Configuration file example:
<configuration debug="true"> ...... <appender name="STDOUT" class="ch.qos.logback.core.ConsoleAppender"> <layout class="ch.qos.logback.classic.PatternLayout"> <Pattern>%d{HH:mm:ss.SSS} [%thread %property{PROCESS_ID}] %-5level [%logger{10}] - %msg%n</Pattern> </layout> <target>System.out</target> </appender> <appender name="xyz_ERR" class="ch.qos.logback.core.rolling.RollingFileAppender"> ...... </appender> <logger name="x"> <level value="ERROR" /> </logger> <logger name="x.y"> <level value="DEBUG" /> </logger> <logger name="x.y.z"> <level value="ERROR" /> <appender-ref ref="xyz_ERR" /> </logger> <root> <level value="DEBUG" /> <appender-ref ref="FULL_ROLLING" /> <appender-ref ref="STDOUT" /> </root> </configuration>
http://logback.qos.ch/manual/architecture.html#effectiveLevel
Effective Level aka Level Inheritance
Loggers may be assigned levels. The set of possible levels (TRACE, DEBUG, INFO, WARN and ERROR) are defined in thech.qos.logback.classic.Level
class. Note that in logback, the Level
class is final and cannot be sub-classed, as a much more flexible approach exists in the form of Marker
objects.
If a given logger is not assigned a level, then it inherits one from its closest ancestor with an assigned level. More formally:
The effective level for a given logger L, is equal to the first non-null level in its hierarchy, starting at L itself and proceeding upwards in the hierarchy towards the root logger.
To ensure that all loggers can eventually inherit a level, the root logger always has an assigned level. By default, this level is DEBUG.
Below are four examples with various assigned level values and the resulting effective (inherited) levels according to the level inheritance rule.
Example 1
root | DEBUG | DEBUG |
X | none | DEBUG |
X.Y | none | DEBUG |
X.Y.Z | none | DEBUG |
In example 1 above, only the root logger is assigned a level. This level value, DEBUG
, is inherited by the other loggers X
, X.Y
andX.Y.Z
Example 2
root | ERROR | ERROR |
X | INFO | INFO |
X.Y | DEBUG | DEBUG |
X.Y.Z | WARN | WARN |
In example 2 above, all loggers have an assigned level value. Level inheritance does not come into play.
Example 3
root | DEBUG | DEBUG |
X | INFO | INFO |
X.Y | none | INFO |
X.Y.Z | ERROR | ERROR |
In example 3 above, the loggers root
, X
and X.Y.Z
are assigned the levels DEBUG
, INFO
and ERROR
respectively. Logger X.Y
inherits its level value from its parent X
.
Example 4
root | DEBUG | DEBUG |
X | INFO | INFO |
X.Y | none | INFO |
X.Y.Z | none | INFO |
In example 4 above, the loggers root
and X
and are assigned the levels DEBUG
and INFO
respectively. The loggers X.Y
and X.Y.Z
inherit their level value from their nearest parent X
, which has an assigned level.
http://logback.qos.ch/manual/architecture.html serach "appenders and Layouts"
Appenders and Layouts
The ability to selectively enable or disable logging requests based on their logger is only part of the picture. Logback allows logging requests to print to multiple destinations. In logback speak, an output destination is called an appender. Currently, appenders exist for the console, files, remote socket servers, to MySQL, PostgreSQL, Oracle and other databases, JMS, and remote UNIX Syslog daemons.
More than one appender can be attached to a logger.
The addAppender
method adds an appender to a given logger. Each enabled logging request for a given logger will be forwarded to all the appenders in that logger as well as the appenders higher in the hierarchy. In other words, appenders are inherited additively from the logger hierarchy. For example, if a console appender is added to the root logger, then all enabled logging requests will at least print on the console. If in addition a file appender is added to a logger, say L, then enabled logging requests for L and L's children will print on a file and on the console. It is possible to override this default behavior so that appender accumulation is no longer additive by setting the additivity flag of a logger to false.
The rules governing appender additivity are summarized below.
Appender Additivity
The output of a log statement of logger L will go to all the appenders in L and its ancestors. This is the meaning of the term "appender additivity".
However, if an ancestor of logger L, say P, has the additivity flag set to false, then L's output will be directed to all the appenders in L and its ancestors up to and including P but not the appenders in any of the ancestors of P.
Loggers have their additivity flag set to true by default.
The table below shows an example:
root | A1 | not applicable | A1 | Since the root logger stands at the top of the logger hierarchy, the additivity flag does not apply to it. |
x | A-x1, A-x2 | true | A1, A-x1, A-x2 | Appenders of "x" and of root. |
x.y | none | true | A1, A-x1, A-x2 | Appenders of "x" and of root. |
x.y.z | A-xyz1 | true | A1, A-x1, A-x2, A-xyz1 | Appenders of "x.y.z", "x" and of root. |
security | A-sec | false | A-sec | No appender accumulation since the additivity flag is set to false . Only appender A-sec will be used. |
security.access | none | true | A-sec | Only appenders of "security" because the additivity flag in "security" is set to false . |
More often than not, users wish to customize not only the output destination but also the output format. This is accomplished by associating a layout with an appender. The layout is responsible for formatting the logging request according to the user's wishes, whereas an appender takes care of sending the formatted output to its destination. The PatternLayout
, part of the standard logback distribution, lets the user specify the output format according to conversion patterns similar to the C languageprintf
function.
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