/** * Configuration keys and helper functions. * * @author @author <a href="mailto:[email protected]">Martin Grotzke</a> */ public final class Configurations { /** The TTL for {@link NodeAvailabilityCache} entries, in millis. */ public static final String NODE_AVAILABILITY_CACHE_TTL_KEY = "msm.nodeAvailabilityCacheTTL"; /** The max reconnect delay for the MemcachedClient, in seconds. */ public static final String MAX_RECONNECT_DELAY_KEY = "msm.maxReconnectDelay"; private static final Log LOG = LogFactory.getLog(Configurations.class); public static int getSystemProperty(final String propName, final int defaultValue) { final String value = System.getProperty(propName); if (value != null) { try { return Integer.parseInt(value); } catch (final NumberFormatException e) { LOG.warn( "Could not parse configured value for system property '" + propName + "': " + value); } } return defaultValue; } public static long getSystemProperty(final String propName, final long defaultValue) { final String value = System.getProperty(propName); if (value != null) { try { return Long.parseLong(value); } catch (final NumberFormatException e) { LOG.warn( "Could not parse configured value for system property '" + propName + "': " + value); } } return defaultValue; } }
/** @author kawasima */
public class JspHandler {
private final transient Log log = LogFactory.getLog(JspHandler.class);
private JspRuntimeContext runtimeContext;
private Options options;
private ServletConfig config;
private ServletContext context;
public JspHandler() {}
public void setConfig(ServletConfig config) {
this.config = config;
context = config.getServletContext();
options = new EmbeddedServletOptions(config, context);
runtimeContext = new JspRuntimeContext(context, options);
}
public void handle(
HttpServletRequest request, HttpServletResponse response, String jspUri, boolean precompile)
throws IOException, ServletException {
JspServletWrapper wrapper = runtimeContext.getWrapper(jspUri);
if (wrapper == null) {
synchronized (this) {
wrapper = runtimeContext.getWrapper(jspUri);
if (wrapper == null) {
if (context.getResource(jspUri) == null) {
handleMissingResource(request, response, jspUri);
return;
}
wrapper = new JspServletWrapper(config, options, jspUri, runtimeContext);
runtimeContext.addWrapper(jspUri, wrapper);
}
}
}
try {
wrapper.service(request, response, precompile);
} catch (FileNotFoundException e) {
handleMissingResource(request, response, jspUri);
}
}
private void handleMissingResource(
HttpServletRequest request, HttpServletResponse response, String jspUri)
throws ServletException, IOException {
String includeRequestUri = (String) request.getAttribute("javax.servlet.include.request_uri");
if (includeRequestUri != null) {
String msg = Localizer.getMessage("jsp.error.file.not.found", jspUri);
throw new ServletException(SecurityUtil.filter(msg));
} else {
try {
response.sendError(HttpServletResponse.SC_NOT_FOUND, request.getRequestURI());
} catch (IllegalStateException e) {
log.error(Localizer.getMessage("jsp.error.file.not.found", jspUri));
}
}
}
}
/** Rule implementation that creates a connector. */
public class ConnectorCreateRule extends Rule {
private static final Log log = LogFactory.getLog(ConnectorCreateRule.class);
// --------------------------------------------------------- Public Methods
/**
* Process the beginning of this element.
*
* @param namespace the namespace URI of the matching element, or an empty string if the parser is
* not namespace aware or the element has no namespace
* @param name the local name if the parser is namespace aware, or just the element name otherwise
* @param attributes The attribute list for this element
*/
@Override
public void begin(String namespace, String name, Attributes attributes) throws Exception {
Service svc = (Service) digester.peek();
Executor ex = null;
if (attributes.getValue("executor") != null) {
ex = svc.getExecutor(attributes.getValue("executor"));
}
Connector con = new Connector(attributes.getValue("protocol"));
if (ex != null) _setExecutor(con, ex);
digester.push(con);
}
public void _setExecutor(Connector con, Executor ex) throws Exception {
Method m =
IntrospectionUtils.findMethod(
con.getProtocolHandler().getClass(),
"setExecutor",
new Class[] {java.util.concurrent.Executor.class});
if (m != null) {
m.invoke(con.getProtocolHandler(), new Object[] {ex});
} else {
log.warn(
"Connector ["
+ con
+ "] does not support external executors. Method setExecutor(java.util.concurrent.Executor) not found.");
}
}
/**
* Process the end of this element.
*
* @param namespace the namespace URI of the matching element, or an empty string if the parser is
* not namespace aware or the element has no namespace
* @param name the local name if the parser is namespace aware, or just the element name otherwise
*/
@Override
public void end(String namespace, String name) throws Exception {
digester.pop();
}
}
/**
* Static class used to preload java classes when using the Java SecurityManager so that the
* defineClassInPackage RuntimePermission does not trigger an AccessControlException.
*
* @author Jean-Francois Arcand
*/
public final class SecurityClassLoad {
private static org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(SecurityClassLoad.class);
public static void securityClassLoad(ClassLoader loader) {
if (System.getSecurityManager() == null) {
return;
}
String basePackage = "org.apache.jasper.";
try {
loader.loadClass(basePackage + "runtime.JspFactoryImpl$PrivilegedGetPageContext");
loader.loadClass(basePackage + "runtime.JspFactoryImpl$PrivilegedReleasePageContext");
loader.loadClass(basePackage + "runtime.JspRuntimeLibrary");
loader.loadClass(basePackage + "runtime.JspRuntimeLibrary$PrivilegedIntrospectHelper");
loader.loadClass(basePackage + "runtime.ServletResponseWrapperInclude");
loader.loadClass(basePackage + "runtime.TagHandlerPool");
loader.loadClass(basePackage + "runtime.JspFragmentHelper");
loader.loadClass(basePackage + "runtime.ProtectedFunctionMapper");
loader.loadClass(basePackage + "runtime.ProtectedFunctionMapper$1");
loader.loadClass(basePackage + "runtime.ProtectedFunctionMapper$2");
loader.loadClass(basePackage + "runtime.ProtectedFunctionMapper$3");
loader.loadClass(basePackage + "runtime.ProtectedFunctionMapper$4");
loader.loadClass(basePackage + "runtime.PageContextImpl");
loader.loadClass(basePackage + "runtime.PageContextImpl$1");
loader.loadClass(basePackage + "runtime.PageContextImpl$2");
loader.loadClass(basePackage + "runtime.PageContextImpl$3");
loader.loadClass(basePackage + "runtime.PageContextImpl$4");
loader.loadClass(basePackage + "runtime.PageContextImpl$5");
loader.loadClass(basePackage + "runtime.PageContextImpl$6");
loader.loadClass(basePackage + "runtime.PageContextImpl$7");
loader.loadClass(basePackage + "runtime.PageContextImpl$8");
loader.loadClass(basePackage + "runtime.PageContextImpl$9");
loader.loadClass(basePackage + "runtime.PageContextImpl$10");
loader.loadClass(basePackage + "runtime.PageContextImpl$11");
loader.loadClass(basePackage + "runtime.PageContextImpl$12");
loader.loadClass(basePackage + "runtime.PageContextImpl$13");
loader.loadClass(basePackage + "runtime.JspContextWrapper");
loader.loadClass(basePackage + "servlet.JspServletWrapper");
loader.loadClass(basePackage + "runtime.JspWriterImpl$1");
} catch (ClassNotFoundException ex) {
log.error("SecurityClassLoad", ex);
}
}
}
/**
* @author Filip Hanik
* @version 1.0
*/
public class BufferPool {
private static final Log log = LogFactory.getLog(BufferPool.class);
public static final int DEFAULT_POOL_SIZE = 100 * 1024 * 1024; // 100MB
protected static volatile BufferPool instance = null;
protected final BufferPoolAPI pool;
private BufferPool(BufferPoolAPI pool) {
this.pool = pool;
}
public XByteBuffer getBuffer(int minSize, boolean discard) {
if (pool != null) return pool.getBuffer(minSize, discard);
else return new XByteBuffer(minSize, discard);
}
public void returnBuffer(XByteBuffer buffer) {
if (pool != null) pool.returnBuffer(buffer);
}
public void clear() {
if (pool != null) pool.clear();
}
public static BufferPool getBufferPool() {
if (instance == null) {
synchronized (BufferPool.class) {
if (instance == null) {
BufferPoolAPI pool = new BufferPool15Impl();
pool.setMaxSize(DEFAULT_POOL_SIZE);
log.info(
"Created a buffer pool with max size:"
+ DEFAULT_POOL_SIZE
+ " bytes of type: "
+ pool.getClass().getName());
instance = new BufferPool(pool);
}
}
}
return instance;
}
public static interface BufferPoolAPI {
public void setMaxSize(int bytes);
public XByteBuffer getBuffer(int minSize, boolean discard);
public void returnBuffer(XByteBuffer buffer);
public void clear();
}
}
/**
* Dispatch based on the message type. ( XXX make it more generic, now it's specific to ajp13 ).
*
* @author Costin Manolache
*/
public class HandlerDispatch extends JkHandler {
private static org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(HandlerDispatch.class);
public HandlerDispatch() {}
public void init() {}
JkHandler handlers[] = new JkHandler[MAX_HANDLERS];
String handlerNames[] = new String[MAX_HANDLERS];
static final int MAX_HANDLERS = 32;
static final int RESERVED = 16; // reserved names, backward compat
int currentId = RESERVED;
public int registerMessageType(int id, String name, JkHandler h, String sig[]) {
if (log.isDebugEnabled())
log.debug("Register message " + id + " " + h.getName() + " " + h.getClass().getName());
if (id < 0) {
// try to find it by name
for (int i = 0; i < handlerNames.length; i++) {
if (handlerNames[i] == null) continue;
if (name.equals(handlerNames[i])) return i;
}
handlers[currentId] = h;
handlerNames[currentId] = name;
currentId++;
return currentId;
}
handlers[id] = h;
handlerNames[currentId] = name;
return id;
}
// -------------------- Incoming message --------------------
public int invoke(Msg msg, MsgContext ep) throws IOException {
int type = msg.peekByte();
ep.setType(type);
if (type > handlers.length || handlers[type] == null) {
if (log.isDebugEnabled()) log.debug("Invalid handler " + type);
return ERROR;
}
if (log.isDebugEnabled()) log.debug("Received " + type + " " + handlers[type].getName());
JkHandler handler = handlers[type];
return handler.invoke(msg, ep);
}
}
/** Store server.xml Element Realm */
public class RealmSF extends StoreFactoryBase {
private static Log log = LogFactory.getLog(RealmSF.class);
@Override
public void store(PrintWriter aWriter, int indent, Object aElement) throws Exception {
if (aElement instanceof CombinedRealm) {
StoreDescription elementDesc = getRegistry().findDescription(aElement.getClass());
if (elementDesc != null) {
if (log.isDebugEnabled())
log.debug(sm.getString("factory.storeTag", elementDesc.getTag(), aElement));
getStoreAppender().printIndent(aWriter, indent + 2);
getStoreAppender().printOpenTag(aWriter, indent + 2, aElement, elementDesc);
storeChildren(aWriter, indent + 2, aElement, elementDesc);
getStoreAppender().printIndent(aWriter, indent + 2);
getStoreAppender().printCloseTag(aWriter, elementDesc);
} else {
if (log.isWarnEnabled())
log.warn(sm.getString("factory.storeNoDescriptor", aElement.getClass()));
}
} else {
super.store(aWriter, indent, aElement);
}
}
/**
* Store the specified Realm properties and child (Realm)
*
* @param aWriter PrintWriter to which we are storing
* @param indent Number of spaces to indent this element
* @param aRealm Realm whose properties are being stored
* @exception Exception if an exception occurs while storing
*/
@Override
public void storeChildren(
PrintWriter aWriter, int indent, Object aRealm, StoreDescription parentDesc)
throws Exception {
if (aRealm instanceof CombinedRealm) {
CombinedRealm combinedRealm = (CombinedRealm) aRealm;
// Store nested <Realm> element
Realm[] realms = combinedRealm.getNestedRealms();
storeElementArray(aWriter, indent, realms);
}
// Store nested <CredentialHandler> element
CredentialHandler credentialHandler = ((Realm) aRealm).getCredentialHandler();
if (credentialHandler != null) {
storeElement(aWriter, indent, credentialHandler);
}
}
}
/** Store server.xml Manager element */
public class ManagerSF extends StoreFactoryBase {
private static Log log = LogFactory.getLog(ManagerSF.class);
/**
* Store the only the Manager elements
*
* @see NamingResourcesSF#storeChildren(PrintWriter, int, Object, StoreDescription)
*/
@Override
public void store(PrintWriter aWriter, int indent, Object aElement) throws Exception {
StoreDescription elementDesc = getRegistry().findDescription(aElement.getClass());
if (elementDesc != null) {
if (aElement instanceof StandardManager) {
StandardManager manager = (StandardManager) aElement;
if (!isDefaultManager(manager)) {
if (log.isDebugEnabled())
log.debug(sm.getString("factory.storeTag", elementDesc.getTag(), aElement));
getStoreAppender().printIndent(aWriter, indent + 2);
getStoreAppender().printTag(aWriter, indent + 2, manager, elementDesc);
}
} else {
super.store(aWriter, indent, aElement);
}
} else {
if (log.isWarnEnabled())
log.warn(sm.getString("factory.storeNoDescriptor", aElement.getClass()));
}
}
/**
* Is this an instance of the default <code>Manager</code> configuration, with all-default
* properties?
*
* @param smanager Manager to be tested
*/
protected boolean isDefaultManager(StandardManager smanager) {
if (!"SESSIONS.ser".equals(smanager.getPathname()) || (smanager.getMaxActiveSessions() != -1)) {
return (false);
}
return (true);
}
}
/**
* Title: Internal heartbeat thread
*
* <p>Description: if <code>Channel.getHeartbeat()==true</code> then a thread of this class is
* created
*
* @version 1.0
*/
public static class HeartbeatThread extends Thread {
private static final Log log = LogFactory.getLog(HeartbeatThread.class);
protected static int counter = 1;
protected static synchronized int inc() {
return counter++;
}
protected volatile boolean doRun = true;
protected final GroupChannel channel;
protected final long sleepTime;
public HeartbeatThread(GroupChannel channel, long sleepTime) {
super();
this.setPriority(MIN_PRIORITY);
setName("GroupChannel-Heartbeat-" + inc());
setDaemon(true);
this.channel = channel;
this.sleepTime = sleepTime;
}
public void stopHeartbeat() {
doRun = false;
interrupt();
}
@Override
public void run() {
while (doRun) {
try {
Thread.sleep(sleepTime);
channel.heartbeat();
} catch (InterruptedException x) {
// Ignore. Probably triggered by a call to stopHeartbeat().
// In the highly unlikely event it was a different trigger,
// simply ignore it and continue.
} catch (Exception x) {
log.error(sm.getString("groupChannel.unable.sendHeartbeat"), x);
} // catch
} // while
} // run
} // HeartbeatThread
/**
* Abstract the protocol implementation, including threading, etc. Processor is single threaded and
* specific to stream-based protocols, will not fit Jk protocols like JNI.
*
* @author Remy Maucherat
* @author Costin Manolache
*/
public class AjpProtocol extends AbstractAjpProtocol<Socket> {
private static final Log log = LogFactory.getLog(AjpProtocol.class);
@Override
protected Log getLog() {
return log;
}
@Override
protected AbstractEndpointHandler getHandler() {
return cHandler;
}
// ------------------------------------------------------------ Constructor
public AjpProtocol() {
setEndpoint(new JIoEndpoint());
cHandler = new AjpProtocolAjpConnectionHandler(this);
((JIoEndpoint) getEndpoint()).setHandler(cHandler);
setSoLinger(Constants25.getDefaultConnectionLinger());
setSoTimeout(Constants25.getDefaultConnectionTimeout());
setTcpNoDelay(Constants25.isDefaultTcpNoDelay());
}
// ----------------------------------------------------- Instance Variables
/** Connection handler for AJP. */
private AjpProtocolAjpConnectionHandler cHandler;
// ----------------------------------------------------- JMX related methods
@Override
protected String getNamePrefix() {
return ("ajp-bio");
}
public static Log getLogVariable() {
return log;
}
}
/**
* The JSP engine (a.k.a Jasper).
*
* <p>The servlet container is responsible for providing a URLClassLoader for the web application
* context Jasper is being used in. Jasper will try get the Tomcat ServletContext attribute for its
* ServletContext class loader, if that fails, it uses the parent class loader. In either case, it
* must be a URLClassLoader.
*
* @author Anil K. Vijendran
* @author Harish Prabandham
* @author Remy Maucherat
* @author Kin-man Chung
* @author Glenn Nielsen
* @author Tim Fennell
*/
@SuppressWarnings("deprecation") // Have to support SingleThreadModel
public class JspServletWrapper {
private static final Map<String, Long> ALWAYS_OUTDATED_DEPENDENCIES = new HashMap<String, Long>();
static {
// If this is missing,
ALWAYS_OUTDATED_DEPENDENCIES.put("/WEB-INF/web.xml", Long.valueOf(-1));
}
// Logger
private final Log log = LogFactory.getLog(JspServletWrapper.class);
private Servlet theServlet;
private String jspUri;
private Class<?> tagHandlerClass;
private JspCompilationContext ctxt;
private long available = 0L;
private ServletConfig config;
private Options options;
private boolean firstTime = true;
/** Whether the servlet needs reloading on next access */
private volatile boolean reload = true;
private boolean isTagFile;
private int tripCount;
private JasperException compileException;
/** Timestamp of last time servlet resource was modified */
private volatile long servletClassLastModifiedTime;
private long lastModificationTest = 0L;
private long lastUsageTime = System.currentTimeMillis();
private FastRemovalDequeue<JspServletWrapper>.Entry unloadHandle;
private final boolean unloadAllowed;
private final boolean unloadByCount;
private final boolean unloadByIdle;
/*
* JspServletWrapper for JSP pages.
*/
public JspServletWrapper(
ServletConfig config, Options options, String jspUri, JspRuntimeContext rctxt) {
this.isTagFile = false;
this.config = config;
this.options = options;
this.jspUri = jspUri;
unloadByCount = options.getMaxLoadedJsps() > 0 ? true : false;
unloadByIdle = options.getJspIdleTimeout() > 0 ? true : false;
unloadAllowed = unloadByCount || unloadByIdle ? true : false;
ctxt = new JspCompilationContext(jspUri, options, config.getServletContext(), this, rctxt);
}
/*
* JspServletWrapper for tag files.
*/
public JspServletWrapper(
ServletContext servletContext,
Options options,
String tagFilePath,
TagInfo tagInfo,
JspRuntimeContext rctxt,
JarResource tagJarResource) {
this.isTagFile = true;
this.config = null; // not used
this.options = options;
this.jspUri = tagFilePath;
this.tripCount = 0;
unloadByCount = options.getMaxLoadedJsps() > 0 ? true : false;
unloadByIdle = options.getJspIdleTimeout() > 0 ? true : false;
unloadAllowed = unloadByCount || unloadByIdle ? true : false;
ctxt =
new JspCompilationContext(
jspUri, tagInfo, options, servletContext, this, rctxt, tagJarResource);
}
public JspCompilationContext getJspEngineContext() {
return ctxt;
}
public void setReload(boolean reload) {
this.reload = reload;
}
public Servlet getServlet() throws ServletException {
// DCL on 'reload' requires that 'reload' be volatile
// (this also forces a read memory barrier, ensuring the
// new servlet object is read consistently)
if (reload) {
synchronized (this) {
// Synchronizing on jsw enables simultaneous loading
// of different pages, but not the same page.
if (reload) {
// This is to maintain the original protocol.
destroy();
final Servlet servlet;
try {
InstanceManager instanceManager = InstanceManagerFactory.getInstanceManager(config);
servlet = (Servlet) instanceManager.newInstance(ctxt.getFQCN(), ctxt.getJspLoader());
} catch (IllegalAccessException e) {
throw new JasperException(e);
} catch (InstantiationException e) {
throw new JasperException(e);
} catch (Exception e) {
throw new JasperException(e);
}
servlet.init(config);
if (!firstTime) {
ctxt.getRuntimeContext().incrementJspReloadCount();
}
theServlet = servlet;
reload = false;
// Volatile 'reload' forces in order write of 'theServlet' and new servlet object
}
}
}
return theServlet;
}
public ServletContext getServletContext() {
return ctxt.getServletContext();
}
/**
* Sets the compilation exception for this JspServletWrapper.
*
* @param je The compilation exception
*/
public void setCompilationException(JasperException je) {
this.compileException = je;
}
/**
* Sets the last-modified time of the servlet class file associated with this JspServletWrapper.
*
* @param lastModified Last-modified time of servlet class
*/
public void setServletClassLastModifiedTime(long lastModified) {
// DCL requires servletClassLastModifiedTime be volatile
// to force read and write barriers on access/set
// (and to get atomic write of long)
if (this.servletClassLastModifiedTime < lastModified) {
synchronized (this) {
if (this.servletClassLastModifiedTime < lastModified) {
this.servletClassLastModifiedTime = lastModified;
reload = true;
}
}
}
}
/** Compile (if needed) and load a tag file */
public Class<?> loadTagFile() throws JasperException {
try {
if (ctxt.isRemoved()) {
throw new FileNotFoundException(jspUri);
}
if (options.getDevelopment() || firstTime) {
synchronized (this) {
firstTime = false;
ctxt.compile();
}
} else {
if (compileException != null) {
throw compileException;
}
}
if (reload) {
tagHandlerClass = ctxt.load();
reload = false;
}
} catch (FileNotFoundException ex) {
throw new JasperException(ex);
}
return tagHandlerClass;
}
/**
* Compile and load a prototype for the Tag file. This is needed when compiling tag files with
* circular dependencies. A prototype (skeleton) with no dependencies on other other tag files is
* generated and compiled.
*/
public Class<?> loadTagFilePrototype() throws JasperException {
ctxt.setPrototypeMode(true);
try {
return loadTagFile();
} finally {
ctxt.setPrototypeMode(false);
}
}
/** Get a list of files that the current page has source dependency on. */
public java.util.Map<String, Long> getDependants() {
try {
Object target;
if (isTagFile) {
if (reload) {
tagHandlerClass = ctxt.load();
reload = false;
}
target = tagHandlerClass.newInstance();
} else {
target = getServlet();
}
if (target != null && target instanceof JspSourceDependent) {
return ((JspSourceDependent) target).getDependants();
}
} catch (AbstractMethodError ame) {
// Almost certainly a pre Tomcat 7.0.17 compiled JSP using the old
// version of the interface. Force a re-compile.
return ALWAYS_OUTDATED_DEPENDENCIES;
} catch (Throwable ex) {
ExceptionUtils.handleThrowable(ex);
}
return null;
}
public boolean isTagFile() {
return this.isTagFile;
}
public int incTripCount() {
return tripCount++;
}
public int decTripCount() {
return tripCount--;
}
public String getJspUri() {
return jspUri;
}
public FastRemovalDequeue<JspServletWrapper>.Entry getUnloadHandle() {
return unloadHandle;
}
public void service(HttpServletRequest request, HttpServletResponse response, boolean precompile)
throws ServletException, IOException, FileNotFoundException {
Servlet servlet;
try {
if (ctxt.isRemoved()) {
throw new FileNotFoundException(jspUri);
}
if ((available > 0L) && (available < Long.MAX_VALUE)) {
if (available > System.currentTimeMillis()) {
response.setDateHeader("Retry-After", available);
response.sendError(
HttpServletResponse.SC_SERVICE_UNAVAILABLE,
Localizer.getMessage("jsp.error.unavailable"));
return;
}
// Wait period has expired. Reset.
available = 0;
}
/*
* (1) Compile
*/
if (options.getDevelopment() || firstTime) {
synchronized (this) {
firstTime = false;
// The following sets reload to true, if necessary
ctxt.compile();
}
} else {
if (compileException != null) {
// Throw cached compilation exception
throw compileException;
}
}
/*
* (2) (Re)load servlet class file
*/
servlet = getServlet();
// If a page is to be precompiled only, return.
if (precompile) {
return;
}
} catch (ServletException ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw ex;
} catch (FileNotFoundException fnfe) {
// File has been removed. Let caller handle this.
throw fnfe;
} catch (IOException ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw ex;
} catch (IllegalStateException ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw ex;
} catch (Exception ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw new JasperException(ex);
}
try {
/*
* (3) Handle limitation of number of loaded Jsps
*/
if (unloadAllowed) {
synchronized (this) {
if (unloadByCount) {
if (unloadHandle == null) {
unloadHandle = ctxt.getRuntimeContext().push(this);
} else if (lastUsageTime < ctxt.getRuntimeContext().getLastJspQueueUpdate()) {
ctxt.getRuntimeContext().makeYoungest(unloadHandle);
lastUsageTime = System.currentTimeMillis();
}
} else {
if (lastUsageTime < ctxt.getRuntimeContext().getLastJspQueueUpdate()) {
lastUsageTime = System.currentTimeMillis();
}
}
}
}
/*
* (4) Service request
*/
if (servlet instanceof SingleThreadModel) {
// sync on the wrapper so that the freshness
// of the page is determined right before servicing
synchronized (this) {
servlet.service(request, response);
}
} else {
servlet.service(request, response);
}
} catch (UnavailableException ex) {
String includeRequestUri =
(String) request.getAttribute(RequestDispatcher.INCLUDE_REQUEST_URI);
if (includeRequestUri != null) {
// This file was included. Throw an exception as
// a response.sendError() will be ignored by the
// servlet engine.
throw ex;
}
int unavailableSeconds = ex.getUnavailableSeconds();
if (unavailableSeconds <= 0) {
unavailableSeconds = 60; // Arbitrary default
}
available = System.currentTimeMillis() + (unavailableSeconds * 1000L);
response.sendError(HttpServletResponse.SC_SERVICE_UNAVAILABLE, ex.getMessage());
} catch (ServletException ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw ex;
} catch (IOException ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw ex;
} catch (IllegalStateException ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw ex;
} catch (Exception ex) {
if (options.getDevelopment()) {
throw handleJspException(ex);
}
throw new JasperException(ex);
}
}
public void destroy() {
if (theServlet != null) {
theServlet.destroy();
InstanceManager instanceManager = InstanceManagerFactory.getInstanceManager(config);
try {
instanceManager.destroyInstance(theServlet);
} catch (Exception e) {
// Log any exception, since it can't be passed along
log.error(Localizer.getMessage("jsp.error.file.not.found", e.getMessage()), e);
}
}
}
/** @return Returns the lastModificationTest. */
public long getLastModificationTest() {
return lastModificationTest;
}
/** @param lastModificationTest The lastModificationTest to set. */
public void setLastModificationTest(long lastModificationTest) {
this.lastModificationTest = lastModificationTest;
}
/** @return the lastUsageTime. */
public long getLastUsageTime() {
return lastUsageTime;
}
/**
* Attempts to construct a JasperException that contains helpful information about what went
* wrong. Uses the JSP compiler system to translate the line number in the generated servlet that
* originated the exception to a line number in the JSP. Then constructs an exception containing
* that information, and a snippet of the JSP to help debugging. Please see
* http://issues.apache.org/bugzilla/show_bug.cgi?id=37062 and http://www.tfenne.com/jasper/ for
* more details.
*
* @param ex the exception that was the cause of the problem.
* @return a JasperException with more detailed information
*/
protected JasperException handleJspException(Exception ex) {
try {
Throwable realException = ex;
if (ex instanceof ServletException) {
realException = ((ServletException) ex).getRootCause();
}
// First identify the stack frame in the trace that represents the JSP
StackTraceElement[] frames = realException.getStackTrace();
StackTraceElement jspFrame = null;
for (int i = 0; i < frames.length; ++i) {
if (frames[i].getClassName().equals(this.getServlet().getClass().getName())) {
jspFrame = frames[i];
break;
}
}
if (jspFrame == null || this.ctxt.getCompiler().getPageNodes() == null) {
// If we couldn't find a frame in the stack trace corresponding
// to the generated servlet class or we don't have a copy of the
// parsed JSP to hand, we can't really add anything
return new JasperException(ex);
}
int javaLineNumber = jspFrame.getLineNumber();
JavacErrorDetail detail =
ErrorDispatcher.createJavacError(
jspFrame.getMethodName(),
this.ctxt.getCompiler().getPageNodes(),
null,
javaLineNumber,
ctxt);
// If the line number is less than one we couldn't find out
// where in the JSP things went wrong
int jspLineNumber = detail.getJspBeginLineNumber();
if (jspLineNumber < 1) {
throw new JasperException(ex);
}
if (options.getDisplaySourceFragment()) {
return new JasperException(
Localizer.getMessage("jsp.exception", detail.getJspFileName(), "" + jspLineNumber)
+ Constants.NEWLINE
+ Constants.NEWLINE
+ detail.getJspExtract()
+ Constants.NEWLINE
+ Constants.NEWLINE
+ "Stacktrace:",
ex);
}
return new JasperException(
Localizer.getMessage("jsp.exception", detail.getJspFileName(), "" + jspLineNumber), ex);
} catch (Exception je) {
// If anything goes wrong, just revert to the original behaviour
if (ex instanceof JasperException) {
return (JasperException) ex;
}
return new JasperException(ex);
}
}
}
/**
* Gzip output filter.
*
* @author Remy Maucherat
*/
public class GzipOutputFilter implements OutputFilter {
/** Logger. */
protected static org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(GzipOutputFilter.class);
// ----------------------------------------------------- Instance Variables
/** Next buffer in the pipeline. */
protected OutputBuffer buffer;
/** Compression output stream. */
protected GZIPOutputStream compressionStream = null;
/** Fake internal output stream. */
protected OutputStream fakeOutputStream = new FakeOutputStream();
// --------------------------------------------------- OutputBuffer Methods
/**
* Write some bytes.
*
* @return number of bytes written by the filter
*/
@Override
public int doWrite(ByteChunk chunk, Response res) throws IOException {
if (compressionStream == null) {
compressionStream = new FlushableGZIPOutputStream(fakeOutputStream);
}
compressionStream.write(chunk.getBytes(), chunk.getStart(), chunk.getLength());
return chunk.getLength();
}
@Override
public long getBytesWritten() {
return buffer.getBytesWritten();
}
// --------------------------------------------------- OutputFilter Methods
/** Added to allow flushing to happen for the gzip'ed outputstream */
public void flush() {
if (compressionStream != null) {
try {
if (log.isDebugEnabled()) {
log.debug("Flushing the compression stream!");
}
compressionStream.flush();
} catch (IOException e) {
if (log.isDebugEnabled()) {
log.debug("Ignored exception while flushing gzip filter", e);
}
}
}
}
/**
* Some filters need additional parameters from the response. All the necessary reading can occur
* in that method, as this method is called after the response header processing is complete.
*/
@Override
public void setResponse(Response response) {
// NOOP: No need for parameters from response in this filter
}
/** Set the next buffer in the filter pipeline. */
@Override
public void setBuffer(OutputBuffer buffer) {
this.buffer = buffer;
}
/**
* End the current request. It is acceptable to write extra bytes using buffer.doWrite during the
* execution of this method.
*/
@Override
public long end() throws IOException {
if (compressionStream == null) {
compressionStream = new FlushableGZIPOutputStream(fakeOutputStream);
}
compressionStream.finish();
compressionStream.close();
return ((OutputFilter) buffer).end();
}
/** Make the filter ready to process the next request. */
@Override
public void recycle() {
// Set compression stream to null
compressionStream = null;
}
// ------------------------------------------- FakeOutputStream Inner Class
protected class FakeOutputStream extends OutputStream {
protected ByteChunk outputChunk = new ByteChunk();
protected byte[] singleByteBuffer = new byte[1];
@Override
public void write(int b) throws IOException {
// Shouldn't get used for good performance, but is needed for
// compatibility with Sun JDK 1.4.0
singleByteBuffer[0] = (byte) (b & 0xff);
outputChunk.setBytes(singleByteBuffer, 0, 1);
buffer.doWrite(outputChunk, null);
}
@Override
public void write(byte[] b, int off, int len) throws IOException {
outputChunk.setBytes(b, off, len);
buffer.doWrite(outputChunk, null);
}
@Override
public void flush() throws IOException {
/* NOOP */
}
@Override
public void close() throws IOException {
/* NOOP */
}
}
}
/**
* Plugs Jk into Coyote. Must be named "type=JkHandler,name=container"
*
* <p>jmx:notification-handler name="org.apache.jk.SEND_PACKET jmx:notification-handler
* name="org.apache.coyote.ACTION_COMMIT
*/
public class JkCoyoteHandler extends JkHandler implements ProtocolHandler {
protected static org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(JkCoyoteHandler.class);
// Set debug on this logger to see the container request time
// ----------------------------------------------------------- DoPrivileged
private boolean paused = false;
int epNote;
Adapter adapter;
protected JkMain jkMain = null;
/** Set a property. Name is a "component.property". JMX should be used instead. */
public void setProperty(String name, String value) {
if (log.isTraceEnabled()) log.trace("setProperty " + name + " " + value);
getJkMain().setProperty(name, value);
properties.put(name, value);
}
public String getProperty(String name) {
return properties.getProperty(name);
}
public Iterator getAttributeNames() {
return properties.keySet().iterator();
}
/** Pass config info */
public void setAttribute(String name, Object value) {
if (log.isDebugEnabled()) log.debug("setAttribute " + name + " " + value);
if (value instanceof String) this.setProperty(name, (String) value);
}
/** Retrieve config info. Primarily for use with the admin webapp. */
public Object getAttribute(String name) {
return getJkMain().getProperty(name);
}
/** The adapter, used to call the connector */
public void setAdapter(Adapter adapter) {
this.adapter = adapter;
}
public Adapter getAdapter() {
return adapter;
}
public JkMain getJkMain() {
if (jkMain == null) {
jkMain = new JkMain();
jkMain.setWorkerEnv(wEnv);
}
return jkMain;
}
boolean started = false;
/** Start the protocol */
public void init() {
if (started) return;
started = true;
if (wEnv == null) {
// we are probably not registered - not very good.
wEnv = getJkMain().getWorkerEnv();
wEnv.addHandler("container", this);
}
try {
// jkMain.setJkHome() XXX;
getJkMain().init();
} catch (Exception ex) {
log.error("Error during init", ex);
}
}
public void start() {
try {
if (oname != null && getJkMain().getDomain() == null) {
try {
ObjectName jkmainOname = new ObjectName(oname.getDomain() + ":type=JkMain");
Registry.getRegistry(null, null).registerComponent(getJkMain(), jkmainOname, "JkMain");
} catch (Exception e) {
log.error("Error registering jkmain " + e);
}
}
getJkMain().start();
} catch (Exception ex) {
log.error("Error during startup", ex);
}
}
public void pause() throws Exception {
if (!paused) {
paused = true;
getJkMain().pause();
}
}
public void resume() throws Exception {
if (paused) {
paused = false;
getJkMain().resume();
}
}
public void destroy() {
if (!started) return;
started = false;
getJkMain().stop();
}
// -------------------- Jk handler implementation --------------------
// Jk Handler mehod
public int invoke(Msg msg, MsgContext ep) throws IOException {
if (ep.isLogTimeEnabled()) ep.setLong(MsgContext.TIMER_PRE_REQUEST, System.currentTimeMillis());
Request req = ep.getRequest();
Response res = req.getResponse();
if (log.isDebugEnabled())
log.debug("Invoke " + req + " " + res + " " + req.requestURI().toString());
res.setNote(epNote, ep);
ep.setStatus(MsgContext.JK_STATUS_HEAD);
RequestInfo rp = req.getRequestProcessor();
rp.setStage(Constants.STAGE_SERVICE);
try {
adapter.service(req, res);
} catch (Exception ex) {
log.info("Error servicing request " + req, ex);
}
if (ep.getStatus() != MsgContext.JK_STATUS_CLOSED) {
res.finish();
}
req.updateCounters();
req.recycle();
res.recycle();
ep.recycle();
if (ep.getStatus() == MsgContext.JK_STATUS_ERROR) {
return ERROR;
}
ep.setStatus(MsgContext.JK_STATUS_NEW);
rp.setStage(Constants.STAGE_KEEPALIVE);
return OK;
}
public ObjectName preRegister(MBeanServer server, ObjectName oname) throws Exception {
// override - we must be registered as "container"
this.name = "container";
return super.preRegister(server, oname);
}
}
/**
* Helper class to simplify setting up a Embedded Tomcat in a IDE and with a Maven web project.
*
* @author Ralph Schaer
*/
public class EmbeddedTomcat {
private static final Log log = LogFactory.getLog(EmbeddedTomcat.class);
private String contextPath;
private Integer httpPort;
private Integer shutdownPort;
private int secondsToWaitBeforePortBecomesAvailable;
public int maxPostSize = 2097152;
private int httpsPort;
private String keyStoreFile;
private String keyAlias;
private String keyStorePass;
private String sslProtocol;
private String tempDirectory;
private String contextDirectory;
private String skipJarsDefaultJarScanner;
private String skipJarsContextConfig;
private String skipJarsTldConfig;
private boolean privileged;
private boolean silent;
private boolean addDefaultListeners = false;
private boolean useNio = false;
private int compressionMinSize = -1;
private String compressableMimeType;
private boolean enableNaming = false;
private final List<ContextEnvironment> contextEnvironments;
private final List<ContextResource> contextResources;
private final List<ApplicationParameter> contextInitializationParameters;
private URL contextFileURL;
private Tomcat tomcat;
/**
* Starts a embedded Tomcat on port 8080 with context path "" and context directory current
* directory + /src/main/webapp
*
* @param args program arguments
*/
public static void main(String[] args) {
new EmbeddedTomcat().startAndWait();
}
/**
* Convenient method to create a embedded Tomcat that listens on port 8080 and with a context path
* of ""
*
* @return EmbeddedTomcat the embedded tomcat
*/
public static EmbeddedTomcat create() {
return new EmbeddedTomcat();
}
/**
* Creates an embedded Tomcat with context path "" and port 8080. Context directory points to
* current directory + /src/main/webapp Change context directory with the method <code>
* setContextDirectory(String)</code>
*
* @see EmbeddedTomcat#setContextDirectory(String)
*/
public EmbeddedTomcat() {
this("", 8080);
}
/**
* Creates an embedded Tomcat with context path "" and specified port. Context directory points to
* current directory + /src/main/webapp Change context directory with the method <code>
* setContextDirectory(String)</code>
*
* @param port ip port the server is listening
* @see #setContextDirectory(String)
*/
public EmbeddedTomcat(int port) {
this("", port);
}
/**
* Creates an embedded Tomcat with the specified context path and port 8080 Context directory
* points to current directory + /src/main/webapp Change context directory with the method <code>
* setContextDirectory(String)</code>
*
* @param contextPath The context path has to start with /
* @see #setContextDirectory(String)
*/
public EmbeddedTomcat(String contextPath) {
this(contextPath, 8080);
}
/**
* Creates an embedded Tomcat with specified context path and specified port. Context directory
* points to current directory + /src/main/webapp Change context directory with the method <code>
* setContextDirectory(String)</code>
*
* @param contextPath has to start with /
* @param httpPort ip port the server is listening for http requests. Shutdown port is set to port
* + 1000
* @see EmbeddedTomcat#setContextDirectory(String)
*/
public EmbeddedTomcat(String contextPath, int httpPort) {
this(contextPath, httpPort, 0);
}
/**
* Creates an embedded Tomcat with specified context path and specified ports. Context directory
* points to current directory + /src/main/webapp Change context directory with the method <code>
* setContextDirectory(String)</code>
*
* @param contextPath has to start with /
* @param httpPort ip port the server is listening for http requests. Shutdown port is set to port
* + 1000
* @param httpsPort ip port the server is listening for https requests.
* @see EmbeddedTomcat#setContextDirectory(String)
*/
public EmbeddedTomcat(String contextPath, int httpPort, int httpsPort) {
this.tomcat = null;
setContextPath(contextPath);
setHttpPort(httpPort);
setShutdownPort(httpPort + 1000);
setHttpsPort(httpsPort);
setSecondsToWaitBeforePortBecomesAvailable(10);
setPrivileged(false);
setSilent(false);
setContextDirectory(null);
this.tempDirectory = null;
this.contextEnvironments = new ArrayList<ContextEnvironment>();
this.contextResources = new ArrayList<ContextResource>();
this.contextInitializationParameters = new ArrayList<ApplicationParameter>();
}
/**
* Sets the port the server is listening for http requests
*
* @param port The new port
* @return The embedded Tomcat
* @deprecated Use {@link #setHttpPort(int)} instead
*/
@Deprecated
public EmbeddedTomcat setPort(int port) {
return setHttpPort(port);
}
/**
* Sets the port the server is listening for http requests
*
* @param httpPort The new port
* @return The embedded Tomcat
*/
public EmbeddedTomcat setHttpPort(int httpPort) {
this.httpPort = httpPort;
return this;
}
/**
* The maximum size in bytes of the POST which will be handled by the container FORM URL parameter
* parsing. The limit can be disabled by setting this attribute to a value less than or equal to
* 0. If not specified, this attribute is set to 2097152 (2 megabytes).
*
* @param maxPostSize maximum size in bytes for POST requests
* @return The embedded Tomcat
*/
public EmbeddedTomcat setMaxPostSize(int maxPostSize) {
this.maxPostSize = maxPostSize;
return this;
}
/**
* Sets the port the server is listening for https requests
*
* @param httpsPort The new port
* @return The embedded Tomcat
*/
public EmbeddedTomcat setHttpsPort(int httpsPort) {
this.httpsPort = httpsPort;
return this;
}
/**
* The pathname of the keystore file where you have stored the server certificate to be loaded. By
* default, the pathname is the file ".keystore" in the operating system home directory of the
* user that is running Tomcat.
*
* @param keyStoreFile The keystore pathname
* @return The embedded Tomcat
*/
public EmbeddedTomcat setKeyStoreFile(String keyStoreFile) {
this.keyStoreFile = keyStoreFile;
return this;
}
/**
* The alias used to for the server certificate in the keystore. If not specified the first key
* read in the keystore will be used.
*
* @param keyAlias The key alias
* @return The embedded Tomcat
*/
public EmbeddedTomcat setKeyAlias(String keyAlias) {
this.keyAlias = keyAlias;
return this;
}
/**
* The password used to access the server certificate from the specified keystore file. The
* default value is "changeit".
*
* @param keyStorePass The keystore password
* @return The embedded Tomcat
*/
public EmbeddedTomcat setKeyStorePass(String keyStorePass) {
this.keyStorePass = keyStorePass;
return this;
}
/**
* Sets the contextPath for the webapplication
*
* @param contextPath The new contextPath. Has to start with / or is the empty "" string
* @return The embedded Tomcat
*/
public EmbeddedTomcat setContextPath(String contextPath) {
if (contextPath == null || !contextPath.equals("") && !contextPath.startsWith("/")) {
throw new IllegalArgumentException(
"contextPath must be the empty string \"\" or a path starting with /");
}
this.contextPath = contextPath;
return this;
}
/**
* Sets the context directory. Normally this point to the directory that hosts the WEB-INF
* directory. Default value is: current directory + /src/main/webapp This is the normal location
* of the webapplication directory in a Maven web app project.
*
* @param contextDirectory Path name to the directory that contains the web application.
* @return The embedded Tomcat
*/
public EmbeddedTomcat setContextDirectory(String contextDirectory) {
this.contextDirectory = contextDirectory;
return this;
}
/**
* List of JAR files that should not be scanned using the JarScanner functionality. This is
* typically used to scan JARs for configuration information. JARs that do not contain such
* information may be excluded from the scan to speed up the scanning process. JARs on this list
* are excluded from all scans.
*
* <p>Scan specific lists (to exclude JARs from individual scans) see {@link
* #skipJarsContextConfig(String)} and {@link #skipJarsTldConfig(String)}.
*
* <p>The list must be a comma separated list of JAR file names. Example: spring*.jar,cglib*.jar.
*
* <p>This list is appended to the default list. The default list is located in the file
* CATALINA_HOME\conf\catalina.properties under the key
* tomcat.util.scan.DefaultJarScanner.jarsToSkip
*
* @param skipJars list of jars, comma separated
* @return The embedded Tomcat
*/
public EmbeddedTomcat skipJarsDefaultJarScanner(String skipJars) {
this.skipJarsDefaultJarScanner = skipJars;
return this;
}
/**
* Additional JARs (over and above the default JARs set with {@link
* #skipJarsDefaultJarScanner(String)}) to skip when scanning for Servlet 3.0 pluggability
* features. These features include web fragments, annotations, SCIs and classes that
* match @HandlesTypes. The list must be a comma separated list of JAR file names.
*
* @param skipJars list of jars, comma separated
* @return The embedded Tomcat
*/
public EmbeddedTomcat skipJarsContextConfig(String skipJars) {
this.skipJarsContextConfig = skipJars;
return this;
}
/**
* Additional JARs (over and above the default JARs set with {@link
* #skipJarsDefaultJarScanner(String)}) to skip when scanning for TLDs. The list must be a comma
* separated list of JAR file names.
*
* @param skipJars list of jars, comma separated
* @return The embedded Tomcat
*/
public EmbeddedTomcat skipJarsTldConfig(String skipJars) {
this.skipJarsTldConfig = skipJars;
return this;
}
/**
* Sets the location of the temporary directory. Tomcat needs this for storing temporary files
* like compiled jsp files. Default value is
*
* <p><code>
* target/tomcat. + port
* </code>
*
* @param tempDirectory File object that represents the location of the temp directory
* @return The embedded Tomcat
*/
public EmbeddedTomcat setTempDirectory(File tempDirectory) {
this.tempDirectory = tempDirectory.getAbsolutePath();
return this;
}
/**
* Sets the temporary directory to a directory beneath the target directory <br>
* The directory does not have to exists, Tomcat will create it automatically if necessary.
*
* @param name directory name
* @return The embedded Tomcat
* @see EmbeddedTomcat#setTempDirectory(File)
*/
public EmbeddedTomcat setTempDirectoryName(String name) {
this.tempDirectory = new File(".", "target/" + name).getAbsolutePath();
return this;
}
/**
* The EmbeddedTomcat listens per default for shutdown commands on port 8005 with the shutdown
* command <code>SHUTDOWN</code>. Calling this method disables adding the shutdown hook.
*
* @return The embedded Tomcat
*/
public EmbeddedTomcat dontAddShutdownHook() {
this.shutdownPort = null;
return this;
}
/**
* Before starting the embedded Tomcat the programm tries to stop a previous process by sendig the
* shutdown command to the shutdown port. It then waits for the port to become available. It
* checks this every second for the specified number of seconds
*
* @param seconds number of seconds
* @return The embedded Tomcat
*/
public EmbeddedTomcat setSecondsToWaitBeforePortBecomesAvailable(int seconds) {
this.secondsToWaitBeforePortBecomesAvailable = seconds;
return this;
}
/**
* Specifies the port the server is listen for the shutdown command. Default is port 8005
*
* @param shutdownPort the shutdown port
* @return The embedded Tomcat *
* @see EmbeddedTomcat#dontAddShutdownHook()
*/
public EmbeddedTomcat setShutdownPort(int shutdownPort) {
this.shutdownPort = shutdownPort;
return this;
}
/**
* Set the privileged flag for this web application.
*
* @param privileged The new privileged flag
* @return The embedded Tomcat
*/
public EmbeddedTomcat setPrivileged(boolean privileged) {
this.privileged = privileged;
return this;
}
/**
* Instructs the embedded tomcat to use the Non Blocking Connector
* (org.apache.coyote.http11.Http11NioProtocol) instead of the Blocking Connector
* (org.apache.coyote.http11.Http11Protocol)
*
* @return The embedded Tomcat
*/
public EmbeddedTomcat useNio() {
this.useNio = true;
return this;
}
@SuppressWarnings("hiding")
public EmbeddedTomcat enableCompression(int compressionMinSize, String compressableMimeType) {
this.compressionMinSize = compressionMinSize;
this.compressableMimeType = compressableMimeType;
return this;
}
/**
* Enables JNDI naming which is disabled by default.
*
* @return The embedded Tomcat
*/
public EmbeddedTomcat enableNaming() {
this.enableNaming = true;
return this;
}
/**
* Installs the default listeners AprLifecycleListener, JasperListener,
* JreMemoryLeakPreventionListener, GlobalResourcesLifecycleListener and
* ThreadLocalLeakPreventionListener during startup.
*
* @return The embedded Tomcat
*/
public EmbeddedTomcat addDefaultListeners() {
this.addDefaultListeners = true;
return this;
}
/**
* Set the silent flag of Tomcat. If true Tomcat no longer prints any log messages
*
* @param silent The new silent flag
* @return The embedded Tomcat
*/
public EmbeddedTomcat setSilent(boolean silent) {
this.silent = silent;
return this;
}
/**
* Adds a {@link ContextEnvironment} object to embedded Tomcat.
*
* <p>Example:<br>
* Tomcat context xml file
*
* <pre>
* <Environment name="aparam"
* value="test"
* type="java.lang.String"
* override="false"/>
* </pre>
*
* A programmatic way to add this environment to the embedded Tomcat is by calling this method
*
* <pre>
* ContextEnvironment env = new ContextEnvironment();
* env.setType("java.lang.String");
* env.setName("aparam");
* env.setValue("test");
* embeddedTomcat.addContextEnvironment(env);
* </pre>
*
* @param env context environment variable
* @return The embedded Tomcat
* @see ContextEnvironment
* @see NamingResources#addEnvironment(ContextEnvironment)
* @see EmbeddedTomcat#addContextEnvironment(String, String, String)
* @see EmbeddedTomcat#addContextEnvironmentString(String, String)
*/
public EmbeddedTomcat addContextEnvironment(ContextEnvironment env) {
this.contextEnvironments.add(env);
return this;
}
/**
* Adds a {@link ContextResource} object to the list of resources in the embedded Tomcat.
*
* <p>Example:<br>
* Tomcat context xml file
*
* <pre>
* <Resource name="jdbc/ds" auth="Container"
* type="javax.sql.DataSource" username="******" password=""
* driverClassName="org.h2.Driver"
* url="jdbc:h2:~/mydb"
* maxActive="20" maxIdle="4" maxWait="10000"
* defaultAutoCommit="false"/>
* </pre>
*
* Programmatic way:
*
* <pre>
* ContextResource res = new ContextResource();
* res.setName("jdbc/ds");
* res.setType("javax.sql.DataSource");
* res.setAuth("Container");
* res.setProperty("username", "sa");
* res.setProperty("password", "");
* res.setProperty("driverClassName", "org.h2.Driver");
* res.setProperty("url", "jdbc:h2:˜/mydb");
* res.setProperty("maxActive", "20");
* res.setProperty("maxIdle", "4");
* res.setProperty("maxWait", "10000");
* res.setProperty("defaultAutoCommit", "false");
*
* embeddedTomcat.addContextResource(res);
* </pre>
*
* @param res resource object
* @return The embedded Tomcat
* @see ContextResource
* @see NamingResources#addResource(ContextResource)
*/
public EmbeddedTomcat addContextResource(ContextResource res) {
this.contextResources.add(res);
return this;
}
public EmbeddedTomcat addContextInitializationParameter(String name, String value) {
ApplicationParameter parameter = new ApplicationParameter();
parameter.setName(name);
parameter.setValue(value);
this.contextInitializationParameters.add(parameter);
return this;
}
/**
* Convenient method for adding a context environment to the embedded Tomcat. Creates a <code>
* ContextEnvironment</code> object and adds it to the list of the context environments.
*
* <p>Example:<br>
* Tomcat context xml file
*
* <pre>
* <Environment name="aparam"
* value="test"
* type="java.lang.String"
* override="false"/>
* </pre>
*
* Programmatic way:
*
* <pre>
* embeddedTomcat.addContextEnvironment("aparam", "test", "java.lang.String");
* </pre>
*
* @param name name of the context environment
* @param value value of the context environment
* @param type type of the context environment
* @return The embedded Tomcat
* @see ContextEnvironment
* @see NamingResources#addEnvironment(ContextEnvironment)
* @see EmbeddedTomcat#addContextEnvironment(ContextEnvironment)
* @see EmbeddedTomcat#addContextEnvironmentString(String, String)
*/
public EmbeddedTomcat addContextEnvironment(String name, String value, String type) {
final ContextEnvironment env = new ContextEnvironment();
env.setType(type);
env.setName(name);
env.setValue(value);
addContextEnvironment(env);
return this;
}
/**
* Convenient method for adding a context environment with type java.lang.String to the embedded
* Tomcat.
*
* <pre>
* embeddedTomcat.addContextEnvironment("aparam", "test");
* </pre>
*
* @param name name of the context environment
* @param value value of the context environment
* @return The embedded Tomcat
* @see ContextEnvironment
* @see NamingResources#addEnvironment(ContextEnvironment)
* @see EmbeddedTomcat#addContextEnvironment(ContextEnvironment)
* @see EmbeddedTomcat#addContextEnvironment(String, String, String)
*/
public EmbeddedTomcat addContextEnvironmentString(String name, String value) {
addContextEnvironment(name, value, "java.lang.String");
return this;
}
/**
* Read ContextEnvironment and ContextResource definition from a text file.
*
* @param contextFile Location of the context file
* @return The embedded Tomcat
* @deprecated use {@link #setContextFile(URL)}
*/
@Deprecated
public EmbeddedTomcat addContextEnvironmentAndResourceFromFile(File contextFile) {
try {
return setContextFile(contextFile.toURI().toURL());
} catch (MalformedURLException e) {
throw new RuntimeException(e);
}
}
/**
* Sets the location of the context file that configures this web application
*
* @param contextFileURL Location of the context file
* @return The embedded Tomcat instance
*/
public EmbeddedTomcat setContextFile(URL contextFileURL) {
this.contextFileURL = contextFileURL;
return this;
}
/**
* Sets the location of the context file that configures this web application
*
* @param contextFile Location of the context file
* @return The embedded Tomcat instance
*/
public EmbeddedTomcat setContextFile(String contextFile) {
try {
this.contextFileURL = new File(contextFile).toURI().toURL();
} catch (MalformedURLException e) {
throw new RuntimeException(e);
}
return this;
}
/**
* Read ContextEnvironment and ContextResource definition from a text file.
*
* @param contextFile Location to a context file
* @return The embedded Tomcat
* @deprecated use {@link #setContextFile(String)}
*/
@Deprecated
public EmbeddedTomcat addContextEnvironmentAndResourceFromFile(String contextFile) {
try {
setContextFile(new File(contextFile).toURI().toURL());
} catch (MalformedURLException e) {
throw new RuntimeException(e);
}
return this;
}
/**
* Starts the embedded Tomcat and do not wait for incoming requests. Returns immediately if the
* configured port is in use.
*
* @see EmbeddedTomcat#startAndWait()
*/
public void start() {
start(false);
}
/**
* Starts the embedded Tomcat and waits for incoming requests. Returns immediately if the
* configured port is in use.
*
* @see EmbeddedTomcat#start()
*/
public void startAndWait() {
start(true);
}
private void start(boolean await) {
// try to shutdown a previous Tomcat
sendShutdownCommand();
try {
final ServerSocket srv = new ServerSocket(this.httpPort);
srv.close();
} catch (IOException e) {
log.error("PORT " + this.httpPort + " ALREADY IN USE");
return;
}
// Read a dummy value. This triggers loading of the catalina.properties
// file
CatalinaProperties.getProperty("dummy");
appendSkipJars("tomcat.util.scan.DefaultJarScanner.jarsToSkip", this.skipJarsDefaultJarScanner);
appendSkipJars(
"org.apache.catalina.startup.ContextConfig.jarsToSkip", this.skipJarsContextConfig);
appendSkipJars("org.apache.catalina.startup.TldConfig.jarsToSkip", this.skipJarsTldConfig);
this.tomcat = new Tomcat();
if (this.tempDirectory == null) {
this.tempDirectory = new File(".", "/target/tomcat." + this.httpPort).getAbsolutePath();
}
this.tomcat.setBaseDir(this.tempDirectory);
if (this.silent) {
this.tomcat.setSilent(true);
}
if (this.addDefaultListeners) {
this.tomcat.getServer().addLifecycleListener(new AprLifecycleListener());
}
if (this.useNio) {
Connector connector = new Connector("org.apache.coyote.http11.Http11NioProtocol");
connector.setPort(this.httpPort);
connector.setMaxPostSize(this.maxPostSize);
connector.setURIEncoding("UTF-8");
this.tomcat.setConnector(connector);
this.tomcat.getService().addConnector(connector);
} else {
this.tomcat.setPort(this.httpPort);
this.tomcat.getConnector().setURIEncoding("UTF-8");
this.tomcat.getConnector().setMaxPostSize(this.maxPostSize);
}
if (this.compressionMinSize >= 0) {
this.tomcat
.getConnector()
.setProperty("compression", String.valueOf(this.compressionMinSize));
this.tomcat.getConnector().setProperty("compressableMimeType", this.compressableMimeType);
}
if (this.httpsPort != 0) {
final Connector httpsConnector;
if (this.useNio) {
httpsConnector = new Connector("org.apache.coyote.http11.Http11NioProtocol");
} else {
httpsConnector = new Connector("HTTP/1.1");
}
httpsConnector.setSecure(true);
httpsConnector.setPort(this.httpsPort);
httpsConnector.setMaxPostSize(this.maxPostSize);
httpsConnector.setScheme("https");
httpsConnector.setURIEncoding("UTF-8");
httpsConnector.setProperty("SSLEnabled", "true");
httpsConnector.setProperty("keyAlias", this.keyAlias);
httpsConnector.setProperty("keystoreFile", this.keyStoreFile);
httpsConnector.setProperty("keystorePass", this.keyStorePass);
httpsConnector.setProperty("sslProtocol", this.sslProtocol);
if (this.compressionMinSize >= 0) {
httpsConnector.setProperty("compression", String.valueOf(this.compressionMinSize));
httpsConnector.setProperty("compressableMimeType", this.compressableMimeType);
}
this.tomcat.getEngine().setDefaultHost("localhost");
this.tomcat.getService().addConnector(httpsConnector);
}
if (this.shutdownPort != null) {
this.tomcat.getServer().setPort(this.shutdownPort);
}
String contextDir = this.contextDirectory;
if (contextDir == null) {
contextDir = new File(".").getAbsolutePath() + "/src/main/webapp";
}
final Context ctx;
try {
if (!this.contextPath.equals("")) {
File rootCtxDir = new File("./target/tcroot");
if (!rootCtxDir.exists()) {
rootCtxDir.mkdirs();
}
Context rootCtx = this.tomcat.addWebapp("", rootCtxDir.getAbsolutePath());
rootCtx.setPrivileged(true);
Tomcat.addServlet(rootCtx, "listContexts", new ListContextsServlet(rootCtx))
.addMapping("/");
}
ctx = this.tomcat.addWebapp(this.contextPath, contextDir);
ctx.setResources(new TargetClassesContext());
} catch (ServletException e) {
throw new RuntimeException(e);
}
if (this.privileged) {
ctx.setPrivileged(true);
}
if (this.enableNaming
|| !this.contextEnvironments.isEmpty()
|| !this.contextResources.isEmpty()
|| this.contextFileURL != null) {
this.tomcat.enableNaming();
if (this.addDefaultListeners) {
this.tomcat.getServer().addLifecycleListener(new GlobalResourcesLifecycleListener());
}
}
if (this.addDefaultListeners) {
Server server = this.tomcat.getServer();
server.addLifecycleListener(new JasperListener());
server.addLifecycleListener(new JreMemoryLeakPreventionListener());
server.addLifecycleListener(new ThreadLocalLeakPreventionListener());
}
for (ContextEnvironment env : this.contextEnvironments) {
ctx.getNamingResources().addEnvironment(env);
}
for (ContextResource res : this.contextResources) {
ctx.getNamingResources().addResource(res);
}
for (ApplicationParameter param : this.contextInitializationParameters) {
ctx.addApplicationParameter(param);
}
if (this.contextFileURL != null) {
ctx.setConfigFile(this.contextFileURL);
}
// Shutdown tomcat if a failure occurs during startup
ctx.addLifecycleListener(
new LifecycleListener() {
@Override
public void lifecycleEvent(LifecycleEvent event) {
if (event.getLifecycle().getState() == LifecycleState.FAILED) {
((StandardServer) EmbeddedTomcat.this.tomcat.getServer()).stopAwait();
}
}
});
try {
this.tomcat.start();
} catch (LifecycleException e) {
throw new RuntimeException(e);
}
((StandardManager) ctx.getManager()).setPathname(null);
installSlf4jBridge();
if (await) {
this.tomcat.getServer().await();
stop();
}
}
/** Stops the embedded tomcat. Does nothing if it's not started */
public void stop() {
if (this.tomcat != null) {
try {
this.tomcat.stop();
} catch (LifecycleException e) {
throw new RuntimeException(e);
}
}
}
private static void appendSkipJars(String systemPropertyKey, String skipJars) {
if (skipJars != null && !skipJars.trim().isEmpty()) {
String oldValue = System.getProperty(systemPropertyKey);
String newValue;
if (oldValue != null && !oldValue.trim().isEmpty()) {
newValue = oldValue + "," + skipJars;
} else {
newValue = skipJars;
}
System.setProperty(systemPropertyKey, newValue);
}
}
private void sendShutdownCommand() {
if (this.shutdownPort != null) {
try {
final Socket socket = new Socket("localhost", this.shutdownPort);
final OutputStream stream = socket.getOutputStream();
for (int i = 0; i < "SHUTDOWN".length(); i++) {
stream.write("SHUTDOWN".charAt(i));
}
stream.flush();
stream.close();
socket.close();
} catch (UnknownHostException e) {
if (!this.silent) {
log.debug(e);
}
return;
} catch (IOException e) {
if (!this.silent) {
log.debug(e);
}
return;
}
// try to wait the specified amount of seconds until port becomes
// available
int count = 0;
while (count < this.secondsToWaitBeforePortBecomesAvailable * 2) {
try {
final ServerSocket srv = new ServerSocket(this.httpPort);
srv.close();
return;
} catch (IOException e) {
count++;
}
try {
TimeUnit.MILLISECONDS.sleep(500);
} catch (InterruptedException e) {
return;
}
}
}
}
private static void installSlf4jBridge() {
try {
// Check if slf4j bridge is available
final Class<?> clazz = Class.forName("org.slf4j.bridge.SLF4JBridgeHandler");
// Remove all JUL handlers
java.util.logging.LogManager.getLogManager().reset();
// Install slf4j bridge handler
final Method method = clazz.getMethod("install", new Class<?>[0]);
method.invoke(null);
} catch (ClassNotFoundException e) {
// do nothing
} catch (IllegalArgumentException e) {
throw new RuntimeException(e);
} catch (IllegalAccessException e) {
throw new RuntimeException(e);
} catch (InvocationTargetException e) {
throw new RuntimeException(e);
} catch (SecurityException e) {
throw new RuntimeException(e);
} catch (NoSuchMethodException e) {
throw new RuntimeException(e);
}
}
}
public class ConnectionPool extends NotificationBroadcasterSupport implements ConnectionPoolMBean {
/** logger */
private static final Log log = LogFactory.getLog(ConnectionPool.class);
/** the connection pool */
protected org.apache.tomcat.jdbc.pool.ConnectionPool pool = null;
/** sequence for JMX notifications */
protected AtomicInteger sequence = new AtomicInteger(0);
/** Listeners that are local and interested in our notifications, no need for JMX */
protected ConcurrentLinkedQueue<NotificationListener> listeners =
new ConcurrentLinkedQueue<NotificationListener>();
public ConnectionPool(org.apache.tomcat.jdbc.pool.ConnectionPool pool) {
super();
this.pool = pool;
}
public org.apache.tomcat.jdbc.pool.ConnectionPool getPool() {
return pool;
}
public PoolConfiguration getPoolProperties() {
return pool.getPoolProperties();
}
// =================================================================
// NOTIFICATION INFO
// =================================================================
public static final String NOTIFY_INIT = "INIT FAILED";
public static final String NOTIFY_CONNECT = "CONNECTION FAILED";
public static final String NOTIFY_ABANDON = "CONNECTION ABANDONED";
public static final String SLOW_QUERY_NOTIFICATION = "SLOW QUERY";
public static final String FAILED_QUERY_NOTIFICATION = "FAILED QUERY";
public static final String SUSPECT_ABANDONED_NOTIFICATION = "SUSPECT CONNETION ABANDONED";
public static final String POOL_EMPTY = "POOL EMPTY";
@Override
public MBeanNotificationInfo[] getNotificationInfo() {
MBeanNotificationInfo[] pres = super.getNotificationInfo();
MBeanNotificationInfo[] loc = getDefaultNotificationInfo();
MBeanNotificationInfo[] aug = new MBeanNotificationInfo[pres.length + loc.length];
if (pres.length > 0) System.arraycopy(pres, 0, aug, 0, pres.length);
if (loc.length > 0) System.arraycopy(loc, 0, aug, pres.length, loc.length);
return aug;
}
public static MBeanNotificationInfo[] getDefaultNotificationInfo() {
String[] types =
new String[] {
NOTIFY_INIT,
NOTIFY_CONNECT,
NOTIFY_ABANDON,
SLOW_QUERY_NOTIFICATION,
FAILED_QUERY_NOTIFICATION,
SUSPECT_ABANDONED_NOTIFICATION
};
String name = Notification.class.getName();
String description = "A connection pool error condition was met.";
MBeanNotificationInfo info = new MBeanNotificationInfo(types, name, description);
return new MBeanNotificationInfo[] {info};
}
/**
* Return true if the notification was sent successfully, false otherwise.
*
* @param type
* @param message
* @return true if the notification succeeded
*/
public boolean notify(final String type, String message) {
try {
Notification n =
new Notification(
type,
this,
sequence.incrementAndGet(),
System.currentTimeMillis(),
"[" + type + "] " + message);
sendNotification(n);
for (NotificationListener listener : listeners) {
listener.handleNotification(n, this);
}
return true;
} catch (Exception x) {
if (log.isDebugEnabled()) {
log.debug("Notify failed. Type=" + type + "; Message=" + message, x);
}
return false;
}
}
public void addListener(NotificationListener list) {
listeners.add(list);
}
public boolean removeListener(NotificationListener list) {
return listeners.remove(list);
}
// =================================================================
// POOL STATS
// =================================================================
@Override
public int getSize() {
return pool.getSize();
}
@Override
public int getIdle() {
return pool.getIdle();
}
@Override
public int getActive() {
return pool.getActive();
}
@Override
public int getNumIdle() {
return getIdle();
}
@Override
public int getNumActive() {
return getActive();
}
@Override
public int getWaitCount() {
return pool.getWaitCount();
}
// =================================================================
// POOL OPERATIONS
// =================================================================
@Override
public void checkIdle() {
pool.checkIdle();
}
@Override
public void checkAbandoned() {
pool.checkAbandoned();
}
@Override
public void testIdle() {
pool.testAllIdle();
}
// =================================================================
// POOL PROPERTIES
// =================================================================
// =========================================================
// PROPERTIES / CONFIGURATION
// =========================================================
@Override
public String getConnectionProperties() {
return getPoolProperties().getConnectionProperties();
}
@Override
public Properties getDbProperties() {
return PoolUtilities.cloneWithoutPassword(getPoolProperties().getDbProperties());
}
@Override
public String getDefaultCatalog() {
return getPoolProperties().getDefaultCatalog();
}
@Override
public int getDefaultTransactionIsolation() {
return getPoolProperties().getDefaultTransactionIsolation();
}
@Override
public String getDriverClassName() {
return getPoolProperties().getDriverClassName();
}
@Override
public int getInitialSize() {
return getPoolProperties().getInitialSize();
}
@Override
public String getInitSQL() {
return getPoolProperties().getInitSQL();
}
@Override
public String getJdbcInterceptors() {
return getPoolProperties().getJdbcInterceptors();
}
@Override
public int getMaxActive() {
return getPoolProperties().getMaxActive();
}
@Override
public int getMaxIdle() {
return getPoolProperties().getMaxIdle();
}
@Override
public int getMaxWait() {
return getPoolProperties().getMaxWait();
}
@Override
public int getMinEvictableIdleTimeMillis() {
return getPoolProperties().getMinEvictableIdleTimeMillis();
}
@Override
public int getMinIdle() {
return getPoolProperties().getMinIdle();
}
@Override
public long getMaxAge() {
return getPoolProperties().getMaxAge();
}
@Override
public String getName() {
return this.getPoolName();
}
@Override
public int getNumTestsPerEvictionRun() {
return getPoolProperties().getNumTestsPerEvictionRun();
}
/** @return DOES NOT RETURN THE PASSWORD, IT WOULD SHOW UP IN JMX */
@Override
public String getPassword() {
return "Password not available as DataSource/JMX operation.";
}
@Override
public int getRemoveAbandonedTimeout() {
return getPoolProperties().getRemoveAbandonedTimeout();
}
@Override
public int getTimeBetweenEvictionRunsMillis() {
return getPoolProperties().getTimeBetweenEvictionRunsMillis();
}
@Override
public String getUrl() {
return getPoolProperties().getUrl();
}
@Override
public String getUsername() {
return getPoolProperties().getUsername();
}
@Override
public long getValidationInterval() {
return getPoolProperties().getValidationInterval();
}
@Override
public String getValidationQuery() {
return getPoolProperties().getValidationQuery();
}
@Override
public int getValidationQueryTimeout() {
return getPoolProperties().getValidationQueryTimeout();
}
/** {@inheritDoc} */
@Override
public String getValidatorClassName() {
return getPoolProperties().getValidatorClassName();
}
/** {@inheritDoc} */
@Override
public Validator getValidator() {
return getPoolProperties().getValidator();
}
@Override
public boolean isAccessToUnderlyingConnectionAllowed() {
return getPoolProperties().isAccessToUnderlyingConnectionAllowed();
}
@Override
public Boolean isDefaultAutoCommit() {
return getPoolProperties().isDefaultAutoCommit();
}
@Override
public Boolean isDefaultReadOnly() {
return getPoolProperties().isDefaultReadOnly();
}
@Override
public boolean isLogAbandoned() {
return getPoolProperties().isLogAbandoned();
}
@Override
public boolean isPoolSweeperEnabled() {
return getPoolProperties().isPoolSweeperEnabled();
}
@Override
public boolean isRemoveAbandoned() {
return getPoolProperties().isRemoveAbandoned();
}
@Override
public int getAbandonWhenPercentageFull() {
return getPoolProperties().getAbandonWhenPercentageFull();
}
@Override
public boolean isTestOnBorrow() {
return getPoolProperties().isTestOnBorrow();
}
@Override
public boolean isTestOnConnect() {
return getPoolProperties().isTestOnConnect();
}
@Override
public boolean isTestOnReturn() {
return getPoolProperties().isTestOnReturn();
}
@Override
public boolean isTestWhileIdle() {
return getPoolProperties().isTestWhileIdle();
}
@Override
public Boolean getDefaultAutoCommit() {
return getPoolProperties().getDefaultAutoCommit();
}
@Override
public Boolean getDefaultReadOnly() {
return getPoolProperties().getDefaultReadOnly();
}
@Override
public InterceptorDefinition[] getJdbcInterceptorsAsArray() {
return getPoolProperties().getJdbcInterceptorsAsArray();
}
@Override
public boolean getUseLock() {
return getPoolProperties().getUseLock();
}
@Override
public boolean isFairQueue() {
return getPoolProperties().isFairQueue();
}
@Override
public boolean isJmxEnabled() {
return getPoolProperties().isJmxEnabled();
}
@Override
public boolean isUseEquals() {
return getPoolProperties().isUseEquals();
}
@Override
public void setAbandonWhenPercentageFull(int percentage) {
getPoolProperties().setAbandonWhenPercentageFull(percentage);
}
@Override
public void setAccessToUnderlyingConnectionAllowed(boolean accessToUnderlyingConnectionAllowed) {
getPoolProperties().setAccessToUnderlyingConnectionAllowed(accessToUnderlyingConnectionAllowed);
}
@Override
public void setDbProperties(Properties dbProperties) {
getPoolProperties().setDbProperties(dbProperties);
}
@Override
public void setDefaultReadOnly(Boolean defaultReadOnly) {
getPoolProperties().setDefaultReadOnly(defaultReadOnly);
}
@Override
public void setMaxAge(long maxAge) {
getPoolProperties().setMaxAge(maxAge);
}
@Override
public void setName(String name) {
getPoolProperties().setName(name);
}
@Override
public String getPoolName() {
return getPoolProperties().getName();
}
@Override
public void setConnectionProperties(String connectionProperties) {
getPoolProperties().setConnectionProperties(connectionProperties);
}
@Override
public void setDefaultAutoCommit(Boolean defaultAutoCommit) {
getPoolProperties().setDefaultAutoCommit(defaultAutoCommit);
}
@Override
public void setDefaultCatalog(String defaultCatalog) {
getPoolProperties().setDefaultCatalog(defaultCatalog);
}
@Override
public void setDefaultTransactionIsolation(int defaultTransactionIsolation) {
getPoolProperties().setDefaultTransactionIsolation(defaultTransactionIsolation);
}
@Override
public void setDriverClassName(String driverClassName) {
getPoolProperties().setDriverClassName(driverClassName);
}
@Override
public void setFairQueue(boolean fairQueue) {
// noop - this pool is already running
throw new UnsupportedOperationException();
}
@Override
public void setInitialSize(int initialSize) {
// noop - this pool is already running
throw new UnsupportedOperationException();
}
@Override
public void setInitSQL(String initSQL) {
getPoolProperties().setInitSQL(initSQL);
}
@Override
public void setJdbcInterceptors(String jdbcInterceptors) {
// noop - this pool is already running
throw new UnsupportedOperationException();
}
@Override
public void setJmxEnabled(boolean jmxEnabled) {
// noop - this pool is already running and obviously jmx enabled
throw new UnsupportedOperationException();
}
@Override
public void setLogAbandoned(boolean logAbandoned) {
getPoolProperties().setLogAbandoned(logAbandoned);
}
@Override
public void setMaxActive(int maxActive) {
getPoolProperties().setMaxActive(maxActive);
}
@Override
public void setMaxIdle(int maxIdle) {
getPoolProperties().setMaxIdle(maxIdle);
}
@Override
public void setMaxWait(int maxWait) {
getPoolProperties().setMaxWait(maxWait);
}
@Override
public void setMinEvictableIdleTimeMillis(int minEvictableIdleTimeMillis) {
boolean wasEnabled = getPoolProperties().isPoolSweeperEnabled();
getPoolProperties().setMinEvictableIdleTimeMillis(minEvictableIdleTimeMillis);
boolean shouldBeEnabled = getPoolProperties().isPoolSweeperEnabled();
// make sure pool cleaner starts/stops when it should
if (!wasEnabled && shouldBeEnabled) pool.initializePoolCleaner(getPoolProperties());
else if (wasEnabled && !shouldBeEnabled) pool.terminatePoolCleaner();
}
@Override
public void setMinIdle(int minIdle) {
getPoolProperties().setMinIdle(minIdle);
}
@Override
public void setNumTestsPerEvictionRun(int numTestsPerEvictionRun) {
getPoolProperties().setNumTestsPerEvictionRun(numTestsPerEvictionRun);
}
@Override
public void setPassword(String password) {
getPoolProperties().setPassword(password);
}
@Override
public void setRemoveAbandoned(boolean removeAbandoned) {
boolean wasEnabled = getPoolProperties().isPoolSweeperEnabled();
getPoolProperties().setRemoveAbandoned(removeAbandoned);
boolean shouldBeEnabled = getPoolProperties().isPoolSweeperEnabled();
// make sure pool cleaner starts/stops when it should
if (!wasEnabled && shouldBeEnabled) pool.initializePoolCleaner(getPoolProperties());
else if (wasEnabled && !shouldBeEnabled) pool.terminatePoolCleaner();
}
@Override
public void setRemoveAbandonedTimeout(int removeAbandonedTimeout) {
boolean wasEnabled = getPoolProperties().isPoolSweeperEnabled();
getPoolProperties().setRemoveAbandonedTimeout(removeAbandonedTimeout);
boolean shouldBeEnabled = getPoolProperties().isPoolSweeperEnabled();
// make sure pool cleaner starts/stops when it should
if (!wasEnabled && shouldBeEnabled) pool.initializePoolCleaner(getPoolProperties());
else if (wasEnabled && !shouldBeEnabled) pool.terminatePoolCleaner();
}
@Override
public void setTestOnBorrow(boolean testOnBorrow) {
getPoolProperties().setTestOnBorrow(testOnBorrow);
}
@Override
public void setTestOnConnect(boolean testOnConnect) {
getPoolProperties().setTestOnConnect(testOnConnect);
}
@Override
public void setTestOnReturn(boolean testOnReturn) {
getPoolProperties().setTestOnReturn(testOnReturn);
}
@Override
public void setTestWhileIdle(boolean testWhileIdle) {
boolean wasEnabled = getPoolProperties().isPoolSweeperEnabled();
getPoolProperties().setTestWhileIdle(testWhileIdle);
boolean shouldBeEnabled = getPoolProperties().isPoolSweeperEnabled();
// make sure pool cleaner starts/stops when it should
if (!wasEnabled && shouldBeEnabled) pool.initializePoolCleaner(getPoolProperties());
else if (wasEnabled && !shouldBeEnabled) pool.terminatePoolCleaner();
}
@Override
public void setTimeBetweenEvictionRunsMillis(int timeBetweenEvictionRunsMillis) {
boolean wasEnabled = getPoolProperties().isPoolSweeperEnabled();
getPoolProperties().setTimeBetweenEvictionRunsMillis(timeBetweenEvictionRunsMillis);
boolean shouldBeEnabled = getPoolProperties().isPoolSweeperEnabled();
// make sure pool cleaner starts/stops when it should
if (!wasEnabled && shouldBeEnabled) {
pool.initializePoolCleaner(getPoolProperties());
} else if (wasEnabled) {
pool.terminatePoolCleaner();
if (shouldBeEnabled) {
pool.initializePoolCleaner(getPoolProperties());
}
}
}
@Override
public void setUrl(String url) {
getPoolProperties().setUrl(url);
}
@Override
public void setUseEquals(boolean useEquals) {
getPoolProperties().setUseEquals(useEquals);
}
@Override
public void setUseLock(boolean useLock) {
getPoolProperties().setUseLock(useLock);
}
@Override
public void setUsername(String username) {
getPoolProperties().setUsername(username);
}
@Override
public void setValidationInterval(long validationInterval) {
getPoolProperties().setValidationInterval(validationInterval);
}
@Override
public void setValidationQuery(String validationQuery) {
getPoolProperties().setValidationQuery(validationQuery);
}
@Override
public void setValidationQueryTimeout(int validationQueryTimeout) {
getPoolProperties().setValidationQueryTimeout(validationQueryTimeout);
}
/** {@inheritDoc} */
@Override
public void setValidatorClassName(String className) {
getPoolProperties().setValidatorClassName(className);
}
/** {@inheritDoc} */
@Override
public int getSuspectTimeout() {
return getPoolProperties().getSuspectTimeout();
}
/** {@inheritDoc} */
@Override
public void setSuspectTimeout(int seconds) {
getPoolProperties().setSuspectTimeout(seconds);
}
/** {@inheritDoc} */
@Override
public void setDataSource(Object ds) {
getPoolProperties().setDataSource(ds);
}
/** {@inheritDoc} */
@Override
public Object getDataSource() {
return getPoolProperties().getDataSource();
}
/** {@inheritDoc} */
@Override
public void setDataSourceJNDI(String jndiDS) {
getPoolProperties().setDataSourceJNDI(jndiDS);
}
/** {@inheritDoc} */
@Override
public String getDataSourceJNDI() {
return getPoolProperties().getDataSourceJNDI();
}
/** {@inheritDoc} */
@Override
public boolean isAlternateUsernameAllowed() {
return getPoolProperties().isAlternateUsernameAllowed();
}
/** {@inheritDoc} */
@Override
public void setAlternateUsernameAllowed(boolean alternateUsernameAllowed) {
getPoolProperties().setAlternateUsernameAllowed(alternateUsernameAllowed);
}
/** {@inheritDoc} */
@Override
public void setValidator(Validator validator) {
getPoolProperties().setValidator(validator);
}
/** {@inheritDoc} */
@Override
public void setCommitOnReturn(boolean commitOnReturn) {
getPoolProperties().setCommitOnReturn(commitOnReturn);
}
/** {@inheritDoc} */
@Override
public boolean getCommitOnReturn() {
return getPoolProperties().getCommitOnReturn();
}
/** {@inheritDoc} */
@Override
public void setRollbackOnReturn(boolean rollbackOnReturn) {
getPoolProperties().setRollbackOnReturn(rollbackOnReturn);
}
/** {@inheritDoc} */
@Override
public boolean getRollbackOnReturn() {
return getPoolProperties().getRollbackOnReturn();
}
/** {@inheritDoc} */
@Override
public void setUseDisposableConnectionFacade(boolean useDisposableConnectionFacade) {
getPoolProperties().setUseDisposableConnectionFacade(useDisposableConnectionFacade);
}
/** {@inheritDoc} */
@Override
public boolean getUseDisposableConnectionFacade() {
return getPoolProperties().getUseDisposableConnectionFacade();
}
/** {@inheritDoc} */
@Override
public void setLogValidationErrors(boolean logValidationErrors) {
getPoolProperties().setLogValidationErrors(logValidationErrors);
}
/** {@inheritDoc} */
@Override
public boolean getLogValidationErrors() {
return getPoolProperties().getLogValidationErrors();
}
/** {@inheritDoc} */
@Override
public boolean getPropagateInterruptState() {
return getPoolProperties().getPropagateInterruptState();
}
/** {@inheritDoc} */
@Override
public void setPropagateInterruptState(boolean propagateInterruptState) {
getPoolProperties().setPropagateInterruptState(propagateInterruptState);
}
/** {@inheritDoc} */
@Override
public boolean isIgnoreExceptionOnPreLoad() {
return getPoolProperties().isIgnoreExceptionOnPreLoad();
}
/** {@inheritDoc} */
@Override
public void setIgnoreExceptionOnPreLoad(boolean ignoreExceptionOnPreLoad) {
// noop - this pool is already running
throw new UnsupportedOperationException();
}
/** {@inheritDoc} */
@Override
public void purge() {
pool.purge();
}
/** {@inheritDoc} */
@Override
public void purgeOnReturn() {
pool.purgeOnReturn();
}
}
/*
* Listener to provider informations to mod_heartbeat.c
* *msg_format = "v=%u&ready=%u&busy=%u"; (message to send).
* send the muticast message using the format...
* what about the bind(IP. port) only IP makes sense (for the moment).
* BTW:v = version :-)
*/
public class HeartbeatListener implements LifecycleListener, ContainerListener {
private static final Log log = LogFactory.getLog(HeartbeatListener.class);
/* To allow to select the connector */
private int port = 0;
private String host = null;
public void setHost(String host) {
this.host = host;
}
public void setPort(int port) {
this.port = port;
}
/* for multicasting stuff */
private String ip = "224.0.1.105"; /* Multicast IP */
private int multiport = 23364; /* Multicast Port */
private int ttl = 16;
public void setGroup(String ip) {
this.ip = ip;
}
public String getGroup() {
return ip;
}
public void setMultiport(int multiport) {
this.multiport = multiport;
}
public int getMultiport() {
return multiport;
}
public void setTtl(int ttl) {
this.ttl = ttl;
}
public int getTtl() {
return ttl;
}
/** Proxy list, format "address:port,address:port". */
private String proxyList = null;
public String getProxyList() {
return proxyList;
}
public void setProxyList(String proxyList) {
this.proxyList = proxyList;
}
/** URL prefix. */
private String proxyURL = "/HeartbeatListener";
public String getProxyURL() {
return proxyURL;
}
public void setProxyURL(String proxyURL) {
this.proxyURL = proxyURL;
}
private CollectedInfo coll = null;
private Sender sender = null;
@Override
public void containerEvent(ContainerEvent event) {}
@Override
public void lifecycleEvent(LifecycleEvent event) {
if (Lifecycle.PERIODIC_EVENT.equals(event.getType())) {
if (sender == null) {
if (proxyList == null) sender = new MultiCastSender();
else sender = new TcpSender();
}
/* Read busy and ready */
if (coll == null) {
try {
coll = new CollectedInfo(host, port);
this.port = coll.getPort();
this.host = coll.getHost();
} catch (Exception ex) {
log.error("Unable to initialize info collection: " + ex);
coll = null;
return;
}
}
/* Start or restart sender */
try {
sender.init(this);
} catch (Exception ex) {
log.error("Unable to initialize Sender: " + ex);
sender = null;
return;
}
/* refresh the connector information and send it */
try {
coll.refresh();
} catch (Exception ex) {
log.error("Unable to collect load information: " + ex);
coll = null;
return;
}
String output = "v=1&ready=" + coll.getReady() + "&busy=" + coll.getBusy() + "&port=" + port;
try {
sender.send(output);
} catch (Exception ex) {
log.error("Unable to send colllected load information: " + ex);
}
}
}
public String getIp() {
return ip;
}
public void setIp(String ip) {
this.ip = ip;
}
public CollectedInfo getColl() {
return coll;
}
public void setColl(CollectedInfo coll) {
this.coll = coll;
}
public Sender getSender() {
return sender;
}
public void setSender(Sender sender) {
this.sender = sender;
}
public static Log getLog() {
return log;
}
public int getPort() {
return port;
}
public String getHost() {
return host;
}
}
/**
* An implementation of the W3c Extended Log File Format. See http://www.w3.org/TR/WD-logfile.html
* for more information about the format.
*
* <p>The following fields are supported:
*
* <ul>
* <li><code>c-dns</code>: Client hostname
* <li><code>c-ip</code>: Client ip address
* <li><code>bytes</code>: bytes served
* <li><code>cs-method</code>: request method
* <li><code>cs-uri</code>: The full uri requested
* <li><code>cs-uri-query</code>: The query string
* <li><code>cs-uri-stem</code>: The uri without query string
* <li><code>date</code>: The date in yyyy-mm-dd format for GMT
* <li><code>s-dns</code>: The server dns entry
* <li><code>s-ip</code>: The server ip address
* <li><code>cs(XXX)</code>: The value of header XXX from client to server
* <li><code>sc(XXX)</code>: The value of header XXX from server to client
* <li><code>sc-status</code>: The status code
* <li><code>time</code>: Time the request was served
* <li><code>time-taken</code>: Time (in seconds) taken to serve the request
* <li><code>x-A(XXX)</code>: Pull XXX attribute from the servlet context
* <li><code>x-C(XXX)</code>: Pull the first cookie of the name XXX
* <li><code>x-O(XXX)</code>: Pull the all response header values XXX
* <li><code>x-R(XXX)</code>: Pull XXX attribute from the servlet request
* <li><code>x-S(XXX)</code>: Pull XXX attribute from the session
* <li><code>x-P(...)</code>: Call request.getParameter(...) and URLencode it. Helpful to capture
* certain POST parameters.
* <li>For any of the x-H(...) the following method will be called from the
* HttpServletRequestObject
* <li><code>x-H(authType)</code>: getAuthType
* <li><code>x-H(characterEncoding)</code>: getCharacterEncoding
* <li><code>x-H(contentLength)</code>: getContentLength
* <li><code>x-H(locale)</code>: getLocale
* <li><code>x-H(protocol)</code>: getProtocol
* <li><code>x-H(remoteUser)</code>: getRemoteUser
* <li><code>x-H(requestedSessionId)</code>: getGequestedSessionId
* <li><code>x-H(requestedSessionIdFromCookie)</code>: isRequestedSessionIdFromCookie
* <li><code>x-H(requestedSessionIdValid)</code>: isRequestedSessionIdValid
* <li><code>x-H(scheme)</code>: getScheme
* <li><code>x-H(secure)</code>: isSecure
* </ul>
*
* <p>Log rotation can be on or off. This is dictated by the rotatable property.
*
* <p>For UvNIX 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>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 start writing a new log
* file.
*
* <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>For extended attributes coming from a getAttribute() call, it is you responsibility to ensure
* there are no newline or control characters.
*
* @author Tim Funk
* @author Peter Rossbach
* @version $Id: ExtendedAccessLogValve.java 1059388 2011-01-15 18:50:45Z markt $
*/
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";
// ------------------------------------------------------------- Properties
/** Return descriptive information about this implementation. */
@Override
public String getInfo() {
return (extendedAccessLogInfo);
}
// --------------------------------------------------------- Public Methods
// -------------------------------------------------------- Private Methods
/**
* Wrap the incoming value into quotes and escape any inner quotes with double quotes.
*
* @param value - The value to wrap quotes around
* @return '-' if empty of 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.
*/
private 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();
if ("".equals(svalue)) return "-";
} catch (Throwable e) {
ExceptionUtils.handleThrowable(e);
/* Log error */
return "-";
}
/* Wrap all quotes 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 + 2;
}
}
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(
StringBuilder 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(
StringBuilder 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 class RequestHeaderElement implements AccessLogElement {
private String header;
public RequestHeaderElement(String header) {
this.header = header;
}
@Override
public void addElement(
StringBuilder buf, Date date, Request request, Response response, long time) {
buf.append(wrap(request.getHeader(header)));
}
}
protected class ResponseHeaderElement implements AccessLogElement {
private String header;
public ResponseHeaderElement(String header) {
this.header = header;
}
@Override
public void addElement(
StringBuilder buf, Date date, Request request, Response response, long time) {
buf.append(wrap(response.getHeader(header)));
}
}
protected class ServletContextElement implements AccessLogElement {
private String attribute;
public ServletContextElement(String attribute) {
this.attribute = attribute;
}
@Override
public void addElement(
StringBuilder buf, Date date, Request request, Response response, long time) {
buf.append(wrap(request.getContext().getServletContext().getAttribute(attribute)));
}
}
protected class CookieElement implements AccessLogElement {
private String name;
public CookieElement(String name) {
this.name = name;
}
@Override
public void addElement(
StringBuilder 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 class ResponseAllHeaderElement implements AccessLogElement {
private String header;
public ResponseAllHeaderElement(String header) {
this.header = header;
}
@Override
public void addElement(
StringBuilder 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) {
buffer.append(",");
}
buffer.append(iter.next());
}
buf.append(wrap(buffer.toString()));
}
return;
}
buf.append("-");
}
}
protected class RequestAttributeElement implements AccessLogElement {
private String attribute;
public RequestAttributeElement(String attribute) {
this.attribute = attribute;
}
@Override
public void addElement(
StringBuilder buf, Date date, Request request, Response response, long time) {
buf.append(wrap(request.getAttribute(attribute)));
}
}
protected class SessionAttributeElement implements AccessLogElement {
private String attribute;
public SessionAttributeElement(String attribute) {
this.attribute = attribute;
}
@Override
public void addElement(
StringBuilder 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 class RequestParameterElement implements AccessLogElement {
private 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;
}
return URLEncoder.encode(value);
}
@Override
public void addElement(
StringBuilder buf, Date date, Request request, Response response, long time) {
buf.append(wrap(urlEncode(request.getParameter(parameter))));
}
}
protected static class PatternTokenizer {
private StringReader sr = null;
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<AccessLogElement>();
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(
StringBuilder 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(
StringBuilder 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(
StringBuilder 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 (!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(
StringBuilder 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(
StringBuilder 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(
StringBuilder 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(
StringBuilder 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(
StringBuilder 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(
StringBuilder buf, Date date, Request request, Response response, long time) {
buf.append(wrap("" + request.getContentLength()));
}
};
} else if ("characterEncoding".equals(parameter)) {
return new AccessLogElement() {
@Override
public void addElement(
StringBuilder 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(
StringBuilder 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(
StringBuilder 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(
StringBuilder 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(
StringBuilder 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 Date currentTimestamp = new Date(0);
private SimpleDateFormat currentTimestampFormat;
private String currentTimestampString;
ElementTimestampStruct(String format) {
currentTimestampFormat = new SimpleDateFormat(format);
currentTimestampFormat.setTimeZone(TimeZone.getTimeZone("GMT"));
}
}
}
/**
* Generates automatic IIS isapi_redirect configurations based on the Tomcat server.xml settings and
* the war contexts initialized during startup.
*
* <p>This config interceptor is enabled by inserting an IISConfig element in the
* <b><ContextManager></b> tag body inside the server.xml file like so:
*
* <pre>
* < ContextManager ... >
* ...
* <<b>IISConfig</b> <i>options</i> />
* ...
* < /ContextManager >
* </pre>
*
* where <i>options</i> can include any of the following attributes:
*
* <ul>
* <li><b>configHome</b> - default parent directory for the following paths. If not set, this
* defaults to TOMCAT_HOME. Ignored whenever any of the following paths is absolute.
* <li><b>regConfig</b> - path to use for writing IIS isapi_redirect registry file. If not set,
* defaults to "conf/auto/iis_redirect.reg".
* <li><b>workersConfig</b> - path to workers.properties file used by isapi_redirect. If not set,
* defaults to "conf/jk/workers.properties".
* <li><b>uriConfig</b> - path to use for writing IIS isapi_redirect uriworkermap file. If not
* set, defaults to "conf/auto/uriworkermap.properties".
* <li><b>jkLog</b> - path to log file to be used by isapi_redirect.
* <li><b>jkDebug</b> - Loglevel setting. May be debug, info, error, or emerg. If not set,
* defaults to emerg.
* <li><b>jkWorker</b> The desired worker. Must be set to one of the workers defined in the
* workers.properties file. "ajp12", "ajp13" or "inprocess" are the workers found in the
* default workers.properties file. If not specified, defaults to "ajp13" if an
* Ajp13Interceptor is in use, otherwise it defaults to "ajp12".
* <li><b>forwardAll</b> - If true, forward all requests to Tomcat. This helps insure that all the
* behavior configured in the web.xml file functions correctly. If false, let IIS serve static
* resources assuming it has been configured to do so. The default is true. Warning: When
* false, some configuration in the web.xml may not be duplicated in IIS. Review the
* uriworkermap file to see what configuration is actually being set in IIS.
* <li><b>noRoot</b> - If true, the root context is not mapped to Tomcat. If false and forwardAll
* is true, all requests to the root context are mapped to Tomcat. If false and forwardAll is
* false, only JSP and servlets requests to the root context are mapped to Tomcat. When false,
* to correctly serve Tomcat's root context you must also modify the Home Directory setting in
* IIS to point to Tomcat's root context directory. Otherwise some content, such as the root
* index.html, will be served by IIS before isapi_redirect gets a chance to claim the request
* and pass it to Tomcat. The default is true.
* </ul>
*
* <p>
*
* @author Costin Manolache
* @author Larry Isaacs
* @author Gal Shachor
* @author Bill Barker
*/
public class IISConfig extends BaseJkConfig {
private static org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(IISConfig.class);
public static final String WORKERS_CONFIG = "/conf/jk/workers.properties";
public static final String URI_WORKERS_MAP_CONFIG = "/conf/auto/uriworkermap.properties";
public static final String ISAPI_LOG_LOCATION = "/logs/iis_redirect.log";
public static final String ISAPI_REG_FILE = "/conf/auto/iis_redirect.reg";
private File regConfig = null;
private File uriConfig = null;
public IISConfig() {}
// -------------------- Properties --------------------
/**
* set the path to the output file for the auto-generated isapi_redirect registry file. If this
* path is relative then getRegConfig() will resolve it absolutely against the getConfigHome()
* path.
*
* <p>
*
* @param path String path to a file
*/
public void setRegConfig(String path) {
regConfig = (path == null) ? null : new File(path);
}
/**
* set a path to the uriworkermap.properties file.
*
* @param path String path to uriworkermap.properties file
*/
public void setUriConfig(String path) {
uriConfig = (path == null ? null : new File(path));
}
// -------------------- Initialize/guess defaults --------------------
/** Initialize defaults for properties that are not set explicitely */
protected void initProperties() {
super.initProperties();
regConfig = getConfigFile(regConfig, configHome, ISAPI_REG_FILE);
workersConfig = getConfigFile(workersConfig, configHome, WORKERS_CONFIG);
uriConfig = getConfigFile(uriConfig, configHome, URI_WORKERS_MAP_CONFIG);
jkLog = getConfigFile(jkLog, configHome, ISAPI_LOG_LOCATION);
}
// -------------------- Generate config --------------------
protected PrintWriter getWriter() throws IOException {
String abUriConfig = uriConfig.getAbsolutePath();
return new PrintWriter(new FileWriter(abUriConfig, append));
}
protected boolean generateJkHead(PrintWriter mod_jk) {
try {
PrintWriter regfile = new PrintWriter(new FileWriter(regConfig));
log.info("Generating IIS registry file = " + regConfig);
generateRegistrySettings(regfile);
regfile.close();
} catch (IOException iex) {
log.warn("Unable to generate registry file " + regConfig);
return false;
}
log.info("Generating IIS URI worker map file = " + uriConfig);
generateUriWorkerHeader(mod_jk);
return true;
}
// -------------------- Config sections --------------------
/** Writes the registry settings required by the IIS connector */
private void generateRegistrySettings(PrintWriter regfile) {
regfile.println("REGEDIT4");
regfile.println();
regfile.println(
"[HKEY_LOCAL_MACHINE\\SOFTWARE\\Apache Software Foundation\\Jakarta Isapi Redirector\\1.0]");
regfile.println("\"extension_uri\"=\"/jakarta/isapi_redirect.dll\"");
regfile.println("\"log_file\"=\"" + dubleSlash(jkLog.toString()) + "\"");
regfile.println("\"log_level\"=\"" + jkDebug + "\"");
regfile.println("\"worker_file\"=\"" + dubleSlash(workersConfig.toString()) + "\"");
regfile.println("\"worker_mount_file\"=\"" + dubleSlash(uriConfig.toString()) + "\"");
}
/** Writes the header information to the uriworkermap file */
private void generateUriWorkerHeader(PrintWriter uri_worker) {
uri_worker.println("###################################################################");
uri_worker.println("# Auto generated configuration. Dated: " + new Date());
uri_worker.println("###################################################################");
uri_worker.println();
uri_worker.println("#");
uri_worker.println("# Default worker to be used through our mappings");
uri_worker.println("#");
uri_worker.println("default.worker=" + jkWorker);
uri_worker.println();
}
/** Forward all requests for a context to tomcat. The default. */
protected void generateStupidMappings(Context context, PrintWriter uri_worker) {
String ctxPath = context.getPath();
String nPath = ("".equals(ctxPath)) ? "/" : ctxPath;
if (noRoot && "".equals(ctxPath)) {
log.debug("Ignoring root context in forward-all mode ");
return;
}
// map all requests for this context to Tomcat
uri_worker.println(nPath + "=$(default.worker)");
if ("".equals(ctxPath)) {
uri_worker.println(nPath + "*=$(default.worker)");
uri_worker.println(
"# Note: To correctly serve the Tomcat's root context, IIS's Home Directory must");
uri_worker.println("# must be set to: \"" + getAbsoluteDocBase(context) + "\"");
} else uri_worker.println(nPath + "/*=$(default.worker)");
}
protected void generateContextMappings(Context context, PrintWriter uri_worker) {
String ctxPath = context.getPath();
String nPath = ("".equals(ctxPath)) ? "/" : ctxPath;
if (noRoot && "".equals(ctxPath)) {
log.debug("Ignoring root context in forward-all mode ");
return;
}
// Static files will be served by IIS
uri_worker.println();
uri_worker.println("#########################################################");
uri_worker.println("# Auto configuration for the " + nPath + " context.");
uri_worker.println("#########################################################");
uri_worker.println();
// Static mappings are not set in uriworkermap, but must be set with IIS admin.
// InvokerInterceptor - it doesn't have a container,
// but it's implemented using a special module.
// XXX we need to better collect all mappings
if (context.getLoginConfig() != null) {
String loginPage = context.getLoginConfig().getLoginPage();
if (loginPage != null) {
int lpos = loginPage.lastIndexOf("/");
String jscurl = loginPage.substring(0, lpos + 1) + "j_security_check";
addMapping(ctxPath, jscurl, uri_worker);
}
}
String[] servletMaps = context.findServletMappings();
for (int ii = 0; ii < servletMaps.length; ii++) {
addMapping(ctxPath, servletMaps[ii], uri_worker);
}
}
/** Add an IIS extension mapping. */
protected boolean addMapping(String ctxPath, String ext, PrintWriter uri_worker) {
if (log.isDebugEnabled()) log.debug("Adding extension map for " + ctxPath + "/*." + ext);
if (!ext.startsWith("/")) ext = "/" + ext;
if (ext.length() > 1) uri_worker.println(ctxPath + "/*." + ext + "=$(default.worker)");
return true;
}
/** Add a fulling specified IIS mapping. */
protected boolean addMapping(String fullPath, PrintWriter uri_worker) {
if (log.isDebugEnabled()) log.debug("Adding map for " + fullPath);
uri_worker.println(fullPath + "=$(default.worker)");
return true;
}
// -------------------- Utils --------------------
private String dubleSlash(String in) {
StringBuffer sb = new StringBuffer();
for (int i = 0; i < in.length(); i++) {
char ch = in.charAt(i);
if ('\\' == ch) {
sb.append("\\\\");
} else {
sb.append(ch);
}
}
return sb.toString();
}
}
/** @deprecated Unused: Will be removed in Tomcat 8.0.x */
@Deprecated
public class MbeansDescriptorsDOMSource extends ModelerSource {
private static final Log log = LogFactory.getLog(MbeansDescriptorsDOMSource.class);
Registry registry;
String location;
String type;
Object source;
List<ObjectName> mbeans = new ArrayList<ObjectName>();
public void setRegistry(Registry reg) {
this.registry = reg;
}
public void setLocation(String loc) {
this.location = loc;
}
/**
* Used if a single component is loaded
*
* @param type
*/
public void setType(String type) {
this.type = type;
}
public void setSource(Object source) {
this.source = source;
}
@Override
public List<ObjectName> loadDescriptors(Registry registry, String type, Object source)
throws Exception {
setRegistry(registry);
setType(type);
setSource(source);
execute();
return mbeans;
}
public void execute() throws Exception {
if (registry == null) registry = Registry.getRegistry(null, null);
try {
InputStream stream = (InputStream) source;
long t1 = System.currentTimeMillis();
Document doc = DomUtil.readXml(stream);
// Ignore for now the name of the root element
Node descriptorsN = doc.getDocumentElement();
// Node descriptorsN=DomUtil.getChild(doc, "mbeans-descriptors");
if (descriptorsN == null) {
log.error("No descriptors found");
return;
}
Node firstMbeanN = null;
if ("mbean".equals(descriptorsN.getNodeName())) {
firstMbeanN = descriptorsN;
} else {
firstMbeanN = DomUtil.getChild(descriptorsN, "mbean");
}
if (firstMbeanN == null) {
log.error(" No mbean tags ");
return;
}
// Process each <mbean> element
for (Node mbeanN = firstMbeanN; mbeanN != null; mbeanN = DomUtil.getNext(mbeanN)) {
// Create a new managed bean info
ManagedBean managed = new ManagedBean();
DomUtil.setAttributes(managed, mbeanN);
Node firstN;
// Process descriptor subnode
/*Node mbeanDescriptorN =
DomUtil.getChild(mbeanN, "descriptor");
if (mbeanDescriptorN != null) {
Node firstFieldN =
DomUtil.getChild(mbeanDescriptorN, "field");
for (Node fieldN = firstFieldN; fieldN != null;
fieldN = DomUtil.getNext(fieldN)) {
FieldInfo fi = new FieldInfo();
DomUtil.setAttributes(fi, fieldN);
managed.addField(fi);
}
}*/
// process attribute nodes
firstN = DomUtil.getChild(mbeanN, "attribute");
for (Node descN = firstN; descN != null; descN = DomUtil.getNext(descN)) {
// Create new attribute info
AttributeInfo ai = new AttributeInfo();
DomUtil.setAttributes(ai, descN);
// Process descriptor subnode
/*Node descriptorN =
DomUtil.getChild(descN, "descriptor");
if (descriptorN != null) {
Node firstFieldN =
DomUtil.getChild(descriptorN, "field");
for (Node fieldN = firstFieldN; fieldN != null;
fieldN = DomUtil.getNext(fieldN)) {
FieldInfo fi = new FieldInfo();
DomUtil.setAttributes(fi, fieldN);
ai.addField(fi);
}
}
*/
// Add this info to our managed bean info
managed.addAttribute(ai);
if (log.isTraceEnabled()) {
log.trace("Create attribute " + ai);
}
}
// process constructor nodes
/*
firstN=DomUtil.getChild( mbeanN, "constructor");
for (Node descN = firstN; descN != null;
descN = DomUtil.getNext( descN )) {
// Create new constructor info
ConstructorInfo ci=new ConstructorInfo();
DomUtil.setAttributes(ci, descN);
// Process descriptor subnode
Node firstDescriptorN =
DomUtil.getChild(descN, "descriptor");
if (firstDescriptorN != null) {
Node firstFieldN =
DomUtil.getChild(firstDescriptorN, "field");
for (Node fieldN = firstFieldN; fieldN != null;
fieldN = DomUtil.getNext(fieldN)) {
FieldInfo fi = new FieldInfo();
DomUtil.setAttributes(fi, fieldN);
ci.addField(fi);
}
}
// Process parameter subnodes
Node firstParamN=DomUtil.getChild( descN, "parameter");
for (Node paramN = firstParamN; paramN != null;
paramN = DomUtil.getNext(paramN))
{
ParameterInfo pi=new ParameterInfo();
DomUtil.setAttributes(pi, paramN);
ci.addParameter( pi );
}
// Add this info to our managed bean info
managed.addConstructor( ci );
if (log.isTraceEnabled()) {
log.trace("Create constructor " + ci);
}
}*/
// process notification nodes
firstN = DomUtil.getChild(mbeanN, "notification");
for (Node descN = firstN; descN != null; descN = DomUtil.getNext(descN)) {
// Create new notification info
NotificationInfo ni = new NotificationInfo();
DomUtil.setAttributes(ni, descN);
// Process descriptor subnode
/*Node firstDescriptorN =
DomUtil.getChild(descN, "descriptor");
if (firstDescriptorN != null) {
Node firstFieldN =
DomUtil.getChild(firstDescriptorN, "field");
for (Node fieldN = firstFieldN; fieldN != null;
fieldN = DomUtil.getNext(fieldN)) {
FieldInfo fi = new FieldInfo();
DomUtil.setAttributes(fi, fieldN);
ni.addField(fi);
}
}*/
// Process notification-type subnodes
Node firstParamN = DomUtil.getChild(descN, "notification-type");
for (Node paramN = firstParamN; paramN != null; paramN = DomUtil.getNext(paramN)) {
ni.addNotifType(DomUtil.getContent(paramN));
}
// Add this info to our managed bean info
managed.addNotification(ni);
if (log.isTraceEnabled()) {
log.trace("Created notification " + ni);
}
}
// process operation nodes
firstN = DomUtil.getChild(mbeanN, "operation");
for (Node descN = firstN; descN != null; descN = DomUtil.getNext(descN)) {
// Create new operation info
OperationInfo oi = new OperationInfo();
DomUtil.setAttributes(oi, descN);
// Process descriptor subnode
/*Node firstDescriptorN =
DomUtil.getChild(descN, "descriptor");
if (firstDescriptorN != null) {
Node firstFieldN =
DomUtil.getChild(firstDescriptorN, "field");
for (Node fieldN = firstFieldN; fieldN != null;
fieldN = DomUtil.getNext(fieldN)) {
FieldInfo fi = new FieldInfo();
DomUtil.setAttributes(fi, fieldN);
oi.addField(fi);
}
}*/
// Process parameter subnodes
Node firstParamN = DomUtil.getChild(descN, "parameter");
for (Node paramN = firstParamN; paramN != null; paramN = DomUtil.getNext(paramN)) {
ParameterInfo pi = new ParameterInfo();
DomUtil.setAttributes(pi, paramN);
if (log.isTraceEnabled()) log.trace("Add param " + pi.getName());
oi.addParameter(pi);
}
// Add this info to our managed bean info
managed.addOperation(oi);
if (log.isTraceEnabled()) {
log.trace("Create operation " + oi);
}
}
// Add the completed managed bean info to the registry
registry.addManagedBean(managed);
}
long t2 = System.currentTimeMillis();
log.debug("Reading descriptors ( dom ) " + (t2 - t1));
} catch (Exception ex) {
log.error("Error reading descriptors ", ex);
}
}
}
/**
* Startup/Shutdown shell program for Catalina. The following command line options are recognized:
*
* <ul>
* <li><b>-config {pathname}</b> - Set the pathname of the configuration file to be processed. If
* a relative path is specified, it will be interpreted as relative to the directory pathname
* specified by the "catalina.base" system property. [conf/server.xml]
* <li><b>-help</b> - Display usage information.
* <li><b>-nonaming</b> - Disable naming support.
* <li><b>configtest</b> - Try to test the config
* <li><b>start</b> - Start an instance of Catalina.
* <li><b>stop</b> - Stop the currently running instance of Catalina. </u>
* <p>Should do the same thing as Embedded, but using a server.xml file.
*
* @author Craig R. McClanahan
* @author Remy Maucherat
*/
public class Catalina {
/** The string manager for this package. */
protected static final StringManager sm = StringManager.getManager(Constants.Package);
// ----------------------------------------------------- Instance Variables
/** Use await. */
protected boolean await = false;
/** Pathname to the server configuration file. */
protected String configFile = "conf/server.xml";
// XXX Should be moved to embedded
/** The shared extensions class loader for this server. */
protected ClassLoader parentClassLoader = Catalina.class.getClassLoader();
/** The server component we are starting or stopping. */
protected Server server = null;
/**
* Are we starting a new server?
*
* @deprecated Unused - will be removed in Tomcat 8.0.x
*/
@Deprecated protected boolean starting = false;
/**
* Are we stopping an existing server?
*
* @deprecated Unused - will be removed in Tomcat 8.0.x
*/
@Deprecated protected boolean stopping = false;
/** Use shutdown hook flag. */
protected boolean useShutdownHook = true;
/** Shutdown hook. */
protected Thread shutdownHook = null;
/** Is naming enabled ? */
protected boolean useNaming = true;
// ----------------------------------------------------------- Constructors
public Catalina() {
setSecurityProtection();
}
// ------------------------------------------------------------- Properties
/** @deprecated Use {@link #setConfigFile(String)} */
@Deprecated
public void setConfig(String file) {
configFile = file;
}
public void setConfigFile(String file) {
configFile = file;
}
public String getConfigFile() {
return configFile;
}
public void setUseShutdownHook(boolean useShutdownHook) {
this.useShutdownHook = useShutdownHook;
}
public boolean getUseShutdownHook() {
return useShutdownHook;
}
/**
* Set the shared extensions class loader.
*
* @param parentClassLoader The shared extensions class loader.
*/
public void setParentClassLoader(ClassLoader parentClassLoader) {
this.parentClassLoader = parentClassLoader;
}
public ClassLoader getParentClassLoader() {
if (parentClassLoader != null) {
return (parentClassLoader);
}
return ClassLoader.getSystemClassLoader();
}
public void setServer(Server server) {
this.server = server;
}
public Server getServer() {
return server;
}
/** Return true if naming is enabled. */
public boolean isUseNaming() {
return (this.useNaming);
}
/**
* Enables or disables naming support.
*
* @param useNaming The new use naming value
*/
public void setUseNaming(boolean useNaming) {
this.useNaming = useNaming;
}
public void setAwait(boolean b) {
await = b;
}
public boolean isAwait() {
return await;
}
// ------------------------------------------------------ Protected Methods
/**
* Process the specified command line arguments, and return <code>true</code> if we should
* continue processing; otherwise return <code>false</code>.
*
* @param args Command line arguments to process
*/
protected boolean arguments(String args[]) {
boolean isConfig = false;
if (args.length < 1) {
usage();
return (false);
}
for (int i = 0; i < args.length; i++) {
if (isConfig) {
configFile = args[i];
isConfig = false;
} else if (args[i].equals("-config")) {
isConfig = true;
} else if (args[i].equals("-nonaming")) {
setUseNaming(false);
} else if (args[i].equals("-help")) {
usage();
return (false);
} else if (args[i].equals("start")) {
starting = true;
stopping = false;
} else if (args[i].equals("configtest")) {
starting = true;
stopping = false;
} else if (args[i].equals("stop")) {
starting = false;
stopping = true;
} else {
usage();
return (false);
}
}
return (true);
}
/** Return a File object representing our configuration file. */
protected File configFile() {
File file = new File(configFile);
if (!file.isAbsolute()) {
file = new File(System.getProperty(Globals.CATALINA_BASE_PROP), configFile);
}
return (file);
}
/** Create and configure the Digester we will be using for startup. */
protected Digester createStartDigester() {
long t1 = System.currentTimeMillis();
// Initialize the digester
Digester digester = new Digester();
digester.setValidating(false);
digester.setRulesValidation(true);
HashMap<Class<?>, List<String>> fakeAttributes = new HashMap<Class<?>, List<String>>();
ArrayList<String> attrs = new ArrayList<String>();
attrs.add("className");
fakeAttributes.put(Object.class, attrs);
digester.setFakeAttributes(fakeAttributes);
digester.setUseContextClassLoader(true);
// Configure the actions we will be using
digester.addObjectCreate("Server", "org.apache.catalina.core.StandardServer", "className");
digester.addSetProperties("Server");
digester.addSetNext("Server", "setServer", "org.apache.catalina.Server");
digester.addObjectCreate(
"Server/GlobalNamingResources", "org.apache.catalina.deploy.NamingResources");
digester.addSetProperties("Server/GlobalNamingResources");
digester.addSetNext(
"Server/GlobalNamingResources",
"setGlobalNamingResources",
"org.apache.catalina.deploy.NamingResources");
digester.addObjectCreate(
"Server/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Listener");
digester.addSetNext(
"Server/Listener", "addLifecycleListener", "org.apache.catalina.LifecycleListener");
digester.addObjectCreate(
"Server/Service", "org.apache.catalina.core.StandardService", "className");
digester.addSetProperties("Server/Service");
digester.addSetNext("Server/Service", "addService", "org.apache.catalina.Service");
digester.addObjectCreate(
"Server/Service/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Service/Listener");
digester.addSetNext(
"Server/Service/Listener", "addLifecycleListener", "org.apache.catalina.LifecycleListener");
// Executor
digester.addObjectCreate(
"Server/Service/Executor", "org.apache.catalina.core.StandardThreadExecutor", "className");
digester.addSetProperties("Server/Service/Executor");
digester.addSetNext("Server/Service/Executor", "addExecutor", "org.apache.catalina.Executor");
digester.addRule("Server/Service/Connector", new ConnectorCreateRule());
digester.addRule(
"Server/Service/Connector", new SetAllPropertiesRule(new String[] {"executor"}));
digester.addSetNext(
"Server/Service/Connector", "addConnector", "org.apache.catalina.connector.Connector");
digester.addObjectCreate(
"Server/Service/Connector/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Service/Connector/Listener");
digester.addSetNext(
"Server/Service/Connector/Listener",
"addLifecycleListener",
"org.apache.catalina.LifecycleListener");
// Add RuleSets for nested elements
digester.addRuleSet(new NamingRuleSet("Server/GlobalNamingResources/"));
digester.addRuleSet(new EngineRuleSet("Server/Service/"));
digester.addRuleSet(new HostRuleSet("Server/Service/Engine/"));
digester.addRuleSet(new ContextRuleSet("Server/Service/Engine/Host/"));
addClusterRuleSet(digester, "Server/Service/Engine/Host/Cluster/");
digester.addRuleSet(new NamingRuleSet("Server/Service/Engine/Host/Context/"));
// When the 'engine' is found, set the parentClassLoader.
digester.addRule("Server/Service/Engine", new SetParentClassLoaderRule(parentClassLoader));
addClusterRuleSet(digester, "Server/Service/Engine/Cluster/");
long t2 = System.currentTimeMillis();
if (log.isDebugEnabled()) {
log.debug("Digester for server.xml created " + (t2 - t1));
}
return (digester);
}
/** Cluster support is optional. The JARs may have been removed. */
private void addClusterRuleSet(Digester digester, String prefix) {
Class<?> clazz = null;
Constructor<?> constructor = null;
try {
clazz = Class.forName("org.apache.catalina.ha.ClusterRuleSet");
constructor = clazz.getConstructor(String.class);
RuleSet ruleSet = (RuleSet) constructor.newInstance(prefix);
digester.addRuleSet(ruleSet);
} catch (Exception e) {
if (log.isDebugEnabled()) {
log.debug(
sm.getString("catalina.noCluster", e.getClass().getName() + ": " + e.getMessage()), e);
} else if (log.isInfoEnabled()) {
log.info(
sm.getString("catalina.noCluster", e.getClass().getName() + ": " + e.getMessage()));
}
}
}
/** Create and configure the Digester we will be using for shutdown. */
protected Digester createStopDigester() {
// Initialize the digester
Digester digester = new Digester();
digester.setUseContextClassLoader(true);
// Configure the rules we need for shutting down
digester.addObjectCreate("Server", "org.apache.catalina.core.StandardServer", "className");
digester.addSetProperties("Server");
digester.addSetNext("Server", "setServer", "org.apache.catalina.Server");
return (digester);
}
public void stopServer() {
stopServer(null);
}
public void stopServer(String[] arguments) {
if (arguments != null) {
arguments(arguments);
}
Server s = getServer();
if (s == null) {
// Create and execute our Digester
Digester digester = createStopDigester();
File file = configFile();
FileInputStream fis = null;
try {
InputSource is = new InputSource(file.toURI().toURL().toString());
fis = new FileInputStream(file);
is.setByteStream(fis);
digester.push(this);
digester.parse(is);
} catch (Exception e) {
log.error("Catalina.stop: ", e);
System.exit(1);
} finally {
if (fis != null) {
try {
fis.close();
} catch (IOException e) {
// Ignore
}
}
}
} else {
// Server object already present. Must be running as a service
try {
s.stop();
} catch (LifecycleException e) {
log.error("Catalina.stop: ", e);
}
return;
}
// Stop the existing server
s = getServer();
if (s.getPort() > 0) {
Socket socket = null;
OutputStream stream = null;
try {
socket = new Socket(s.getAddress(), s.getPort());
stream = socket.getOutputStream();
String shutdown = s.getShutdown();
for (int i = 0; i < shutdown.length(); i++) {
stream.write(shutdown.charAt(i));
}
stream.flush();
} catch (ConnectException ce) {
log.error(
sm.getString(
"catalina.stopServer.connectException",
s.getAddress(),
String.valueOf(s.getPort())));
log.error("Catalina.stop: ", ce);
System.exit(1);
} catch (IOException e) {
log.error("Catalina.stop: ", e);
System.exit(1);
} finally {
if (stream != null) {
try {
stream.close();
} catch (IOException e) {
// Ignore
}
}
if (socket != null) {
try {
socket.close();
} catch (IOException e) {
// Ignore
}
}
}
} else {
log.error(sm.getString("catalina.stopServer"));
System.exit(1);
}
}
/** Start a new server instance. */
public void load() {
long t1 = System.nanoTime();
initDirs();
// Before digester - it may be needed
initNaming();
// Create and execute our Digester
Digester digester = createStartDigester();
InputSource inputSource = null;
InputStream inputStream = null;
File file = null;
try {
file = configFile();
inputStream = new FileInputStream(file);
inputSource = new InputSource(file.toURI().toURL().toString());
} catch (Exception e) {
if (log.isDebugEnabled()) {
log.debug(sm.getString("catalina.configFail", file), e);
}
}
if (inputStream == null) {
try {
inputStream = getClass().getClassLoader().getResourceAsStream(getConfigFile());
inputSource =
new InputSource(getClass().getClassLoader().getResource(getConfigFile()).toString());
} catch (Exception e) {
if (log.isDebugEnabled()) {
log.debug(sm.getString("catalina.configFail", getConfigFile()), e);
}
}
}
// This should be included in catalina.jar
// Alternative: don't bother with xml, just create it manually.
if (inputStream == null) {
try {
inputStream = getClass().getClassLoader().getResourceAsStream("server-embed.xml");
inputSource =
new InputSource(getClass().getClassLoader().getResource("server-embed.xml").toString());
} catch (Exception e) {
if (log.isDebugEnabled()) {
log.debug(sm.getString("catalina.configFail", "server-embed.xml"), e);
}
}
}
if (inputStream == null || inputSource == null) {
if (file == null) {
log.warn(sm.getString("catalina.configFail", getConfigFile() + "] or [server-embed.xml]"));
} else {
log.warn(sm.getString("catalina.configFail", file.getAbsolutePath()));
if (file.exists() && !file.canRead()) {
log.warn("Permissions incorrect, read permission is not allowed on the file.");
}
}
return;
}
try {
inputSource.setByteStream(inputStream);
digester.push(this);
digester.parse(inputSource);
} catch (SAXParseException spe) {
log.warn("Catalina.start using " + getConfigFile() + ": " + spe.getMessage());
return;
} catch (Exception e) {
log.warn("Catalina.start using " + getConfigFile() + ": ", e);
return;
} finally {
try {
inputStream.close();
} catch (IOException e) {
// Ignore
}
}
getServer().setCatalina(this);
// Stream redirection
initStreams();
// Start the new server
try {
getServer().init();
} catch (LifecycleException e) {
if (Boolean.getBoolean("org.apache.catalina.startup.EXIT_ON_INIT_FAILURE")) {
throw new java.lang.Error(e);
} else {
log.error("Catalina.start", e);
}
}
long t2 = System.nanoTime();
if (log.isInfoEnabled()) {
log.info("Initialization processed in " + ((t2 - t1) / 1000000) + " ms");
}
}
/*
* Load using arguments
*/
public void load(String args[]) {
try {
if (arguments(args)) {
load();
}
} catch (Exception e) {
e.printStackTrace(System.out);
}
}
/** Start a new server instance. */
public void start() {
if (getServer() == null) {
load();
}
if (getServer() == null) {
log.fatal("Cannot start server. Server instance is not configured.");
return;
}
long t1 = System.nanoTime();
// Start the new server
try {
getServer().start();
} catch (LifecycleException e) {
log.fatal(sm.getString("catalina.serverStartFail"), e);
try {
getServer().destroy();
} catch (LifecycleException e1) {
log.debug("destroy() failed for failed Server ", e1);
}
return;
}
long t2 = System.nanoTime();
if (log.isInfoEnabled()) {
log.info("Server startup in " + ((t2 - t1) / 1000000) + " ms");
}
// Register shutdown hook
if (useShutdownHook) {
if (shutdownHook == null) {
shutdownHook = new CatalinaShutdownHook();
}
Runtime.getRuntime().addShutdownHook(shutdownHook);
// If JULI is being used, disable JULI's shutdown hook since
// shutdown hooks run in parallel and log messages may be lost
// if JULI's hook completes before the CatalinaShutdownHook()
LogManager logManager = LogManager.getLogManager();
if (logManager instanceof ClassLoaderLogManager) {
((ClassLoaderLogManager) logManager).setUseShutdownHook(false);
}
}
if (await) {
await();
stop();
}
}
/** Stop an existing server instance. */
public void stop() {
try {
// Remove the ShutdownHook first so that server.stop()
// doesn't get invoked twice
if (useShutdownHook) {
Runtime.getRuntime().removeShutdownHook(shutdownHook);
// If JULI is being used, re-enable JULI's shutdown to ensure
// log messages are not lost
LogManager logManager = LogManager.getLogManager();
if (logManager instanceof ClassLoaderLogManager) {
((ClassLoaderLogManager) logManager).setUseShutdownHook(true);
}
}
} catch (Throwable t) {
ExceptionUtils.handleThrowable(t);
// This will fail on JDK 1.2. Ignoring, as Tomcat can run
// fine without the shutdown hook.
}
// Shut down the server
try {
Server s = getServer();
LifecycleState state = s.getState();
if (LifecycleState.STOPPING_PREP.compareTo(state) <= 0
&& LifecycleState.DESTROYED.compareTo(state) >= 0) {
// Nothing to do. stop() was already called
} else {
s.stop();
s.destroy();
}
} catch (LifecycleException e) {
log.error("Catalina.stop", e);
}
}
/** Await and shutdown. */
public void await() {
getServer().await();
}
/** Print usage information for this application. */
protected void usage() {
System.out.println(
"usage: java org.apache.catalina.startup.Catalina"
+ " [ -config {pathname} ]"
+ " [ -nonaming ] "
+ " { -help | start | stop }");
}
protected void initDirs() {
String catalinaHome = System.getProperty(Globals.CATALINA_HOME_PROP);
if (catalinaHome == null) {
// Backwards compatibility patch for J2EE RI 1.3
String j2eeHome = System.getProperty("com.sun.enterprise.home");
if (j2eeHome != null) {
catalinaHome = System.getProperty("com.sun.enterprise.home");
} else if (System.getProperty(Globals.CATALINA_BASE_PROP) != null) {
catalinaHome = System.getProperty(Globals.CATALINA_BASE_PROP);
}
}
// last resort - for minimal/embedded cases.
if (catalinaHome == null) {
catalinaHome = System.getProperty("user.dir");
}
if (catalinaHome != null) {
File home = new File(catalinaHome);
if (!home.isAbsolute()) {
try {
catalinaHome = home.getCanonicalPath();
} catch (IOException e) {
catalinaHome = home.getAbsolutePath();
}
}
System.setProperty(Globals.CATALINA_HOME_PROP, catalinaHome);
}
if (System.getProperty(Globals.CATALINA_BASE_PROP) == null) {
System.setProperty(Globals.CATALINA_BASE_PROP, catalinaHome);
} else {
String catalinaBase = System.getProperty(Globals.CATALINA_BASE_PROP);
File base = new File(catalinaBase);
if (!base.isAbsolute()) {
try {
catalinaBase = base.getCanonicalPath();
} catch (IOException e) {
catalinaBase = base.getAbsolutePath();
}
}
System.setProperty(Globals.CATALINA_BASE_PROP, catalinaBase);
}
String temp = System.getProperty("java.io.tmpdir");
if (temp == null || (!(new File(temp)).exists()) || (!(new File(temp)).isDirectory())) {
log.error(sm.getString("embedded.notmp", temp));
}
}
protected void initStreams() {
// Replace System.out and System.err with a custom PrintStream
System.setOut(new SystemLogHandler(System.out));
System.setErr(new SystemLogHandler(System.err));
}
protected void initNaming() {
// Setting additional variables
if (!useNaming) {
log.info("Catalina naming disabled");
System.setProperty("catalina.useNaming", "false");
} else {
System.setProperty("catalina.useNaming", "true");
String value = "org.apache.naming";
String oldValue = System.getProperty(javax.naming.Context.URL_PKG_PREFIXES);
if (oldValue != null) {
value = value + ":" + oldValue;
}
System.setProperty(javax.naming.Context.URL_PKG_PREFIXES, value);
if (log.isDebugEnabled()) {
log.debug("Setting naming prefix=" + value);
}
value = System.getProperty(javax.naming.Context.INITIAL_CONTEXT_FACTORY);
if (value == null) {
System.setProperty(
javax.naming.Context.INITIAL_CONTEXT_FACTORY,
"org.apache.naming.java.javaURLContextFactory");
} else {
log.debug("INITIAL_CONTEXT_FACTORY already set " + value);
}
}
}
/** Set the security package access/protection. */
protected void setSecurityProtection() {
SecurityConfig securityConfig = SecurityConfig.newInstance();
securityConfig.setPackageDefinition();
securityConfig.setPackageAccess();
}
// --------------------------------------- CatalinaShutdownHook Inner Class
// XXX Should be moved to embedded !
/** Shutdown hook which will perform a clean shutdown of Catalina if needed. */
protected class CatalinaShutdownHook extends Thread {
@Override
public void run() {
try {
if (getServer() != null) {
Catalina.this.stop();
}
} catch (Throwable ex) {
ExceptionUtils.handleThrowable(ex);
log.error(sm.getString("catalina.shutdownHookFail"), ex);
} finally {
// If JULI is used, shut JULI down *after* the server shuts down
// so log messages aren't lost
LogManager logManager = LogManager.getLogManager();
if (logManager instanceof ClassLoaderLogManager) {
((ClassLoaderLogManager) logManager).shutdown();
}
}
}
}
private static final org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(Catalina.class);
}
/**
* Filesystem Directory Context implementation helper class.
*
* @author Remy Maucherat
* @version $Id: FileDirContext.java 1239053 2012-02-01 10:52:00Z markt $
*/
public class FileDirContext extends BaseDirContext {
private static final org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(FileDirContext.class);
// -------------------------------------------------------------- Constants
/** The descriptive information string for this implementation. */
protected static final int BUFFER_SIZE = 2048;
// ----------------------------------------------------------- Constructors
/** Builds a file directory context using the given environment. */
public FileDirContext() {
super();
}
/** Builds a file directory context using the given environment. */
public FileDirContext(Hashtable<String, Object> env) {
super(env);
}
// ----------------------------------------------------- Instance Variables
/** The document base directory. */
protected File base = null;
/** Absolute normalized filename of the base. */
protected String absoluteBase = null;
/** Allow linking. */
protected boolean allowLinking = false;
// ------------------------------------------------------------- Properties
/**
* Set the document root.
*
* @param docBase The new document root
* @exception IllegalArgumentException if the specified value is not supported by this
* implementation
* @exception IllegalArgumentException if this would create a malformed URL
*/
@Override
public void setDocBase(String docBase) {
// Validate the format of the proposed document root
if (docBase == null) throw new IllegalArgumentException(sm.getString("resources.null"));
// Calculate a File object referencing this document base directory
base = new File(docBase);
try {
base = base.getCanonicalFile();
} catch (IOException e) {
// Ignore
}
// Validate that the document base is an existing directory
if (!base.exists() || !base.isDirectory() || !base.canRead())
throw new IllegalArgumentException(sm.getString("fileResources.base", docBase));
this.absoluteBase = base.getAbsolutePath();
super.setDocBase(docBase);
}
/** Set allow linking. */
public void setAllowLinking(boolean allowLinking) {
this.allowLinking = allowLinking;
}
/** Is linking allowed. */
public boolean getAllowLinking() {
return allowLinking;
}
// --------------------------------------------------------- Public Methods
/** Release any resources allocated for this directory context. */
@Override
public void release() {
super.release();
}
/**
* Return the real path for a given virtual path, if possible; otherwise return <code>null</code>.
*
* @param path The path to the desired resource
*/
@Override
protected String doGetRealPath(String path) {
File file = new File(getDocBase(), path);
return file.getAbsolutePath();
}
// -------------------------------------------------------- Context Methods
/**
* Retrieves the named object.
*
* @param name the name of the object to look up
* @return the object bound to name
*/
@Override
protected Object doLookup(String name) {
Object result = null;
File file = file(name);
if (file == null) return null;
if (file.isDirectory()) {
FileDirContext tempContext = new FileDirContext(env);
tempContext.setDocBase(file.getPath());
tempContext.setAllowLinking(getAllowLinking());
result = tempContext;
} else {
result = new FileResource(file);
}
return result;
}
/**
* Unbinds the named object. Removes the terminal atomic name in name from the target
* context--that named by all but the terminal atomic part of name.
*
* <p>This method is idempotent. It succeeds even if the terminal atomic name is not bound in the
* target context, but throws NameNotFoundException if any of the intermediate contexts do not
* exist.
*
* @param name the name to bind; may not be empty
* @exception NameNotFoundException if an intermediate context does not exist
* @exception NamingException if a naming exception is encountered
*/
@Override
public void unbind(String name) throws NamingException {
File file = file(name);
if (file == null) throw new NameNotFoundException(sm.getString("resources.notFound", name));
if (!file.delete()) throw new NamingException(sm.getString("resources.unbindFailed", name));
}
/**
* Binds a new name to the object bound to an old name, and unbinds the old name. Both names are
* relative to this context. Any attributes associated with the old name become associated with
* the new name. Intermediate contexts of the old name are not changed.
*
* @param oldName the name of the existing binding; may not be empty
* @param newName the name of the new binding; may not be empty
* @exception NameAlreadyBoundException if newName is already bound
* @exception NamingException if a naming exception is encountered
*/
@Override
public void rename(String oldName, String newName) throws NamingException {
File file = file(oldName);
if (file == null) throw new NameNotFoundException(sm.getString("resources.notFound", oldName));
File newFile = new File(base, newName);
if (!file.renameTo(newFile)) {
throw new NamingException(sm.getString("resources.renameFail", oldName, newName));
}
}
/**
* Enumerates the names bound in the named context, along with the class names of objects bound to
* them. The contents of any subcontexts are not included.
*
* <p>If a binding is added to or removed from this context, its effect on an enumeration
* previously returned is undefined.
*
* @param name the name of the context to list
* @return an enumeration of the names and class names of the bindings in this context. Each
* element of the enumeration is of type NameClassPair.
* @exception NamingException if a naming exception is encountered
*/
@Override
public NamingEnumeration<NameClassPair> list(String name) throws NamingException {
File file = file(name);
if (file == null) throw new NameNotFoundException(sm.getString("resources.notFound", name));
return new NamingContextEnumeration(list(file).iterator());
}
/**
* Enumerates the names bound in the named context, along with the objects bound to them. The
* contents of any subcontexts are not included.
*
* <p>If a binding is added to or removed from this context, its effect on an enumeration
* previously returned is undefined.
*
* @param name the name of the context to list
* @return an enumeration of the bindings in this context. Each element of the enumeration is of
* type Binding.
* @exception NamingException if a naming exception is encountered
*/
@Override
protected List<NamingEntry> doListBindings(String name) throws NamingException {
File file = file(name);
if (file == null) return null;
return list(file);
}
/**
* Destroys the named context and removes it from the namespace. Any attributes associated with
* the name are also removed. Intermediate contexts are not destroyed.
*
* <p>This method is idempotent. It succeeds even if the terminal atomic name is not bound in the
* target context, but throws NameNotFoundException if any of the intermediate contexts do not
* exist.
*
* <p>In a federated naming system, a context from one naming system may be bound to a name in
* another. One can subsequently look up and perform operations on the foreign context using a
* composite name. However, an attempt destroy the context using this composite name will fail
* with NotContextException, because the foreign context is not a "subcontext" of the context in
* which it is bound. Instead, use unbind() to remove the binding of the foreign context.
* Destroying the foreign context requires that the destroySubcontext() be performed on a context
* from the foreign context's "native" naming system.
*
* @param name the name of the context to be destroyed; may not be empty
* @exception NameNotFoundException if an intermediate context does not exist
* @exception javax.naming.NotContextException if the name is bound but does not name a context,
* or does not name a context of the appropriate type
*/
@Override
public void destroySubcontext(String name) throws NamingException {
unbind(name);
}
/**
* Retrieves the named object, following links except for the terminal atomic component of the
* name. If the object bound to name is not a link, returns the object itself.
*
* @param name the name of the object to look up
* @return the object bound to name, not following the terminal link (if any).
* @exception NamingException if a naming exception is encountered
*/
@Override
public Object lookupLink(String name) throws NamingException {
// Note : Links are not supported
return lookup(name);
}
/**
* Retrieves the full name of this context within its own namespace.
*
* <p>Many naming services have a notion of a "full name" for objects in their respective
* namespaces. For example, an LDAP entry has a distinguished name, and a DNS record has a fully
* qualified name. This method allows the client application to retrieve this name. The string
* returned by this method is not a JNDI composite name and should not be passed directly to
* context methods. In naming systems for which the notion of full name does not make sense,
* OperationNotSupportedException is thrown.
*
* @return this context's name in its own namespace; never null
* @exception OperationNotSupportedException if the naming system does not have the notion of a
* full name
* @exception NamingException if a naming exception is encountered
*/
@Override
public String getNameInNamespace() throws NamingException {
return docBase;
}
// ----------------------------------------------------- DirContext Methods
/**
* Retrieves selected attributes associated with a named object. See the class description
* regarding attribute models, attribute type names, and operational attributes.
*
* @return the requested attributes; never null
* @param name the name of the object from which to retrieve attributes
* @param attrIds the identifiers of the attributes to retrieve. null indicates that all
* attributes should be retrieved; an empty array indicates that none should be retrieved
* @exception NamingException if a naming exception is encountered
*/
@Override
protected Attributes doGetAttributes(String name, String[] attrIds) throws NamingException {
// Building attribute list
File file = file(name);
if (file == null) return null;
return new FileResourceAttributes(file);
}
/**
* Modifies the attributes associated with a named object. The order of the modifications is not
* specified. Where possible, the modifications are performed atomically.
*
* @param name the name of the object whose attributes will be updated
* @param mod_op the modification operation, one of: ADD_ATTRIBUTE, REPLACE_ATTRIBUTE,
* REMOVE_ATTRIBUTE
* @param attrs the attributes to be used for the modification; may not be null
* @exception javax.naming.directory.AttributeModificationException if the modification cannot be
* completed successfully
* @exception NamingException if a naming exception is encountered
*/
@Override
public void modifyAttributes(String name, int mod_op, Attributes attrs) throws NamingException {
throw new OperationNotSupportedException();
}
/**
* Modifies the attributes associated with a named object using an an ordered list of
* modifications. The modifications are performed in the order specified. Each modification
* specifies a modification operation code and an attribute on which to operate. Where possible,
* the modifications are performed atomically.
*
* @param name the name of the object whose attributes will be updated
* @param mods an ordered sequence of modifications to be performed; may not be null
* @exception javax.naming.directory.AttributeModificationException if the modification cannot be
* completed successfully
* @exception NamingException if a naming exception is encountered
*/
@Override
public void modifyAttributes(String name, ModificationItem[] mods) throws NamingException {
throw new OperationNotSupportedException();
}
/**
* Binds a name to an object, along with associated attributes. If attrs is null, the resulting
* binding will have the attributes associated with obj if obj is a DirContext, and no attributes
* otherwise. If attrs is non-null, the resulting binding will have attrs as its attributes; any
* attributes associated with obj are ignored.
*
* @param name the name to bind; may not be empty
* @param obj the object to bind; possibly null
* @param attrs the attributes to associate with the binding
* @exception NameAlreadyBoundException if name is already bound
* @exception javax.naming.directory.InvalidAttributesException if some "mandatory" attributes of
* the binding are not supplied
* @exception NamingException if a naming exception is encountered
*/
@Override
public void bind(String name, Object obj, Attributes attrs) throws NamingException {
// Note: No custom attributes allowed
File file = new File(base, name);
if (file.exists())
throw new NameAlreadyBoundException(sm.getString("resources.alreadyBound", name));
rebind(name, obj, attrs);
}
/**
* Binds a name to an object, along with associated attributes, overwriting any existing binding.
* If attrs is null and obj is a DirContext, the attributes from obj are used. If attrs is null
* and obj is not a DirContext, any existing attributes associated with the object already bound
* in the directory remain unchanged. If attrs is non-null, any existing attributes associated
* with the object already bound in the directory are removed and attrs is associated with the
* named object. If obj is a DirContext and attrs is non-null, the attributes of obj are ignored.
*
* @param name the name to bind; may not be empty
* @param obj the object to bind; possibly null
* @param attrs the attributes to associate with the binding
* @exception javax.naming.directory.InvalidAttributesException if some "mandatory" attributes of
* the binding are not supplied
* @exception NamingException if a naming exception is encountered
*/
@Override
public void rebind(String name, Object obj, Attributes attrs) throws NamingException {
// Note: No custom attributes allowed
// Check obj type
File file = new File(base, name);
InputStream is = null;
if (obj instanceof Resource) {
try {
is = ((Resource) obj).streamContent();
} catch (IOException e) {
// Ignore
}
} else if (obj instanceof InputStream) {
is = (InputStream) obj;
} else if (obj instanceof DirContext) {
if (file.exists()) {
if (!file.delete()) throw new NamingException(sm.getString("resources.bindFailed", name));
}
if (!file.mkdir()) throw new NamingException(sm.getString("resources.bindFailed", name));
}
if (is == null) throw new NamingException(sm.getString("resources.bindFailed", name));
// Open os
try {
FileOutputStream os = null;
byte buffer[] = new byte[BUFFER_SIZE];
int len = -1;
try {
os = new FileOutputStream(file);
while (true) {
len = is.read(buffer);
if (len == -1) break;
os.write(buffer, 0, len);
}
} finally {
if (os != null) os.close();
is.close();
}
} catch (IOException e) {
NamingException ne = new NamingException(sm.getString("resources.bindFailed", e));
ne.initCause(e);
throw ne;
}
}
/**
* Creates and binds a new context, along with associated attributes. This method creates a new
* subcontext with the given name, binds it in the target context (that named by all but terminal
* atomic component of the name), and associates the supplied attributes with the newly created
* object. All intermediate and target contexts must already exist. If attrs is null, this method
* is equivalent to Context.createSubcontext().
*
* @param name the name of the context to create; may not be empty
* @param attrs the attributes to associate with the newly created context
* @return the newly created context
* @exception NameAlreadyBoundException if the name is already bound
* @exception javax.naming.directory.InvalidAttributesException if attrs does not contain all the
* mandatory attributes required for creation
* @exception NamingException if a naming exception is encountered
*/
@Override
public DirContext createSubcontext(String name, Attributes attrs) throws NamingException {
File file = new File(base, name);
if (file.exists())
throw new NameAlreadyBoundException(sm.getString("resources.alreadyBound", name));
if (!file.mkdir()) throw new NamingException(sm.getString("resources.bindFailed", name));
return (DirContext) lookup(name);
}
/**
* Retrieves the schema associated with the named object. The schema describes rules regarding the
* structure of the namespace and the attributes stored within it. The schema specifies what types
* of objects can be added to the directory and where they can be added; what mandatory and
* optional attributes an object can have. The range of support for schemas is directory-specific.
*
* @param name the name of the object whose schema is to be retrieved
* @return the schema associated with the context; never null
* @exception OperationNotSupportedException if schema not supported
* @exception NamingException if a naming exception is encountered
*/
@Override
public DirContext getSchema(String name) throws NamingException {
throw new OperationNotSupportedException();
}
/**
* Retrieves a context containing the schema objects of the named object's class definitions.
*
* @param name the name of the object whose object class definition is to be retrieved
* @return the DirContext containing the named object's class definitions; never null
* @exception OperationNotSupportedException if schema not supported
* @exception NamingException if a naming exception is encountered
*/
@Override
public DirContext getSchemaClassDefinition(String name) throws NamingException {
throw new OperationNotSupportedException();
}
/**
* Searches in a single context for objects that contain a specified set of attributes, and
* retrieves selected attributes. The search is performed using the default SearchControls
* settings.
*
* @param name the name of the context to search
* @param matchingAttributes the attributes to search for. If empty or null, all objects in the
* target context are returned.
* @param attributesToReturn the attributes to return. null indicates that all attributes are to
* be returned; an empty array indicates that none are to be returned.
* @return a non-null enumeration of SearchResult objects. Each SearchResult contains the
* attributes identified by attributesToReturn and the name of the corresponding object, named
* relative to the context named by name.
* @exception NamingException if a naming exception is encountered
*/
@Override
public NamingEnumeration<SearchResult> search(
String name, Attributes matchingAttributes, String[] attributesToReturn)
throws NamingException {
return null;
}
/**
* Searches in a single context for objects that contain a specified set of attributes. This
* method returns all the attributes of such objects. It is equivalent to supplying null as the
* atributesToReturn parameter to the method search(Name, Attributes, String[]).
*
* @param name the name of the context to search
* @param matchingAttributes the attributes to search for. If empty or null, all objects in the
* target context are returned.
* @return a non-null enumeration of SearchResult objects. Each SearchResult contains the
* attributes identified by attributesToReturn and the name of the corresponding object, named
* relative to the context named by name.
* @exception NamingException if a naming exception is encountered
*/
@Override
public NamingEnumeration<SearchResult> search(String name, Attributes matchingAttributes)
throws NamingException {
return null;
}
/**
* Searches in the named context or object for entries that satisfy the given search filter.
* Performs the search as specified by the search controls.
*
* @param name the name of the context or object to search
* @param filter the filter expression to use for the search; may not be null
* @param cons the search controls that control the search. If null, the default search controls
* are used (equivalent to (new SearchControls())).
* @return an enumeration of SearchResults of the objects that satisfy the filter; never null
* @exception javax.naming.directory.InvalidSearchFilterException if the search filter specified
* is not supported or understood by the underlying directory
* @exception javax.naming.directory.InvalidSearchControlsException if the search controls contain
* invalid settings
* @exception NamingException if a naming exception is encountered
*/
@Override
public NamingEnumeration<SearchResult> search(String name, String filter, SearchControls cons)
throws NamingException {
return null;
}
/**
* Searches in the named context or object for entries that satisfy the given search filter.
* Performs the search as specified by the search controls.
*
* @param name the name of the context or object to search
* @param filterExpr the filter expression to use for the search. The expression may contain
* variables of the form "{i}" where i is a nonnegative integer. May not be null.
* @param filterArgs the array of arguments to substitute for the variables in filterExpr. The
* value of filterArgs[i] will replace each occurrence of "{i}". If null, equivalent to an
* empty array.
* @param cons the search controls that control the search. If null, the default search controls
* are used (equivalent to (new SearchControls())).
* @return an enumeration of SearchResults of the objects that satisfy the filter; never null
* @exception ArrayIndexOutOfBoundsException if filterExpr contains {i} expressions where i is
* outside the bounds of the array filterArgs
* @exception javax.naming.directory.InvalidSearchControlsException if cons contains invalid
* settings
* @exception javax.naming.directory.InvalidSearchFilterException if filterExpr with filterArgs
* represents an invalid search filter
* @exception NamingException if a naming exception is encountered
*/
@Override
public NamingEnumeration<SearchResult> search(
String name, String filterExpr, Object[] filterArgs, SearchControls cons)
throws NamingException {
return null;
}
// ------------------------------------------------------ Protected Methods
/**
* Return a context-relative path, beginning with a "/", that represents the canonical version of
* the specified path after ".." and "." elements are resolved out. If the specified path attempts
* to go outside the boundaries of the current context (i.e. too many ".." path elements are
* present), return <code>null</code> instead.
*
* @param path Path to be normalized
*/
protected String normalize(String path) {
return RequestUtil.normalize(path, File.separatorChar == '\\');
}
/**
* Return a File object representing the specified normalized context-relative path if it exists
* and is readable. Otherwise, return <code>null</code>.
*
* @param name Normalized context-relative path (with leading '/')
*/
protected File file(String name) {
File file = new File(base, name);
if (file.exists() && file.canRead()) {
if (allowLinking) return file;
// Check that this file belongs to our root path
String canPath = null;
try {
canPath = file.getCanonicalPath();
} catch (IOException e) {
// Ignore
}
if (canPath == null) return null;
// Check to see if going outside of the web application root
if (!canPath.startsWith(absoluteBase)) {
return null;
}
// Case sensitivity check - this is now always done
String fileAbsPath = file.getAbsolutePath();
if (fileAbsPath.endsWith(".")) fileAbsPath = fileAbsPath + "/";
String absPath = normalize(fileAbsPath);
canPath = normalize(canPath);
if ((absoluteBase.length() < absPath.length())
&& (absoluteBase.length() < canPath.length())) {
absPath = absPath.substring(absoluteBase.length() + 1);
if (absPath == null) return null;
if (absPath.equals("")) absPath = "/";
canPath = canPath.substring(absoluteBase.length() + 1);
if (canPath.equals("")) canPath = "/";
if (!canPath.equals(absPath)) return null;
}
} else {
return null;
}
return file;
}
/**
* List the resources which are members of a collection.
*
* @param file Collection
* @return Vector containing NamingEntry objects
*/
protected List<NamingEntry> list(File file) {
List<NamingEntry> entries = new ArrayList<NamingEntry>();
if (!file.isDirectory()) return entries;
String[] names = file.list();
if (names == null) {
/* Some IO error occurred such as bad file permissions.
Prevent a NPE with Arrays.sort(names) */
log.warn(sm.getString("fileResources.listingNull", file.getAbsolutePath()));
return entries;
}
Arrays.sort(names); // Sort alphabetically
NamingEntry entry = null;
for (int i = 0; i < names.length; i++) {
File currentFile = new File(file, names[i]);
Object object = null;
if (currentFile.isDirectory()) {
FileDirContext tempContext = new FileDirContext(env);
tempContext.setDocBase(file.getPath());
tempContext.setAllowLinking(getAllowLinking());
object = tempContext;
} else {
object = new FileResource(currentFile);
}
entry = new NamingEntry(names[i], object, NamingEntry.ENTRY);
entries.add(entry);
}
return entries;
}
// ----------------------------------------------- FileResource Inner Class
/**
* This specialized resource implementation avoids opening the InputStream to the file right away
* (which would put a lock on the file).
*/
protected static class FileResource extends Resource {
// -------------------------------------------------------- Constructor
public FileResource(File file) {
this.file = file;
}
// --------------------------------------------------- Member Variables
/** Associated file object. */
protected File file;
// --------------------------------------------------- Resource Methods
/**
* Content accessor.
*
* @return InputStream
*/
@Override
public InputStream streamContent() throws IOException {
if (binaryContent == null) {
FileInputStream fis = new FileInputStream(file);
inputStream = fis;
return fis;
}
return super.streamContent();
}
}
// ------------------------------------- FileResourceAttributes Inner Class
/**
* This specialized resource attribute implementation does some lazy reading (to speed up simple
* checks, like checking the last modified date).
*/
protected static class FileResourceAttributes extends ResourceAttributes {
private static final long serialVersionUID = 1L;
// -------------------------------------------------------- Constructor
public FileResourceAttributes(File file) {
this.file = file;
getCreation();
getLastModified();
}
// --------------------------------------------------- Member Variables
protected File file;
protected boolean accessed = false;
protected String canonicalPath = null;
// ----------------------------------------- ResourceAttributes Methods
/** Is collection. */
@Override
public boolean isCollection() {
if (!accessed) {
collection = file.isDirectory();
accessed = true;
}
return super.isCollection();
}
/**
* Get content length.
*
* @return content length value
*/
@Override
public long getContentLength() {
if (contentLength != -1L) return contentLength;
contentLength = file.length();
return contentLength;
}
/**
* Get creation time.
*
* @return creation time value
*/
@Override
public long getCreation() {
if (creation != -1L) return creation;
creation = getLastModified();
return creation;
}
/**
* Get creation date.
*
* @return Creation date value
*/
@Override
public Date getCreationDate() {
if (creation == -1L) {
creation = getCreation();
}
return super.getCreationDate();
}
/**
* Get last modified time.
*
* @return lastModified time value
*/
@Override
public long getLastModified() {
if (lastModified != -1L) return lastModified;
lastModified = file.lastModified();
return lastModified;
}
/**
* Get lastModified date.
*
* @return LastModified date value
*/
@Override
public Date getLastModifiedDate() {
if (lastModified == -1L) {
lastModified = getLastModified();
}
return super.getLastModifiedDate();
}
/**
* Get name.
*
* @return Name value
*/
@Override
public String getName() {
if (name == null) name = file.getName();
return name;
}
/**
* Get resource type.
*
* @return String resource type
*/
@Override
public String getResourceType() {
if (!accessed) {
collection = file.isDirectory();
accessed = true;
}
return super.getResourceType();
}
/**
* Get canonical path.
*
* @return String the file's canonical path
*/
@Override
public String getCanonicalPath() {
if (canonicalPath == null) {
try {
canonicalPath = file.getCanonicalPath();
} catch (IOException e) {
// Ignore
}
}
return canonicalPath;
}
}
}
/**
* Processes AJP requests.
*
* @author Remy Maucherat
* @author Henri Gomez
* @author Dan Milstein
* @author Keith Wannamaker
* @author Kevin Seguin
* @author Costin Manolache
* @author Bill Barker
*/
public class AjpAprProcessor extends AbstractAjpProcessor<Long> {
/** Logger. */
private static final Log log = LogFactory.getLog(AjpAprProcessor.class);
@Override
protected Log getLog() {
return log;
}
// ----------------------------------------------------------- Constructors
public AjpAprProcessor(int packetSize, AprEndpoint endpoint) {
super(packetSize, endpoint);
getResponse().setOutputBuffer(new AbstractAjpProcessorSocketOutputBuffer<Long>(this));
// Allocate input and output buffers
inputBuffer = ByteBuffer.allocateDirect(packetSize * 2);
inputBuffer.limit(0);
outputBuffer = ByteBuffer.allocateDirect(packetSize * 2);
}
// ----------------------------------------------------- Instance Variables
/** Direct buffer used for input. */
private ByteBuffer inputBuffer = null;
/** Direct buffer used for output. */
private ByteBuffer outputBuffer = null;
// --------------------------------------------------------- Public Methods
/**
* Process pipelined HTTP requests using the specified input and output streams.
*
* @throws IOException error during an I/O operation
*/
@Override
public SocketState process(SocketWrapper<Long> socket) throws IOException {
RequestInfo rp = getRequest().getRequestProcessor();
rp.setStage(Constants24.getStageParse());
// Setting up the socket
this.setSocketWrapper(socket);
long socketRef = socket.getSocket().longValue();
Socket.setrbb(socketRef, inputBuffer);
Socket.setsbb(socketRef, outputBuffer);
boolean cping = false;
boolean keptAlive = false;
while (!getErrorState().isError() && !getEndpoint().isPaused()) {
// Parsing the request header
try {
// Get first message of the request
if (!readMessage(getRequestHeaderMessage(), true, keptAlive)) {
// This means that no data is available right now
// (long keepalive), so that the processor should be recycled
// and the method should return true
break;
}
// Check message type, process right away and break if
// not regular request processing
int type = getRequestHeaderMessage().getByte();
if (type == Constants25.getJkAjp13CpingRequest()) {
if (getEndpoint().isPaused()) {
recycle(true);
break;
}
cping = true;
if (Socket.send(socketRef, getPongmessagearray(), 0, getPongmessagearray().length) < 0) {
setErrorState(ErrorState.CLOSE_NOW, null);
}
continue;
} else if (type != Constants25.getJkAjp13ForwardRequest()) {
// Unexpected packet type. Unread body packets should have
// been swallowed in finish().
if (log.isDebugEnabled()) {
log.debug("Unexpected message: " + type);
}
setErrorState(ErrorState.CLOSE_NOW, null);
break;
}
keptAlive = true;
getRequest().setStartTime(System.currentTimeMillis());
} catch (IOException e) {
setErrorState(ErrorState.CLOSE_NOW, e);
break;
} catch (Throwable t) {
ExceptionUtils2.handleThrowable(t);
log.debug(getSm().getString("ajpprocessor.header.error"), t);
// 400 - Bad Request
getResponse().setStatus(400);
setErrorState(ErrorState.CLOSE_CLEAN, t);
getAdapter().log(getRequest(), getResponse(), 0);
}
if (!getErrorState().isError()) {
// Setting up filters, and parse some request headers
rp.setStage(Constants24.getStagePrepare());
try {
prepareRequest();
} catch (Throwable t) {
ExceptionUtils2.handleThrowable(t);
log.debug(getSm().getString("ajpprocessor.request.prepare"), t);
// 500 - Internal Server Error
getResponse().setStatus(500);
setErrorState(ErrorState.CLOSE_CLEAN, t);
getAdapter().log(getRequest(), getResponse(), 0);
}
}
if (!getErrorState().isError() && !cping && getEndpoint().isPaused()) {
// 503 - Service unavailable
getResponse().setStatus(503);
setErrorState(ErrorState.CLOSE_CLEAN, null);
getAdapter().log(getRequest(), getResponse(), 0);
}
cping = false;
// Process the request in the adapter
if (!getErrorState().isError()) {
try {
rp.setStage(Constants24.getStageService());
getAdapter().service(getRequest(), getResponse());
} catch (InterruptedIOException e) {
setErrorState(ErrorState.CLOSE_NOW, e);
} catch (Throwable t) {
ExceptionUtils2.handleThrowable(t);
log.error(getSm().getString("ajpprocessor.request.process"), t);
// 500 - Internal Server Error
getResponse().setStatus(500);
setErrorState(ErrorState.CLOSE_CLEAN, t);
getAdapter().log(getRequest(), getResponse(), 0);
}
}
if (isAsync() && !getErrorState().isError()) {
break;
}
// Finish the response if not done yet
if (!isFinished() && getErrorState().isIoAllowed()) {
try {
finish();
} catch (Throwable t) {
ExceptionUtils2.handleThrowable(t);
setErrorState(ErrorState.CLOSE_NOW, t);
}
}
// If there was an error, make sure the request is counted as
// and error, and update the statistics counter
if (getErrorState().isError()) {
getResponse().setStatus(500);
}
getRequest().updateCounters();
rp.setStage(Constants24.getStageKeepalive());
recycle(false);
}
rp.setStage(Constants24.getStageEnded());
if (!getErrorState().isError() && !getEndpoint().isPaused()) {
if (isAsync()) {
return SocketState.LONG;
} else {
return SocketState.OPEN;
}
} else {
return SocketState.CLOSED;
}
}
// ----------------------------------------------------- ActionHook Methods
/**
* Send an action to the connector.
*
* @param actionCode Type of the action
* @param param Action parameter
*/
@Override
@SuppressWarnings("incomplete-switch") // Other cases are handled by action()
protected void actionInternal(ActionCode actionCode, Object param) {
switch (actionCode) {
case ASYNC_COMPLETE:
{
if (getAsyncStateMachine().asyncComplete()) {
((AprEndpoint) getEndpoint())
.processSocketAsync(this.getSocketWrapper(), SocketStatus.OPEN_READ);
}
break;
}
case ASYNC_SETTIMEOUT:
{
if (param == null) return;
long timeout = ((Long) param).longValue();
getSocketWrapper().setTimeout(timeout);
break;
}
case ASYNC_DISPATCH:
{
if (getAsyncStateMachine().asyncDispatch()) {
((AprEndpoint) getEndpoint())
.processSocketAsync(this.getSocketWrapper(), SocketStatus.OPEN_READ);
}
break;
}
}
}
@Override
protected void resetTimeouts() {
// NO-OP. The AJP APR/native connector only uses the timeout value on
// time SocketWrapper for async timeouts.
}
@Override
protected void output(byte[] src, int offset, int length) throws IOException {
outputBuffer.put(src, offset, length);
long socketRef = getSocketWrapper().getSocket().longValue();
if (outputBuffer.position() > 0) {
if ((socketRef != 0) && Socket.sendbb(socketRef, 0, outputBuffer.position()) < 0) {
// There are no re-tries so clear the buffer to prevent a
// possible overflow if the buffer is used again. BZ53119.
outputBuffer.clear();
throw new IOException(getSm().getString("ajpprocessor.failedsend"));
}
outputBuffer.clear();
}
}
/** Read at least the specified amount of bytes, and place them in the input buffer. */
protected boolean read(int n) throws IOException {
if (inputBuffer.capacity() - inputBuffer.limit() <= n - inputBuffer.remaining()) {
inputBuffer.compact();
inputBuffer.limit(inputBuffer.position());
inputBuffer.position(0);
}
int nRead;
while (inputBuffer.remaining() < n) {
nRead =
Socket.recvbb(
getSocketWrapper().getSocket().longValue(),
inputBuffer.limit(),
inputBuffer.capacity() - inputBuffer.limit());
if (nRead > 0) {
inputBuffer.limit(inputBuffer.limit() + nRead);
} else {
throw new IOException(getSm().getString("ajpprocessor.failedread"));
}
}
return true;
}
/** Read at least the specified amount of bytes, and place them in the input buffer. */
protected boolean readt(int n, boolean useAvailableData) throws IOException {
if (useAvailableData && inputBuffer.remaining() == 0) {
return false;
}
if (inputBuffer.capacity() - inputBuffer.limit() <= n - inputBuffer.remaining()) {
inputBuffer.compact();
inputBuffer.limit(inputBuffer.position());
inputBuffer.position(0);
}
int nRead;
while (inputBuffer.remaining() < n) {
nRead =
Socket.recvbb(
getSocketWrapper().getSocket().longValue(),
inputBuffer.limit(),
inputBuffer.capacity() - inputBuffer.limit());
if (nRead > 0) {
inputBuffer.limit(inputBuffer.limit() + nRead);
} else {
if ((-nRead) == Status.getEtimedout() || (-nRead) == Status.getTimeup()) {
return false;
} else {
throw new IOException(getSm().getString("ajpprocessor.failedread"));
}
}
}
return true;
}
/**
* Receive a chunk of data. Called to implement the 'special' packet in ajp13 and to receive the
* data after we send a GET_BODY packet
*/
@Override
public boolean receive() throws IOException {
setFirst(false);
getBodyMessage().reset();
if (!readMessage(getBodyMessage(), false, false)) {
// Invalid message
return false;
}
// No data received.
if (getBodyMessage().getLen() == 0) {
// just the header
// Don't mark 'end of stream' for the first chunk.
return false;
}
int blen = getBodyMessage().peekInt();
if (blen == 0) {
return false;
}
getBodyMessage().getBodyBytes(getBodyBytes());
setEmpty(false);
return true;
}
/**
* Read an AJP message.
*
* @param first is true if the message is the first in the request, which will cause a short
* duration blocking read
* @return true if the message has been read, false if the short read didn't return anything
* @throws IOException any other failure, including incomplete reads
*/
protected boolean readMessage(AjpMessage message, boolean first, boolean useAvailableData)
throws IOException {
int headerLength = message.getHeaderLength();
if (first) {
if (!readt(headerLength, useAvailableData)) {
return false;
}
} else {
read(headerLength);
}
inputBuffer.get(message.getBuffer(), 0, headerLength);
int messageLength = message.processHeader(true);
if (messageLength < 0) {
// Invalid AJP header signature
// TODO: Throw some exception and close the connection to frontend.
return false;
} else if (messageLength == 0) {
// Zero length message.
return true;
} else {
if (messageLength > message.getBuffer().length) {
// Message too long for the buffer
// Need to trigger a 400 response
throw new IllegalArgumentException(
getSm()
.getString(
"ajpprocessor.header.tooLong",
Integer.valueOf(messageLength),
Integer.valueOf(message.getBuffer().length)));
}
read(messageLength);
inputBuffer.get(message.getBuffer(), headerLength, messageLength);
return true;
}
}
/** Recycle the processor. */
@Override
public void recycle(boolean socketClosing) {
super.recycle(socketClosing);
inputBuffer.clear();
inputBuffer.limit(0);
outputBuffer.clear();
}
}
/**
* Provides a per class loader (i.e. per web application) instance of a ServerContainer. Web
* application wide defaults may be configured by setting the following servlet context
* initialisation parameters to the desired values.
*
* <ul>
* <li>{@link Constants#BINARY_BUFFER_SIZE_SERVLET_CONTEXT_INIT_PARAM}
* <li>{@link Constants#TEXT_BUFFER_SIZE_SERVLET_CONTEXT_INIT_PARAM}
* </ul>
*/
public class WsServerContainer extends WsWebSocketContainer implements ServerContainer {
private static final StringManager sm = StringManager.getManager(Constants.PACKAGE_NAME);
private static final Log log = LogFactory.getLog(WsServerContainer.class);
private static final CloseReason AUTHENTICATED_HTTP_SESSION_CLOSED =
new CloseReason(
CloseCodes.VIOLATED_POLICY,
"This connection was established under an authenticated "
+ "HTTP session that has ended.");
private final WsWriteTimeout wsWriteTimeout = new WsWriteTimeout();
private final ServletContext servletContext;
private final Map<String, ServerEndpointConfig> configExactMatchMap = new ConcurrentHashMap<>();
private final ConcurrentHashMap<Integer, SortedSet<TemplatePathMatch>> configTemplateMatchMap =
new ConcurrentHashMap<>();
private volatile boolean enforceNoAddAfterHandshake =
org.apache.tomcat.websocket.Constants.STRICT_SPEC_COMPLIANCE;
private volatile boolean addAllowed = true;
private final ConcurrentHashMap<String, Set<WsSession>> authenticatedSessions =
new ConcurrentHashMap<>();
private final ExecutorService executorService;
private final ThreadGroup threadGroup;
private volatile boolean endpointsRegistered = false;
WsServerContainer(ServletContext servletContext) {
this.servletContext = servletContext;
// Configure servlet context wide defaults
String value =
servletContext.getInitParameter(Constants.BINARY_BUFFER_SIZE_SERVLET_CONTEXT_INIT_PARAM);
if (value != null) {
setDefaultMaxBinaryMessageBufferSize(Integer.parseInt(value));
}
value = servletContext.getInitParameter(Constants.TEXT_BUFFER_SIZE_SERVLET_CONTEXT_INIT_PARAM);
if (value != null) {
setDefaultMaxTextMessageBufferSize(Integer.parseInt(value));
}
value =
servletContext.getInitParameter(
Constants.ENFORCE_NO_ADD_AFTER_HANDSHAKE_CONTEXT_INIT_PARAM);
if (value != null) {
setEnforceNoAddAfterHandshake(Boolean.parseBoolean(value));
}
// Executor config
int executorCoreSize = 0;
long executorKeepAliveTimeSeconds = 60;
value = servletContext.getInitParameter(Constants.EXECUTOR_CORE_SIZE_INIT_PARAM);
if (value != null) {
executorCoreSize = Integer.parseInt(value);
}
value = servletContext.getInitParameter(Constants.EXECUTOR_KEEPALIVETIME_SECONDS_INIT_PARAM);
if (value != null) {
executorKeepAliveTimeSeconds = Long.parseLong(value);
}
FilterRegistration.Dynamic fr =
servletContext.addFilter("Tomcat WebSocket (JSR356) Filter", new WsFilter());
fr.setAsyncSupported(true);
EnumSet<DispatcherType> types = EnumSet.of(DispatcherType.REQUEST, DispatcherType.FORWARD);
fr.addMappingForUrlPatterns(types, true, "/*");
// Use a per web application executor for any threads that the WebSocket
// server code needs to create. Group all of the threads under a single
// ThreadGroup.
StringBuffer threadGroupName = new StringBuffer("WebSocketServer-");
threadGroupName.append(servletContext.getVirtualServerName());
threadGroupName.append('-');
if ("".equals(servletContext.getContextPath())) {
threadGroupName.append("ROOT");
} else {
threadGroupName.append(servletContext.getContextPath());
}
threadGroup = new ThreadGroup(threadGroupName.toString());
WsThreadFactory wsThreadFactory = new WsThreadFactory(threadGroup);
executorService =
new ThreadPoolExecutor(
executorCoreSize,
Integer.MAX_VALUE,
executorKeepAliveTimeSeconds,
TimeUnit.SECONDS,
new SynchronousQueue<Runnable>(),
wsThreadFactory);
}
/**
* Published the provided endpoint implementation at the specified path with the specified
* configuration. {@link #WsServerContainer(ServletContext)} must be called before calling this
* method.
*
* @param sec The configuration to use when creating endpoint instances
* @throws DeploymentException if the endpoint can not be published as requested
*/
@Override
public void addEndpoint(ServerEndpointConfig sec) throws DeploymentException {
if (enforceNoAddAfterHandshake && !addAllowed) {
throw new DeploymentException(sm.getString("serverContainer.addNotAllowed"));
}
if (servletContext == null) {
throw new DeploymentException(sm.getString("serverContainer.servletContextMissing"));
}
String path = sec.getPath();
UriTemplate uriTemplate = new UriTemplate(path);
if (uriTemplate.hasParameters()) {
Integer key = Integer.valueOf(uriTemplate.getSegmentCount());
SortedSet<TemplatePathMatch> templateMatches = configTemplateMatchMap.get(key);
if (templateMatches == null) {
// Ensure that if concurrent threads execute this block they
// both end up using the same TreeSet instance
templateMatches = new TreeSet<>(TemplatePathMatchComparator.getInstance());
configTemplateMatchMap.putIfAbsent(key, templateMatches);
templateMatches = configTemplateMatchMap.get(key);
}
if (!templateMatches.add(new TemplatePathMatch(sec, uriTemplate))) {
// Duplicate uriTemplate;
throw new DeploymentException(
sm.getString(
"serverContainer.duplicatePaths",
path,
sec.getEndpointClass(),
sec.getEndpointClass()));
}
} else {
// Exact match
ServerEndpointConfig old = configExactMatchMap.put(path, sec);
if (old != null) {
// Duplicate path mappings
throw new DeploymentException(
sm.getString(
"serverContainer.duplicatePaths",
path,
old.getEndpointClass(),
sec.getEndpointClass()));
}
}
endpointsRegistered = true;
}
/**
* Provides the equivalent of {@link #addEndpoint(ServerEndpointConfig)} for publishing plain old
* java objects (POJOs) that have been annotated as WebSocket endpoints.
*
* @param pojo The annotated POJO
*/
@Override
public void addEndpoint(Class<?> pojo) throws DeploymentException {
ServerEndpoint annotation = pojo.getAnnotation(ServerEndpoint.class);
if (annotation == null) {
throw new DeploymentException(
sm.getString("serverContainer.missingAnnotation", pojo.getName()));
}
String path = annotation.value();
// Validate encoders
validateEncoders(annotation.encoders());
// Method mapping
PojoMethodMapping methodMapping = new PojoMethodMapping(pojo, annotation.decoders(), path);
// ServerEndpointConfig
ServerEndpointConfig sec;
Class<? extends Configurator> configuratorClazz = annotation.configurator();
Configurator configurator = null;
if (!configuratorClazz.equals(Configurator.class)) {
try {
configurator = annotation.configurator().newInstance();
} catch (InstantiationException | IllegalAccessException e) {
throw new DeploymentException(
sm.getString(
"serverContainer.configuratorFail",
annotation.configurator().getName(),
pojo.getClass().getName()),
e);
}
}
sec =
ServerEndpointConfig.Builder.create(pojo, path)
.decoders(Arrays.asList(annotation.decoders()))
.encoders(Arrays.asList(annotation.encoders()))
.subprotocols(Arrays.asList(annotation.subprotocols()))
.configurator(configurator)
.build();
sec.getUserProperties().put(PojoEndpointServer.POJO_METHOD_MAPPING_KEY, methodMapping);
addEndpoint(sec);
}
@Override
public void destroy() {
shutdownExecutor();
super.destroy();
// If the executor hasn't fully shutdown it won't be possible to
// destroy this thread group as there will still be threads running.
// Mark the thread group as daemon one, so that it destroys itself
// when thread count reaches zero.
// Synchronization on threadGroup is needed, as there is a race between
// destroy() call from termination of the last thread in thread group
// marked as daemon versus the explicit destroy() call.
int threadCount = threadGroup.activeCount();
boolean success = false;
try {
while (true) {
int oldThreadCount = threadCount;
synchronized (threadGroup) {
if (threadCount > 0) {
Thread.yield();
threadCount = threadGroup.activeCount();
}
if (threadCount > 0 && threadCount != oldThreadCount) {
// Value not stabilized. Retry.
continue;
}
if (threadCount > 0) {
threadGroup.setDaemon(true);
} else {
threadGroup.destroy();
success = true;
}
break;
}
}
} catch (IllegalThreadStateException exception) {
// Fall-through
}
if (!success) {
log.warn(
sm.getString(
"serverContainer.threadGroupNotDestroyed",
threadGroup.getName(),
Integer.valueOf(threadCount)));
}
}
boolean areEndpointsRegistered() {
return endpointsRegistered;
}
public void doUpgrade(
HttpServletRequest request,
HttpServletResponse response,
ServerEndpointConfig sec,
Map<String, String> pathParams)
throws ServletException, IOException {
UpgradeUtil.doUpgrade(this, request, response, sec, pathParams);
}
public WsMappingResult findMapping(String path) {
// Prevent registering additional endpoints once the first attempt has
// been made to use one
if (addAllowed) {
addAllowed = false;
}
// Check an exact match. Simple case as there are no templates.
ServerEndpointConfig sec = configExactMatchMap.get(path);
if (sec != null) {
return new WsMappingResult(sec, Collections.<String, String>emptyMap());
}
// No exact match. Need to look for template matches.
UriTemplate pathUriTemplate = null;
try {
pathUriTemplate = new UriTemplate(path);
} catch (DeploymentException e) {
// Path is not valid so can't be matched to a WebSocketEndpoint
return null;
}
// Number of segments has to match
Integer key = Integer.valueOf(pathUriTemplate.getSegmentCount());
SortedSet<TemplatePathMatch> templateMatches = configTemplateMatchMap.get(key);
if (templateMatches == null) {
// No templates with an equal number of segments so there will be
// no matches
return null;
}
// List is in alphabetical order of normalised templates.
// Correct match is the first one that matches.
Map<String, String> pathParams = null;
for (TemplatePathMatch templateMatch : templateMatches) {
pathParams = templateMatch.getUriTemplate().match(pathUriTemplate);
if (pathParams != null) {
sec = templateMatch.getConfig();
break;
}
}
if (sec == null) {
// No match
return null;
}
return new WsMappingResult(sec, pathParams);
}
public boolean isEnforceNoAddAfterHandshake() {
return enforceNoAddAfterHandshake;
}
public void setEnforceNoAddAfterHandshake(boolean enforceNoAddAfterHandshake) {
this.enforceNoAddAfterHandshake = enforceNoAddAfterHandshake;
}
protected WsWriteTimeout getTimeout() {
return wsWriteTimeout;
}
/**
* {@inheritDoc}
*
* <p>Overridden to make it visible to other classes in this package.
*/
@Override
protected void registerSession(Endpoint endpoint, WsSession wsSession) {
super.registerSession(endpoint, wsSession);
if (wsSession.isOpen()
&& wsSession.getUserPrincipal() != null
&& wsSession.getHttpSessionId() != null) {
registerAuthenticatedSession(wsSession, wsSession.getHttpSessionId());
}
}
/**
* {@inheritDoc}
*
* <p>Overridden to make it visible to other classes in this package.
*/
@Override
protected void unregisterSession(Endpoint endpoint, WsSession wsSession) {
if (wsSession.getUserPrincipal() != null && wsSession.getHttpSessionId() != null) {
unregisterAuthenticatedSession(wsSession, wsSession.getHttpSessionId());
}
super.unregisterSession(endpoint, wsSession);
}
private void registerAuthenticatedSession(WsSession wsSession, String httpSessionId) {
Set<WsSession> wsSessions = authenticatedSessions.get(httpSessionId);
if (wsSessions == null) {
wsSessions = Collections.newSetFromMap(new ConcurrentHashMap<WsSession, Boolean>());
authenticatedSessions.putIfAbsent(httpSessionId, wsSessions);
wsSessions = authenticatedSessions.get(httpSessionId);
}
wsSessions.add(wsSession);
}
private void unregisterAuthenticatedSession(WsSession wsSession, String httpSessionId) {
Set<WsSession> wsSessions = authenticatedSessions.get(httpSessionId);
// wsSessions will be null if the HTTP session has ended
if (wsSessions != null) {
wsSessions.remove(wsSession);
}
}
public void closeAuthenticatedSession(String httpSessionId) {
Set<WsSession> wsSessions = authenticatedSessions.remove(httpSessionId);
if (wsSessions != null && !wsSessions.isEmpty()) {
for (WsSession wsSession : wsSessions) {
try {
wsSession.close(AUTHENTICATED_HTTP_SESSION_CLOSED);
} catch (IOException e) {
// Any IOExceptions during close will have been caught and the
// onError method called.
}
}
}
}
ExecutorService getExecutorService() {
return executorService;
}
private void shutdownExecutor() {
if (executorService == null) {
return;
}
executorService.shutdown();
try {
executorService.awaitTermination(10, TimeUnit.SECONDS);
} catch (InterruptedException e) {
// Ignore the interruption and carry on
}
}
private static void validateEncoders(Class<? extends Encoder>[] encoders)
throws DeploymentException {
for (Class<? extends Encoder> encoder : encoders) {
// Need to instantiate decoder to ensure it is valid and that
// deployment can be failed if it is not
@SuppressWarnings("unused")
Encoder instance;
try {
encoder.newInstance();
} catch (InstantiationException | IllegalAccessException e) {
throw new DeploymentException(
sm.getString("serverContainer.encoderFail", encoder.getName()), e);
}
}
}
private static class TemplatePathMatch {
private final ServerEndpointConfig config;
private final UriTemplate uriTemplate;
public TemplatePathMatch(ServerEndpointConfig config, UriTemplate uriTemplate) {
this.config = config;
this.uriTemplate = uriTemplate;
}
public ServerEndpointConfig getConfig() {
return config;
}
public UriTemplate getUriTemplate() {
return uriTemplate;
}
}
/** This Comparator implementation is thread-safe so only create a single instance. */
private static class TemplatePathMatchComparator implements Comparator<TemplatePathMatch> {
private static final TemplatePathMatchComparator INSTANCE = new TemplatePathMatchComparator();
public static TemplatePathMatchComparator getInstance() {
return INSTANCE;
}
private TemplatePathMatchComparator() {
// Hide default constructor
}
@Override
public int compare(TemplatePathMatch tpm1, TemplatePathMatch tpm2) {
return tpm1.getUriTemplate()
.getNormalizedPath()
.compareTo(tpm2.getUriTemplate().getNormalizedPath());
}
}
private static class WsThreadFactory implements ThreadFactory {
private final ThreadGroup tg;
private final AtomicLong count = new AtomicLong(0);
private WsThreadFactory(ThreadGroup tg) {
this.tg = tg;
}
@Override
public Thread newThread(Runnable r) {
Thread t = new Thread(tg, r);
t.setName(tg.getName() + "-" + count.incrementAndGet());
return t;
}
}
}
/**
* Startup/Shutdown shell program for Catalina. The following command line options are recognized:
*
* <ul>
* <li><b>-config {pathname}</b> - Set the pathname of the configuration file to be processed. If
* a relative path is specified, it will be interpreted as relative to the directory pathname
* specified by the "catalina.base" system property. [conf/server.xml]
* <li><b>-help</b> - Display usage information.
* <li><b>-nonaming</b> - Disable naming support.
* <li><b>start</b> - Start an instance of Catalina.
* <li><b>stop</b> - Stop the currently running instance of Catalina. </u>
* <p>Should do the same thing as Embedded, but using a server.xml file.
*
* @author Craig R. McClanahan
* @author Remy Maucherat
* @version $Id: Catalina.java 1066492 2011-02-02 15:02:49Z kkolinko $
*/
public class Catalina extends Embedded {
// ----------------------------------------------------- Instance Variables
/** Pathname to the server configuration file. */
protected String configFile = "conf/server.xml";
// XXX Should be moved to embedded
/** The shared extensions class loader for this server. */
protected ClassLoader parentClassLoader = Catalina.class.getClassLoader();
/** Are we starting a new server? */
protected boolean starting = false;
/** Are we stopping an existing server? */
protected boolean stopping = false;
/** Use shutdown hook flag. */
protected boolean useShutdownHook = true;
/** Shutdown hook. */
protected Thread shutdownHook = null;
// ------------------------------------------------------------- Properties
public void setConfig(String file) {
configFile = file;
}
public void setConfigFile(String file) {
configFile = file;
}
public String getConfigFile() {
return configFile;
}
public void setUseShutdownHook(boolean useShutdownHook) {
this.useShutdownHook = useShutdownHook;
}
public boolean getUseShutdownHook() {
return useShutdownHook;
}
/**
* Set the shared extensions class loader.
*
* @param parentClassLoader The shared extensions class loader.
*/
public void setParentClassLoader(ClassLoader parentClassLoader) {
this.parentClassLoader = parentClassLoader;
}
// ----------------------------------------------------------- Main Program
/**
* The application main program.
*
* @param args Command line arguments
*/
public static void main(String args[]) {
(new Catalina()).process(args);
}
/**
* The instance main program.
*
* @param args Command line arguments
*/
public void process(String args[]) {
setAwait(true);
setCatalinaHome();
setCatalinaBase();
try {
if (arguments(args)) {
if (starting) {
load(args);
start();
} else if (stopping) {
stopServer();
}
}
} catch (Exception e) {
e.printStackTrace(System.out);
}
}
// ------------------------------------------------------ Protected Methods
/**
* Process the specified command line arguments, and return <code>true</code> if we should
* continue processing; otherwise return <code>false</code>.
*
* @param args Command line arguments to process
*/
protected boolean arguments(String args[]) {
boolean isConfig = false;
if (args.length < 1) {
usage();
return (false);
}
for (int i = 0; i < args.length; i++) {
if (isConfig) {
configFile = args[i];
isConfig = false;
} else if (args[i].equals("-config")) {
isConfig = true;
} else if (args[i].equals("-nonaming")) {
setUseNaming(false);
} else if (args[i].equals("-help")) {
usage();
return (false);
} else if (args[i].equals("start")) {
starting = true;
stopping = false;
} else if (args[i].equals("stop")) {
starting = false;
stopping = true;
} else {
usage();
return (false);
}
}
return (true);
}
/** Return a File object representing our configuration file. */
protected File configFile() {
File file = new File(configFile);
if (!file.isAbsolute()) file = new File(System.getProperty("catalina.base"), configFile);
return (file);
}
/** Create and configure the Digester we will be using for startup. */
protected Digester createStartDigester() {
long t1 = System.currentTimeMillis();
// Initialize the digester
Digester digester = new Digester();
digester.setValidating(false);
digester.setRulesValidation(true);
HashMap<Class, List<String>> fakeAttributes = new HashMap<Class, List<String>>();
ArrayList<String> attrs = new ArrayList<String>();
attrs.add("className");
fakeAttributes.put(Object.class, attrs);
digester.setFakeAttributes(fakeAttributes);
digester.setClassLoader(StandardServer.class.getClassLoader());
// Configure the actions we will be using
digester.addObjectCreate("Server", "org.apache.catalina.core.StandardServer", "className");
digester.addSetProperties("Server");
digester.addSetNext("Server", "setServer", "org.apache.catalina.Server");
digester.addObjectCreate(
"Server/GlobalNamingResources", "org.apache.catalina.deploy.NamingResources");
digester.addSetProperties("Server/GlobalNamingResources");
digester.addSetNext(
"Server/GlobalNamingResources",
"setGlobalNamingResources",
"org.apache.catalina.deploy.NamingResources");
digester.addObjectCreate(
"Server/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Listener");
digester.addSetNext(
"Server/Listener", "addLifecycleListener", "org.apache.catalina.LifecycleListener");
digester.addObjectCreate(
"Server/Service", "org.apache.catalina.core.StandardService", "className");
digester.addSetProperties("Server/Service");
digester.addSetNext("Server/Service", "addService", "org.apache.catalina.Service");
digester.addObjectCreate(
"Server/Service/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Service/Listener");
digester.addSetNext(
"Server/Service/Listener", "addLifecycleListener", "org.apache.catalina.LifecycleListener");
// Executor
digester.addObjectCreate(
"Server/Service/Executor", "org.apache.catalina.core.StandardThreadExecutor", "className");
digester.addSetProperties("Server/Service/Executor");
digester.addSetNext("Server/Service/Executor", "addExecutor", "org.apache.catalina.Executor");
digester.addRule("Server/Service/Connector", new ConnectorCreateRule());
digester.addRule(
"Server/Service/Connector", new SetAllPropertiesRule(new String[] {"executor"}));
digester.addSetNext(
"Server/Service/Connector", "addConnector", "org.apache.catalina.connector.Connector");
digester.addObjectCreate(
"Server/Service/Connector/Listener",
null, // MUST be specified in the element
"className");
digester.addSetProperties("Server/Service/Connector/Listener");
digester.addSetNext(
"Server/Service/Connector/Listener",
"addLifecycleListener",
"org.apache.catalina.LifecycleListener");
// Add RuleSets for nested elements
digester.addRuleSet(new NamingRuleSet("Server/GlobalNamingResources/"));
digester.addRuleSet(new EngineRuleSet("Server/Service/"));
digester.addRuleSet(new HostRuleSet("Server/Service/Engine/"));
digester.addRuleSet(new ContextRuleSet("Server/Service/Engine/Host/"));
digester.addRuleSet(
ClusterRuleSetFactory.getClusterRuleSet("Server/Service/Engine/Host/Cluster/"));
digester.addRuleSet(new NamingRuleSet("Server/Service/Engine/Host/Context/"));
// When the 'engine' is found, set the parentClassLoader.
digester.addRule("Server/Service/Engine", new SetParentClassLoaderRule(parentClassLoader));
digester.addRuleSet(ClusterRuleSetFactory.getClusterRuleSet("Server/Service/Engine/Cluster/"));
long t2 = System.currentTimeMillis();
if (log.isDebugEnabled()) log.debug("Digester for server.xml created " + (t2 - t1));
return (digester);
}
/** Create and configure the Digester we will be using for shutdown. */
protected Digester createStopDigester() {
// Initialize the digester
Digester digester = new Digester();
// Configure the rules we need for shutting down
digester.addObjectCreate("Server", "org.apache.catalina.core.StandardServer", "className");
digester.addSetProperties("Server");
digester.addSetNext("Server", "setServer", "org.apache.catalina.Server");
return (digester);
}
public void stopServer() {
stopServer(null);
}
public void stopServer(String[] arguments) {
if (arguments != null) {
arguments(arguments);
}
Server s = getServer();
if (s == null) {
// Create and execute our Digester
Digester digester = createStopDigester();
digester.setClassLoader(Thread.currentThread().getContextClassLoader());
File file = configFile();
try {
InputSource is = new InputSource("file://" + file.getAbsolutePath());
FileInputStream fis = new FileInputStream(file);
is.setByteStream(fis);
digester.push(this);
digester.parse(is);
fis.close();
} catch (Exception e) {
log.error("Catalina.stop: ", e);
System.exit(1);
}
} else {
// Server object already present. Must be running as a service
if (s instanceof Lifecycle) {
try {
((Lifecycle) s).stop();
} catch (LifecycleException e) {
log.error("Catalina.stop: ", e);
}
return;
}
// else fall down
}
// Stop the existing server
s = getServer();
try {
if (s.getPort() > 0) {
String hostAddress = InetAddress.getByName("localhost").getHostAddress();
Socket socket = new Socket(hostAddress, getServer().getPort());
OutputStream stream = socket.getOutputStream();
String shutdown = s.getShutdown();
for (int i = 0; i < shutdown.length(); i++) stream.write(shutdown.charAt(i));
stream.flush();
stream.close();
socket.close();
} else {
log.error(sm.getString("catalina.stopServer"));
System.exit(1);
}
} catch (IOException e) {
log.error("Catalina.stop: ", e);
System.exit(1);
}
}
/**
* Set the <code>catalina.base</code> System property to the current working directory if it has
* not been set.
*
* @deprecated Use initDirs()
*/
public void setCatalinaBase() {
initDirs();
}
/**
* Set the <code>catalina.home</code> System property to the current working directory if it has
* not been set.
*
* @deprecated Use initDirs()
*/
public void setCatalinaHome() {
initDirs();
}
/** Start a new server instance. */
public void load() {
long t1 = System.nanoTime();
initDirs();
// Before digester - it may be needed
initNaming();
// Create and execute our Digester
Digester digester = createStartDigester();
InputSource inputSource = null;
InputStream inputStream = null;
File file = null;
try {
file = configFile();
inputStream = new FileInputStream(file);
inputSource = new InputSource("file://" + file.getAbsolutePath());
} catch (Exception e) {;
}
if (inputStream == null) {
try {
inputStream = getClass().getClassLoader().getResourceAsStream(getConfigFile());
inputSource =
new InputSource(getClass().getClassLoader().getResource(getConfigFile()).toString());
} catch (Exception e) {;
}
}
// This should be included in catalina.jar
// Alternative: don't bother with xml, just create it manually.
if (inputStream == null) {
try {
inputStream = getClass().getClassLoader().getResourceAsStream("server-embed.xml");
inputSource =
new InputSource(getClass().getClassLoader().getResource("server-embed.xml").toString());
} catch (Exception e) {;
}
}
if ((inputStream == null) && (file != null)) {
log.warn("Can't load server.xml from " + file.getAbsolutePath());
if (file.exists() && !file.canRead()) {
log.warn("Permissions incorrect, read permission is not allowed on the file.");
}
return;
}
try {
inputSource.setByteStream(inputStream);
digester.push(this);
digester.parse(inputSource);
inputStream.close();
} catch (Exception e) {
log.warn("Catalina.start using " + getConfigFile() + ": ", e);
return;
}
// Stream redirection
initStreams();
// Start the new server
if (getServer() instanceof Lifecycle) {
try {
getServer().initialize();
} catch (LifecycleException e) {
if (Boolean.getBoolean("org.apache.catalina.startup.EXIT_ON_INIT_FAILURE"))
throw new java.lang.Error(e);
else log.error("Catalina.start", e);
}
}
long t2 = System.nanoTime();
if (log.isInfoEnabled())
log.info("Initialization processed in " + ((t2 - t1) / 1000000) + " ms");
}
/*
* Load using arguments
*/
public void load(String args[]) {
try {
if (arguments(args)) load();
} catch (Exception e) {
e.printStackTrace(System.out);
}
}
public void create() {}
public void destroy() {}
/** Start a new server instance. */
public void start() {
if (getServer() == null) {
load();
}
if (getServer() == null) {
log.fatal("Cannot start server. Server instance is not configured.");
return;
}
long t1 = System.nanoTime();
// Start the new server
if (getServer() instanceof Lifecycle) {
try {
((Lifecycle) getServer()).start();
} catch (LifecycleException e) {
log.error("Catalina.start: ", e);
}
}
long t2 = System.nanoTime();
if (log.isInfoEnabled()) log.info("Server startup in " + ((t2 - t1) / 1000000) + " ms");
try {
// Register shutdown hook
if (useShutdownHook) {
if (shutdownHook == null) {
shutdownHook = new CatalinaShutdownHook();
}
Runtime.getRuntime().addShutdownHook(shutdownHook);
// If JULI is being used, disable JULI's shutdown hook since
// shutdown hooks run in parallel and log messages may be lost
// if JULI's hook completes before the CatalinaShutdownHook()
LogManager logManager = LogManager.getLogManager();
if (logManager instanceof ClassLoaderLogManager) {
((ClassLoaderLogManager) logManager).setUseShutdownHook(false);
}
}
} catch (Throwable t) {
// This will fail on JDK 1.2. Ignoring, as Tomcat can run
// fine without the shutdown hook.
}
if (await) {
await();
stop();
}
}
/** Stop an existing server instance. */
public void stop() {
try {
// Remove the ShutdownHook first so that server.stop()
// doesn't get invoked twice
if (useShutdownHook) {
Runtime.getRuntime().removeShutdownHook(shutdownHook);
// If JULI is being used, re-enable JULI's shutdown to ensure
// log messages are not lost
LogManager logManager = LogManager.getLogManager();
if (logManager instanceof ClassLoaderLogManager) {
((ClassLoaderLogManager) logManager).setUseShutdownHook(true);
}
}
} catch (Throwable t) {
// This will fail on JDK 1.2. Ignoring, as Tomcat can run
// fine without the shutdown hook.
}
// Shut down the server
if (getServer() instanceof Lifecycle) {
try {
((Lifecycle) getServer()).stop();
} catch (LifecycleException e) {
log.error("Catalina.stop", e);
}
}
}
/** Await and shutdown. */
public void await() {
getServer().await();
}
/** Print usage information for this application. */
protected void usage() {
System.out.println(
"usage: java org.apache.catalina.startup.Catalina"
+ " [ -config {pathname} ]"
+ " [ -nonaming ] "
+ " { -help | start | stop }");
}
// --------------------------------------- CatalinaShutdownHook Inner Class
// XXX Should be moved to embedded !
/** Shutdown hook which will perform a clean shutdown of Catalina if needed. */
protected class CatalinaShutdownHook extends Thread {
public void run() {
try {
if (getServer() != null) {
Catalina.this.stop();
}
} catch (Throwable ex) {
log.error(sm.getString("catalina.shutdownHookFail"), ex);
} finally {
// If JULI is used, shut JULI down *after* the server shuts down
// so log messages aren't lost
LogManager logManager = LogManager.getLogManager();
if (logManager instanceof ClassLoaderLogManager) {
((ClassLoaderLogManager) logManager).shutdown();
}
}
}
}
private static org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(Catalina.class);
}
/**
* A {@link PooledObjectFactory} that creates {@link PoolableConnection}s.
*
* @author Rodney Waldhoff
* @author Glenn L. Nielsen
* @author James House
* @author Dirk Verbeeck
* @since 2.0
*/
public class PoolableConnectionFactory implements PooledObjectFactory<PoolableConnection> {
private static final Log log = LogFactory.getLog(PoolableConnectionFactory.class);
/**
* Create a new {@code PoolableConnectionFactory}.
*
* @param connFactory the {@link ConnectionFactory} from which to obtain base {@link Connection}s
*/
public PoolableConnectionFactory(ConnectionFactory connFactory, ObjectName dataSourceJmxName) {
_connFactory = connFactory;
this.dataSourceJmxName = dataSourceJmxName;
}
/**
* Sets the query I use to {@link #validateObject validate} {@link Connection}s. Should return at
* least one row. If not specified, {@link Connection#isValid(int)} will be used to validate
* connections.
*
* @param validationQuery a query to use to {@link #validateObject validate} {@link Connection}s.
*/
public void setValidationQuery(String validationQuery) {
_validationQuery = validationQuery;
}
/**
* Sets the validation query timeout, the amount of time, in seconds, that connection validation
* will wait for a response from the database when executing a validation query. Use a value less
* than or equal to 0 for no timeout.
*
* @param timeout new validation query timeout value in seconds
*/
public void setValidationQueryTimeout(int timeout) {
_validationQueryTimeout = timeout;
}
/**
* Sets the SQL statements I use to initialize newly created {@link Connection}s. Using {@code
* null} turns off connection initialization.
*
* @param connectionInitSqls SQL statement to initialize {@link Connection}s.
*/
public void setConnectionInitSql(Collection<String> connectionInitSqls) {
_connectionInitSqls = connectionInitSqls;
}
/**
* Sets the {@link ObjectPool} in which to pool {@link Connection}s.
*
* @param pool the {@link ObjectPool} in which to pool those {@link Connection}s
*/
public synchronized void setPool(ObjectPool<PoolableConnection> pool) {
if (null != _pool && pool != _pool) {
try {
_pool.close();
} catch (Exception e) {
// ignored !?!
}
}
_pool = pool;
}
/**
* Returns the {@link ObjectPool} in which {@link Connection}s are pooled.
*
* @return the connection pool
*/
public synchronized ObjectPool<PoolableConnection> getPool() {
return _pool;
}
/**
* Sets the default "read only" setting for borrowed {@link Connection}s
*
* @param defaultReadOnly the default "read only" setting for borrowed {@link Connection}s
*/
public void setDefaultReadOnly(Boolean defaultReadOnly) {
_defaultReadOnly = defaultReadOnly;
}
/**
* Sets the default "auto commit" setting for borrowed {@link Connection}s
*
* @param defaultAutoCommit the default "auto commit" setting for borrowed {@link Connection}s
*/
public void setDefaultAutoCommit(Boolean defaultAutoCommit) {
_defaultAutoCommit = defaultAutoCommit;
}
/**
* Sets the default "Transaction Isolation" setting for borrowed {@link Connection}s
*
* @param defaultTransactionIsolation the default "Transaction Isolation" setting for returned
* {@link Connection}s
*/
public void setDefaultTransactionIsolation(int defaultTransactionIsolation) {
_defaultTransactionIsolation = defaultTransactionIsolation;
}
/**
* Sets the default "catalog" setting for borrowed {@link Connection}s
*
* @param defaultCatalog the default "catalog" setting for borrowed {@link Connection}s
*/
public void setDefaultCatalog(String defaultCatalog) {
_defaultCatalog = defaultCatalog;
}
public void setCacheState(boolean cacheState) {
this._cacheState = cacheState;
}
public void setPoolStatements(boolean poolStatements) {
this.poolStatements = poolStatements;
}
public void setMaxOpenPrepatedStatements(int maxOpenPreparedStatements) {
this.maxOpenPreparedStatements = maxOpenPreparedStatements;
}
/**
* Sets the maximum lifetime in milliseconds of a connection after which the connection will
* always fail activation, passivation and validation. A value of zero or less indicates an
* infinite lifetime. The default value is -1.
*/
public void setMaxConnLifetimeMillis(long maxConnLifetimeMillis) {
this.maxConnLifetimeMillis = maxConnLifetimeMillis;
}
public boolean isEnableAutoCommitOnReturn() {
return enableAutoCommitOnReturn;
}
public void setEnableAutoCommitOnReturn(boolean enableAutoCommitOnReturn) {
this.enableAutoCommitOnReturn = enableAutoCommitOnReturn;
}
public boolean isRollbackOnReturn() {
return rollbackOnReturn;
}
public void setRollbackOnReturn(boolean rollbackOnReturn) {
this.rollbackOnReturn = rollbackOnReturn;
}
public Integer getDefaultQueryTimeout() {
return defaultQueryTimeout;
}
public void setDefaultQueryTimeout(Integer defaultQueryTimeout) {
this.defaultQueryTimeout = defaultQueryTimeout;
}
/**
* SQL_STATE codes considered to signal fatal conditions.
*
* <p>Overrides the defaults in {@link Utils#DISCONNECTION_SQL_CODES} (plus anything starting with
* {@link Utils#DISCONNECTION_SQL_CODE_PREFIX}). If this property is non-null and {@link
* #isFastFailValidation()} is {@code true}, whenever connections created by this factory generate
* exceptions with SQL_STATE codes in this list, they will be marked as "fatally disconnected" and
* subsequent validations will fail fast (no attempt at isValid or validation query).
*
* <p>If {@link #isFastFailValidation()} is {@code false} setting this property has no effect.
*
* @return SQL_STATE codes overriding defaults
* @since 2.1
*/
public Collection<String> getDisconnectionSqlCodes() {
return _disconnectionSqlCodes;
}
/**
* @see #getDisconnectionSqlCodes()
* @param disconnectionSqlCodes
* @since 2.1
*/
public void setDisconnectionSqlCodes(Collection<String> disconnectionSqlCodes) {
_disconnectionSqlCodes = disconnectionSqlCodes;
}
/**
* True means that validation will fail immediately for connections that have previously thrown
* SQLExceptions with SQL_STATE indicating fatal disconnection errors.
*
* @return true if connections created by this factory will fast fail validation.
* @see #setDisconnectionSqlCodes(Collection)
* @since 2.1
*/
public boolean isFastFailValidation() {
return _fastFailValidation;
}
/**
* @see #isFastFailValidation()
* @param fastFailValidation true means connections created by this factory will fast fail
* validation
* @since 2.1
*/
public void setFastFailValidation(boolean fastFailValidation) {
_fastFailValidation = fastFailValidation;
}
@Override
public PooledObject<PoolableConnection> makeObject() throws Exception {
Connection conn = _connFactory.createConnection();
if (conn == null) {
throw new IllegalStateException("Connection factory returned null from createConnection");
}
try {
initializeConnection(conn);
} catch (SQLException sqle) {
// Make sure the connection is closed
try {
conn.close();
} catch (SQLException ignore) {
// ignore
}
// Rethrow original exception so it is visible to caller
throw sqle;
}
long connIndex = connectionIndex.getAndIncrement();
if (poolStatements) {
conn = new PoolingConnection(conn);
GenericKeyedObjectPoolConfig config = new GenericKeyedObjectPoolConfig();
config.setMaxTotalPerKey(-1);
config.setBlockWhenExhausted(false);
config.setMaxWaitMillis(0);
config.setMaxIdlePerKey(1);
config.setMaxTotal(maxOpenPreparedStatements);
if (dataSourceJmxName != null) {
StringBuilder base = new StringBuilder(dataSourceJmxName.toString());
base.append(Constants.JMX_CONNECTION_BASE_EXT);
base.append(Long.toString(connIndex));
config.setJmxNameBase(base.toString());
config.setJmxNamePrefix(Constants.JMX_STATEMENT_POOL_PREFIX);
} else {
config.setJmxEnabled(false);
}
KeyedObjectPool<PStmtKey, DelegatingPreparedStatement> stmtPool =
new GenericKeyedObjectPool<>((PoolingConnection) conn, config);
((PoolingConnection) conn).setStatementPool(stmtPool);
((PoolingConnection) conn).setCacheState(_cacheState);
}
// Register this connection with JMX
ObjectName connJmxName;
if (dataSourceJmxName == null) {
connJmxName = null;
} else {
connJmxName =
new ObjectName(
dataSourceJmxName.toString() + Constants.JMX_CONNECTION_BASE_EXT + connIndex);
}
PoolableConnection pc =
new PoolableConnection(
conn, _pool, connJmxName, _disconnectionSqlCodes, _fastFailValidation);
return new DefaultPooledObject<>(pc);
}
protected void initializeConnection(Connection conn) throws SQLException {
Collection<String> sqls = _connectionInitSqls;
if (conn.isClosed()) {
throw new SQLException("initializeConnection: connection closed");
}
if (null != sqls) {
try (Statement stmt = conn.createStatement(); ) {
for (String sql : sqls) {
if (sql == null) {
throw new NullPointerException("null connectionInitSqls element");
}
stmt.execute(sql);
}
}
}
}
@Override
public void destroyObject(PooledObject<PoolableConnection> p) throws Exception {
p.getObject().reallyClose();
}
@Override
public boolean validateObject(PooledObject<PoolableConnection> p) {
try {
validateLifetime(p);
validateConnection(p.getObject());
return true;
} catch (Exception e) {
if (log.isDebugEnabled()) {
log.debug(Utils.getMessage("poolableConnectionFactory.validateObject.fail"), e);
}
return false;
}
}
public void validateConnection(PoolableConnection conn) throws SQLException {
if (conn.isClosed()) {
throw new SQLException("validateConnection: connection closed");
}
conn.validate(_validationQuery, _validationQueryTimeout);
}
@Override
public void passivateObject(PooledObject<PoolableConnection> p) throws Exception {
validateLifetime(p);
PoolableConnection conn = p.getObject();
Boolean connAutoCommit = null;
if (rollbackOnReturn) {
connAutoCommit = Boolean.valueOf(conn.getAutoCommit());
if (!connAutoCommit.booleanValue() && !conn.isReadOnly()) {
conn.rollback();
}
}
conn.clearWarnings();
// DBCP-97 / DBCP-399 / DBCP-351 Idle connections in the pool should
// have autoCommit enabled
if (enableAutoCommitOnReturn) {
if (connAutoCommit == null) {
connAutoCommit = Boolean.valueOf(conn.getAutoCommit());
}
if (!connAutoCommit.booleanValue()) {
conn.setAutoCommit(true);
}
}
conn.passivate();
}
@Override
public void activateObject(PooledObject<PoolableConnection> p) throws Exception {
validateLifetime(p);
PoolableConnection conn = p.getObject();
conn.activate();
if (_defaultAutoCommit != null && conn.getAutoCommit() != _defaultAutoCommit.booleanValue()) {
conn.setAutoCommit(_defaultAutoCommit.booleanValue());
}
if (_defaultTransactionIsolation != UNKNOWN_TRANSACTIONISOLATION
&& conn.getTransactionIsolation() != _defaultTransactionIsolation) {
conn.setTransactionIsolation(_defaultTransactionIsolation);
}
if (_defaultReadOnly != null && conn.isReadOnly() != _defaultReadOnly.booleanValue()) {
conn.setReadOnly(_defaultReadOnly.booleanValue());
}
if (_defaultCatalog != null && !_defaultCatalog.equals(conn.getCatalog())) {
conn.setCatalog(_defaultCatalog);
}
conn.setDefaultQueryTimeout(defaultQueryTimeout);
}
private void validateLifetime(PooledObject<PoolableConnection> p) throws Exception {
if (maxConnLifetimeMillis > 0) {
long lifetime = System.currentTimeMillis() - p.getCreateTime();
if (lifetime > maxConnLifetimeMillis) {
throw new LifetimeExceededException(
Utils.getMessage(
"connectionFactory.lifetimeExceeded",
Long.valueOf(lifetime),
Long.valueOf(maxConnLifetimeMillis)));
}
}
}
protected ConnectionFactory getConnectionFactory() {
return _connFactory;
}
protected boolean getPoolStatements() {
return poolStatements;
}
protected int getMaxOpenPreparedStatements() {
return maxOpenPreparedStatements;
}
protected boolean getCacheState() {
return _cacheState;
}
protected ObjectName getDataSourceJmxName() {
return dataSourceJmxName;
}
protected AtomicLong getConnectionIndex() {
return connectionIndex;
}
private final ConnectionFactory _connFactory;
private final ObjectName dataSourceJmxName;
private volatile String _validationQuery = null;
private volatile int _validationQueryTimeout = -1;
private Collection<String> _connectionInitSqls = null;
private Collection<String> _disconnectionSqlCodes = null;
private boolean _fastFailValidation = false;
private volatile ObjectPool<PoolableConnection> _pool = null;
private Boolean _defaultReadOnly = null;
private Boolean _defaultAutoCommit = null;
private boolean enableAutoCommitOnReturn = true;
private boolean rollbackOnReturn = true;
private int _defaultTransactionIsolation = UNKNOWN_TRANSACTIONISOLATION;
private String _defaultCatalog;
private boolean _cacheState;
private boolean poolStatements = false;
private int maxOpenPreparedStatements = GenericKeyedObjectPoolConfig.DEFAULT_MAX_TOTAL_PER_KEY;
private long maxConnLifetimeMillis = -1;
private final AtomicLong connectionIndex = new AtomicLong(0);
private Integer defaultQueryTimeout = null;
/** Internal constant to indicate the level is not set. */
static final int UNKNOWN_TRANSACTIONISOLATION = -1;
}
/** * Represents the session locking hooks that must be implemented by the various locking strategies. * * @author <a href="mailto:[email protected]">Martin Grotzke</a> */ public abstract class LockingStrategy { public static enum LockingMode { /** Sessions are never locked. */ NONE, /** Sessions are locked for each request. */ ALL, /** * Readonly requests are tracked and for requests that modify the session the session is locked. */ AUTO, /** The application explicitely manages locks */ APP, /** The session is locked for configured request patterns * */ URI_PATTERN } protected static final String LOCK_VALUE = "locked"; protected static final int LOCK_RETRY_INTERVAL = 10; protected static final int LOCK_MAX_RETRY_INTERVAL = 500; protected final Log _log = LogFactory.getLog(getClass()); protected MemcachedSessionService _manager; protected final MemcachedClient _memcached; protected LRUCache<String, Boolean> _missingSessionsCache; protected final SessionIdFormat _sessionIdFormat; private final ExecutorService _executor; private final boolean _storeSecondaryBackup; protected final Statistics _stats; protected final CurrentRequest _currentRequest; protected final StorageKeyFormat _storageKeyFormat; protected LockingStrategy( @Nonnull final MemcachedSessionService manager, @Nonnull final MemcachedNodesManager memcachedNodesManager, @Nonnull final MemcachedClient memcached, @Nonnull final LRUCache<String, Boolean> missingSessionsCache, final boolean storeSecondaryBackup, @Nonnull final Statistics stats, @Nonnull final CurrentRequest currentRequest) { _manager = manager; _memcached = memcached; _missingSessionsCache = missingSessionsCache; _sessionIdFormat = memcachedNodesManager.getSessionIdFormat(); _storeSecondaryBackup = storeSecondaryBackup; _stats = stats; _currentRequest = currentRequest; _storageKeyFormat = memcachedNodesManager.getStorageKeyFormat(); _executor = Executors.newFixedThreadPool( Runtime.getRuntime().availableProcessors(), new NamedThreadFactory("msm-2ndary-backup")); } /** Creates the appropriate {@link LockingStrategy} for the given {@link LockingMode}. */ @CheckForNull public static LockingStrategy create( @Nullable final LockingMode lockingMode, @Nullable final Pattern uriPattern, @Nonnull final MemcachedClient memcached, @Nonnull final MemcachedSessionService manager, @Nonnull final MemcachedNodesManager memcachedNodesManager, @Nonnull final LRUCache<String, Boolean> missingSessionsCache, final boolean storeSecondaryBackup, @Nonnull final Statistics stats, @Nonnull final CurrentRequest currentRequest) { if (lockingMode == null) { return null; } switch (lockingMode) { case ALL: return new LockingStrategyAll( manager, memcachedNodesManager, memcached, missingSessionsCache, storeSecondaryBackup, stats, currentRequest); case AUTO: return new LockingStrategyAuto( manager, memcachedNodesManager, memcached, missingSessionsCache, storeSecondaryBackup, stats, currentRequest); case URI_PATTERN: return new LockingStrategyUriPattern( manager, memcachedNodesManager, uriPattern, memcached, missingSessionsCache, storeSecondaryBackup, stats, currentRequest); case NONE: return new LockingStrategyNone( manager, memcachedNodesManager, memcached, missingSessionsCache, storeSecondaryBackup, stats, currentRequest); default: throw new IllegalArgumentException("LockingMode not yet supported: " + lockingMode); } } /** Shutdown this lockingStrategy, which frees all resources / releases threads. */ public void shutdown() { _executor.shutdown(); } protected LockStatus lock(final String sessionId) { return lock(sessionId, _manager.getOperationTimeout(), TimeUnit.MILLISECONDS); } protected LockStatus lock(final String sessionId, final long timeout, final TimeUnit timeUnit) { if (_log.isDebugEnabled()) { _log.debug("Locking session " + sessionId); } final long start = System.currentTimeMillis(); try { acquireLock( sessionId, LOCK_RETRY_INTERVAL, LOCK_MAX_RETRY_INTERVAL, timeUnit.toMillis(timeout), System.currentTimeMillis()); _stats.registerSince(ACQUIRE_LOCK, start); if (_log.isDebugEnabled()) { _log.debug("Locked session " + sessionId); } return LockStatus.LOCKED; } catch (final TimeoutException e) { _log.warn( "Reached timeout when trying to aquire lock for session " + sessionId + ". Will use this session without this lock."); _stats.registerSince(ACQUIRE_LOCK_FAILURE, start); return LockStatus.COULD_NOT_AQUIRE_LOCK; } catch (final InterruptedException e) { Thread.currentThread().interrupt(); throw new RuntimeException("Got interrupted while trying to lock session.", e); } catch (final ExecutionException e) { _log.warn("An exception occurred when trying to aquire lock for session " + sessionId); _stats.registerSince(ACQUIRE_LOCK_FAILURE, start); return LockStatus.COULD_NOT_AQUIRE_LOCK; } } protected void acquireLock( @Nonnull final String sessionId, final long retryInterval, final long maxRetryInterval, final long timeout, final long start) throws InterruptedException, ExecutionException, TimeoutException { final Future<Boolean> result = _memcached.add(_sessionIdFormat.createLockName(sessionId), 5, LOCK_VALUE); if (result.get().booleanValue()) { if (_log.isDebugEnabled()) { _log.debug("Locked session " + sessionId); } return; } else { checkTimeoutAndWait(sessionId, retryInterval, timeout, start); acquireLock( sessionId, min(retryInterval * 2, maxRetryInterval), maxRetryInterval, timeout, start); } } protected void checkTimeoutAndWait( @Nonnull final String sessionId, final long timeToWait, final long timeout, final long start) throws TimeoutException, InterruptedException { if (System.currentTimeMillis() >= start + timeout) { throw new TimeoutException( "Reached timeout when trying to aquire lock for session " + sessionId); } if (_log.isDebugEnabled()) { _log.debug( "Could not aquire lock for session " + sessionId + ", waiting " + timeToWait + " millis now..."); } sleep(timeToWait); } protected void releaseLock(@Nonnull final String sessionId) { try { if (_log.isDebugEnabled()) { _log.debug("Releasing lock for session " + sessionId); } final long start = System.currentTimeMillis(); _memcached.delete(_sessionIdFormat.createLockName(sessionId)).get(); _stats.registerSince(RELEASE_LOCK, start); } catch (final Exception e) { _log.warn("Caught exception when trying to release lock for session " + sessionId, e); } } /** * Used to register the given requestId as readonly request (for mode auto), so that further * requests like this won't acquire the lock. * * @param requestId the uri/id of the request for that the session backup shall be performed, used * for readonly tracking. */ public void registerReadonlyRequest(final String requestId) { // default empty } /** * Is invoked for the backup of a non-sticky session that was not accessed for the current * request. */ protected void onBackupWithoutLoadedSession( @Nonnull final String sessionId, @Nonnull final String requestId, @Nonnull final BackupSessionService backupSessionService) { if (!_sessionIdFormat.isValid(sessionId)) { return; } try { final long start = System.currentTimeMillis(); final String validityKey = _sessionIdFormat.createValidityInfoKeyName(sessionId); final SessionValidityInfo validityInfo = loadSessionValidityInfoForValidityKey(validityKey); if (validityInfo == null) { _log.warn("Found no validity info for session id " + sessionId); return; } final int maxInactiveInterval = validityInfo.getMaxInactiveInterval(); final byte[] validityData = encode(maxInactiveInterval, System.currentTimeMillis(), System.currentTimeMillis()); // fix for #88, along with the change in session.getMemcachedExpirationTimeToSet final int expiration = maxInactiveInterval <= 0 ? 0 : maxInactiveInterval; final Future<Boolean> validityResult = _memcached.set(validityKey, toMemcachedExpiration(expiration), validityData); if (!_manager.isSessionBackupAsync()) { validityResult.get(_manager.getSessionBackupTimeout(), TimeUnit.MILLISECONDS); } /* * - ping session * - ping session backup * - save validity backup */ final Callable<?> backupSessionTask = new OnBackupWithoutLoadedSessionTask( sessionId, _storeSecondaryBackup, validityKey, validityData, maxInactiveInterval); _executor.submit(backupSessionTask); if (_log.isDebugEnabled()) { _log.debug("Stored session validity info for session " + sessionId); } _stats.registerSince(NON_STICKY_ON_BACKUP_WITHOUT_LOADED_SESSION, start); } catch (final Throwable e) { _log.warn("An error when trying to load/update validity info.", e); } } /** * Is invoked after the backup of the session is initiated, it's represented by the provided * backupResult. The requestId is identifying the request. */ protected void onAfterBackupSession( @Nonnull final MemcachedBackupSession session, final boolean backupWasForced, @Nonnull final Future<BackupResult> result, @Nonnull final String requestId, @Nonnull final BackupSessionService backupSessionService) { if (!_sessionIdFormat.isValid(session.getIdInternal())) { return; } try { final long start = System.currentTimeMillis(); final int maxInactiveInterval = session.getMaxInactiveInterval(); final byte[] validityData = encode( maxInactiveInterval, session.getLastAccessedTimeInternal(), session.getThisAccessedTimeInternal()); final String validityKey = _sessionIdFormat.createValidityInfoKeyName(session.getIdInternal()); // fix for #88, along with the change in session.getMemcachedExpirationTimeToSet final int expiration = maxInactiveInterval <= 0 ? 0 : maxInactiveInterval; final Future<Boolean> validityResult = _memcached.set(validityKey, toMemcachedExpiration(expiration), validityData); if (!_manager.isSessionBackupAsync()) { // TODO: together with session backup wait not longer than sessionBackupTimeout. // Details: Now/here we're waiting the whole session backup timeout, even if (perhaps) some // time // was spent before when waiting for session backup result. // For sync session backup it would be better to set both the session data and // validity info and afterwards wait for both results (but in sum no longer than // sessionBackupTimeout) validityResult.get(_manager.getSessionBackupTimeout(), TimeUnit.MILLISECONDS); } if (_log.isDebugEnabled()) { _log.debug("Stored session validity info for session " + session.getIdInternal()); } /* The following task are performed outside of the request thread (includes waiting for the backup result): * - ping session if the backup was skipped (depends on the backup result) * - save secondary session backup if session was modified (backup not skipped) * - ping secondary session backup if the backup was skipped * - save secondary validity backup */ final boolean pingSessionIfBackupWasSkipped = !backupWasForced; final boolean performAsyncTasks = pingSessionIfBackupWasSkipped || _storeSecondaryBackup; if (performAsyncTasks) { final Callable<?> backupSessionTask = new OnAfterBackupSessionTask( session, result, pingSessionIfBackupWasSkipped, backupSessionService, _storeSecondaryBackup, validityKey, validityData); _executor.submit(backupSessionTask); } _stats.registerSince(NON_STICKY_AFTER_BACKUP, start); } catch (final Throwable e) { _log.warn("An error occurred during onAfterBackupSession.", e); } } @CheckForNull protected SessionValidityInfo loadSessionValidityInfo(@Nonnull final String sessionId) { return loadSessionValidityInfoForValidityKey( _sessionIdFormat.createValidityInfoKeyName(sessionId)); } @CheckForNull protected SessionValidityInfo loadSessionValidityInfoForValidityKey( @Nonnull final String validityInfoKey) { final byte[] validityInfo = (byte[]) _memcached.get(_storageKeyFormat.format(validityInfoKey)); return validityInfo != null ? decode(validityInfo) : null; } @CheckForNull protected SessionValidityInfo loadBackupSessionValidityInfo(@Nonnull final String sessionId) { final String key = _sessionIdFormat.createValidityInfoKeyName(sessionId); final String backupKey = _sessionIdFormat.createBackupKey(key); return loadSessionValidityInfoForValidityKey(backupKey); } /** Invoked before the session for this sessionId is loaded from memcached. */ @CheckForNull protected abstract LockStatus onBeforeLoadFromMemcached(@Nonnull String sessionId) throws InterruptedException, ExecutionException; /** * Invoked after a non-sticky session is loaded from memcached, can be used to update some session * fields based on separately stored information (e.g. session validity info). * * @param lockStatus the {@link LockStatus} that was returned from {@link * #onBeforeLoadFromMemcached(String)}. */ protected void onAfterLoadFromMemcached( @Nonnull final MemcachedBackupSession session, @Nullable final LockStatus lockStatus) { session.setLockStatus(lockStatus); final long start = System.currentTimeMillis(); final SessionValidityInfo info = loadSessionValidityInfo(session.getIdInternal()); if (info != null) { _stats.registerSince(NON_STICKY_AFTER_LOAD_FROM_MEMCACHED, start); session.setLastAccessedTimeInternal(info.getLastAccessedTime()); session.setThisAccessedTimeInternal(info.getThisAccessedTime()); } else { _log.warn("No validity info available for session " + session.getIdInternal()); } } /** Invoked after a non-sticky session is removed from memcached. */ protected void onAfterDeleteFromMemcached(@Nonnull final String sessionId) { final long start = System.currentTimeMillis(); final String validityInfoKey = _sessionIdFormat.createValidityInfoKeyName(sessionId); _memcached.delete(validityInfoKey); if (_storeSecondaryBackup) { _memcached.delete(_sessionIdFormat.createBackupKey(sessionId)); _memcached.delete(_sessionIdFormat.createBackupKey(validityInfoKey)); } _stats.registerSince(NON_STICKY_AFTER_DELETE_FROM_MEMCACHED, start); } private boolean pingSession(@Nonnull final String sessionId) throws InterruptedException { final Future<Boolean> touchResult = _memcached.add(_storageKeyFormat.format(sessionId), 1, 1); try { if (touchResult.get()) { _stats.nonStickySessionsPingFailed(); _log.warn( "The session " + sessionId + " should be touched in memcached, but it does not exist therein."); return false; } _log.debug("The session was ping'ed successfully."); return true; } catch (final ExecutionException e) { _log.warn("An exception occurred when trying to ping session " + sessionId, e); return false; } } private void pingSession( @Nonnull final MemcachedBackupSession session, @Nonnull final BackupSessionService backupSessionService) throws InterruptedException { final Future<Boolean> touchResult = _memcached.add(_storageKeyFormat.format(session.getIdInternal()), 5, 1); try { if (touchResult.get()) { _stats.nonStickySessionsPingFailed(); _log.warn( "The session " + session.getIdInternal() + " should be touched in memcached, but it does not exist" + " therein. Will store in memcached again."); updateSession(session, backupSessionService); } else _log.debug("The session was ping'ed successfully."); } catch (final ExecutionException e) { _log.warn("An exception occurred when trying to ping session " + session.getIdInternal(), e); } } private void updateSession( @Nonnull final MemcachedBackupSession session, @Nonnull final BackupSessionService backupSessionService) throws InterruptedException { final Future<BackupResult> result = backupSessionService.backupSession(session, true); try { if (result.get().getStatus() != BackupResultStatus.SUCCESS) { _log.warn( "Update for session (after unsuccessful ping) did not return SUCCESS, but " + result.get()); } } catch (final ExecutionException e) { _log.warn( "An exception occurred when trying to update session " + session.getIdInternal(), e); } } private final class OnAfterBackupSessionTask implements Callable<Void> { private final MemcachedBackupSession _session; private final Future<BackupResult> _result; private final boolean _pingSessionIfBackupWasSkipped; private final boolean _storeSecondaryBackup; private final BackupSessionService _backupSessionService; private final String _validityKey; private final byte[] _validityData; private OnAfterBackupSessionTask( @Nonnull final MemcachedBackupSession session, @Nonnull final Future<BackupResult> result, final boolean pingSessionIfBackupWasSkipped, @Nonnull final BackupSessionService backupSessionService, final boolean storeSecondaryBackup, @Nonnull final String validityKey, @Nonnull final byte[] validityData) { _session = session; _result = result; _pingSessionIfBackupWasSkipped = pingSessionIfBackupWasSkipped; _storeSecondaryBackup = storeSecondaryBackup; _validityKey = validityKey; _validityData = validityData; _backupSessionService = backupSessionService; } @Override public Void call() throws Exception { final BackupResult backupResult = _result.get(); if (_pingSessionIfBackupWasSkipped) { if (backupResult.getStatus() == BackupResultStatus.SKIPPED) { pingSession(_session, _backupSessionService); } } /* * For non-sticky sessions we store a backup of the session in a secondary memcached node (under a special key * that's resolved by the SuffixBasedNodeLocator), but only when we have more than 1 memcached node configured... */ if (_storeSecondaryBackup) { try { if (_log.isDebugEnabled()) { _log.debug( "Storing backup in secondary memcached for non-sticky session " + _session.getId()); } if (backupResult.getStatus() == BackupResultStatus.SKIPPED) { pingSessionBackup(_session); } else { saveSessionBackupFromResult(backupResult); } saveValidityBackup(); } catch (final RuntimeException e) { _log.info("Could not store secondary backup of session " + _session.getIdInternal(), e); } } return null; } public void saveSessionBackupFromResult(final BackupResult backupResult) { final byte[] data = backupResult.getData(); if (data != null) { final String key = _sessionIdFormat.createBackupKey(_session.getId()); _memcached.set( key, toMemcachedExpiration(_session.getMemcachedExpirationTimeToSet()), data); } else { _log.warn( "No data set for backupResultStatus " + backupResult.getStatus() + " for sessionId " + _session.getIdInternal() + ", skipping backup" + " of non-sticky session in secondary memcached."); } } public void saveValidityBackup() { final String backupValidityKey = _sessionIdFormat.createBackupKey(_validityKey); final int maxInactiveInterval = _session.getMaxInactiveInterval(); // fix for #88, along with the change in session.getMemcachedExpirationTimeToSet final int expiration = maxInactiveInterval <= 0 ? 0 : maxInactiveInterval; _memcached.set(backupValidityKey, toMemcachedExpiration(expiration), _validityData); } private void pingSessionBackup(@Nonnull final MemcachedBackupSession session) throws InterruptedException { final String key = _sessionIdFormat.createBackupKey(session.getId()); final Future<Boolean> touchResultFuture = _memcached.add(key, 5, 1); try { final boolean touchResult = touchResultFuture.get(_manager.getOperationTimeout(), TimeUnit.MILLISECONDS); if (touchResult) { _log.warn( "The secondary backup for session " + session.getIdInternal() + " should be touched in memcached, but it seemed to be" + " not existing. Will store in memcached again."); saveSessionBackup(session, key); } else _log.debug("The secondary session backup was ping'ed successfully."); } catch (final TimeoutException e) { _log.warn( "The secondary backup for session " + session.getIdInternal() + " could not be completed within " + _manager.getOperationTimeout() + " millis, was cancelled now."); } catch (final ExecutionException e) { _log.warn( "An exception occurred when trying to ping session " + session.getIdInternal(), e); } } public void saveSessionBackup( @Nonnull final MemcachedBackupSession session, @Nonnull final String key) throws InterruptedException { try { final byte[] data = _manager.serialize(session); final Future<Boolean> backupResult = _memcached.set( key, toMemcachedExpiration(session.getMemcachedExpirationTimeToSet()), data); if (!backupResult.get().booleanValue()) { _log.warn( "Update for secondary backup of session " + session.getIdInternal() + " (after unsuccessful ping) did not return sucess."); } } catch (final ExecutionException e) { _log.warn( "An exception occurred when trying to update secondary session backup for " + session.getIdInternal(), e); } } } private final class OnBackupWithoutLoadedSessionTask implements Callable<Void> { private final String _sessionId; private final boolean _storeSecondaryBackup; private final String _validityKey; private final byte[] _validityData; private final int _maxInactiveInterval; private OnBackupWithoutLoadedSessionTask( @Nonnull final String sessionId, final boolean storeSecondaryBackup, @Nonnull final String validityKey, @Nonnull final byte[] validityData, final int maxInactiveInterval) { _sessionId = sessionId; _storeSecondaryBackup = storeSecondaryBackup; _validityKey = validityKey; _validityData = validityData; _maxInactiveInterval = maxInactiveInterval; } @Override public Void call() throws Exception { pingSession(_sessionId); /* * For non-sticky sessions we store/ping a backup of the session in a secondary memcached node (under a special key * that's resolved by the SuffixBasedNodeLocator), but only when we have more than 1 memcached node configured... */ if (_storeSecondaryBackup) { try { pingSessionBackup(_sessionId); final String backupValidityKey = _sessionIdFormat.createBackupKey(_validityKey); // fix for #88, along with the change in session.getMemcachedExpirationTimeToSet final int expiration = _maxInactiveInterval <= 0 ? 0 : _maxInactiveInterval; _memcached.set(backupValidityKey, toMemcachedExpiration(expiration), _validityData); } catch (final RuntimeException e) { _log.info("Could not store secondary backup of session " + _sessionId, e); } } return null; } private boolean pingSessionBackup(@Nonnull final String sessionId) throws InterruptedException { final String key = _sessionIdFormat.createBackupKey(sessionId); final Future<Boolean> touchResultFuture = _memcached.add(key, 1, 1); try { final boolean touchResult = touchResultFuture.get(200, TimeUnit.MILLISECONDS); if (touchResult) { _log.warn( "The secondary backup for session " + sessionId + " should be touched in memcached, but it seemed to be" + " not existing."); return false; } _log.debug("The secondary session backup was ping'ed successfully."); return true; } catch (final TimeoutException e) { _log.warn( "The secondary backup for session " + sessionId + " could not be completed within 200 millis, was cancelled now."); return false; } catch (final ExecutionException e) { _log.warn("An exception occurred when trying to ping session " + sessionId, e); return false; } } } // ---------------- for testing @Nonnull ExecutorService getExecutorService() { return _executor; } }
/**
* Abstract the protocol implementation, including threading, etc. Processor is single threaded and
* specific to stream-based protocols, will not fit Jk protocols like JNI.
*
* @author Remy Maucherat
* @author Costin Manolache
*/
public class Http11Protocol extends AbstractProtocol implements MBeanRegistration {
protected static org.apache.juli.logging.Log log =
org.apache.juli.logging.LogFactory.getLog(Http11Protocol.class);
/** The string manager for this package. */
protected static StringManager sm = StringManager.getManager(Constants.Package);
// ------------------------------------------------------------ Constructor
public Http11Protocol() {
setSoLinger(Constants.DEFAULT_CONNECTION_LINGER);
setSoTimeout(Constants.DEFAULT_CONNECTION_TIMEOUT);
// setServerSoTimeout(Constants.DEFAULT_SERVER_SOCKET_TIMEOUT);
setTcpNoDelay(Constants.DEFAULT_TCP_NO_DELAY);
}
// ----------------------------------------------------------------- Fields
protected Http11ConnectionHandler cHandler = new Http11ConnectionHandler(this);
protected JIoEndpoint endpoint = new JIoEndpoint();
protected final AbstractEndpoint getEndpoint() {
return endpoint;
}
// *
protected ObjectName tpOname = null;
// *
protected ObjectName rgOname = null;
protected ServerSocketFactory socketFactory = null;
protected SSLImplementation sslImplementation = null;
// ----------------------------------------- ProtocolHandler Implementation
// *
protected HashMap<String, Object> attributes = new HashMap<String, Object>();
/** Pass config info */
public void setAttribute(String name, Object value) {
if (log.isTraceEnabled()) {
log.trace(sm.getString("http11protocol.setattribute", name, value));
}
attributes.put(name, value);
}
public Object getAttribute(String key) {
return attributes.get(key);
}
public Iterator getAttributeNames() {
return attributes.keySet().iterator();
}
/** Set a property. */
public void setProperty(String name, String value) {
setAttribute(name, value);
}
/** Get a property */
public String getProperty(String name) {
return (String) getAttribute(name);
}
/** The adapter, used to call the connector. */
protected Adapter adapter;
public void setAdapter(Adapter adapter) {
this.adapter = adapter;
}
public Adapter getAdapter() {
return adapter;
}
public void init() throws Exception {
endpoint.setName(getName());
endpoint.setHandler(cHandler);
// Verify the validity of the configured socket factory
try {
if (isSSLEnabled()) {
sslImplementation = SSLImplementation.getInstance(sslImplementationName);
socketFactory = sslImplementation.getServerSocketFactory();
endpoint.setServerSocketFactory(socketFactory);
} else if (socketFactoryName != null) {
socketFactory = (ServerSocketFactory) Class.forName(socketFactoryName).newInstance();
endpoint.setServerSocketFactory(socketFactory);
}
} catch (Exception ex) {
log.error(sm.getString("http11protocol.socketfactory.initerror"), ex);
throw ex;
}
if (socketFactory != null) {
Iterator<String> attE = attributes.keySet().iterator();
while (attE.hasNext()) {
String key = attE.next();
Object v = attributes.get(key);
socketFactory.setAttribute(key, v);
}
}
try {
endpoint.init();
} catch (Exception ex) {
log.error(sm.getString("http11protocol.endpoint.initerror"), ex);
throw ex;
}
if (log.isInfoEnabled()) log.info(sm.getString("http11protocol.init", getName()));
}
public void start() throws Exception {
if (this.domain != null) {
try {
tpOname = new ObjectName(domain + ":" + "type=ThreadPool,name=" + getName());
Registry.getRegistry(null, null).registerComponent(endpoint, tpOname, null);
} catch (Exception e) {
log.error("Can't register endpoint");
}
rgOname = new ObjectName(domain + ":type=GlobalRequestProcessor,name=" + getName());
Registry.getRegistry(null, null).registerComponent(cHandler.global, rgOname, null);
}
try {
endpoint.start();
} catch (Exception ex) {
log.error(sm.getString("http11protocol.endpoint.starterror"), ex);
throw ex;
}
if (log.isInfoEnabled()) log.info(sm.getString("http11protocol.start", getName()));
}
public void pause() throws Exception {
try {
endpoint.pause();
} catch (Exception ex) {
log.error(sm.getString("http11protocol.endpoint.pauseerror"), ex);
throw ex;
}
if (log.isInfoEnabled()) log.info(sm.getString("http11protocol.pause", getName()));
}
public void resume() throws Exception {
try {
endpoint.resume();
} catch (Exception ex) {
log.error(sm.getString("http11protocol.endpoint.resumeerror"), ex);
throw ex;
}
if (log.isInfoEnabled()) log.info(sm.getString("http11protocol.resume", getName()));
}
public void destroy() throws Exception {
if (log.isInfoEnabled()) log.info(sm.getString("http11protocol.stop", getName()));
endpoint.destroy();
if (tpOname != null) Registry.getRegistry(null, null).unregisterComponent(tpOname);
if (rgOname != null) Registry.getRegistry(null, null).unregisterComponent(rgOname);
}
public String getName() {
String encodedAddr = "";
if (getAddress() != null) {
encodedAddr = "" + getAddress();
if (encodedAddr.startsWith("/")) encodedAddr = encodedAddr.substring(1);
encodedAddr = URLEncoder.encode(encodedAddr) + "-";
}
return ("http-" + encodedAddr + endpoint.getPort());
}
// ------------------------------------------------------------- Properties
/** Processor cache. */
protected int processorCache = -1;
public int getProcessorCache() {
return this.processorCache;
}
public void setProcessorCache(int processorCache) {
this.processorCache = processorCache;
}
protected int socketBuffer = 9000;
public int getSocketBuffer() {
return socketBuffer;
}
public void setSocketBuffer(int socketBuffer) {
this.socketBuffer = socketBuffer;
}
/**
* This field indicates if the protocol is secure from the perspective of the client (= https is
* used).
*/
protected boolean secure;
public boolean getSecure() {
return secure;
}
public void setSecure(boolean b) {
secure = b;
}
protected boolean SSLEnabled = false;
public boolean isSSLEnabled() {
return SSLEnabled;
}
public void setSSLEnabled(boolean SSLEnabled) {
this.SSLEnabled = SSLEnabled;
}
/** Name of the socket factory. */
protected String socketFactoryName = null;
public String getSocketFactory() {
return socketFactoryName;
}
public void setSocketFactory(String valueS) {
socketFactoryName = valueS;
}
/** Name of the SSL implementation. */
protected String sslImplementationName = null;
public String getSSLImplementation() {
return sslImplementationName;
}
public void setSSLImplementation(String valueS) {
sslImplementationName = valueS;
setSecure(true);
}
// HTTP
/**
* Maximum number of requests which can be performed over a keepalive connection. The default is
* the same as for Apache HTTP Server.
*/
protected int maxKeepAliveRequests = 100;
public int getMaxKeepAliveRequests() {
return maxKeepAliveRequests;
}
public void setMaxKeepAliveRequests(int mkar) {
maxKeepAliveRequests = mkar;
}
// HTTP
/**
* The number of seconds Tomcat will wait for a subsequent request before closing the connection.
* The default is the same as for Apache HTTP Server (15 000 milliseconds).
*/
protected int keepAliveTimeout = -1;
public int getKeepAliveTimeout() {
return keepAliveTimeout;
}
public void setKeepAliveTimeout(int timeout) {
keepAliveTimeout = timeout;
}
// HTTP
/**
* This timeout represents the socket timeout which will be used while the adapter execution is in
* progress, unless disableUploadTimeout is set to true. The default is the same as for Apache
* HTTP Server (300 000 milliseconds).
*/
protected int timeout = 300000;
public int getTimeout() {
return timeout;
}
public void setTimeout(int timeout) {
this.timeout = timeout;
}
// *
/**
* Maximum size of the post which will be saved when processing certain requests, such as a POST.
*/
protected int maxSavePostSize = 4 * 1024;
public int getMaxSavePostSize() {
return maxSavePostSize;
}
public void setMaxSavePostSize(int valueI) {
maxSavePostSize = valueI;
}
// HTTP
/** Maximum size of the HTTP message header. */
protected int maxHttpHeaderSize = 8 * 1024;
public int getMaxHttpHeaderSize() {
return maxHttpHeaderSize;
}
public void setMaxHttpHeaderSize(int valueI) {
maxHttpHeaderSize = valueI;
}
// HTTP
/** If true, the regular socket timeout will be used for the full duration of the connection. */
protected boolean disableUploadTimeout = true;
public boolean getDisableUploadTimeout() {
return disableUploadTimeout;
}
public void setDisableUploadTimeout(boolean isDisabled) {
disableUploadTimeout = isDisabled;
}
// HTTP
/** Integrated compression support. */
protected String compression = "off";
public String getCompression() {
return compression;
}
public void setCompression(String valueS) {
compression = valueS;
}
// HTTP
protected String noCompressionUserAgents = null;
public String getNoCompressionUserAgents() {
return noCompressionUserAgents;
}
public void setNoCompressionUserAgents(String valueS) {
noCompressionUserAgents = valueS;
}
// HTTP
protected String compressableMimeTypes = "text/html,text/xml,text/plain";
public String getCompressableMimeType() {
return compressableMimeTypes;
}
public void setCompressableMimeType(String valueS) {
compressableMimeTypes = valueS;
}
// HTTP
protected int compressionMinSize = 2048;
public int getCompressionMinSize() {
return compressionMinSize;
}
public void setCompressionMinSize(int valueI) {
compressionMinSize = valueI;
}
// HTTP
/** User agents regular expressions which should be restricted to HTTP/1.0 support. */
protected String restrictedUserAgents = null;
public String getRestrictedUserAgents() {
return restrictedUserAgents;
}
public void setRestrictedUserAgents(String valueS) {
restrictedUserAgents = valueS;
}
// HTTP
/** Server header. */
protected String server;
public void setServer(String server) {
this.server = server;
}
public String getServer() {
return server;
}
public Executor getExecutor() {
return endpoint.getExecutor();
}
public void setExecutor(Executor executor) {
endpoint.setExecutor(executor);
}
public int getMaxThreads() {
return endpoint.getMaxThreads();
}
public void setMaxThreads(int maxThreads) {
endpoint.setMaxThreads(maxThreads);
}
public int getThreadPriority() {
return endpoint.getThreadPriority();
}
public void setThreadPriority(int threadPriority) {
endpoint.setThreadPriority(threadPriority);
}
public int getBacklog() {
return endpoint.getBacklog();
}
public void setBacklog(int backlog) {
endpoint.setBacklog(backlog);
}
public int getPort() {
return endpoint.getPort();
}
public void setPort(int port) {
endpoint.setPort(port);
}
public InetAddress getAddress() {
return endpoint.getAddress();
}
public void setAddress(InetAddress ia) {
endpoint.setAddress(ia);
}
public boolean getTcpNoDelay() {
return endpoint.getTcpNoDelay();
}
public void setTcpNoDelay(boolean tcpNoDelay) {
endpoint.setTcpNoDelay(tcpNoDelay);
}
public int getSoLinger() {
return endpoint.getSoLinger();
}
public void setSoLinger(int soLinger) {
endpoint.setSoLinger(soLinger);
}
public int getSoTimeout() {
return endpoint.getSoTimeout();
}
public void setSoTimeout(int soTimeout) {
endpoint.setSoTimeout(soTimeout);
}
public int getUnlockTimeout() {
return endpoint.getUnlockTimeout();
}
public void setUnlockTimeout(int unlockTimeout) {
endpoint.setUnlockTimeout(unlockTimeout);
}
// HTTP
/** Return the Keep-Alive policy for the connection. */
public boolean getKeepAlive() {
return ((maxKeepAliveRequests != 0) && (maxKeepAliveRequests != 1));
}
// HTTP
/** Set the keep-alive policy for this connection. */
public void setKeepAlive(boolean keepAlive) {
if (!keepAlive) {
setMaxKeepAliveRequests(1);
}
}
/*
* Note: All the following are JSSE/java.io specific attributes.
*/
public String getKeystore() {
return (String) getAttribute("keystore");
}
public void setKeystore(String k) {
setAttribute("keystore", k);
}
public String getKeypass() {
return (String) getAttribute("keypass");
}
public void setKeypass(String k) {
attributes.put("keypass", k);
// setAttribute("keypass", k);
}
public String getKeytype() {
return (String) getAttribute("keystoreType");
}
public void setKeytype(String k) {
setAttribute("keystoreType", k);
}
public String getClientauth() {
return (String) getAttribute("clientauth");
}
public void setClientauth(String k) {
setAttribute("clientauth", k);
}
public String getProtocols() {
return (String) getAttribute("protocols");
}
public void setProtocols(String k) {
setAttribute("protocols", k);
}
public String getAlgorithm() {
return (String) getAttribute("algorithm");
}
public void setAlgorithm(String k) {
setAttribute("algorithm", k);
}
public String getCiphers() {
return (String) getAttribute("ciphers");
}
public void setCiphers(String ciphers) {
setAttribute("ciphers", ciphers);
}
public String getKeyAlias() {
return (String) getAttribute("keyAlias");
}
public void setKeyAlias(String keyAlias) {
setAttribute("keyAlias", keyAlias);
}
/**
* When client certificate information is presented in a form other than instances of {@link
* java.security.cert.X509Certificate} it needs to be converted before it can be used and this
* property controls which JSSE provider is used to perform the conversion. For example it is used
* with the AJP connectors, the HTTP APR connector and with the {@link
* org.apache.catalina.valves.SSLValve}. If not specified, the default provider will be used.
*/
protected String clientCertProvider = null;
public String getClientCertProvider() {
return clientCertProvider;
}
public void setClientCertProvider(String s) {
this.clientCertProvider = s;
}
// ----------------------------------- Http11ConnectionHandler Inner Class
protected static class Http11ConnectionHandler implements Handler {
protected Http11Protocol proto;
protected AtomicLong registerCount = new AtomicLong(0);
protected RequestGroupInfo global = new RequestGroupInfo();
protected ConcurrentLinkedQueue<Http11Processor> recycledProcessors =
new ConcurrentLinkedQueue<Http11Processor>() {
protected AtomicInteger size = new AtomicInteger(0);
public boolean offer(Http11Processor processor) {
boolean offer =
(proto.processorCache == -1) ? true : (size.get() < proto.processorCache);
// avoid over growing our cache or add after we have stopped
boolean result = false;
if (offer) {
result = super.offer(processor);
if (result) {
size.incrementAndGet();
}
}
if (!result) unregister(processor);
return result;
}
public Http11Processor poll() {
Http11Processor result = super.poll();
if (result != null) {
size.decrementAndGet();
}
return result;
}
public void clear() {
Http11Processor next = poll();
while (next != null) {
unregister(next);
next = poll();
}
super.clear();
size.set(0);
}
};
Http11ConnectionHandler(Http11Protocol proto) {
this.proto = proto;
}
public boolean process(Socket socket) {
Http11Processor processor = recycledProcessors.poll();
try {
if (processor == null) {
processor = createProcessor();
}
if (processor instanceof ActionHook) {
((ActionHook) processor).action(ActionCode.ACTION_START, null);
}
if (proto.isSSLEnabled() && (proto.sslImplementation != null)) {
processor.setSSLSupport(proto.sslImplementation.getSSLSupport(socket));
} else {
processor.setSSLSupport(null);
}
processor.process(socket);
return false;
} catch (java.net.SocketException e) {
// SocketExceptions are normal
Http11Protocol.log.debug(sm.getString("http11protocol.proto.socketexception.debug"), e);
} catch (java.io.IOException e) {
// IOExceptions are normal
Http11Protocol.log.debug(sm.getString("http11protocol.proto.ioexception.debug"), e);
}
// Future developers: if you discover any other
// rare-but-nonfatal exceptions, catch them here, and log as
// above.
catch (Throwable e) {
// any other exception or error is odd. Here we log it
// with "ERROR" level, so it will show up even on
// less-than-verbose logs.
Http11Protocol.log.error(sm.getString("http11protocol.proto.error"), e);
} finally {
// if(proto.adapter != null) proto.adapter.recycle();
// processor.recycle();
if (processor instanceof ActionHook) {
((ActionHook) processor).action(ActionCode.ACTION_STOP, null);
}
recycledProcessors.offer(processor);
}
return false;
}
protected Http11Processor createProcessor() {
Http11Processor processor = new Http11Processor(proto.maxHttpHeaderSize, proto.endpoint);
processor.setAdapter(proto.adapter);
processor.setMaxKeepAliveRequests(proto.maxKeepAliveRequests);
processor.setKeepAliveTimeout(proto.keepAliveTimeout);
processor.setTimeout(proto.timeout);
processor.setDisableUploadTimeout(proto.disableUploadTimeout);
processor.setCompressionMinSize(proto.compressionMinSize);
processor.setCompression(proto.compression);
processor.setNoCompressionUserAgents(proto.noCompressionUserAgents);
processor.setCompressableMimeTypes(proto.compressableMimeTypes);
processor.setRestrictedUserAgents(proto.restrictedUserAgents);
processor.setSocketBuffer(proto.socketBuffer);
processor.setMaxSavePostSize(proto.maxSavePostSize);
processor.setServer(proto.server);
register(processor);
return processor;
}
protected void register(Http11Processor processor) {
if (proto.getDomain() != null) {
synchronized (this) {
try {
long count = registerCount.incrementAndGet();
RequestInfo rp = processor.getRequest().getRequestProcessor();
rp.setGlobalProcessor(global);
ObjectName rpName =
new ObjectName(
proto.getDomain()
+ ":type=RequestProcessor,worker="
+ proto.getName()
+ ",name=HttpRequest"
+ count);
if (log.isDebugEnabled()) {
log.debug("Register " + rpName);
}
Registry.getRegistry(null, null).registerComponent(rp, rpName, null);
rp.setRpName(rpName);
} catch (Exception e) {
log.warn("Error registering request");
}
}
}
}
protected void unregister(Http11Processor processor) {
if (proto.getDomain() != null) {
synchronized (this) {
try {
RequestInfo rp = processor.getRequest().getRequestProcessor();
rp.setGlobalProcessor(null);
ObjectName rpName = rp.getRpName();
if (log.isDebugEnabled()) {
log.debug("Unregister " + rpName);
}
Registry.getRegistry(null, null).unregisterComponent(rpName);
rp.setRpName(null);
} catch (Exception e) {
log.warn("Error unregistering request", e);
}
}
}
}
}
// -------------------- JMX related methods --------------------
// *
protected String domain;
protected ObjectName oname;
protected MBeanServer mserver;
public ObjectName getObjectName() {
return oname;
}
public String getDomain() {
return domain;
}
public ObjectName preRegister(MBeanServer server, ObjectName name) throws Exception {
oname = name;
mserver = server;
domain = name.getDomain();
return name;
}
public void postRegister(Boolean registrationDone) {}
public void preDeregister() throws Exception {}
public void postDeregister() {}
}
/**
* When using mod_proxy_http, the client SSL information is not included in the protocol (unlike
* mod_jk and mod_proxy_ajp). To make the client SSL information available to Tomcat, some
* additional configuration is required. In httpd, mod_headers is used to add the SSL information as
* HTTP headers. In Tomcat, this valve is used to read the information from the HTTP headers and
* insert it into the request.
*
* <p><b>Note: Ensure that the headers are always set by httpd for all requests to prevent a client
* spoofing SSL information by sending fake headers. </b>
*
* <p>In httpd.conf add the following:
*
* <pre>
* <IfModule ssl_module>
* RequestHeader set SSL_CLIENT_CERT "%{SSL_CLIENT_CERT}s"
* RequestHeader set SSL_CIPHER "%{SSL_CIPHER}s"
* RequestHeader set SSL_SESSION_ID "%{SSL_SESSION_ID}s"
* RequestHeader set SSL_CIPHER_USEKEYSIZE "%{SSL_CIPHER_USEKEYSIZE}s"
* </IfModule>
* </pre>
*
* In server.xml, configure this valve under the Engine element in server.xml:
*
* <pre>
* <Engine ...>
* <Valve className="org.apache.catalina.valves.SSLValve" />
* <Host ... />
* </Engine>
* </pre>
*/
public class SSLValve extends ValveBase {
private static final Log log = LogFactory.getLog(SSLValve.class);
// ------------------------------------------------------ Constructor
public SSLValve() {
super(true);
}
public String mygetHeader(Request request, String header) {
String strcert0 = request.getHeader(header);
if (strcert0 == null) {
return null;
}
/* mod_header writes "(null)" when the ssl variable is no filled */
if ("(null)".equals(strcert0)) {
return null;
}
return strcert0;
}
@Override
public void invoke(Request request, Response response) throws IOException, ServletException {
/*
* mod_header converts the '\n' into ' ' so we have to rebuild the client
* certificate
*/
String strcert0 = mygetHeader(request, "ssl_client_cert");
if (strcert0 != null && strcert0.length() > 28) {
String strcert1 = strcert0.replace(' ', '\n');
String strcert2 = strcert1.substring(28, strcert1.length() - 26);
String strcert3 = "-----BEGIN CERTIFICATE-----\n";
String strcert4 = strcert3.concat(strcert2);
String strcerts = strcert4.concat("\n-----END CERTIFICATE-----\n");
// ByteArrayInputStream bais = new
// ByteArrayInputStream(strcerts.getBytes("UTF-8"));
ByteArrayInputStream bais =
new ByteArrayInputStream(strcerts.getBytes(Charset.defaultCharset()));
X509Certificate jsseCerts[] = null;
String providerName = (String) request.getConnector().getProperty("clientCertProvider");
try {
CertificateFactory cf;
if (providerName == null) {
cf = CertificateFactory.getInstance("X.509");
} else {
cf = CertificateFactory.getInstance("X.509", providerName);
}
X509Certificate cert = (X509Certificate) cf.generateCertificate(bais);
jsseCerts = new X509Certificate[1];
jsseCerts[0] = cert;
} catch (java.security.cert.CertificateException e) {
log.warn(sm.getString("sslValve.certError", strcerts), e);
} catch (NoSuchProviderException e) {
log.error(sm.getString("sslValve.invalidProvider", providerName), e);
}
request.setAttribute(Globals.CERTIFICATES_ATTR, jsseCerts);
}
strcert0 = mygetHeader(request, "ssl_cipher");
if (strcert0 != null) {
request.setAttribute(Globals.CIPHER_SUITE_ATTR, strcert0);
}
strcert0 = mygetHeader(request, "ssl_session_id");
if (strcert0 != null) {
request.setAttribute(Globals.SSL_SESSION_ID_ATTR, strcert0);
request.setAttribute(Globals.SSL_SESSION_ID_TOMCAT_ATTR, strcert0);
}
strcert0 = mygetHeader(request, "ssl_cipher_usekeysize");
if (strcert0 != null) {
request.setAttribute(Globals.KEY_SIZE_ATTR, Integer.valueOf(strcert0));
}
getNext().invoke(request, response);
}
}
/**
* The default {@link JarScanner} implementation scans the WEB-INF/lib directory followed by the
* provided classloader and then works up the classloader hierarchy. This implementation is
* sufficient to meet the requirements of the Servlet 3.0 specification as well as to provide a
* number of Tomcat specific extensions. The extensions are:
*
* <ul>
* <li>Scanning the classloader hierarchy (enabled by default)
* <li>Testing all files to see if they are JARs (disabled by default)
* <li>Testing all directories to see if they are exploded JARs (disabled by default)
* </ul>
*
* All of the extensions may be controlled via configuration.
*/
public class StandardJarScanner implements JarScanner {
private static final Log log = LogFactory.getLog(StandardJarScanner.class);
private static final Set<String> defaultJarsToSkip = new HashSet<String>();
/** The string resources for this package. */
private static final StringManager sm = StringManager.getManager(Constants.Package);
static {
String jarList = System.getProperty(Constants.SKIP_JARS_PROPERTY);
if (jarList != null) {
StringTokenizer tokenizer = new StringTokenizer(jarList, ",");
while (tokenizer.hasMoreElements()) {
String token = tokenizer.nextToken().trim();
if (token.length() > 0) {
defaultJarsToSkip.add(token);
}
}
}
}
/** Controls the classpath scanning extension. */
private boolean scanClassPath = true;
public boolean isScanClassPath() {
return scanClassPath;
}
public void setScanClassPath(boolean scanClassPath) {
this.scanClassPath = scanClassPath;
}
/** Controls the testing all files to see of they are JAR files extension. */
private boolean scanAllFiles = false;
public boolean isScanAllFiles() {
return scanAllFiles;
}
public void setScanAllFiles(boolean scanAllFiles) {
this.scanAllFiles = scanAllFiles;
}
/** Controls the testing all directories to see of they are exploded JAR files extension. */
private boolean scanAllDirectories = false;
public boolean isScanAllDirectories() {
return scanAllDirectories;
}
public void setScanAllDirectories(boolean scanAllDirectories) {
this.scanAllDirectories = scanAllDirectories;
}
/**
* Controls the testing of the bootstrap classpath which consists of the runtime classes provided
* by the JVM and any installed system extensions.
*/
private boolean scanBootstrapClassPath = false;
public boolean isScanBootstrapClassPath() {
return scanBootstrapClassPath;
}
public void setScanBootstrapClassPath(boolean scanBootstrapClassPath) {
this.scanBootstrapClassPath = scanBootstrapClassPath;
}
/**
* Scan the provided ServletContext and classloader for JAR files. Each JAR file found will be
* passed to the callback handler to be processed.
*
* @param context The ServletContext - used to locate and access WEB-INF/lib
* @param classloader The classloader - used to access JARs not in WEB-INF/lib
* @param callback The handler to process any JARs found
* @param jarsToSkip List of JARs to ignore. If this list is null, a default list will be read
* from the system property defined by {@link Constants#SKIP_JARS_PROPERTY}
*/
@Override
public void scan(
ServletContext context,
ClassLoader classloader,
JarScannerCallback callback,
Set<String> jarsToSkip) {
if (log.isTraceEnabled()) {
log.trace(sm.getString("jarScan.webinflibStart"));
}
final Set<String> ignoredJars;
if (jarsToSkip == null) {
ignoredJars = defaultJarsToSkip;
} else {
ignoredJars = jarsToSkip;
}
// Scan WEB-INF/lib
Set<String> dirList = context.getResourcePaths(Constants.WEB_INF_LIB);
if (dirList != null) {
Iterator<String> it = dirList.iterator();
while (it.hasNext()) {
String path = it.next();
if (path.endsWith(Constants.JAR_EXT)
&& !Matcher.matchName(ignoredJars, path.substring(path.lastIndexOf('/') + 1))) {
// Need to scan this JAR
if (log.isDebugEnabled()) {
log.debug(sm.getString("jarScan.webinflibJarScan", path));
}
URL url = null;
try {
// File URLs are always faster to work with so use them
// if available.
String realPath = context.getRealPath(path);
if (realPath == null) {
url = context.getResource(path);
} else {
url = (new File(realPath)).toURI().toURL();
}
process(callback, url);
} catch (IOException e) {
log.warn(sm.getString("jarScan.webinflibFail", url), e);
}
} else {
if (log.isTraceEnabled()) {
log.trace(sm.getString("jarScan.webinflibJarNoScan", path));
}
}
}
}
// Scan the classpath
if (scanClassPath && classloader != null) {
if (log.isTraceEnabled()) {
log.trace(sm.getString("jarScan.classloaderStart"));
}
ClassLoader loader = classloader;
ClassLoader stopLoader = null;
if (!scanBootstrapClassPath) {
// Stop when we reach the bootstrap class loader
stopLoader = ClassLoader.getSystemClassLoader().getParent();
}
while (loader != null && loader != stopLoader) {
if (loader instanceof URLClassLoader) {
URL[] urls = ((URLClassLoader) loader).getURLs();
for (int i = 0; i < urls.length; i++) {
// Extract the jarName if there is one to be found
String jarName = getJarName(urls[i]);
// Skip JARs known not to be interesting and JARs
// in WEB-INF/lib we have already scanned
if (jarName != null
&& !(Matcher.matchName(ignoredJars, jarName)
|| urls[i].toString().contains(Constants.WEB_INF_LIB + jarName))) {
if (log.isDebugEnabled()) {
log.debug(sm.getString("jarScan.classloaderJarScan", urls[i]));
}
try {
process(callback, urls[i]);
} catch (IOException ioe) {
log.warn(sm.getString("jarScan.classloaderFail", urls[i]), ioe);
}
} else {
if (log.isTraceEnabled()) {
log.trace(sm.getString("jarScan.classloaderJarNoScan", urls[i]));
}
}
}
}
loader = loader.getParent();
}
}
}
/*
* Scan a URL for JARs with the optional extensions to look at all files
* and all directories.
*/
private void process(JarScannerCallback callback, URL url) throws IOException {
if (log.isTraceEnabled()) {
log.trace(sm.getString("jarScan.jarUrlStart", url));
}
URLConnection conn = url.openConnection();
if (conn instanceof JarURLConnection) {
callback.scan((JarURLConnection) conn);
} else {
String urlStr = url.toString();
if (urlStr.startsWith("file:")
|| urlStr.startsWith("jndi:")
|| urlStr.startsWith("http:")
|| urlStr.startsWith("https:")) {
if (urlStr.endsWith(Constants.JAR_EXT)) {
URL jarURL = new URL("jar:" + urlStr + "!/");
callback.scan((JarURLConnection) jarURL.openConnection());
} else {
File f;
try {
f = new File(url.toURI());
if (f.isFile() && scanAllFiles) {
// Treat this file as a JAR
URL jarURL = new URL("jar:" + urlStr + "!/");
callback.scan((JarURLConnection) jarURL.openConnection());
} else if (f.isDirectory() && scanAllDirectories) {
File metainf = new File(f.getAbsoluteFile() + File.separator + "META-INF");
if (metainf.isDirectory()) {
callback.scan(f);
}
}
} catch (URISyntaxException e) {
// Wrap the exception and re-throw
IOException ioe = new IOException();
ioe.initCause(e);
throw ioe;
}
}
}
}
}
/*
* Extract the JAR name, if present, from a URL
*/
private String getJarName(URL url) {
String name = null;
String path = url.getPath();
int end = path.indexOf(Constants.JAR_EXT);
if (end != -1) {
int start = path.lastIndexOf('/', end);
name = path.substring(start + 1, end + 4);
} else if (isScanAllDirectories()) {
int start = path.lastIndexOf('/');
name = path.substring(start + 1);
}
return name;
}
}
/**
* Implementation of a request processor which delegates the processing to a Coyote processor.
*
* @author Craig R. McClanahan
* @author Remy Maucherat
*/
public class CoyoteAdapter implements Adapter {
private static final Log log = LogFactory.getLog(CoyoteAdapter.class);
// -------------------------------------------------------------- Constants
private static final String POWERED_BY =
"Servlet/3.0 JSP/2.2 "
+ "("
+ ServerInfo.getServerInfo()
+ " Java/"
+ System.getProperty("java.vm.vendor")
+ "/"
+ System.getProperty("java.runtime.version")
+ ")";
private static final EnumSet<SessionTrackingMode> SSL_ONLY = EnumSet.of(SessionTrackingMode.SSL);
public static final int ADAPTER_NOTES = 1;
protected static final boolean ALLOW_BACKSLASH =
Boolean.valueOf(
System.getProperty(
"org.apache.catalina.connector.CoyoteAdapter.ALLOW_BACKSLASH", "false"))
.booleanValue();
// ----------------------------------------------------------- Constructors
/**
* Construct a new CoyoteProcessor associated with the specified connector.
*
* @param connector CoyoteConnector that owns this processor
*/
public CoyoteAdapter(Connector connector) {
super();
this.connector = connector;
}
// ----------------------------------------------------- Instance Variables
/** The CoyoteConnector with which this processor is associated. */
private Connector connector = null;
/** The string manager for this package. */
protected static final StringManager sm = StringManager.getManager(Constants.Package);
/** Encoder for the Location URL in HTTP redirects. */
protected static URLEncoder urlEncoder;
// ----------------------------------------------------- Static Initializer
/** The safe character set. */
static {
urlEncoder = new URLEncoder();
urlEncoder.addSafeCharacter('-');
urlEncoder.addSafeCharacter('_');
urlEncoder.addSafeCharacter('.');
urlEncoder.addSafeCharacter('*');
urlEncoder.addSafeCharacter('/');
}
// -------------------------------------------------------- Adapter Methods
/**
* Event method.
*
* @return false to indicate an error, expected or not
*/
@Override
public boolean event(
org.apache.coyote.Request req, org.apache.coyote.Response res, SocketStatus status) {
Request request = (Request) req.getNote(ADAPTER_NOTES);
Response response = (Response) res.getNote(ADAPTER_NOTES);
if (request.getWrapper() == null) {
return false;
}
boolean error = false;
boolean read = false;
try {
if (status == SocketStatus.OPEN_READ) {
if (response.isClosed()) {
// The event has been closed asynchronously, so call end instead of
// read to cleanup the pipeline
request.getEvent().setEventType(CometEvent.EventType.END);
request.getEvent().setEventSubType(null);
} else {
try {
// Fill the read buffer of the servlet layer
if (request.read()) {
read = true;
}
} catch (IOException e) {
error = true;
}
if (read) {
request.getEvent().setEventType(CometEvent.EventType.READ);
request.getEvent().setEventSubType(null);
} else if (error) {
request.getEvent().setEventType(CometEvent.EventType.ERROR);
request.getEvent().setEventSubType(CometEvent.EventSubType.CLIENT_DISCONNECT);
} else {
request.getEvent().setEventType(CometEvent.EventType.END);
request.getEvent().setEventSubType(null);
}
}
} else if (status == SocketStatus.DISCONNECT) {
request.getEvent().setEventType(CometEvent.EventType.ERROR);
request.getEvent().setEventSubType(CometEvent.EventSubType.CLIENT_DISCONNECT);
error = true;
} else if (status == SocketStatus.ERROR) {
request.getEvent().setEventType(CometEvent.EventType.ERROR);
request.getEvent().setEventSubType(CometEvent.EventSubType.IOEXCEPTION);
error = true;
} else if (status == SocketStatus.STOP) {
request.getEvent().setEventType(CometEvent.EventType.END);
request.getEvent().setEventSubType(CometEvent.EventSubType.SERVER_SHUTDOWN);
} else if (status == SocketStatus.TIMEOUT) {
if (response.isClosed()) {
// The event has been closed asynchronously, so call end instead of
// read to cleanup the pipeline
request.getEvent().setEventType(CometEvent.EventType.END);
request.getEvent().setEventSubType(null);
} else {
request.getEvent().setEventType(CometEvent.EventType.ERROR);
request.getEvent().setEventSubType(CometEvent.EventSubType.TIMEOUT);
}
}
req.getRequestProcessor().setWorkerThreadName(Thread.currentThread().getName());
// Calling the container
connector
.getService()
.getContainer()
.getPipeline()
.getFirst()
.event(request, response, request.getEvent());
if (!error
&& !response.isClosed()
&& (request.getAttribute(RequestDispatcher.ERROR_EXCEPTION) != null)) {
// An unexpected exception occurred while processing the event, so
// error should be called
request.getEvent().setEventType(CometEvent.EventType.ERROR);
request.getEvent().setEventSubType(null);
error = true;
connector
.getService()
.getContainer()
.getPipeline()
.getFirst()
.event(request, response, request.getEvent());
}
if (response.isClosed() || !request.isComet()) {
if (status == SocketStatus.OPEN_READ
&& request.getEvent().getEventType() != EventType.END) {
// CometEvent.close was called during an event other than END
request.getEvent().setEventType(CometEvent.EventType.END);
request.getEvent().setEventSubType(null);
error = true;
connector
.getService()
.getContainer()
.getPipeline()
.getFirst()
.event(request, response, request.getEvent());
}
res.action(ActionCode.COMET_END, null);
} else if (!error && read && request.getAvailable()) {
// If this was a read and not all bytes have been read, or if no data
// was read from the connector, then it is an error
request.getEvent().setEventType(CometEvent.EventType.ERROR);
request.getEvent().setEventSubType(CometEvent.EventSubType.IOEXCEPTION);
error = true;
connector
.getService()
.getContainer()
.getPipeline()
.getFirst()
.event(request, response, request.getEvent());
}
return (!error);
} catch (Throwable t) {
ExceptionUtils.handleThrowable(t);
if (!(t instanceof IOException)) {
log.error(sm.getString("coyoteAdapter.service"), t);
}
error = true;
return false;
} finally {
req.getRequestProcessor().setWorkerThreadName(null);
// Recycle the wrapper request and response
if (error || response.isClosed() || !request.isComet()) {
((Context) request.getMappingData().context)
.logAccess(request, response, System.currentTimeMillis() - req.getStartTime(), false);
request.recycle();
request.setFilterChain(null);
response.recycle();
}
}
}
@Override
public boolean asyncDispatch(
org.apache.coyote.Request req, org.apache.coyote.Response res, SocketStatus status)
throws Exception {
Request request = (Request) req.getNote(ADAPTER_NOTES);
Response response = (Response) res.getNote(ADAPTER_NOTES);
if (request == null) {
throw new IllegalStateException("Dispatch may only happen on an existing request.");
}
boolean comet = false;
boolean success = true;
AsyncContextImpl asyncConImpl = (AsyncContextImpl) request.getAsyncContext();
req.getRequestProcessor().setWorkerThreadName(Thread.currentThread().getName());
try {
if (!request.isAsync() && !comet) {
// Error or timeout - need to tell listeners the request is over
// Have to test this first since state may change while in this
// method and this is only required if entering this method in
// this state
Context ctxt = (Context) request.getMappingData().context;
if (ctxt != null) {
ctxt.fireRequestDestroyEvent(request);
}
// Lift any suspension (e.g. if sendError() was used by an async
// request) to allow the response to be written to the client
response.setSuspended(false);
}
if (status == SocketStatus.TIMEOUT) {
if (!asyncConImpl.timeout()) {
asyncConImpl.setErrorState(null, false);
}
}
// Has an error occurred during async processing that needs to be
// processed by the application's error page mechanism (or Tomcat's
// if the application doesn't define one)?
if (!request.isAsyncDispatching() && request.isAsync() && response.isErrorReportRequired()) {
connector.getService().getContainer().getPipeline().getFirst().invoke(request, response);
}
if (request.isAsyncDispatching()) {
connector.getService().getContainer().getPipeline().getFirst().invoke(request, response);
Throwable t = (Throwable) request.getAttribute(RequestDispatcher.ERROR_EXCEPTION);
if (t != null) {
asyncConImpl.setErrorState(t, true);
}
}
if (request.isComet()) {
if (!response.isClosed() && !response.isError()) {
if (request.getAvailable()
|| (request.getContentLength() > 0 && (!request.isParametersParsed()))) {
// Invoke a read event right away if there are available bytes
if (event(req, res, SocketStatus.OPEN_READ)) {
comet = true;
res.action(ActionCode.COMET_BEGIN, null);
}
} else {
comet = true;
res.action(ActionCode.COMET_BEGIN, null);
}
} else {
// Clear the filter chain, as otherwise it will not be reset elsewhere
// since this is a Comet request
request.setFilterChain(null);
}
}
if (!request.isAsync() && !comet) {
request.finishRequest();
response.finishResponse();
req.action(ActionCode.POST_REQUEST, null);
((Context) request.getMappingData().context)
.logAccess(request, response, System.currentTimeMillis() - req.getStartTime(), false);
}
// Check to see if the processor is in an error state. If it is,
// bail out now.
AtomicBoolean error = new AtomicBoolean(false);
res.action(ActionCode.IS_ERROR, error);
if (error.get()) {
success = false;
}
} catch (IOException e) {
success = false;
// Ignore
} catch (Throwable t) {
ExceptionUtils.handleThrowable(t);
success = false;
log.error(sm.getString("coyoteAdapter.service"), t);
} finally {
req.getRequestProcessor().setWorkerThreadName(null);
// Recycle the wrapper request and response
if (!success || (!comet && !request.isAsync())) {
request.recycle();
response.recycle();
} else {
// Clear converters so that the minimum amount of memory
// is used by this processor
request.clearEncoders();
response.clearEncoders();
}
}
return success;
}
/** Service method. */
@Override
public void service(org.apache.coyote.Request req, org.apache.coyote.Response res)
throws Exception {
Request request = (Request) req.getNote(ADAPTER_NOTES);
Response response = (Response) res.getNote(ADAPTER_NOTES);
if (request == null) {
// Create objects
request = connector.createRequest();
request.setCoyoteRequest(req);
response = connector.createResponse();
response.setCoyoteResponse(res);
// Link objects
request.setResponse(response);
response.setRequest(request);
// Set as notes
req.setNote(ADAPTER_NOTES, request);
res.setNote(ADAPTER_NOTES, response);
// Set query string encoding
req.getParameters().setQueryStringEncoding(connector.getURIEncoding());
}
if (connector.getXpoweredBy()) {
response.addHeader("X-Powered-By", POWERED_BY);
}
boolean comet = false;
boolean async = false;
try {
// Parse and set Catalina and configuration specific
// request parameters
req.getRequestProcessor().setWorkerThreadName(Thread.currentThread().getName());
boolean postParseSuccess = postParseRequest(req, request, res, response);
if (postParseSuccess) {
// check valves if we support async
request.setAsyncSupported(
connector.getService().getContainer().getPipeline().isAsyncSupported());
// Calling the container
connector.getService().getContainer().getPipeline().getFirst().invoke(request, response);
if (request.isComet()) {
if (!response.isClosed() && !response.isError()) {
if (request.getAvailable()
|| (request.getContentLength() > 0 && (!request.isParametersParsed()))) {
// Invoke a read event right away if there are available bytes
if (event(req, res, SocketStatus.OPEN_READ)) {
comet = true;
res.action(ActionCode.COMET_BEGIN, null);
}
} else {
comet = true;
res.action(ActionCode.COMET_BEGIN, null);
}
} else {
// Clear the filter chain, as otherwise it will not be reset elsewhere
// since this is a Comet request
request.setFilterChain(null);
}
}
}
AsyncContextImpl asyncConImpl = (AsyncContextImpl) request.getAsyncContext();
if (asyncConImpl != null) {
async = true;
} else if (!comet) {
request.finishRequest();
response.finishResponse();
if (postParseSuccess && request.getMappingData().context != null) {
// Log only if processing was invoked.
// If postParseRequest() failed, it has already logged it.
// If context is null this was the start of a comet request
// that failed and has already been logged.
((Context) request.getMappingData().context)
.logAccess(request, response, System.currentTimeMillis() - req.getStartTime(), false);
}
req.action(ActionCode.POST_REQUEST, null);
}
} catch (IOException e) {
// Ignore
} finally {
req.getRequestProcessor().setWorkerThreadName(null);
AtomicBoolean error = new AtomicBoolean(false);
res.action(ActionCode.IS_ERROR, error);
// Recycle the wrapper request and response
if (!comet && !async || error.get()) {
request.recycle();
response.recycle();
} else {
// Clear converters so that the minimum amount of memory
// is used by this processor
request.clearEncoders();
response.clearEncoders();
}
}
}
@Override
public void errorDispatch(org.apache.coyote.Request req, org.apache.coyote.Response res) {
Request request = (Request) req.getNote(ADAPTER_NOTES);
Response response = (Response) res.getNote(ADAPTER_NOTES);
if (request != null && request.getMappingData().context != null) {
((Context) request.getMappingData().context)
.logAccess(request, response, System.currentTimeMillis() - req.getStartTime(), false);
} else {
log(req, res, System.currentTimeMillis() - req.getStartTime());
}
if (request != null) {
request.recycle();
}
if (response != null) {
response.recycle();
}
req.recycle();
res.recycle();
}
@Override
public void log(org.apache.coyote.Request req, org.apache.coyote.Response res, long time) {
Request request = (Request) req.getNote(ADAPTER_NOTES);
Response response = (Response) res.getNote(ADAPTER_NOTES);
if (request == null) {
// Create objects
request = connector.createRequest();
request.setCoyoteRequest(req);
response = connector.createResponse();
response.setCoyoteResponse(res);
// Link objects
request.setResponse(response);
response.setRequest(request);
// Set as notes
req.setNote(ADAPTER_NOTES, request);
res.setNote(ADAPTER_NOTES, response);
// Set query string encoding
req.getParameters().setQueryStringEncoding(connector.getURIEncoding());
}
try {
// Log at the lowest level available. logAccess() will be
// automatically called on parent containers.
boolean logged = false;
if (request.mappingData != null) {
if (request.mappingData.context != null) {
logged = true;
((Context) request.mappingData.context).logAccess(request, response, time, true);
} else if (request.mappingData.host != null) {
logged = true;
((Host) request.mappingData.host).logAccess(request, response, time, true);
}
}
if (!logged) {
connector.getService().getContainer().logAccess(request, response, time, true);
}
} catch (Throwable t) {
ExceptionUtils.handleThrowable(t);
log.warn(sm.getString("coyoteAdapter.accesslogFail"), t);
} finally {
request.recycle();
response.recycle();
}
}
private static class RecycleRequiredException extends Exception {
private static final long serialVersionUID = 1L;
}
@Override
public void checkRecycled(org.apache.coyote.Request req, org.apache.coyote.Response res) {
Request request = (Request) req.getNote(ADAPTER_NOTES);
Response response = (Response) res.getNote(ADAPTER_NOTES);
String messageKey = null;
if (request != null && request.getHost() != null) {
messageKey = "coyoteAdapter.checkRecycled.request";
} else if (response != null && response.getContentWritten() != 0) {
messageKey = "coyoteAdapter.checkRecycled.response";
}
if (messageKey != null) {
// Log this request, as it has probably skipped the access log.
// The log() method will take care of recycling.
log(req, res, 0L);
if (connector.getState().isAvailable()) {
if (log.isInfoEnabled()) {
log.info(sm.getString(messageKey), new RecycleRequiredException());
}
} else {
// There may be some aborted requests.
// When connector shuts down, the request and response will not
// be reused, so there is no issue to warn about here.
if (log.isDebugEnabled()) {
log.debug(sm.getString(messageKey), new RecycleRequiredException());
}
}
}
}
@Override
public String getDomain() {
return connector.getDomain();
}
// ------------------------------------------------------ Protected Methods
/** Parse additional request parameters. */
protected boolean postParseRequest(
org.apache.coyote.Request req,
Request request,
org.apache.coyote.Response res,
Response response)
throws Exception {
// XXX the processor may have set a correct scheme and port prior to this point,
// in ajp13 protocols dont make sense to get the port from the connector...
// otherwise, use connector configuration
if (!req.scheme().isNull()) {
// use processor specified scheme to determine secure state
request.setSecure(req.scheme().equals("https"));
} else {
// use connector scheme and secure configuration, (defaults to
// "http" and false respectively)
req.scheme().setString(connector.getScheme());
request.setSecure(connector.getSecure());
}
// FIXME: the code below doesnt belongs to here,
// this is only have sense
// in Http11, not in ajp13..
// At this point the Host header has been processed.
// Override if the proxyPort/proxyHost are set
String proxyName = connector.getProxyName();
int proxyPort = connector.getProxyPort();
if (proxyPort != 0) {
req.setServerPort(proxyPort);
}
if (proxyName != null) {
req.serverName().setString(proxyName);
}
// Copy the raw URI to the decodedURI
MessageBytes decodedURI = req.decodedURI();
decodedURI.duplicate(req.requestURI());
// Parse the path parameters. This will:
// - strip out the path parameters
// - convert the decodedURI to bytes
parsePathParameters(req, request);
// URI decoding
// %xx decoding of the URL
try {
req.getURLDecoder().convert(decodedURI, false);
} catch (IOException ioe) {
res.setStatus(400);
res.setMessage("Invalid URI: " + ioe.getMessage());
connector.getService().getContainer().logAccess(request, response, 0, true);
return false;
}
// Normalization
if (!normalize(req.decodedURI())) {
res.setStatus(400);
res.setMessage("Invalid URI");
connector.getService().getContainer().logAccess(request, response, 0, true);
return false;
}
// Character decoding
convertURI(decodedURI, request);
// Check that the URI is still normalized
if (!checkNormalize(req.decodedURI())) {
res.setStatus(400);
res.setMessage("Invalid URI character encoding");
connector.getService().getContainer().logAccess(request, response, 0, true);
return false;
}
// Request mapping.
MessageBytes serverName;
if (connector.getUseIPVHosts()) {
serverName = req.localName();
if (serverName.isNull()) {
// well, they did ask for it
res.action(ActionCode.REQ_LOCAL_NAME_ATTRIBUTE, null);
}
} else {
serverName = req.serverName();
}
if (request.isAsyncStarted()) {
// TODO SERVLET3 - async
// reset mapping data, should prolly be done elsewhere
request.getMappingData().recycle();
}
// Version for the second mapping loop and
// Context that we expect to get for that version
String version = null;
Context versionContext = null;
boolean mapRequired = true;
while (mapRequired) {
// This will map the the latest version by default
connector.getMapper().map(serverName, decodedURI, version, request.getMappingData());
request.setContext((Context) request.getMappingData().context);
request.setWrapper((Wrapper) request.getMappingData().wrapper);
// If there is no context at this point, it is likely no ROOT context
// has been deployed
if (request.getContext() == null) {
res.setStatus(404);
res.setMessage("Not found");
// No context, so use host
Host host = request.getHost();
// Make sure there is a host (might not be during shutdown)
if (host != null) {
host.logAccess(request, response, 0, true);
}
return false;
}
// Now we have the context, we can parse the session ID from the URL
// (if any). Need to do this before we redirect in case we need to
// include the session id in the redirect
String sessionID;
if (request
.getServletContext()
.getEffectiveSessionTrackingModes()
.contains(SessionTrackingMode.URL)) {
// Get the session ID if there was one
sessionID =
request.getPathParameter(SessionConfig.getSessionUriParamName(request.getContext()));
if (sessionID != null) {
request.setRequestedSessionId(sessionID);
request.setRequestedSessionURL(true);
}
}
// Look for session ID in cookies and SSL session
parseSessionCookiesId(req, request);
parseSessionSslId(request);
sessionID = request.getRequestedSessionId();
mapRequired = false;
if (version != null && request.getContext() == versionContext) {
// We got the version that we asked for. That is it.
} else {
version = null;
versionContext = null;
Object[] contexts = request.getMappingData().contexts;
// Single contextVersion means no need to remap
// No session ID means no possibility of remap
if (contexts != null && sessionID != null) {
// Find the context associated with the session
for (int i = (contexts.length); i > 0; i--) {
Context ctxt = (Context) contexts[i - 1];
if (ctxt.getManager().findSession(sessionID) != null) {
// We found a context. Is it the one that has
// already been mapped?
if (!ctxt.equals(request.getMappingData().context)) {
// Set version so second time through mapping
// the correct context is found
version = ctxt.getWebappVersion();
versionContext = ctxt;
// Reset mapping
request.getMappingData().recycle();
mapRequired = true;
}
break;
}
}
}
}
if (!mapRequired && request.getContext().getPaused()) {
// Found a matching context but it is paused. Mapping data will
// be wrong since some Wrappers may not be registered at this
// point.
try {
Thread.sleep(1000);
} catch (InterruptedException e) {
// Should never happen
}
// Reset mapping
request.getMappingData().recycle();
mapRequired = true;
}
}
// Possible redirect
MessageBytes redirectPathMB = request.getMappingData().redirectPath;
if (!redirectPathMB.isNull()) {
String redirectPath = urlEncoder.encode(redirectPathMB.toString());
String query = request.getQueryString();
if (request.isRequestedSessionIdFromURL()) {
// This is not optimal, but as this is not very common, it
// shouldn't matter
redirectPath =
redirectPath
+ ";"
+ SessionConfig.getSessionUriParamName(request.getContext())
+ "="
+ request.getRequestedSessionId();
}
if (query != null) {
// This is not optimal, but as this is not very common, it
// shouldn't matter
redirectPath = redirectPath + "?" + query;
}
response.sendRedirect(redirectPath);
request.getContext().logAccess(request, response, 0, true);
return false;
}
// Filter trace method
if (!connector.getAllowTrace() && req.method().equalsIgnoreCase("TRACE")) {
Wrapper wrapper = request.getWrapper();
String header = null;
if (wrapper != null) {
String[] methods = wrapper.getServletMethods();
if (methods != null) {
for (int i = 0; i < methods.length; i++) {
if ("TRACE".equals(methods[i])) {
continue;
}
if (header == null) {
header = methods[i];
} else {
header += ", " + methods[i];
}
}
}
}
res.setStatus(405);
res.addHeader("Allow", header);
res.setMessage("TRACE method is not allowed");
request.getContext().logAccess(request, response, 0, true);
return false;
}
doConnectorAuthenticationAuthorization(req, request);
return true;
}
private void doConnectorAuthenticationAuthorization(
org.apache.coyote.Request req, Request request) {
// Set the remote principal
String username = req.getRemoteUser().toString();
if (username != null) {
if (log.isDebugEnabled()) {
log.debug(sm.getString("coyoteAdapter.authenticate", username));
}
if (req.getRemoteUserNeedsAuthorization()) {
Authenticator authenticator = request.getContext().getAuthenticator();
if (authenticator == null) {
// No security constraints configured for the application so
// no need to authorize the user. Use the CoyotePrincipal to
// provide the authenticated user.
request.setUserPrincipal(new CoyotePrincipal(username));
} else if (!(authenticator instanceof AuthenticatorBase)) {
if (log.isDebugEnabled()) {
log.debug(sm.getString("coyoteAdapter.authorize", username));
}
// Custom authenticator that may not trigger authorization.
// Do the authorization here to make sure it is done.
request.setUserPrincipal(request.getContext().getRealm().authenticate(username));
}
// If the Authenticator is an instance of AuthenticatorBase then
// it will check req.getRemoteUserNeedsAuthorization() and
// trigger authorization as necessary. It will also cache the
// result preventing excessive calls to the Realm.
} else {
// The connector isn't configured for authorization. Create a
// user without any roles using the supplied user name.
request.setUserPrincipal(new CoyotePrincipal(username));
}
}
// Set the authorization type
String authtype = req.getAuthType().toString();
if (authtype != null) {
request.setAuthType(authtype);
}
}
/**
* Extract the path parameters from the request. This assumes parameters are of the form
* /path;name=value;name2=value2/ etc. Currently only really interested in the session ID that
* will be in this form. Other parameters can safely be ignored.
*
* @param req
* @param request
*/
protected void parsePathParameters(org.apache.coyote.Request req, Request request) {
// Process in bytes (this is default format so this is normally a NO-OP
req.decodedURI().toBytes();
ByteChunk uriBC = req.decodedURI().getByteChunk();
int semicolon = uriBC.indexOf(';', 0);
// What encoding to use? Some platforms, eg z/os, use a default
// encoding that doesn't give the expected result so be explicit
String enc = connector.getURIEncoding();
if (enc == null) {
enc = "ISO-8859-1";
}
Charset charset = null;
try {
charset = B2CConverter.getCharset(enc);
} catch (UnsupportedEncodingException e1) {
log.warn(sm.getString("coyoteAdapter.parsePathParam", enc));
}
if (log.isDebugEnabled()) {
log.debug(sm.getString("coyoteAdapter.debug", "uriBC", uriBC.toString()));
log.debug(sm.getString("coyoteAdapter.debug", "semicolon", String.valueOf(semicolon)));
log.debug(sm.getString("coyoteAdapter.debug", "enc", enc));
}
while (semicolon > -1) {
// Parse path param, and extract it from the decoded request URI
int start = uriBC.getStart();
int end = uriBC.getEnd();
int pathParamStart = semicolon + 1;
int pathParamEnd =
ByteChunk.findBytes(
uriBC.getBuffer(), start + pathParamStart, end, new byte[] {';', '/'});
String pv = null;
if (pathParamEnd >= 0) {
if (charset != null) {
pv =
new String(
uriBC.getBuffer(),
start + pathParamStart,
pathParamEnd - pathParamStart,
charset);
}
// Extract path param from decoded request URI
byte[] buf = uriBC.getBuffer();
for (int i = 0; i < end - start - pathParamEnd; i++) {
buf[start + semicolon + i] = buf[start + i + pathParamEnd];
}
uriBC.setBytes(buf, start, end - start - pathParamEnd + semicolon);
} else {
if (charset != null) {
pv =
new String(
uriBC.getBuffer(),
start + pathParamStart,
(end - start) - pathParamStart,
charset);
}
uriBC.setEnd(start + semicolon);
}
if (log.isDebugEnabled()) {
log.debug(
sm.getString("coyoteAdapter.debug", "pathParamStart", String.valueOf(pathParamStart)));
log.debug(
sm.getString("coyoteAdapter.debug", "pathParamEnd", String.valueOf(pathParamEnd)));
log.debug(sm.getString("coyoteAdapter.debug", "pv", pv));
}
if (pv != null) {
int equals = pv.indexOf('=');
if (equals > -1) {
String name = pv.substring(0, equals);
String value = pv.substring(equals + 1);
request.addPathParameter(name, value);
if (log.isDebugEnabled()) {
log.debug(sm.getString("coyoteAdapter.debug", "equals", String.valueOf(equals)));
log.debug(sm.getString("coyoteAdapter.debug", "name", name));
log.debug(sm.getString("coyoteAdapter.debug", "value", value));
}
}
}
semicolon = uriBC.indexOf(';', semicolon);
}
}
/**
* Look for SSL session ID if required. Only look for SSL Session ID if it is the only tracking
* method enabled.
*/
protected void parseSessionSslId(Request request) {
if (request.getRequestedSessionId() == null
&& SSL_ONLY.equals(request.getServletContext().getEffectiveSessionTrackingModes())
&& request.connector.secure) {
// TODO Is there a better way to map SSL sessions to our sesison ID?
// TODO The request.getAttribute() will cause a number of other SSL
// attribute to be populated. Is this a performance concern?
request.setRequestedSessionId(request.getAttribute(SSLSupport.SESSION_ID_KEY).toString());
request.setRequestedSessionSSL(true);
}
}
/** Parse session id in URL. */
protected void parseSessionCookiesId(org.apache.coyote.Request req, Request request) {
// If session tracking via cookies has been disabled for the current
// context, don't go looking for a session ID in a cookie as a cookie
// from a parent context with a session ID may be present which would
// overwrite the valid session ID encoded in the URL
Context context = (Context) request.getMappingData().context;
if (context != null
&& !context
.getServletContext()
.getEffectiveSessionTrackingModes()
.contains(SessionTrackingMode.COOKIE)) {
return;
}
// Parse session id from cookies
Cookies serverCookies = req.getCookies();
int count = serverCookies.getCookieCount();
if (count <= 0) {
return;
}
String sessionCookieName = SessionConfig.getSessionCookieName(context);
for (int i = 0; i < count; i++) {
ServerCookie scookie = serverCookies.getCookie(i);
if (scookie.getName().equals(sessionCookieName)) {
// Override anything requested in the URL
if (!request.isRequestedSessionIdFromCookie()) {
// Accept only the first session id cookie
convertMB(scookie.getValue());
request.setRequestedSessionId(scookie.getValue().toString());
request.setRequestedSessionCookie(true);
request.setRequestedSessionURL(false);
if (log.isDebugEnabled()) {
log.debug(" Requested cookie session id is " + request.getRequestedSessionId());
}
} else {
if (!request.isRequestedSessionIdValid()) {
// Replace the session id until one is valid
convertMB(scookie.getValue());
request.setRequestedSessionId(scookie.getValue().toString());
}
}
}
}
}
/** Character conversion of the URI. */
protected void convertURI(MessageBytes uri, Request request) throws Exception {
ByteChunk bc = uri.getByteChunk();
int length = bc.getLength();
CharChunk cc = uri.getCharChunk();
cc.allocate(length, -1);
String enc = connector.getURIEncoding();
if (enc != null) {
B2CConverter conv = request.getURIConverter();
try {
if (conv == null) {
conv = new B2CConverter(enc, true);
request.setURIConverter(conv);
} else {
conv.recycle();
}
} catch (IOException e) {
log.error("Invalid URI encoding; using HTTP default");
connector.setURIEncoding(null);
}
if (conv != null) {
try {
conv.convert(bc, cc, true);
uri.setChars(cc.getBuffer(), cc.getStart(), cc.getLength());
return;
} catch (IOException ioe) {
// Should never happen as B2CConverter should replace
// problematic characters
request.getResponse().sendError(HttpServletResponse.SC_BAD_REQUEST);
}
}
}
// Default encoding: fast conversion for ISO-8859-1
byte[] bbuf = bc.getBuffer();
char[] cbuf = cc.getBuffer();
int start = bc.getStart();
for (int i = 0; i < length; i++) {
cbuf[i] = (char) (bbuf[i + start] & 0xff);
}
uri.setChars(cbuf, 0, length);
}
/** Character conversion of the a US-ASCII MessageBytes. */
protected void convertMB(MessageBytes mb) {
// This is of course only meaningful for bytes
if (mb.getType() != MessageBytes.T_BYTES) {
return;
}
ByteChunk bc = mb.getByteChunk();
CharChunk cc = mb.getCharChunk();
int length = bc.getLength();
cc.allocate(length, -1);
// Default encoding: fast conversion
byte[] bbuf = bc.getBuffer();
char[] cbuf = cc.getBuffer();
int start = bc.getStart();
for (int i = 0; i < length; i++) {
cbuf[i] = (char) (bbuf[i + start] & 0xff);
}
mb.setChars(cbuf, 0, length);
}
/**
* Normalize URI.
*
* <p>This method normalizes "\", "//", "/./" and "/../". This method will return false when
* trying to go above the root, or if the URI contains a null byte.
*
* @param uriMB URI to be normalized
*/
public static boolean normalize(MessageBytes uriMB) {
ByteChunk uriBC = uriMB.getByteChunk();
final byte[] b = uriBC.getBytes();
final int start = uriBC.getStart();
int end = uriBC.getEnd();
// An empty URL is not acceptable
if (start == end) {
return false;
}
// URL * is acceptable
if ((end - start == 1) && b[start] == (byte) '*') {
return true;
}
int pos = 0;
int index = 0;
// Replace '\' with '/'
// Check for null byte
for (pos = start; pos < end; pos++) {
if (b[pos] == (byte) '\\') {
if (ALLOW_BACKSLASH) {
b[pos] = (byte) '/';
} else {
return false;
}
}
if (b[pos] == (byte) 0) {
return false;
}
}
// The URL must start with '/'
if (b[start] != (byte) '/') {
return false;
}
// Replace "//" with "/"
for (pos = start; pos < (end - 1); pos++) {
if (b[pos] == (byte) '/') {
while ((pos + 1 < end) && (b[pos + 1] == (byte) '/')) {
copyBytes(b, pos, pos + 1, end - pos - 1);
end--;
}
}
}
// If the URI ends with "/." or "/..", then we append an extra "/"
// Note: It is possible to extend the URI by 1 without any side effect
// as the next character is a non-significant WS.
if (((end - start) >= 2) && (b[end - 1] == (byte) '.')) {
if ((b[end - 2] == (byte) '/')
|| ((b[end - 2] == (byte) '.') && (b[end - 3] == (byte) '/'))) {
b[end] = (byte) '/';
end++;
}
}
uriBC.setEnd(end);
index = 0;
// Resolve occurrences of "/./" in the normalized path
while (true) {
index = uriBC.indexOf("/./", 0, 3, index);
if (index < 0) {
break;
}
copyBytes(b, start + index, start + index + 2, end - start - index - 2);
end = end - 2;
uriBC.setEnd(end);
}
index = 0;
// Resolve occurrences of "/../" in the normalized path
while (true) {
index = uriBC.indexOf("/../", 0, 4, index);
if (index < 0) {
break;
}
// Prevent from going outside our context
if (index == 0) {
return false;
}
int index2 = -1;
for (pos = start + index - 1; (pos >= 0) && (index2 < 0); pos--) {
if (b[pos] == (byte) '/') {
index2 = pos;
}
}
copyBytes(b, start + index2, start + index + 3, end - start - index - 3);
end = end + index2 - index - 3;
uriBC.setEnd(end);
index = index2;
}
return true;
}
/**
* Check that the URI is normalized following character decoding.
*
* <p>This method checks for "\", 0, "//", "/./" and "/../". This method will return false if
* sequences that are supposed to be normalized are still present in the URI.
*
* @param uriMB URI to be checked (should be chars)
*/
public static boolean checkNormalize(MessageBytes uriMB) {
CharChunk uriCC = uriMB.getCharChunk();
char[] c = uriCC.getChars();
int start = uriCC.getStart();
int end = uriCC.getEnd();
int pos = 0;
// Check for '\' and 0
for (pos = start; pos < end; pos++) {
if (c[pos] == '\\') {
return false;
}
if (c[pos] == 0) {
return false;
}
}
// Check for "//"
for (pos = start; pos < (end - 1); pos++) {
if (c[pos] == '/') {
if (c[pos + 1] == '/') {
return false;
}
}
}
// Check for ending with "/." or "/.."
if (((end - start) >= 2) && (c[end - 1] == '.')) {
if ((c[end - 2] == '/') || ((c[end - 2] == '.') && (c[end - 3] == '/'))) {
return false;
}
}
// Check for "/./"
if (uriCC.indexOf("/./", 0, 3, 0) >= 0) {
return false;
}
// Check for "/../"
if (uriCC.indexOf("/../", 0, 4, 0) >= 0) {
return false;
}
return true;
}
// ------------------------------------------------------ Protected Methods
/** Copy an array of bytes to a different position. Used during normalization. */
protected static void copyBytes(byte[] b, int dest, int src, int len) {
for (int pos = 0; pos < len; pos++) {
b[pos + dest] = b[pos + src];
}
}
}
