====================== Using the Java agent ====================== The agent can be built in three different configurations: 1) Java agent with JUL support: $ ./configure --enable-java-agent-jul 2) Java agent with Log4j support: $ export CLASSPATH=$CLASSPATH:/path/to/log4j.jar $ ./configure --enable-java-agent-log4j 3) Java agent with JUL + Log4j support $ export CLASSPATH=$CLASSPATH:/path/to/log4j.jar $ ./configure --enable-java-agent-all To build the agent with log4j support, make sure that the log4j jar is in your Java classpath. The configure script will automatically detect the appropriate Java binaries to use in order to build the Java agent. Enabling the JUL support will build a "lttng-ust-agent-jul.jar" file. Enabling the log4j support will build a "lttng-ust-agent-log4j.jar". Both of these jars depend on a third "lttng-ust-agent-common.jar", which will always be built. All these archives will be installed in the arch-agnostic "$prefix/share/java" path, e.g: "/usr/share/java". You need to make sure the .jar for the logging API you want to use (either lttng-ust-agent-jul.jar or -log4j.jar) is on your application's classpath. Both logging libraries also require an architecture-specific shared object (e.g: "liblttng-ust-jul-jni.so"), which is installed by the build system when doing "make install". Make sure that your Java application can find this shared object, by using the "java.library.path" property if necessary. In order to use UST tracing in your Java application, you simply need to instantiate a LttngLogHandler or a LttngLogAppender (for JUL or Log4j, respectively), then attach it to a JUL or Log4j Logger class. Refer to the code examples in examples/java-jul/ and examples/java-log4j/. LTTng session daemon agents will be initialized as needed. If no session daemon is available, the execution will continue and the agents will retry connecting every 3 seconds. ============== Object model ============== The object model of the Java agent implementation is as follows: --------- Ownership --------- Log Handlers: LttngLogHandler, LttngLogAppender n handlers/appenders, managed by the application. Can be created programmatically, or via a configuration file, Each one registers to a specific agent singleton (one per logging API) that is loaded on-demand Agent singletons: LttngJulAgent, LttngLog4jAgent Keep track of all handlers/appenders registered to them. Are disposed when last handler deregisters. Each agent instantiates 2 TCP clients, one for the root session daemon, one for the user one. One type of TCP client class for now. TCP client may become a singleton in the future. ------- Control ------- Messages come from the session daemon through the socket connection. Agent passes back-reference to itself to the TCP clients. Clients use this reference to invoke callbacks, which modify the state of the agent (enabling/disabling events, etc.) --------- Data path --------- Log messages are generated by the application and sent to the Logger objects, which then send them to the Handlers. When a log event is received by a Handler (publish(LogRecord)), the handler checks with the agent if it should log it or not, via ILttngAgent#isEventEnabled() for example. Events that are logged call the native tracepoint through JNI, which generates a UST event. There is one type of tracepoint per domain (Jul or Logj4). ----------------------- Filtering notifications ----------------------- FilterChangeNotifier is the singleton notifier class. Applications implement an IFilterChangeListener, and register it to the notifier. Whenever new event rules are enabled or disabled, the relevant agent informs the notifier, which then sends notifications to all registered listeners by invoking their callbacks. Upon registration, a new listener will receive notifications for all currently active rules. The notifier keeps track of its own event rule refcounting, to handle the case of multiple sessions or multiple agents enabling identical event rules. The FilterChangeNotifier does not have threads of its own. The listeners's callbacks will be invoked by these threads: * In the case of a notification being received while a listener is already registered, the callback is executed by the TCP client's thread. This effectively blocks the "lttng" command line until all callbacks are processed (assuming no timeouts). * In the case of a listener registering and receiving the currently-active rules, the callbacks will be executed by the application's thread doing the registerListener() call. The notifier is entirely synchronized. This ensure that if a rule is enabled at the same time a listener is registered, that listener does not miss or receive duplicate notifications.