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log4j – Overview
log4j is a reliable, fast and flexible logging framework (APIs) written in Java, which is distributed under the Apache Software License.
log4j has been ported to the C, C++, C#, Perl, Python, Ruby, and Eiffel languages.
log4j is highly configurable through external configuration files at runtime. It views the logging process in terms of levels of priorities and offers mechanisms to direct logging information to a great variety of destinations, such as a database, file, console, UNIX Syslog, etc.
log4j has three main components:
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loggers: Responsible for capturing logging information.
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appenders: Responsible for publishing logging information to various preferred destinations.
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layouts: Responsible for formatting logging information in different styles.
History of log4j
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Started in early 1996 as tracing API for the E.U. SEMPER (Secure Electronic Marketplace for Europe) project.
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After countless enhancements and several incarnations, the initial API has evolved to become log4j, a popular logging package for Java.
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The package is distributed under the Apache Software License, a full-fledged open source license certified by the open source initiative.
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The latest log4j version, including its full-source code, class files, and documentation can be found at http://logging.apache.org/log4j/.
log4j Features
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It is thread-safe.
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It is optimized for speed.
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It is based on a named logger hierarchy.
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It supports multiple output appenders per logger.
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It supports internationalization.
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It is not restricted to a predefined set of facilities.
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Logging behavior can be set at runtime using a configuration file.
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It is designed to handle Java Exceptions from the start.
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It uses multiple levels, namely ALL, TRACE, DEBUG, INFO, WARN, ERROR and FATAL.
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The format of the log output can be easily changed by extending the Layout class.
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The target of the log output as well as the writing strategy can be altered by implementations of the Appender interface.
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It is fail-stop. However, although it certainly strives to ensure delivery, log4j does not guarantee that each log statement will be delivered to its destination.
Pros and Cons of Logging
Logging is an important component of the software development. A well-written logging code offers quick debugging, easy maintenance, and structured storage of an application”s runtime information.
Logging does have its drawbacks also. It can slow down an application. If too verbose, it can cause scrolling blindness. To alleviate these concerns, log4j is designed to be reliable, fast and extensible.
Since logging is rarely the main focus of an application, the log4j API strives to be simple to understand and to use.
log4j – Installation
log4j API package is distributed under the Apache Software License, a full-fledged open source license certified by the open source initiative.
The latest log4j version, including full-source code, class files and documentation can be found at http://logging.apache.org/log4j/.
To install log4j on your system, download apache-log4j-x.x.x.tar.gz from the specified URL and follow the steps give below.
Step 1
Unzip and untar the downloaded file in /usr/local/ directory as follows:
$ gunzip apache-log4j-1.2.15.tar.gz $ tar -xvf apache-log4j-1.2.15.tar apache-log4j-1.2.15/tests/input/ apache-log4j-1.2.15/tests/input/xml/ apache-log4j-1.2.15/tests/src/ apache-log4j-1.2.15/tests/src/java/ apache-log4j-1.2.15/tests/src/java/org/ .......................................
While untarring, it would create a directory hierarchy with a name apache-log4j-x.x.x as follows:
-rw-r--r-- 1 root root 3565 2007-08-25 00:09 BUILD-INFO.txt -rw-r--r-- 1 root root 2607 2007-08-25 00:09 build.properties.sample -rw-r--r-- 1 root root 32619 2007-08-25 00:09 build.xml drwxr-xr-x 14 root root 4096 2010-02-04 14:09 contribs drwxr-xr-x 5 root root 4096 2010-02-04 14:09 examples -rw-r--r-- 1 root root 2752 2007-08-25 00:09 INSTALL -rw-r--r-- 1 root root 4787 2007-08-25 00:09 KEYS -rw-r--r-- 1 root root 11366 2007-08-25 00:09 LICENSE -rw-r--r-- 1 root root 391834 2007-08-25 00:29 log4j-1.2.15.jar -rw-r--r-- 1 root root 160 2007-08-25 00:09 NOTICE -rwxr-xr-x 1 root root 10240 2007-08-25 00:27 NTEventLogAppender.dll -rw-r--r-- 1 root root 17780 2007-08-25 00:09 pom.xml drwxr-xr-x 7 root root 4096 2007-08-25 00:13 site drwxr-xr-x 8 root root 4096 2010-02-04 14:08 src drwxr-xr-x 6 root root 4096 2010-02-04 14:09 tests
Step 2
This step is optional and depends on what features you are going to use from log4j framework. If you already have following packages installed on your machine then it is fine, otherwise you need to install them to make log4j work.
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JavaMail API: The e-mail based logging feature in log4j requires the Java Mail API (mail.jar) to be installed on your machine from glassfish.dev.
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JavaBeans Activation Framework: The Java Mail API will also require that the JavaBeans Activation Framework (activation.jar) be installed on your machine from http://java.sun.com/products/javabeans/jaf/index.jsp.
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Java Message Service: The JMS-compatible features of log4j will require that both JMS and Java Naming and Directory Interface JNDI be installed on your machine from http://java.sun.com/products/jms.
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XML Parser: You need a JAXP-compatible XML parser to use log4j. Make sure you have Xerces.jar installed on your machine from http://xerces.apache.org/xerces-j/install.html.
Step 3
Now you need to set up the CLASSPATH and PATH variables appropriately. Here we are going to set it just for the log4j.x.x.x.jar file.
$ pwd /usr/local/apache-log4j-1.2.15 $ export CLASSPATH= $CLASSPATH:/usr/local/apache-log4j-1.2.15/log4j-1.2.15.jar $ export PATH=$PATH:/usr/local/apache-log4j-1.2.15/
log4j – Architecture
log4j API follows a layered architecture where each layer provides different objects to perform different tasks. This layered architecture makes the design flexible and easy to extend in future.
There are two types of objects available with log4j framework.
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Core Objects: These are mandatory objects of the framework. They are required to use the framework.
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Support Objects: These are optional objects of the framework. They support core objects to perform additional but important tasks.
Core Objects
Core objects include the following types of objects:
Logger Object
The top-level layer is the Logger which provides the Logger object. The Logger object is responsible for capturing logging information and they are stored in a namespace hierarchy.
Layout Object
The layout layer provides objects which are used to format logging information in different styles. It provides support to appender objects before publishing logging information.
Layout objects play an important role in publishing logging information in a way that is human-readable and reusable.
Appender Object
This is a lower-level layer which provides Appender objects. The Appender object is responsible for publishing logging information to various preferred destinations such as a database, file, console, UNIX Syslog, etc.
The following virtual diagram shows the components of a log4J framework:
Support Objects
There are other important objects in the log4j framework that play a vital role in the logging framework:
Level Object
The Level object defines the granularity and priority of any logging information. There are seven levels of logging defined within the API: OFF, DEBUG, INFO, ERROR, WARN, FATAL, and ALL.
Filter Object
The Filter object is used to analyze logging information and make further decisions on whether that information should be logged or not.
An Appender objects can have several Filter objects associated with them. If logging information is passed to a particular Appender object, all the Filter objects associated with that Appender need to approve the logging information before it can be published to the attached destination.
ObjectRenderer
The ObjectRenderer object is specialized in providing a String representation of different objects passed to the logging framework. This object is used by Layout objects to prepare the final logging information.
LogManager
The LogManager object manages the logging framework. It is responsible for reading the initial configuration parameters from a system-wide configuration file or a configuration class.
log4j – Configuration
The previous chapter explained the core components of log4j. This chapter explains how you can configure the core components using a configuration file. Configuring log4j involves assigning the Level, defining Appender, and specifying Layout objects in a configuration file.
The log4j.properties file is a log4j configuration file which keeps properties in key-value pairs. By default, the LogManager looks for a file named log4j.properties in the CLASSPATH.
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The level of the root logger is defined as DEBUG. The DEBUG attaches the appender named X to it.
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Set the appender named X to be a valid appender.
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Set the layout for the appender X.
log4j.properties Syntax:
Following is the syntax of log4j.properties file for an appender X:
# Define the root logger with appender X log4j.rootLogger = DEBUG, X # Set the appender named X to be a File appender log4j.appender.X=org.apache.log4j.FileAppender # Define the layout for X appender log4j.appender.X.layout=org.apache.log4j.PatternLayout log4j.appender.X.layout.conversionPattern=%m%n
log4j.properties Example
Using the above syntax, we define the following in log4j.properties file:
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The level of the root logger is defined as DEBUG, The DEBUG appender named FILE to it.
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The appender FILE is defined as org.apache.log4j.FileAppender. It writes to a file named “log.out” located in the log directory.
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The layout pattern defined is %m%n, which means the printed logging message will be followed by a newline character.
# Define the root logger with appender file log4j.rootLogger = DEBUG, FILE # Define the file appender log4j.appender.FILE=org.apache.log4j.FileAppender log4j.appender.FILE.File=${log}/log.out # Define the layout for file appender log4j.appender.FILE.layout=org.apache.log4j.PatternLayout log4j.appender.FILE.layout.conversionPattern=%m%n
It is important to note that log4j supports UNIX-style variable substitution such as ${variableName}.
Debug Level
We have used DEBUG with both the appenders. All the possible options are:
- TRACE
- DEBUG
- INFO
- WARN
- ERROR
- FATAL
- ALL
These levels would be explained in log4j Logging Levels.
Appenders
Apache log4j provides Appender objects which are primarily responsible for printing logging messages to different destinations such as consoles, files, sockets, NT event logs, etc.
Each Appender object has different properties associated with it, and these properties indicate the behavior of that object.
Property | Description |
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layout | Appender uses the Layout objects and the conversion pattern associated with them to format the logging information. |
target | The target may be a console, a file, or another item depending on the appender. |
level | The level is required to control the filtration of the log messages. |
threshold | Appender can have a threshold level associated with it independent of the logger level. The Appender ignores any logging messages that have a level lower than the threshold level. |
filter | The Filter objects can analyze logging information beyond level matching and decide whether logging requests should be handled by a particular Appender or ignored. |
We can add an Appender object to a Logger by including the following setting in the configuration file with the following method:
log4j.logger.[logger-name]=level, appender1,appender..n
You can write same configuration in XML format as follows:
<logger name="com.apress.logging.log4j" additivity="false"> <appender-ref ref="appender1"/> <appender-ref ref="appender2"/> </logger>
If you are willing to add Appender object inside your program then you can use following method:
public void addAppender(Appender appender);
The addAppender() method adds an Appender to the Logger object. As the example configuration demonstrates, it is possible to add many Appender objects to a logger in a comma-separated list, each printing logging information to separate destinations.
We have used only one appender FileAppender in our example above. All the possible appender options are:
- AppenderSkeleton
- AsyncAppender
- ConsoleAppender
- DailyRollingFileAppender
- ExternallyRolledFileAppender
- FileAppender
- JDBCAppender
- JMSAppender
- LF5Appender
- NTEventLogAppender
- NullAppender
- RollingFileAppender
- SMTPAppender
- SocketAppender
- SocketHubAppender
- SyslogAppender
- TelnetAppender
- WriterAppender
We would cover FileAppender in Logging in Files and JDBC Appender would be covered in Logging in Database.
Layout
We have used PatternLayout with our appender. All the possible options are:
- DateLayout
- HTMLLayout
- PatternLayout
- SimpleLayout
- XMLLayout
Using HTMLLayout and XMLLayout, you can generate log in HTML and in XML format as well.
Layout Formatting
You would learn how to format a log message in chapter:Log Formatting.
log4j – Sample Program
We have seen how to create a configuration file. This chapter describe how to generate debug messages and log them in a simple text file.
Following is a simple configuration file created for our example. Let us revise it once again:
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The level of the root logger is defined as DEBUG and attaches appender named FILE to it.
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The appender FILE is defined as org.apache.log4j.FileAppender and writes to a file named “log.out” located in the log directory.
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The layout pattern defined is %m%n, which means the printed logging message will be followed by a newline character.
The contents of log4j.properties file are as follows:
# Define the root logger with appender file log = /usr/home/log4j log4j.rootLogger = DEBUG, FILE # Define the file appender log4j.appender.FILE=org.apache.log4j.FileAppender log4j.appender.FILE.File=${log}/log.out # Define the layout for file appender log4j.appender.FILE.layout=org.apache.log4j.PatternLayout log4j.appender.FILE.layout.conversionPattern=%m%n
Using log4j in Java Program
The following Java class is a very simple example that initializes, and then uses, the Log4J logging library for Java applications.
import org.apache.log4j.Logger; import java.io.*; import java.sql.SQLException; import java.util.*; public class log4jExample{ /* Get actual class name to be printed on */ static Logger log = Logger.getLogger(log4jExample.class.getName()); public static void main(String[] args)throws IOException,SQLException{ log.debug("Hello this is a debug message"); log.info("Hello this is an info message"); } }
Compile and Execute
Here are the steps to compile and run the above-mentioned program. Make sure you have set PATH and CLASSPATH appropriately before proceeding for the compilation and execution.
All the libraries should be available in CLASSPATH and your log4j.properties file should be available in PATH. Follow the steps give below:
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Create log4j.properties as shown above.
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Create log4jExample.java as shown above and compile it.
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Execute log4jExample binary to run the program.
You would get the following result inside /usr/home/log4j/log.out file:
Hello this is a debug message Hello this is an info message
log4j – Logging Methods
Logger class provides a variety of methods to handle logging activities. The Logger class does not allow us to instantiate a new Logger instance but it provides two static methods for obtaining a Logger object:
- public static Logger getRootLogger();
- public static Logger getLogger(String name);
The first of the two methods returns the application instance”s root logger and it does not have a name.
Any other named Logger object instance is obtained through the second method by passing the name of the logger. The name of the logger can be any string you can pass, usually a class or a package name as we have used in the last chapter and it is mentioned below:
static Logger log = Logger.getLogger(log4jExample.class.getName());
Logging Methods
Once we obtain an instance of a named logger, we can use several methods of the logger to log messages. The Logger class has the following methods for printing the logging information.
Sr.No | Methods and Description |
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1 | public void debug(Object message)
It prints messages with the level Level.DEBUG. |
2 | public void error(Object message)
It prints messages with the level Level.ERROR. |
3 | public void fatal(Object message);
It prints messages with the level Level.FATAL. |
4 | public void info(Object message);
It prints messages with the level Level.INFO. |
5 | public void warn(Object message);
It prints messages with the level Level.WARN. |
6 |
public void trace(Object message);
It prints messages with the level Level.TRACE. |
All the levels are defined in the org.apache.log4j.Level class and any of the above-mentioned methods can be called as follows:
import org.apache.log4j.Logger; public class LogClass { private static org.apache.log4j.Logger log = Logger.getLogger(LogClass.class); public static void main(String[] args) { log.trace("Trace Message!"); log.debug("Debug Message!"); log.info("Info Message!"); log.warn("Warn Message!"); log.error("Error Message!"); log.fatal("Fatal Message!"); } }
When you compile and run LogClass program, it would generate the following result:
Debug Message! Info Message! Warn Message! Error Message! Fatal Message!
All the debug messages make more sense when they are used in combination with levels. We will cover levels in the next chapter and then, you would have a good understanding of how to use these methods in combination with different levels of debugging.
log4j – Logging Levels
The org.apache.log4j.Level class provides the following levels. You can also define your custom levels by sub-classing the Level class.
Level | Description |
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ALL | All levels including custom levels. |
DEBUG | Designates fine-grained informational events that are most useful to debug an application. |
INFO | Designates informational messages that highlight the progress of the application at coarse-grained level. |
WARN | Designates potentially harmful situations. |
ERROR | Designates error events that might still allow the application to continue running. |
FATAL | Designates very severe error events that will presumably lead the application to abort. |
OFF | The highest possible rank and is intended to turn off logging. |
TRACE | Designates finer-grained informational events than the DEBUG. |
How do Levels Works?
A log request of level p in a logger with level q is enabled if p >= q. This rule is at the heart of log4j. It assumes that levels are ordered. For the standard levels, we have ALL < DEBUG < INFO < WARN < ERROR < FATAL < OFF.
The Following example shows how we can filter all our DEBUG and INFO messages. This program uses of logger method setLevel(Level.X) to set a desired logging level:
This example would print all the messages except Debug and Info:
import org.apache.log4j.*; public class LogClass { private static org.apache.log4j.Logger log = Logger.getLogger(LogClass.class); public static void main(String[] args) { log.setLevel(Level.WARN); log.trace("Trace Message!"); log.debug("Debug Message!"); log.info("Info Message!"); log.warn("Warn Message!"); log.error("Error Message!"); log.fatal("Fatal Message!"); } }
When you compile and run the LogClass program, it would generate the following result:
Warn Message! Error Message! Fatal Message!
Setting Levels using Configuration File
log4j provides you configuration file based level setting which sets you free from changing the source code when you want to change the debugging level.
Following is an example configuration file which would perform the same task as we did using the log.setLevel(Level.WARN) method in the above example.
# Define the root logger with appender file log = /usr/home/log4j log4j.rootLogger = WARN, FILE # Define the file appender log4j.appender.FILE=org.apache.log4j.FileAppender log4j.appender.FILE.File=${log}/log.out # Define the layout for file appender log4j.appender.FILE.layout=org.apache.log4j.PatternLayout log4j.appender.FILE.layout.conversionPattern=%m%n
Let us now use our following program:
import org.apache.log4j.*; public class LogClass { private static org.apache.log4j.Logger log = Logger.getLogger(LogClass.class); public static void main(String[] args) { log.trace("Trace Message!"); log.debug("Debug Message!"); log.info("Info Message!"); log.warn("Warn Message!"); log.error("Error Message!"); log.fatal("Fatal Message!"); } }
Now compile and run the above program and you would get following result in /usr/home/log4j/log.out file:
Warn Message! Error Message! Fatal Message!
log4j – Log Formatting
Apache log4j provides various Layout objects, each of which can format logging data according to various layouts. It is also possible to create a Layout object that formats logging data in an application-specific way.
All Layout objects receive a LoggingEvent object from the Appender objects. The Layout objects then retrieve the message argument from the LoggingEvent and apply the appropriate ObjectRenderer to obtain the String representation of the message.
The Layout Types
The top-level class in the hierarchy is the abstract class org.apache.log4j.Layout. This is the base class for all other Layout classes in the log4j API.
The Layout class is defined as abstract within an application, we never use this class directly; instead, we work with its subclasses which are as follows:
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DateLayout
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SimpleLayout
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XMLLayout
The Layout Methods
This class provides a skeleton implementation of all the common operations across all other Layout objects and declares two abstract methods.
Sr.No. | Methods & Description |
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1 | public abstract boolean ignoresThrowable()
It indicates whether the logging information handles any java.lang.Throwable object passed to it as a part of the logging event. If the Layout object handles the Throwable object, then the Layout object does not ignore it, and returns false. |
2 |
public abstract String format(LoggingEvent event)
Individual layout subclasses implement this method for layout specific formatting. |
Apart from these abstract methods, the Layout class provides concrete implementation for the methods listed below:
Sr.No. | Methods & Description |
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1 |
public String getContentType()
It returns the content type used by the Layout objects. The base class returns text/plain as the default content type. |
2 |
public String getFooter()
It specifies the footer information of the logging message. |
3 |
public String getHeader()
It specifies the header information of the logging message. |
Each subclass can return class-specific information by overriding the concrete implementation of these methods.
log4j – Logging in Files
To write your logging information into a file, you would have to use org.apache.log4j.FileAppender.
FileAppender Configuration
FileAppender has the following configurable parameters:
Property | Description |
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immediateFlush | This flag is by default set to true, which means the output stream to the file being flushed with each append operation. |
encoding | It is possible to use any character-encoding. By default, it is the platform-specific encoding scheme. |
threshold | The threshold level for this appender. |
Filename | The name of the log file. |
fileAppend | This is by default set to true, which means the logging information being appended to the end of the same file. |
bufferedIO | This flag indicates whether we need buffered writing enabled. By default, it is set to false. |
bufferSize | If buffered I/O is enabled, it indicates the buffer size. By default, it is set to 8kb. |
Following is a sample configuration file log4j.properties for FileAppender.
# Define the root logger with appender file log4j.rootLogger = DEBUG, FILE # Define the file appender log4j.appender.FILE=org.apache.log4j.FileAppender # Set the name of the file log4j.appender.FILE.File=${log}/log.out # Set the immediate flush to true (default) log4j.appender.FILE.ImmediateFlush=true # Set the threshold to debug mode log4j.appender.FILE.Threshold=debug # Set the append to false, overwrite log4j.appender.FILE.Append=false # Define the layout for file appender log4j.appender.FILE.layout=org.apache.log4j.PatternLayout log4j.appender.FILE.layout.conversionPattern=%m%n
If you wish to have an XML configuration file equivalent to the above log4j.properties file, then here is the content:
<?xml version="1.0" encoding="UTF-8" ?> <!DOCTYPE log4j:configuration SYSTEM "log4j.dtd"> <log4j:configuration> <appender name="FILE" class="org.apache.log4j.FileAppender"> <param name="file" value="${log}/log.out"/> <param name="immediateFlush" value="true"/> <param name="threshold" value="debug"/> <param name="append" value="false"/> <layout class="org.apache.log4j.PatternLayout"> <param name="conversionPattern" value="%m%n"/> </layout> </appender> <logger name="log4j.rootLogger" additivity="false"> <level value="DEBUG"/> <appender-ref ref="FILE"/> </logger> </log4j:configuration>
You can try log4j – Sample Program with the above configuration.
Logging in Multiple Files
You may want to write your log messages into multiple files for certain reasons, for example, if the file size reached to a certain threshold.
To write your logging information into multiple files, you would have to use org.apache.log4j.RollingFileAppender class which extends the FileAppender class and inherits all its properties.
We have the following configurable parameters in addition to the ones mentioned above for FileAppender:
Property | Description |
---|---|
maxFileSize | This is the critical size of the file above which the file will be rolled. Default value is 10 MB. |
maxBackupIndex | This property denotes the number of backup files to be created. Default value is 1. |
Following is a sample configuration file log4j.properties for RollingFileAppender.
# Define the root logger with appender file log4j.rootLogger = DEBUG, FILE # Define the file appender log4j.appender.FILE=org.apache.log4j.RollingFileAppender # Set the name of the file log4j.appender.FILE.File=${log}/log.out # Set the immediate flush to true (default) log4j.appender.FILE.ImmediateFlush=true # Set the threshold to debug mode log4j.appender.FILE.Threshold=debug # Set the append to false, should not overwrite log4j.appender.FILE.Append=true # Set the maximum file size before rollover log4j.appender.FILE.MaxFileSize=5MB # Set the the backup index log4j.appender.FILE.MaxBackupIndex=2 # Define the layout for file appender log4j.appender.FILE.layout=org.apache.log4j.PatternLayout log4j.appender.FILE.layout.conversionPattern=%m%n
If you wish to have an XML configuration file, you can generate the same as mentioned in the initial section and add only additional parameters related to RollingFileAppender.
This example configuration demonstrates that the maximum permissible size of each log file is 5 MB. Upon exceeding the maximum size, a new log file will be created. Since maxBackupIndex is defined as 2, once the second log file reaches the maximum size, the first log file will be erased and thereafter, all the logging information will be rolled back to the first log file.
You can try log4j – Sample Program with the above configuration.
Daily Log File Generation
There may be a requirement to generate your log files on a daily basis to keep a clean record of your logging information.
To write your logging information into files on a daily basis, you would have to use org.apache.log4j.DailyRollingFileAppender class which extends the FileAppender class and inherits all its properties.
There is only one important configurable parameter in addition to the ones mentioned above for FileAppender:
Property | Description |
---|---|
DatePattern | This indicates when to roll over the file and the naming convention to be followed. By default, roll over is performed at midnight each day. |
DatePattern controls the rollover schedule using one of the following patterns:
DatePattern | Description |
---|---|
”.” yyyy-MM | Roll over at the end of each month and at the beginning of the next month. |
”.” yyyy-MM-dd | Roll over at midnight each day. This is the default value. |
”.” yyyy-MM-dd-a | Roll over at midday and midnight of each day. |
”.” yyyy-MM-dd-HH | Roll over at the top of every hour. |
”.” yyyy-MM-dd-HH-mm | Roll over every minute. |
”.” yyyy-ww | Roll over on the first day of each week depending upon the locale. |
Following is a sample configuration file log4j.properties to generate log files rolling over at midday and midnight of each day.
# Define the root logger with appender file log4j.rootLogger = DEBUG, FILE # Define the file appender log4j.appender.FILE=org.apache.log4j.DailyRollingFileAppender # Set the name of the file log4j.appender.FILE.File=${log}/log.out # Set the immediate flush to true (default) log4j.appender.FILE.ImmediateFlush=true # Set the threshold to debug mode log4j.appender.FILE.Threshold=debug # Set the append to false, should not overwrite log4j.appender.FILE.Append=true # Set the DatePattern log4j.appender.FILE.DatePattern=''.'' yyyy-MM-dd-a # Define the layout for file appender log4j.appender.FILE.layout=org.apache.log4j.PatternLayout log4j.appender.FILE.layout.conversionPattern=%m%n
If you wish to have an XML configuration file, you can generate the same as mentioned in the initial section and add only additional parameters related to DailyRollingFileAppender.
You can try log4j – Sample Program with the above configuration.
log4j – Logging in Database
The log4j API provides the org.apache.log4j.jdbc.JDBCAppender object, which can put logging information in a specified database.
JDBCAppender Configuration
Property | Description |
---|---|
bufferSize | Sets the buffer size. Default size is 1. |
driver | Sets the driver class to the specified string. If no driver class is specified, it defaults to sun.jdbc.odbc.JdbcOdbcDriver. |
layout | Sets the layout to be used. Default layout is org.apache.log4j.PatternLayout. |
password | Sets the database password. |
sql | Specifies the SQL statement to be executed every time a logging event occurs. This could be INSERT, UPDATE, or DELETE. |
URL | Sets the JDBC URL. |
user | Sets the database user name. |
Log Table Configuration
Before you start using JDBC based logging, you should create a table to maintain all the log information. Following is the SQL Statement for creating the LOGS table:
CREATE TABLE LOGS (USER_ID VARCHAR(20) NOT NULL, DATED DATE NOT NULL, LOGGER VARCHAR(50) NOT NULL, LEVEL VARCHAR(10) NOT NULL, MESSAGE VARCHAR(1000) NOT NULL );
Sample Configuration File
Following is a sample configuration file log4j.properties for JDBCAppender which will is be used to log messages to a LOGS table.
# Define the root logger with appender file log4j.rootLogger = DEBUG, DB # Define the DB appender log4j.appender.DB=org.apache.log4j.jdbc.JDBCAppender # Set JDBC URL log4j.appender.DB.URL=jdbc:mysql://localhost/DBNAME # Set Database Driver log4j.appender.DB.driver=com.mysql.jdbc.Driver # Set database user name and password log4j.appender.DB.user=user_name log4j.appender.DB.password=password # Set the SQL statement to be executed. log4j.appender.DB.sql=INSERT INTO LOGS VALUES(''%x'',''%d'',''%C'',''%p'',''%m'') # Define the layout for file appender log4j.appender.DB.layout=org.apache.log4j.PatternLayout
For MySQL database, you would have to use the actual DBNAME, user ID and password, where you have created LOGS table. The SQL statement is to execute an INSERT statement with the table name LOGS and the values to be entered into the table.
JDBCAppender does not need a layout to be defined explicitly. Instead, the SQL statement passed to it uses a PatternLayout.
If you wish to have an XML configuration file equivalent to the above log4j.properties file, then here is the content:
<?xml version="1.0" encoding="UTF-8" ?> <!DOCTYPE log4j:configuration SYSTEM "log4j.dtd"> <log4j:configuration> <appender name="DB" class="org.apache.log4j.jdbc.JDBCAppender"> <param name="url" value="jdbc:mysql://localhost/DBNAME"/> <param name="driver" value="com.mysql.jdbc.Driver"/> <param name="user" value="user_id"/> <param name="password" value="password"/> <param name="sql" value="INSERT INTO LOGS VALUES(''%x'',''%d'',''%C'',''%p'',''%m'')"/> <layout class="org.apache.log4j.PatternLayout"> </layout> </appender> <logger name="log4j.rootLogger" additivity="false"> <level value="DEBUG"/> <appender-ref ref="DB"/> </logger> </log4j:configuration>
Sample Program
The following Java class is a very simple example that initializes and then uses the Log4J logging library for Java applications.
import org.apache.log4j.Logger; import java.sql.*; import java.io.*; import java.util.*; public class log4jExample{ /* Get actual class name to be printed on */ static Logger log = Logger.getLogger(log4jExample.class.getName()); public static void main(String[] args)throws IOException,SQLException{ log.debug("Debug"); log.info("Info"); } }
Compile and Execute
Here are the steps to compile and run the above-mentioned program. Make sure you have set PATH and CLASSPATH appropriately before proceeding for compilation and execution.
All the libraries should be available in CLASSPATH and your log4j.properties file should be available in PATH. Follow the given steps:
- Create log4j.properties as shown above.
- Create log4jExample.java as shown above and compile it.
- Execute log4jExample binary to run the program.
Now check your LOGS table inside DBNAME database and you would find the following entries:
mysql > select * from LOGS; +---------+------------+--------------+-------+---------+ | USER_ID | DATED | LOGGER | LEVEL | MESSAGE | +---------+------------+--------------+-------+---------+ | | 2010-05-13 | log4jExample | DEBUG | Debug | | | 2010-05-13 | log4jExample | INFO | Info | +---------+------------+--------------+-------+---------+ 2 rows in set (0.00 sec)
Note: Here x is used to output the Nested diagnostic Context (NDC) associated with the thread that generated the logging event. We use NDC to distinguish clients in server-side components handling multiple clients. Check Log4J Manual for more information on this.
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