The rewrite valve implements URL rewrite functionality in a way that is very similar to mod_rewrite from Apache HTTP Server.
The rewrite Valve
Introduction
Configuration
The rewrite valve is configured as a valve using the org.apache.catalina.valves.rewrite.RewriteValve
class name.
The rewrite valve can be configured as a valve added in a Host.
See virtual-server documentation for
informations how to configure it. It will use a rewrite.config
file
containing the rewrite directives, it must be placed in the Host configuration
folder.
It can also be in the context.xml of a webapp.
The valve will then use a rewrite.config
file containing the
rewrite directives, it must be placed in the WEB-INF folder of the web application
Directives
The rewrite.config file contains a list of directives which closely
resemble the directives used by mod_rewrite, in particular the central
RewriteRule and RewriteCond directives. Lines that start with a
#
character are treated as comments and will be ignored.
Note: This section is a modified version of the mod_rewrite documentation, which is Copyright 1995-2006 The Apache Software Foundation, and licensed under the under the Apache License, Version 2.0.
RewriteCond
Syntax: RewriteCond TestString CondPattern
The RewriteCond directive defines a rule condition. One or more RewriteCond can precede a RewriteRule directive. The following rule is then only used if both the current state of the URI matches its pattern, and if these conditions are met.
TestString is a string which can contain the following expanded constructs in addition to plain text:
-
RewriteRule backreferences: These are
backreferences of the form
$N
(0 <= N <= 9), which provide access to the grouped parts (in parentheses) of the pattern, from theRewriteRule
which is subject to the current set ofRewriteCond
conditions.. -
RewriteCond backreferences: These are
backreferences of the form
%N
(1 <= N <= 9), which provide access to the grouped parts (again, in parentheses) of the pattern, from the last matchedRewriteCond
in the current set of conditions. -
RewriteMap expansions: These are
expansions of the form
${mapname:key|default}
. See the documentation for RewriteMap for more details. -
Server-Variables: These are variables of
the form
%{
NAME_OF_VARIABLE}
where NAME_OF_VARIABLE can be a string taken from the following list:-
HTTP headers:
HTTP_USER_AGENT
HTTP_REFERER
HTTP_COOKIE
HTTP_FORWARDED
HTTP_HOST
HTTP_PROXY_CONNECTION
HTTP_ACCEPT
-
connection & request:
REMOTE_ADDR
REMOTE_HOST
REMOTE_PORT
REMOTE_USER
REMOTE_IDENT
REQUEST_METHOD
SCRIPT_FILENAME
REQUEST_PATH
CONTEXT_PATH
SERVLET_PATH
PATH_INFO
QUERY_STRING
AUTH_TYPE
-
server internals:
DOCUMENT_ROOT
SERVER_NAME
SERVER_ADDR
SERVER_PORT
SERVER_PROTOCOL
SERVER_SOFTWARE
-
date and time:
TIME_YEAR
TIME_MON
TIME_DAY
TIME_HOUR
TIME_MIN
TIME_SEC
TIME_WDAY
TIME
-
specials:
THE_REQUEST
REQUEST_URI
REQUEST_FILENAME
HTTPS
These variables all correspond to the similarly named HTTP MIME-headers and Servlet API methods. Most are documented elsewhere in the Manual or in the CGI specification. Those that are special to the rewrite valve include those below.
REQUEST_PATH
- Corresponds to the full path that is used for mapping.
CONTEXT_PATH
- Corresponds to the path of the mapped context.
SERVLET_PATH
- Corresponds to the servlet path.
THE_REQUEST
- The full HTTP request line sent by the
browser to the server (e.g., "
GET /index.html HTTP/1.1
"). This does not include any additional headers sent by the browser. REQUEST_URI
- The resource requested in the HTTP request line. (In the example above, this would be "/index.html".)
REQUEST_FILENAME
- The full local file system path to the file or script matching the request.
HTTPS
- Will contain the text "on" if the connection is using SSL/TLS, or "off" otherwise.
-
Other things you should be aware of:
- The variables SCRIPT_FILENAME and REQUEST_FILENAME
contain the same value - the value of the
filename
field of the internalrequest_rec
structure of the Apache server. The first name is the commonly known CGI variable name while the second is the appropriate counterpart of REQUEST_URI (which contains the value of theuri
field ofrequest_rec
). -
%{ENV:variable}
, where variable can be any Java system property, is also available. -
%{SSL:variable}
, where variable is the name of an SSL environment variable, are not implemented, exceptSSL_PROTOCOL
,SSL_SESSION_ID
,SSL_CIPHER
andSSL_CIPHER_USEKEYSIZE
. Example:%{SSL:SSL_CIPHER_USEKEYSIZE}
may expand to128
. -
%{HTTP:header}
, where header can be any HTTP MIME-header name, can always be used to obtain the value of a header sent in the HTTP request. Example:%{HTTP:Proxy-Connection}
is the value of the HTTP header 'Proxy-Connection:
'.
CondPattern is the condition pattern, a regular expression which is applied to the current instance of the TestString. TestString is first evaluated, before being matched against CondPattern.
Remember: CondPattern is a perl compatible regular expression with some additions:
- You can prefix the pattern string with a
'
!
' character (exclamation mark) to specify a non-matching pattern. -
There are some special variants of CondPatterns.
Instead of real regular expression strings you can also
use one of the following:
- '<CondPattern' (lexicographically
precedes)
Treats the CondPattern as a plain string and compares it lexicographically to TestString. True if TestString lexicographically precedes CondPattern. - '>CondPattern' (lexicographically
follows)
Treats the CondPattern as a plain string and compares it lexicographically to TestString. True if TestString lexicographically follows CondPattern. - '=CondPattern' (lexicographically
equal)
Treats the CondPattern as a plain string and compares it lexicographically to TestString. True if TestString is lexicographically equal to CondPattern (the two strings are exactly equal, character for character). If CondPattern is""
(two quotation marks) this compares TestString to the empty string. - '-d' (is
directory)
Treats the TestString as a pathname and tests whether or not it exists, and is a directory. - '-f' (is regular
file)
Treats the TestString as a pathname and tests whether or not it exists, and is a regular file. - '-s' (is regular file, with
size)
Treats the TestString as a pathname and tests whether or not it exists, and is a regular file with size greater than zero.
- '<CondPattern' (lexicographically
precedes)
- You can also set special flags for
CondPattern by appending
[
flags]
as the third argument to theRewriteCond
directive, where flags is a comma-separated list of any of the following flags:- '
nocase|NC
' (no case)
This makes the test case-insensitive - differences between 'A-Z' and 'a-z' are ignored, both in the expanded TestString and the CondPattern. This flag is effective only for comparisons between TestString and CondPattern. It has no effect on file system and subrequest checks. -
'
ornext|OR
' (or next condition)
Use this to combine rule conditions with a local OR instead of the implicit AND. Typical example:Without this flag you would have to write the condition/rule pair three times.RewriteCond %{REMOTE_HOST} ^host1.* [OR] RewriteCond %{REMOTE_HOST} ^host2.* [OR] RewriteCond %{REMOTE_HOST} ^host3.* RewriteRule ...some special stuff for any of these hosts...
- '
Example:
To rewrite the Homepage of a site according to the
'User-Agent:
' header of the request, you can
use the following:
RewriteCond %{HTTP_USER_AGENT} ^Mozilla.*
RewriteRule ^/$ /homepage.max.html [L]
RewriteCond %{HTTP_USER_AGENT} ^Lynx.*
RewriteRule ^/$ /homepage.min.html [L]
RewriteRule ^/$ /homepage.std.html [L]
Explanation: If you use a browser which identifies itself as 'Mozilla' (including Netscape Navigator, Mozilla etc), then you get the max homepage (which could include frames, or other special features). If you use the Lynx browser (which is terminal-based), then you get the min homepage (which could be a version designed for easy, text-only browsing). If neither of these conditions apply (you use any other browser, or your browser identifies itself as something non-standard), you get the std (standard) homepage.
RewriteMap
Syntax: RewriteMap name rewriteMapClassName optionalParameters
The rewriteMapClassName
value also allows special values:
int:toupper
: Special map converting passed values to upper caseint:tolower
: Special map converting passed values to lower caseint:escape
: URL escape the passed valueint:unescape
: URL unescape the passed value
The maps are implemented using an interface that users must implement. Its class
name is org.apache.catalina.valves.rewrite.RewriteMap
, and its code is:
package org.apache.catalina.valves.rewrite;
public interface RewriteMap {
default String setParameters(String params...); // calls setParameters(String) with the first parameter if there is only one
public String setParameters(String params);
public String lookup(String key);
}
The referenced implementation of such a class – in our example rewriteMapClassName
–
will be instantiated and initialized with the optional parameter – optionalParameters
from above
(be careful with whitespace) – by calling setParameters(String)
. That instance
will then be registered under the name given as the first paramter of RewriteMap
rule.
Note: Starting with Tomcat 9 you can use more than one parameter. These have to be separated by spaces. Parameters can be quoted with ". This enables space characters inside parameters.
That map instance will be given the the lookup value that is configured in the corresponding RewriteRule
by
calling lookup(String)
. Your implementation is free to return null
to indicate,
that the given default should be used, or to return a replacement value.
Say, you want to implement a rewrite map function that converts all lookup keys to uppercase. You
would start by implementing a class that implements the RewriteMap
interface.
package example.maps;
import org.apache.catalina.valves.rewrite.RewriteMap;
public class UpperCaseMap implements RewriteMap {
@Override
public String setParameters(String params) {
// nothing to be done here
return null;
}
@Override
public String lookup(String key) {
if (key == null) {
return null;
}
return key.toUpperCase();
}
}
Compile this class, put it into a jar and place that jar in ${CATALINA_BASE}/lib
.
Having done that, you can now define a map with the RewriteMap
directive
and further on use that map in a RewriteRule
.
RewriteMap uc example.maps.UpperCaseMap
RewriteRule ^/(.*)$ ${uc:$1}
With this setup a request to the url path /index.html
would get routed
to /INDEX.HTML
.
RewriteRule
Syntax: RewriteRule Pattern Substitution
The RewriteRule directive is the real rewriting workhorse. The directive can occur more than once, with each instance defining a single rewrite rule. The order in which these rules are defined is important - this is the order in which they will be applied at run-time.
Pattern is a perl compatible regular expression, which is applied to the current URL. 'Current' means the value of the URL when this rule is applied. This may not be the originally requested URL, which may already have matched a previous rule, and have been altered.
Security warning: Due to the way Java's regex matching is done, poorly formed regex patterns are vulnerable to "catastrophic backtracking", also known as "regular expression denial of service" or ReDoS. Therefore, extra caution should be used for RewriteRule patterns. In general it is difficult to automatically detect such vulnerable regex, and so a good defense is to read a bit on the subject of catastrophic backtracking. A good reference is the OWASP ReDoS guide.
Some hints on the syntax of regular expressions:
Text:.
Any single character[
chars]
Character class: Any character of the class 'chars'[^
chars]
Character class: Not a character of the class 'chars' text1|
text2 Alternative: text1 or text2 Quantifiers:?
0 or 1 occurrences of the preceding text*
0 or N occurrences of the preceding text (N > 0)+
1 or N occurrences of the preceding text (N > 1) Grouping:(
text)
Grouping of text (used either to set the borders of an alternative as above, or to make backreferences, where the Nth group can be referred to on the RHS of a RewriteRule as$
N) Anchors:^
Start-of-line anchor$
End-of-line anchor Escaping:\
char escape the given char (for instance, to specify the chars ".[]()
" etc.)
For more information about regular expressions, have a look at the perl regular expression manpage ("perldoc perlre"). If you are interested in more detailed information about regular expressions and their variants (POSIX regex etc.) the following book is dedicated to this topic:
Mastering Regular Expressions, 2nd Edition
Jeffrey E.F. Friedl
O'Reilly & Associates, Inc. 2002
ISBN 978-0-596-00289-3
In the rules, the NOT character
('!
') is also available as a possible pattern
prefix. This enables you to negate a pattern; to say, for instance:
'if the current URL does NOT match this
pattern'. This can be used for exceptional cases, where
it is easier to match the negative pattern, or as a last
default rule.
Note: When using the NOT character to negate a pattern, you cannot include
grouped wildcard parts in that pattern. This is because, when the
pattern does NOT match (i.e., the negation matches), there are no
contents for the groups. Thus, if negated patterns are used, you
cannot use $N
in the substitution string!
The substitution of a rewrite rule is the string which is substituted for (or replaces) the original URL which Pattern matched. In addition to plain text, it can include
- back-references (
$N
) to the RewriteRule pattern - back-references (
%N
) to the last matched RewriteCond pattern - server-variables as in rule condition test-strings
(
%{VARNAME}
) - mapping-function calls
(
${mapname:key|default}
)
Back-references are identifiers of the form
$
N
(N=0..9), which will be replaced
by the contents of the Nth group of the
matched Pattern. The server-variables are the same
as for the TestString of a RewriteCond
directive. The mapping-functions come from the
RewriteMap
directive and are explained there.
These three types of variables are expanded in the order above.
As already mentioned, all rewrite rules are
applied to the Substitution (in the order in which
they are defined
in the config file). The URL is completely
replaced by the Substitution and the
rewriting process continues until all rules have been applied,
or it is explicitly terminated by a
L
flag.
The special characters $
and %
can
be quoted by prepending them with a backslash character
\
.
There is a special substitution string named
'-
' which means: NO
substitution! This is useful in providing
rewriting rules which only match
URLs but do not substitute anything for them. It is commonly used
in conjunction with the C (chain) flag, in order
to apply more than one pattern before substitution occurs.
Unlike newer mod_rewrite versions, the Tomcat rewrite valve does not automatically support absolute URLs (the specific redirect flag must be used to be able to specify an absolute URLs, see below) or direct file serving.
Additionally you can set special flags for Substitution by
appending [
flags]
as the third argument to the RewriteRule
directive. Flags is a comma-separated list of any of the
following flags:
- '
chain|C
' (chained with next rule)
This flag chains the current rule with the next rule (which itself can be chained with the following rule, and so on). This has the following effect: if a rule matches, then processing continues as usual - the flag has no effect. If the rule does not match, then all following chained rules are skipped. For instance, it can be used to remove the '.www
' part, inside a per-directory rule set, when you let an external redirect happen (where the '.www
' part should not occur!). -
'
cookie|CO=
NAME:VAL:domain[:lifetime[:path]]' (set cookie)
This sets a cookie in the client's browser. The cookie's name is specified by NAME and the value is VAL. The domain field is the domain of the cookie, such as '.apache.org', the optional lifetime is the lifetime of the cookie in minutes, and the optional path is the path of the cookie -
'
env|E=
VAR:VAL' (set environment variable)
This forces a request attribute named VAR to be set to the value VAL, where VAL can contain regexp backreferences ($N
and%N
) which will be expanded. You can use this flag more than once, to set more than one variable. - '
forbidden|F
' (force URL to be forbidden)
This forces the current URL to be forbidden - it immediately sends back an HTTP response of 403 (FORBIDDEN). Use this flag in conjunction with appropriate RewriteConds to conditionally block some URLs. - '
gone|G
' (force URL to be gone)
This forces the current URL to be gone - it immediately sends back an HTTP response of 410 (GONE). Use this flag to mark pages which no longer exist as gone. -
'
host|H
=Host' (apply rewriting to host)
Rather that rewrite the URL, the virtual host will be rewritten. - '
last|L
' (last rule)
Stop the rewriting process here and don't apply any more rewrite rules. This corresponds to the Perllast
command or thebreak
command in C. Use this flag to prevent the currently rewritten URL from being rewritten further by following rules. For example, use it to rewrite the root-path URL ('/
') to a real one, e.g., '/e/www/
'. - '
next|N
' (next round)
Re-run the rewriting process (starting again with the first rewriting rule). This time, the URL to match is no longer the original URL, but rather the URL returned by the last rewriting rule. This corresponds to the Perlnext
command or thecontinue
command in C. Use this flag to restart the rewriting process - to immediately go to the top of the loop.
Be careful not to create an infinite loop! - '
nocase|NC
' (no case)
This makes the Pattern case-insensitive, ignoring difference between 'A-Z' and 'a-z' when Pattern is matched against the current URL. -
'
noescape|NE
' (no URI escaping of output)
This flag prevents the rewrite valve from applying the usual URI escaping rules to the result of a rewrite. Ordinarily, special characters (such as '%', '$', ';', and so on) will be escaped into their hexcode equivalents ('%25', '%24', and '%3B', respectively); this flag prevents this from happening. This allows percent symbols to appear in the output, as inwhich would turn 'RewriteRule /foo/(.*) /bar?arg=P1\%3d$1 [R,NE]
/foo/zed
' into a safe request for '/bar?arg=P1=zed
'. - '
qsappend|QSA
' (query string append)
This flag forces the rewrite engine to append a query string part of the substitution string to the existing string, instead of replacing it. Use this when you want to add more data to the query string via a rewrite rule. - '
redirect|R
[=code]' (force redirect)
Prefix Substitution withhttp://thishost[:thisport]/
(which makes the new URL a URI) to force an external redirection. If no code is given, an HTTP response of 302 (FOUND, previously MOVED TEMPORARILY) will be returned. If you want to use other response codes in the range 300-399, simply specify the appropriate number or use one of the following symbolic names:temp
(default),permanent
,seeother
. Use this for rules to canonicalize the URL and return it to the client - to translate '/~
' into '/u/
', or to always append a slash to/u/
user, etc.
Note: When you use this flag, make sure that the substitution field is a valid URL! Otherwise, you will be redirecting to an invalid location. Remember that this flag on its own will only prependhttp://thishost[:thisport]/
to the URL, and rewriting will continue. Usually, you will want to stop rewriting at this point, and redirect immediately. To stop rewriting, you should add the 'L' flag. - '
skip|S
=num' (skip next rule(s))
This flag forces the rewriting engine to skip the next num rules in sequence, if the current rule matches. Use this to make pseudo if-then-else constructs: The last rule of the then-clause becomesskip=N
, where N is the number of rules in the else-clause. (This is not the same as the 'chain|C' flag!) -
'
type|T
=MIME-type' (force MIME type)
Force the MIME-type of the target file to be MIME-type. This can be used to set up the content-type based on some conditions. For example, the following snippet allows.php
files to be displayed bymod_php
if they are called with the.phps
extension:RewriteRule ^(.+\.php)s$ $1 [T=application/x-httpd-php-source]