
* In order to avoid any possilbity of conflict with non-ASCII characters,
* Parse a URI reference as a String with the character
* encoding of the local system or the document.
*
* The following line is the regular expression for breaking-down a URI
* reference into its components.
*
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
* 12 3 4 5 6 7 8 9
*
* For example, matching the above expression to
* http://jakarta.apache.org/ietf/uri/#Related
* results in the following subexpression matches:
*
* $1 = http:
* scheme = $2 = http
* $3 = //jakarta.apache.org
* authority = $4 = jakarta.apache.org
* path = $5 = /ietf/uri/
* $6 =
* query = $7 =
* $8 = #Related
* fragment = $9 = Related
*
*
* @param original the original character sequence
* @param escaped true if original is escaped
* @throws URIException If an error occurs.
*/
protected void parseUriReference(String original, boolean escaped)
throws URIException {
// validate and contruct the URI character sequence
if (original == null) {
throw new URIException("URI-Reference required");
}
/* @
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
*/
String tmp = original.trim();
/*
* The length of the string sequence of characters.
* It may not be equal to the length of the byte array.
*/
int length = tmp.length();
/*
* Remove the delimiters like angle brackets around an URI.
*/
if (length > 0) {
char[] firstDelimiter = { tmp.charAt(0) };
if (validate(firstDelimiter, delims)) {
if (length >= 2) {
char[] lastDelimiter = { tmp.charAt(length - 1) };
if (validate(lastDelimiter, delims)) {
tmp = tmp.substring(1, length - 1);
length = length - 2;
}
}
}
}
/*
* The starting index
*/
int from = 0;
/*
* The test flag whether the URI is started from the path component.
*/
boolean isStartedFromPath = false;
int atColon = tmp.indexOf(':');
int atSlash = tmp.indexOf('/');
if (atColon < 0 || (atSlash >= 0 && atSlash < atColon)) {
isStartedFromPath = true;
}
/*
*
* @@@@@@@@
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
*
*/
int at = indexFirstOf(tmp, isStartedFromPath ? "/?#" : ":/?#", from);
if (at == -1) {
at = 0;
}
/*
* Parse the scheme.
*
* scheme = $2 = http
* @
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
*
*/
if (at < length && tmp.charAt(at) == ':') {
char[] target = tmp.substring(0, at).toLowerCase().toCharArray();
if (validate(target, scheme)) {
_scheme = target;
} else {
throw new URIException("incorrect scheme");
}
from = ++at;
}
/*
* Parse the authority component.
*
* authority = $4 = jakarta.apache.org
* @@
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
*
*/
// Reset flags
_is_net_path = _is_abs_path = _is_rel_path = _is_hier_part = false;
if (0 <= at && at < length && tmp.charAt(at) == '/') {
// Set flag
_is_hier_part = true;
if (at + 2 < length && tmp.charAt(at + 1) == '/') {
// the temporary index to start the search from
int next = indexFirstOf(tmp, "/?#", at + 2);
if (next == -1) {
next = (tmp.substring(at + 2).length() == 0) ? at + 2
: tmp.length();
}
parseAuthority(tmp.substring(at + 2, next), escaped);
from = at = next;
// Set flag
_is_net_path = true;
}
if (from == at) {
// Set flag
_is_abs_path = true;
}
}
/*
* Parse the path component.
*
* path = $5 = /ietf/uri/
* @@@@@@
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
*
*/
if (from < length) {
// rel_path = rel_segment [ abs_path ]
int next = indexFirstOf(tmp, "?#", from);
if (next == -1) {
next = tmp.length();
}
if (!_is_abs_path) {
if (!escaped
&& prevalidate(tmp.substring(from, next), disallowed_rel_path)
|| escaped
&& validate(tmp.substring(from, next).toCharArray(), rel_path)) {
// Set flag
_is_rel_path = true;
} else if (!escaped
&& prevalidate(tmp.substring(from, next), disallowed_opaque_part)
|| escaped
&& validate(tmp.substring(from, next).toCharArray(), opaque_part)) {
// Set flag
_is_opaque_part = true;
} else {
// the path component may be empty
_path = null;
}
}
if (escaped) {
setRawPath(tmp.substring(from, next).toCharArray());
} else {
setPath(tmp.substring(from, next));
}
at = next;
}
// set the charset to do escape encoding
String charset = getProtocolCharset();
/*
* Parse the query component.
*
* query = $7 =
* @@@@@@@@@
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
*
*/
if (0 <= at && at + 1 < length && tmp.charAt(at) == '?') {
int next = tmp.indexOf('#', at + 1);
if (next == -1) {
next = tmp.length();
}
_query = (escaped) ? tmp.substring(at + 1, next).toCharArray()
: encode(tmp.substring(at + 1, next), allowed_query, charset);
at = next;
}
/*
* Parse the fragment component.
*
* fragment = $9 = Related
* @@@@@@@@
* ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
*
*/
if (0 <= at && at + 1 <= length && tmp.charAt(at) == '#') {
if (at + 1 == length) { // empty fragment
_fragment = "".toCharArray();
} else {
_fragment = (escaped) ? tmp.substring(at + 1).toCharArray()
: encode(tmp.substring(at + 1), allowed_fragment, charset);
}
}
// set this URI.
setURI();
}
/**
* Get the earlier index that to be searched for the first occurrance in
* one of any of the given string.
*
* @param s the string to be indexed
* @param delims the delimiters used to index
* @return the earlier index if there are delimiters
*/
protected int indexFirstOf(String s, String delims) {
return indexFirstOf(s, delims, -1);
}
/**
* Get the earlier index that to be searched for the first occurrance in
* one of any of the given string.
*
* @param s the string to be indexed
* @param delims the delimiters used to index
* @param offset the from index
* @return the earlier index if there are delimiters
*/
protected int indexFirstOf(String s, String delims, int offset) {
if (s == null || s.length() == 0) {
return -1;
}
if (delims == null || delims.length() == 0) {
return -1;
}
// check boundaries
if (offset < 0) {
offset = 0;
} else if (offset > s.length()) {
return -1;
}
// s is never null
int min = s.length();
char[] delim = delims.toCharArray();
for (int i = 0; i < delim.length; i++) {
int at = s.indexOf(delim[i], offset);
if (at >= 0 && at < min) {
min = at;
}
}
return (min == s.length()) ? -1 : min;
}
/**
* Get the earlier index that to be searched for the first occurrance in
* one of any of the given array.
*
* @param s the character array to be indexed
* @param delim the delimiter used to index
* @return the ealier index if there are a delimiter
*/
protected int indexFirstOf(char[] s, char delim) {
return indexFirstOf(s, delim, 0);
}
/**
* Get the earlier index that to be searched for the first occurrance in
* one of any of the given array.
*
* @param s the character array to be indexed
* @param delim the delimiter used to index
* @param offset The offset.
* @return the ealier index if there is a delimiter
*/
protected int indexFirstOf(char[] s, char delim, int offset) {
if (s == null || s.length == 0) {
return -1;
}
// check boundaries
if (offset < 0) {
offset = 0;
} else if (offset > s.length) {
return -1;
}
for (int i = offset; i < s.length; i++) {
if (s[i] == delim) {
return i;
}
}
return -1;
}
/**
* Parse the authority component.
*
* @param original the original character sequence of authority component
* @param escaped true if original is escaped
* @throws URIException If an error occurs.
*/
protected void parseAuthority(String original, boolean escaped)
throws URIException {
// Reset flags
_is_reg_name = _is_server =
_is_hostname = _is_IPv4address = _is_IPv6reference = false;
// set the charset to do escape encoding
String charset = getProtocolCharset();
boolean hasPort = true;
int from = 0;
int next = original.indexOf('@');
if (next != -1) { // neither -1 and 0
// each protocol extented from URI supports the specific userinfo
_userinfo = (escaped) ? original.substring(0, next).toCharArray()
: encode(original.substring(0, next), allowed_userinfo,
charset);
from = next + 1;
}
next = original.indexOf('[', from);
if (next >= from) {
next = original.indexOf(']', from);
if (next == -1) {
throw new URIException(URIException.PARSING, "IPv6reference");
} else {
next++;
}
// In IPv6reference, '[', ']' should be excluded
_host = (escaped) ? original.substring(from, next).toCharArray()
: encode(original.substring(from, next), allowed_IPv6reference,
charset);
// Set flag
_is_IPv6reference = true;
} else { // only for !_is_IPv6reference
next = original.indexOf(':', from);
if (next == -1) {
next = original.length();
hasPort = false;
}
// REMINDME: it doesn't need the pre-validation
_host = original.substring(from, next).toCharArray();
if (validate(_host, IPv4address)) {
// Set flag
_is_IPv4address = true;
} else if (validate(_host, hostname)) {
// Set flag
_is_hostname = true;
} else {
// Set flag
_is_reg_name = true;
}
}
if (_is_reg_name) {
// Reset flags for a server-based naming authority
_is_server = _is_hostname = _is_IPv4address =
_is_IPv6reference = false;
// set a registry-based naming authority
_authority = (escaped) ? original.toString().toCharArray()
: encode(original.toString(), allowed_reg_name, charset);
} else {
if (original.length() - 1 > next && hasPort
&& original.charAt(next) == ':') { // not empty
from = next + 1;
try {
_port = Integer.parseInt(original.substring(from));
} catch (NumberFormatException error) {
throw new URIException(URIException.PARSING,
"invalid port number");
}
}
// set a server-based naming authority
StringBuffer buf = new StringBuffer();
if (_userinfo != null) { // has_userinfo
buf.append(_userinfo);
buf.append('@');
}
if (_host != null) {
buf.append(_host);
if (_port != -1) {
buf.append(':');
buf.append(_port);
}
}
_authority = buf.toString().toCharArray();
// Set flag
_is_server = true;
}
}
/**
* Once it's parsed successfully, set this URI.
*
* @see #getRawURI
*/
protected void setURI() {
// set _uri
StringBuffer buf = new StringBuffer();
// ^(([^:/?#]+):)?(//([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?
if (_scheme != null) {
buf.append(_scheme);
buf.append(':');
}
if (_is_net_path) {
buf.append("//");
if (_authority != null) { // has_authority
if (_userinfo != null) { // by default, remove userinfo part
if (_host != null) {
buf.append(_host);
if (_port != -1) {
buf.append(':');
buf.append(_port);
}
}
} else {
buf.append(_authority);
}
}
}
if (_opaque != null && _is_opaque_part) {
buf.append(_opaque);
} else if (_path != null) {
// _is_hier_part or _is_relativeURI
if (_path.length != 0) {
buf.append(_path);
}
}
if (_query != null) { // has_query
buf.append('?');
buf.append(_query);
}
// ignore the fragment identifier
_uri = buf.toString().toCharArray();
hash = 0;
}
// ----------------------------------------------------------- Test methods
/**
* Tell whether or not this URI is absolute.
*
* @return true iif this URI is absoluteURI
*/
public boolean isAbsoluteURI() {
return (_scheme != null);
}
/**
* Tell whether or not this URI is relative.
*
* @return true iif this URI is relativeURI
*/
public boolean isRelativeURI() {
return (_scheme == null);
}
/**
* Tell whether or not the absoluteURI of this URI is hier_part.
*
* @return true iif the absoluteURI is hier_part
*/
public boolean isHierPart() {
return _is_hier_part;
}
/**
* Tell whether or not the absoluteURI of this URI is opaque_part.
*
* @return true iif the absoluteURI is opaque_part
*/
public boolean isOpaquePart() {
return _is_opaque_part;
}
/**
* Tell whether or not the relativeURI or heir_part of this URI is net_path.
* It's the same function as the has_authority() method.
*
* @return true iif the relativeURI or heir_part is net_path
* @see #hasAuthority
*/
public boolean isNetPath() {
return _is_net_path || (_authority != null);
}
/**
* Tell whether or not the relativeURI or hier_part of this URI is abs_path.
*
* @return true iif the relativeURI or hier_part is abs_path
*/
public boolean isAbsPath() {
return _is_abs_path;
}
/**
* Tell whether or not the relativeURI of this URI is rel_path.
*
* @return true iif the relativeURI is rel_path
*/
public boolean isRelPath() {
return _is_rel_path;
}
/**
* Tell whether or not this URI has authority.
* It's the same function as the is_net_path() method.
*
* @return true iif this URI has authority
* @see #isNetPath
*/
public boolean hasAuthority() {
return (_authority != null) || _is_net_path;
}
/**
* Tell whether or not the authority component of this URI is reg_name.
*
* @return true iif the authority component is reg_name
*/
public boolean isRegName() {
return _is_reg_name;
}
/**
* Tell whether or not the authority component of this URI is server.
*
* @return true iif the authority component is server
*/
public boolean isServer() {
return _is_server;
}
/**
* Tell whether or not this URI has userinfo.
*
* @return true iif this URI has userinfo
*/
public boolean hasUserinfo() {
return (_userinfo != null);
}
/**
* Tell whether or not the host part of this URI is hostname.
*
* @return true iif the host part is hostname
*/
public boolean isHostname() {
return _is_hostname;
}
/**
* Tell whether or not the host part of this URI is IPv4address.
*
* @return true iif the host part is IPv4address
*/
public boolean isIPv4address() {
return _is_IPv4address;
}
/**
* Tell whether or not the host part of this URI is IPv6reference.
*
* @return true iif the host part is IPv6reference
*/
public boolean isIPv6reference() {
return _is_IPv6reference;
}
/**
* Tell whether or not this URI has query.
*
* @return true iif this URI has query
*/
public boolean hasQuery() {
return (_query != null);
}
/**
* Tell whether or not this URI has fragment.
*
* @return true iif this URI has fragment
*/
public boolean hasFragment() {
return (_fragment != null);
}
// ---------------------------------------------------------------- Charset
/**
* Set the default charset of the protocol.
*
* The character set used to store files SHALL remain a local decision and
* MAY depend on the capability of local operating systems. Prior to the
* exchange of URIs they SHOULD be converted into a ISO/IEC 10646 format
* and UTF-8 encoded. This approach, while allowing international exchange
* of URIs, will still allow backward compatibility with older systems
* because the code set positions for ASCII characters are identical to the
* one byte sequence in UTF-8.
*
* An individual URI scheme may require a single charset, define a default
* charset, or provide a way to indicate the charset used.
*
*
* Always all the time, the setter method is always succeeded and throws
* DefaultCharsetChanged exception.
*
* So API programmer must follow the following way:
*
* import org.apache.util.URI$DefaultCharsetChanged;
* .
* .
* .
* try {
* URI.setDefaultProtocolCharset("UTF-8");
* } catch (DefaultCharsetChanged cc) {
* // CASE 1: the exception could be ignored, when it is set by user
* if (cc.getReasonCode() == DefaultCharsetChanged.PROTOCOL_CHARSET) {
* // CASE 2: let user know the default protocol charset changed
* } else {
* // CASE 2: let user know the default document charset changed
* }
* }
*
* An individual URI scheme may require a single charset, define a default
* charset, or provide a way to indicate the charset used.
*
* To work globally either requires support of a number of character sets
* and to be able to convert between them, or the use of a single preferred
* character set.
* For support of global compatibility it is STRONGLY RECOMMENDED that
* clients and servers use UTF-8 encoding when exchanging URIs.
*
* @return the default charset string
*/
public static String getDefaultProtocolCharset() {
return defaultProtocolCharset;
}
/**
* Get the protocol charset used by this current URI instance.
* It was set by the constructor for this instance. If it was not set by
* contructor, it will return the default protocol charset.
*
* @return the protocol charset string
* @see #getDefaultProtocolCharset
*/
public String getProtocolCharset() {
return (protocolCharset != null)
? protocolCharset
: defaultProtocolCharset;
}
/**
* Set the default charset of the document.
*
* Notice that it will be possible to contain mixed characters (e.g.
* ftp://host/KoreanNamespace/ChineseResource). To handle the Bi-directional
* display of these character sets, the protocol charset could be simply
* used again. Because it's not yet implemented that the insertion of BIDI
* control characters at different points during composition is extracted.
*
*
* Always all the time, the setter method is always succeeded and throws
* DefaultCharsetChanged exception.
*
* So API programmer must follow the following way:
*
* import org.apache.util.URI$DefaultCharsetChanged;
* .
* .
* .
* try {
* URI.setDefaultDocumentCharset("EUC-KR");
* } catch (DefaultCharsetChanged cc) {
* // CASE 1: the exception could be ignored, when it is set by user
* if (cc.getReasonCode() == DefaultCharsetChanged.DOCUMENT_CHARSET) {
* // CASE 2: let user know the default document charset changed
* } else {
* // CASE 2: let user know the default protocol charset changed
* }
* }
*
* authority = server | reg_name
*
*
* @param escapedAuthority the raw escaped authority
* @throws URIException If {@link
* #parseAuthority(java.lang.String,boolean)} fails
* @throws NullPointerException null authority
*/
public void setRawAuthority(char[] escapedAuthority)
throws URIException, NullPointerException {
parseAuthority(new String(escapedAuthority), true);
setURI();
}
/**
* Set the authority. It can be one type of server, hostport, hostname,
* IPv4address, IPv6reference and reg_name.
* Note that there is no setAuthority method by the escape encoding reason.
*
* @param escapedAuthority the escaped authority string
* @throws URIException If {@link
* #parseAuthority(java.lang.String,boolean)} fails
*/
public void setEscapedAuthority(String escapedAuthority)
throws URIException {
parseAuthority(escapedAuthority, true);
setURI();
}
/**
* Get the raw-escaped authority.
*
* @return the raw-escaped authority
*/
public char[] getRawAuthority() {
return _authority;
}
/**
* Get the escaped authority.
*
* @return the escaped authority
*/
public String getEscapedAuthority() {
return (_authority == null) ? null : new String(_authority);
}
/**
* Get the authority.
*
* @return the authority
* @throws URIException If {@link #decode} fails
*/
public String getAuthority() throws URIException {
return (_authority == null) ? null : decode(_authority,
getProtocolCharset());
}
// ----------------------------------------------------------- The userinfo
/**
* Get the raw-escaped userinfo.
*
* @return the raw-escaped userinfo
* @see #getAuthority
*/
public char[] getRawUserinfo() {
return _userinfo;
}
/**
* Get the escaped userinfo.
*
* @return the escaped userinfo
* @see #getAuthority
*/
public String getEscapedUserinfo() {
return (_userinfo == null) ? null : new String(_userinfo);
}
/**
* Get the userinfo.
*
* @return the userinfo
* @throws URIException If {@link #decode} fails
* @see #getAuthority
*/
public String getUserinfo() throws URIException {
return (_userinfo == null) ? null : decode(_userinfo,
getProtocolCharset());
}
// --------------------------------------------------------------- The host
/**
* Get the host.
*
* host = hostname | IPv4address | IPv6reference
*
*
* @return the host
* @see #getAuthority
*/
public char[] getRawHost() {
return _host;
}
/**
* Get the host.
*
* host = hostname | IPv4address | IPv6reference
*
*
* @return the host
* @throws URIException If {@link #decode} fails
* @see #getAuthority
*/
public String getHost() throws URIException {
return decode(_host, getProtocolCharset());
}
// --------------------------------------------------------------- The port
/**
* Get the port. In order to get the specfic default port, the specific
* protocol-supported class extended from the URI class should be used.
* It has the server-based naming authority.
*
* @return the port
* if -1, it has the default port for the scheme or the server-based
* naming authority is not supported in the specific URI.
*/
public int getPort() {
return _port;
}
// --------------------------------------------------------------- The path
/**
* Set the raw-escaped path.
*
* @param escapedPath the path character sequence
* @throws URIException encoding error or not proper for initial instance
* @see #encode
*/
public void setRawPath(char[] escapedPath) throws URIException {
if (escapedPath == null || escapedPath.length == 0) {
_path = _opaque = escapedPath;
setURI();
return;
}
// remove the fragment identifier
escapedPath = removeFragmentIdentifier(escapedPath);
if (_is_net_path || _is_abs_path) {
if (escapedPath[0] != '/') {
throw new URIException(URIException.PARSING,
"not absolute path");
}
if (!validate(escapedPath, abs_path)) {
throw new URIException(URIException.ESCAPING,
"escaped absolute path not valid");
}
_path = escapedPath;
} else if (_is_rel_path) {
int at = indexFirstOf(escapedPath, '/');
if (at == 0) {
throw new URIException(URIException.PARSING, "incorrect path");
}
if (at > 0 && !validate(escapedPath, 0, at - 1, rel_segment)
&& !validate(escapedPath, at, -1, abs_path)
|| at < 0 && !validate(escapedPath, 0, -1, rel_segment)) {
throw new URIException(URIException.ESCAPING,
"escaped relative path not valid");
}
_path = escapedPath;
} else if (_is_opaque_part) {
if (!uric_no_slash.get(escapedPath[0])
&& !validate(escapedPath, 1, -1, uric)) {
throw new URIException(URIException.ESCAPING,
"escaped opaque part not valid");
}
_opaque = escapedPath;
} else {
throw new URIException(URIException.PARSING, "incorrect path");
}
setURI();
}
/**
* Set the escaped path.
*
* @param escapedPath the escaped path string
* @throws URIException encoding error or not proper for initial instance
* @see #encode
*/
public void setEscapedPath(String escapedPath) throws URIException {
if (escapedPath == null) {
_path = _opaque = null;
setURI();
return;
}
setRawPath(escapedPath.toCharArray());
}
/**
* Set the path.
*
* @param path the path string
* @throws URIException set incorrectly or fragment only
* @see #encode
*/
public void setPath(String path) throws URIException {
if (path == null || path.length() == 0) {
_path = _opaque = (path == null) ? null : path.toCharArray();
setURI();
return;
}
// set the charset to do escape encoding
String charset = getProtocolCharset();
if (_is_net_path || _is_abs_path) {
_path = encode(path, allowed_abs_path, charset);
} else if (_is_rel_path) {
StringBuffer buff = new StringBuffer(path.length());
int at = path.indexOf('/');
if (at == 0) { // never 0
throw new URIException(URIException.PARSING,
"incorrect relative path");
}
if (at > 0) {
buff.append(encode(path.substring(0, at), allowed_rel_path,
charset));
buff.append(encode(path.substring(at), allowed_abs_path,
charset));
} else {
buff.append(encode(path, allowed_rel_path, charset));
}
_path = buff.toString().toCharArray();
} else if (_is_opaque_part) {
StringBuffer buf = new StringBuffer();
buf.insert(0, encode(path.substring(0, 1), uric_no_slash, charset));
buf.insert(1, encode(path.substring(1), uric, charset));
_opaque = buf.toString().toCharArray();
} else {
throw new URIException(URIException.PARSING, "incorrect path");
}
setURI();
}
/**
* Resolve the base and relative path.
*
* @param basePath a character array of the basePath
* @param relPath a character array of the relPath
* @return the resolved path
* @throws URIException no more higher path level to be resolved
*/
protected char[] resolvePath(char[] basePath, char[] relPath)
throws URIException {
// REMINDME: paths are never null
String base = (basePath == null) ? "" : new String(basePath);
int at = base.lastIndexOf('/');
if (at != -1) {
basePath = base.substring(0, at + 1).toCharArray();
}
// _path could be empty
if (relPath == null || relPath.length == 0) {
return normalize(basePath);
} else if (relPath[0] == '/') {
return normalize(relPath);
} else {
StringBuffer buff = new StringBuffer(base.length()
+ relPath.length);
buff.append((at != -1) ? base.substring(0, at + 1) : "/");
buff.append(relPath);
return normalize(buff.toString().toCharArray());
}
}
/**
* Get the raw-escaped current hierarchy level in the given path.
* If the last namespace is a collection, the slash mark ('/') should be
* ended with at the last character of the path string.
*
* @param path the path
* @return the current hierarchy level
* @throws URIException no hierarchy level
*/
protected char[] getRawCurrentHierPath(char[] path) throws URIException {
if (_is_opaque_part) {
throw new URIException(URIException.PARSING, "no hierarchy level");
}
if (path == null) {
throw new URIException(URIException.PARSING, "empty path");
}
String buff = new String(path);
int first = buff.indexOf('/');
int last = buff.lastIndexOf('/');
if (last == 0) {
return rootPath;
} else if (first != last && last != -1) {
return buff.substring(0, last).toCharArray();
}
// FIXME: it could be a document on the server side
return path;
}
/**
* Get the raw-escaped current hierarchy level.
*
* @return the raw-escaped current hierarchy level
* @throws URIException If {@link #getRawCurrentHierPath(char[])} fails.
*/
public char[] getRawCurrentHierPath() throws URIException {
return (_path == null) ? null : getRawCurrentHierPath(_path);
}
/**
* Get the escaped current hierarchy level.
*
* @return the escaped current hierarchy level
* @throws URIException If {@link #getRawCurrentHierPath(char[])} fails.
*/
public String getEscapedCurrentHierPath() throws URIException {
char[] path = getRawCurrentHierPath();
return (path == null) ? null : new String(path);
}
/**
* Get the current hierarchy level.
*
* @return the current hierarchy level
* @throws URIException If {@link #getRawCurrentHierPath(char[])} fails.
* @see #decode
*/
public String getCurrentHierPath() throws URIException {
char[] path = getRawCurrentHierPath();
return (path == null) ? null : decode(path, getProtocolCharset());
}
/**
* Get the level above the this hierarchy level.
*
* @return the raw above hierarchy level
* @throws URIException If {@link #getRawCurrentHierPath(char[])} fails.
*/
public char[] getRawAboveHierPath() throws URIException {
char[] path = getRawCurrentHierPath();
return (path == null) ? null : getRawCurrentHierPath(path);
}
/**
* Get the level above the this hierarchy level.
*
* @return the raw above hierarchy level
* @throws URIException If {@link #getRawCurrentHierPath(char[])} fails.
*/
public String getEscapedAboveHierPath() throws URIException {
char[] path = getRawAboveHierPath();
return (path == null) ? null : new String(path);
}
/**
* Get the level above the this hierarchy level.
*
* @return the above hierarchy level
* @throws URIException If {@link #getRawCurrentHierPath(char[])} fails.
* @see #decode
*/
public String getAboveHierPath() throws URIException {
char[] path = getRawAboveHierPath();
return (path == null) ? null : decode(path, getProtocolCharset());
}
/**
* Get the raw-escaped path.
*
* path = [ abs_path | opaque_part ]
*
*
* @return the raw-escaped path
*/
public char[] getRawPath() {
return _is_opaque_part ? _opaque : _path;
}
/**
* Get the escaped path.
*
* path = [ abs_path | opaque_part ]
* abs_path = "/" path_segments
* opaque_part = uric_no_slash *uric
*
*
* @return the escaped path string
*/
public String getEscapedPath() {
char[] path = getRawPath();
return (path == null) ? null : new String(path);
}
/**
* Get the path.
*
* path = [ abs_path | opaque_part ]
*
* @return the path string
* @throws URIException If {@link #decode} fails.
* @see #decode
*/
public String getPath() throws URIException {
char[] path = getRawPath();
return (path == null) ? null : decode(path, getProtocolCharset());
}
/**
* Get the raw-escaped basename of the path.
*
* @return the raw-escaped basename
*/
public char[] getRawName() {
if (_path == null) {
return null;
}
int at = 0;
for (int i = _path.length - 1; i >= 0; i--) {
if (_path[i] == '/') {
at = i + 1;
break;
}
}
int len = _path.length - at;
char[] basename = new char[len];
System.arraycopy(_path, at, basename, 0, len);
return basename;
}
/**
* Get the escaped basename of the path.
*
* @return the escaped basename string
*/
public String getEscapedName() {
char[] basename = getRawName();
return (basename == null) ? null : new String(basename);
}
/**
* Get the basename of the path.
*
* @return the basename string
* @throws URIException incomplete trailing escape pattern or unsupported
* character encoding
* @see #decode
*/
public String getName() throws URIException {
char[] basename = getRawName();
return (basename == null) ? null : decode(getRawName(),
getProtocolCharset());
}
// ----------------------------------------------------- The path and query
/**
* Get the raw-escaped path and query.
*
* @return the raw-escaped path and query
*/
public char[] getRawPathQuery() {
if (_path == null && _query == null) {
return null;
}
StringBuffer buff = new StringBuffer();
if (_path != null) {
buff.append(_path);
}
if (_query != null) {
buff.append('?');
buff.append(_query);
}
return buff.toString().toCharArray();
}
/**
* Get the escaped query.
*
* @return the escaped path and query string
*/
public String getEscapedPathQuery() {
char[] rawPathQuery = getRawPathQuery();
return (rawPathQuery == null) ? null : new String(rawPathQuery);
}
/**
* Get the path and query.
*
* @return the path and query string.
* @throws URIException incomplete trailing escape pattern or unsupported
* character encoding
* @see #decode
*/
public String getPathQuery() throws URIException {
char[] rawPathQuery = getRawPathQuery();
return (rawPathQuery == null) ? null : decode(rawPathQuery,
getProtocolCharset());
}
// -------------------------------------------------------------- The query
/**
* Set the raw-escaped query.
*
* @param escapedQuery the raw-escaped query
* @throws URIException escaped query not valid
*/
public void setRawQuery(char[] escapedQuery) throws URIException {
if (escapedQuery == null || escapedQuery.length == 0) {
_query = escapedQuery;
setURI();
return;
}
// remove the fragment identifier
escapedQuery = removeFragmentIdentifier(escapedQuery);
if (!validate(escapedQuery, query)) {
throw new URIException(URIException.ESCAPING,
"escaped query not valid");
}
_query = escapedQuery;
setURI();
}
/**
* Set the escaped query string.
*
* @param escapedQuery the escaped query string
* @throws URIException escaped query not valid
*/
public void setEscapedQuery(String escapedQuery) throws URIException {
if (escapedQuery == null) {
_query = null;
setURI();
return;
}
setRawQuery(escapedQuery.toCharArray());
}
/**
* Set the query.
*
* When a query string is not misunderstood the reserved special characters
* ("&", "=", "+", ",", and "$") within a query component, it is
* recommended to use in encoding the whole query with this method.
*
* The additional APIs for the special purpose using by the reserved
* special characters used in each protocol are implemented in each protocol
* classes inherited from URI. So refer to the same-named APIs
* implemented in each specific protocol instance.
*
* @param query the query string.
* @throws URIException incomplete trailing escape pattern or unsupported
* character encoding
* @see #encode
*/
public void setQuery(String query) throws URIException {
if (query == null || query.length() == 0) {
_query = (query == null) ? null : query.toCharArray();
setURI();
return;
}
setRawQuery(encode(query, allowed_query, getProtocolCharset()));
}
/**
* Get the raw-escaped query.
*
* @return the raw-escaped query
*/
public char[] getRawQuery() {
return _query;
}
/**
* Get the escaped query.
*
* @return the escaped query string
*/
public String getEscapedQuery() {
return (_query == null) ? null : new String(_query);
}
/**
* Get the query.
*
* @return the query string.
* @throws URIException incomplete trailing escape pattern or unsupported
* character encoding
* @see #decode
*/
public String getQuery() throws URIException {
return (_query == null) ? null : decode(_query, getProtocolCharset());
}
// ----------------------------------------------------------- The fragment
/**
* Set the raw-escaped fragment.
*
* @param escapedFragment the raw-escaped fragment
* @throws URIException escaped fragment not valid
*/
public void setRawFragment(char[] escapedFragment) throws URIException {
if (escapedFragment == null || escapedFragment.length == 0) {
_fragment = escapedFragment;
hash = 0;
return;
}
if (!validate(escapedFragment, fragment)) {
throw new URIException(URIException.ESCAPING,
"escaped fragment not valid");
}
_fragment = escapedFragment;
hash = 0;
}
/**
* Set the escaped fragment string.
*
* @param escapedFragment the escaped fragment string
* @throws URIException escaped fragment not valid
*/
public void setEscapedFragment(String escapedFragment) throws URIException {
if (escapedFragment == null) {
_fragment = null;
hash = 0;
return;
}
setRawFragment(escapedFragment.toCharArray());
}
/**
* Set the fragment.
*
* @param fragment the fragment string.
* @throws URIException If an error occurs.
*/
public void setFragment(String fragment) throws URIException {
if (fragment == null || fragment.length() == 0) {
_fragment = (fragment == null) ? null : fragment.toCharArray();
hash = 0;
return;
}
_fragment = encode(fragment, allowed_fragment, getProtocolCharset());
hash = 0;
}
/**
* Get the raw-escaped fragment.
*
* The optional fragment identifier is not part of a URI, but is often used
* in conjunction with a URI.
*
* The format and interpretation of fragment identifiers is dependent on
* the media type [RFC2046] of the retrieval result.
*
* A fragment identifier is only meaningful when a URI reference is
* intended for retrieval and the result of that retrieval is a document
* for which the identified fragment is consistently defined.
*
* @return the raw-escaped fragment
*/
public char[] getRawFragment() {
return _fragment;
}
/**
* Get the escaped fragment.
*
* @return the escaped fragment string
*/
public String getEscapedFragment() {
return (_fragment == null) ? null : new String(_fragment);
}
/**
* Get the fragment.
*
* @return the fragment string
* @throws URIException incomplete trailing escape pattern or unsupported
* character encoding
* @see #decode
*/
public String getFragment() throws URIException {
return (_fragment == null) ? null : decode(_fragment,
getProtocolCharset());
}
// ------------------------------------------------------------- Utilities
/**
* Remove the fragment identifier of the given component.
*
* @param component the component that a fragment may be included
* @return the component that the fragment identifier is removed
*/
protected char[] removeFragmentIdentifier(char[] component) {
if (component == null) {
return null;
}
int lastIndex = new String(component).indexOf('#');
if (lastIndex != -1) {
component = new String(component).substring(0,
lastIndex).toCharArray();
}
return component;
}
/**
* Normalize the given hier path part.
*
*
Algorithm taken from URI reference parser at
* http://www.apache.org/~fielding/uri/rev-2002/issues.html.
*
* @param path the path to normalize
* @return the normalized path
* @throws URIException no more higher path level to be normalized
*/
protected char[] normalize(char[] path) throws URIException {
if (path == null) {
return null;
}
String normalized = new String(path);
// If the buffer begins with "./" or "../", the "." or ".." is removed.
if (normalized.startsWith("./")) {
normalized = normalized.substring(1);
} else if (normalized.startsWith("../")) {
normalized = normalized.substring(2);
} else if (normalized.startsWith("..")) {
normalized = normalized.substring(2);
}
// All occurrences of "/./" in the buffer are replaced with "/"
int index = -1;
while ((index = normalized.indexOf("/./")) != -1) {
normalized = normalized.substring(0, index) + normalized.substring(index + 2);
}
// If the buffer ends with "/.", the "." is removed.
if (normalized.endsWith("/.")) {
normalized = normalized.substring(0, normalized.length() - 1);
}
int startIndex = 0;
// All occurrences of "//../" in the buffer, where ".."
// and are complete path segments, are iteratively replaced
// with "/" in order from left to right until no matching pattern remains.
// If the buffer ends with "//..", that is also replaced
// with "/". Note that may be empty.
while ((index = normalized.indexOf("/../", startIndex)) != -1) {
int slashIndex = normalized.lastIndexOf('/', index - 1);
if (slashIndex >= 0) {
normalized = normalized.substring(0, slashIndex) + normalized.substring(index + 3);
} else {
startIndex = index + 3;
}
}
if (normalized.endsWith("/..")) {
int slashIndex = normalized.lastIndexOf('/', normalized.length() - 4);
if (slashIndex >= 0) {
normalized = normalized.substring(0, slashIndex + 1);
}
}
// All prefixes of "/../" in the buffer, where ".."
// and are complete path segments, are iteratively replaced
// with "/" in order from left to right until no matching pattern remains.
// If the buffer ends with "/..", that is also replaced
// with "/". Note that may be empty.
while ((index = normalized.indexOf("/../")) != -1) {
int slashIndex = normalized.lastIndexOf('/', index - 1);
if (slashIndex >= 0) {
break;
} else {
normalized = normalized.substring(index + 3);
}
}
if (normalized.endsWith("/..")) {
int slashIndex = normalized.lastIndexOf('/', normalized.length() - 4);
if (slashIndex < 0) {
normalized = "/";
}
}
return normalized.toCharArray();
}
/**
* Normalizes the path part of this URI. Normalization is only meant to be performed on
* URIs with an absolute path. Calling this method on a relative path URI will have no
* effect.
*
* @throws URIException no more higher path level to be normalized
*
* @see #isAbsPath()
*/
public void normalize() throws URIException {
if (isAbsPath()) {
_path = normalize(_path);
setURI();
}
}
/**
* Test if the first array is equal to the second array.
*
* @param first the first character array
* @param second the second character array
* @return true if they're equal
*/
protected boolean equals(char[] first, char[] second) {
if (first == null && second == null) {
return true;
}
if (first == null || second == null) {
return false;
}
if (first.length != second.length) {
return false;
}
for (int i = 0; i < first.length; i++) {
if (first[i] != second[i]) {
return false;
}
}
return true;
}
/**
* Test an object if this URI is equal to another.
*
* @param obj an object to compare
* @return true if two URI objects are equal
*/
public boolean equals(Object obj) {
// normalize and test each components
if (obj == this) {
return true;
}
if (!(obj instanceof URI)) {
return false;
}
URI another = (URI) obj;
// scheme
if (!equals(_scheme, another._scheme)) {
return false;
}
// is_opaque_part or is_hier_part? and opaque
if (!equals(_opaque, another._opaque)) {
return false;
}
// is_hier_part
// has_authority
if (!equals(_authority, another._authority)) {
return false;
}
// path
if (!equals(_path, another._path)) {
return false;
}
// has_query
if (!equals(_query, another._query)) {
return false;
}
// has_fragment? should be careful of the only fragment case.
if (!equals(_fragment, another._fragment)) {
return false;
}
return true;
}
// ---------------------------------------------------------- Serialization
/**
* Write the content of this URI.
*
* @param oos the object-output stream
* @throws IOException If an IO problem occurs.
*/
protected void writeObject(ObjectOutputStream oos)
throws IOException {
oos.defaultWriteObject();
}
/**
* Read a URI.
*
* @param ois the object-input stream
* @throws ClassNotFoundException If one of the classes specified in the
* input stream cannot be found.
* @throws IOException If an IO problem occurs.
*/
protected void readObject(ObjectInputStream ois)
throws ClassNotFoundException, IOException {
ois.defaultReadObject();
}
// -------------------------------------------------------------- Hash code
/**
* Return a hash code for this URI.
*
* @return a has code value for this URI
*/
public int hashCode() {
if (hash == 0) {
char[] c = _uri;
if (c != null) {
for (int i = 0, len = c.length; i < len; i++) {
hash = 31 * hash + c[i];
}
}
c = _fragment;
if (c != null) {
for (int i = 0, len = c.length; i < len; i++) {
hash = 31 * hash + c[i];
}
}
}
return hash;
}
// ------------------------------------------------------------- Comparison
/**
* Compare this URI to another object.
*
* @param obj the object to be compared.
* @return 0, if it's same,
* -1, if failed, first being compared with in the authority component
* @throws ClassCastException not URI argument
*/
public int compareTo(Object obj) throws ClassCastException {
URI another = (URI) obj;
if (!equals(_authority, another.getRawAuthority())) {
return -1;
}
return toString().compareTo(another.toString());
}
// ------------------------------------------------------------------ Clone
/**
* Create and return a copy of this object, the URI-reference containing
* the userinfo component. Notice that the whole URI-reference including
* the userinfo component counld not be gotten as a String.
*
* To copy the identical URI object including the userinfo
* component, it should be used.
*
* @return a clone of this instance
*/
public synchronized Object clone() {
URI instance = new URI();
instance._uri = _uri;
instance._scheme = _scheme;
instance._opaque = _opaque;
instance._authority = _authority;
instance._userinfo = _userinfo;
instance._host = _host;
instance._port = _port;
instance._path = _path;
instance._query = _query;
instance._fragment = _fragment;
// the charset to do escape encoding for this instance
instance.protocolCharset = protocolCharset;
// flags
instance._is_hier_part = _is_hier_part;
instance._is_opaque_part = _is_opaque_part;
instance._is_net_path = _is_net_path;
instance._is_abs_path = _is_abs_path;
instance._is_rel_path = _is_rel_path;
instance._is_reg_name = _is_reg_name;
instance._is_server = _is_server;
instance._is_hostname = _is_hostname;
instance._is_IPv4address = _is_IPv4address;
instance._is_IPv6reference = _is_IPv6reference;
return instance;
}
// ------------------------------------------------------------ Get the URI
/**
* It can be gotten the URI character sequence. It's raw-escaped.
* For the purpose of the protocol to be transported, it will be useful.
*
* It is clearly unwise to use a URL that contains a password which is
* intended to be secret. In particular, the use of a password within
* the 'userinfo' component of a URL is strongly disrecommended except
* in those rare cases where the 'password' parameter is intended to be
* public.
*
* When you want to get each part of the userinfo, you need to use the
* specific methods in the specific URL. It depends on the specific URL.
*
* @return the URI character sequence
*/
public char[] getRawURI() {
return _uri;
}
/**
* It can be gotten the URI character sequence. It's escaped.
* For the purpose of the protocol to be transported, it will be useful.
*
* @return the escaped URI string
*/
public String getEscapedURI() {
return (_uri == null) ? null : new String(_uri);
}
/**
* It can be gotten the URI character sequence.
*
* @return the original URI string
* @throws URIException incomplete trailing escape pattern or unsupported
* character encoding
* @see #decode
*/
public String getURI() throws URIException {
return (_uri == null) ? null : decode(_uri, getProtocolCharset());
}
/**
* Get the URI reference character sequence.
*
* @return the URI reference character sequence
*/
public char[] getRawURIReference() {
if (_fragment == null) {
return _uri;
}
if (_uri == null) {
return _fragment;
}
// if _uri != null && _fragment != null
String uriReference = new String(_uri) + "#" + new String(_fragment);
return uriReference.toCharArray();
}
/**
* Get the escaped URI reference string.
*
* @return the escaped URI reference string
*/
public String getEscapedURIReference() {
char[] uriReference = getRawURIReference();
return (uriReference == null) ? null : new String(uriReference);
}
/**
* Get the original URI reference string.
*
* @return the original URI reference string
* @throws URIException If {@link #decode} fails.
*/
public String getURIReference() throws URIException {
char[] uriReference = getRawURIReference();
return (uriReference == null) ? null : decode(uriReference,
getProtocolCharset());
}
/**
* Get the escaped URI string.
*
* On the document, the URI-reference form is only used without the userinfo
* component like http://jakarta.apache.org/ by the security reason.
* But the URI-reference form with the userinfo component could be parsed.
*
* In other words, this URI and any its subclasses must not expose the
* URI-reference expression with the userinfo component like
* http://user:password@hostport/restricted_zone.
* It means that the API client programmer should extract each user and
* password to access manually. Probably it will be supported in the each
* subclass, however, not a whole URI-reference expression.
*
* @return the escaped URI string
* @see #clone()
*/
public String toString() {
return getEscapedURI();
}
// ------------------------------------------------------------ Inner class
/**
* The charset-changed normal operation to represent to be required to
* alert to user the fact the default charset is changed.
*/
public static class DefaultCharsetChanged extends RuntimeException {
// ------------------------------------------------------- constructors
/**
* The constructor with a reason string and its code arguments.
*
* @param reasonCode the reason code
* @param reason the reason
*/
public DefaultCharsetChanged(int reasonCode, String reason) {
super(reason);
this.reason = reason;
this.reasonCode = reasonCode;
}
// ---------------------------------------------------------- constants
/** No specified reason code. */
public static final int UNKNOWN = 0;
/** Protocol charset changed. */
public static final int PROTOCOL_CHARSET = 1;
/** Document charset changed. */
public static final int DOCUMENT_CHARSET = 2;
// ------------------------------------------------- instance variables
/** The reason code. */
private int reasonCode;
/** The reason message. */
private String reason;
// ------------------------------------------------------------ methods
/**
* Get the reason code.
*
* @return the reason code
*/
public int getReasonCode() {
return reasonCode;
}
/**
* Get the reason message.
*
* @return the reason message
*/
public String getReason() {
return reason;
}
}
/**
* A mapping to determine the (somewhat arbitrarily) preferred charset for a
* given locale. Supports all locales recognized in JDK 1.1.
*
* The distribution of this class is Servlets.com. It was originally
* written by Jason Hunter [jhunter at acm.org] and used by with permission.
*/
public static class LocaleToCharsetMap {
/** A mapping of language code to charset */
private static final Hashtable LOCALE_TO_CHARSET_MAP;
static {
LOCALE_TO_CHARSET_MAP = new Hashtable();
LOCALE_TO_CHARSET_MAP.put("ar", "ISO-8859-6");
LOCALE_TO_CHARSET_MAP.put("be", "ISO-8859-5");
LOCALE_TO_CHARSET_MAP.put("bg", "ISO-8859-5");
LOCALE_TO_CHARSET_MAP.put("ca", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("cs", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("da", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("de", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("el", "ISO-8859-7");
LOCALE_TO_CHARSET_MAP.put("en", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("es", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("et", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("fi", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("fr", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("hr", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("hu", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("is", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("it", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("iw", "ISO-8859-8");
LOCALE_TO_CHARSET_MAP.put("ja", "Shift_JIS");
LOCALE_TO_CHARSET_MAP.put("ko", "EUC-KR");
LOCALE_TO_CHARSET_MAP.put("lt", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("lv", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("mk", "ISO-8859-5");
LOCALE_TO_CHARSET_MAP.put("nl", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("no", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("pl", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("pt", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("ro", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("ru", "ISO-8859-5");
LOCALE_TO_CHARSET_MAP.put("sh", "ISO-8859-5");
LOCALE_TO_CHARSET_MAP.put("sk", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("sl", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("sq", "ISO-8859-2");
LOCALE_TO_CHARSET_MAP.put("sr", "ISO-8859-5");
LOCALE_TO_CHARSET_MAP.put("sv", "ISO-8859-1");
LOCALE_TO_CHARSET_MAP.put("tr", "ISO-8859-9");
LOCALE_TO_CHARSET_MAP.put("uk", "ISO-8859-5");
LOCALE_TO_CHARSET_MAP.put("zh", "GB2312");
LOCALE_TO_CHARSET_MAP.put("zh_TW", "Big5");
}
/**
* Get the preferred charset for the given locale.
*
* @param locale the locale
* @return the preferred charset or null if the locale is not
* recognized.
*/
public static String getCharset(Locale locale) {
// try for an full name match (may include country)
String charset =
(String) LOCALE_TO_CHARSET_MAP.get(locale.toString());
if (charset != null) {
return charset;
}
// if a full name didn't match, try just the language
charset = (String) LOCALE_TO_CHARSET_MAP.get(locale.getLanguage());
return charset; // may be null
}
}
}