com.firefly.codec.http2.model.HttpURI Maven / Gradle / Ivy
package com.firefly.codec.http2.model;
import java.io.UnsupportedEncodingException;
import java.net.URI;
import java.net.URISyntaxException;
import java.nio.charset.Charset;
import java.nio.charset.StandardCharsets;
import com.firefly.codec.http2.encode.UrlEncoded;
import com.firefly.utils.collection.MultiMap;
import com.firefly.utils.lang.TypeUtils;
import com.firefly.utils.lang.URIUtils;
/**
* Http URI. Parse a HTTP URI from a string or byte array. Given a URI
* http://user@host:port/path/info;param?query#fragment this class
* will split it into the following undecoded optional elements:
*
* - {@link #getScheme()} - http:
* - {@link #getAuthority()} - //name@host:port
* - {@link #getHost()} - host
* - {@link #getPort()} - port
* - {@link #getPath()} - /path/info
* - {@link #getParam()} - param
* - {@link #getQuery()} - query
* - {@link #getFragment()} - fragment
*
*
*
* Any parameters will be returned from {@link #getPath()}, but are excluded
* from the return value of {@link #getDecodedPath()}. If there are multiple
* parameters, the {@link #getParam()} method returns only the last one.
*/
public class HttpURI {
private enum State {
START, HOST_OR_PATH, SCHEME_OR_PATH, HOST, IPV6, PORT, PATH, PARAM, QUERY, FRAGMENT, ASTERISK
};
private String _scheme;
private String _user;
private String _host;
private int _port;
private String _path;
private String _param;
private String _query;
private String _fragment;
String _uri;
String _decodedPath;
/**
* Construct a normalized URI. Port is not set if it is the default port.
*
* @param scheme
* the URI scheme
* @param host
* the URI hose
* @param port
* the URI port
* @param path
* the URI path
* @param param
* the URI param
* @param query
* the URI query
* @param fragment
* the URI fragment
* @return the normalized URI
*/
public static HttpURI createHttpURI(String scheme, String host, int port, String path, String param, String query,
String fragment) {
if (port == 80 && HttpScheme.HTTP.is(scheme))
port = 0;
if (port == 443 && HttpScheme.HTTPS.is(scheme))
port = 0;
return new HttpURI(scheme, host, port, path, param, query, fragment);
}
public HttpURI() {
}
public HttpURI(String scheme, String host, int port, String path, String param, String query, String fragment) {
_scheme = scheme;
_host = host;
_port = port;
_path = path;
_param = param;
_query = query;
_fragment = fragment;
}
public HttpURI(HttpURI uri) {
this(uri._scheme, uri._host, uri._port, uri._path, uri._param, uri._query, uri._fragment);
_uri = uri._uri;
}
public HttpURI(String uri) {
_port = -1;
parse(State.START, uri, 0, uri.length());
}
public HttpURI(URI uri) {
_uri = null;
_scheme = uri.getScheme();
_host = uri.getHost();
if (_host == null && uri.getRawSchemeSpecificPart().startsWith("//"))
_host = "";
_port = uri.getPort();
_user = uri.getUserInfo();
_path = uri.getRawPath();
_decodedPath = uri.getPath();
if (_decodedPath != null) {
int p = _decodedPath.lastIndexOf(';');
if (p >= 0)
_param = _decodedPath.substring(p + 1);
}
_query = uri.getRawQuery();
_fragment = uri.getFragment();
_decodedPath = null;
}
public HttpURI(String scheme, String host, int port, String pathQuery) {
_uri = null;
_scheme = scheme;
_host = host;
_port = port;
parse(State.PATH, pathQuery, 0, pathQuery.length());
}
public void parse(String uri) {
clear();
_uri = uri;
parse(State.START, uri, 0, uri.length());
}
/**
* Parse according to https://tools.ietf.org/html/rfc7230#section-5.3
*
* @param method
* the request method
* @param uri
* the request uri
*/
public void parseRequestTarget(String method, String uri) {
clear();
_uri = uri;
if (HttpMethod.CONNECT.is(method))
_path = uri;
else
parse(uri.startsWith("/") ? State.PATH : State.START, uri, 0, uri.length());
}
@Deprecated
public void parseConnect(String uri) {
clear();
_uri = uri;
_path = uri;
}
public void parse(String uri, int offset, int length) {
clear();
int end = offset + length;
_uri = uri.substring(offset, end);
parse(State.START, uri, offset, end);
}
private void parse(State state, final String uri, final int offset, final int end) {
boolean encoded = false;
int mark = offset;
int path_mark = 0;
for (int i = offset; i < end; i++) {
char c = uri.charAt(i);
switch (state) {
case START: {
switch (c) {
case '/':
mark = i;
state = State.HOST_OR_PATH;
break;
case ';':
mark = i + 1;
state = State.PARAM;
break;
case '?':
// assume empty path (if seen at start)
_path = "";
mark = i + 1;
state = State.QUERY;
break;
case '#':
mark = i + 1;
state = State.FRAGMENT;
break;
case '*':
_path = "*";
state = State.ASTERISK;
break;
default:
mark = i;
if (_scheme == null)
state = State.SCHEME_OR_PATH;
else {
path_mark = i;
state = State.PATH;
}
}
continue;
}
case SCHEME_OR_PATH: {
switch (c) {
case ':':
// must have been a scheme
_scheme = uri.substring(mark, i);
// Start again with scheme set
state = State.START;
break;
case '/':
// must have been in a path and still are
state = State.PATH;
break;
case ';':
// must have been in a path
mark = i + 1;
state = State.PARAM;
break;
case '?':
// must have been in a path
_path = uri.substring(mark, i);
mark = i + 1;
state = State.QUERY;
break;
case '%':
// must have be in an encoded path
encoded = true;
state = State.PATH;
break;
case '#':
// must have been in a path
_path = uri.substring(mark, i);
state = State.FRAGMENT;
break;
}
continue;
}
case HOST_OR_PATH: {
switch (c) {
case '/':
_host = "";
mark = i + 1;
state = State.HOST;
break;
case '@':
case ';':
case '?':
case '#':
// was a path, look again
i--;
path_mark = mark;
state = State.PATH;
break;
default:
// it is a path
path_mark = mark;
state = State.PATH;
}
continue;
}
case HOST: {
switch (c) {
case '/':
_host = uri.substring(mark, i);
path_mark = mark = i;
state = State.PATH;
break;
case ':':
if (i > mark)
_host = uri.substring(mark, i);
mark = i + 1;
state = State.PORT;
break;
case '@':
if (_user != null)
throw new IllegalArgumentException("Bad authority");
_user = uri.substring(mark, i);
mark = i + 1;
break;
case '[':
state = State.IPV6;
break;
}
continue;
}
case IPV6: {
switch (c) {
case '/':
throw new IllegalArgumentException("No closing ']' for ipv6 in " + uri);
case ']':
c = uri.charAt(++i);
_host = uri.substring(mark, i);
if (c == ':') {
mark = i + 1;
state = State.PORT;
} else {
path_mark = mark = i;
state = State.PATH;
}
break;
}
continue;
}
case PORT: {
if (c == '@') {
if (_user != null)
throw new IllegalArgumentException("Bad authority");
// It wasn't a port, but a password!
_user = _host + ":" + uri.substring(mark, i);
mark = i + 1;
state = State.HOST;
} else if (c == '/') {
_port = TypeUtils.parseInt(uri, mark, i - mark, 10);
path_mark = mark = i;
state = State.PATH;
}
continue;
}
case PATH: {
switch (c) {
case ';':
mark = i + 1;
state = State.PARAM;
break;
case '?':
_path = uri.substring(path_mark, i);
mark = i + 1;
state = State.QUERY;
break;
case '#':
_path = uri.substring(path_mark, i);
mark = i + 1;
state = State.FRAGMENT;
break;
case '%':
encoded = true;
break;
}
continue;
}
case PARAM: {
switch (c) {
case '?':
_path = uri.substring(path_mark, i);
_param = uri.substring(mark, i);
mark = i + 1;
state = State.QUERY;
break;
case '#':
_path = uri.substring(path_mark, i);
_param = uri.substring(mark, i);
mark = i + 1;
state = State.FRAGMENT;
break;
case '/':
encoded = true;
// ignore internal params
state = State.PATH;
break;
case ';':
// multiple parameters
mark = i + 1;
break;
}
continue;
}
case QUERY: {
if (c == '#') {
_query = uri.substring(mark, i);
mark = i + 1;
state = State.FRAGMENT;
}
continue;
}
case ASTERISK: {
throw new IllegalArgumentException("Bad character '*'");
}
case FRAGMENT: {
_fragment = uri.substring(mark, end);
i = end;
}
}
}
switch (state) {
case START:
break;
case SCHEME_OR_PATH:
_path = uri.substring(mark, end);
break;
case HOST_OR_PATH:
_path = uri.substring(mark, end);
break;
case HOST:
if (end > mark)
_host = uri.substring(mark, end);
break;
case IPV6:
throw new IllegalArgumentException("No closing ']' for ipv6 in " + uri);
case PORT:
_port = TypeUtils.parseInt(uri, mark, end - mark, 10);
break;
case ASTERISK:
break;
case FRAGMENT:
_fragment = uri.substring(mark, end);
break;
case PARAM:
_path = uri.substring(path_mark, end);
_param = uri.substring(mark, end);
break;
case PATH:
_path = uri.substring(path_mark, end);
break;
case QUERY:
_query = uri.substring(mark, end);
break;
}
if (!encoded) {
if (_param == null)
_decodedPath = _path;
else
_decodedPath = _path.substring(0, _path.length() - _param.length() - 1);
}
}
public String getScheme() {
return _scheme;
}
public String getHost() {
// Return null for empty host to retain compatibility with java.net.URI
if (_host != null && _host.length() == 0)
return null;
return _host;
}
public int getPort() {
return _port;
}
/**
* The parsed Path.
*
* @return the path as parsed on valid URI. null for invalid URI.
*/
public String getPath() {
return _path;
}
public String getDecodedPath() {
if (_decodedPath == null && _path != null)
_decodedPath = URIUtils.decodePath(_path);
return _decodedPath;
}
public String getParam() {
return _param;
}
public String getQuery() {
return _query;
}
public boolean hasQuery() {
return _query != null && _query.length() > 0;
}
public String getFragment() {
return _fragment;
}
public void decodeQueryTo(MultiMap parameters) {
if (_query == _fragment)
return;
UrlEncoded.decodeUtf8To(_query, parameters);
}
public void decodeQueryTo(MultiMap parameters, String encoding) throws UnsupportedEncodingException {
decodeQueryTo(parameters, Charset.forName(encoding));
}
public void decodeQueryTo(MultiMap parameters, Charset encoding) throws UnsupportedEncodingException {
if (_query == _fragment)
return;
if (encoding == null || StandardCharsets.UTF_8.equals(encoding))
UrlEncoded.decodeUtf8To(_query, parameters);
else
UrlEncoded.decodeTo(_query, parameters, encoding);
}
public void clear() {
_uri = null;
_scheme = null;
_host = null;
_port = -1;
_path = null;
_param = null;
_query = null;
_fragment = null;
_decodedPath = null;
}
public boolean isAbsolute() {
return _scheme != null && _scheme.length() > 0;
}
@Override
public String toString() {
if (_uri == null) {
StringBuilder out = new StringBuilder();
if (_scheme != null)
out.append(_scheme).append(':');
if (_host != null) {
out.append("//");
if (_user != null)
out.append(_user).append('@');
out.append(_host);
}
if (_port > 0)
out.append(':').append(_port);
if (_path != null)
out.append(_path);
if (_query != null)
out.append('?').append(_query);
if (_fragment != null)
out.append('#').append(_fragment);
if (out.length() > 0)
_uri = out.toString();
else
_uri = "";
}
return _uri;
}
public boolean equals(Object o) {
if (o == this)
return true;
if (!(o instanceof HttpURI))
return false;
return toString().equals(o.toString());
}
public void setScheme(String scheme) {
_scheme = scheme;
_uri = null;
}
/**
* @param host
* the host
* @param port
* the port
*/
public void setAuthority(String host, int port) {
_host = host;
_port = port;
_uri = null;
}
/**
* @param path
* the path
*/
public void setPath(String path) {
_uri = null;
_path = path;
_decodedPath = null;
}
public void setPathQuery(String path) {
_uri = null;
_path = null;
_decodedPath = null;
_param = null;
_fragment = null;
if (path != null)
parse(State.PATH, path, 0, path.length());
}
public void setQuery(String query) {
_query = query;
_uri = null;
}
public URI toURI() throws URISyntaxException {
return new URI(_scheme, null, _host, _port, _path, _query == null ? null : UrlEncoded.decodeString(_query),
_fragment);
}
public String getPathQuery() {
if (_query == null)
return _path;
return _path + "?" + _query;
}
public String getAuthority() {
if (_port > 0)
return _host + ":" + _port;
return _host;
}
public String getUser() {
return _user;
}
}