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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

20.4.1. PersistenceManagerFactory setup
20.4.2. Implementing DAOs based on the plain JDO API
20.4.3. Transaction management
20.4.4. JdoDialect

20.5.1. 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

21.5.1. 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

21.8.1. 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

23.9.1. 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

28.6.1. Server-side configuration
28.6.2. Client-side configuration

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

31.1. 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

33.1. 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/

Spring框架文档与API（4.3.6版本）

标签：testing rod 1.5 adl ng-model swap warning asp apply

原文地址：http://www.cnblogs.com/ys-wuhan/p/6357945.html

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