Spring框架文档与API(4.3.6版本)
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http://docs.spring.io/spring/docs/current/spring-framework-reference/htmlsingle/
Table of Contents
- I. Overview of Spring Framework
- 1. Getting Started with Spring
- 2. Introduction to the Spring Framework
- 2.1. Dependency Injection and Inversion of Control
- 2.2. Modules
- 2.2.1. Core Container
- 2.2.2. AOP and Instrumentation
- 2.2.3. Messaging
- 2.2.4. Data Access/Integration
- 2.2.5. Web
- 2.2.6. Test
- 2.3. Usage scenarios
- 2.3.1. Dependency Management and Naming Conventions
- Spring Dependencies and Depending on Spring
- Maven Dependency Management
- Maven "Bill Of Materials" Dependency
- Gradle Dependency Management
- Ivy Dependency Management
- Distribution Zip Files
- 2.3.2. Logging
- Not Using Commons Logging
- Using SLF4J
- Using Log4j
- II. What’s New in Spring Framework 4.x
- 3. New Features and Enhancements in Spring Framework 4.0
- 3.1. Improved Getting Started Experience
- 3.2. Removed Deprecated Packages and Methods
- 3.3. Java 8 (as well as 6 and 7)
- 3.4. Java EE 6 and 7
- 3.5. Groovy Bean Definition DSL
- 3.6. Core Container Improvements
- 3.7. General Web Improvements
- 3.8. WebSocket, SockJS, and STOMP Messaging
- 3.9. Testing Improvements
- 4. New Features and Enhancements in Spring Framework 4.1
- 4.1. JMS Improvements
- 4.2. Caching Improvements
- 4.3. Web Improvements
- 4.4. WebSocket Messaging Improvements
- 4.5. Testing Improvements
- 5. New Features and Enhancements in Spring Framework 4.2
- 5.1. Core Container Improvements
- 5.2. Data Access Improvements
- 5.3. JMS Improvements
- 5.4. Web Improvements
- 5.5. WebSocket Messaging Improvements
- 5.6. Testing Improvements
- 6. New Features and Enhancements in Spring Framework 4.3
- 6.1. Core Container Improvements
- 6.2. Data Access Improvements
- 6.3. Caching Improvements
- 6.4. JMS Improvements
- 6.5. Web Improvements
- 6.6. WebSocket Messaging Improvements
- 6.7. Testing Improvements
- 6.8. Support for new library and server generations
- III. Core Technologies
- 7. The IoC container
- 7.1. Introduction to the Spring IoC container and beans
- 7.2. Container overview
- 7.2.1. Configuration metadata
- 7.2.2. Instantiating a container
- Composing XML-based configuration metadata
- The Groovy Bean Definition DSL
- 7.2.3. Using the container
- 7.3. Bean overview
- 7.3.1. Naming beans
- Aliasing a bean outside the bean definition
- 7.3.2. Instantiating beans
- Instantiation with a constructor
- Instantiation with a static factory method
- Instantiation using an instance factory method
- 7.4. Dependencies
- 7.4.1. Dependency Injection
- Constructor-based dependency injection
- Setter-based dependency injection
- Dependency resolution process
- Examples of dependency injection
- 7.4.2. Dependencies and configuration in detail
- Straight values (primitives, Strings, and so on)
- References to other beans (collaborators)
- Inner beans
- Collections
- Null and empty string values
- XML shortcut with the p-namespace
- XML shortcut with the c-namespace
- Compound property names
- 7.4.3. Using depends-on
- 7.4.4. Lazy-initialized beans
- 7.4.5. Autowiring collaborators
- Limitations and disadvantages of autowiring
- Excluding a bean from autowiring
- 7.4.6. Method injection
- Lookup method injection
- Arbitrary method replacement
- 7.5. Bean scopes
- 7.5.1. The singleton scope
- 7.5.2. The prototype scope
- 7.5.3. Singleton beans with prototype-bean dependencies
- 7.5.4. Request, session, global session, application, and WebSocket scopes
- Initial web configuration
- Request scope
- Session scope
- Global session scope
- Application scope
- Scoped beans as dependencies
- 7.5.5. Custom scopes
- Creating a custom scope
- Using a custom scope
- 7.6. Customizing the nature of a bean
- 7.6.1. Lifecycle callbacks
- Initialization callbacks
- Destruction callbacks
- Default initialization and destroy methods
- Combining lifecycle mechanisms
- Startup and shutdown callbacks
- Shutting down the Spring IoC container gracefully in non-web applications
- 7.6.2. ApplicationContextAware and BeanNameAware
- 7.6.3. Other Aware interfaces
- 7.7. Bean definition inheritance
- 7.8. Container Extension Points
- 7.8.1. Customizing beans using a BeanPostProcessor
- Example: Hello World, BeanPostProcessor-style
- Example: The RequiredAnnotationBeanPostProcessor
- 7.8.2. Customizing configuration metadata with a BeanFactoryPostProcessor
- Example: the Class name substitution PropertyPlaceholderConfigurer
- Example: the PropertyOverrideConfigurer
- 7.8.3. Customizing instantiation logic with a FactoryBean
- 7.9. Annotation-based container configuration
- 7.9.1. @Required
- 7.9.2. @Autowired
- 7.9.3. Fine-tuning annotation-based autowiring with @Primary
- 7.9.4. Fine-tuning annotation-based autowiring with qualifiers
- 7.9.5. Using generics as autowiring qualifiers
- 7.9.6. CustomAutowireConfigurer
- 7.9.7. @Resource
- 7.9.8. @PostConstruct and @PreDestroy
- 7.10. Classpath scanning and managed components
- 7.10.1. @Component and further stereotype annotations
- 7.10.2. Meta-annotations
- 7.10.3. Automatically detecting classes and registering bean definitions
- 7.10.4. Using filters to customize scanning
- 7.10.5. Defining bean metadata within components
- 7.10.6. Naming autodetected components
- 7.10.7. Providing a scope for autodetected components
- 7.10.8. Providing qualifier metadata with annotations
- 7.11. Using JSR 330 Standard Annotations
- 7.11.1. Dependency Injection with @Inject and @Named
- 7.11.2. @Named and @ManagedBean: standard equivalents to the @Component annotation
- 7.11.3. Limitations of JSR-330 standard annotations
- 7.12. Java-based container configuration
- 7.12.1. Basic concepts: @Bean and @Configuration
- 7.12.2. Instantiating the Spring container using AnnotationConfigApplicationContext
- Simple construction
- Building the container programmatically using register(Class<?>…?)
- Enabling component scanning with scan(String…?)
- Support for web applications with AnnotationConfigWebApplicationContext
- 7.12.3. Using the @Bean annotation
- Declaring a bean
- Bean dependencies
- Receiving lifecycle callbacks
- Specifying bean scope
- Customizing bean naming
- Bean aliasing
- Bean description
- 7.12.4. Using the @Configuration annotation
- Injecting inter-bean dependencies
- Lookup method injection
- Further information about how Java-based configuration works internally
- 7.12.5. Composing Java-based configurations
- Using the @Import annotation
- Conditionally include @Configuration classes or @Bean methods
- Combining Java and XML configuration
- 7.13. Environment abstraction
- 7.13.1. Bean definition profiles
- @Profile
- 7.13.2. XML bean definition profiles
- Activating a profile
- Default profile
- 7.13.3. PropertySource abstraction
- 7.13.4. @PropertySource
- 7.13.5. Placeholder resolution in statements
- 7.14. Registering a LoadTimeWeaver
- 7.15. Additional Capabilities of the ApplicationContext
- 7.15.1. Internationalization using MessageSource
- 7.15.2. Standard and Custom Events
- Annotation-based Event Listeners
- Asynchronous Listeners
- Ordering Listeners
- Generic Events
- 7.15.3. Convenient access to low-level resources
- 7.15.4. Convenient ApplicationContext instantiation for web applications
- 7.15.5. Deploying a Spring ApplicationContext as a Java EE RAR file
- 7.16. The BeanFactory
- 7.16.1. BeanFactory or ApplicationContext?
- 7.16.2. Glue code and the evil singleton
- 8. Resources
- 8.1. Introduction
- 8.2. The Resource interface
- 8.3. Built-in Resource implementations
- 8.3.1. UrlResource
- 8.3.2. ClassPathResource
- 8.3.3. FileSystemResource
- 8.3.4. ServletContextResource
- 8.3.5. InputStreamResource
- 8.3.6. ByteArrayResource
- 8.4. The ResourceLoader
- 8.5. The ResourceLoaderAware interface
- 8.6. Resources as dependencies
- 8.7. Application contexts and Resource paths
- 8.7.1. Constructing application contexts
- Constructing ClassPathXmlApplicationContext instances - shortcuts
- 8.7.2. Wildcards in application context constructor resource paths
- Ant-style Patterns
- The Classpath*: portability classpath*: prefix
- Other notes relating to wildcards
- 8.7.3. FileSystemResource caveats
- 9. Validation, Data Binding, and Type Conversion
- 9.1. Introduction
- 9.2. Validation using Spring’s Validator interface
- 9.3. Resolving codes to error messages
- 9.4. Bean manipulation and the BeanWrapper
- 9.4.1. Setting and getting basic and nested properties
- 9.4.2. Built-in PropertyEditor implementations
- Registering additional custom PropertyEditors
- 9.5. Spring Type Conversion
- 9.5.1. Converter SPI
- 9.5.2. ConverterFactory
- 9.5.3. GenericConverter
- ConditionalGenericConverter
- 9.5.4. ConversionService API
- 9.5.5. Configuring a ConversionService
- 9.5.6. Using a ConversionService programmatically
- 9.6. Spring Field Formatting
- 9.6.1. Formatter SPI
- 9.6.2. Annotation-driven Formatting
- Format Annotation API
- 9.6.3. FormatterRegistry SPI
- 9.6.4. FormatterRegistrar SPI
- 9.6.5. Configuring Formatting in Spring MVC
- 9.7. Configuring a global date & time format
- 9.8. Spring Validation
- 9.8.1. Overview of the JSR-303 Bean Validation API
- 9.8.2. Configuring a Bean Validation Provider
- Injecting a Validator
- Configuring Custom Constraints
- Spring-driven Method Validation
- Additional Configuration Options
- 9.8.3. Configuring a DataBinder
- 9.8.4. Spring MVC 3 Validation
- 10. Spring Expression Language (SpEL)
- 10.1. Introduction
- 10.2. Feature Overview
- 10.3. Expression Evaluation using Spring’s Expression Interface
- 10.3.1. The EvaluationContext interface
- Type Conversion
- 10.3.2. Parser configuration
- 10.3.3. SpEL compilation
- Compiler configuration
- Compiler limitations
- 10.4. Expression support for defining bean definitions
- 10.4.1. XML based configuration
- 10.4.2. Annotation-based configuration
- 10.5. Language Reference
- 10.5.1. Literal expressions
- 10.5.2. Properties, Arrays, Lists, Maps, Indexers
- 10.5.3. Inline lists
- 10.5.4. Inline Maps
- 10.5.5. Array construction
- 10.5.6. Methods
- 10.5.7. Operators
- Relational operators
- Logical operators
- Mathematical operators
- 10.5.8. Assignment
- 10.5.9. Types
- 10.5.10. Constructors
- 10.5.11. Variables
- The #this and #root variables
- 10.5.12. Functions
- 10.5.13. Bean references
- 10.5.14. Ternary Operator (If-Then-Else)
- 10.5.15. The Elvis Operator
- 10.5.16. Safe Navigation operator
- 10.5.17. Collection Selection
- 10.5.18. Collection Projection
- 10.5.19. Expression templating
- 10.6. Classes used in the examples
- 11. Aspect Oriented Programming with Spring
- 11.1. Introduction
- 11.1.1. AOP concepts
- 11.1.2. Spring AOP capabilities and goals
- 11.1.3. AOP Proxies
- 11.2. @AspectJ support
- 11.2.1. Enabling @AspectJ Support
- Enabling @AspectJ Support with Java configuration
- Enabling @AspectJ Support with XML configuration
- 11.2.2. Declaring an aspect
- 11.2.3. Declaring a pointcut
- Supported Pointcut Designators
- Combining pointcut expressions
- Sharing common pointcut definitions
- Examples
- Writing good pointcuts
- 11.2.4. Declaring advice
- Before advice
- After returning advice
- After throwing advice
- After (finally) advice
- Around advice
- Advice parameters
- Advice ordering
- 11.2.5. Introductions
- 11.2.6. Aspect instantiation models
- 11.2.7. Example
- 11.3. Schema-based AOP support
- 11.3.1. Declaring an aspect
- 11.3.2. Declaring a pointcut
- 11.3.3. Declaring advice
- Before advice
- After returning advice
- After throwing advice
- After (finally) advice
- Around advice
- Advice parameters
- Advice ordering
- 11.3.4. Introductions
- 11.3.5. Aspect instantiation models
- 11.3.6. Advisors
- 11.3.7. Example
- 11.4. Choosing which AOP declaration style to use
- 11.4.1. Spring AOP or full AspectJ?
- 11.4.2. @AspectJ or XML for Spring AOP?
- 11.5. Mixing aspect types
- 11.6. Proxying mechanisms
- 11.6.1. Understanding AOP proxies
- 11.7. Programmatic creation of @AspectJ Proxies
- 11.8. Using AspectJ with Spring applications
- 11.8.1. Using AspectJ to dependency inject domain objects with Spring
- Unit testing @Configurable objects
- Working with multiple application contexts
- 11.8.2. Other Spring aspects for AspectJ
- 11.8.3. Configuring AspectJ aspects using Spring IoC
- 11.8.4. Load-time weaving with AspectJ in the Spring Framework
- A first example
- Aspects
- ‘META-INF/aop.xml‘
- Required libraries (JARS)
- Spring configuration
- Environment-specific configuration
- 11.9. Further Resources
- 12. Spring AOP APIs
- 12.1. Introduction
- 12.2. Pointcut API in Spring
- 12.2.1. Concepts
- 12.2.2. Operations on pointcuts
- 12.2.3. AspectJ expression pointcuts
- 12.2.4. Convenience pointcut implementations
- Static pointcuts
- Dynamic pointcuts
- 12.2.5. Pointcut superclasses
- 12.2.6. Custom pointcuts
- 12.3. Advice API in Spring
- 12.3.1. Advice lifecycles
- 12.3.2. Advice types in Spring
- Interception around advice
- Before advice
- Throws advice
- After Returning advice
- Introduction advice
- 12.4. Advisor API in Spring
- 12.5. Using the ProxyFactoryBean to create AOP proxies
- 12.5.1. Basics
- 12.5.2. JavaBean properties
- 12.5.3. JDK- and CGLIB-based proxies
- 12.5.4. Proxying interfaces
- 12.5.5. Proxying classes
- 12.5.6. Using ‘global‘ advisors
- 12.6. Concise proxy definitions
- 12.7. Creating AOP proxies programmatically with the ProxyFactory
- 12.8. Manipulating advised objects
- 12.9. Using the "auto-proxy" facility
- 12.9.1. Autoproxy bean definitions
- BeanNameAutoProxyCreator
- DefaultAdvisorAutoProxyCreator
- AbstractAdvisorAutoProxyCreator
- 12.9.2. Using metadata-driven auto-proxying
- 12.10. Using TargetSources
- 12.10.1. Hot swappable target sources
- 12.10.2. Pooling target sources
- 12.10.3. Prototype target sources
- 12.10.4. ThreadLocal target sources
- 12.11. Defining new Advice types
- 12.12. Further resources
- IV. Testing
- 13. Introduction to Spring Testing
- 14. Unit Testing
- 14.1. Mock Objects
- 14.1.1. Environment
- 14.1.2. JNDI
- 14.1.3. Servlet API
- 14.1.4. Portlet API
- 14.2. Unit Testing support Classes
- 14.2.1. General testing utilities
- 14.2.2. Spring MVC
- 15. Integration Testing
- 15.1. Overview
- 15.2. Goals of Integration Testing
- 15.2.1. Context management and caching
- 15.2.2. Dependency Injection of test fixtures
- 15.2.3. Transaction management
- 15.2.4. Support classes for integration testing
- 15.3. JDBC Testing Support
- 15.4. Annotations
- 15.4.1. Spring Testing Annotations
- @BootstrapWith
- @ContextConfiguration
- @WebAppConfiguration
- @ContextHierarchy
- @ActiveProfiles
- @TestPropertySource
- @DirtiesContext
- @TestExecutionListeners
- @Commit
- @Rollback
- @BeforeTransaction
- @AfterTransaction
- @Sql
- @SqlConfig
- @SqlGroup
- 15.4.2. Standard Annotation Support
- 15.4.3. Spring JUnit 4 Testing Annotations
- @IfProfileValue
- @ProfileValueSourceConfiguration
- @Timed
- @Repeat
- 15.4.4. Meta-Annotation Support for Testing
- 15.5. Spring TestContext Framework
- 15.5.1. Key abstractions
- TestContext
- TestContextManager
- TestExecutionListener
- Context Loaders
- 15.5.2. Bootstrapping the TestContext framework
- 15.5.3. TestExecutionListener configuration
- Registering custom TestExecutionListeners
- Automatic discovery of default TestExecutionListeners
- Ordering TestExecutionListeners
- Merging TestExecutionListeners
- 15.5.4. Context management
- Context configuration with XML resources
- Context configuration with Groovy scripts
- Context configuration with annotated classes
- Mixing XML, Groovy scripts, and annotated classes
- Context configuration with context initializers
- Context configuration inheritance
- Context configuration with environment profiles
- Context configuration with test property sources
- Loading a WebApplicationContext
- Context caching
- Context hierarchies
- 15.5.5. Dependency injection of test fixtures
- 15.5.6. Testing request and session scoped beans
- 15.5.7. Transaction management
- Test-managed transactions
- Enabling and disabling transactions
- Transaction rollback and commit behavior
- Programmatic transaction management
- Executing code outside of a transaction
- Configuring a transaction manager
- Demonstration of all transaction-related annotations
- 15.5.8. Executing SQL scripts
- Executing SQL scripts programmatically
- Executing SQL scripts declaratively with @Sql
- 15.5.9. TestContext Framework support classes
- Spring JUnit 4 Runner
- Spring JUnit 4 Rules
- JUnit 4 support classes
- TestNG support classes
- 15.6. Spring MVC Test Framework
- 15.6.1. Server-Side Tests
- Static Imports
- Setup Options
- Performing Requests
- Defining Expectations
- Filter Registrations
- Differences between Out-of-Container and End-to-End Integration Tests
- Further Server-Side Test Examples
- 15.6.2. HtmlUnit Integration
- Why HtmlUnit Integration?
- MockMvc and HtmlUnit
- MockMvc and WebDriver
- MockMvc and Geb
- 15.6.3. Client-Side REST Tests
- Static Imports
- Further Examples of Client-side REST Tests
- 15.7. PetClinic Example
- 16. Further Resources
- V. Data Access
- 17. Transaction Management
- 17.1. Introduction to Spring Framework transaction management
- 17.2. Advantages of the Spring Framework’s transaction support model
- 17.2.1. Global transactions
- 17.2.2. Local transactions
- 17.2.3. Spring Framework’s consistent programming model
- 17.3. Understanding the Spring Framework transaction abstraction
- 17.4. Synchronizing resources with transactions
- 17.4.1. High-level synchronization approach
- 17.4.2. Low-level synchronization approach
- 17.4.3. TransactionAwareDataSourceProxy
- 17.5. Declarative transaction management
- 17.5.1. Understanding the Spring Framework’s declarative transaction implementation
- 17.5.2. Example of declarative transaction implementation
- 17.5.3. Rolling back a declarative transaction
- 17.5.4. Configuring different transactional semantics for different beans
- 17.5.5. <tx:advice/> settings
- 17.5.6. Using @Transactional
- @Transactional settings
- Multiple Transaction Managers with @Transactional
- Custom shortcut annotations
- 17.5.7. Transaction propagation
- Required
- RequiresNew
- Nested
- 17.5.8. Advising transactional operations
- 17.5.9. Using @Transactional with AspectJ
- 17.6. Programmatic transaction management
- 17.6.1. Using the TransactionTemplate
- Specifying transaction settings
- 17.6.2. Using the PlatformTransactionManager
- 17.7. Choosing between programmatic and declarative transaction management
- 17.8. Transaction bound event
- 17.9. Application server-specific integration
- 17.9.1. IBM WebSphere
- 17.9.2. Oracle WebLogic Server
- 17.10. Solutions to common problems
- 17.10.1. Use of the wrong transaction manager for a specific DataSource
- 17.11. Further Resources
- 18. DAO support
- 18.1. Introduction
- 18.2. Consistent exception hierarchy
- 18.3. Annotations used for configuring DAO or Repository classes
- 19. Data access with JDBC
- 19.1. Introduction to Spring Framework JDBC
- 19.1.1. Choosing an approach for JDBC database access
- 19.1.2. Package hierarchy
- 19.2. Using the JDBC core classes to control basic JDBC processing and error handling
- 19.2.1. JdbcTemplate
- Examples of JdbcTemplate class usage
- JdbcTemplate best practices
- 19.2.2. NamedParameterJdbcTemplate
- 19.2.3. SQLExceptionTranslator
- 19.2.4. Executing statements
- 19.2.5. Running queries
- 19.2.6. Updating the database
- 19.2.7. Retrieving auto-generated keys
- 19.3. Controlling database connections
- 19.3.1. DataSource
- 19.3.2. DataSourceUtils
- 19.3.3. SmartDataSource
- 19.3.4. AbstractDataSource
- 19.3.5. SingleConnectionDataSource
- 19.3.6. DriverManagerDataSource
- 19.3.7. TransactionAwareDataSourceProxy
- 19.3.8. DataSourceTransactionManager
- 19.3.9. NativeJdbcExtractor
- 19.4. JDBC batch operations
- 19.4.1. Basic batch operations with the JdbcTemplate
- 19.4.2. Batch operations with a List of objects
- 19.4.3. Batch operations with multiple batches
- 19.5. Simplifying JDBC operations with the SimpleJdbc classes
- 19.5.1. Inserting data using SimpleJdbcInsert
- 19.5.2. Retrieving auto-generated keys using SimpleJdbcInsert
- 19.5.3. Specifying columns for a SimpleJdbcInsert
- 19.5.4. Using SqlParameterSource to provide parameter values
- 19.5.5. Calling a stored procedure with SimpleJdbcCall
- 19.5.6. Explicitly declaring parameters to use for a SimpleJdbcCall
- 19.5.7. How to define SqlParameters
- 19.5.8. Calling a stored function using SimpleJdbcCall
- 19.5.9. Returning ResultSet/REF Cursor from a SimpleJdbcCall
- 19.6. Modeling JDBC operations as Java objects
- 19.6.1. SqlQuery
- 19.6.2. MappingSqlQuery
- 19.6.3. SqlUpdate
- 19.6.4. StoredProcedure
- 19.7. Common problems with parameter and data value handling
- 19.7.1. Providing SQL type information for parameters
- 19.7.2. Handling BLOB and CLOB objects
- 19.7.3. Passing in lists of values for IN clause
- 19.7.4. Handling complex types for stored procedure calls
- 19.8. Embedded database support
- 19.8.1. Why use an embedded database?
- 19.8.2. Creating an embedded database using Spring XML
- 19.8.3. Creating an embedded database programmatically
- 19.8.4. Selecting the embedded database type
- Using HSQL
- Using H2
- Using Derby
- 19.8.5. Testing data access logic with an embedded database
- 19.8.6. Generating unique names for embedded databases
- 19.8.7. Extending the embedded database support
- 19.9. Initializing a DataSource
- 19.9.1. Initializing a database using Spring XML
- Initialization of other components that depend on the database
- 20. Object Relational Mapping (ORM) Data Access
- 20.1. Introduction to ORM with Spring
- 20.2. General ORM integration considerations
- 20.2.1. Resource and transaction management
- 20.2.2. Exception translation
- 20.3. Hibernate
- 20.3.1. SessionFactory setup in a Spring container
- 20.3.2. Implementing DAOs based on plain Hibernate API
- 20.3.3. Declarative transaction demarcation
- 20.3.4. Programmatic transaction demarcation
- 20.3.5. Transaction management strategies
- 20.3.6. Comparing container-managed and locally defined resources
- 20.3.7. Spurious application server warnings with Hibernate
- 20.4. JDO
- 20.4.1. PersistenceManagerFactory setup
- 20.4.2. Implementing DAOs based on the plain JDO API
- 20.4.3. Transaction management
- 20.4.4. JdoDialect
- 20.5. JPA
- 20.5.1. Three options for JPA setup in a Spring environment
- LocalEntityManagerFactoryBean
- Obtaining an EntityManagerFactory from JNDI
- LocalContainerEntityManagerFactoryBean
- Dealing with multiple persistence units
- 20.5.2. Implementing DAOs based on JPA: EntityManagerFactory and EntityManager
- 20.5.3. Spring-driven JPA transactions
- 20.5.4. JpaDialect and JpaVendorAdapter
- 20.5.5. Setting up JPA with JTA transaction management
- 21. Marshalling XML using O/X Mappers
- 21.1. Introduction
- 21.1.1. Ease of configuration
- 21.1.2. Consistent Interfaces
- 21.1.3. Consistent Exception Hierarchy
- 21.2. Marshaller and Unmarshaller
- 21.2.1. Marshaller
- 21.2.2. Unmarshaller
- 21.2.3. XmlMappingException
- 21.3. Using Marshaller and Unmarshaller
- 21.4. XML Schema-based Configuration
- 21.5. JAXB
- 21.5.1. Jaxb2Marshaller
- XML Schema-based Configuration
- 21.6. Castor
- 21.6.1. CastorMarshaller
- 21.6.2. Mapping
- XML Schema-based Configuration
- 21.7. XMLBeans
- 21.7.1. XmlBeansMarshaller
- XML Schema-based Configuration
- 21.8. JiBX
- 21.8.1. JibxMarshaller
- XML Schema-based Configuration
- 21.9. XStream
- 21.9.1. XStreamMarshaller
- VI. The Web
- 22. Web MVC framework
- 22.1. Introduction to Spring Web MVC framework
- 22.1.1. Features of Spring Web MVC
- 22.1.2. Pluggability of other MVC implementations
- 22.2. The DispatcherServlet
- 22.2.1. Special Bean Types In the WebApplicationContext
- 22.2.2. Default DispatcherServlet Configuration
- 22.2.3. DispatcherServlet Processing Sequence
- 22.3. Implementing Controllers
- 22.3.1. Defining a controller with @Controller
- 22.3.2. Mapping Requests With @RequestMapping
- Composed @RequestMapping Variants
- @Controller and AOP Proxying
- New Support Classes for @RequestMapping methods in Spring MVC 3.1
- URI Template Patterns
- URI Template Patterns with Regular Expressions
- Path Patterns
- Path Pattern Comparison
- Path Patterns with Placeholders
- Suffix Pattern Matching
- Suffix Pattern Matching and RFD
- Matrix Variables
- Consumable Media Types
- Producible Media Types
- Request Parameters and Header Values
- HTTP HEAD and HTTP OPTIONS
- 22.3.3. Defining @RequestMapping handler methods
- Supported method argument types
- Supported method return types
- Binding request parameters to method parameters with @RequestParam
- Mapping the request body with the @RequestBody annotation
- Mapping the response body with the @ResponseBody annotation
- Creating REST Controllers with the @RestController annotation
- Using HttpEntity
- Using @ModelAttribute on a method
- Using @ModelAttribute on a method argument
- Using @SessionAttributes to store model attributes in the HTTP session between requests
- Using @SessionAttribute to access pre-existing global session attributes
- Using @RequestAttribute to access request attributes
- Working with "application/x-www-form-urlencoded" data
- Mapping cookie values with the @CookieValue annotation
- Mapping request header attributes with the @RequestHeader annotation
- Method Parameters And Type Conversion
- Customizing WebDataBinder initialization
- Advising controllers with @ControllerAdvice and @RestControllerAdvice
- Jackson Serialization View Support
- Jackson JSONP Support
- 22.3.4. Asynchronous Request Processing
- Exception Handling for Async Requests
- Intercepting Async Requests
- HTTP Streaming
- HTTP Streaming With Server-Sent Events
- HTTP Streaming Directly To The OutputStream
- Configuring Asynchronous Request Processing
- 22.3.5. Testing Controllers
- 22.4. Handler mappings
- 22.4.1. Intercepting requests with a HandlerInterceptor
- 22.5. Resolving views
- 22.5.1. Resolving views with the ViewResolver interface
- 22.5.2. Chaining ViewResolvers
- 22.5.3. Redirecting to Views
- RedirectView
- The redirect: prefix
- The forward: prefix
- 22.5.4. ContentNegotiatingViewResolver
- 22.6. Using flash attributes
- 22.7. Building URIs
- 22.7.1. Building URIs to Controllers and methods
- 22.7.2. Building URIs to Controllers and methods from views
- 22.8. Using locales
- 22.8.1. Obtaining Time Zone Information
- 22.8.2. AcceptHeaderLocaleResolver
- 22.8.3. CookieLocaleResolver
- 22.8.4. SessionLocaleResolver
- 22.8.5. LocaleChangeInterceptor
- 22.9. Using themes
- 22.9.1. Overview of themes
- 22.9.2. Defining themes
- 22.9.3. Theme resolvers
- 22.10. Spring’s multipart (file upload) support
- 22.10.1. Introduction
- 22.10.2. Using a MultipartResolver with Commons FileUpload
- 22.10.3. Using a MultipartResolver with Servlet 3.0
- 22.10.4. Handling a file upload in a form
- 22.10.5. Handling a file upload request from programmatic clients
- 22.11. Handling exceptions
- 22.11.1. HandlerExceptionResolver
- 22.11.2. @ExceptionHandler
- 22.11.3. Handling Standard Spring MVC Exceptions
- 22.11.4. Annotating Business Exceptions With @ResponseStatus
- 22.11.5. Customizing the Default Servlet Container Error Page
- 22.12. Web Security
- 22.13. Convention over configuration support
- 22.13.1. The Controller ControllerClassNameHandlerMapping
- 22.13.2. The Model ModelMap (ModelAndView)
- 22.13.3. The View - RequestToViewNameTranslator
- 22.14. HTTP caching support
- 22.14.1. Cache-Control HTTP header
- 22.14.2. HTTP caching support for static resources
- 22.14.3. Support for the Cache-Control, ETag and Last-Modified response headers in Controllers
- 22.14.4. Shallow ETag support
- 22.15. Code-based Servlet container initialization
- 22.16. Configuring Spring MVC
- 22.16.1. Enabling the MVC Java Config or the MVC XML Namespace
- 22.16.2. Customizing the Provided Configuration
- 22.16.3. Conversion and Formatting
- 22.16.4. Validation
- 22.16.5. Interceptors
- 22.16.6. Content Negotiation
- 22.16.7. View Controllers
- 22.16.8. View Resolvers
- 22.16.9. Serving of Resources
- 22.16.10. Falling Back On the "Default" Servlet To Serve Resources
- 22.16.11. Path Matching
- 22.16.12. Message Converters
- 22.16.13. Advanced Customizations with MVC Java Config
- 22.16.14. Advanced Customizations with the MVC Namespace
- 23. View technologies
- 23.1. Introduction
- 23.2. Thymeleaf
- 23.3. Groovy Markup Templates
- 23.3.1. Configuration
- 23.3.2. Example
- 23.4. Velocity & FreeMarker
- 23.4.1. Dependencies
- 23.4.2. Context configuration
- 23.4.3. Creating templates
- 23.4.4. Advanced configuration
- velocity.properties
- FreeMarker
- 23.4.5. Bind support and form handling
- The bind macros
- Simple binding
- Form input generation macros
- HTML escaping and XHTML compliance
- 23.5. JSP & JSTL
- 23.5.1. View resolvers
- 23.5.2. ‘Plain-old‘ JSPs versus JSTL
- 23.5.3. Additional tags facilitating development
- 23.5.4. Using Spring’s form tag library
- Configuration
- The form tag
- The input tag
- The checkbox tag
- The checkboxes tag
- The radiobutton tag
- The radiobuttons tag
- The password tag
- The select tag
- The option tag
- The options tag
- The textarea tag
- The hidden tag
- The errors tag
- HTTP Method Conversion
- HTML5 Tags
- 23.6. Script templates
- 23.6.1. Dependencies
- 23.6.2. How to integrate script based templating
- 23.7. XML Marshalling View
- 23.8. Tiles
- 23.8.1. Dependencies
- 23.8.2. How to integrate Tiles
- UrlBasedViewResolver
- ResourceBundleViewResolver
- SimpleSpringPreparerFactory and SpringBeanPreparerFactory
- 23.9. XSLT
- 23.9.1. My First Words
- Bean definitions
- Standard MVC controller code
- Document transformation
- 23.10. Document views (PDF/Excel)
- 23.10.1. Introduction
- 23.10.2. Configuration and setup
- Document view definitions
- Controller code
- Subclassing for Excel views
- Subclassing for PDF views
- 23.11. JasperReports
- 23.11.1. Dependencies
- 23.11.2. Configuration
- Configuring the ViewResolver
- Configuring the Views
- About Report Files
- Using JasperReportsMultiFormatView
- 23.11.3. Populating the ModelAndView
- 23.11.4. Working with Sub-Reports
- Configuring Sub-Report Files
- Configuring Sub-Report Data Sources
- 23.11.5. Configuring Exporter Parameters
- 23.12. Feed Views
- 23.13. JSON Mapping View
- 23.14. XML Mapping View
- 24. Integrating with other web frameworks
- 24.1. Introduction
- 24.2. Common configuration
- 24.3. JavaServer Faces 1.2
- 24.3.1. SpringBeanFacesELResolver (JSF 1.2+)
- 24.3.2. FacesContextUtils
- 24.4. Apache Struts 2.x
- 24.5. Tapestry 5.x
- 24.6. Further Resources
- 25. Portlet MVC Framework
- 25.1. Introduction
- 25.1.1. Controllers - The C in MVC
- 25.1.2. Views - The V in MVC
- 25.1.3. Web-scoped beans
- 25.2. The DispatcherPortlet
- 25.3. The ViewRendererServlet
- 25.4. Controllers
- 25.4.1. AbstractController and PortletContentGenerator
- 25.4.2. Other simple controllers
- 25.4.3. Command Controllers
- 25.4.4. PortletWrappingController
- 25.5. Handler mappings
- 25.5.1. PortletModeHandlerMapping
- 25.5.2. ParameterHandlerMapping
- 25.5.3. PortletModeParameterHandlerMapping
- 25.5.4. Adding HandlerInterceptors
- 25.5.5. HandlerInterceptorAdapter
- 25.5.6. ParameterMappingInterceptor
- 25.6. Views and resolving them
- 25.7. Multipart (file upload) support
- 25.7.1. Using the PortletMultipartResolver
- 25.7.2. Handling a file upload in a form
- 25.8. Handling exceptions
- 25.9. Annotation-based controller configuration
- 25.9.1. Setting up the dispatcher for annotation support
- 25.9.2. Defining a controller with @Controller
- 25.9.3. Mapping requests with @RequestMapping
- 25.9.4. Supported handler method arguments
- 25.9.5. Binding request parameters to method parameters with @RequestParam
- 25.9.6. Providing a link to data from the model with @ModelAttribute
- 25.9.7. Specifying attributes to store in a Session with @SessionAttributes
- 25.9.8. Customizing WebDataBinder initialization
- Customizing data binding with @InitBinder
- Configuring a custom WebBindingInitializer
- 25.10. Portlet application deployment
- 26. WebSocket Support
- 26.1. Introduction
- 26.1.1. WebSocket Fallback Options
- 26.1.2. A Messaging Architecture
- 26.1.3. Sub-Protocol Support in WebSocket
- 26.1.4. Should I Use WebSocket?
- 26.2. WebSocket API
- 26.2.1. Create and Configure a WebSocketHandler
- 26.2.2. Customizing the WebSocket Handshake
- 26.2.3. WebSocketHandler Decoration
- 26.2.4. Deployment Considerations
- 26.2.5. Configuring the WebSocket Engine
- 26.2.6. Configuring allowed origins
- 26.3. SockJS Fallback Options
- 26.3.1. Overview of SockJS
- 26.3.2. Enable SockJS
- 26.3.3. HTTP Streaming in IE 8, 9: Ajax/XHR vs IFrame
- 26.3.4. Heartbeat Messages
- 26.3.5. Servlet 3 Async Requests
- 26.3.6. CORS Headers for SockJS
- 26.3.7. SockJS Client
- 26.4. STOMP Over WebSocket Messaging Architecture
- 26.4.1. Overview of STOMP
- 26.4.2. Enable STOMP over WebSocket
- 26.4.3. Flow of Messages
- 26.4.4. Annotation Message Handling
- 26.4.5. Sending Messages
- 26.4.6. Simple Broker
- 26.4.7. Full-Featured Broker
- 26.4.8. Connections To Full-Featured Broker
- 26.4.9. Using Dot as Separator in @MessageMapping Destinations
- 26.4.10. Authentication
- 26.4.11. Token-based Authentication
- 26.4.12. User Destinations
- 26.4.13. Listening To ApplicationContext Events and Intercepting Messages
- 26.4.14. STOMP Client
- 26.4.15. WebSocket Scope
- 26.4.16. Configuration and Performance
- 26.4.17. Runtime Monitoring
- 26.4.18. Testing Annotated Controller Methods
- 27. CORS Support
- 27.1. Introduction
- 27.2. Controller method CORS configuration
- 27.3. Global CORS configuration
- 27.3.1. JavaConfig
- 27.3.2. XML namespace
- 27.4. Advanced Customization
- 27.5. Filter based CORS support
- VII. Integration
- 28. Remoting and web services using Spring
- 28.1. Introduction
- 28.2. Exposing services using RMI
- 28.2.1. Exporting the service using the RmiServiceExporter
- 28.2.2. Linking in the service at the client
- 28.3. Using Hessian or Burlap to remotely call services via HTTP
- 28.3.1. Wiring up the DispatcherServlet for Hessian and co.
- 28.3.2. Exposing your beans by using the HessianServiceExporter
- 28.3.3. Linking in the service on the client
- 28.3.4. Using Burlap
- 28.3.5. Applying HTTP basic authentication to a service exposed through Hessian or Burlap
- 28.4. Exposing services using HTTP invokers
- 28.4.1. Exposing the service object
- 28.4.2. Linking in the service at the client
- 28.5. Web services
- 28.5.1. Exposing servlet-based web services using JAX-WS
- 28.5.2. Exporting standalone web services using JAX-WS
- 28.5.3. Exporting web services using the JAX-WS RI’s Spring support
- 28.5.4. Accessing web services using JAX-WS
- 28.6. JMS
- 28.6.1. Server-side configuration
- 28.6.2. Client-side configuration
- 28.7. AMQP
- 28.8. Auto-detection is not implemented for remote interfaces
- 28.9. Considerations when choosing a technology
- 28.10. Accessing RESTful services on the Client
- 28.10.1. RestTemplate
- Working with the URI
- Dealing with request and response headers
- Jackson JSON Views support
- 28.10.2. HTTP Message Conversion
- StringHttpMessageConverter
- FormHttpMessageConverter
- ByteArrayHttpMessageConverter
- MarshallingHttpMessageConverter
- MappingJackson2HttpMessageConverter
- MappingJackson2XmlHttpMessageConverter
- SourceHttpMessageConverter
- BufferedImageHttpMessageConverter
- 28.10.3. Async RestTemplate
- 29. Enterprise JavaBeans (EJB) integration
- 29.1. Introduction
- 29.2. Accessing EJBs
- 29.2.1. Concepts
- 29.2.2. Accessing local SLSBs
- 29.2.3. Accessing remote SLSBs
- 29.2.4. Accessing EJB 2.x SLSBs versus EJB 3 SLSBs
- 29.3. Using Spring’s EJB implementation support classes
- 29.3.1. EJB 3 injection interceptor
- 30. JMS (Java Message Service)
- 30.1. Introduction
- 30.2. Using Spring JMS
- 30.2.1. JmsTemplate
- 30.2.2. Connections
- Caching Messaging Resources
- SingleConnectionFactory
- CachingConnectionFactory
- 30.2.3. Destination Management
- 30.2.4. Message Listener Containers
- SimpleMessageListenerContainer
- DefaultMessageListenerContainer
- 30.2.5. Transaction management
- 30.3. Sending a Message
- 30.3.1. Using Message Converters
- 30.3.2. SessionCallback and ProducerCallback
- 30.4. Receiving a message
- 30.4.1. Synchronous Reception
- 30.4.2. Asynchronous Reception - Message-Driven POJOs
- 30.4.3. the SessionAwareMessageListener interface
- 30.4.4. the MessageListenerAdapter
- 30.4.5. Processing messages within transactions
- 30.5. Support for JCA Message Endpoints
- 30.6. Annotation-driven listener endpoints
- 30.6.1. Enable listener endpoint annotations
- 30.6.2. Programmatic endpoints registration
- 30.6.3. Annotated endpoint method signature
- 30.6.4. Response management
- 30.7. JMS namespace support
- 31. JMX
- 31.1. Introduction
- 31.2. Exporting your beans to JMX
- 31.2.1. Creating an MBeanServer
- 31.2.2. Reusing an existing MBeanServer
- 31.2.3. Lazy-initialized MBeans
- 31.2.4. Automatic registration of MBeans
- 31.2.5. Controlling the registration behavior
- 31.3. Controlling the management interface of your beans
- 31.3.1. the MBeanInfoAssembler Interface
- 31.3.2. Using Source-Level Metadata (Java annotations)
- 31.3.3. Source-Level Metadata Types
- 31.3.4. the AutodetectCapableMBeanInfoAssembler interface
- 31.3.5. Defining management interfaces using Java interfaces
- 31.3.6. Using MethodNameBasedMBeanInfoAssembler
- 31.4. Controlling the ObjectNames for your beans
- 31.4.1. Reading ObjectNames from Properties
- 31.4.2. Using the MetadataNamingStrategy
- 31.4.3. Configuring annotation based MBean export
- 31.5. JSR-160 Connectors
- 31.5.1. Server-side Connectors
- 31.5.2. Client-side Connectors
- 31.5.3. JMX over Burlap/Hessian/SOAP
- 31.6. Accessing MBeans via Proxies
- 31.7. Notifications
- 31.7.1. Registering Listeners for Notifications
- 31.7.2. Publishing Notifications
- 31.8. Further Resources
- 32. JCA CCI
- 32.1. Introduction
- 32.2. Configuring CCI
- 32.2.1. Connector configuration
- 32.2.2. ConnectionFactory configuration in Spring
- 32.2.3. Configuring CCI connections
- 32.2.4. Using a single CCI connection
- 32.3. Using Spring’s CCI access support
- 32.3.1. Record conversion
- 32.3.2. the CciTemplate
- 32.3.3. DAO support
- 32.3.4. Automatic output record generation
- 32.3.5. Summary
- 32.3.6. Using a CCI Connection and Interaction directly
- 32.3.7. Example for CciTemplate usage
- 32.4. Modeling CCI access as operation objects
- 32.4.1. MappingRecordOperation
- 32.4.2. MappingCommAreaOperation
- 32.4.3. Automatic output record generation
- 32.4.4. Summary
- 32.4.5. Example for MappingRecordOperation usage
- 32.4.6. Example for MappingCommAreaOperation usage
- 32.5. Transactions
- 33. Email
- 33.1. Introduction
- 33.2. Usage
- 33.2.1. Basic MailSender and SimpleMailMessage usage
- 33.2.2. Using the JavaMailSender and the MimeMessagePreparator
- 33.3. Using the JavaMail MimeMessageHelper
- 33.3.1. Sending attachments and inline resources
- Attachments
- Inline resources
- 33.3.2. Creating email content using a templating library
- A Velocity-based example
- 34. Task Execution and Scheduling
- 34.1. Introduction
- 34.2. The Spring TaskExecutor abstraction
- 34.2.1. TaskExecutor types
- 34.2.2. Using a TaskExecutor
- 34.3. The Spring TaskScheduler abstraction
- 34.3.1. the Trigger interface
- 34.3.2. Trigger implementations
- 34.3.3. TaskScheduler implementations
- 34.4. Annotation Support for Scheduling and Asynchronous Execution
- 34.4.1. Enable scheduling annotations
- 34.4.2. The @Scheduled annotation
- 34.4.3. The @Async annotation
- 34.4.4. Executor qualification with @Async
- 34.4.5. Exception management with @Async
- 34.5. The task namespace
- 34.5.1. The ‘scheduler‘ element
- 34.5.2. The ‘executor‘ element
- 34.5.3. The ‘scheduled-tasks‘ element
- 34.6. Using the Quartz Scheduler
- 34.6.1. Using the JobDetailFactoryBean
- 34.6.2. Using the MethodInvokingJobDetailFactoryBean
- 34.6.3. Wiring up jobs using triggers and the SchedulerFactoryBean
- 35. Dynamic language support
- 35.1. Introduction
- 35.2. A first example
- 35.3. Defining beans that are backed by dynamic languages
- 35.3.1. Common concepts
- The <lang:language/> element
- Refreshable beans
- Inline dynamic language source files
- Understanding Constructor Injection in the context of dynamic-language-backed beans
- 35.3.2. JRuby beans
- 35.3.3. Groovy beans
- Customizing Groovy objects via a callback
- 35.3.4. BeanShell beans
- 35.4. Scenarios
- 35.4.1. Scripted Spring MVC Controllers
- 35.4.2. Scripted Validators
- 35.5. Bits and bobs
- 35.5.1. AOP - advising scripted beans
- 35.5.2. Scoping
- 35.6. Further Resources
- 36. Cache Abstraction
- 36.1. Introduction
- 36.2. Understanding the cache abstraction
- 36.3. Declarative annotation-based caching
- 36.3.1. @Cacheable annotation
- Default Key Generation
- Custom Key Generation Declaration
- Default Cache Resolution
- Custom cache resolution
- Synchronized caching
- Conditional caching
- Available caching SpEL evaluation context
- 36.3.2. @CachePut annotation
- 36.3.3. @CacheEvict annotation
- 36.3.4. @Caching annotation
- 36.3.5. @CacheConfig annotation
- 36.3.6. Enable caching annotations
- 36.3.7. Using custom annotations
- 36.4. JCache (JSR-107) annotations
- 36.4.1. Features summary
- 36.4.2. Enabling JSR-107 support
- 36.5. Declarative XML-based caching
- 36.6. Configuring the cache storage
- 36.6.1. JDK ConcurrentMap-based Cache
- 36.6.2. Ehcache-based Cache
- 36.6.3. Caffeine Cache
- 36.6.4. Guava Cache
- 36.6.5. GemFire-based Cache
- 36.6.6. JSR-107 Cache
- 36.6.7. Dealing with caches without a backing store
- 36.7. Plugging-in different back-end caches
- 36.8. How can I set the TTL/TTI/Eviction policy/XXX feature?
- VIII. Appendices
- 37. Migrating to Spring Framework 4.x
- 38. Spring Annotation Programming Model
- 39. Classic Spring Usage
- 39.1. Classic ORM usage
- 39.1.1. Hibernate
- The HibernateTemplate
- Implementing Spring-based DAOs without callbacks
- 39.2. JMS Usage
- 39.2.1. JmsTemplate
- 39.2.2. Asynchronous Message Reception
- 39.2.3. Connections
- 39.2.4. Transaction Management
- 40. Classic Spring AOP Usage
- 40.1. Pointcut API in Spring
- 40.1.1. Concepts
- 40.1.2. Operations on pointcuts
- 40.1.3. AspectJ expression pointcuts
- 40.1.4. Convenience pointcut implementations
- Static pointcuts
- Dynamic pointcuts
- 40.1.5. Pointcut superclasses
- 40.1.6. Custom pointcuts
- 40.2. Advice API in Spring
- 40.2.1. Advice lifecycles
- 40.2.2. Advice types in Spring
- Interception around advice
- Before advice
- Throws advice
- After Returning advice
- Introduction advice
- 40.3. Advisor API in Spring
- 40.4. Using the ProxyFactoryBean to create AOP proxies
- 40.4.1. Basics
- 40.4.2. JavaBean properties
- 40.4.3. JDK- and CGLIB-based proxies
- 40.4.4. Proxying interfaces
- 40.4.5. Proxying classes
- 40.4.6. Using ‘global‘ advisors
- 40.5. Concise proxy definitions
- 40.6. Creating AOP proxies programmatically with the ProxyFactory
- 40.7. Manipulating advised objects
- 40.8. Using the "autoproxy" facility
- 40.8.1. Autoproxy bean definitions
- BeanNameAutoProxyCreator
- DefaultAdvisorAutoProxyCreator
- AbstractAdvisorAutoProxyCreator
- 40.8.2. Using metadata-driven auto-proxying
- 40.9. Using TargetSources
- 40.9.1. Hot swappable target sources
- 40.9.2. Pooling target sources
- 40.9.3. Prototype target sources
- 40.9.4. ThreadLocal target sources
- 40.10. Defining new Advice types
- 40.11. Further resources
- 41. XML Schema-based configuration
- 41.1. Introduction
- 41.2. XML Schema-based configuration
- 41.2.1. Referencing the schemas
- 41.2.2. the util schema
- <util:constant/>
- <util:property-path/>
- <util:properties/>
- <util:list/>
- <util:map/>
- <util:set/>
- 41.2.3. the jee schema
- <jee:jndi-lookup/> (simple)
- <jee:jndi-lookup/> (with single JNDI environment setting)
- <jee:jndi-lookup/> (with multiple JNDI environment settings)
- <jee:jndi-lookup/> (complex)
- <jee:local-slsb/> (simple)
- <jee:local-slsb/> (complex)
- <jee:remote-slsb/>
- 41.2.4. the lang schema
- 41.2.5. the jms schema
- 41.2.6. the tx (transaction) schema
- 41.2.7. the aop schema
- 41.2.8. the context schema
- <property-placeholder/>
- <annotation-config/>
- <component-scan/>
- <load-time-weaver/>
- <spring-configured/>
- <mbean-export/>
- 41.2.9. the tool schema
- 41.2.10. the jdbc schema
- 41.2.11. the cache schema
- 41.2.12. the beans schema
- 42. Extensible XML authoring
- 42.1. Introduction
- 42.2. Authoring the schema
- 42.3. Coding a NamespaceHandler
- 42.4. BeanDefinitionParser
- 42.5. Registering the handler and the schema
- 42.5.1. ‘META-INF/spring.handlers‘
- 42.5.2. ‘META-INF/spring.schemas‘
- 42.6. Using a custom extension in your Spring XML configuration
- 42.7. Meatier examples
- 42.7.1. Nesting custom tags within custom tags
- 42.7.2. Custom attributes on ‘normal‘ elements
- 42.8. Further Resources
- 43. spring JSP Tag Library
- 43.1. Introduction
- 43.2. The argument tag
- 43.3. The bind tag
- 43.4. The escapeBody tag
- 43.5. The eval tag
- 43.6. The hasBindErrors tag
- 43.7. The htmlEscape tag
- 43.8. The message tag
- 43.9. The nestedPath tag
- 43.10. The param tag
- 43.11. The theme tag
- 43.12. The transform tag
- 43.13. The url tag
- 44. spring-form JSP Tag Library
- 44.1. Introduction
- 44.2. The button tag
- 44.3. The checkbox tag
- 44.4. The checkboxes tag
- 44.5. The errors tag
- 44.6. The form tag
- 44.7. The hidden tag
- 44.8. The input tag
- 44.9. The label tag
- 44.10. The option tag
- 44.11. The options tag
- 44.12. The password tag
- 44.13. The radiobutton tag
- 44.14. The radiobuttons tag
- 44.15. The select tag
- 44.16. The textarea tag
http://docs.spring.io/spring/docs/current/javadoc-api/
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