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authorwisberg <wisberg>2005-10-29 17:51:06 +0000
committerwisberg <wisberg>2005-10-29 17:51:06 +0000
commit40d4d6d294d42992bf7c3ebdfb8a8395b074aabd (patch)
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<chapter id="ltw" xreflabel="Load-Time Weaving">
<!--
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-
-
DO NOT MODIFY THIS ONE
- Wes is in the process of polishing docs
Do changes in the devGuideDB/ltw.xml instead
-
-
-
-
-
-
-
-
-
-->
-
<title>Load-Time Weaving</title>
<sect1 id="ltw-introduction">
- <title>Introduction</title>
-
- <para> The AspectJ 5 weaver takes class files as input and produces class files as output.
- The weaving process itself can take place at one of three different times: compile-time,
- post-compile time, and load-time. The class files produced by the weaving process (and
- hence the run-time behaviour of an application) are the same regardless of the approach
- chosen. </para>
-
- <itemizedlist>
- <listitem> Compile-time weaving is the simplest approach. When you have the source code
- for an application, ajc will compile from source and produce woven class files as
- output. The invocation of the weaver is integral to the ajc compilation process. The
- aspects themselves may be in source or binary form. </listitem>
- <listitem> Post-compile weaving (also sometimes called binary weaving) is used to weave
- existing class files and JAR files. As with compile-time weaving,
- the aspects used for weaving may be in source or binary form. </listitem>
- <listitem> Load-time weaving (LTW) is simply binary weaving defered until the point that
- a class loader loads a class file and defines the class to the JVM. To support this,
- one or more "weaving class loaders", either provided explicitly by the run-time
- environment or enabled through a "weaving agent" are required. </listitem>
- </itemizedlist>
-
- <para> You may also hear the term "run-time weaving". We define this as the weaving of
- classes that have already been defined to the JVM (without reloading those
- classes). AspectJ 5 does not provide explicit support for run-time weaving although
- simple coding patterns can support dynamically enabling and disabling advice in aspects. </para>
-
- <sect2 id="weaving-class-files-more-than-once" xreflabel="weaving-class-files-more-than-once">
- <title>Weaving class files more than once</title>
-
- <para> By default a class file that has been woven by the AspectJ compiler cannot
- subsequently be rewoven (passed as input to the weaver). If you are developing
- AspectJ applications that are to be used in a load-time weaving environment, you
- need to specify the <literal>-Xreweavable</literal> compiler option when building
- them. This causes AspectJ to save additional state in the class files that is used
- to support subsequent reweaving. </para>
- <para><!-- FIXME AV -->As per AspectJ 1.5.0 M3 aspects (code style or annotation style) are
- reweavable by default, and weaved classes may be as well in 1.5.0 final.</para>
- </sect2>
- </sect1>
-
- <sect1 id="ltw-rules">
- <title>Load-time Weaving Requirements</title>
-
- <para> All load-time weaving is done in the context of a class loader, and hence the set of
- aspects used for weaving and the types that can be woven are affected by the class
- loader delegation model. This ensures that LTW complies with the Java 2 security model.
- The following rules govern the interaction of load-time weaving with class loading: </para>
-
- <orderedlist>
- <listitem> All aspects to be used for weaving must be defined to the weaver before any
- types to be woven are loaded.</listitem>
- <listitem> All abstract and concrete aspects visible to the weaver
- are available for extending (abstract aspects) and using for weaving.
- A visible aspect is one defined by the
- weaving class loader or one of its parent class loaders.</listitem>
- <listitem>A class loader may only weave classes that it defines. It may not weave
- classes loaded by a delegate or parent class loader.</listitem>
- </orderedlist>
-
- </sect1>
-
- <sect1 id="ltw-configuration">
- <title>Configuration</title>
- <para>AspectJ 5 supports a number of mechanisms designed to make load-time weaving as
- easy to use as possibe. The load-time weaving mechanism is chosen through JVM startup options.
- Configuration files determine the set of aspects to be used for weaving and which
- types will be woven. Additional diagnostic options allow the user to debug the configuration and
- weaving process. </para>
-
- <sect2 id="enabling-load-time-weaving" xreflabel="enabling-load-time-weaving">
- <title>Enabling Load-time Weaving</title>
- <para> AspectJ 5 supports several different ways of enabling load-time weaving for
- an application: agents, a command-line launch script, and a set of interfaces for
- integration of AspectJ load-time weaving in custom environments. </para>
- <variablelist>
- <varlistentry>
- <term>Agents</term>
- <listitem>
- <para>AspectJ 5 ships with a number of load-time weaving agents that
- enable load-time weaving. These agents and their configuration
- are execution environment dependent. Configuration for the supported environments is discussed
- later in this chapter.</para>
- <para>
- Using Java 5 JVMTI you can specify the <literal>-javaagent:pathto/aspectjweaver.jar</literal> option
- to the JVM.</para><para>
- Using BEA JRockit and Java 1.3/1.4, the very same behavior can be obtained using BEA JRockit JMAPI features with
- the <literal>-Xmanagement:class=org.aspectj.weaver.loadtime.JRockitAgent</literal>
- </para>
- </listitem>
- </varlistentry>
- <!-- FIXME: must be made consistent (aop.xml , CL hierarchy etc) -->
-<!-- <varlistentry>-->
-<!-- <term>Command line</term>-->
-<!-- <listitem>-->
-<!-- <para> AspectJ includes a script "aj" that allows programs executed at-->
-<!-- the command line to take advantage of load-time weaving. -->
-<!-- The script is customized when AspectJ is installed depending on the chosen -->
-<!-- JDK. For example, for JDK 1.4 the script uses the-->
-<!-- <literal>-Djava.system.class.loader</literal> system property to replace-->
-<!-- the system class loader with a weaving class loader allowing classes -->
-<!-- loaded from the CLASSPATH to be woven. -->
-<!-- For JDK 1.5 the JVMTI weaving agent is used allowing classes loaded by all-->
-<!-- class loaders to be woven. Versions of the JDK prior to 1.3 are not-->
-<!-- supported by the "aj" mechanism. </para>-->
-<!-- </listitem>-->
-<!-- </varlistentry>-->
- <varlistentry>
- <term>Custom Integration</term>
- <listitem>
- <para> A public interface is provided to allow a user written class loader
- to instantiate a weaver and weave classes after loading and before
- defining them in the JVM. This enables load-time weaving to be supported in
- environments where no weaving agent is available. It also allows the
- user to explicity restrict by class loader which classes can be woven.</para>
- </listitem>
- </varlistentry>
- </variablelist>
- </sect2>
-
- <sect2 id="configuring-load-time-weaving-with-aopxml-files" xreflabel="configuring-load-time-weaving-with-aopxml-files">
- <title>Configuring Load-time Weaving with aop.xml files</title>
-
- <para>The weaver is configured using one or more <literal>META-INF/aop.xml</literal>
- files located on the class loader search path. Each file may define a list of
- concrete aspects to be used for weaving, type patterns describing which types
- should woven, and a set of options to be passed to the weaver. In addition AspectJ 5
- supports the definition of concrete aspects in XML. Aspects defined in this way
- must extend an abstract aspect visible to the weaver. The abstract aspect
- may define abstract pointcuts (but not abstract
- methods). The following example shows a simple aop.xml file: </para>
- <programlisting><![CDATA[
- <aspectj>
-
- <aspects>
- <!-- declare two existing aspects to the weaver -->
- <aspect name="com.MyAspect"/>
- <aspect name="com.MyAspect.Inner"/>
-
- <!-- define a concrete aspect inline -->
- <concrete-aspect name="com.xyz.tracing.MyTracing" extends="tracing.AbstractTracing">
- <pointcut name="tracingScope" expression="within(org.maw.*)"/>
- </concrete-aspect>
-
- <!-- Of the set of aspects known to the weaver, use aspects matching
- the type pattern "com..*" for weaving. -->
- <include within="com..*"/>
-
- <!-- Do not use any aspects with the @CoolAspect annotation for weaving -->
- <exclude within="@CoolAspect *"/>
-
- </aspects>
-
- <weaver options="-verbose -XlazyTjp">
- <!-- Weave types that are within the javax.* or org.aspectj.*
- packages. Also weave all types in the foo package that do
- not have the @NoWeave annotation. -->
- <include within="javax.*"/>
- <include within="org.aspectj.*"/>
- <include within="(!@NoWeave foo.*) AND foo.*"/>
- <dump within="somepack.*"/><!-- will dump weaved classes to the "./_ajdump" folder on disk (for diagnostic purpose) -->
- </weaver>
-
- </aspectj>
-
- ]]></programlisting>
-
- <para>
- An aop.xml file contains two key sections: "aspects" defines one
- or more aspects to the weaver and controls which aspects are to be
- used in the weaving process; "weaver" defines weaver options and which
- types should be woven.
- </para>
-
- <para>
- The simplest way to define an aspect to the weaver is to
- specify the fully-qualified name of the aspect type in an aspect element.
- You can also
- declare (and define to the weaver) aspects inline in the aop.xml file.
- This is done using the "concrete-aspect" element. A concrete-aspect
- declaration must provide a pointcut definition for every abstract
- pointcut in the abstract aspect it extends. This mechanism is a
- useful way of externalizing configuration for infrastructure and
- auxiliary aspects where the pointcut definitions themselves can be
- considered part of the configuration of the service.
- </para>
-
- <para>
- <emphasis>
- Note: concrete-aspect is not available in AspectJ 1.5 M3.
- </emphasis>
- </para>
-
- <para>
- The aspects element may optionally contain one or more include and
- exclude elements (by default, all defined aspects are used for weaving).
- Specifying include or exclude elements restricts the set of defined
- aspects to be used for weaving to those that are matched by an include
- pattern, but not by an exclude pattern. The 'within' attribute accepts
- a type pattern of the same form as a within pcd, except that &amp;&amp;
- and || are replaced by 'AND' and 'OR'.
- </para>
-
- <para>
- The weaver element is used to pass options to the weaver and to specify
- the set of types that should be woven. If no include elements are specified
- then all types seen by the weaver will be woven.
- </para>
-
-
- <para> When several configuration files are visible from a given weaving class loader
- their contents are conceptually merged (this applies to both aop.xml files
- and to aop.properties files as described in the next section).
- The files are merged in the order they are
- found on the search path (regular <literal>getResourceAsStream</literal> lookup)
- according to the following rules: </para>
- <itemizedlist>
- <!-- FIXME AV - looks like we can refine conf in a child CL - not good -->
- <listitem> The set of available aspects is the set of all
- declared and defined aspects (<literal>aspect</literal> and
- <literal>concrete-aspect</literal> elements of the <literal>aspects</literal>
- section).</listitem>
- <listitem>The set of aspects used for weaving is the subset of the available
- aspects that are matched by at least one include statement and are not matched
- by any exclude statements. If there are no include statements then all non-excluded
- aspects are included.</listitem>
- <listitem> The set of types to be woven are those types matched by at
- least one weaver <literal>include</literal> element and not matched by any
- weaver <literal>exclude</literal> element. If there are no weaver include
- statements then all non-excluded types are included.</listitem>
- <listitem> The weaver options are derived by taking the union of the
- options specified in each of the weaver options attribute specifications. Where an
- option takes a value e.g. <literal>-warn:none</literal> the most recently defined value
- will be used.</listitem>
- </itemizedlist>
-
- <para>It is not an error for the same aspect to be defined to the weaver in
- more than one visible <literal>META-INF/aop.xml</literal> file.
- However, if a declarative concrete aspect
- is declared in more than aop.xml file then an error will be issued.
- A concrete aspect
- defined in this way will be used to weave types loaded by the
- class loader that loaded the aop.xml file in which it was defined.
- </para>
-
- <para> A <literal>META-INF/aop.xml</literal> file will automatically be generated when
- using the <literal>-outjar</literal> option of the AspectJ compiler.
- It will simply contain a (possibly empty) set of aspect elements, one for
- each concrete aspect included in the JAR. </para>
- </sect2>
-
- <!-- TODO someone implement that -->
- <!--
- <sect2 id="configuring-load-time-weaving-with-properties-files" xreflabel="configuring-load-time-weaving-with-properties-files">
- <title>Configuring Load-time Weaving with Properties Files</title>
- <para> For memory constrained environments or those without support for XML a simple
- Java Properties file can be used to configure LTW. Just like XML files,
- <literal>META-INF/aop.properties</literal> files are loaded from the class loader
- search path. Everything that can be configured through XML can be configured using a
- Properties file, with the exception of declarative concrete aspects. For example: </para>
- <programlisting><![CDATA[
- aspects.names=com.MyAspect,com.MyAspect.Inner
- aspects.include=com..*
- aspects.exclude=@CoolAspect
-
- weaver.options=-verbose -XlazyTjp
- weaver.include=javax.* OR org.aspectj.*
- ]]></programlisting>
- </sect2>
- -->
-
- <sect2 id="weaver-options" xreflabel="weaver-options">
- <title>Weaver Options</title>
- <para> The table below lists the AspectJ options supported by LTW. All other options
- will be ignored and a warning issued. </para>
- <informaltable>
- <tgroup cols="2">
- <thead>
- <row>
- <entry>Option</entry>
- <entry>Purpose</entry>
- </row>
- </thead>
- <tbody>
- <row>
- <entry>
- <literal>-verbose</literal>
- </entry>
- <entry>Issue informational messages about the weaving process. If ever you need to have information
- when the load time weaving engine is bootstrapped (hence its logger as per <literal>-XmessageHandlerClass:...</literal> not ready yet),
- you can use the option <literal>-Daj.weaving.verbose=true</literal> on the JVM startup command line. Messages will then be printed
- on stderr as long as the message handler class is not ready.
- </entry>
- </row>
- <row>
- <entry>
- <literal>-1.5</literal>
- </entry>
- <entry>Run the weaver in 1.5 mode (supports autoboxing in
- join point matching)</entry>
- </row>
- <row>
- <entry>
- <literal>-XlazyTjp</literal>
- </entry>
- <entry>Performance optimization for aspects making use
- of thisJoinPoint (non-static parts)</entry>
- </row>
- <row>
- <entry>
- <literal>-Xlintfile:pathToAResource</literal>
- </entry>
- <entry>Configure lint messages as specified in the given resource (visible from this aop.xml file' classloader)</entry>
- </row>
- <row>
- <entry>
- <literal>-Xlint:default, -Xlint:ignore, ...</literal>
- </entry>
- <entry>Configure lint messages, refer to documentation for meaningfull values</entry>
- </row>
- <row>
- <entry>
- <literal>-nowarn, -warn:none</literal>
- </entry>
- <entry>Suppress warning messages</entry>
- </row>
- <row>
- <entry>
- <literal>-proceedOnError</literal>
- </entry>
- <entry>Continue weaving even if errors occur (for example,
- "... already woven" errors)</entry>
- </row>
- <row>
- <entry>
- <literal>-Xreweavable</literal>
- </entry>
- <entry>Produce class files that can subsequently be rewoven</entry>
- </row>
- <row>
- <entry>
- <literal>-XnoInline</literal>
- </entry>
- <entry>Don't inline around advice.</entry>
- </row>
- <row>
- <entry>
- <literal>-showWeaveInfo</literal>
- </entry>
- <entry>Issue informational messages whenever the weaver touches a class file</entry>
- </row>
- <row>
- <entry>
- <literal>-XmessageHandlerClass:...</literal>
- </entry>
- <entry>Provide alternative output destination to stdout/stderr for all weaver messages.
- The given value must be the full qualified class name of a class that implements
- <literal>org.aspectj.bridge.IMessageHandler</literal>
- and that is visible from where the <literal>aop.xml</literal> is packed.
- If more than one such options are used,
- the first occurence only is taken into account.
- You must also be very cautious about using a custom handler since it is likely that it will be invoked
- (as well as all its third parties) while the weaving is done, which means that f.e. it cannot be weaved
- by the aspects that are configured within the same deployment unit.
- </entry>
- </row>
- </tbody>
- </tgroup>
- </informaltable>
- </sect2>
- </sect1>
-
- <sect1 id="ltw-specialcases">
- <title>Special cases</title>
- <para>
- Those classes are not exposed to the LTW infrastructure, no matter
- the configuration of the <literal>aop.xml</literal> file(s):
- <itemizedlist>
- <listitem>All <literal>org.aspectj.*</literal> classes (and subpackages) - as those are needed by the infrastructure itself</listitem>
- <listitem>All <literal>java.*</literal> and <literal>javax.*</literal> classes (and subpackages)</listitem>
- <listitem>All <literal>sun.reflect.*</literal> classes - as those are JDK specific classes used when reflective calls occurs</listitem>
- </itemizedlist>
- </para>
- <para>
- Despite these restrictions, it is perfectly possible to match call join points for calls to these types providing the calling
- class is exposed to the weaver. Subtypes of these excluded types that are exposed to the weaver may of course be woven.
- </para>
- <para>
- Note that dynamic proxy representations are exposed to the LTW infrastructure and are not considered
- a special case.
- </para>
- </sect1>
-
- <sect1 id="ltw-packaging">
- <title>Runtime Requirements for Load-time Weaving</title>
- <para> To use LTW the <literal>aspectjweaver.jar</literal> library must be added to the
- classpath. This contains the AspectJ 5 runtime, weaver, weaving class loader and
- weaving agents. It also contains the DTD for parsing XML weaving configuration files. </para>
- </sect1>
-
- <sect1 id="ltw-agents">
- <title>Supported Agents</title>
- <sect2 id="jvmti" xreflabel="jvmti">
- <title>JVMTI</title>
- <para> When using Java 5 the JVMTI agent can be used by starting the JVM with the
- following option (adapt according to the path to aspectjweaver.jar): </para>
- <programlisting><![CDATA[
- -javaagent:pathto/aspectjweaver.jar
- ]]></programlisting>
- </sect2>
- <sect2 id="jrockit" xreflabel="jrockit">
- <title>JRockit with Java 1.3/1.4 (use JVMTI on Java 5)</title>
- <para> The JRockit agent is configured with the following JVM option: </para>
- <programlisting><![CDATA[
- -Xmanagement:class=org.aspectj.weaver.loadtime.JRockitAgent
- ]]></programlisting>
- </sect2>
+ <title>Introduction</title>
+ <para>See Developer's Guide.</para>
</sect1>
</chapter>