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15 <p class="apache">Apache HTTP Server Version 2.1</p>
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19 <a href="http://www.apache.org/">Apache</a> > <a href="http://httpd.apache.org/">HTTP Server</a> > <a href="http://httpd.apache.org/docs-project/">Documentation</a> > <a href="./">Version 2.1</a></div><div id="page-content"><div id="preamble"><h1>Log Files</h1>
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26 <p>In order to effectively manage a web server, it is necessary
27 to get feedback about the activity and performance of the
28 server as well as any problems that may be occurring. The Apache
29 HTTP Server provides very comprehensive and flexible logging
30 capabilities. This document describes how to configure its
31 logging capabilities, and how to understand what the logs
34 <div id="quickview"><ul id="toc"><li><img alt="" src="./images/down.gif" /> <a href="#security">Security Warning</a></li>
35 <li><img alt="" src="./images/down.gif" /> <a href="#errorlog">Error Log</a></li>
36 <li><img alt="" src="./images/down.gif" /> <a href="#accesslog">Access Log</a></li>
37 <li><img alt="" src="./images/down.gif" /> <a href="#rotation">Log Rotation</a></li>
38 <li><img alt="" src="./images/down.gif" /> <a href="#piped">Piped Logs</a></li>
39 <li><img alt="" src="./images/down.gif" /> <a href="#virtualhost">Virtual Hosts</a></li>
40 <li><img alt="" src="./images/down.gif" /> <a href="#other">Other Log Files</a></li>
42 <div class="top"><a href="#page-header"><img alt="top" src="./images/up.gif" /></a></div>
44 <h2><a name="security" id="security">Security Warning</a></h2>
47 <p>Anyone who can write to the directory where Apache is
48 writing a log file can almost certainly gain access to the uid
49 that the server is started as, which is normally root. Do
50 <em>NOT</em> give people write access to the directory the logs
51 are stored in without being aware of the consequences; see the
52 <a href="misc/security_tips.html">security tips</a> document
55 <p>In addition, log files may contain information supplied
56 directly by the client, without escaping. Therefore, it is
57 possible for malicious clients to insert control-characters in
58 the log files, so care must be taken in dealing with raw
60 </div><div class="top"><a href="#page-header"><img alt="top" src="./images/up.gif" /></a></div>
62 <h2><a name="errorlog" id="errorlog">Error Log</a></h2>
65 <table class="related"><tr><th>Related Modules</th><th>Related Directives</th></tr><tr><td /><td><ul><li><code class="directive"><a href="./mod/core.html#errorlog">ErrorLog</a></code></li><li><code class="directive"><a href="./mod/core.html#loglevel">LogLevel</a></code></li></ul></td></tr></table>
67 <p>The server error log, whose name and location is set by the
68 <code class="directive"><a href="./mod/core.html#errorlog">ErrorLog</a></code> directive, is the
69 most important log file. This is the place where Apache httpd
70 will send diagnostic information and record any errors that it
71 encounters in processing requests. It is the first place to
72 look when a problem occurs with starting the server or with the
73 operation of the server, since it will often contain details of
74 what went wrong and how to fix it.</p>
76 <p>The error log is usually written to a file (typically
77 <code>error_log</code> on unix systems and
78 <code>error.log</code> on Windows and OS/2). On unix systems it
79 is also possible to have the server send errors to
80 <code>syslog</code> or <a href="#piped">pipe them to a
83 <p>The format of the error log is relatively free-form and
84 descriptive. But there is certain information that is contained
85 in most error log entries. For example, here is a typical
88 <div class="example"><p><code>
89 [Wed Oct 11 14:32:52 2000] [error] [client 127.0.0.1]
90 client denied by server configuration:
91 /export/home/live/ap/htdocs/test
94 <p>The first item in the log entry is the date and time of the
95 message. The second entry lists the severity of the error being
96 reported. The <code class="directive"><a href="./mod/core.html#loglevel">LogLevel</a></code>
97 directive is used to control the types of errors that are sent
98 to the error log by restricting the severity level. The third
99 entry gives the IP address of the client that generated the
100 error. Beyond that is the message itself, which in this case
101 indicates that the server has been configured to deny the
102 client access. The server reports the file-system path (as
103 opposed to the web path) of the requested document.</p>
105 <p>A very wide variety of different messages can appear in the
106 error log. Most look similar to the example above. The error
107 log will also contain debugging output from CGI scripts. Any
108 information written to <code>stderr</code> by a CGI script will
109 be copied directly to the error log.</p>
111 <p>It is not possible to customize the error log by adding or
112 removing information. However, error log entries dealing with
113 particular requests have corresponding entries in the <a href="#accesslog">access log</a>. For example, the above example
114 entry corresponds to an access log entry with status code 403.
115 Since it is possible to customize the access log, you can
116 obtain more information about error conditions using that log
119 <p>During testing, it is often useful to continuously monitor
120 the error log for any problems. On unix systems, you can
121 accomplish this using:</p>
123 <div class="example"><p><code>
126 </div><div class="top"><a href="#page-header"><img alt="top" src="./images/up.gif" /></a></div>
127 <div class="section">
128 <h2><a name="accesslog" id="accesslog">Access Log</a></h2>
131 <table class="related"><tr><th>Related Modules</th><th>Related Directives</th></tr><tr><td><ul><li><code class="module"><a href="./mod/mod_log_config.html">mod_log_config</a></code></li><li><code class="module"><a href="./mod/mod_setenvif.html">mod_setenvif</a></code></li></ul></td><td><ul><li><code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code></li><li><code class="directive"><a href="./mod/mod_log_config.html#logformat">LogFormat</a></code></li><li><code class="directive"><a href="./mod/mod_setenvif.html#setenvif">SetEnvIf</a></code></li></ul></td></tr></table>
133 <p>The server access log records all requests processed by the
134 server. The location and content of the access log are
135 controlled by the <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code>
136 directive. The <code class="directive"><a href="./mod/mod_log_config.html#logformat">LogFormat</a></code>
137 directive can be used to simplify the selection of
138 the contents of the logs. This section describes how to configure the server
139 to record information in the access log.</p>
141 <p>Of course, storing the information in the access log is only
142 the start of log management. The next step is to analyze this
143 information to produce useful statistics. Log analysis in
144 general is beyond the scope of this document, and not really
145 part of the job of the web server itself. For more information
146 about this topic, and for applications which perform log
147 analysis, check the <a href="http://dmoz.org/Computers/Software/Internet/Site_Management/Log_analysis/">
148 Open Directory</a> or <a href="http://dir.yahoo.com/Computers_and_Internet/Software/Internet/World_Wide_Web/Servers/Log_Analysis_Tools/">
151 <p>Various versions of Apache httpd have used other modules and
152 directives to control access logging, including
153 mod_log_referer, mod_log_agent, and the
154 <code>TransferLog</code> directive. The <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code> directive now subsumes
155 the functionality of all the older directives.</p>
157 <p>The format of the access log is highly configurable. The format
158 is specified using a format string that looks much like a C-style
159 printf(1) format string. Some examples are presented in the next
160 sections. For a complete list of the possible contents of the
161 format string, see the <code class="module"><a href="./mod/mod_log_config.html">mod_log_config</a></code> <a href="mod/mod_log_config.html#formats">format strings</a>.</p>
163 <h3><a name="common" id="common">Common Log Format</a></h3>
166 <p>A typical configuration for the access log might look as
169 <div class="example"><p><code>
170 LogFormat "%h %l %u %t \"%r\" %>s %b" common<br />
171 CustomLog logs/access_log common
174 <p>This defines the <em>nickname</em> <code>common</code> and
175 associates it with a particular log format string. The format
176 string consists of percent directives, each of which tell the
177 server to log a particular piece of information. Literal
178 characters may also be placed in the format string and will be
179 copied directly into the log output. The quote character
180 (<code>"</code>) must be escaped by placing a back-slash before
181 it to prevent it from being interpreted as the end of the
182 format string. The format string may also contain the special
183 control characters "<code>\n</code>" for new-line and
184 "<code>\t</code>" for tab.</p>
186 <p>The <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code>
187 directive sets up a new log file using the defined
188 <em>nickname</em>. The filename for the access log is relative to
189 the <code class="directive"><a href="./mod/core.html#serverroot">ServerRoot</a></code> unless it
190 begins with a slash.</p>
192 <p>The above configuration will write log entries in a format
193 known as the Common Log Format (CLF). This standard format can
194 be produced by many different web servers and read by many log
195 analysis programs. The log file entries produced in CLF will
196 look something like this:</p>
198 <div class="example"><p><code>
199 127.0.0.1 - frank [10/Oct/2000:13:55:36 -0700] "GET
200 /apache_pb.gif HTTP/1.0" 200 2326
203 <p>Each part of this log entry is described below.</p>
206 <dt><code>127.0.0.1</code> (<code>%h</code>)</dt>
208 <dd>This is the IP address of the client (remote host) which
209 made the request to the server. If <code class="directive"><a href="./mod/core.html#hostnamelookups">HostnameLookups</a></code> is
210 set to <code>On</code>, then the server will try to determine
211 the hostname and log it in place of the IP address. However,
212 this configuration is not recommended since it can
213 significantly slow the server. Instead, it is best to use a
214 log post-processor such as <code class="program"><a href="./programs/logresolve.html">logresolve</a></code> to determine
215 the hostnames. The IP address reported here is not
216 necessarily the address of the machine at which the user is
217 sitting. If a proxy server exists between the user and the
218 server, this address will be the address of the proxy, rather
219 than the originating machine.</dd>
221 <dt><code>-</code> (<code>%l</code>)</dt>
223 <dd>The "hyphen" in the output indicates that the requested
224 piece of information is not available. In this case, the
225 information that is not available is the RFC 1413 identity of
226 the client determined by <code>identd</code> on the clients
227 machine. This information is highly unreliable and should
228 almost never be used except on tightly controlled internal
229 networks. Apache httpd will not even attempt to determine
230 this information unless <code class="directive"><a href="./mod/core.html#identitycheck">IdentityCheck</a></code> is set
231 to <code>On</code>.</dd>
233 <dt><code>frank</code> (<code>%u</code>)</dt>
235 <dd>This is the userid of the person requesting the document
236 as determined by HTTP authentication. The same value is
237 typically provided to CGI scripts in the
238 <code>REMOTE_USER</code> environment variable. If the status
239 code for the request (see below) is 401, then this value
240 should not be trusted because the user is not yet
241 authenticated. If the document is not password protected,
242 this entry will be "<code>-</code>" just like the previous
245 <dt><code>[10/Oct/2000:13:55:36 -0700]</code>
246 (<code>%t</code>)</dt>
249 The time that the server finished processing the request.
253 <code>[day/month/year:hour:minute:second zone]<br />
255 month = 3*letter<br />
258 minute = 2*digit<br />
259 second = 2*digit<br />
260 zone = (`+' | `-') 4*digit</code>
262 It is possible to have the time displayed in another format
263 by specifying <code>%{format}t</code> in the log format
264 string, where <code>format</code> is as in
265 <code>strftime(3)</code> from the C standard library.
268 <dt><code>"GET /apache_pb.gif HTTP/1.0"</code>
269 (<code>\"%r\"</code>)</dt>
271 <dd>The request line from the client is given in double
272 quotes. The request line contains a great deal of useful
273 information. First, the method used by the client is
274 <code>GET</code>. Second, the client requested the resource
275 <code>/apache_pb.gif</code>, and third, the client used the
276 protocol <code>HTTP/1.0</code>. It is also possible to log
277 one or more parts of the request line independently. For
278 example, the format string "<code>%m %U%q %H</code>" will log
279 the method, path, query-string, and protocol, resulting in
280 exactly the same output as "<code>%r</code>".</dd>
282 <dt><code>200</code> (<code>%>s</code>)</dt>
284 <dd>This is the status code that the server sends back to the
285 client. This information is very valuable, because it reveals
286 whether the request resulted in a successful response (codes
287 beginning in 2), a redirection (codes beginning in 3), an
288 error caused by the client (codes beginning in 4), or an
289 error in the server (codes beginning in 5). The full list of
290 possible status codes can be found in the <a href="http://www.w3.org/Protocols/rfc2616/rfc2616.txt">HTTP
291 specification</a> (RFC2616 section 10).</dd>
293 <dt><code>2326</code> (<code>%b</code>)</dt>
295 <dd>The last entry indicates the size of the object returned
296 to the client, not including the response headers. If no
297 content was returned to the client, this value will be
298 "<code>-</code>". To log "<code>0</code>" for no content, use
299 <code>%B</code> instead.</dd>
303 <h3><a name="combined" id="combined">Combined Log Format</a></h3>
306 <p>Another commonly used format string is called the Combined
307 Log Format. It can be used as follows.</p>
309 <div class="example"><p><code>
310 LogFormat "%h %l %u %t \"%r\" %>s %b \"%{Referer}i\"
311 \"%{User-agent}i\"" combined<br />
312 CustomLog log/access_log combined
315 <p>This format is exactly the same as the Common Log Format,
316 with the addition of two more fields. Each of the additional
317 fields uses the percent-directive
318 <code>%{<em>header</em>}i</code>, where <em>header</em> can be
319 any HTTP request header. The access log under this format will
322 <div class="example"><p><code>
323 127.0.0.1 - frank [10/Oct/2000:13:55:36 -0700] "GET
324 /apache_pb.gif HTTP/1.0" 200 2326
325 "http://www.example.com/start.html" "Mozilla/4.08 [en]
329 <p>The additional fields are:</p>
332 <dt><code>"http://www.example.com/start.html"</code>
333 (<code>\"%{Referer}i\"</code>)</dt>
335 <dd>The "Referer" (sic) HTTP request header. This gives the
336 site that the client reports having been referred from. (This
337 should be the page that links to or includes
338 <code>/apache_pb.gif</code>).</dd>
340 <dt><code>"Mozilla/4.08 [en] (Win98; I ;Nav)"</code>
341 (<code>\"%{User-agent}i\"</code>)</dt>
343 <dd>The User-Agent HTTP request header. This is the
344 identifying information that the client browser reports about
349 <h3><a name="multiple" id="multiple">Multiple Access Logs</a></h3>
352 <p>Multiple access logs can be created simply by specifying
353 multiple <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code>
354 directives in the configuration
355 file. For example, the following directives will create three
356 access logs. The first contains the basic CLF information,
357 while the second and third contain referer and browser
358 information. The last two <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code> lines show how
359 to mimic the effects of the <code>ReferLog</code> and <code>AgentLog</code> directives.</p>
361 <div class="example"><p><code>
362 LogFormat "%h %l %u %t \"%r\" %>s %b" common<br />
363 CustomLog logs/access_log common<br />
364 CustomLog logs/referer_log "%{Referer}i -> %U"<br />
365 CustomLog logs/agent_log "%{User-agent}i"
368 <p>This example also shows that it is not necessary to define a
369 nickname with the <code class="directive"><a href="./mod/mod_log_config.html#logformat">LogFormat</a></code> directive. Instead,
370 the log format can be specified directly in the <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code> directive.</p>
373 <h3><a name="conditional" id="conditional">Conditional Logs</a></h3>
376 <p>There are times when it is convenient to exclude certain
377 entries from the access logs based on characteristics of the
378 client request. This is easily accomplished with the help of <a href="env.html">environment variables</a>. First, an
379 environment variable must be set to indicate that the request
380 meets certain conditions. This is usually accomplished with
381 <code class="directive"><a href="./mod/mod_setenvif.html#setenvif">SetEnvIf</a></code>. Then the
382 <code>env=</code> clause of the <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code> directive is used to
383 include or exclude requests where the environment variable is
384 set. Some examples:</p>
386 <div class="example"><p><code>
387 # Mark requests from the loop-back interface<br />
388 SetEnvIf Remote_Addr "127\.0\.0\.1" dontlog<br />
389 # Mark requests for the robots.txt file<br />
390 SetEnvIf Request_URI "^/robots\.txt$" dontlog<br />
391 # Log what remains<br />
392 CustomLog logs/access_log common env=!dontlog
395 <p>As another example, consider logging requests from
396 english-speakers to one log file, and non-english speakers to a
397 different log file.</p>
399 <div class="example"><p><code>
400 SetEnvIf Accept-Language "en" english<br />
401 CustomLog logs/english_log common env=english<br />
402 CustomLog logs/non_english_log common env=!english
405 <p>Although we have just shown that conditional logging is very
406 powerful and flexibly, it is not the only way to control the
407 contents of the logs. Log files are more useful when they
408 contain a complete record of server activity. It is often
409 easier to simply post-process the log files to remove requests
410 that you do not want to consider.</p>
412 </div><div class="top"><a href="#page-header"><img alt="top" src="./images/up.gif" /></a></div>
413 <div class="section">
414 <h2><a name="rotation" id="rotation">Log Rotation</a></h2>
417 <p>On even a moderately busy server, the quantity of
418 information stored in the log files is very large. The access
419 log file typically grows 1 MB or more per 10,000 requests. It
420 will consequently be necessary to periodically rotate the log
421 files by moving or deleting the existing logs. This cannot be
422 done while the server is running, because Apache will continue
423 writing to the old log file as long as it holds the file open.
424 Instead, the server must be <a href="stopping.html">restarted</a> after the log files are
425 moved or deleted so that it will open new log files.</p>
427 <p>By using a <em>graceful</em> restart, the server can be
428 instructed to open new log files without losing any existing or
429 pending connections from clients. However, in order to
430 accomplish this, the server must continue to write to the old
431 log files while it finishes serving old requests. It is
432 therefore necessary to wait for some time after the restart
433 before doing any processing on the log files. A typical
434 scenario that simply rotates the logs and compresses the old
435 logs to save space is:</p>
437 <div class="example"><p><code>
438 mv access_log access_log.old<br />
439 mv error_log error_log.old<br />
440 apachectl graceful<br />
442 gzip access_log.old error_log.old
445 <p>Another way to perform log rotation is using <a href="#piped">piped logs</a> as discussed in the next
447 </div><div class="top"><a href="#page-header"><img alt="top" src="./images/up.gif" /></a></div>
448 <div class="section">
449 <h2><a name="piped" id="piped">Piped Logs</a></h2>
452 <p>Apache httpd is capable of writing error and access log
453 files through a pipe to another process, rather than directly
454 to a file. This capability dramatically increases the
455 flexibility of logging, without adding code to the main server.
456 In order to write logs to a pipe, simply replace the filename
457 with the pipe character "<code>|</code>", followed by the name
458 of the executable which should accept log entries on its
459 standard input. Apache will start the piped-log process when
460 the server starts, and will restart it if it crashes while the
461 server is running. (This last feature is why we can refer to
462 this technique as "reliable piped logging".)</p>
464 <p>Piped log processes are spawned by the parent Apache httpd
465 process, and inherit the userid of that process. This means
466 that piped log programs usually run as root. It is therefore
467 very important to keep the programs simple and secure.</p>
469 <p>One important use of piped logs is to allow log rotation
470 without having to restart the server. The Apache HTTP Server
471 includes a simple program called <code class="program"><a href="./programs/rotatelogs.html">rotatelogs</a></code>
472 for this purpose. For example, to rotate the logs every 24 hours, you
475 <div class="example"><p><code>
476 CustomLog "|/usr/local/apache/bin/rotatelogs
477 /var/log/access_log 86400" common
480 <p>Notice that quotes are used to enclose the entire command
481 that will be called for the pipe. Although these examples are
482 for the access log, the same technique can be used for the
485 <p>A similar but much more flexible log rotation program
486 called <a href="http://www.cronolog.org/">cronolog</a>
487 is available at an external site.</p>
489 <p>As with conditional logging, piped logs are a very powerful
490 tool, but they should not be used where a simpler solution like
491 off-line post-processing is available.</p>
492 </div><div class="top"><a href="#page-header"><img alt="top" src="./images/up.gif" /></a></div>
493 <div class="section">
494 <h2><a name="virtualhost" id="virtualhost">Virtual Hosts</a></h2>
497 <p>When running a server with many <a href="vhosts/">virtual
498 hosts</a>, there are several options for dealing with log
499 files. First, it is possible to use logs exactly as in a
500 single-host server. Simply by placing the logging directives
501 outside the <code class="directive"><a href="./mod/core.html#virtualhost"><VirtualHost></a></code> sections in the
502 main server context, it is possible to log all requests in the
503 same access log and error log. This technique does not allow
504 for easy collection of statistics on individual virtual
507 <p>If <code class="directive"><a href="./mod/mod_log_config.html#customlog">CustomLog</a></code>
508 or <code class="directive"><a href="./mod/core.html#errorlog">ErrorLog</a></code>
509 directives are placed inside a
510 <code class="directive"><a href="./mod/core.html#virtualhost"><VirtualHost></a></code>
511 section, all requests or errors for that virtual host will be
512 logged only to the specified file. Any virtual host which does
513 not have logging directives will still have its requests sent
514 to the main server logs. This technique is very useful for a
515 small number of virtual hosts, but if the number of hosts is
516 very large, it can be complicated to manage. In addition, it
517 can often create problems with <a href="vhosts/fd-limits.html">insufficient file
520 <p>For the access log, there is a very good compromise. By
521 adding information on the virtual host to the log format
522 string, it is possible to log all hosts to the same log, and
523 later split the log into individual files. For example,
524 consider the following directives.</p>
526 <div class="example"><p><code>
527 LogFormat "%v %l %u %t \"%r\" %>s %b"
529 CustomLog logs/access_log comonvhost
532 <p>The <code>%v</code> is used to log the name of the virtual
533 host that is serving the request. Then a program like <a href="programs/other.html">split-logfile</a> can be used to
534 post-process the access log in order to split it into one file
535 per virtual host.</p>
536 </div><div class="top"><a href="#page-header"><img alt="top" src="./images/up.gif" /></a></div>
537 <div class="section">
538 <h2><a name="other" id="other">Other Log Files</a></h2>
541 <table class="related"><tr><th>Related Modules</th><th>Related Directives</th></tr><tr><td><ul><li><code class="module"><a href="./mod/mod_cgi.html">mod_cgi</a></code></li><li><code class="module"><a href="./mod/mod_rewrite.html">mod_rewrite</a></code></li></ul></td><td><ul><li><code class="directive"><a href="./mod/mpm_common.html#pidfile">PidFile</a></code></li><li><code class="directive"><a href="./mod/mod_rewrite.html#rewritelog">RewriteLog</a></code></li><li><code class="directive"><a href="./mod/mod_rewrite.html#rewriteloglevel">RewriteLogLevel</a></code></li><li><code class="directive"><a href="./mod/mod_cgi.html#scriptlog">ScriptLog</a></code></li><li><code class="directive"><a href="./mod/mod_cgi.html#scriptlogbuffer">ScriptLogBuffer</a></code></li><li><code class="directive"><a href="./mod/mod_cgi.html#scriptloglength">ScriptLogLength</a></code></li></ul></td></tr></table>
543 <h3><a name="pidfile" id="pidfile">PID File</a></h3>
546 <p>On startup, Apache httpd saves the process id of the parent
547 httpd process to the file <code>logs/httpd.pid</code>. This
548 filename can be changed with the <code class="directive"><a href="./mod/mpm_common.html#pidfile">PidFile</a></code> directive. The
549 process-id is for use by the administrator in restarting and
550 terminating the daemon by sending signals to the parent
551 process; on Windows, use the -k command line option instead.
552 For more information see the <a href="stopping.html">Stopping
553 and Restarting</a> page.</p>
556 <h3><a name="scriptlog" id="scriptlog">Script Log</a></h3>
559 <p>In order to aid in debugging, the
560 <code class="directive"><a href="./mod/mod_cgi.html#scriptlog">ScriptLog</a></code> directive
561 allows you to record the input to and output from CGI scripts.
562 This should only be used in testing - not for live servers.
563 More information is available in the <a href="mod/mod_cgi.html">mod_cgi</a> documentation.</p>
566 <h3><a name="rewritelog" id="rewritelog">Rewrite Log</a></h3>
569 <p>When using the powerful and complex features of <a href="mod/mod_rewrite.html">mod_rewrite</a>, it is almost
570 always necessary to use the <code class="directive"><a href="./mod/mod_rewrite.html#rewritelog">RewriteLog</a></code> to help
571 in debugging. This log file produces a detailed analysis of how
572 the rewriting engine transforms requests. The level of detail
573 is controlled by the <code class="directive"><a href="./mod/mod_rewrite.html#rewriteloglevel">RewriteLogLevel</a></code> directive.</p>
576 <div class="bottomlang">
577 <p><span>Available Languages: </span><a href="./en/logs.html" title="English"> en </a> |
578 <a href="./ja/logs.html" hreflang="ja" rel="alternate" title="Japanese"> ja </a> |
579 <a href="./ko/logs.html" hreflang="ko" rel="alternate" title="Korean"> ko </a></p>
580 </div><div id="footer">
581 <p class="apache">Copyright 1995-2005 The Apache Software Foundation or its licensors, as applicable.<br />Licensed under the <a href="http://www.apache.org/licenses/LICENSE-2.0">Apache License, Version 2.0</a>.</p>
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