com.google.gwt.safehtml.shared.UriUtils Maven / Gradle / Ivy
/*
* Copyright 2010 Google Inc.
*
* 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.
*/
package com.google.gwt.safehtml.shared;
import com.google.gwt.core.shared.GWT;
import com.google.gwt.http.client.URL;
import com.google.gwt.regexp.shared.RegExp;
import java.io.UnsupportedEncodingException;
/**
* Utility class containing static methods for validating and sanitizing URIs.
*/
public final class UriUtils {
/**
* Characters that don't need %-escaping (minus letters and digits), according
* to ECMAScript 5th edition for the {@code encodeURI} function.
*/
static final String DONT_NEED_ENCODING = ";/?:@&=+$," // uriReserved
+ "-_.!~*'()" // uriMark
+ "#"
+ "[]"; // could be used in IPv6 addresses
// used in conditional code in encode()
private static final RegExp ESCAPED_LBRACKET_RE =
GWT.isScript() ? RegExp.compile("%5B", "g") : null;
private static final RegExp ESCAPED_RBRACKET_RE =
GWT.isScript() ? RegExp.compile("%5D", "g") : null;
/**
* Encodes the URL.
*
* In client code, this method delegates to {@link URL#encode(String)} and
* then unescapes brackets, as they might be used for IPv6 addresses.
*
* @param uri the URL to encode
* @return the %-escaped URL
*/
public static String encode(String uri) {
if (GWT.isScript()) {
uri = URL.encode(uri);
// Follow the same approach as SafeHtmlUtils.htmlEscape
if (uri.indexOf("%5B") != -1) {
uri = ESCAPED_LBRACKET_RE.replace(uri, "[");
}
if (uri.indexOf("%5D") != -1) {
uri = ESCAPED_RBRACKET_RE.replace(uri, "]");
}
return uri;
} else {
StringBuilder sb = new StringBuilder();
byte[] utf8bytes;
try {
utf8bytes = uri.getBytes("UTF-8");
} catch (UnsupportedEncodingException e) {
// UTF-8 is guaranteed to be implemented, this code won't ever run.
return null;
}
for (byte b : utf8bytes) {
int c = b & 0xFF;
// This works because characters that don't need encoding are all
// expressed as a single UTF-8 byte
if (('a' <= c && c <= 'z') || ('A' <= c && c <= 'Z') || ('0' <= c && c <= '9')
|| DONT_NEED_ENCODING.indexOf(c) != -1) {
sb.append((char) c);
} else {
String hexByte = Integer.toHexString(c).toUpperCase();
if (hexByte.length() == 1) {
hexByte = "0" + hexByte;
}
sb.append('%').append(hexByte);
}
}
return sb.toString();
}
}
/**
* Encodes the URL, preserving existing %-escapes.
*
* @param uri the URL to encode
* @return the %-escaped URL
*/
public static String encodeAllowEscapes(String uri) {
StringBuilder escaped = new StringBuilder();
boolean firstSegment = true;
for (String segment : uri.split("%", -1)) {
if (firstSegment) {
/*
* The first segment is never part of a percent-escape, so we always
* escape it. Note that if the input starts with a percent, we will get
* an empty segment before that.
*/
firstSegment = false;
escaped.append(encode(segment));
continue;
}
if (segment.length() >= 2 && segment.substring(0, 2).matches("[0-9a-fA-F]{2}")) {
// Append the escape without encoding.
escaped.append("%").append(segment.substring(0, 2));
// Append the rest of the segment, escaped.
escaped.append(encode(segment.substring(2)));
} else {
// The segment did not start with an escape, so encode the whole
// segment.
escaped.append("%25").append(encode(segment));
}
}
return escaped.toString();
}
/**
* Extracts the scheme of a URI.
*
* @param uri the URI to extract the scheme from
* @return the URI's scheme, or {@code null} if the URI does not have one
*/
public static String extractScheme(String uri) {
int colonPos = uri.indexOf(':');
if (colonPos < 0) {
return null;
}
String scheme = uri.substring(0, colonPos);
if (scheme.indexOf('/') >= 0 || scheme.indexOf('#') >= 0) {
/*
* The URI's prefix up to the first ':' contains other URI special
* chars, and won't be interpreted as a scheme.
*
* TODO(xtof): Consider basing this on URL#isValidProtocol or similar;
* however I'm worried that being too strict here will effectively
* allow dangerous schemes accepted in loosely parsing browsers.
*/
return null;
}
return scheme;
}
/**
* Returns a {@link SafeUri} constructed from a value that is fully under
* the control of the program, e.g., a constant.
*
*
* The string is not sanitized and no checks are performed. The assumption
* that the resulting value adheres to the {@link SafeUri} type contract
* is entirely based on the argument being fully under program control and
* not being derived from a program input.
*
*
* Convention of use: This method must only be invoked on
* values that are fully under the program's control, such as string literals.
*
* @param s the input String
* @return a SafeUri instance
*/
public static SafeUri fromSafeConstant(String s) {
SafeUriHostedModeUtils.maybeCheckValidUri(s);
return new SafeUriString(s);
}
/**
* Returns a {@link SafeUri} obtained by sanitizing the provided string.
*
*
* The input string is sanitized using {@link #sanitizeUri(String)}.
*
* @param s the input String
* @return a SafeUri instance
*/
public static SafeUri fromString(String s) {
return new SafeUriString(sanitizeUri(s));
}
/**
* Returns a {@link SafeUri} constructed from a trusted string, i.e., without
* sanitizing the string. No checks are performed. The calling code should be
* carefully reviewed to ensure the argument meets the SafeUri contract.
*
* @param s the input String
* @return a SafeUri instance
*/
public static SafeUri fromTrustedString(String s) {
SafeUriHostedModeUtils.maybeCheckValidUri(s);
return new SafeUriString(s);
}
/**
* Determines if a {@link String} is safe to use as the value of a URI-valued
* HTML attribute such as {@code src} or {@code href}.
*
*
* In this context, a URI is safe if it can be established that using it as
* the value of a URI-valued HTML attribute such as {@code src} or {@code
* href} cannot result in script execution. Specifically, this method deems a
* URI safe if it either does not have a scheme, or its scheme is one of
* {@code http, https, ftp, mailto}.
*
* @param uri the URI to validate
* @return {@code true} if {@code uri} is safe in the above sense; {@code
* false} otherwise
*/
public static boolean isSafeUri(String uri) {
String scheme = extractScheme(uri);
if (scheme == null) {
return true;
}
/*
* Special care is be taken with case-insensitive 'i' in the Turkish locale.
* i -> to upper in Turkish locale -> İ
* I -> to lower in Turkish locale -> ı
* For this reason there are two checks for mailto: "mailto" and "MAILTO"
* For details, see: http://www.i18nguy.com/unicode/turkish-i18n.html
*/
String schemeLc = scheme.toLowerCase();
return ("http".equals(schemeLc)
|| "https".equals(schemeLc)
|| "ftp".equals(schemeLc)
|| "mailto".equals(schemeLc)
|| "MAILTO".equals(scheme.toUpperCase()));
}
/**
* Sanitizes a URI.
*
*
* This method returns the URI provided if it is safe to use as the the value
* of a URI-valued HTML attribute according to {@link #isSafeUri}, or the URI
* "{@code #}" otherwise.
*
* @param uri the URI to sanitize
* @return a sanitized String
*/
public static String sanitizeUri(String uri) {
if (isSafeUri(uri)) {
return encodeAllowEscapes(uri);
} else {
return "#";
}
}
/**
* Returns a {@link SafeUri} constructed from an untrusted string but without
* sanitizing it.
*
* Despite this method creating a SafeUri instance, no checks are
* performed, so the returned SafeUri is absolutely NOT guaranteed to be
* safe!
*
* @param s the input String
* @return a SafeUri instance
* @deprecated This method is intended only for use in APIs that use
* {@link SafeUri} to represent URIs, but for backwards
* compatibility have methods that accept URI parameters as plain
* strings.
*/
@Deprecated
public static SafeUri unsafeCastFromUntrustedString(String s) {
return new SafeUriString(s);
}
// prevent instantiation
private UriUtils() {
}
}