org.apache.velocity.runtime.VelocimacroFactory Maven / Gradle / Ivy
package org.apache.velocity.runtime;
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* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
import java.io.StringReader;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Vector;
import java.util.ArrayList;
import org.apache.commons.lang.StringUtils;
import org.apache.velocity.Template;
import org.apache.velocity.exception.VelocityException;
import org.apache.velocity.runtime.directive.Directive;
import org.apache.velocity.runtime.directive.Macro;
import org.apache.velocity.runtime.directive.VelocimacroProxy;
import org.apache.velocity.runtime.log.LogDisplayWrapper;
import org.apache.velocity.runtime.parser.ParseException;
import org.apache.velocity.runtime.parser.node.Node;
/**
* VelocimacroFactory.java
*
* manages the set of VMs in a running Velocity engine.
*
* @author Geir Magnusson Jr.
* @version $Id: VelocimacroFactory.java 718442 2008-11-18 00:01:17Z nbubna $
*/
public class VelocimacroFactory
{
/**
* runtime services for this instance
*/
private final RuntimeServices rsvc;
/**
* the log for this instance
*/
private final LogDisplayWrapper log;
/**
* VMManager : deal with namespace management
* and actually keeps all the VM definitions
*/
private VelocimacroManager vmManager = null;
/**
* determines if replacement of global VMs are allowed
* controlled by VM_PERM_ALLOW_INLINE_REPLACE_GLOBAL
*/
private boolean replaceAllowed = false;
/**
* controls if new VMs can be added. Set by
* VM_PERM_ALLOW_INLINE Note the assumption that only
* through inline defs can this happen.
* additions through autoloaded VMs is allowed
*/
private boolean addNewAllowed = true;
/**
* sets if template-local namespace in used
*/
private boolean templateLocal = false;
/**
* determines if the libraries are auto-loaded
* when they change
*/
private boolean autoReloadLibrary = false;
/**
* vector of the library names
*/
private List macroLibVec = null;
/**
* map of the library Template objects
* used for reload determination
*/
private Map libModMap;
/**
* C'tor for the VelociMacro factory.
*
* @param rsvc Reference to a runtime services object.
*/
public VelocimacroFactory(final RuntimeServices rsvc)
{
this.rsvc = rsvc;
this.log = new LogDisplayWrapper(rsvc.getLog(), "Velocimacro : ",
rsvc.getBoolean(RuntimeConstants.VM_MESSAGES_ON, true));
/*
* we always access in a synchronized(), so we
* can use an unsynchronized hashmap
*/
libModMap = new HashMap();
vmManager = new VelocimacroManager(rsvc);
}
/**
* initialize the factory - setup all permissions
* load all global libraries.
*/
public void initVelocimacro()
{
/*
* maybe I'm just paranoid...
*/
synchronized(this)
{
log.trace("initialization starting.");
/*
* allow replacements while we add the libraries, if exist
*/
setReplacementPermission(true);
/*
* add all library macros to the global namespace
*/
vmManager.setNamespaceUsage(false);
/*
* now, if there is a global or local libraries specified, use them.
* All we have to do is get the template. The template will be parsed;
* VM's are added during the parse phase
*/
Object libfiles = rsvc.getProperty(RuntimeConstants.VM_LIBRARY);
if (libfiles == null)
{
log.debug("\"" + RuntimeConstants.VM_LIBRARY +
"\" is not set. Trying default library: " +
RuntimeConstants.VM_LIBRARY_DEFAULT);
// try the default library.
if (rsvc.getLoaderNameForResource(RuntimeConstants.VM_LIBRARY_DEFAULT) != null)
{
libfiles = RuntimeConstants.VM_LIBRARY_DEFAULT;
}
else
{
log.debug("Default library not found.");
}
}
if(libfiles != null)
{
macroLibVec = new ArrayList();
if (libfiles instanceof Vector)
{
macroLibVec.addAll((Vector)libfiles);
}
else if (libfiles instanceof String)
{
macroLibVec.add(libfiles);
}
for(int i = 0, is = macroLibVec.size(); i < is; i++)
{
String lib = (String) macroLibVec.get(i);
/*
* only if it's a non-empty string do we bother
*/
if (StringUtils.isNotEmpty(lib))
{
/*
* let the VMManager know that the following is coming
* from libraries - need to know for auto-load
*/
vmManager.setRegisterFromLib(true);
log.debug("adding VMs from VM library : " + lib);
try
{
Template template = rsvc.getTemplate(lib);
/*
* save the template. This depends on the assumption
* that the Template object won't change - currently
* this is how the Resource manager works
*/
Twonk twonk = new Twonk();
twonk.template = template;
twonk.modificationTime = template.getLastModified();
libModMap.put(lib, twonk);
}
catch (Exception e)
{
String msg = "Velocimacro : Error using VM library : " + lib;
log.error(true, msg, e);
throw new VelocityException(msg, e);
}
log.trace("VM library registration complete.");
vmManager.setRegisterFromLib(false);
}
}
}
/*
* now, the permissions
*/
/*
* allowinline : anything after this will be an inline macro, I think
* there is the question if a #include is an inline, and I think so
*
* default = true
*/
setAddMacroPermission(true);
if (!rsvc.getBoolean( RuntimeConstants.VM_PERM_ALLOW_INLINE, true))
{
setAddMacroPermission(false);
log.debug("allowInline = false : VMs can NOT be defined inline in templates");
}
else
{
log.debug("allowInline = true : VMs can be defined inline in templates");
}
/*
* allowInlineToReplaceGlobal : allows an inline VM , if allowed at all,
* to replace an existing global VM
*
* default = false
*/
setReplacementPermission(false);
if (rsvc.getBoolean(
RuntimeConstants.VM_PERM_ALLOW_INLINE_REPLACE_GLOBAL, false))
{
setReplacementPermission(true);
log.debug("allowInlineToOverride = true : VMs " +
"defined inline may replace previous VM definitions");
}
else
{
log.debug("allowInlineToOverride = false : VMs " +
"defined inline may NOT replace previous VM definitions");
}
/*
* now turn on namespace handling as far as permissions allow in the
* manager, and also set it here for gating purposes
*/
vmManager.setNamespaceUsage(true);
/*
* template-local inline VM mode : default is off
*/
setTemplateLocalInline(rsvc.getBoolean(
RuntimeConstants.VM_PERM_INLINE_LOCAL, false));
if (getTemplateLocalInline())
{
log.debug("allowInlineLocal = true : VMs " +
"defined inline will be local to their defining template only.");
}
else
{
log.debug("allowInlineLocal = false : VMs " +
"defined inline will be global in scope if allowed.");
}
vmManager.setTemplateLocalInlineVM(getTemplateLocalInline());
/*
* autoload VM libraries
*/
setAutoload(rsvc.getBoolean(RuntimeConstants.VM_LIBRARY_AUTORELOAD, false));
if (getAutoload())
{
log.debug("autoload on : VM system " +
"will automatically reload global library macros");
}
else
{
log.debug("autoload off : VM system " +
"will not automatically reload global library macros");
}
log.trace("Velocimacro : initialization complete.");
}
}
/**
* Adds a macro to the factory.
*
* addVelocimacro(String, Node, String[] argArray, String) should be used internally
* instead of this.
*
* @param name Name of the Macro to add.
* @param macroBody String representation of the macro.
* @param argArray Macro arguments. First element is the macro name.
* @param sourceTemplate Source template from which the macro gets registered.
*
* @return true if Macro was registered successfully.
*/
public boolean addVelocimacro(String name, String macroBody,
String argArray[], String sourceTemplate)
{
/*
* maybe we should throw an exception, maybe just tell
* the caller like this...
*
* I hate this : maybe exceptions are in order here...
* They definitely would be if this was only called by directly
* by users, but Velocity calls this internally.
*/
if (name == null || macroBody == null || argArray == null ||
sourceTemplate == null)
{
String msg = "VM '"+name+"' addition rejected : ";
if (name == null)
{
msg += "name";
}
else if (macroBody == null)
{
msg += "macroBody";
}
else if (argArray == null)
{
msg += "argArray";
}
else
{
msg += "sourceTemplate";
}
msg += " argument was null";
log.error(msg);
throw new NullPointerException(msg);
}
/*
* see if the current ruleset allows this addition
*/
if (!canAddVelocimacro(name, sourceTemplate))
{
return false;
}
synchronized (this)
{
try
{
Node macroRootNode = rsvc.parse(new StringReader(macroBody), sourceTemplate);
vmManager.addVM(name, macroRootNode, argArray, sourceTemplate, replaceAllowed);
}
catch (ParseException ex)
{
// to keep things 1.3 compatible call toString() here
throw new RuntimeException(ex.toString());
}
}
if (log.isDebugEnabled())
{
StringBuffer msg = new StringBuffer("added ");
Macro.macroToString(msg, argArray);
msg.append(" : source = ").append(sourceTemplate);
log.debug(msg.toString());
}
return true;
}
/**
* Adds a macro to the factory.
*
* @param name Name of the Macro to add.
* @param macroBody root node of the parsed macro AST
* @param argArray Name of the macro arguments. First element is the macro name.
* @param sourceTemplate Source template from which the macro gets registered.
* @return true if Macro was registered successfully.
* @since 1.6
*/
public boolean addVelocimacro(String name, Node macroBody,
String argArray[], String sourceTemplate)
{
// Called by RuntimeInstance.addVelocimacro
/*
* maybe we should throw an exception, maybe just tell
* the caller like this...
*
* I hate this : maybe exceptions are in order here...
* They definitely would be if this was only called by directly
* by users, but Velocity calls this internally.
*/
if (name == null || macroBody == null || argArray == null ||
sourceTemplate == null)
{
String msg = "VM '"+name+"' addition rejected : ";
if (name == null)
{
msg += "name";
}
else if (macroBody == null)
{
msg += "macroBody";
}
else if (argArray == null)
{
msg += "argArray";
}
else
{
msg += "sourceTemplate";
}
msg += " argument was null";
log.error(msg);
throw new NullPointerException(msg);
}
/*
* see if the current ruleset allows this addition
*/
if (!canAddVelocimacro(name, sourceTemplate))
{
return false;
}
synchronized(this)
{
vmManager.addVM(name, macroBody, argArray, sourceTemplate, replaceAllowed);
}
return(true);
}
/**
* determines if a given macro/namespace (name, source) combo is allowed
* to be added
*
* @param name Name of VM to add
* @param sourceTemplate Source template that contains the defintion of the VM
* @return true if it is allowed to be added, false otherwise
*/
private synchronized boolean canAddVelocimacro(String name, String sourceTemplate)
{
/*
* short circuit and do it if autoloader is on, and the
* template is one of the library templates
*/
if (autoReloadLibrary && (macroLibVec != null))
{
if( macroLibVec.contains(sourceTemplate) )
return true;
}
/*
* maybe the rules should be in manager? I dunno. It's to manage
* the namespace issues first, are we allowed to add VMs at all?
* This trumps all.
*/
if (!addNewAllowed)
{
log.warn("VM addition rejected : "+name+" : inline VMs not allowed.");
return false;
}
/*
* are they local in scope? Then it is ok to add.
*/
if (!templateLocal)
{
/*
* otherwise, if we have it already in global namespace, and they can't replace
* since local templates are not allowed, the global namespace is implied.
* remember, we don't know anything about namespace managment here, so lets
* note do anything fancy like trying to give it the global namespace here
*
* so if we have it, and we aren't allowed to replace, bail
*/
if (!replaceAllowed && isVelocimacro(name, sourceTemplate))
{
/*
* Concurrency fix: the log entry was changed to debug scope because it
* causes false alarms when several concurrent threads simultaneously (re)parse
* some macro
*/
if (log.isDebugEnabled())
log.debug("VM addition rejected : "+name+" : inline not allowed to replace existing VM");
return false;
}
}
return true;
}
/**
* Tells the world if a given directive string is a Velocimacro
* @param vm Name of the Macro.
* @param sourceTemplate Source template from which the macro should be loaded.
* @return True if the given name is a macro.
*/
public boolean isVelocimacro(String vm, String sourceTemplate)
{
// synchronization removed
return(vmManager.get(vm, sourceTemplate) != null);
}
/**
* actual factory : creates a Directive that will
* behave correctly wrt getting the framework to
* dig out the correct # of args
* @param vmName Name of the Macro.
* @param sourceTemplate Source template from which the macro should be loaded.
* @return A directive representing the Macro.
*/
public Directive getVelocimacro(String vmName, String sourceTemplate)
{
return(getVelocimacro(vmName, sourceTemplate, null));
}
/**
* @since 1.6
*/
public Directive getVelocimacro(String vmName, String sourceTemplate, String renderingTemplate)
{
VelocimacroProxy vp = null;
vp = vmManager.get(vmName, sourceTemplate, renderingTemplate);
/*
* if this exists, and autoload is on, we need to check where this VM came from
*/
if (vp != null && autoReloadLibrary )
{
synchronized (this)
{
/*
* see if this VM came from a library. Need to pass sourceTemplate in the event
* namespaces are set, as it could be masked by local
*/
String lib = vmManager.getLibraryName(vmName, sourceTemplate);
if (lib != null)
{
try
{
/*
* get the template from our map
*/
Twonk tw = (Twonk) libModMap.get(lib);
if (tw != null)
{
Template template = tw.template;
/*
* now, compare the last modified time of the resource with the last
* modified time of the template if the file has changed, then reload.
* Otherwise, we should be ok.
*/
long tt = tw.modificationTime;
long ft = template.getResourceLoader().getLastModified(template);
if (ft > tt)
{
log.debug("auto-reloading VMs from VM library : " + lib);
/*
* when there are VMs in a library that invoke each other, there are
* calls into getVelocimacro() from the init() process of the VM
* directive. To stop the infinite loop we save the current time
* reported by the resource loader and then be honest when the
* reload is complete
*/
tw.modificationTime = ft;
template = rsvc.getTemplate(lib);
/*
* and now we be honest
*/
tw.template = template;
tw.modificationTime = template.getLastModified();
/*
* note that we don't need to put this twonk
* back into the map, as we can just use the
* same reference and this block is synchronized
*/
}
}
}
catch (Exception e)
{
String msg = "Velocimacro : Error using VM library : " + lib;
log.error(true, msg, e);
throw new VelocityException(msg, e);
}
vp = vmManager.get(vmName, sourceTemplate, renderingTemplate);
}
}
}
return vp;
}
/**
* tells the vmManager to dump the specified namespace
*
* @param namespace Namespace to dump.
* @return True if namespace has been dumped successfully.
*/
public boolean dumpVMNamespace(String namespace)
{
return vmManager.dumpNamespace(namespace);
}
/**
* sets permission to have VMs local in scope to their declaring template note that this is
* really taken care of in the VMManager class, but we need it here for gating purposes in addVM
* eventually, I will slide this all into the manager, maybe.
*/
private void setTemplateLocalInline(boolean b)
{
templateLocal = b;
}
private boolean getTemplateLocalInline()
{
return templateLocal;
}
/**
* sets the permission to add new macros
*/
private boolean setAddMacroPermission(final boolean addNewAllowed)
{
boolean b = this.addNewAllowed;
this.addNewAllowed = addNewAllowed;
return b;
}
/**
* sets the permission for allowing addMacro() calls to replace existing VM's
*/
private boolean setReplacementPermission(boolean arg)
{
boolean b = replaceAllowed;
replaceAllowed = arg;
vmManager.setInlineReplacesGlobal(arg);
return b;
}
/**
* set the switch for automatic reloading of
* global library-based VMs
*/
private void setAutoload(boolean b)
{
autoReloadLibrary = b;
}
/**
* get the switch for automatic reloading of
* global library-based VMs
*/
private boolean getAutoload()
{
return autoReloadLibrary;
}
/**
* small container class to hold the tuple
* of a template and modification time.
* We keep the modification time so we can
* 'override' it on a reload to prevent
* recursive reload due to inter-calling
* VMs in a library
*/
private static class Twonk
{
/** Template kept in this container. */
public Template template;
/** modification time of the template. */
public long modificationTime;
}
}
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