/* * Copyright (c) 2005, 2021, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions.
*/
/** * An HttpCookie object represents an HTTP cookie, which carries state * information between server and user agent. Cookie is widely adopted * to create stateful sessions. * * <p> There are 3 HTTP cookie specifications: * <blockquote> * Netscape draft<br> * RFC 2109 - <a href="http://www.ietf.org/rfc/rfc2109.txt"> * <i>http://www.ietf.org/rfc/rfc2109.txt</i></a><br> * RFC 2965 - <a href="http://www.ietf.org/rfc/rfc2965.txt"> * <i>http://www.ietf.org/rfc/rfc2965.txt</i></a> * </blockquote> * * <p> HttpCookie class can accept all these 3 forms of syntax. * * @author Edward Wang * @since 1.6
*/ publicfinalclass HttpCookie implements Cloneable { // ---------------- Fields --------------
// The value of the cookie itself. privatefinal String name; // NAME= ... "$Name" style is reserved private String value; // value of NAME
// Attributes encoded in the header's cookie fields. private String comment; // Comment=VALUE ... describes cookie's use private String commentURL; // CommentURL="http URL" ... describes cookie's use privateboolean toDiscard; // Discard ... discard cookie unconditionally private String domain; // Domain=VALUE ... domain that sees cookie privatelong maxAge = MAX_AGE_UNSPECIFIED; // Max-Age=VALUE ... cookies auto-expire private String path; // Path=VALUE ... URLs that see the cookie private String portlist; // Port[="portlist"] ... the port cookie may be returned to privateboolean secure; // Secure ... e.g. use SSL privateboolean httpOnly; // HttpOnly ... i.e. not accessible to scripts privateint version = 1; // Version=1 ... RFC 2965 style
// The original header this cookie was constructed from, if it was // constructed by parsing a header, otherwise null. privatefinal String header;
// Hold the creation time (in seconds) of the http cookie for later // expiration calculation privatefinallong whenCreated;
// Since the positive and zero max-age have their meanings, // this value serves as a hint as 'not specify max-age' privatestaticfinallong MAX_AGE_UNSPECIFIED = -1;
// date formats used by Netscape's cookie draft // as well as formats seen on various sites privatestaticfinal String[] COOKIE_DATE_FORMATS = { "EEE',' dd-MMM-yyyy HH:mm:ss 'GMT'", "EEE',' dd MMM yyyy HH:mm:ss 'GMT'", "EEE MMM dd yyyy HH:mm:ss 'GMT'Z", "EEE',' dd-MMM-yy HH:mm:ss 'GMT'", "EEE',' dd MMM yy HH:mm:ss 'GMT'", "EEE MMM dd yy HH:mm:ss 'GMT'Z"
};
/** * Constructs a cookie with a specified name and value. * * <p> The name must conform to RFC 2965. That means it can contain * only ASCII alphanumeric characters and cannot contain commas, * semicolons, or white space or begin with a $ character. The cookie's * name cannot be changed after creation. * * <p> The value can be anything the server chooses to send. Its * value is probably of interest only to the server. The cookie's * value can be changed after creation with the * {@code setValue} method. * * <p> By default, cookies are created according to the RFC 2965 * cookie specification. The version can be changed with the * {@code setVersion} method. * * * @param name * a {@code String} specifying the name of the cookie * * @param value * a {@code String} specifying the value of the cookie * * @throws IllegalArgumentException * if the cookie name contains illegal characters * @throws NullPointerException * if {@code name} is {@code null} * * @see #setValue * @see #setVersion
*/ public HttpCookie(String name, String value) { this(name, value, null/*header*/);
}
/** * Constructs cookies from set-cookie or set-cookie2 header string. * RFC 2965 section 3.2.2 set-cookie2 syntax indicates that one header line * may contain more than one cookie definitions, so this is a static * utility method instead of another constructor. * * @param header * a {@code String} specifying the set-cookie header. The header * should start with "set-cookie", or "set-cookie2" token; or it * should have no leading token at all. * * @return a List of cookie parsed from header line string * * @throws IllegalArgumentException * if header string violates the cookie specification's syntax or * the cookie name contains illegal characters. * @throws NullPointerException * if the header string is {@code null}
*/ publicstatic List<HttpCookie> parse(String header) { return parse(header, false);
}
// Private version of parse() that will store the original header used to // create the cookie, in the cookie itself. This can be useful for filtering // Set-Cookie[2] headers, using the internal parsing logic defined in this // class. privatestatic List<HttpCookie> parse(String header, boolean retainHeader) {
int version = guessCookieVersion(header);
// if header start with set-cookie or set-cookie2, strip it off if (startsWithIgnoreCase(header, SET_COOKIE2)) {
header = header.substring(SET_COOKIE2.length());
} elseif (startsWithIgnoreCase(header, SET_COOKIE)) {
header = header.substring(SET_COOKIE.length());
}
List<HttpCookie> cookies = new java.util.ArrayList<>(); // The Netscape cookie may have a comma in its expires attribute, while // the comma is the delimiter in rfc 2965/2109 cookie header string. // so the parse logic is slightly different if (version == 0) { // Netscape draft cookie
HttpCookie cookie = parseInternal(header, retainHeader);
cookie.setVersion(0);
cookies.add(cookie);
} else { // rfc2965/2109 cookie // if header string contains more than one cookie, // it'll separate them with comma
List<String> cookieStrings = splitMultiCookies(header); for (String cookieStr : cookieStrings) {
HttpCookie cookie = parseInternal(cookieStr, retainHeader);
cookie.setVersion(1);
cookies.add(cookie);
}
}
return cookies;
}
// ---------------- Public operations --------------
/** * Reports whether this HTTP cookie has expired or not. * * @return {@code true} to indicate this HTTP cookie has expired; * otherwise, {@code false}
*/ publicboolean hasExpired() { if (maxAge == 0) returntrue;
// if not specify max-age, this cookie should be // discarded when user agent is to be closed, but // it is not expired. if (maxAge < 0) returnfalse;
long deltaSecond = (System.currentTimeMillis() - whenCreated) / 1000; if (deltaSecond > maxAge) returntrue; else returnfalse;
}
/** * Specifies a comment that describes a cookie's purpose. * The comment is useful if the browser presents the cookie * to the user. Comments are not supported by Netscape Version 0 cookies. * * @param purpose * a {@code String} specifying the comment to display to the user * * @see #getComment
*/ publicvoid setComment(String purpose) {
comment = purpose;
}
/** * Returns the comment describing the purpose of this cookie, or * {@code null} if the cookie has no comment. * * @return a {@code String} containing the comment, or {@code null} if none * * @see #setComment
*/ public String getComment() { return comment;
}
/** * Specifies a comment URL that describes a cookie's purpose. * The comment URL is useful if the browser presents the cookie * to the user. Comment URL is RFC 2965 only. * * @param purpose * a {@code String} specifying the comment URL to display to the user * * @see #getCommentURL
*/ publicvoid setCommentURL(String purpose) {
commentURL = purpose;
}
/** * Returns the comment URL describing the purpose of this cookie, or * {@code null} if the cookie has no comment URL. * * @return a {@code String} containing the comment URL, or {@code null} * if none * * @see #setCommentURL
*/ public String getCommentURL() { return commentURL;
}
/** * Specify whether user agent should discard the cookie unconditionally. * This is RFC 2965 only attribute. * * @param discard * {@code true} indicates to discard cookie unconditionally * * @see #getDiscard
*/ publicvoid setDiscard(boolean discard) {
toDiscard = discard;
}
/** * Returns the discard attribute of the cookie * * @return a {@code boolean} to represent this cookie's discard attribute * * @see #setDiscard
*/ publicboolean getDiscard() { return toDiscard;
}
/** * Specify the portlist of the cookie, which restricts the port(s) * to which a cookie may be sent back in a Cookie header. * * @param ports * a {@code String} specify the port list, which is comma separated * series of digits * * @see #getPortlist
*/ publicvoid setPortlist(String ports) {
portlist = ports;
}
/** * Returns the port list attribute of the cookie * * @return a {@code String} contains the port list or {@code null} if none * * @see #setPortlist
*/ public String getPortlist() { return portlist;
}
/** * Specifies the domain within which this cookie should be presented. * * <p> The form of the domain name is specified by RFC 2965. A domain * name begins with a dot ({@code .foo.com}) and means that * the cookie is visible to servers in a specified Domain Name System * (DNS) zone (for example, {@code www.foo.com}, but not * {@code a.b.foo.com}). By default, cookies are only returned * to the server that sent them. * * @param pattern * a {@code String} containing the domain name within which this * cookie is visible; form is according to RFC 2965 * * @see #getDomain
*/ publicvoid setDomain(String pattern) { if (pattern != null)
domain = pattern.toLowerCase(); else
domain = pattern;
}
/** * Returns the domain name set for this cookie. The form of the domain name * is set by RFC 2965. * * @return a {@code String} containing the domain name * * @see #setDomain
*/ public String getDomain() { return domain;
}
/** * Sets the maximum age of the cookie in seconds. * * <p> A positive value indicates that the cookie will expire * after that many seconds have passed. Note that the value is * the <i>maximum</i> age when the cookie will expire, not the cookie's * current age. * * <p> A negative value means that the cookie is not stored persistently * and will be deleted when the Web browser exits. A zero value causes the * cookie to be deleted. * * @param expiry * an integer specifying the maximum age of the cookie in seconds; * if zero, the cookie should be discarded immediately; otherwise, * the cookie's max age is unspecified. * * @see #getMaxAge
*/ publicvoid setMaxAge(long expiry) {
maxAge = expiry;
}
/** * Returns the maximum age of the cookie, specified in seconds. By default, * {@code -1} indicating the cookie will persist until browser shutdown. * * @return an integer specifying the maximum age of the cookie in seconds * * @see #setMaxAge
*/ publiclong getMaxAge() { return maxAge;
}
/** * Specifies a path for the cookie to which the client should return * the cookie. * * <p> The cookie is visible to all the pages in the directory * you specify, and all the pages in that directory's subdirectories. * A cookie's path must include the servlet that set the cookie, * for example, <i>/catalog</i>, which makes the cookie * visible to all directories on the server under <i>/catalog</i>. * * <p> Consult RFC 2965 (available on the Internet) for more * information on setting path names for cookies. * * @param uri * a {@code String} specifying a path * * @see #getPath
*/ publicvoid setPath(String uri) {
path = uri;
}
/** * Returns the path on the server to which the browser returns this cookie. * The cookie is visible to all subpaths on the server. * * @return a {@code String} specifying a path that contains a servlet name, * for example, <i>/catalog</i> * * @see #setPath
*/ public String getPath() { return path;
}
/** * Indicates whether the cookie should only be sent using a secure protocol, * such as HTTPS or SSL. * * <p> The default value is {@code false}. * * @param flag * If {@code true}, the cookie can only be sent over a secure * protocol like HTTPS. If {@code false}, it can be sent over * any protocol. * * @see #getSecure
*/ publicvoid setSecure(boolean flag) {
secure = flag;
}
/** * Returns {@code true} if sending this cookie should be restricted to a * secure protocol, or {@code false} if it can be sent using any * protocol. * * @return {@code false} if the cookie can be sent over any standard * protocol; otherwise, {@code true} * * @see #setSecure
*/ publicboolean getSecure() { return secure;
}
/** * Returns the name of the cookie. The name cannot be changed after * creation. * * @return a {@code String} specifying the cookie's name
*/ public String getName() { return name;
}
/** * Assigns a new value to a cookie after the cookie is created. * If you use a binary value, you may want to use BASE64 encoding. * * <p> With Version 0 cookies, values should not contain white space, * brackets, parentheses, equals signs, commas, double quotes, slashes, * question marks, at signs, colons, and semicolons. Empty values may not * behave the same way on all browsers. * * @param newValue * a {@code String} specifying the new value * * @see #getValue
*/ publicvoid setValue(String newValue) {
value = newValue;
}
/** * Returns the value of the cookie. * * @return a {@code String} containing the cookie's present value * * @see #setValue
*/ public String getValue() { return value;
}
/** * Returns the version of the protocol this cookie complies with. Version 1 * complies with RFC 2965/2109, and version 0 complies with the original * cookie specification drafted by Netscape. Cookies provided by a browser * use and identify the browser's cookie version. * * @return 0 if the cookie complies with the original Netscape * specification; 1 if the cookie complies with RFC 2965/2109 * * @see #setVersion
*/ publicint getVersion() { return version;
}
/** * Sets the version of the cookie protocol this cookie complies * with. Version 0 complies with the original Netscape cookie * specification. Version 1 complies with RFC 2965/2109. * * @param v * 0 if the cookie should comply with the original Netscape * specification; 1 if the cookie should comply with RFC 2965/2109 * * @throws IllegalArgumentException * if {@code v} is neither 0 nor 1 * * @see #getVersion
*/ publicvoid setVersion(int v) { if (v != 0 && v != 1) { thrownew IllegalArgumentException("cookie version should be 0 or 1");
}
version = v;
}
/** * Returns {@code true} if this cookie contains the <i>HttpOnly</i> * attribute. This means that the cookie should not be accessible to * scripting engines, like javascript. * * @return {@code true} if this cookie should be considered HTTPOnly * * @see #setHttpOnly(boolean)
*/ publicboolean isHttpOnly() { return httpOnly;
}
/** * Indicates whether the cookie should be considered HTTP Only. If set to * {@code true} it means the cookie should not be accessible to scripting * engines like javascript. * * @param httpOnly * if {@code true} make the cookie HTTP only, i.e. only visible as * part of an HTTP request. * * @see #isHttpOnly()
*/ publicvoid setHttpOnly(boolean httpOnly) { this.httpOnly = httpOnly;
}
/** * The utility method to check whether a host name is in a domain or not. * * <p> This concept is described in the cookie specification. * To understand the concept, some terminologies need to be defined first: * <blockquote> * effective host name = hostname if host name contains dot<br> * * or = hostname.local if not * </blockquote> * <p>Host A's name domain-matches host B's if: * <blockquote><ul> * <li>their host name strings string-compare equal; or</li> * <li>A is a HDN string and has the form NB, where N is a non-empty * name string, B has the form .B', and B' is a HDN string. (So, * x.y.com domain-matches .Y.com but not Y.com.)</li> * </ul></blockquote> * * <p>A host isn't in a domain (RFC 2965 sec. 3.3.2) if: * <blockquote><ul> * <li>The value for the Domain attribute contains no embedded dots, * and the value is not .local.</li> * <li>The effective host name that derives from the request-host does * not domain-match the Domain attribute.</li> * <li>The request-host is a HDN (not IP address) and has the form HD, * where D is the value of the Domain attribute, and H is a string * that contains one or more dots.</li> * </ul></blockquote> * * <p>Examples: * <blockquote><ul> * <li>A Set-Cookie2 from request-host y.x.foo.com for Domain=.foo.com * would be rejected, because H is y.x and contains a dot.</li> * <li>A Set-Cookie2 from request-host x.foo.com for Domain=.foo.com * would be accepted.</li> * <li>A Set-Cookie2 with Domain=.com or Domain=.com., will always be * rejected, because there is no embedded dot.</li> * <li>A Set-Cookie2 from request-host example for Domain=.local will * be accepted, because the effective host name for the request- * host is example.local, and example.local domain-matches .local.</li> * </ul></blockquote> * * @param domain * the domain name to check host name with * * @param host * the host name in question * * @return {@code true} if they domain-matches; {@code false} if not
*/ publicstaticboolean domainMatches(String domain, String host) { if (domain == null || host == null) returnfalse;
// if there's no embedded dot in domain and domain is not .local boolean isLocalDomain = ".local".equalsIgnoreCase(domain); int embeddedDotInDomain = domain.indexOf('.'); if (embeddedDotInDomain == 0)
embeddedDotInDomain = domain.indexOf('.', 1); if (!isLocalDomain
&& (embeddedDotInDomain == -1 ||
embeddedDotInDomain == domain.length() - 1)) returnfalse;
// if the host name contains no dot and the domain name // is .local or host.local int firstDotInHost = host.indexOf('.'); if (firstDotInHost == -1 &&
(isLocalDomain ||
domain.equalsIgnoreCase(host + ".local"))) { returntrue;
}
int domainLength = domain.length(); int lengthDiff = host.length() - domainLength; if (lengthDiff == 0) { // if the host name and the domain name are just string-compare equal return host.equalsIgnoreCase(domain);
} elseif (lengthDiff > 0) { // need to check H & D component
String H = host.substring(0, lengthDiff);
String D = host.substring(lengthDiff);
/** * Constructs a cookie header string representation of this cookie, * which is in the format defined by corresponding cookie specification, * but without the leading "Cookie:" token. * * @return a string form of the cookie. The string has the defined format
*/
@Override public String toString() { if (getVersion() > 0) { return toRFC2965HeaderString();
} else { return toNetscapeHeaderString();
}
}
/** * Test the equality of two HTTP cookies. * * <p> The result is {@code true} only if two cookies come from same domain * (case-insensitive), have same name (case-insensitive), and have same path * (case-sensitive). * * @return {@code true} if two HTTP cookies equal to each other; * otherwise, {@code false}
*/
@Override publicboolean equals(Object obj) { if (obj == this) returntrue; if (!(obj instanceof HttpCookie other)) returnfalse;
// One http cookie is equal to another cookie (RFC 2965 sec. 3.3.3) if: // 1. they come from same domain (case-insensitive), // 2. have same name (case-insensitive), // 3. and have same path (case-sensitive). return equalsIgnoreCase(getName(), other.getName()) &&
equalsIgnoreCase(getDomain(), other.getDomain()) &&
Objects.equals(getPath(), other.getPath());
}
/** * Returns the hash code of this HTTP cookie. The result is the sum of * hash code value of three significant components of this cookie: name, * domain, and path. That is, the hash code is the value of the expression: * <blockquote> * getName().toLowerCase().hashCode()<br> * + getDomain().toLowerCase().hashCode()<br> * + getPath().hashCode() * </blockquote> * * @return this HTTP cookie's hash code
*/
@Override publicint hashCode() { int h1 = name.toLowerCase().hashCode(); int h2 = (domain!=null) ? domain.toLowerCase().hashCode() : 0; int h3 = (path!=null) ? path.hashCode() : 0;
return h1 + h2 + h3;
}
/** * Create and return a copy of this object. * * @return a clone of this HTTP cookie
*/
@Override public Object clone() { try { returnsuper.clone();
} catch (CloneNotSupportedException e) { thrownew RuntimeException(e.getMessage());
}
} // ---------------- Package private operations --------------
// Note -- disabled for now to allow full Netscape compatibility // from RFC 2068, token special case characters // // private static final String tspecials = "()<>@,;:\\\"/[]?={} \t"; privatestaticfinal String tspecials = ",; "; // deliberately includes space
/* * Tests a string and returns true if the string counts as a token. * * @param value * the {@code String} to be tested * * @return {@code true} if the {@code String} is a token; * {@code false} if it is not
*/ privatestaticboolean isToken(String value) { int len = value.length();
for (int i = 0; i < len; i++) { char c = value.charAt(i);
if (c < 0x20 || c >= 0x7f || tspecials.indexOf(c) != -1) returnfalse;
} returntrue;
}
/* * Parse header string to cookie object. * * @param header * header string; should contain only one NAME=VALUE pair * * @return an HttpCookie being extracted * * @throws IllegalArgumentException * if header string violates the cookie specification
*/ privatestatic HttpCookie parseInternal(String header, boolean retainHeader)
{
HttpCookie cookie = null;
String namevaluePair = null;
StringTokenizer tokenizer = new StringTokenizer(header, ";");
// there should always have at least on name-value pair; // it's cookie's name try {
namevaluePair = tokenizer.nextToken(); int index = namevaluePair.indexOf('='); if (index != -1) {
String name = namevaluePair.substring(0, index).trim();
String value = namevaluePair.substring(index + 1).trim(); if (retainHeader)
cookie = new HttpCookie(name,
stripOffSurroundingQuote(value),
header); else
cookie = new HttpCookie(name,
stripOffSurroundingQuote(value));
} else { // no "=" in name-value pair; it's an error thrownew IllegalArgumentException("Invalid cookie name-value pair");
}
} catch (NoSuchElementException ignored) { thrownew IllegalArgumentException("Empty cookie header string");
}
// remaining name-value pairs are cookie's attributes while (tokenizer.hasMoreTokens()) {
namevaluePair = tokenizer.nextToken(); int index = namevaluePair.indexOf('=');
String name, value; if (index != -1) {
name = namevaluePair.substring(0, index).trim();
value = namevaluePair.substring(index + 1).trim();
} else {
name = namevaluePair.trim();
value = null;
}
// assign attribute to cookie
assignAttribute(cookie, name, value);
}
return cookie;
}
/* * assign cookie attribute value to attribute name; * use a map to simulate method dispatch
*/ staticinterface CookieAttributeAssignor { publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue);
} staticfinal java.util.Map<String, CookieAttributeAssignor> assignors = new java.util.HashMap<>(); static {
assignors.put("comment", new CookieAttributeAssignor() { publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { if (cookie.getComment() == null)
cookie.setComment(attrValue);
}
});
assignors.put("commenturl", new CookieAttributeAssignor() { publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { if (cookie.getCommentURL() == null)
cookie.setCommentURL(attrValue);
}
});
assignors.put("discard", new CookieAttributeAssignor() { publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) {
cookie.setDiscard(true);
}
});
assignors.put("domain", new CookieAttributeAssignor(){ publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { if (cookie.getDomain() == null)
cookie.setDomain(attrValue);
}
});
assignors.put("max-age", new CookieAttributeAssignor(){ publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { try { long maxage = Long.parseLong(attrValue); if (cookie.getMaxAge() == MAX_AGE_UNSPECIFIED)
cookie.setMaxAge(maxage);
} catch (NumberFormatException ignored) { thrownew IllegalArgumentException( "Illegal cookie max-age attribute");
}
}
});
assignors.put("path", new CookieAttributeAssignor(){ publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { if (cookie.getPath() == null)
cookie.setPath(attrValue);
}
});
assignors.put("port", new CookieAttributeAssignor(){ publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { if (cookie.getPortlist() == null)
cookie.setPortlist(attrValue == null ? "" : attrValue);
}
});
assignors.put("secure", new CookieAttributeAssignor(){ publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) {
cookie.setSecure(true);
}
});
assignors.put("httponly", new CookieAttributeAssignor(){ publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) {
cookie.setHttpOnly(true);
}
});
assignors.put("version", new CookieAttributeAssignor(){ publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { try { int version = Integer.parseInt(attrValue);
cookie.setVersion(version);
} catch (NumberFormatException ignored) { // Just ignore bogus version, it will default to 0 or 1
}
}
});
assignors.put("expires", new CookieAttributeAssignor(){ // Netscape only publicvoid assign(HttpCookie cookie,
String attrName,
String attrValue) { if (cookie.getMaxAge() == MAX_AGE_UNSPECIFIED) { long delta = cookie.expiryDate2DeltaSeconds(attrValue);
cookie.setMaxAge(delta > 0 ? delta : 0);
}
}
});
} privatestaticvoid assignAttribute(HttpCookie cookie,
String attrName,
String attrValue)
{ // strip off the surrounding "-sign if there's any
attrValue = stripOffSurroundingQuote(attrValue);
CookieAttributeAssignor assignor = assignors.get(attrName.toLowerCase()); if (assignor != null) {
assignor.assign(cookie, attrName, attrValue);
} else { // Ignore the attribute as per RFC 2965
}
}
static {
SharedSecrets.setJavaNetHttpCookieAccess( new JavaNetHttpCookieAccess() { public List<HttpCookie> parse(String header) { return HttpCookie.parse(header, true);
}
/* * Returns the original header this cookie was constructed from, if it was * constructed by parsing a header, otherwise null.
*/ private String header() { return header;
}
/* * Constructs a string representation of this cookie. The string format is * as Netscape spec, but without leading "Cookie:" token.
*/ private String toNetscapeHeaderString() { return getName() + "=" + getValue();
}
/* * Constructs a string representation of this cookie. The string format is * as RFC 2965/2109, but without leading "Cookie:" token.
*/ private String toRFC2965HeaderString() {
StringBuilder sb = new StringBuilder();
sb.append(getName()).append("=\"").append(getValue()).append('"'); if (getPath() != null)
sb.append(";$Path=\"").append(getPath()).append('"'); if (getDomain() != null)
sb.append(";$Domain=\"").append(getDomain()).append('"'); if (getPortlist() != null)
sb.append(";$Port=\"").append(getPortlist()).append('"');
/* * @param dateString * a date string in one of the formats defined in Netscape cookie spec * * @return delta seconds between this cookie's creation time and the time * specified by dateString
*/ privatelong expiryDate2DeltaSeconds(String dateString) {
Calendar cal = new GregorianCalendar(GMT); for (int i = 0; i < COOKIE_DATE_FORMATS.length; i++) {
SimpleDateFormat df = new SimpleDateFormat(COOKIE_DATE_FORMATS[i],
Locale.US);
cal.set(1970, 0, 1, 0, 0, 0);
df.setTimeZone(GMT);
df.setLenient(false);
df.set2DigitYearStart(cal.getTime()); try {
cal.setTime(df.parse(dateString)); if (!COOKIE_DATE_FORMATS[i].contains("yyyy")) { // 2-digit years following the standard set // out it rfc 6265 int year = cal.get(Calendar.YEAR);
year %= 100; if (year < 70) {
year += 2000;
} else {
year += 1900;
}
cal.set(Calendar.YEAR, year);
} return (cal.getTimeInMillis() - whenCreated) / 1000;
} catch (Exception e) { // Ignore, try the next date format
}
} return 0;
}
/* * try to guess the cookie version through set-cookie header string
*/ privatestaticint guessCookieVersion(String header) { int version = 0;
header = header.toLowerCase(); if (header.contains("expires=")) { // only netscape cookie using 'expires'
version = 0;
} elseif (header.contains("version=")) { // version is mandatory for rfc 2965/2109 cookie
version = 1;
} elseif (header.contains("max-age")) { // rfc 2965/2109 use 'max-age'
version = 1;
} elseif (startsWithIgnoreCase(header, SET_COOKIE2)) { // only rfc 2965 cookie starts with 'set-cookie2'
version = 1;
}
privatestaticboolean equalsIgnoreCase(String s, String t) { if (s == t) returntrue; if ((s != null) && (t != null)) { return s.equalsIgnoreCase(t);
} returnfalse;
}
privatestaticboolean startsWithIgnoreCase(String s, String start) { if (s == null || start == null) returnfalse;
if (s.length() >= start.length() &&
start.equalsIgnoreCase(s.substring(0, start.length()))) { returntrue;
}
returnfalse;
}
/* * Split cookie header string according to rfc 2965: * 1) split where it is a comma; * 2) but not the comma surrounding by double-quotes, which is the comma * inside port list or embedded URIs. * * @param header * the cookie header string to split * * @return list of strings; never null
*/ privatestatic List<String> splitMultiCookies(String header) {
List<String> cookies = new java.util.ArrayList<>(); int quoteCount = 0; int p, q;
for (p = 0, q = 0; p < header.length(); p++) { char c = header.charAt(p); if (c == '"') quoteCount++; if (c == ',' && (quoteCount % 2 == 0)) { // it is comma and not surrounding by double-quotes
cookies.add(header.substring(q, p));
q = p + 1;
}
}
cookies.add(header.substring(q));
return cookies;
}
}
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