标签:spring springframework springmvc logging bean
*** The following words, some are culled from Official Spring Framework Reference and some are summarized from my working practice.
The Spring Framework is a Java platform that provides comprehensive infrastructure support for developing Java applications. Spring handles the infrastructure so you can focus on your application.
Spring enables you to build applications from "plain old Java objects" (POJOs) and to apply enterprise services non-invasively to POJOs. This capability applies to the Java SE programming model and tofull and partial Java EE.
Examples of how you, as an application developer, can benefit from the Spring platform:
The core container consists of:
spring-core,
spring-beans,
spring-context,
spring-context-support,
spring-expression (Spring Expression Language).
The Core andBeans (spring-core and spring-beans) modules provide the fundamental parts of the framework, including the IoC and Dependency Injection feature.
The Context (spring-context) module builds on the solid base provided by the Core and Beans modules: it is a means to access objects in a framework-style manner that is similar to a JNDI registry.
The Context module inherits its features from the Beans module and adds support forinternationalization (using, for example, resource bundles), event propagation, resource loading, and the transparent creation of contexts by, for example, a Servlet container. The Context module also supportsJava EE features such as EJB, JMX, and basic remoting. The ApplicationContext interface is the focal point of the Context module. spring-context-support provides support for integrating common third-party libraries into a Spring application context for caching (EhCache, Guava, JCache), mailing (JavaMail), scheduling (CommonJ, Quartz) and template engines (FreeMarker, JasperReports, Velocity).
The SpEL (spring-expression) module provides a powerful Expression Language for querying and manipulating an object graph at runtime. It is an extension of the unified expression language (unified EL) as specified in the JSP 2.1 specification. The language supports setting and getting property values, property assignment, method invocation, accessing the content of arrays, collections and indexers, logical and arithmetic operators, named variables, and retrieval of objects by name from Spring’s IoC container. It also supports list projection and selection as well as common list aggregations.
spring-aop
spring-aspacts
spring-instrument
spring-instrument-tomcat
spring-messaging
spring-jdbc, JDBC
spring-tx, transaction management
spring-orm, object-relational mapping
spring-oxm, Object/XML mapping
spring-jms, Java Messaging Service
spring-web
spring-webmvc
spring-webmvc-portlet
spring-websocket
spring-test
| GroupId | ArtifactId | Description |
|---|---|---|
|
org.springframework |
spring-aop |
Proxy-based AOP support |
|
org.springframework |
spring-aspects |
AspectJ based aspects |
|
org.springframework |
spring-beans |
Beans support, including Groovy |
|
org.springframework |
spring-context |
Application context runtime, including scheduling and remoting abstractions |
|
org.springframework |
spring-context-support |
Support classes for integrating common third-party libraries into a Spring application context |
|
org.springframework |
spring-core |
Core utilities, used by many other Spring modules |
|
org.springframework |
spring-expression |
Spring Expression Language (SpEL) |
|
org.springframework |
spring-instrument |
Instrumentation agent for JVM bootstrapping |
|
org.springframework |
spring-instrument-tomcat |
Instrumentation agent for Tomcat |
|
org.springframework |
spring-jdbc |
JDBC support package, including DataSource setup and JDBC access support |
|
org.springframework |
spring-jms |
JMS support package, including helper classes to send and receive JMS messages |
|
org.springframework |
spring-messaging |
Support for messaging architectures and protocols |
|
org.springframework |
spring-orm |
Object/Relational Mapping, including JPA and Hibernate support |
|
org.springframework |
spring-oxm |
Object/XML Mapping |
|
org.springframework |
spring-test |
Support for unit testing and integration testing Spring components |
|
org.springframework |
spring-tx |
Transaction infrastructure, including DAO support and JCA integration |
|
org.springframework |
spring-web |
Web support packages, including client and web remoting |
|
org.springframework |
spring-webmvc |
REST Web Services and model-view-controller implementation for web applications |
|
org.springframework |
spring-webmvc-portlet |
MVC implementation to be used in a Portlet environment |
|
org.springframework |
spring-websocket |
WebSocket and SockJS implementations, including STOMP support |
It is possible to accidentally mix different versions of Spring JARs when using Maven. For example, you may find that a third-party library, or another Spring project, pulls in a transitive dependency to an older release. If you forget to explicitly declare a direct dependency yourself, all sorts of unexpected issues can arise.
To overcome such problems Maven supports the concept of a "bill of materials" (BOM) dependency. You can import the spring-framework-bom in
yourdependencyManagement section
to ensure that all spring dependencies (both direct and transitive) are at the same version.
<dependencyManagement> <dependencies> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-framework-bom</artifactId> <version>4.1.6.RELEASE</version> <type>pom</type> <scope>import</scope> </dependency> </dependencies> </dependencyManagement>
An added benefit of using the BOM is that you no longer need to specify the <version> attribute
when depending on Spring Framework artifacts:
<dependencies> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-context</artifactId> </dependency> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-web</artifactId> </dependency> <dependencies>
Logging is a very important dependency for Spring because a) it is the only mandatory external dependency, b) everyone likes to see some output from the tools they are using, and c) Spring integrates with lots of other tools all of which have also made a choice of logging dependency. One of the goals of an application developer is often to have unified logging configured in a central place for the whole application, including all external components. This is more difficult than it might have been since there are so many choices of logging framework.
The mandatory logging dependency in Spring is the Jakarta Commons Logging API (JCL). We compile against JCL and we also make JCL Log objects
visible for classes that extend the Spring Framework. It’s important to users that all versions of Spring use the same logging library: migration is easy because backwards compatibility is preserved even with applications that extend Spring. The way we do
this is to make one of the modules in Spring depend explicitly on commons-logging(the
canonical implementation of JCL), and then make all the other modules depend on that at compile time. If you are using Maven for example, and wondering where you picked up the dependency on commons-logging,
then it is from Spring and specifically from the central module called spring-core.
The nice thing about commons-logging is
that you don’t need anything else to make your application work. It has a runtime discovery algorithm that looks for other logging frameworks in well known places on the classpath and uses one that it thinks is appropriate (or you can tell it which one if
you need to). If nothing else is available you get pretty nice looking logs just from the JDK (java.util.logging or JUL for short). You should find that your Spring application works and logs happily to the console out of the box in most situations, and that’s
important.
Unfortunately, the runtime discovery algorithm in commons-logging,
while convenient for the end-user, is problematic. If we could turn back the clock and start Spring now as a new project it would use a different logging dependency. The first choice would probably be the Simple Logging Facade for Java ( SLF4J),
which is also used by a lot of other tools that people use with Spring inside their applications.
There are basically two ways to switch off commons-logging:
spring-core module
(as it is the only module that explicitly depends on commons-logging)commons-logging dependency
that replaces the library with an empty jar (more details can be found in the SLF4J FAQ)To exclude commons-logging, add the following to your dependencyManagement section:
<dependencies> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-core</artifactId> <version>4.1.6.RELEASE</version> <exclusions> <exclusion> <groupId>commons-logging</groupId> <artifactId>commons-logging</artifactId> </exclusion> </exclusions> </dependency> </dependencies>
Now this application is probably broken because there is no implementation of the JCL API on the classpath, so to fix it a new one has to be provided. In the next section we show you how to provide an alternative implementation of JCL using SLF4J as an example.
SLF4J is a cleaner dependency and more efficient at runtime than commons-logging because
it uses compile-time bindings instead of runtime discovery of the other logging frameworks it integrates. This also means that you have to be more explicit about what you want to happen at runtime, and declare it or configure it accordingly. SLF4J provides
bindings to many common logging frameworks, so you can usually choose one that you already use, and bind to that for configuration and management.
SLF4J provides bindings to many common logging frameworks, including JCL, and it also does the reverse: bridges between other logging frameworks and itself. So to use SLF4J with Spring you need to replace the commons-logging dependency
with the SLF4J-JCL bridge. Once you have done that then logging calls from within Spring will be translated into logging calls to the SLF4J API, so if other libraries in your application use that API, then you have a single place to configure and manage logging.
A common choice might be to bridge Spring to SLF4J, and then provide explicit binding from SLF4J to Log4J. You need to supply 4 dependencies (and exclude the existing commons-logging):
the bridge, the SLF4J API, the binding to Log4J, and the Log4J implementation itself. In Maven you would do that like this
<dependencies> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-core</artifactId> <version>4.1.6.RELEASE</version> <exclusions> <exclusion> <groupId>commons-logging</groupId> <artifactId>commons-logging</artifactId> </exclusion> </exclusions> </dependency> <dependency> <groupId>org.slf4j</groupId> <artifactId>jcl-over-slf4j</artifactId> <version>1.5.8</version> </dependency> <dependency> <groupId>org.slf4j</groupId> <artifactId>slf4j-api</artifactId> <version>1.5.8</version> </dependency> <dependency> <groupId>org.slf4j</groupId> <artifactId>slf4j-log4j12</artifactId> <version>1.5.8</version> </dependency> <dependency> <groupId>log4j</groupId> <artifactId>log4j</artifactId> <version>1.2.14</version> </dependency> </dependencies>
That might seem like a lot of dependencies just to get some logging. Well it is, but it is optional, and it should behave better than the vanilla commons-logging with
respect to classloader issues, notably if you are in a strict container like an OSGi platform. Allegedly there is also a performance benefit because the bindings are at compile-time not runtime.
A more common choice amongst SLF4J users, which uses fewer steps and generates fewer dependencies, is to bind directly to Logback.
This removes the extra binding step because Logback implements SLF4J directly, so you only need to depend on two libraries not four ( jcl-over-slf4j and logback).
If you do that you might also need to exclude the slf4j-api dependency from other external dependencies (not Spring), because you only want one version of that API on the classpath.
Many people use Log4j as a logging framework for configuration and management purposes. It’s efficient and well-established, and in fact it’s what we use at runtime when we build and test Spring. Spring also provides some utilities for configuring and initializing Log4j, so it has an optional compile-time dependency on Log4j in some modules.
To make Log4j work with the default JCL dependency ( commons-logging)
all you need to do is put Log4j on the classpath, and provide it with a configuration file (log4j.properties or log4j.xml in
the root of the classpath). So for Maven users this is your dependency declaration:
<dependencies> <dependency> <groupId>org.springframework</groupId> <artifactId>spring-core</artifactId> <version>4.1.6.RELEASE</version> </dependency> <dependency> <groupId>log4j</groupId> <artifactId>log4j</artifactId> <version>1.2.14</version> </dependency> </dependencies>
And here’s a sample log4j.properties for logging to the console:
log4j.rootCategory=INFO, stdout
log4j.appender.stdout=org.apache.log4j.ConsoleAppender
log4j.appender.stdout.layout=org.apache.log4j.PatternLayout
log4j.appender.stdout.layout.ConversionPattern=%d{ABSOLUTE} %5p %t %c{2}:%L - %m%n
log4j.category.org.springframework.beans.factory=DEBUG
Many people run their Spring applications in a container that itself provides an implementation of JCL. IBM Websphere Application Server (WAS) is the archetype. This often causes problems, and unfortunately there
is no silver bullet solution; simply excluding commons-logging from
your application is not enough in most situations.
To be clear about this: the problems reported are usually not with JCL per se, or even with commons-logging:
rather they are to do with binding commons-logging to
another framework (often Log4J). This can fail because commons-logging changed
the way they do the runtime discovery in between the older versions (1.0) found in some containers and the modern versions that most people use now (1.1). Spring does not use any unusual parts of the JCL API, so nothing breaks there, but as soon as Spring
or your application tries to do any logging you can find that the bindings to Log4J are not working.
In such cases with WAS the easiest thing to do is to invert the class loader hierarchy (IBM calls it "parent last") so that the application controls the JCL dependency, not the container. That option isn’t always open, but there are plenty of other suggestions in the public domain for alternative approaches, and your mileage may vary depending on the exact version and feature set of the container.
标签:spring springframework springmvc logging bean
原文地址:http://blog.csdn.net/neuandustbneo/article/details/44853295
