/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You 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 org.apache.catalina.valves; import java.io.CharArrayWriter; import java.io.IOException; import java.io.StringReader; import java.io.UnsupportedEncodingException; import java.net.InetAddress; import java.net.URLEncoder; import java.text.SimpleDateFormat; import java.util.ArrayList; import java.util.Date; import java.util.Iterator; import java.util.List; import java.util.Locale; import java.util.TimeZone; import javax.servlet.http.Cookie; import javax.servlet.http.HttpSession; import org.apache.catalina.connector.Request; import org.apache.catalina.connector.Response; import org.apache.catalina.util.ServerInfo; import org.apache.juli.logging.Log; import org.apache.juli.logging.LogFactory; import org.apache.tomcat.util.ExceptionUtils; /** * An implementation of the W3c Extended Log File Format. See * http://www.w3.org/TR/WD-logfile.html for more information about the format. * * The following fields are supported: * <ul> * <li><code>c-dns</code>: Client hostname (or ip address if * <code>enableLookups</code> for the connector is false)</li> * <li><code>c-ip</code>: Client ip address</li> * <li><code>bytes</code>: bytes served</li> * <li><code>cs-method</code>: request method</li> * <li><code>cs-uri</code>: The full uri requested</li> * <li><code>cs-uri-query</code>: The query string</li> * <li><code>cs-uri-stem</code>: The uri without query string</li> * <li><code>date</code>: The date in yyyy-mm-dd format for GMT</li> * <li><code>s-dns</code>: The server dns entry </li> * <li><code>s-ip</code>: The server ip address</li> * <li><code>cs(XXX)</code>: The value of header XXX from client to server</li> * <li><code>sc(XXX)</code>: The value of header XXX from server to client </li> * <li><code>sc-status</code>: The status code</li> * <li><code>time</code>: Time the request was served</li> * <li><code>time-taken</code>: Time (in seconds) taken to serve the request</li> * <li><code>x-threadname</code>: Current request thread name (can compare later with stacktraces)</li> * <li><code>x-A(XXX)</code>: Pull XXX attribute from the servlet context </li> * <li><code>x-C(XXX)</code>: Pull the first cookie of the name XXX </li> * <li><code>x-O(XXX)</code>: Pull the all response header values XXX </li> * <li><code>x-R(XXX)</code>: Pull XXX attribute from the servlet request </li> * <li><code>x-S(XXX)</code>: Pull XXX attribute from the session </li> * <li><code>x-P(...)</code>: Call request.getParameter(...) * and URLencode it. Helpful to capture * certain POST parameters. * </li> * <li>For any of the x-H(...) the following method will be called from the * HttpServletRequest object </li> * <li><code>x-H(authType)</code>: getAuthType </li> * <li><code>x-H(characterEncoding)</code>: getCharacterEncoding </li> * <li><code>x-H(contentLength)</code>: getContentLength </li> * <li><code>x-H(locale)</code>: getLocale</li> * <li><code>x-H(protocol)</code>: getProtocol </li> * <li><code>x-H(remoteUser)</code>: getRemoteUser</li> * <li><code>x-H(requestedSessionId)</code>: getRequestedSessionId</li> * <li><code>x-H(requestedSessionIdFromCookie)</code>: * isRequestedSessionIdFromCookie </li> * <li><code>x-H(requestedSessionIdValid)</code>: * isRequestedSessionIdValid</li> * <li><code>x-H(scheme)</code>: getScheme</li> * <li><code>x-H(secure)</code>: isSecure</li> * </ul> * * * * <p> * Log rotation can be on or off. This is dictated by the * <code>rotatable</code> property. * </p> * * <p> * For UNIX users, another field called <code>checkExists</code> is also * available. If set to true, the log file's existence will be checked before * each logging. This way an external log rotator can move the file * somewhere and Tomcat will start with a new file. * </p> * * <p> * For JMX junkies, a public method called <code>rotate</code> has * been made available to allow you to tell this instance to move * the existing log file to somewhere else and start writing a new log file. * </p> * * <p> * Conditional logging is also supported. This can be done with the * <code>condition</code> property. * If the value returned from ServletRequest.getAttribute(condition) * yields a non-null value, the logging will be skipped. * </p> * * <p> * For extended attributes coming from a getAttribute() call, * it is you responsibility to ensure there are no newline or * control characters. * </p> * * @author Peter Rossbach */ public class ExtendedAccessLogValve extends AccessLogValve { private static final Log log = LogFactory.getLog(ExtendedAccessLogValve.class); // ----------------------------------------------------- Instance Variables /** * The descriptive information about this implementation. */ protected static final String extendedAccessLogInfo = "org.apache.catalina.valves.ExtendedAccessLogValve/2.1"; // -------------------------------------------------------- Private Methods /** * Wrap the incoming value with double quotes (") and escape any double * quotes appearing in the value using two double quotes (""). * * @param value - The value to wrap * @return '-' if null. Otherwise, toString() will * be called on the object and the value will be wrapped * in quotes and any quotes will be escaped with 2 * sets of quotes. */ static String wrap(Object value) { String svalue; // Does the value contain a " ? If so must encode it if (value == null || "-".equals(value)) { return "-"; } try { svalue = value.toString(); } catch (Throwable e) { ExceptionUtils.handleThrowable(e); /* Log error */ return "-"; } /* Wrap all values in double quotes. */ StringBuilder buffer = new StringBuilder(svalue.length() + 2); buffer.append('\"'); int i = 0; while (i < svalue.length()) { int j = svalue.indexOf('\"', i); if (j == -1) { buffer.append(svalue.substring(i)); i = svalue.length(); } else { buffer.append(svalue.substring(i, j + 1)); buffer.append('"'); i = j + 1; } } buffer.append('\"'); return buffer.toString(); } /** * Open the new log file for the date specified by <code>dateStamp</code>. */ @Override protected synchronized void open() { super.open(); if (currentLogFile.length()==0) { writer.println("#Fields: " + pattern); writer.println("#Version: 2.0"); writer.println("#Software: " + ServerInfo.getServerInfo()); } } // ------------------------------------------------------ Lifecycle Methods protected static class DateElement implements AccessLogElement { // Milli-seconds in 24 hours private static final long INTERVAL = (1000 * 60 * 60 * 24); private static final ThreadLocal<ElementTimestampStruct> currentDate = new ThreadLocal<ElementTimestampStruct>() { @Override protected ElementTimestampStruct initialValue() { return new ElementTimestampStruct("yyyy-MM-dd"); } }; @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { ElementTimestampStruct eds = currentDate.get(); long millis = eds.currentTimestamp.getTime(); if (date.getTime() > (millis + INTERVAL -1) || date.getTime() < millis) { eds.currentTimestamp.setTime( date.getTime() - (date.getTime() % INTERVAL)); eds.currentTimestampString = eds.currentTimestampFormat.format(eds.currentTimestamp); } buf.append(eds.currentTimestampString); } } protected static class TimeElement implements AccessLogElement { // Milli-seconds in a second private static final long INTERVAL = 1000; private static final ThreadLocal<ElementTimestampStruct> currentTime = new ThreadLocal<ElementTimestampStruct>() { @Override protected ElementTimestampStruct initialValue() { return new ElementTimestampStruct("HH:mm:ss"); } }; @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { ElementTimestampStruct eds = currentTime.get(); long millis = eds.currentTimestamp.getTime(); if (date.getTime() > (millis + INTERVAL -1) || date.getTime() < millis) { eds.currentTimestamp.setTime( date.getTime() - (date.getTime() % INTERVAL)); eds.currentTimestampString = eds.currentTimestampFormat.format(eds.currentTimestamp); } buf.append(eds.currentTimestampString); } } protected static class RequestHeaderElement implements AccessLogElement { private final String header; public RequestHeaderElement(String header) { this.header = header; } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getHeader(header))); } } protected static class ResponseHeaderElement implements AccessLogElement { private final String header; public ResponseHeaderElement(String header) { this.header = header; } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(response.getHeader(header))); } } protected static class ServletContextElement implements AccessLogElement { private final String attribute; public ServletContextElement(String attribute) { this.attribute = attribute; } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getContext().getServletContext() .getAttribute(attribute))); } } protected static class CookieElement implements AccessLogElement { private final String name; public CookieElement(String name) { this.name = name; } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { Cookie[] c = request.getCookies(); for (int i = 0; c != null && i < c.length; i++) { if (name.equals(c[i].getName())) { buf.append(wrap(c[i].getValue())); } } } } /** * write a specific response header - x-O(xxx) */ protected static class ResponseAllHeaderElement implements AccessLogElement { private final String header; public ResponseAllHeaderElement(String header) { this.header = header; } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { if (null != response) { Iterator<String> iter = response.getHeaders(header).iterator(); if (iter.hasNext()) { StringBuilder buffer = new StringBuilder(); boolean first = true; while (iter.hasNext()) { if (first) { first = false; } else { buffer.append(","); } buffer.append(iter.next()); } buf.append(wrap(buffer.toString())); } return ; } buf.append("-"); } } protected static class RequestAttributeElement implements AccessLogElement { private final String attribute; public RequestAttributeElement(String attribute) { this.attribute = attribute; } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getAttribute(attribute))); } } protected static class SessionAttributeElement implements AccessLogElement { private final String attribute; public SessionAttributeElement(String attribute) { this.attribute = attribute; } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { HttpSession session = null; if (request != null) { session = request.getSession(false); if (session != null) { buf.append(wrap(session.getAttribute(attribute))); } } } } protected static class RequestParameterElement implements AccessLogElement { private final String parameter; public RequestParameterElement(String parameter) { this.parameter = parameter; } /** * urlEncode the given string. If null or empty, return null. */ private String urlEncode(String value) { if (null==value || value.length()==0) { return null; } try { return URLEncoder.encode(value, "UTF-8"); } catch (UnsupportedEncodingException e) { // Should never happen - all JVMs are required to support UTF-8 return null; } } @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(urlEncode(request.getParameter(parameter)))); } } protected static class PatternTokenizer { private final StringReader sr; private StringBuilder buf = new StringBuilder(); private boolean ended = false; private boolean subToken; private boolean parameter; public PatternTokenizer(String str) { sr = new StringReader(str); } public boolean hasSubToken() { return subToken; } public boolean hasParameter() { return parameter; } public String getToken() throws IOException { if(ended) { return null ; } String result = null; subToken = false; parameter = false; int c = sr.read(); while (c != -1) { switch (c) { case ' ': result = buf.toString(); buf = new StringBuilder(); buf.append((char) c); return result; case '-': result = buf.toString(); buf = new StringBuilder(); subToken = true; return result; case '(': result = buf.toString(); buf = new StringBuilder(); parameter = true; return result; case ')': result = buf.toString(); buf = new StringBuilder(); break; default: buf.append((char) c); } c = sr.read(); } ended = true; if (buf.length() != 0) { return buf.toString(); } else { return null; } } public String getParameter()throws IOException { String result; if (!parameter) { return null; } parameter = false; int c = sr.read(); while (c != -1) { if (c == ')') { result = buf.toString(); buf = new StringBuilder(); return result; } buf.append((char) c); c = sr.read(); } return null; } public String getWhiteSpaces() throws IOException { if(isEnded()) { return "" ; } StringBuilder whiteSpaces = new StringBuilder(); if (buf.length() > 0) { whiteSpaces.append(buf); buf = new StringBuilder(); } int c = sr.read(); while (Character.isWhitespace((char) c)) { whiteSpaces.append((char) c); c = sr.read(); } if (c == -1) { ended = true; } else { buf.append((char) c); } return whiteSpaces.toString(); } public boolean isEnded() { return ended; } public String getRemains() throws IOException { StringBuilder remains = new StringBuilder(); for(int c = sr.read(); c != -1; c = sr.read()) { remains.append((char) c); } return remains.toString(); } } @Override protected AccessLogElement[] createLogElements() { if (log.isDebugEnabled()) { log.debug("decodePattern, pattern =" + pattern); } List<AccessLogElement> list = new ArrayList<>(); PatternTokenizer tokenizer = new PatternTokenizer(pattern); try { // Ignore leading whitespace. tokenizer.getWhiteSpaces(); if (tokenizer.isEnded()) { log.info("pattern was just empty or whitespace"); return null; } String token = tokenizer.getToken(); while (token != null) { if (log.isDebugEnabled()) { log.debug("token = " + token); } AccessLogElement element = getLogElement(token, tokenizer); if (element == null) { break; } list.add(element); String whiteSpaces = tokenizer.getWhiteSpaces(); if (whiteSpaces.length() > 0) { list.add(new StringElement(whiteSpaces)); } if (tokenizer.isEnded()) { break; } token = tokenizer.getToken(); } if (log.isDebugEnabled()) { log.debug("finished decoding with element size of: " + list.size()); } return list.toArray(new AccessLogElement[0]); } catch (IOException e) { log.error("parse error", e); return null; } } protected AccessLogElement getLogElement(String token, PatternTokenizer tokenizer) throws IOException { if ("date".equals(token)) { return new DateElement(); } else if ("time".equals(token)) { if (tokenizer.hasSubToken()) { String nextToken = tokenizer.getToken(); if ("taken".equals(nextToken)) { return new ElapsedTimeElement(false); } } else { return new TimeElement(); } } else if ("bytes".equals(token)) { return new ByteSentElement(true); } else if ("cached".equals(token)) { /* I don't know how to evaluate this! */ return new StringElement("-"); } else if ("c".equals(token)) { String nextToken = tokenizer.getToken(); if ("ip".equals(nextToken)) { return new RemoteAddrElement(); } else if ("dns".equals(nextToken)) { return new HostElement(); } } else if ("s".equals(token)) { String nextToken = tokenizer.getToken(); if ("ip".equals(nextToken)) { return new LocalAddrElement(); } else if ("dns".equals(nextToken)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { String value; try { value = InetAddress.getLocalHost().getHostName(); } catch (Throwable e) { ExceptionUtils.handleThrowable(e); value = "localhost"; } buf.append(value); } }; } } else if ("cs".equals(token)) { return getClientToServerElement(tokenizer); } else if ("sc".equals(token)) { return getServerToClientElement(tokenizer); } else if ("sr".equals(token) || "rs".equals(token)) { return getProxyElement(tokenizer); } else if ("x".equals(token)) { return getXParameterElement(tokenizer); } log.error("unable to decode with rest of chars starting: " + token); return null; } protected AccessLogElement getClientToServerElement( PatternTokenizer tokenizer) throws IOException { if (tokenizer.hasSubToken()) { String token = tokenizer.getToken(); if ("method".equals(token)) { return new MethodElement(); } else if ("uri".equals(token)) { if (tokenizer.hasSubToken()) { token = tokenizer.getToken(); if ("stem".equals(token)) { return new RequestURIElement(); } else if ("query".equals(token)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { String query = request.getQueryString(); if (query != null) { buf.append(query); } else { buf.append('-'); } } }; } } else { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { String query = request.getQueryString(); if (query == null) { buf.append(request.getRequestURI()); } else { buf.append(request.getRequestURI()); buf.append('?'); buf.append(request.getQueryString()); } } }; } } } else if (tokenizer.hasParameter()) { String parameter = tokenizer.getParameter(); if (parameter == null) { log.error("No closing ) found for in decode"); return null; } return new RequestHeaderElement(parameter); } log.error("The next characters couldn't be decoded: " + tokenizer.getRemains()); return null; } protected AccessLogElement getServerToClientElement( PatternTokenizer tokenizer) throws IOException { if (tokenizer.hasSubToken()) { String token = tokenizer.getToken(); if ("status".equals(token)) { return new HttpStatusCodeElement(); } else if ("comment".equals(token)) { return new StringElement("?"); } } else if (tokenizer.hasParameter()) { String parameter = tokenizer.getParameter(); if (parameter == null) { log.error("No closing ) found for in decode"); return null; } return new ResponseHeaderElement(parameter); } log.error("The next characters couldn't be decoded: " + tokenizer.getRemains()); return null; } protected AccessLogElement getProxyElement(PatternTokenizer tokenizer) throws IOException { String token = null; if (tokenizer.hasSubToken()) { tokenizer.getToken(); return new StringElement("-"); } else if (tokenizer.hasParameter()) { tokenizer.getParameter(); return new StringElement("-"); } log.error("The next characters couldn't be decoded: " + token); return null; } protected AccessLogElement getXParameterElement(PatternTokenizer tokenizer) throws IOException { if (!tokenizer.hasSubToken()) { log.error("x param in wrong format. Needs to be 'x-#(...)' read the docs!"); return null; } String token = tokenizer.getToken(); if ("threadname".equals(token)) { return new ThreadNameElement(); } if (!tokenizer.hasParameter()) { log.error("x param in wrong format. Needs to be 'x-#(...)' read the docs!"); return null; } String parameter = tokenizer.getParameter(); if (parameter == null) { log.error("No closing ) found for in decode"); return null; } if ("A".equals(token)) { return new ServletContextElement(parameter); } else if ("C".equals(token)) { return new CookieElement(parameter); } else if ("R".equals(token)) { return new RequestAttributeElement(parameter); } else if ("S".equals(token)) { return new SessionAttributeElement(parameter); } else if ("H".equals(token)) { return getServletRequestElement(parameter); } else if ("P".equals(token)) { return new RequestParameterElement(parameter); } else if ("O".equals(token)) { return new ResponseAllHeaderElement(parameter); } log.error("x param for servlet request, couldn't decode value: " + token); return null; } protected AccessLogElement getServletRequestElement(String parameter) { if ("authType".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getAuthType())); } }; } else if ("remoteUser".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getRemoteUser())); } }; } else if ("requestedSessionId".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getRequestedSessionId())); } }; } else if ("requestedSessionIdFromCookie".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap("" + request.isRequestedSessionIdFromCookie())); } }; } else if ("requestedSessionIdValid".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap("" + request.isRequestedSessionIdValid())); } }; } else if ("contentLength".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap("" + request.getContentLengthLong())); } }; } else if ("characterEncoding".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getCharacterEncoding())); } }; } else if ("locale".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getLocale())); } }; } else if ("protocol".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap(request.getProtocol())); } }; } else if ("scheme".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(request.getScheme()); } }; } else if ("secure".equals(parameter)) { return new AccessLogElement() { @Override public void addElement(CharArrayWriter buf, Date date, Request request, Response response, long time) { buf.append(wrap("" + request.isSecure())); } }; } log.error("x param for servlet request, couldn't decode value: " + parameter); return null; } private static class ElementTimestampStruct { private final Date currentTimestamp = new Date(0); private final SimpleDateFormat currentTimestampFormat; private String currentTimestampString; ElementTimestampStruct(String format) { currentTimestampFormat = new SimpleDateFormat(format, Locale.US); currentTimestampFormat.setTimeZone(TimeZone.getTimeZone("GMT")); } } }