分类目录归档:JAVA基础

Spring Boot:常用属性汇总

http://docs.spring.io/spring-boot/docs/current/reference/html/common-application-properties.html

# ===================================================================
# COMMON SPRING BOOT PROPERTIES
#
# This sample file is provided as a guideline. Do NOT copy it in its
# entirety to your own application. ^^^
# ===================================================================

# ----------------------------------------
# CORE PROPERTIES
# ----------------------------------------

# BANNER
banner.charset=UTF-8 # Banner file encoding.
banner.location=classpath:banner.txt # Banner file location.
banner.image.location=classpath:banner.gif # Banner image file location (jpg/png can also be used).
banner.image.width= # Width of the banner image in chars (default 76)
banner.image.height= # Height of the banner image in chars (default based on image height)
banner.image.margin= # Left hand image margin in chars (default 2)
banner.image.invert= # If images should be inverted for dark terminal themes (default false)

# LOGGING
logging.config= # Location of the logging configuration file. For instance `classpath:logback.xml` for Logback
logging.exception-conversion-word=%wEx # Conversion word used when logging exceptions.
logging.file= # Log file name. For instance `myapp.log`
logging.level.*= # Log levels severity mapping. For instance `logging.level.org.springframework=DEBUG`
logging.path= # Location of the log file. For instance `/var/log`
logging.pattern.console= # Appender pattern for output to the console. Only supported with the default logback setup.
logging.pattern.file= # Appender pattern for output to the file. Only supported with the default logback setup.
logging.pattern.level= # Appender pattern for log level (default %5p). Only supported with the default logback setup.
logging.register-shutdown-hook=false # Register a shutdown hook for the logging system when it is initialized.

# AOP
spring.aop.auto=true # Add @EnableAspectJAutoProxy.
spring.aop.proxy-target-class=false # Whether subclass-based (CGLIB) proxies are to be created (true) as opposed to standard Java interface-based proxies (false).

# IDENTITY (ContextIdApplicationContextInitializer)
spring.application.index= # Application index.
spring.application.name= # Application name.

# ADMIN (SpringApplicationAdminJmxAutoConfiguration)
spring.application.admin.enabled=false # Enable admin features for the application.
spring.application.admin.jmx-name=org.springframework.boot:type=Admin,name=SpringApplication # JMX name of the application admin MBean.

# AUTO-CONFIGURATION
spring.autoconfigure.exclude= # Auto-configuration classes to exclude.

# SPRING CORE
spring.beaninfo.ignore=true # Skip search of BeanInfo classes.

# SPRING CACHE (CacheProperties)
spring.cache.cache-names= # Comma-separated list of cache names to create if supported by the underlying cache manager.
spring.cache.caffeine.spec= # The spec to use to create caches. Check CaffeineSpec for more details on the spec format.
spring.cache.couchbase.expiration=0 # Entry expiration in milliseconds. By default the entries never expire.
spring.cache.ehcache.config= # The location of the configuration file to use to initialize EhCache.
spring.cache.guava.spec= # The spec to use to create caches. Check CacheBuilderSpec for more details on the spec format.
spring.cache.infinispan.config= # The location of the configuration file to use to initialize Infinispan.
spring.cache.jcache.config= # The location of the configuration file to use to initialize the cache manager.
spring.cache.jcache.provider= # Fully qualified name of the CachingProvider implementation to use to retrieve the JSR-107 compliant cache manager. Only needed if more than one JSR-107 implementation is available on the classpath.
spring.cache.type= # Cache type, auto-detected according to the environment by default.

# SPRING CONFIG - using environment property only (ConfigFileApplicationListener)
spring.config.location= # Config file locations.
spring.config.name=application # Config file name.

# HAZELCAST (HazelcastProperties)
spring.hazelcast.config= # The location of the configuration file to use to initialize Hazelcast.

# PROJECT INFORMATION (ProjectInfoProperties)
spring.info.build.location=classpath:META-INF/build-info.properties # Location of the generated build-info.properties file.
spring.info.git.location=classpath:git.properties # Location of the generated git.properties file.

# JMX
spring.jmx.default-domain= # JMX domain name.
spring.jmx.enabled=true # Expose management beans to the JMX domain.
spring.jmx.server=mbeanServer # MBeanServer bean name.

# Email (MailProperties)
spring.mail.default-encoding=UTF-8 # Default MimeMessage encoding.
spring.mail.host= # SMTP server host. For instance `smtp.example.com`
spring.mail.jndi-name= # Session JNDI name. When set, takes precedence to others mail settings.
spring.mail.password= # Login password of the SMTP server.
spring.mail.port= # SMTP server port.
spring.mail.properties.*= # Additional JavaMail session properties.
spring.mail.protocol=smtp # Protocol used by the SMTP server.
spring.mail.test-connection=false # Test that the mail server is available on startup.
spring.mail.username= # Login user of the SMTP server.

# APPLICATION SETTINGS (SpringApplication)
spring.main.banner-mode=console # Mode used to display the banner when the application runs.
spring.main.sources= # Sources (class name, package name or XML resource location) to include in the ApplicationContext.
spring.main.web-environment= # Run the application in a web environment (auto-detected by default).

# FILE ENCODING (FileEncodingApplicationListener)
spring.mandatory-file-encoding= # Expected character encoding the application must use.

# INTERNATIONALIZATION (MessageSourceAutoConfiguration)
spring.messages.always-use-message-format=false # Set whether to always apply the MessageFormat rules, parsing even messages without arguments.
spring.messages.basename=messages # Comma-separated list of basenames, each following the ResourceBundle convention.
spring.messages.cache-seconds=-1 # Loaded resource bundle files cache expiration, in seconds. When set to -1, bundles are cached forever.
spring.messages.encoding=UTF-8 # Message bundles encoding.
spring.messages.fallback-to-system-locale=true # Set whether to fall back to the system Locale if no files for a specific Locale have been found.

# OUTPUT
spring.output.ansi.enabled=detect # Configure the ANSI output.

# PID FILE (ApplicationPidFileWriter)
spring.pid.fail-on-write-error= # Fail if ApplicationPidFileWriter is used but it cannot write the PID file.
spring.pid.file= # Location of the PID file to write (if ApplicationPidFileWriter is used).

# PROFILES
spring.profiles.active= # Comma-separated list (or list if using YAML) of active profiles.
spring.profiles.include= # Unconditionally activate the specified comma separated profiles (or list of profiles if using YAML).

# SENDGRID (SendGridAutoConfiguration)
spring.sendgrid.api-key= # SendGrid api key (alternative to username/password)
spring.sendgrid.username= # SendGrid account username
spring.sendgrid.password= # SendGrid account password
spring.sendgrid.proxy.host= # SendGrid proxy host
spring.sendgrid.proxy.port= # SendGrid proxy port

# ----------------------------------------
# WEB PROPERTIES
# ----------------------------------------

# EMBEDDED SERVER CONFIGURATION (ServerProperties)
server.address= # Network address to which the server should bind to.
server.compression.enabled=false # If response compression is enabled.
server.compression.excluded-user-agents= # List of user-agents to exclude from compression.
server.compression.mime-types= # Comma-separated list of MIME types that should be compressed. For instance `text/html,text/css,application/json`
server.compression.min-response-size= # Minimum response size that is required for compression to be performed. For instance 2048
server.connection-timeout= # Time in milliseconds that connectors will wait for another HTTP request before closing the connection. When not set, the connector's container-specific default will be used. Use a value of -1 to indicate no (i.e. infinite) timeout.
server.context-parameters.*= # Servlet context init parameters. For instance `server.context-parameters.a=alpha`
server.context-path= # Context path of the application.
server.display-name=application # Display name of the application.
server.max-http-header-size=0 # Maximum size in bytes of the HTTP message header.
server.error.include-stacktrace=never # When to include a "stacktrace" attribute.
server.error.path=/error # Path of the error controller.
server.error.whitelabel.enabled=true # Enable the default error page displayed in browsers in case of a server error.
server.jetty.acceptors= # Number of acceptor threads to use.
server.jetty.max-http-post-size=0 # Maximum size in bytes of the HTTP post or put content.
server.jetty.selectors= # Number of selector threads to use.
server.jsp-servlet.class-name=org.apache.jasper.servlet.JspServlet # The class name of the JSP servlet.
server.jsp-servlet.init-parameters.*= # Init parameters used to configure the JSP servlet
server.jsp-servlet.registered=true # Whether or not the JSP servlet is registered
server.port=8080 # Server HTTP port.
server.server-header= # Value to use for the Server response header (no header is sent if empty)
server.servlet-path=/ # Path of the main dispatcher servlet.
server.use-forward-headers= # If X-Forwarded-* headers should be applied to the HttpRequest.
server.session.cookie.comment= # Comment for the session cookie.
server.session.cookie.domain= # Domain for the session cookie.
server.session.cookie.http-only= # "HttpOnly" flag for the session cookie.
server.session.cookie.max-age= # Maximum age of the session cookie in seconds.
server.session.cookie.name= # Session cookie name.
server.session.cookie.path= # Path of the session cookie.
server.session.cookie.secure= # "Secure" flag for the session cookie.
server.session.persistent=false # Persist session data between restarts.
server.session.store-dir= # Directory used to store session data.
server.session.timeout= # Session timeout in seconds.
server.session.tracking-modes= # Session tracking modes (one or more of the following: "cookie", "url", "ssl").
server.ssl.ciphers= # Supported SSL ciphers.
server.ssl.client-auth= # Whether client authentication is wanted ("want") or needed ("need"). Requires a trust store.
server.ssl.enabled= # Enable SSL support.
server.ssl.enabled-protocols= # Enabled SSL protocols.
server.ssl.key-alias= # Alias that identifies the key in the key store.
server.ssl.key-password= # Password used to access the key in the key store.
server.ssl.key-store= # Path to the key store that holds the SSL certificate (typically a jks file).
server.ssl.key-store-password= # Password used to access the key store.
server.ssl.key-store-provider= # Provider for the key store.
server.ssl.key-store-type= # Type of the key store.
server.ssl.protocol=TLS # SSL protocol to use.
server.ssl.trust-store= # Trust store that holds SSL certificates.
server.ssl.trust-store-password= # Password used to access the trust store.
server.ssl.trust-store-provider= # Provider for the trust store.
server.ssl.trust-store-type= # Type of the trust store.
server.tomcat.accept-count= # Maximum queue length for incoming connection requests when all possible request processing threads are in use.
server.tomcat.accesslog.buffered=true # Buffer output such that it is only flushed periodically.
server.tomcat.accesslog.directory=logs # Directory in which log files are created. Can be relative to the tomcat base dir or absolute.
server.tomcat.accesslog.enabled=false # Enable access log.
server.tomcat.accesslog.file-date-format=.yyyy-MM-dd # Date format to place in log file name.
server.tomcat.accesslog.pattern=common # Format pattern for access logs.
server.tomcat.accesslog.prefix=access_log # Log file name prefix.
server.tomcat.accesslog.rename-on-rotate=false # Defer inclusion of the date stamp in the file name until rotate time.
server.tomcat.accesslog.request-attributes-enabled=false # Set request attributes for IP address, Hostname, protocol and port used for the request.
server.tomcat.accesslog.rotate=true # Enable access log rotation.
server.tomcat.accesslog.suffix=.log # Log file name suffix.
server.tomcat.additional-tld-skip-patterns= # Comma-separated list of additional patterns that match jars to ignore for TLD scanning.
server.tomcat.background-processor-delay=30 # Delay in seconds between the invocation of backgroundProcess methods.
server.tomcat.basedir= # Tomcat base directory. If not specified a temporary directory will be used.
server.tomcat.internal-proxies=10\\.\\d{1,3}\\.\\d{1,3}\\.\\d{1,3}|\\
192\\.168\\.\\d{1,3}\\.\\d{1,3}|\\
169\\.254\\.\\d{1,3}\\.\\d{1,3}|\\
127\\.\\d{1,3}\\.\\d{1,3}\\.\\d{1,3}|\\
172\\.1[6-9]{1}\\.\\d{1,3}\\.\\d{1,3}|\\
172\\.2[0-9]{1}\\.\\d{1,3}\\.\\d{1,3}|\\
172\\.3[0-1]{1}\\.\\d{1,3}\\.\\d{1,3} # regular expression matching trusted IP addresses.
server.tomcat.max-connections= # Maximum number of connections that the server will accept and process at any given time.
server.tomcat.max-http-post-size=0 # Maximum size in bytes of the HTTP post content.
server.tomcat.max-threads=0 # Maximum amount of worker threads.
server.tomcat.min-spare-threads=0 # Minimum amount of worker threads.
server.tomcat.port-header=X-Forwarded-Port # Name of the HTTP header used to override the original port value.
server.tomcat.protocol-header= # Header that holds the incoming protocol, usually named "X-Forwarded-Proto".
server.tomcat.protocol-header-https-value=https # Value of the protocol header that indicates that the incoming request uses SSL.
server.tomcat.redirect-context-root= # Whether requests to the context root should be redirected by appending a / to the path.
server.tomcat.remote-ip-header= # Name of the http header from which the remote ip is extracted. For instance `X-FORWARDED-FOR`
server.tomcat.uri-encoding=UTF-8 # Character encoding to use to decode the URI.
server.undertow.accesslog.dir= # Undertow access log directory.
server.undertow.accesslog.enabled=false # Enable access log.
server.undertow.accesslog.pattern=common # Format pattern for access logs.
server.undertow.accesslog.prefix=access_log. # Log file name prefix.
server.undertow.accesslog.rotate=true # Enable access log rotation.
server.undertow.accesslog.suffix=log # Log file name suffix.
server.undertow.buffer-size= # Size of each buffer in bytes.
server.undertow.direct-buffers= # Allocate buffers outside the Java heap.
server.undertow.io-threads= # Number of I/O threads to create for the worker.
server.undertow.max-http-post-size=0 # Maximum size in bytes of the HTTP post content.
server.undertow.worker-threads= # Number of worker threads.

# FREEMARKER (FreeMarkerAutoConfiguration)
spring.freemarker.allow-request-override=false # Set whether HttpServletRequest attributes are allowed to override (hide) controller generated model attributes of the same name.
spring.freemarker.allow-session-override=false # Set whether HttpSession attributes are allowed to override (hide) controller generated model attributes of the same name.
spring.freemarker.cache=false # Enable template caching.
spring.freemarker.charset=UTF-8 # Template encoding.
spring.freemarker.check-template-location=true # Check that the templates location exists.
spring.freemarker.content-type=text/html # Content-Type value.
spring.freemarker.enabled=true # Enable MVC view resolution for this technology.
spring.freemarker.expose-request-attributes=false # Set whether all request attributes should be added to the model prior to merging with the template.
spring.freemarker.expose-session-attributes=false # Set whether all HttpSession attributes should be added to the model prior to merging with the template.
spring.freemarker.expose-spring-macro-helpers=true # Set whether to expose a RequestContext for use by Spring's macro library, under the name "springMacroRequestContext".
spring.freemarker.prefer-file-system-access=true # Prefer file system access for template loading. File system access enables hot detection of template changes.
spring.freemarker.prefix= # Prefix that gets prepended to view names when building a URL.
spring.freemarker.request-context-attribute= # Name of the RequestContext attribute for all views.
spring.freemarker.settings.*= # Well-known FreeMarker keys which will be passed to FreeMarker's Configuration.
spring.freemarker.suffix= # Suffix that gets appended to view names when building a URL.
spring.freemarker.template-loader-path=classpath:/templates/ # Comma-separated list of template paths.
spring.freemarker.view-names= # White list of view names that can be resolved.

# GROOVY TEMPLATES (GroovyTemplateAutoConfiguration)
spring.groovy.template.allow-request-override=false # Set whether HttpServletRequest attributes are allowed to override (hide) controller generated model attributes of the same name.
spring.groovy.template.allow-session-override=false # Set whether HttpSession attributes are allowed to override (hide) controller generated model attributes of the same name.
spring.groovy.template.cache= # Enable template caching.
spring.groovy.template.charset=UTF-8 # Template encoding.
spring.groovy.template.check-template-location=true # Check that the templates location exists.
spring.groovy.template.configuration.*= # See GroovyMarkupConfigurer
spring.groovy.template.content-type=test/html # Content-Type value.
spring.groovy.template.enabled=true # Enable MVC view resolution for this technology.
spring.groovy.template.expose-request-attributes=false # Set whether all request attributes should be added to the model prior to merging with the template.
spring.groovy.template.expose-session-attributes=false # Set whether all HttpSession attributes should be added to the model prior to merging with the template.
spring.groovy.template.expose-spring-macro-helpers=true # Set whether to expose a RequestContext for use by Spring's macro library, under the name "springMacroRequestContext".
spring.groovy.template.prefix= # Prefix that gets prepended to view names when building a URL.
spring.groovy.template.request-context-attribute= # Name of the RequestContext attribute for all views.
spring.groovy.template.resource-loader-path=classpath:/templates/ # Template path.
spring.groovy.template.suffix=.tpl # Suffix that gets appended to view names when building a URL.
spring.groovy.template.view-names= # White list of view names that can be resolved.

# SPRING HATEOAS (HateoasProperties)
spring.hateoas.use-hal-as-default-json-media-type=true # Specify if application/hal+json responses should be sent to requests that accept application/json.

# HTTP message conversion
spring.http.converters.preferred-json-mapper=jackson # Preferred JSON mapper to use for HTTP message conversion. Set to "gson" to force the use of Gson when both it and Jackson are on the classpath.

# HTTP encoding (HttpEncodingProperties)
spring.http.encoding.charset=UTF-8 # Charset of HTTP requests and responses. Added to the "Content-Type" header if not set explicitly.
spring.http.encoding.enabled=true # Enable http encoding support.
spring.http.encoding.force= # Force the encoding to the configured charset on HTTP requests and responses.
spring.http.encoding.force-request= # Force the encoding to the configured charset on HTTP requests. Defaults to true when "force" has not been specified.
spring.http.encoding.force-response= # Force the encoding to the configured charset on HTTP responses.
spring.http.encoding.mapping= # Locale to Encoding mapping.

# MULTIPART (MultipartProperties)
spring.http.multipart.enabled=true # Enable support of multi-part uploads.
spring.http.multipart.file-size-threshold=0 # Threshold after which files will be written to disk. Values can use the suffixed "MB" or "KB" to indicate a Megabyte or Kilobyte size.
spring.http.multipart.location= # Intermediate location of uploaded files.
spring.http.multipart.max-file-size=1MB # Max file size. Values can use the suffixed "MB" or "KB" to indicate a Megabyte or Kilobyte size.
spring.http.multipart.max-request-size=10MB # Max request size. Values can use the suffixed "MB" or "KB" to indicate a Megabyte or Kilobyte size.
spring.http.multipart.resolve-lazily=false # Whether to resolve the multipart request lazily at the time of file or parameter access.

# JACKSON (JacksonProperties)
spring.jackson.date-format= # Date format string or a fully-qualified date format class name. For instance `yyyy-MM-dd HH:mm:ss`.
spring.jackson.default-property-inclusion= # Controls the inclusion of properties during serialization.
spring.jackson.deserialization.*= # Jackson on/off features that affect the way Java objects are deserialized.
spring.jackson.generator.*= # Jackson on/off features for generators.
spring.jackson.joda-date-time-format= # Joda date time format string. If not configured, "date-format" will be used as a fallback if it is configured with a format string.
spring.jackson.locale= # Locale used for formatting.
spring.jackson.mapper.*= # Jackson general purpose on/off features.
spring.jackson.parser.*= # Jackson on/off features for parsers.
spring.jackson.property-naming-strategy= # One of the constants on Jackson's PropertyNamingStrategy. Can also be a fully-qualified class name of a PropertyNamingStrategy subclass.
spring.jackson.serialization.*= # Jackson on/off features that affect the way Java objects are serialized.
spring.jackson.time-zone= # Time zone used when formatting dates. For instance `America/Los_Angeles`

# JERSEY (JerseyProperties)
spring.jersey.application-path= # Path that serves as the base URI for the application. Overrides the value of "@ApplicationPath" if specified.
spring.jersey.filter.order=0 # Jersey filter chain order.
spring.jersey.init.*= # Init parameters to pass to Jersey via the servlet or filter.
spring.jersey.servlet.load-on-startup=-1 # Load on startup priority of the Jersey servlet.
spring.jersey.type=servlet # Jersey integration type.

# SPRING LDAP (LdapProperties)
spring.ldap.urls= # LDAP URLs of the server.
spring.ldap.base= # Base suffix from which all operations should originate.
spring.ldap.username= # Login user of the server.
spring.ldap.password= # Login password of the server.
spring.ldap.base-environment.*= # LDAP specification settings.

# EMBEDDED LDAP (EmbeddedLdapProperties)
spring.ldap.embedded.base-dn= # The base DN
spring.ldap.embedded.credential.username= # Embedded LDAP username.
spring.ldap.embedded.credential.password= # Embedded LDAP password.
spring.ldap.embedded.ldif=classpath:schema.ldif # Schema (LDIF) script resource reference.
spring.ldap.embedded.port= # Embedded LDAP port.
spring.ldap.embedded.validation.enabled=true # Enable LDAP schema validation.
spring.ldap.embedded.validation.schema= # Path to the custom schema.

# SPRING MOBILE DEVICE VIEWS (DeviceDelegatingViewResolverAutoConfiguration)
spring.mobile.devicedelegatingviewresolver.enable-fallback=false # Enable support for fallback resolution.
spring.mobile.devicedelegatingviewresolver.enabled=false # Enable device view resolver.
spring.mobile.devicedelegatingviewresolver.mobile-prefix=mobile/ # Prefix that gets prepended to view names for mobile devices.
spring.mobile.devicedelegatingviewresolver.mobile-suffix= # Suffix that gets appended to view names for mobile devices.
spring.mobile.devicedelegatingviewresolver.normal-prefix= # Prefix that gets prepended to view names for normal devices.
spring.mobile.devicedelegatingviewresolver.normal-suffix= # Suffix that gets appended to view names for normal devices.
spring.mobile.devicedelegatingviewresolver.tablet-prefix=tablet/ # Prefix that gets prepended to view names for tablet devices.
spring.mobile.devicedelegatingviewresolver.tablet-suffix= # Suffix that gets appended to view names for tablet devices.

# SPRING MOBILE SITE PREFERENCE (SitePreferenceAutoConfiguration)
spring.mobile.sitepreference.enabled=true # Enable SitePreferenceHandler.

# MUSTACHE TEMPLATES (MustacheAutoConfiguration)
spring.mustache.allow-request-override= # Set whether HttpServletRequest attributes are allowed to override (hide) controller generated model attributes of the same name.
spring.mustache.allow-session-override= # Set whether HttpSession attributes are allowed to override (hide) controller generated model attributes of the same name.
spring.mustache.cache= # Enable template caching.
spring.mustache.charset= # Template encoding.
spring.mustache.check-template-location= # Check that the templates location exists.
spring.mustache.content-type= # Content-Type value.
spring.mustache.enabled= # Enable MVC view resolution for this technology.
spring.mustache.expose-request-attributes= # Set whether all request attributes should be added to the model prior to merging with the template.
spring.mustache.expose-session-attributes= # Set whether all HttpSession attributes should be added to the model prior to merging with the template.
spring.mustache.expose-spring-macro-helpers= # Set whether to expose a RequestContext for use by Spring's macro library, under the name "springMacroRequestContext".
spring.mustache.prefix=classpath:/templates/ # Prefix to apply to template names.
spring.mustache.request-context-attribute= # Name of the RequestContext attribute for all views.
spring.mustache.suffix=.html # Suffix to apply to template names.
spring.mustache.view-names= # White list of view names that can be resolved.

# SPRING MVC (WebMvcProperties)
spring.mvc.async.request-timeout= # Amount of time (in milliseconds) before asynchronous request handling times out.
spring.mvc.date-format= # Date format to use. For instance `dd/MM/yyyy`.
spring.mvc.dispatch-trace-request=false # Dispatch TRACE requests to the FrameworkServlet doService method.
spring.mvc.dispatch-options-request=true # Dispatch OPTIONS requests to the FrameworkServlet doService method.
spring.mvc.favicon.enabled=true # Enable resolution of favicon.ico.
spring.mvc.formcontent.putfilter.enabled=true # Enable Spring's HttpPutFormContentFilter.
spring.mvc.ignore-default-model-on-redirect=true # If the content of the "default" model should be ignored during redirect scenarios.
spring.mvc.locale= # Locale to use. By default, this locale is overridden by the "Accept-Language" header.
spring.mvc.locale-resolver=accept-header # Define how the locale should be resolved.
spring.mvc.log-resolved-exception=false # Enable warn logging of exceptions resolved by a "HandlerExceptionResolver".
spring.mvc.media-types.*= # Maps file extensions to media types for content negotiation.
spring.mvc.message-codes-resolver-format= # Formatting strategy for message codes. For instance `PREFIX_ERROR_CODE`.
spring.mvc.servlet.load-on-startup=-1 # Load on startup priority of the Spring Web Services servlet.
spring.mvc.static-path-pattern=/** # Path pattern used for static resources.
spring.mvc.throw-exception-if-no-handler-found=false # If a "NoHandlerFoundException" should be thrown if no Handler was found to process a request.
spring.mvc.view.prefix= # Spring MVC view prefix.
spring.mvc.view.suffix= # Spring MVC view suffix.

# SPRING RESOURCES HANDLING (ResourceProperties)
spring.resources.add-mappings=true # Enable default resource handling.
spring.resources.cache-period= # Cache period for the resources served by the resource handler, in seconds.
spring.resources.chain.cache=true # Enable caching in the Resource chain.
spring.resources.chain.enabled= # Enable the Spring Resource Handling chain. Disabled by default unless at least one strategy has been enabled.
spring.resources.chain.gzipped=false # Enable resolution of already gzipped resources.
spring.resources.chain.html-application-cache=false # Enable HTML5 application cache manifest rewriting.
spring.resources.chain.strategy.content.enabled=false # Enable the content Version Strategy.
spring.resources.chain.strategy.content.paths=/** # Comma-separated list of patterns to apply to the Version Strategy.
spring.resources.chain.strategy.fixed.enabled=false # Enable the fixed Version Strategy.
spring.resources.chain.strategy.fixed.paths=/** # Comma-separated list of patterns to apply to the Version Strategy.
spring.resources.chain.strategy.fixed.version= # Version string to use for the Version Strategy.
spring.resources.static-locations=classpath:/META-INF/resources/,classpath:/resources/,classpath:/static/,classpath:/public/ # Locations of static resources.

# SPRING SESSION (SessionProperties)
spring.session.hazelcast.flush-mode=on-save # Sessions flush mode.
spring.session.hazelcast.map-name=spring:session:sessions # Name of the map used to store sessions.
spring.session.jdbc.initializer.enabled= # Create the required session tables on startup if necessary. Enabled automatically if the default table name is set or a custom schema is configured.
spring.session.jdbc.schema=classpath:org/springframework/session/jdbc/schema-@@platform@@.sql # Path to the SQL file to use to initialize the database schema.
spring.session.jdbc.table-name=SPRING_SESSION # Name of database table used to store sessions.
spring.session.mongo.collection-name=sessions # Collection name used to store sessions.
spring.session.redis.flush-mode=on-save # Sessions flush mode.
spring.session.redis.namespace= # Namespace for keys used to store sessions.
spring.session.store-type= # Session store type.

# SPRING SOCIAL (SocialWebAutoConfiguration)
spring.social.auto-connection-views=false # Enable the connection status view for supported providers.

# SPRING SOCIAL FACEBOOK (FacebookAutoConfiguration)
spring.social.facebook.app-id= # your application's Facebook App ID
spring.social.facebook.app-secret= # your application's Facebook App Secret

# SPRING SOCIAL LINKEDIN (LinkedInAutoConfiguration)
spring.social.linkedin.app-id= # your application's LinkedIn App ID
spring.social.linkedin.app-secret= # your application's LinkedIn App Secret

# SPRING SOCIAL TWITTER (TwitterAutoConfiguration)
spring.social.twitter.app-id= # your application's Twitter App ID
spring.social.twitter.app-secret= # your application's Twitter App Secret

# THYMELEAF (ThymeleafAutoConfiguration)
spring.thymeleaf.cache=true # Enable template caching.
spring.thymeleaf.check-template=true # Check that the template exists before rendering it.
spring.thymeleaf.check-template-location=true # Check that the templates location exists.
spring.thymeleaf.content-type=text/html # Content-Type value.
spring.thymeleaf.enabled=true # Enable MVC Thymeleaf view resolution.
spring.thymeleaf.encoding=UTF-8 # Template encoding.
spring.thymeleaf.excluded-view-names= # Comma-separated list of view names that should be excluded from resolution.
spring.thymeleaf.mode=HTML5 # Template mode to be applied to templates. See also StandardTemplateModeHandlers.
spring.thymeleaf.prefix=classpath:/templates/ # Prefix that gets prepended to view names when building a URL.
spring.thymeleaf.suffix=.html # Suffix that gets appended to view names when building a URL.
spring.thymeleaf.template-resolver-order= # Order of the template resolver in the chain.
spring.thymeleaf.view-names= # Comma-separated list of view names that can be resolved.

# SPRING WEB SERVICES (WebServicesProperties)
spring.webservices.path=/services # Path that serves as the base URI for the services.
spring.webservices.servlet.init= # Servlet init parameters to pass to Spring Web Services.
spring.webservices.servlet.load-on-startup=-1 # Load on startup priority of the Spring Web Services servlet.

# ----------------------------------------
# SECURITY PROPERTIES
# ----------------------------------------
# SECURITY (SecurityProperties)
security.basic.authorize-mode=role # Security authorize mode to apply.
security.basic.enabled=true # Enable basic authentication.
security.basic.path=/** # Comma-separated list of paths to secure.
security.basic.realm=Spring # HTTP basic realm name.
security.enable-csrf=false # Enable Cross Site Request Forgery support.
security.filter-order=0 # Security filter chain order.
security.filter-dispatcher-types=ASYNC, FORWARD, INCLUDE, REQUEST # Security filter chain dispatcher types.
security.headers.cache=true # Enable cache control HTTP headers.
security.headers.content-security-policy= # Value for content security policy header.
security.headers.content-security-policy-mode=default # Content security policy mode.
security.headers.content-type=true # Enable "X-Content-Type-Options" header.
security.headers.frame=true # Enable "X-Frame-Options" header.
security.headers.hsts=all # HTTP Strict Transport Security (HSTS) mode (none, domain, all).
security.headers.xss=true # Enable cross site scripting (XSS) protection.
security.ignored= # Comma-separated list of paths to exclude from the default secured paths.
security.require-ssl=false # Enable secure channel for all requests.
security.sessions=stateless # Session creation policy (always, never, if_required, stateless).
security.user.name=user # Default user name.
security.user.password= # Password for the default user name. A random password is logged on startup by default.
security.user.role=USER # Granted roles for the default user name.

# SECURITY OAUTH2 CLIENT (OAuth2ClientProperties)
security.oauth2.client.client-id= # OAuth2 client id.
security.oauth2.client.client-secret= # OAuth2 client secret. A random secret is generated by default

# SECURITY OAUTH2 RESOURCES (ResourceServerProperties)
security.oauth2.resource.filter-order= # The order of the filter chain used to authenticate tokens.
security.oauth2.resource.id= # Identifier of the resource.
security.oauth2.resource.jwt.key-uri= # The URI of the JWT token. Can be set if the value is not available and the key is public.
security.oauth2.resource.jwt.key-value= # The verification key of the JWT token. Can either be a symmetric secret or PEM-encoded RSA public key.
security.oauth2.resource.prefer-token-info=true # Use the token info, can be set to false to use the user info.
security.oauth2.resource.service-id=resource #
security.oauth2.resource.token-info-uri= # URI of the token decoding endpoint.
security.oauth2.resource.token-type= # The token type to send when using the userInfoUri.
security.oauth2.resource.user-info-uri= # URI of the user endpoint.

# SECURITY OAUTH2 SSO (OAuth2SsoProperties)
security.oauth2.sso.filter-order= # Filter order to apply if not providing an explicit WebSecurityConfigurerAdapter
security.oauth2.sso.login-path=/login # Path to the login page, i.e. the one that triggers the redirect to the OAuth2 Authorization Server

# ----------------------------------------
# DATA PROPERTIES
# ----------------------------------------

# FLYWAY (FlywayProperties)
flyway.baseline-description= #
flyway.baseline-version=1 # version to start migration
flyway.baseline-on-migrate= #
flyway.check-location=false # Check that migration scripts location exists.
flyway.clean-on-validation-error= #
flyway.enabled=true # Enable flyway.
flyway.encoding= #
flyway.ignore-failed-future-migration= #
flyway.init-sqls= # SQL statements to execute to initialize a connection immediately after obtaining it.
flyway.locations=classpath:db/migration # locations of migrations scripts
flyway.out-of-order= #
flyway.password= # JDBC password if you want Flyway to create its own DataSource
flyway.placeholder-prefix= #
flyway.placeholder-replacement= #
flyway.placeholder-suffix= #
flyway.placeholders.*= #
flyway.schemas= # schemas to update
flyway.sql-migration-prefix=V #
flyway.sql-migration-separator= #
flyway.sql-migration-suffix=.sql #
flyway.table= #
flyway.url= # JDBC url of the database to migrate. If not set, the primary configured data source is used.
flyway.user= # Login user of the database to migrate.
flyway.validate-on-migrate= #

# LIQUIBASE (LiquibaseProperties)
liquibase.change-log=classpath:/db/changelog/db.changelog-master.yaml # Change log configuration path.
liquibase.check-change-log-location=true # Check the change log location exists.
liquibase.contexts= # Comma-separated list of runtime contexts to use.
liquibase.default-schema= # Default database schema.
liquibase.drop-first=false # Drop the database schema first.
liquibase.enabled=true # Enable liquibase support.
liquibase.labels= # Comma-separated list of runtime labels to use.
liquibase.parameters.*= # Change log parameters.
liquibase.password= # Login password of the database to migrate.
liquibase.rollback-file= # File to which rollback SQL will be written when an update is performed.
liquibase.url= # JDBC url of the database to migrate. If not set, the primary configured data source is used.
liquibase.user= # Login user of the database to migrate.

# COUCHBASE (CouchbaseProperties)
spring.couchbase.bootstrap-hosts= # Couchbase nodes (host or IP address) to bootstrap from.
spring.couchbase.bucket.name=default # Name of the bucket to connect to.
spring.couchbase.bucket.password= # Password of the bucket.
spring.couchbase.env.endpoints.key-value=1 # Number of sockets per node against the Key/value service.
spring.couchbase.env.endpoints.query=1 # Number of sockets per node against the Query (N1QL) service.
spring.couchbase.env.endpoints.view=1 # Number of sockets per node against the view service.
spring.couchbase.env.ssl.enabled= # Enable SSL support. Enabled automatically if a "keyStore" is provided unless specified otherwise.
spring.couchbase.env.ssl.key-store= # Path to the JVM key store that holds the certificates.
spring.couchbase.env.ssl.key-store-password= # Password used to access the key store.
spring.couchbase.env.timeouts.connect=5000 # Bucket connections timeout in milliseconds.
spring.couchbase.env.timeouts.key-value=2500 # Blocking operations performed on a specific key timeout in milliseconds.
spring.couchbase.env.timeouts.query=7500 # N1QL query operations timeout in milliseconds.
spring.couchbase.env.timeouts.socket-connect=1000 # Socket connect connections timeout in milliseconds.
spring.couchbase.env.timeouts.view=7500 # Regular and geospatial view operations timeout in milliseconds.

# DAO (PersistenceExceptionTranslationAutoConfiguration)
spring.dao.exceptiontranslation.enabled=true # Enable the PersistenceExceptionTranslationPostProcessor.

# CASSANDRA (CassandraProperties)
spring.data.cassandra.cluster-name= # Name of the Cassandra cluster.
spring.data.cassandra.compression=none # Compression supported by the Cassandra binary protocol.
spring.data.cassandra.connect-timeout-millis= # Socket option: connection time out.
spring.data.cassandra.consistency-level= # Queries consistency level.
spring.data.cassandra.contact-points=localhost # Comma-separated list of cluster node addresses.
spring.data.cassandra.fetch-size= # Queries default fetch size.
spring.data.cassandra.keyspace-name= # Keyspace name to use.
spring.data.cassandra.load-balancing-policy= # Class name of the load balancing policy.
spring.data.cassandra.port= # Port of the Cassandra server.
spring.data.cassandra.password= # Login password of the server.
spring.data.cassandra.read-timeout-millis= # Socket option: read time out.
spring.data.cassandra.reconnection-policy= # Reconnection policy class.
spring.data.cassandra.repositories.enabled= # Enable Cassandra repositories.
spring.data.cassandra.retry-policy= # Class name of the retry policy.
spring.data.cassandra.serial-consistency-level= # Queries serial consistency level.
spring.data.cassandra.schema-action=none # Schema action to take at startup.
spring.data.cassandra.ssl=false # Enable SSL support.
spring.data.cassandra.username= # Login user of the server.

# DATA COUCHBASE (CouchbaseDataProperties)
spring.data.couchbase.auto-index=false # Automatically create views and indexes.
spring.data.couchbase.consistency=read-your-own-writes # Consistency to apply by default on generated queries.
spring.data.couchbase.repositories.enabled=true # Enable Couchbase repositories.

# ELASTICSEARCH (ElasticsearchProperties)
spring.data.elasticsearch.cluster-name=elasticsearch # Elasticsearch cluster name.
spring.data.elasticsearch.cluster-nodes= # Comma-separated list of cluster node addresses. If not specified, starts a client node.
spring.data.elasticsearch.properties.*= # Additional properties used to configure the client.
spring.data.elasticsearch.repositories.enabled=true # Enable Elasticsearch repositories.

# DATA LDAP
spring.data.ldap.repositories.enabled=true # Enable LDAP repositories.

# MONGODB (MongoProperties)
spring.data.mongodb.authentication-database= # Authentication database name.
spring.data.mongodb.database=test # Database name.
spring.data.mongodb.field-naming-strategy= # Fully qualified name of the FieldNamingStrategy to use.
spring.data.mongodb.grid-fs-database= # GridFS database name.
spring.data.mongodb.host=localhost # Mongo server host. Cannot be set with uri.
spring.data.mongodb.password= # Login password of the mongo server. Cannot be set with uri.
spring.data.mongodb.port=27017 # Mongo server port. Cannot be set with uri.
spring.data.mongodb.repositories.enabled=true # Enable Mongo repositories.
spring.data.mongodb.uri=mongodb://localhost/test # Mongo database URI. Cannot be set with host, port and credentials.
spring.data.mongodb.username= # Login user of the mongo server. Cannot be set with uri.

# DATA REDIS
spring.data.redis.repositories.enabled=true # Enable Redis repositories.

# NEO4J (Neo4jProperties)
spring.data.neo4j.compiler= # Compiler to use.
spring.data.neo4j.embedded.enabled=true # Enable embedded mode if the embedded driver is available.
spring.data.neo4j.open-in-view=false # Register OpenSessionInViewInterceptor. Binds a Neo4j Session to the thread for the entire processing of the request.
spring.data.neo4j.password= # Login password of the server.
spring.data.neo4j.repositories.enabled=true # Enable Neo4j repositories.
spring.data.neo4j.uri= # URI used by the driver. Auto-detected by default.
spring.data.neo4j.username= # Login user of the server.

# DATA REST (RepositoryRestProperties)
spring.data.rest.base-path= # Base path to be used by Spring Data REST to expose repository resources.
spring.data.rest.default-page-size= # Default size of pages.
spring.data.rest.detection-strategy=default # Strategy to use to determine which repositories get exposed.
spring.data.rest.enable-enum-translation= # Enable enum value translation via the Spring Data REST default resource bundle.
spring.data.rest.limit-param-name= # Name of the URL query string parameter that indicates how many results to return at once.
spring.data.rest.max-page-size= # Maximum size of pages.
spring.data.rest.page-param-name= # Name of the URL query string parameter that indicates what page to return.
spring.data.rest.return-body-on-create= # Return a response body after creating an entity.
spring.data.rest.return-body-on-update= # Return a response body after updating an entity.
spring.data.rest.sort-param-name= # Name of the URL query string parameter that indicates what direction to sort results.

# SOLR (SolrProperties)
spring.data.solr.host=http://127.0.0.1:8983/solr # Solr host. Ignored if "zk-host" is set.
spring.data.solr.repositories.enabled=true # Enable Solr repositories.
spring.data.solr.zk-host= # ZooKeeper host address in the form HOST:PORT.

# DATASOURCE (DataSourceAutoConfiguration & DataSourceProperties)
spring.datasource.continue-on-error=false # Do not stop if an error occurs while initializing the database.
spring.datasource.data= # Data (DML) script resource references.
spring.datasource.data-username= # User of the database to execute DML scripts (if different).
spring.datasource.data-password= # Password of the database to execute DML scripts (if different).
spring.datasource.dbcp2.*= # Commons DBCP2 specific settings
spring.datasource.driver-class-name= # Fully qualified name of the JDBC driver. Auto-detected based on the URL by default.
spring.datasource.generate-unique-name=false # Generate a random datasource name.
spring.datasource.hikari.*= # Hikari specific settings
spring.datasource.initialize=true # Populate the database using 'data.sql'.
spring.datasource.jmx-enabled=false # Enable JMX support (if provided by the underlying pool).
spring.datasource.jndi-name= # JNDI location of the datasource. Class, url, username & password are ignored when set.
spring.datasource.name=testdb # Name of the datasource.
spring.datasource.password= # Login password of the database.
spring.datasource.platform=all # Platform to use in the schema resource (schema-${platform}.sql).
spring.datasource.schema= # Schema (DDL) script resource references.
spring.datasource.schema-username= # User of the database to execute DDL scripts (if different).
spring.datasource.schema-password= # Password of the database to execute DDL scripts (if different).
spring.datasource.separator=; # Statement separator in SQL initialization scripts.
spring.datasource.sql-script-encoding= # SQL scripts encoding.
spring.datasource.tomcat.*= # Tomcat datasource specific settings
spring.datasource.type= # Fully qualified name of the connection pool implementation to use. By default, it is auto-detected from the classpath.
spring.datasource.url= # JDBC url of the database.
spring.datasource.username= # Login user of the database.
spring.datasource.xa.data-source-class-name= # XA datasource fully qualified name.
spring.datasource.xa.properties= # Properties to pass to the XA data source.

# JEST (Elasticsearch HTTP client) (JestProperties)
spring.elasticsearch.jest.connection-timeout=3000 # Connection timeout in milliseconds.
spring.elasticsearch.jest.multi-threaded=true # Enable connection requests from multiple execution threads.
spring.elasticsearch.jest.password= # Login password.
spring.elasticsearch.jest.proxy.host= # Proxy host the HTTP client should use.
spring.elasticsearch.jest.proxy.port= # Proxy port the HTTP client should use.
spring.elasticsearch.jest.read-timeout=3000 # Read timeout in milliseconds.
spring.elasticsearch.jest.uris=http://localhost:9200 # Comma-separated list of the Elasticsearch instances to use.
spring.elasticsearch.jest.username= # Login user.

# H2 Web Console (H2ConsoleProperties)
spring.h2.console.enabled=false # Enable the console.
spring.h2.console.path=/h2-console # Path at which the console will be available.
spring.h2.console.settings.trace=false # Enable trace output.
spring.h2.console.settings.web-allow-others=false # Enable remote access.

# JOOQ (JooqAutoConfiguration)
spring.jooq.sql-dialect= # SQLDialect JOOQ used when communicating with the configured datasource. For instance `POSTGRES`

# JPA (JpaBaseConfiguration, HibernateJpaAutoConfiguration)
spring.data.jpa.repositories.enabled=true # Enable JPA repositories.
spring.jpa.database= # Target database to operate on, auto-detected by default. Can be alternatively set using the "databasePlatform" property.
spring.jpa.database-platform= # Name of the target database to operate on, auto-detected by default. Can be alternatively set using the "Database" enum.
spring.jpa.generate-ddl=false # Initialize the schema on startup.
spring.jpa.hibernate.ddl-auto= # DDL mode. This is actually a shortcut for the "hibernate.hbm2ddl.auto" property. Default to "create-drop" when using an embedded database, "none" otherwise.
spring.jpa.hibernate.naming.implicit-strategy= # Hibernate 5 implicit naming strategy fully qualified name.
spring.jpa.hibernate.naming.physical-strategy= # Hibernate 5 physical naming strategy fully qualified name.
spring.jpa.hibernate.naming.strategy= # Hibernate 4 naming strategy fully qualified name. Not supported with Hibernate 5.
spring.jpa.hibernate.use-new-id-generator-mappings= # Use Hibernate's newer IdentifierGenerator for AUTO, TABLE and SEQUENCE.
spring.jpa.open-in-view=true # Register OpenEntityManagerInViewInterceptor. Binds a JPA EntityManager to the thread for the entire processing of the request.
spring.jpa.properties.*= # Additional native properties to set on the JPA provider.
spring.jpa.show-sql=false # Enable logging of SQL statements.

# JTA (JtaAutoConfiguration)
spring.jta.enabled=true # Enable JTA support.
spring.jta.log-dir= # Transaction logs directory.
spring.jta.transaction-manager-id= # Transaction manager unique identifier.

# ATOMIKOS (AtomikosProperties)
spring.jta.atomikos.connectionfactory.borrow-connection-timeout=30 # Timeout, in seconds, for borrowing connections from the pool.
spring.jta.atomikos.connectionfactory.ignore-session-transacted-flag=true # Whether or not to ignore the transacted flag when creating session.
spring.jta.atomikos.connectionfactory.local-transaction-mode=false # Whether or not local transactions are desired.
spring.jta.atomikos.connectionfactory.maintenance-interval=60 # The time, in seconds, between runs of the pool's maintenance thread.
spring.jta.atomikos.connectionfactory.max-idle-time=60 # The time, in seconds, after which connections are cleaned up from the pool.
spring.jta.atomikos.connectionfactory.max-lifetime=0 # The time, in seconds, that a connection can be pooled for before being destroyed. 0 denotes no limit.
spring.jta.atomikos.connectionfactory.max-pool-size=1 # The maximum size of the pool.
spring.jta.atomikos.connectionfactory.min-pool-size=1 # The minimum size of the pool.
spring.jta.atomikos.connectionfactory.reap-timeout=0 # The reap timeout, in seconds, for borrowed connections. 0 denotes no limit.
spring.jta.atomikos.connectionfactory.unique-resource-name=jmsConnectionFactory # The unique name used to identify the resource during recovery.
spring.jta.atomikos.datasource.borrow-connection-timeout=30 # Timeout, in seconds, for borrowing connections from the pool.
spring.jta.atomikos.datasource.default-isolation-level= # Default isolation level of connections provided by the pool.
spring.jta.atomikos.datasource.login-timeout= # Timeout, in seconds, for establishing a database connection.
spring.jta.atomikos.datasource.maintenance-interval=60 # The time, in seconds, between runs of the pool's maintenance thread.
spring.jta.atomikos.datasource.max-idle-time=60 # The time, in seconds, after which connections are cleaned up from the pool.
spring.jta.atomikos.datasource.max-lifetime=0 # The time, in seconds, that a connection can be pooled for before being destroyed. 0 denotes no limit.
spring.jta.atomikos.datasource.max-pool-size=1 # The maximum size of the pool.
spring.jta.atomikos.datasource.min-pool-size=1 # The minimum size of the pool.
spring.jta.atomikos.datasource.reap-timeout=0 # The reap timeout, in seconds, for borrowed connections. 0 denotes no limit.
spring.jta.atomikos.datasource.test-query= # SQL query or statement used to validate a connection before returning it.
spring.jta.atomikos.datasource.unique-resource-name=dataSource # The unique name used to identify the resource during recovery.
spring.jta.atomikos.properties.checkpoint-interval=500 # Interval between checkpoints.
spring.jta.atomikos.properties.default-jta-timeout=10000 # Default timeout for JTA transactions.
spring.jta.atomikos.properties.enable-logging=true # Enable disk logging.
spring.jta.atomikos.properties.force-shutdown-on-vm-exit=false # Specify if a VM shutdown should trigger forced shutdown of the transaction core.
spring.jta.atomikos.properties.log-base-dir= # Directory in which the log files should be stored.
spring.jta.atomikos.properties.log-base-name=tmlog # Transactions log file base name.
spring.jta.atomikos.properties.max-actives=50 # Maximum number of active transactions.
spring.jta.atomikos.properties.max-timeout=300000 # Maximum timeout (in milliseconds) that can be allowed for transactions.
spring.jta.atomikos.properties.serial-jta-transactions=true # Specify if sub-transactions should be joined when possible.
spring.jta.atomikos.properties.service= # Transaction manager implementation that should be started.
spring.jta.atomikos.properties.threaded-two-phase-commit=false # Use different (and concurrent) threads for two-phase commit on the participating resources.
spring.jta.atomikos.properties.transaction-manager-unique-name= # Transaction manager's unique name.

# BITRONIX
spring.jta.bitronix.connectionfactory.acquire-increment=1 # Number of connections to create when growing the pool.
spring.jta.bitronix.connectionfactory.acquisition-interval=1 # Time, in seconds, to wait before trying to acquire a connection again after an invalid connection was acquired.
spring.jta.bitronix.connectionfactory.acquisition-timeout=30 # Timeout, in seconds, for acquiring connections from the pool.
spring.jta.bitronix.connectionfactory.allow-local-transactions=true # Whether or not the transaction manager should allow mixing XA and non-XA transactions.
spring.jta.bitronix.connectionfactory.apply-transaction-timeout=false # Whether or not the transaction timeout should be set on the XAResource when it is enlisted.
spring.jta.bitronix.connectionfactory.automatic-enlisting-enabled=true # Whether or not resources should be enlisted and delisted automatically.
spring.jta.bitronix.connectionfactory.cache-producers-consumers=true # Whether or not produces and consumers should be cached.
spring.jta.bitronix.connectionfactory.defer-connection-release=true # Whether or not the provider can run many transactions on the same connection and supports transaction interleaving.
spring.jta.bitronix.connectionfactory.ignore-recovery-failures=false # Whether or not recovery failures should be ignored.
spring.jta.bitronix.connectionfactory.max-idle-time=60 # The time, in seconds, after which connections are cleaned up from the pool.
spring.jta.bitronix.connectionfactory.max-pool-size=10 # The maximum size of the pool. 0 denotes no limit.
spring.jta.bitronix.connectionfactory.min-pool-size=0 # The minimum size of the pool.
spring.jta.bitronix.connectionfactory.password= # The password to use to connect to the JMS provider.
spring.jta.bitronix.connectionfactory.share-transaction-connections=false # Whether or not connections in the ACCESSIBLE state can be shared within the context of a transaction.
spring.jta.bitronix.connectionfactory.test-connections=true # Whether or not connections should be tested when acquired from the pool.
spring.jta.bitronix.connectionfactory.two-pc-ordering-position=1 # The position that this resource should take during two-phase commit (always first is Integer.MIN_VALUE, always last is Integer.MAX_VALUE).
spring.jta.bitronix.connectionfactory.unique-name=jmsConnectionFactory # The unique name used to identify the resource during recovery.
spring.jta.bitronix.connectionfactory.use-tm-join=true Whether or not TMJOIN should be used when starting XAResources.
spring.jta.bitronix.connectionfactory.user= # The user to use to connect to the JMS provider.
spring.jta.bitronix.datasource.acquire-increment=1 # Number of connections to create when growing the pool.
spring.jta.bitronix.datasource.acquisition-interval=1 # Time, in seconds, to wait before trying to acquire a connection again after an invalid connection was acquired.
spring.jta.bitronix.datasource.acquisition-timeout=30 # Timeout, in seconds, for acquiring connections from the pool.
spring.jta.bitronix.datasource.allow-local-transactions=true # Whether or not the transaction manager should allow mixing XA and non-XA transactions.
spring.jta.bitronix.datasource.apply-transaction-timeout=false # Whether or not the transaction timeout should be set on the XAResource when it is enlisted.
spring.jta.bitronix.datasource.automatic-enlisting-enabled=true # Whether or not resources should be enlisted and delisted automatically.
spring.jta.bitronix.datasource.cursor-holdability= # The default cursor holdability for connections.
spring.jta.bitronix.datasource.defer-connection-release=true # Whether or not the database can run many transactions on the same connection and supports transaction interleaving.
spring.jta.bitronix.datasource.enable-jdbc4-connection-test= # Whether or not Connection.isValid() is called when acquiring a connection from the pool.
spring.jta.bitronix.datasource.ignore-recovery-failures=false # Whether or not recovery failures should be ignored.
spring.jta.bitronix.datasource.isolation-level= # The default isolation level for connections.
spring.jta.bitronix.datasource.local-auto-commit= # The default auto-commit mode for local transactions.
spring.jta.bitronix.datasource.login-timeout= # Timeout, in seconds, for establishing a database connection.
spring.jta.bitronix.datasource.max-idle-time=60 # The time, in seconds, after which connections are cleaned up from the pool.
spring.jta.bitronix.datasource.max-pool-size=10 # The maximum size of the pool. 0 denotes no limit.
spring.jta.bitronix.datasource.min-pool-size=0 # The minimum size of the pool.
spring.jta.bitronix.datasource.prepared-statement-cache-size=0 # The target size of the prepared statement cache. 0 disables the cache.
spring.jta.bitronix.datasource.share-transaction-connections=false # Whether or not connections in the ACCESSIBLE state can be shared within the context of a transaction.
spring.jta.bitronix.datasource.test-query= # SQL query or statement used to validate a connection before returning it.
spring.jta.bitronix.datasource.two-pc-ordering-position=1 # The position that this resource should take during two-phase commit (always first is Integer.MIN_VALUE, always last is Integer.MAX_VALUE).
spring.jta.bitronix.datasource.unique-name=dataSource # The unique name used to identify the resource during recovery.
spring.jta.bitronix.datasource.use-tm-join=true Whether or not TMJOIN should be used when starting XAResources.
spring.jta.bitronix.properties.allow-multiple-lrc=false # Allow multiple LRC resources to be enlisted into the same transaction.
spring.jta.bitronix.properties.asynchronous2-pc=false # Enable asynchronously execution of two phase commit.
spring.jta.bitronix.properties.background-recovery-interval-seconds=60 # Interval in seconds at which to run the recovery process in the background.
spring.jta.bitronix.properties.current-node-only-recovery=true # Recover only the current node.
spring.jta.bitronix.properties.debug-zero-resource-transaction=false # Log the creation and commit call stacks of transactions executed without a single enlisted resource.
spring.jta.bitronix.properties.default-transaction-timeout=60 # Default transaction timeout in seconds.
spring.jta.bitronix.properties.disable-jmx=false # Enable JMX support.
spring.jta.bitronix.properties.exception-analyzer= # Set the fully qualified name of the exception analyzer implementation to use.
spring.jta.bitronix.properties.filter-log-status=false # Enable filtering of logs so that only mandatory logs are written.
spring.jta.bitronix.properties.force-batching-enabled=true # Set if disk forces are batched.
spring.jta.bitronix.properties.forced-write-enabled=true # Set if logs are forced to disk.
spring.jta.bitronix.properties.graceful-shutdown-interval=60 # Maximum amount of seconds the TM will wait for transactions to get done before aborting them at shutdown time.
spring.jta.bitronix.properties.jndi-transaction-synchronization-registry-name= # JNDI name of the TransactionSynchronizationRegistry.
spring.jta.bitronix.properties.jndi-user-transaction-name= # JNDI name of the UserTransaction.
spring.jta.bitronix.properties.journal=disk # Name of the journal. Can be 'disk', 'null' or a class name.
spring.jta.bitronix.properties.log-part1-filename=btm1.tlog # Name of the first fragment of the journal.
spring.jta.bitronix.properties.log-part2-filename=btm2.tlog # Name of the second fragment of the journal.
spring.jta.bitronix.properties.max-log-size-in-mb=2 # Maximum size in megabytes of the journal fragments.
spring.jta.bitronix.properties.resource-configuration-filename= # ResourceLoader configuration file name.
spring.jta.bitronix.properties.server-id= # ASCII ID that must uniquely identify this TM instance. Default to the machine's IP address.
spring.jta.bitronix.properties.skip-corrupted-logs=false # Skip corrupted transactions log entries.
spring.jta.bitronix.properties.warn-about-zero-resource-transaction=true # Log a warning for transactions executed without a single enlisted resource.

# NARAYANA (NarayanaProperties)
spring.jta.narayana.default-timeout=60 # Transaction timeout in seconds.
spring.jta.narayana.expiry-scanners=com.arjuna.ats.internal.arjuna.recovery.ExpiredTransactionStatusManagerScanner # Comma-separated list of expiry scanners.
spring.jta.narayana.log-dir= # Transaction object store directory.
spring.jta.narayana.one-phase-commit=true # Enable one phase commit optimisation.
spring.jta.narayana.periodic-recovery-period=120 # Interval in which periodic recovery scans are performed in seconds.
spring.jta.narayana.recovery-backoff-period=10 # Back off period between first and second phases of the recovery scan in seconds.
spring.jta.narayana.recovery-db-pass= # Database password to be used by recovery manager.
spring.jta.narayana.recovery-db-user= # Database username to be used by recovery manager.
spring.jta.narayana.recovery-jms-pass= # JMS password to be used by recovery manager.
spring.jta.narayana.recovery-jms-user= # JMS username to be used by recovery manager.
spring.jta.narayana.recovery-modules= # Comma-separated list of recovery modules.
spring.jta.narayana.transaction-manager-id=1 # Unique transaction manager id.
spring.jta.narayana.xa-resource-orphan-filters= # Comma-separated list of orphan filters.

# EMBEDDED MONGODB (EmbeddedMongoProperties)
spring.mongodb.embedded.features=SYNC_DELAY # Comma-separated list of features to enable.
spring.mongodb.embedded.storage.database-dir= # Directory used for data storage.
spring.mongodb.embedded.storage.oplog-size= # Maximum size of the oplog in megabytes.
spring.mongodb.embedded.storage.repl-set-name= # Name of the replica set.
spring.mongodb.embedded.version=2.6.10 # Version of Mongo to use.

# REDIS (RedisProperties)
spring.redis.cluster.max-redirects= # Maximum number of redirects to follow when executing commands across the cluster.
spring.redis.cluster.nodes= # Comma-separated list of "host:port" pairs to bootstrap from.
spring.redis.database=0 # Database index used by the connection factory.
spring.redis.url= # Connection URL, will override host, port and password (user will be ignored), e.g. redis://user:password@example.com:6379
spring.redis.host=localhost # Redis server host.
spring.redis.password= # Login password of the redis server.
spring.redis.ssl=false # Enable SSL support.
spring.redis.pool.max-active=8 # Max number of connections that can be allocated by the pool at a given time. Use a negative value for no limit.
spring.redis.pool.max-idle=8 # Max number of "idle" connections in the pool. Use a negative value to indicate an unlimited number of idle connections.
spring.redis.pool.max-wait=-1 # Maximum amount of time (in milliseconds) a connection allocation should block before throwing an exception when the pool is exhausted. Use a negative value to block indefinitely.
spring.redis.pool.min-idle=0 # Target for the minimum number of idle connections to maintain in the pool. This setting only has an effect if it is positive.
spring.redis.port=6379 # Redis server port.
spring.redis.sentinel.master= # Name of Redis server.
spring.redis.sentinel.nodes= # Comma-separated list of host:port pairs.
spring.redis.timeout=0 # Connection timeout in milliseconds.

# TRANSACTION (TransactionProperties)
spring.transaction.default-timeout= # Default transaction timeout in seconds.
spring.transaction.rollback-on-commit-failure= # Perform the rollback on commit failures.

# ----------------------------------------
# INTEGRATION PROPERTIES
# ----------------------------------------

# ACTIVEMQ (ActiveMQProperties)
spring.activemq.broker-url= # URL of the ActiveMQ broker. Auto-generated by default. For instance `tcp://localhost:61616`
spring.activemq.in-memory=true # Specify if the default broker URL should be in memory. Ignored if an explicit broker has been specified.
spring.activemq.password= # Login password of the broker.
spring.activemq.user= # Login user of the broker.
spring.activemq.packages.trust-all=false # Trust all packages.
spring.activemq.packages.trusted= # Comma-separated list of specific packages to trust (when not trusting all packages).
spring.activemq.pool.configuration.*= # See PooledConnectionFactory.
spring.activemq.pool.enabled=false # Whether a PooledConnectionFactory should be created instead of a regular ConnectionFactory.
spring.activemq.pool.expiry-timeout=0 # Connection expiration timeout in milliseconds.
spring.activemq.pool.idle-timeout=30000 # Connection idle timeout in milliseconds.
spring.activemq.pool.max-connections=1 # Maximum number of pooled connections.

# ARTEMIS (ArtemisProperties)
spring.artemis.embedded.cluster-password= # Cluster password. Randomly generated on startup by default.
spring.artemis.embedded.data-directory= # Journal file directory. Not necessary if persistence is turned off.
spring.artemis.embedded.enabled=true # Enable embedded mode if the Artemis server APIs are available.
spring.artemis.embedded.persistent=false # Enable persistent store.
spring.artemis.embedded.queues= # Comma-separated list of queues to create on startup.
spring.artemis.embedded.server-id= # Server id. By default, an auto-incremented counter is used.
spring.artemis.embedded.topics= # Comma-separated list of topics to create on startup.
spring.artemis.host=localhost # Artemis broker host.
spring.artemis.mode= # Artemis deployment mode, auto-detected by default.
spring.artemis.password= # Login password of the broker.
spring.artemis.port=61616 # Artemis broker port.
spring.artemis.user= # Login user of the broker.

# SPRING BATCH (BatchProperties)
spring.batch.initializer.enabled= # Create the required batch tables on startup if necessary. Enabled automatically if no custom table prefix is set or if a custom schema is configured.
spring.batch.job.enabled=true # Execute all Spring Batch jobs in the context on startup.
spring.batch.job.names= # Comma-separated list of job names to execute on startup (For instance `job1,job2`). By default, all Jobs found in the context are executed.
spring.batch.schema=classpath:org/springframework/batch/core/schema-@@platform@@.sql # Path to the SQL file to use to initialize the database schema.
spring.batch.table-prefix= # Table prefix for all the batch meta-data tables.

# JMS (JmsProperties)
spring.jms.jndi-name= # Connection factory JNDI name. When set, takes precedence to others connection factory auto-configurations.
spring.jms.listener.acknowledge-mode= # Acknowledge mode of the container. By default, the listener is transacted with automatic acknowledgment.
spring.jms.listener.auto-startup=true # Start the container automatically on startup.
spring.jms.listener.concurrency= # Minimum number of concurrent consumers.
spring.jms.listener.max-concurrency= # Maximum number of concurrent consumers.
spring.jms.pub-sub-domain=false # Specify if the default destination type is topic.
spring.jms.template.default-destination= # Default destination to use on send/receive operations that do not have a destination parameter.
spring.jms.template.delivery-delay= # Delivery delay to use for send calls in milliseconds.
spring.jms.template.delivery-mode= # Delivery mode. Enable QoS when set.
spring.jms.template.priority= # Priority of a message when sending. Enable QoS when set.
spring.jms.template.qos-enabled= # Enable explicit QoS when sending a message.
spring.jms.template.receive-timeout= # Timeout to use for receive calls in milliseconds.
spring.jms.template.time-to-live= # Time-to-live of a message when sending in milliseconds. Enable QoS when set.

# APACHE KAFKA (KafkaProperties)
spring.kafka.bootstrap-servers= # Comma-delimited list of host:port pairs to use for establishing the initial connection to the Kafka cluster.
spring.kafka.client-id= # Id to pass to the server when making requests; used for server-side logging.
spring.kafka.consumer.auto-commit-interval= # Frequency in milliseconds that the consumer offsets are auto-committed to Kafka if 'enable.auto.commit' true.
spring.kafka.consumer.auto-offset-reset= # What to do when there is no initial offset in Kafka or if the current offset does not exist any more on the server.
spring.kafka.consumer.bootstrap-servers= # Comma-delimited list of host:port pairs to use for establishing the initial connection to the Kafka cluster.
spring.kafka.consumer.client-id= # Id to pass to the server when making requests; used for server-side logging.
spring.kafka.consumer.enable-auto-commit= # If true the consumer's offset will be periodically committed in the background.
spring.kafka.consumer.fetch-max-wait= # Maximum amount of time in milliseconds the server will block before answering the fetch request if there isn't sufficient data to immediately satisfy the requirement given by "fetch.min.bytes".
spring.kafka.consumer.fetch-min-size= # Minimum amount of data the server should return for a fetch request in bytes.
spring.kafka.consumer.group-id= # Unique string that identifies the consumer group this consumer belongs to.
spring.kafka.consumer.heartbeat-interval= # Expected time in milliseconds between heartbeats to the consumer coordinator.
spring.kafka.consumer.key-deserializer= # Deserializer class for keys.
spring.kafka.consumer.max-poll-records= # Maximum number of records returned in a single call to poll().
spring.kafka.consumer.value-deserializer= # Deserializer class for values.
spring.kafka.listener.ack-count= # Number of records between offset commits when ackMode is "COUNT" or "COUNT_TIME".
spring.kafka.listener.ack-mode= # Listener AckMode; see the spring-kafka documentation.
spring.kafka.listener.ack-time= # Time in milliseconds between offset commits when ackMode is "TIME" or "COUNT_TIME".
spring.kafka.listener.concurrency= # Number of threads to run in the listener containers.
spring.kafka.listener.poll-timeout= # Timeout in milliseconds to use when polling the consumer.
spring.kafka.producer.acks= # Number of acknowledgments the producer requires the leader to have received before considering a request complete.
spring.kafka.producer.batch-size= # Number of records to batch before sending.
spring.kafka.producer.bootstrap-servers= # Comma-delimited list of host:port pairs to use for establishing the initial connection to the Kafka cluster.
spring.kafka.producer.buffer-memory= # Total bytes of memory the producer can use to buffer records waiting to be sent to the server.
spring.kafka.producer.client-id= # Id to pass to the server when making requests; used for server-side logging.
spring.kafka.producer.compression-type= # Compression type for all data generated by the producer.
spring.kafka.producer.key-serializer= # Serializer class for keys.
spring.kafka.producer.retries= # When greater than zero, enables retrying of failed sends.
spring.kafka.producer.value-serializer= # Serializer class for values.
spring.kafka.properties.*= # Additional properties used to configure the client.
spring.kafka.ssl.key-password= # Password of the private key in the key store file.
spring.kafka.ssl.keystore-location= # Location of the key store file.
spring.kafka.ssl.keystore-password= # Store password for the key store file.
spring.kafka.ssl.truststore-location= # Location of the trust store file.
spring.kafka.ssl.truststore-password= # Store password for the trust store file.
spring.kafka.template.default-topic= # Default topic to which messages will be sent.

# RABBIT (RabbitProperties)
spring.rabbitmq.addresses= # Comma-separated list of addresses to which the client should connect.
spring.rabbitmq.cache.channel.checkout-timeout= # Number of milliseconds to wait to obtain a channel if the cache size has been reached.
spring.rabbitmq.cache.channel.size= # Number of channels to retain in the cache.
spring.rabbitmq.cache.connection.mode=channel # Connection factory cache mode.
spring.rabbitmq.cache.connection.size= # Number of connections to cache.
spring.rabbitmq.connection-timeout= # Connection timeout, in milliseconds; zero for infinite.
spring.rabbitmq.dynamic=true # Create an AmqpAdmin bean.
spring.rabbitmq.host=localhost # RabbitMQ host.
spring.rabbitmq.listener.simple.acknowledge-mode= # Acknowledge mode of container.
spring.rabbitmq.listener.simple.auto-startup=true # Start the container automatically on startup.
spring.rabbitmq.listener.simple.concurrency= # Minimum number of consumers.
spring.rabbitmq.listener.simple.default-requeue-rejected= # Whether or not to requeue delivery failures; default `true`.
spring.rabbitmq.listener.simple.idle-event-interval= # How often idle container events should be published in milliseconds.
spring.rabbitmq.listener.simple.max-concurrency= # Maximum number of consumers.
spring.rabbitmq.listener.simple.prefetch= # Number of messages to be handled in a single request. It should be greater than or equal to the transaction size (if used).
spring.rabbitmq.listener.simple.retry.enabled=false # Whether or not publishing retries are enabled.
spring.rabbitmq.listener.simple.retry.initial-interval=1000 # Interval between the first and second attempt to deliver a message.
spring.rabbitmq.listener.simple.retry.max-attempts=3 # Maximum number of attempts to deliver a message.
spring.rabbitmq.listener.simple.retry.max-interval=10000 # Maximum interval between attempts.
spring.rabbitmq.listener.simple.retry.multiplier=1.0 # A multiplier to apply to the previous delivery retry interval.
spring.rabbitmq.listener.simple.retry.stateless=true # Whether or not retry is stateless or stateful.
spring.rabbitmq.listener.simple.transaction-size= # Number of messages to be processed in a transaction. For best results it should be less than or equal to the prefetch count.
spring.rabbitmq.password= # Login to authenticate against the broker.
spring.rabbitmq.port=5672 # RabbitMQ port.
spring.rabbitmq.publisher-confirms=false # Enable publisher confirms.
spring.rabbitmq.publisher-returns=false # Enable publisher returns.
spring.rabbitmq.requested-heartbeat= # Requested heartbeat timeout, in seconds; zero for none.
spring.rabbitmq.ssl.enabled=false # Enable SSL support.
spring.rabbitmq.ssl.key-store= # Path to the key store that holds the SSL certificate.
spring.rabbitmq.ssl.key-store-password= # Password used to access the key store.
spring.rabbitmq.ssl.trust-store= # Trust store that holds SSL certificates.
spring.rabbitmq.ssl.trust-store-password= # Password used to access the trust store.
spring.rabbitmq.ssl.algorithm= # SSL algorithm to use. By default configure by the rabbit client library.
spring.rabbitmq.template.mandatory=false # Enable mandatory messages.
spring.rabbitmq.template.receive-timeout=0 # Timeout for `receive()` methods.
spring.rabbitmq.template.reply-timeout=5000 # Timeout for `sendAndReceive()` methods.
spring.rabbitmq.template.retry.enabled=false # Set to true to enable retries in the `RabbitTemplate`.
spring.rabbitmq.template.retry.initial-interval=1000 # Interval between the first and second attempt to publish a message.
spring.rabbitmq.template.retry.max-attempts=3 # Maximum number of attempts to publish a message.
spring.rabbitmq.template.retry.max-interval=10000 # Maximum number of attempts to publish a message.
spring.rabbitmq.template.retry.multiplier=1.0 # A multiplier to apply to the previous publishing retry interval.
spring.rabbitmq.username= # Login user to authenticate to the broker.
spring.rabbitmq.virtual-host= # Virtual host to use when connecting to the broker.

# ----------------------------------------
# ACTUATOR PROPERTIES
# ----------------------------------------

# ENDPOINTS (AbstractEndpoint subclasses)
endpoints.enabled=true # Enable endpoints.
endpoints.sensitive= # Default endpoint sensitive setting.
endpoints.actuator.enabled=true # Enable the endpoint.
endpoints.actuator.path= # Endpoint URL path.
endpoints.actuator.sensitive=false # Enable security on the endpoint.
endpoints.auditevents.enabled= # Enable the endpoint.
endpoints.auditevents.path= # Endpoint path.
endpoints.auditevents.sensitive=false # Enable security on the endpoint.
endpoints.autoconfig.enabled= # Enable the endpoint.
endpoints.autoconfig.id= # Endpoint identifier.
endpoints.autoconfig.path= # Endpoint path.
endpoints.autoconfig.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.beans.enabled= # Enable the endpoint.
endpoints.beans.id= # Endpoint identifier.
endpoints.beans.path= # Endpoint path.
endpoints.beans.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.configprops.enabled= # Enable the endpoint.
endpoints.configprops.id= # Endpoint identifier.
endpoints.configprops.keys-to-sanitize=password,secret,key,token,.*credentials.*,vcap_services # Keys that should be sanitized. Keys can be simple strings that the property ends with or regex expressions.
endpoints.configprops.path= # Endpoint path.
endpoints.configprops.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.docs.curies.enabled=false # Enable the curie generation.
endpoints.docs.enabled=true # Enable actuator docs endpoint.
endpoints.docs.path=/docs #
endpoints.docs.sensitive=false #
endpoints.dump.enabled= # Enable the endpoint.
endpoints.dump.id= # Endpoint identifier.
endpoints.dump.path= # Endpoint path.
endpoints.dump.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.env.enabled= # Enable the endpoint.
endpoints.env.id= # Endpoint identifier.
endpoints.env.keys-to-sanitize=password,secret,key,token,.*credentials.*,vcap_services # Keys that should be sanitized. Keys can be simple strings that the property ends with or regex expressions.
endpoints.env.path= # Endpoint path.
endpoints.env.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.flyway.enabled= # Enable the endpoint.
endpoints.flyway.id= # Endpoint identifier.
endpoints.flyway.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.health.enabled= # Enable the endpoint.
endpoints.health.id= # Endpoint identifier.
endpoints.health.mapping.*= # Mapping of health statuses to HttpStatus codes. By default, registered health statuses map to sensible defaults (i.e. UP maps to 200).
endpoints.health.path= # Endpoint path.
endpoints.health.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.health.time-to-live=1000 # Time to live for cached result, in milliseconds.
endpoints.heapdump.enabled= # Enable the endpoint.
endpoints.heapdump.path= # Endpoint path.
endpoints.heapdump.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.hypermedia.enabled=false # Enable hypermedia support for endpoints.
endpoints.info.enabled= # Enable the endpoint.
endpoints.info.id= # Endpoint identifier.
endpoints.info.path= # Endpoint path.
endpoints.info.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.jolokia.enabled=true # Enable Jolokia endpoint.
endpoints.jolokia.path=/jolokia # Endpoint URL path.
endpoints.jolokia.sensitive=true # Enable security on the endpoint.
endpoints.liquibase.enabled= # Enable the endpoint.
endpoints.liquibase.id= # Endpoint identifier.
endpoints.liquibase.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.logfile.enabled=true # Enable the endpoint.
endpoints.logfile.external-file= # External Logfile to be accessed.
endpoints.logfile.path=/logfile # Endpoint URL path.
endpoints.logfile.sensitive=true # Enable security on the endpoint.
endpoints.loggers.enabled=true # Enable the endpoint.
endpoints.loggers.id= # Endpoint identifier.
endpoints.loggers.path=/logfile # Endpoint path.
endpoints.loggers.sensitive=true # Mark if the endpoint exposes sensitive information.
endpoints.mappings.enabled= # Enable the endpoint.
endpoints.mappings.id= # Endpoint identifier.
endpoints.mappings.path= # Endpoint path.
endpoints.mappings.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.metrics.enabled= # Enable the endpoint.
endpoints.metrics.filter.enabled=true # Enable the metrics servlet filter.
endpoints.metrics.filter.gauge-submissions=merged # Http filter gauge submissions (merged, per-http-method)
endpoints.metrics.filter.counter-submissions=merged # Http filter counter submissions (merged, per-http-method)
endpoints.metrics.id= # Endpoint identifier.
endpoints.metrics.path= # Endpoint path.
endpoints.metrics.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.shutdown.enabled= # Enable the endpoint.
endpoints.shutdown.id= # Endpoint identifier.
endpoints.shutdown.path= # Endpoint path.
endpoints.shutdown.sensitive= # Mark if the endpoint exposes sensitive information.
endpoints.trace.enabled= # Enable the endpoint.
endpoints.trace.filter.enabled=true # Enable the trace servlet filter.
endpoints.trace.id= # Endpoint identifier.
endpoints.trace.path= # Endpoint path.
endpoints.trace.sensitive= # Mark if the endpoint exposes sensitive information.

# ENDPOINTS CORS CONFIGURATION (EndpointCorsProperties)
endpoints.cors.allow-credentials= # Set whether credentials are supported. When not set, credentials are not supported.
endpoints.cors.allowed-headers= # Comma-separated list of headers to allow in a request. '*' allows all headers.
endpoints.cors.allowed-methods=GET # Comma-separated list of methods to allow. '*' allows all methods.
endpoints.cors.allowed-origins= # Comma-separated list of origins to allow. '*' allows all origins. When not set, CORS support is disabled.
endpoints.cors.exposed-headers= # Comma-separated list of headers to include in a response.
endpoints.cors.max-age=1800 # How long, in seconds, the response from a pre-flight request can be cached by clients.

# JMX ENDPOINT (EndpointMBeanExportProperties)
endpoints.jmx.domain= # JMX domain name. Initialized with the value of 'spring.jmx.default-domain' if set.
endpoints.jmx.enabled=true # Enable JMX export of all endpoints.
endpoints.jmx.static-names= # Additional static properties to append to all ObjectNames of MBeans representing Endpoints.
endpoints.jmx.unique-names=false # Ensure that ObjectNames are modified in case of conflict.

# JOLOKIA (JolokiaProperties)
jolokia.config.*= # See Jolokia manual

# MANAGEMENT HTTP SERVER (ManagementServerProperties)
management.add-application-context-header=true # Add the "X-Application-Context" HTTP header in each response.
management.address= # Network address that the management endpoints should bind to.
management.context-path= # Management endpoint context-path. For instance `/actuator`
management.cloudfoundry.enabled= # Enable extended Cloud Foundry actuator endpoints
management.cloudfoundry.skip-ssl-validation= # Skip SSL verification for Cloud Foundry actuator endpoint security calls
management.port= # Management endpoint HTTP port. Uses the same port as the application by default. Configure a different port to use management-specific SSL.
management.security.enabled=true # Enable security.
management.security.roles=ACTUATOR # Comma-separated list of roles that can access the management endpoint.
management.security.sessions=stateless # Session creating policy to use (always, never, if_required, stateless).
management.ssl.ciphers= # Supported SSL ciphers. Requires a custom management.port.
management.ssl.client-auth= # Whether client authentication is wanted ("want") or needed ("need"). Requires a trust store. Requires a custom management.port.
management.ssl.enabled= # Enable SSL support. Requires a custom management.port.
management.ssl.enabled-protocols= # Enabled SSL protocols. Requires a custom management.port.
management.ssl.key-alias= # Alias that identifies the key in the key store. Requires a custom management.port.
management.ssl.key-password= # Password used to access the key in the key store. Requires a custom management.port.
management.ssl.key-store= # Path to the key store that holds the SSL certificate (typically a jks file). Requires a custom management.port.
management.ssl.key-store-password= # Password used to access the key store. Requires a custom management.port.
management.ssl.key-store-provider= # Provider for the key store. Requires a custom management.port.
management.ssl.key-store-type= # Type of the key store. Requires a custom management.port.
management.ssl.protocol=TLS # SSL protocol to use. Requires a custom management.port.
management.ssl.trust-store= # Trust store that holds SSL certificates. Requires a custom management.port.
management.ssl.trust-store-password= # Password used to access the trust store. Requires a custom management.port.
management.ssl.trust-store-provider= # Provider for the trust store. Requires a custom management.port.
management.ssl.trust-store-type= # Type of the trust store. Requires a custom management.port.

# HEALTH INDICATORS
management.health.db.enabled=true # Enable database health check.
management.health.cassandra.enabled=true # Enable cassandra health check.
management.health.couchbase.enabled=true # Enable couchbase health check.
management.health.defaults.enabled=true # Enable default health indicators.
management.health.diskspace.enabled=true # Enable disk space health check.
management.health.diskspace.path= # Path used to compute the available disk space.
management.health.diskspace.threshold=0 # Minimum disk space that should be available, in bytes.
management.health.elasticsearch.enabled=true # Enable elasticsearch health check.
management.health.elasticsearch.indices= # Comma-separated index names.
management.health.elasticsearch.response-timeout=100 # The time, in milliseconds, to wait for a response from the cluster.
management.health.jms.enabled=true # Enable JMS health check.
management.health.ldap.enabled=true # Enable LDAP health check.
management.health.mail.enabled=true # Enable Mail health check.
management.health.mongo.enabled=true # Enable MongoDB health check.
management.health.rabbit.enabled=true # Enable RabbitMQ health check.
management.health.redis.enabled=true # Enable Redis health check.
management.health.solr.enabled=true # Enable Solr health check.
management.health.status.order=DOWN, OUT_OF_SERVICE, UP, UNKNOWN # Comma-separated list of health statuses in order of severity.

# INFO CONTRIBUTORS (InfoContributorProperties)
management.info.build.enabled=true # Enable build info.
management.info.defaults.enabled=true # Enable default info contributors.
management.info.env.enabled=true # Enable environment info.
management.info.git.enabled=true # Enable git info.
management.info.git.mode=simple # Mode to use to expose git information.

# REMOTE SHELL (ShellProperties)
management.shell.auth.type=simple # Authentication type. Auto-detected according to the environment.
management.shell.auth.jaas.domain=my-domain # JAAS domain.
management.shell.auth.key.path= # Path to the authentication key. This should point to a valid ".pem" file.
management.shell.auth.simple.user.name=user # Login user.
management.shell.auth.simple.user.password= # Login password.
management.shell.auth.spring.roles=ACTUATOR # Comma-separated list of required roles to login to the CRaSH console.
management.shell.command-path-patterns=classpath*:/commands/**,classpath*:/crash/commands/** # Patterns to use to look for commands.
management.shell.command-refresh-interval=-1 # Scan for changes and update the command if necessary (in seconds).
management.shell.config-path-patterns=classpath*:/crash/* # Patterns to use to look for configurations.
management.shell.disabled-commands=jpa*,jdbc*,jndi* # Comma-separated list of commands to disable.
management.shell.disabled-plugins= # Comma-separated list of plugins to disable. Certain plugins are disabled by default based on the environment.
management.shell.ssh.auth-timeout = # Number of milliseconds after user will be prompted to login again.
management.shell.ssh.enabled=true # Enable CRaSH SSH support.
management.shell.ssh.idle-timeout = # Number of milliseconds after which unused connections are closed.
management.shell.ssh.key-path= # Path to the SSH server key.
management.shell.ssh.port=2000 # SSH port.
management.shell.telnet.enabled=false # Enable CRaSH telnet support. Enabled by default if the TelnetPlugin is available.
management.shell.telnet.port=5000 # Telnet port.

# TRACING (TraceProperties)
management.trace.include=request-headers,response-headers,cookies,errors # Items to be included in the trace.

# METRICS EXPORT (MetricExportProperties)
spring.metrics.export.aggregate.key-pattern= # Pattern that tells the aggregator what to do with the keys from the source repository.
spring.metrics.export.aggregate.prefix= # Prefix for global repository if active.
spring.metrics.export.delay-millis=5000 # Delay in milliseconds between export ticks. Metrics are exported to external sources on a schedule with this delay.
spring.metrics.export.enabled=true # Flag to enable metric export (assuming a MetricWriter is available).
spring.metrics.export.excludes= # List of patterns for metric names to exclude. Applied after the includes.
spring.metrics.export.includes= # List of patterns for metric names to include.
spring.metrics.export.redis.key=keys.spring.metrics # Key for redis repository export (if active).
spring.metrics.export.redis.prefix=spring.metrics # Prefix for redis repository if active.
spring.metrics.export.send-latest= # Flag to switch off any available optimizations based on not exporting unchanged metric values.
spring.metrics.export.statsd.host= # Host of a statsd server to receive exported metrics.
spring.metrics.export.statsd.port=8125 # Port of a statsd server to receive exported metrics.
spring.metrics.export.statsd.prefix= # Prefix for statsd exported metrics.
spring.metrics.export.triggers.*= # Specific trigger properties per MetricWriter bean name.

# ----------------------------------------
# DEVTOOLS PROPERTIES
# ----------------------------------------

# DEVTOOLS (DevToolsProperties)
spring.devtools.livereload.enabled=true # Enable a livereload.com compatible server.
spring.devtools.livereload.port=35729 # Server port.
spring.devtools.restart.additional-exclude= # Additional patterns that should be excluded from triggering a full restart.
spring.devtools.restart.additional-paths= # Additional paths to watch for changes.
spring.devtools.restart.enabled=true # Enable automatic restart.
spring.devtools.restart.exclude=META-INF/maven/**,META-INF/resources/**,resources/**,static/**,public/**,templates/**,**/*Test.class,**/*Tests.class,git.properties # Patterns that should be excluded from triggering a full restart.
spring.devtools.restart.poll-interval=1000 # Amount of time (in milliseconds) to wait between polling for classpath changes.
spring.devtools.restart.quiet-period=400 # Amount of quiet time (in milliseconds) required without any classpath changes before a restart is triggered.
spring.devtools.restart.trigger-file= # Name of a specific file that when changed will trigger the restart check. If not specified any classpath file change will trigger the restart.

# REMOTE DEVTOOLS (RemoteDevToolsProperties)
spring.devtools.remote.context-path=/.~~spring-boot!~ # Context path used to handle the remote connection.
spring.devtools.remote.debug.enabled=true # Enable remote debug support.
spring.devtools.remote.debug.local-port=8000 # Local remote debug server port.
spring.devtools.remote.proxy.host= # The host of the proxy to use to connect to the remote application.
spring.devtools.remote.proxy.port= # The port of the proxy to use to connect to the remote application.
spring.devtools.remote.restart.enabled=true # Enable remote restart.
spring.devtools.remote.secret= # A shared secret required to establish a connection (required to enable remote support).
spring.devtools.remote.secret-header-name=X-AUTH-TOKEN # HTTP header used to transfer the shared secret.

# ----------------------------------------
# TESTING PROPERTIES
# ----------------------------------------

spring.test.database.replace=any # Type of existing DataSource to replace.
spring.test.mockmvc.print=default # MVC Print option.

Maven 的41种骨架功能介绍

Maven 的41种骨架:
 ...>mvn archetype:generate
1: internal -> appfuse-basic-jsf (创建一个基于Hibernate,Spring和JSF的Web应用程序的原型)
2: internal -> appfuse-basic-spring (创建一个基于Hibernate,Spring和Spring MVC的Web应用程序的原型)
3: internal -> appfuse-basic-struts (创建一个基于Hibernate,Spring和Struts 2的Web应用程序的原型)
4: internal -> appfuse-basic-tapestry (创建一个基于Hibernate, Spring 和 Tapestry 4的Web应用程序的原型)
5: internal -> appfuse-core (创建一个基于 Hibernate and Spring 和 XFire的jar应用程序的原型)
6: internal -> appfuse-modular-jsf (创建一个基于 Hibernate,Spring和JSF的模块化应用原型)
7: internal -> appfuse-modular-spring (创建一个基于 Hibernate, Spring 和 Spring MVC 的模块化应用原型)
8: internal -> appfuse-modular-struts (创建一个基于 Hibernate, Spring 和 Struts 2 的模块化应用原型)
9: internal -> appfuse-modular-tapestry (创建一个基于 Hibernate, Spring 和 Tapestry 4 的模块化应用原型)
10: internal -> maven-archetype-j2ee-simple (一个简单的J2EE的Java应用程序)
11: internal -> maven-archetype-marmalade-mojo (一个Maven的 插件开发项目 using marmalade)
12: internal -> maven-archetype-mojo (一个Maven的Java插件开发项目)
13: internal -> maven-archetype-portlet (一个简单的portlet应用程序)
14: internal -> maven-archetype-profiles ()
15: internal -> maven-archetype-quickstart ()
16: internal -> maven-archetype-site-simple (简单的网站生成项目)
17: internal -> maven-archetype-site (更复杂的网站项目)
18: internal -> maven-archetype-webapp (一个简单的Java Web应用程序)
19: internal -> jini-service-archetype (Archetype for Jini service project creation)
20: internal -> softeu-archetype-seam (JSF+Facelets+Seam Archetype)
21: internal -> softeu-archetype-seam-simple (JSF+Facelets+Seam (无残留) 原型)
22: internal -> softeu-archetype-jsf (JSF+Facelets 原型)
23: internal -> jpa-maven-archetype (JPA 应用程序)
24: internal -> spring-osgi-bundle-archetype (Spring-OSGi 原型)
25: internal -> confluence-plugin-archetype (Atlassian 聚合插件原型)
26: internal -> jira-plugin-archetype (Atlassian JIRA 插件原型)
27: internal -> maven-archetype-har (Hibernate 存档)
28: internal -> maven-archetype-sar (JBoss 服务存档)
29: internal -> wicket-archetype-quickstart (一个简单的Apache Wicket的项目)
30: internal -> scala-archetype-simple (一个简单的scala的项目)
31: internal -> lift-archetype-blank (一个 blank/empty liftweb 项目)
32: internal -> lift-archetype-basic (基本(liftweb)项目)
33: internal -> cocoon-22-archetype-block-plain ([http://cocoapacorg2/maven-plugins/])
34: internal -> cocoon-22-archetype-block ([http://cocoapacorg2/maven-plugins/])
35: internal -> cocoon-22-archetype-webapp ([http://cocoapacorg2/maven-plugins/])
36: internal -> myfaces-archetype-helloworld (使用MyFaces的一个简单的原型)
37: internal -> myfaces-archetype-helloworld-facelets (一个使用MyFaces和Facelets的简单原型)
38: internal -> myfaces-archetype-trinidad (一个使用MyFaces和Trinidad的简单原型)
39: internal -> myfaces-archetype-jsfcomponents (一种使用MyFaces创建定制JSF组件的简单的原型)
40: internal -> gmaven-archetype-basic (Groovy的基本原型)
41: internal -> gmaven-archetype-mojo (Groovy mojo 原型)

maven pom.xml文件详解

<project xmlns="http://maven.apache.org/POM/4.0.0" 
 
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" 
 
xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/maven-v4_0_0.xsd "> 
 
<!-- 父项目的坐标。如果项目中没有规定某个元素的值,那么父项目中的对应值即为项目的默认值。 坐标包括group ID,artifact ID和 version。 --> 
 
<parent> 
 
<!-- 被继承的父项目的构件标识符 --> 
 
<artifactId /> 
 
<!-- 被继承的父项目的全球唯一标识符 --> 
 
<groupId /> 
 
<!-- 被继承的父项目的版本 --> 
 
<version /> 
 
<!-- 父项目的pom.xml文件的相对路径。相对路径允许你选择一个不同的路径。默认值是../pom.xml。Maven首先在构建当前项目的地方寻找父项目的pom,其次在文件系统的这个位置(relativePath位置),然后在本地仓库,最后在远程仓库寻找父项目的pom。 --> 
 
<relativePath /> 
 
</parent> 
 
<!-- 声明项目描述符遵循哪一个POM模型版本。模型本身的版本很少改变,虽然如此,但它仍然是必不可少的,这是为了当Maven引入了新的特性或者其他模型变更的时候,确保稳定性。 --> 
 
<modelVersion> 4.0.0 </modelVersion> 
 
<!-- 项目的全球唯一标识符,通常使用全限定的包名区分该项目和其他项目。并且构建时生成的路径也是由此生成, 如com.mycompany.app生成的相对路径为:/com/mycompany/app --> 
 
<groupId> asia.banseon </groupId> 
 
<!-- 构件的标识符,它和group ID一起唯一标识一个构件。换句话说,你不能有两个不同的项目拥有同样的artifact ID和groupID;在某个特定的group ID下,artifact ID也必须是唯一的。构件是项目产生的或使用的一个东西,Maven为项目产生的构件包括:JARs,源码,二进制发布和WARs等。 --> 
 
<artifactId> banseon-maven2 </artifactId> 
 
<!-- 项目产生的构件类型,例如jar、war、ear、pom。插件可以创建他们自己的构件类型,所以前面列的不是全部构件类型 --> 
 
<packaging> jar </packaging> 
 
<!-- 项目当前版本,格式为:主版本.次版本.增量版本-限定版本号 --> 
 
<version> 1.0-SNAPSHOT </version> 
 
<!-- 项目的名称, Maven产生的文档用 --> 
 
<name> banseon-maven </name> 
 
<!-- 项目主页的URL, Maven产生的文档用 --> 
 
<url> http://www.baidu.com/banseon </url> 
 
<!-- 项目的详细描述, Maven 产生的文档用。 当这个元素能够用HTML格式描述时(例如,CDATA中的文本会被解析器忽略,就可以包含HTML标签), 不鼓励使用纯文本描述。如果你需要修改产生的web站点的索引页面,你应该修改你自己的索引页文件,而不是调整这里的文档。 --> 
 
<description> A maven project to study maven. </description> 
 
<!-- 描述了这个项目构建环境中的前提条件。 --> 
 
<prerequisites> 
 
<!-- 构建该项目或使用该插件所需要的Maven的最低版本 --> 
 
<maven /> 
 
</prerequisites> 
 
<!-- 项目的问题管理系统(Bugzilla, Jira, Scarab,或任何你喜欢的问题管理系统)的名称和URL,本例为 jira --> 
 
<issueManagement> 
 
<!-- 问题管理系统(例如jira)的名字, --> 
 
<system> jira </system> 
 
<!-- 该项目使用的问题管理系统的URL --> 
 
<url> http://jira.baidu.com/banseon </url> 
 
</issueManagement> 
 
<!-- 项目持续集成信息 --> 
 
<ciManagement> 
 
<!-- 持续集成系统的名字,例如continuum --> 
 
<system /> 
 
<!-- 该项目使用的持续集成系统的URL(如果持续集成系统有web接口的话)。 --> 
 
<url /> 
 
<!-- 构建完成时,需要通知的开发者/用户的配置项。包括被通知者信息和通知条件(错误,失败,成功,警告) --> 
 
<notifiers> 
 
<!-- 配置一种方式,当构建中断时,以该方式通知用户/开发者 --> 
 
<notifier> 
 
<!-- 传送通知的途径 --> 
 
<type /> 
 
<!-- 发生错误时是否通知 --> 
 
<sendOnError /> 
 
<!-- 构建失败时是否通知 --> 
 
<sendOnFailure /> 
 
<!-- 构建成功时是否通知 --> 
 
<sendOnSuccess /> 
 
<!-- 发生警告时是否通知 --> 
 
<sendOnWarning /> 
 
<!-- 不赞成使用。通知发送到哪里 --> 
 
<address /> 
 
<!-- 扩展配置项 --> 
 
<configuration /> 
 
</notifier> 
 
</notifiers> 
 
</ciManagement> 
 
<!-- 项目创建年份,4位数字。当产生版权信息时需要使用这个值。 --> 
 
<inceptionYear /> 
 
<!-- 项目相关邮件列表信息 --> 
 
<mailingLists> 
 
<!-- 该元素描述了项目相关的所有邮件列表。自动产生的网站引用这些信息。 --> 
 
<mailingList> 
 
<!-- 邮件的名称 --> 
 
<name> Demo </name> 
 
<!-- 发送邮件的地址或链接,如果是邮件地址,创建文档时,mailto: 链接会被自动创建 --> 
 
<post> banseon@126.com </post> 
 
<!-- 订阅邮件的地址或链接,如果是邮件地址,创建文档时,mailto: 链接会被自动创建 --> 
 
<subscribe> banseon@126.com </subscribe> 
 
<!-- 取消订阅邮件的地址或链接,如果是邮件地址,创建文档时,mailto: 链接会被自动创建 --> 
 
<unsubscribe> banseon@126.com </unsubscribe> 
 
<!-- 你可以浏览邮件信息的URL --> 
 
<archive> http:/hi.baidu.com/banseon/demo/dev/ </archive> 
 
</mailingList> 
 
</mailingLists> 
 
<!-- 项目开发者列表 --> 
 
<developers> 
 
<!-- 某个项目开发者的信息 --> 
 
<developer> 
 
<!-- SCM里项目开发者的唯一标识符 --> 
 
<id> HELLO WORLD </id> 
 
<!-- 项目开发者的全名 --> 
 
<name> banseon </name> 
 
<!-- 项目开发者的email --> 
 
<email> banseon@126.com </email> 
 
<!-- 项目开发者的主页的URL --> 
 
<url /> 
 
<!-- 项目开发者在项目中扮演的角色,角色元素描述了各种角色 --> 
 
<roles> 
 
<role> Project Manager </role> 
 
<role> Architect </role> 
 
</roles> 
 
<!-- 项目开发者所属组织 --> 
 
<organization> demo </organization> 
 
<!-- 项目开发者所属组织的URL --> 
 
<organizationUrl> http://hi.baidu.com/banseon </organizationUrl> 
 
<!-- 项目开发者属性,如即时消息如何处理等 --> 
 
<properties> 
 
<dept> No </dept> 
 
</properties> 
 
<!-- 项目开发者所在时区, -11到12范围内的整数。 --> 
 
<timezone> -5 </timezone> 
 
</developer> 
 
</developers> 
 
<!-- 项目的其他贡献者列表 --> 
 
<contributors> 
 
<!-- 项目的其他贡献者。参见developers/developer元素 --> 
 
<contributor> 
 
<name /><email /><url /><organization /><organizationUrl /><roles /><timezone /><properties /> 
 
</contributor> 
 
</contributors> 
 
<!-- 该元素描述了项目所有License列表。 应该只列出该项目的license列表,不要列出依赖项目的 license列表。如果列出多个license,用户可以选择它们中的一个而不是接受所有license。 --> 
 
<licenses> 
 
<!-- 描述了项目的license,用于生成项目的web站点的license页面,其他一些报表和validation也会用到该元素。 --> 
 
<license> 
 
<!-- license用于法律上的名称 --> 
 
<name> Apache 2 </name> 
 
<!-- 官方的license正文页面的URL --> 
 
<url> http://www.baidu.com/banseon/LICENSE-2.0.txt </url> 
 
<!-- 项目分发的主要方式: 
 
repo,可以从Maven库下载 
 
manual, 用户必须手动下载和安装依赖 --> 
 
<distribution> repo </distribution> 
 
<!-- 关于license的补充信息 --> 
 
<comments> A business-friendly OSS license </comments> 
 
</license> 
 
</licenses> 
 
<!-- SCM(Source Control Management)标签允许你配置你的代码库,供Maven web站点和其它插件使用。 --> 
 
<scm> 
 
<!-- SCM的URL,该URL描述了版本库和如何连接到版本库。欲知详情,请看SCMs提供的URL格式和列表。该连接只读。 --> 
 
<connection> 
 
scm:svn:http://svn.baidu.com/banseon/maven/banseon/banseon-maven2-trunk(dao-trunk) 
 
</connection> 
 
<!-- 给开发者使用的,类似connection元素。即该连接不仅仅只读 --> 
 
<developerConnection> 
 
scm:svn:http://svn.baidu.com/banseon/maven/banseon/dao-trunk 
 
</developerConnection> 
 
<!-- 当前代码的标签,在开发阶段默认为HEAD --> 
 
<tag /> 
 
<!-- 指向项目的可浏览SCM库(例如ViewVC或者Fisheye)的URL。 --> 
 
<url> http://svn.baidu.com/banseon </url> 
 
</scm> 
 
<!-- 描述项目所属组织的各种属性。Maven产生的文档用 --> 
 
<organization> 
 
<!-- 组织的全名 --> 
 
<name> demo </name> 
 
<!-- 组织主页的URL --> 
 
<url> http://www.baidu.com/banseon </url> 
 
</organization> 
 
<!-- 构建项目需要的信息 --> 
 
<build> 
 
<!-- 该元素设置了项目源码目录,当构建项目的时候,构建系统会编译目录里的源码。该路径是相对于pom.xml的相对路径。 --> 
 
<sourceDirectory /> 
 
<!-- 该元素设置了项目脚本源码目录,该目录和源码目录不同:绝大多数情况下,该目录下的内容 会被拷贝到输出目录(因为脚本是被解释的,而不是被编译的)。 --> 
 
<scriptSourceDirectory /> 
 
<!-- 该元素设置了项目单元测试使用的源码目录,当测试项目的时候,构建系统会编译目录里的源码。该路径是相对于pom.xml的相对路径。 --> 
 
<testSourceDirectory /> 
 
<!-- 被编译过的应用程序class文件存放的目录。 --> 
 
<outputDirectory /> 
 
<!-- 被编译过的测试class文件存放的目录。 --> 
 
<testOutputDirectory /> 
 
<!-- 使用来自该项目的一系列构建扩展 --> 
 
<extensions> 
 
<!-- 描述使用到的构建扩展。 --> 
 
<extension> 
 
<!-- 构建扩展的groupId --> 
 
<groupId /> 
 
<!-- 构建扩展的artifactId --> 
 
<artifactId /> 
 
<!-- 构建扩展的版本 --> 
 
<version /> 
 
</extension> 
 
</extensions> 
 
<!-- 当项目没有规定目标(Maven2 叫做阶段)时的默认值 --> 
 
<defaultGoal /> 
 
<!-- 这个元素描述了项目相关的所有资源路径列表,例如和项目相关的属性文件,这些资源被包含在最终的打包文件里。 --> 
 
<resources> 
 
<!-- 这个元素描述了项目相关或测试相关的所有资源路径 --> 
 
<resource> 
 
<!-- 描述了资源的目标路径。该路径相对target/classes目录(例如${project.build.outputDirectory})。举个例子,如果你想资源在特定的包里(org.apache.maven.messages),你就必须该元素设置为org/apache/maven/messages。然而,如果你只是想把资源放到源码目录结构里,就不需要该配置。 --> 
 
<targetPath /> 
 
<!-- 是否使用参数值代替参数名。参数值取自properties元素或者文件里配置的属性,文件在filters元素里列出。 --> 
 
<filtering /> 
 
<!-- 描述存放资源的目录,该路径相对POM路径 --> 
 
<directory /> 
 
<!-- 包含的模式列表,例如**/*.xml. --> 
 
<includes /> 
 
<!-- 排除的模式列表,例如**/*.xml --> 
 
<excludes /> 
 
</resource> 
 
</resources> 
 
<!-- 这个元素描述了单元测试相关的所有资源路径,例如和单元测试相关的属性文件。 --> 
 
<testResources> 
 
<!-- 这个元素描述了测试相关的所有资源路径,参见build/resources/resource元素的说明 --> 
 
<testResource> 
 
<targetPath /><filtering /><directory /><includes /><excludes /> 
 
</testResource> 
 
</testResources> 
 
<!-- 构建产生的所有文件存放的目录 --> 
 
<directory /> 
 
<!-- 产生的构件的文件名,默认值是${artifactId}-${version}。 --> 
 
<finalName /> 
 
<!-- 当filtering开关打开时,使用到的过滤器属性文件列表 --> 
 
<filters /> 
 
<!-- 子项目可以引用的默认插件信息。该插件配置项直到被引用时才会被解析或绑定到生命周期。给定插件的任何本地配置都会覆盖这里的配置 --> 
 
<pluginManagement> 
 
<!-- 使用的插件列表 。 --> 
 
<plugins> 
 
<!-- plugin元素包含描述插件所需要的信息。 --> 
 
<plugin> 
 
<!-- 插件在仓库里的group ID --> 
 
<groupId /> 
 
<!-- 插件在仓库里的artifact ID --> 
 
<artifactId /> 
 
<!-- 被使用的插件的版本(或版本范围) --> 
 
<version /> 
 
<!-- 是否从该插件下载Maven扩展(例如打包和类型处理器),由于性能原因,只有在真需要下载时,该元素才被设置成enabled。 --> 
 
<extensions /> 
 
<!-- 在构建生命周期中执行一组目标的配置。每个目标可能有不同的配置。 --> 
 
<executions> 
 
<!-- execution元素包含了插件执行需要的信息 --> 
 
<execution> 
 
<!-- 执行目标的标识符,用于标识构建过程中的目标,或者匹配继承过程中需要合并的执行目标 --> 
 
<id /> 
 
<!-- 绑定了目标的构建生命周期阶段,如果省略,目标会被绑定到源数据里配置的默认阶段 --> 
 
<phase /> 
 
<!-- 配置的执行目标 --> 
 
<goals /> 
 
<!-- 配置是否被传播到子POM --> 
 
<inherited /> 
 
<!-- 作为DOM对象的配置 --> 
 
<configuration /> 
 
</execution> 
 
</executions> 
 
<!-- 项目引入插件所需要的额外依赖 --> 
 
<dependencies> 
 
<!-- 参见dependencies/dependency元素 --> 
 
<dependency> 
 
 
 
</dependency> 
 
</dependencies> 
 
<!-- 任何配置是否被传播到子项目 --> 
 
<inherited /> 
 
<!-- 作为DOM对象的配置 --> 
 
<configuration /> 
 
</plugin> 
 
</plugins> 
 
</pluginManagement> 
 
<!-- 使用的插件列表 --> 
 
<plugins> 
 
<!-- 参见build/pluginManagement/plugins/plugin元素 --> 
 
<plugin> 
 
<groupId /><artifactId /><version /><extensions /> 
 
<executions> 
 
<execution> 
 
<id /><phase /><goals /><inherited /><configuration /> 
 
</execution> 
 
</executions> 
 
<dependencies> 
 
<!-- 参见dependencies/dependency元素 --> 
 
<dependency> 
 
 
 
</dependency> 
 
</dependencies> 
 
<goals /><inherited /><configuration /> 
 
</plugin> 
 
</plugins> 
 
</build> 
 
<!-- 在列的项目构建profile,如果被激活,会修改构建处理 --> 
 
<profiles> 
 
<!-- 根据环境参数或命令行参数激活某个构建处理 --> 
 
<profile> 
 
<!-- 构建配置的唯一标识符。即用于命令行激活,也用于在继承时合并具有相同标识符的profile。 --> 
 
<id /> 
 
<!-- 自动触发profile的条件逻辑。Activation是profile的开启钥匙。profile的力量来自于它 
 
能够在某些特定的环境中自动使用某些特定的值;这些环境通过activation元素指定。activation元素并不是激活profile的唯一方式。 --> 
 
<activation> 
 
<!-- profile默认是否激活的标志 --> 
 
<activeByDefault /> 
 
<!-- 当匹配的jdk被检测到,profile被激活。例如,1.4激活JDK1.4,1.4.0_2,而!1.4激活所有版本不是以1.4开头的JDK。 --> 
 
<jdk /> 
 
<!-- 当匹配的操作系统属性被检测到,profile被激活。os元素可以定义一些操作系统相关的属性。 --> 
 
<os> 
 
<!-- 激活profile的操作系统的名字 --> 
 
<name> Windows XP </name> 
 
<!-- 激活profile的操作系统所属家族(如 'windows') --> 
 
<family> Windows </family> 
 
<!-- 激活profile的操作系统体系结构 --> 
 
<arch> x86 </arch> 
 
<!-- 激活profile的操作系统版本 --> 
 
<version> 5.1.2600 </version> 
 
</os> 
 
<!-- 如果Maven检测到某一个属性(其值可以在POM中通过${名称}引用),其拥有对应的名称和值,Profile就会被激活。如果值 
 
字段是空的,那么存在属性名称字段就会激活profile,否则按区分大小写方式匹配属性值字段 --> 
 
<property> 
 
<!-- 激活profile的属性的名称 --> 
 
<name> mavenVersion </name> 
 
<!-- 激活profile的属性的值 --> 
 
<value> 2.0.3 </value> 
 
</property> 
 
<!-- 提供一个文件名,通过检测该文件的存在或不存在来激活profile。missing检查文件是否存在,如果不存在则激活 
 
profile。另一方面,exists则会检查文件是否存在,如果存在则激活profile。 --> 
 
<file> 
 
<!-- 如果指定的文件存在,则激活profile。 --> 
 
<exists> /usr/local/hudson/hudson-home/jobs/maven-guide-zh-to-production/workspace/ </exists> 
 
<!-- 如果指定的文件不存在,则激活profile。 --> 
 
<missing> /usr/local/hudson/hudson-home/jobs/maven-guide-zh-to-production/workspace/ </missing> 
 
</file> 
 
</activation> 
 
<!-- 构建项目所需要的信息。参见build元素 --> 
 
<build> 
 
<defaultGoal /> 
 
<resources> 
 
<resource> 
 
<targetPath /><filtering /><directory /><includes /><excludes /> 
 
</resource> 
 
</resources> 
 
<testResources> 
 
<testResource> 
 
<targetPath /><filtering /><directory /><includes /><excludes /> 
 
</testResource> 
 
</testResources> 
 
<directory /><finalName /><filters /> 
 
<pluginManagement> 
 
<plugins> 
 
<!-- 参见build/pluginManagement/plugins/plugin元素 --> 
 
<plugin> 
 
<groupId /><artifactId /><version /><extensions /> 
 
<executions> 
 
<execution> 
 
<id /><phase /><goals /><inherited /><configuration /> 
 
</execution> 
 
</executions> 
 
<dependencies> 
 
<!-- 参见dependencies/dependency元素 --> 
 
<dependency> 
 
 
 
</dependency> 
 
</dependencies> 
 
<goals /><inherited /><configuration /> 
 
</plugin> 
 
</plugins> 
 
</pluginManagement> 
 
<plugins> 
 
<!-- 参见build/pluginManagement/plugins/plugin元素 --> 
 
<plugin> 
 
<groupId /><artifactId /><version /><extensions /> 
 
<executions> 
 
<execution> 
 
<id /><phase /><goals /><inherited /><configuration /> 
 
</execution> 
 
</executions> 
 
<dependencies> 
 
<!-- 参见dependencies/dependency元素 --> 
 
<dependency> 
 
 
 
</dependency> 
 
</dependencies> 
 
<goals /><inherited /><configuration /> 
 
</plugin> 
 
</plugins> 
 
</build> 
 
<!-- 模块(有时称作子项目) 被构建成项目的一部分。列出的每个模块元素是指向该模块的目录的相对路径 --> 
 
<modules /> 
 
<!-- 发现依赖和扩展的远程仓库列表。 --> 
 
<repositories> 
 
<!-- 参见repositories/repository元素 --> 
 
<repository> 
 
<releases> 
 
<enabled /><updatePolicy /><checksumPolicy /> 
 
</releases> 
 
<snapshots> 
 
<enabled /><updatePolicy /><checksumPolicy /> 
 
</snapshots> 
 
<id /><name /><url /><layout /> 
 
</repository> 
 
</repositories> 
 
<!-- 发现插件的远程仓库列表,这些插件用于构建和报表 --> 
 
<pluginRepositories> 
 
<!-- 包含需要连接到远程插件仓库的信息.参见repositories/repository元素 --> 
 
<pluginRepository> 
 
<releases> 
 
<enabled /><updatePolicy /><checksumPolicy /> 
 
</releases> 
 
<snapshots> 
 
<enabled /><updatePolicy /><checksumPolicy /> 
 
</snapshots> 
 
<id /><name /><url /><layout /> 
 
</pluginRepository> 
 
</pluginRepositories> 
 
<!-- 该元素描述了项目相关的所有依赖。 这些依赖组成了项目构建过程中的一个个环节。它们自动从项目定义的仓库中下载。要获取更多信息,请看项目依赖机制。 --> 
 
<dependencies> 
 
<!-- 参见dependencies/dependency元素 --> 
 
<dependency> 
 
 
 
</dependency> 
 
</dependencies> 
 
<!-- 不赞成使用. 现在Maven忽略该元素. --> 
 
<reports /> 
 
<!-- 该元素包括使用报表插件产生报表的规范。当用户执行“mvn site”,这些报表就会运行。 在页面导航栏能看到所有报表的链接。参见reporting元素 --> 
 
<reporting> 
 
 
 
</reporting> 
 
<!-- 参见dependencyManagement元素 --> 
 
<dependencyManagement> 
 
<dependencies> 
 
<!-- 参见dependencies/dependency元素 --> 
 
<dependency> 
 
 
 
</dependency> 
 
</dependencies> 
 
</dependencyManagement> 
 
<!-- 参见distributionManagement元素 --> 
 
<distributionManagement> 
 
 
 
</distributionManagement> 
 
<!-- 参见properties元素 --> 
 
<properties /> 
 
</profile> 
 
</profiles> 
 
<!-- 模块(有时称作子项目) 被构建成项目的一部分。列出的每个模块元素是指向该模块的目录的相对路径 --> 
 
<modules /> 
 
<!-- 发现依赖和扩展的远程仓库列表。 --> 
 
<repositories> 
 
<!-- 包含需要连接到远程仓库的信息 --> 
 
<repository> 
 
<!-- 如何处理远程仓库里发布版本的下载 --> 
 
<releases> 
 
<!-- true或者false表示该仓库是否为下载某种类型构件(发布版,快照版)开启。 --> 
 
<enabled /> 
 
<!-- 该元素指定更新发生的频率。Maven会比较本地POM和远程POM的时间戳。这里的选项是:always(一直),daily(默认,每日),interval:X(这里X是以分钟为单位的时间间隔),或者never(从不)。 --> 
 
<updatePolicy /> 
 
<!-- 当Maven验证构件校验文件失败时该怎么做:ignore(忽略),fail(失败),或者warn(警告)。 --> 
 
<checksumPolicy /> 
 
</releases> 
 
<!-- 如何处理远程仓库里快照版本的下载。有了releases和snapshots这两组配置,POM就可以在每个单独的仓库中,为每种类型的构件采取不同的策略。例如,可能有人会决定只为开发目的开启对快照版本下载的支持。参见repositories/repository/releases元素 --> 
 
<snapshots> 
 
<enabled /><updatePolicy /><checksumPolicy /> 
 
</snapshots> 
 
<!-- 远程仓库唯一标识符。可以用来匹配在settings.xml文件里配置的远程仓库 --> 
 
<id> banseon-repository-proxy </id> 
 
<!-- 远程仓库名称 --> 
 
<name> banseon-repository-proxy </name> 
 
<!-- 远程仓库URL,按protocol://hostname/path形式 --> 
 
<url> http://192.168.1.169:9999/repository/ </url> 
 
<!-- 用于定位和排序构件的仓库布局类型-可以是default(默认)或者legacy(遗留)。Maven 2为其仓库提供了一个默认的布局;然而,Maven 1.x有一种不同的布局。我们可以使用该元素指定布局是default(默认)还是legacy(遗留)。 --> 
 
<layout> default </layout> 
 
</repository> 
 
</repositories> 
 
<!-- 发现插件的远程仓库列表,这些插件用于构建和报表 --> 
 
<pluginRepositories> 
 
<!-- 包含需要连接到远程插件仓库的信息.参见repositories/repository元素 --> 
 
<pluginRepository> 
 
 
 
</pluginRepository> 
 
</pluginRepositories> 
 
 
 
<!-- 该元素描述了项目相关的所有依赖。 这些依赖组成了项目构建过程中的一个个环节。它们自动从项目定义的仓库中下载。要获取更多信息,请看项目依赖机制。 --> 
 
<dependencies> 
 
<dependency> 
 
<!-- 依赖的group ID --> 
 
<groupId> org.apache.maven </groupId> 
 
<!-- 依赖的artifact ID --> 
 
<artifactId> maven-artifact </artifactId> 
 
<!-- 依赖的版本号。 在Maven 2里, 也可以配置成版本号的范围。 --> 
 
<version> 3.8.1 </version> 
 
<!-- 依赖类型,默认类型是jar。它通常表示依赖的文件的扩展名,但也有例外。一个类型可以被映射成另外一个扩展名或分类器。类型经常和使用的打包方式对应,尽管这也有例外。一些类型的例子:jar,war,ejb-client和test-jar。如果设置extensions为 true,就可以在plugin里定义新的类型。所以前面的类型的例子不完整。 --> 
 
<type> jar </type> 
 
<!-- 依赖的分类器。分类器可以区分属于同一个POM,但不同构建方式的构件。分类器名被附加到文件名的版本号后面。例如,如果你想要构建两个单独的构件成JAR,一个使用Java 1.4编译器,另一个使用Java 6编译器,你就可以使用分类器来生成两个单独的JAR构件。 --> 
 
<classifier></classifier> 
 
<!-- 依赖范围。在项目发布过程中,帮助决定哪些构件被包括进来。欲知详情请参考依赖机制。 
 
- compile :默认范围,用于编译 
 
- provided:类似于编译,但支持你期待jdk或者容器提供,类似于classpath 
 
- runtime: 在执行时需要使用 
 
- test: 用于test任务时使用 
 
- system: 需要外在提供相应的元素。通过systemPath来取得 
 
- systemPath: 仅用于范围为system。提供相应的路径 
 
- optional: 当项目自身被依赖时,标注依赖是否传递。用于连续依赖时使用 --> 
 
<scope> test </scope> 
 
<!-- 仅供system范围使用。注意,不鼓励使用这个元素,并且在新的版本中该元素可能被覆盖掉。该元素为依赖规定了文件系统上的路径。需要绝对路径而不是相对路径。推荐使用属性匹配绝对路径,例如${java.home}。 --> 
 
<systemPath></systemPath> 
 
<!-- 当计算传递依赖时, 从依赖构件列表里,列出被排除的依赖构件集。即告诉maven你只依赖指定的项目,不依赖项目的依赖。此元素主要用于解决版本冲突问题 --> 
 
<exclusions> 
 
<exclusion> 
 
<artifactId> spring-core </artifactId> 
 
<groupId> org.springframework </groupId> 
 
</exclusion> 
 
</exclusions> 
 
<!-- 可选依赖,如果你在项目B中把C依赖声明为可选,你就需要在依赖于B的项目(例如项目A)中显式的引用对C的依赖。可选依赖阻断依赖的传递性。 --> 
 
<optional> true </optional> 
 
</dependency> 
 
</dependencies> 
 
<!-- 不赞成使用. 现在Maven忽略该元素. --> 
 
<reports></reports> 
 
<!-- 该元素描述使用报表插件产生报表的规范。当用户执行“mvn site”,这些报表就会运行。 在页面导航栏能看到所有报表的链接。 --> 
 
<reporting> 
 
<!-- true,则,网站不包括默认的报表。这包括“项目信息”菜单中的报表。 --> 
 
<excludeDefaults /> 
 
<!-- 所有产生的报表存放到哪里。默认值是${project.build.directory}/site。 --> 
 
<outputDirectory /> 
 
<!-- 使用的报表插件和他们的配置。 --> 
 
<plugins> 
 
<!-- plugin元素包含描述报表插件需要的信息 --> 
 
<plugin> 
 
<!-- 报表插件在仓库里的group ID --> 
 
<groupId /> 
 
<!-- 报表插件在仓库里的artifact ID --> 
 
<artifactId /> 
 
<!-- 被使用的报表插件的版本(或版本范围) --> 
 
<version /> 
 
<!-- 任何配置是否被传播到子项目 --> 
 
<inherited /> 
 
<!-- 报表插件的配置 --> 
 
<configuration /> 
 
<!-- 一组报表的多重规范,每个规范可能有不同的配置。一个规范(报表集)对应一个执行目标 。例如,有1,2,3,4,5,6,7,8,9个报表。1,2,5构成A报表集,对应一个执行目标。2,5,8构成B报表集,对应另一个执行目标 --> 
 
<reportSets> 
 
<!-- 表示报表的一个集合,以及产生该集合的配置 --> 
 
<reportSet> 
 
<!-- 报表集合的唯一标识符,POM继承时用到 --> 
 
<id /> 
 
<!-- 产生报表集合时,被使用的报表的配置 --> 
 
<configuration /> 
 
<!-- 配置是否被继承到子POMs --> 
 
<inherited /> 
 
<!-- 这个集合里使用到哪些报表 --> 
 
<reports /> 
 
</reportSet> 
 
</reportSets> 
 
</plugin> 
 
</plugins> 
 
</reporting> 
 
<!-- 继承自该项目的所有子项目的默认依赖信息。这部分的依赖信息不会被立即解析,而是当子项目声明一个依赖(必须描述group ID和artifact ID信息),如果group ID和artifact ID以外的一些信息没有描述,则通过group ID和artifact ID匹配到这里的依赖,并使用这里的依赖信息。 --> 
 
<dependencyManagement> 
 
<dependencies> 
 
<!-- 参见dependencies/dependency元素 --> 
 
<dependency> 
 
 
 
</dependency> 
 
</dependencies> 
 
</dependencyManagement> 
 
<!-- 项目分发信息,在执行mvn deploy后表示要发布的位置。有了这些信息就可以把网站部署到远程服务器或者把构件部署到远程仓库。 --> 
 
<distributionManagement> 
 
<!-- 部署项目产生的构件到远程仓库需要的信息 --> 
 
<repository> 
 
<!-- 是分配给快照一个唯一的版本号(由时间戳和构建流水号)?还是每次都使用相同的版本号?参见repositories/repository元素 --> 
 
<uniqueVersion /> 
 
<id> banseon-maven2 </id> 
 
<name> banseon maven2 </name> 
 
<url> file://${basedir}/target/deploy </url> 
 
<layout /> 
 
</repository> 
 
<!-- 构件的快照部署到哪里?如果没有配置该元素,默认部署到repository元素配置的仓库,参见distributionManagement/repository元素 --> 
 
<snapshotRepository> 
 
<uniqueVersion /> 
 
<id> banseon-maven2 </id> 
 
<name> Banseon-maven2 Snapshot Repository </name> 
 
<url> scp://svn.baidu.com/banseon:/usr/local/maven-snapshot </url> 
 
<layout /> 
 
</snapshotRepository> 
 
<!-- 部署项目的网站需要的信息 --> 
 
<site> 
 
<!-- 部署位置的唯一标识符,用来匹配站点和settings.xml文件里的配置 --> 
 
<id> banseon-site </id> 
 
<!-- 部署位置的名称 --> 
 
<name> business api website </name> 
 
<!-- 部署位置的URL,按protocol://hostname/path形式 --> 
 
<url> 
 
scp://svn.baidu.com/banseon:/var/www/localhost/banseon-web 
 
</url> 
 
</site> 
 
<!-- 项目下载页面的URL。如果没有该元素,用户应该参考主页。使用该元素的原因是:帮助定位那些不在仓库里的构件(由于license限制)。 --> 
 
<downloadUrl /> 
 
<!-- 如果构件有了新的group ID和artifact ID(构件移到了新的位置),这里列出构件的重定位信息。 --> 
 
<relocation> 
 
<!-- 构件新的group ID --> 
 
<groupId /> 
 
<!-- 构件新的artifact ID --> 
 
<artifactId /> 
 
<!-- 构件新的版本号 --> 
 
<version /> 
 
<!-- 显示给用户的,关于移动的额外信息,例如原因。 --> 
 
<message /> 
 
</relocation> 
 
<!-- 给出该构件在远程仓库的状态。不得在本地项目中设置该元素,因为这是工具自动更新的。有效的值有:none(默认),converted(仓库管理员从Maven 1 POM转换过来),partner(直接从伙伴Maven 2仓库同步过来),deployed(从Maven 2实例部署),verified(被核实时正确的和最终的)。 --> 
 
<status /> 
 
</distributionManagement> 
 
<!-- 以值替代名称,Properties可以在整个POM中使用,也可以作为触发条件(见settings.xml配置文件里activation元素的说明)。格式是<name>value</name>。 --> 
 
<properties /> 
 
</project>

RocketMQ 基本概念

Producer 消息生产者,负责产生消息,一般由业务系统负责产生消息
Consumer 消息消费者,负责消费消息,一般是后台系统负责异步消费
Push Consumer Consumer的一种,应用通常向Consumer对象注册一个Listener接口,一旦收到消息,Consumer对象立刻回调Listener接口方法
Pull Consumer Consumer的一种,应用通常主动调用Consumer的拉消息方法从Broker拉消息,主动权由应用控制
Producer Group 一类Producer的集合名称,这类Producer通常发送一类消息,且发送逻辑一致
Consumer Group 一类Consumer的集合名称,这类Consumer通常消费一类消息,且消费逻辑一致
Broker 消息中转角色,负责存储消息,转发消息,一般也称为Server。
长连接 在页面嵌入一个隐藏的Iframe,将这个隐藏Iframe的src属性设置为对一个长连接的请求或是采用xhr请求,服务器端就源源不断的向客户端输入数据。

mac下通过Homebrew安装tomcat

首先保证brew命令能够正常使用;

1. 搜索tomcat是否存在:

brew search tomcat

2. 安装tomcat:

brew install tomcat

3. 检查是否安装成功:

catalina -h

4. 运行tomcat:

catalina run

Tomcat的默认端口是8080,如果运行成功可通过http://localhost:8080访问
webapp的根目录(CATALINA_HOME)为:/usr/local/Cellar/tomcat/7.0.33/libexec/webapps/ROOT/

Tomcat7进入/Manager/html页面提示403错误

注意是Tomcat7!
出现这个问题后我查看了webapps\manager\WEB-INF\web.xml,发现里面rolename的配置和老版本有变化导致的。

按如下配置tomcat-user.xml,然后重启tomcat7

 

<?xml version='1.0' encoding='utf-8'?>
  <role rolename="manager-gui"/>  
  <role rolename="manager-script"/>  
  <role rolename="manager-jmx"/>  
  <role rolename="manager-status"/> 

  <role rolename="admin-script"/>  
  <role rolename="admin-gui"/>  

  <user username="zerosoul" password="123456" roles="manager-gui,manager-script,manager-jmx,manager-status,admin-gui,admin-script"/>  
</tomcat-users>

JDBC连接各种数据库经验技巧集萃

 Java数据库连接(JDBC)由一组用 Java 编程语言编写的类和接口组成。JDBC 为工具/数据库开发人员提供了一个标准的 API,使他们能够用纯Java API 来编写数据库应用程序。然而各个开发商的接口并不完全相同,所以开发环境的变化会带来一定的配置变化。本文主要集合了不同数据库的连接方式。

  一、连接各种数据库方式速查表

  下面罗列了各种数据库使用JDBC连接的方式,可以作为一个手册使用。

  1、Oracle8/8i/9i数据库(thin模式)

Class.forName("oracle.jdbc.driver.OracleDriver").newInstance();
String url="jdbc:oracle:thin:@localhost:1521:orcl"; //orcl为数据库的SID
String user="test";
String password="test";
Connection conn= DriverManager.getConnection(url,user,password);

  2、DB2数据库

Class.forName("com.ibm.db2.jdbc.app.DB2Driver ").newInstance();
String url="jdbc:db2://localhost:5000/sample"; //sample为你的数据库名
String user="admin";
String password="";
Connection conn= DriverManager.getConnection(url,user,password);

  3、Sql Server7.0/2000数据库

Class.forName("com.microsoft.jdbc.sqlserver.SQLServerDriver").newInstance();
String url="jdbc:microsoft:sqlserver://localhost:1433;DatabaseName=mydb";
//mydb为数据库
String user="sa";
String password="";
Connection conn= DriverManager.getConnection(url,user,password);

  4、Sybase数据库

Class.forName("com.sybase.jdbc.SybDriver").newInstance();
String url =" jdbc:sybase:Tds:localhost:5007/myDB";//myDB为你的数据库名
Properties sysProps = System.getProperties();
SysProps.put("user","userid");
SysProps.put("password","user_password");
Connection conn= DriverManager.getConnection(url, SysProps);

5、Informix数据库

Class.forName("com.informix.jdbc.IfxDriver").newInstance();
String url = "jdbc:informix-sqli://123.45.67.89:1533/myDB:INFORMIXSERVER=myserver;
user=testuser;password=testpassword"; //myDB为数据库名
Connection conn= DriverManager.getConnection(url);

  6、MySQL数据库

Class.forName("org.gjt.mm.mysql.Driver").newInstance();
String url ="jdbc:mysql://localhost/myDB?user=soft&password=soft1234&useUnicode=true&characterEncoding=8859_1"
//myDB为数据库名
Connection conn= DriverManager.getConnection(url);

  7、PostgreSQL数据库

Class.forName("org.postgresql.Driver").newInstance();
String url ="jdbc:postgresql://localhost/myDB" //myDB为数据库名
String user="myuser";
String password="mypassword";
Connection conn= DriverManager.getConnection(url,user,password);

  8、access数据库直连用ODBC的

Class.forName("sun.jdbc.odbc.JdbcOdbcDriver") ;
String url="jdbc:odbc:Driver={MicroSoft Access Driver (*.mdb)};DBQ="+application.getRealPath("/Data/ReportDemo.mdb");
Connection conn = DriverManager.getConnection(url,"","");
Statement stmtNew=conn.createStatement() ;

二、JDBC连接MySql方式

  下面是使用JDBC连接MySql的一个小的教程

  1、查找驱动程序

  MySQL目前提供的java驱动程序为Connection/J,可以从MySQL官方网站下载,并找到mysql-connector-java-3.0.15-ga-bin.jar文件,此驱动程序为纯java驱动程序,不需做其他配置。
  

  2、动态指定classpath

  如果需要执行时动态指定classpath,就在执行时采用-cp方式。否则将上面的.jar文件加入到classpath环境变量中。

  3、加载驱动程序

try{
 Class.forName(com.mysql.jdbc.Driver);
 System.out.println(Success loading Mysql Driver!);
}catch(Exception e)
{
 System.out.println(Error loading Mysql Driver!);
 e.printStackTrace();
}

  4、设置连接的url

jdbc:mysql://localhost/databasename[?pa=va][&pa=va]

  三、以下列出了在使用JDBC来连接Oracle数据库时可以使用的一些技巧

  1、在客户端软件开发中使用Thin驱动程序

  在开发Java软件方面,Oracle的数据库提供了四种类型的驱动程序,二种用于应用软件、applets、servlets等客户端软件,另外二种用于数据库中的Java存储过程等服务器端软件。在客户机端软件的开发中,我们可以选择OCI驱动程序或Thin驱动程序。OCI驱动程序利用Java本地化接口(JNI),通过Oracle客户端软件与数据库进行通讯。Thin驱动程序是纯Java驱动程序,它直接与数据库进行通讯。为了获得最高的性能,Oracle建议在客户端软件的开发中使用OCI驱动程序,这似乎是正确的。但我建议使用Thin驱动程序,因为通过多次测试发现,在通常情况下,Thin驱动程序的性能都超过了OCI驱动程序。

  2、关闭自动提交功能,提高系统性能

  在第一次建立与数据库的连接时,在缺省情况下,连接是在自动提交模式下的。为了获得更好的性能,可以通过调用带布尔值false参数的Connection类的setAutoCommit()方法关闭自动提交功能,如下所示:

  conn.setAutoCommit(false);

  值得注意的是,一旦关闭了自动提交功能,我们就需要通过调用Connection类的commit()和rollback()方法来人工的方式对事务进行管理。

  3、在动态SQL或有时间限制的命令中使用Statement对象

  在执行SQL命令时,我们有二种选择:可以使用PreparedStatement对象,也可以使用Statement对象。无论多少次地使用同一个SQL命令,PreparedStatement都只对它解析和编译一次。当使用Statement对象时,每次执行一个SQL命令时,都会对它进行解析和编译。这可能会使你认为,使用PreparedStatement对象比使用Statement对象的速度更快。然而,我进行的测试表明,在客户端软件中,情况并非如此。因此,在有时间限制的SQL操作中,除非成批地处理SQL命令,我们应当考虑使用Statement对象。

  此外,使用Statement对象也使得编写动态SQL命令更加简单,因为我们可以将字符串连接在一起,建立一个有效的SQL命令。因此,我认为,Statement对象可以使动态SQL命令的创建和执行变得更加简单。

  4、利用helper函数对动态SQL命令进行格式化

  在创建使用Statement对象执行的动态SQL命令时,我们需要处理一些格式化方面的问题。例如,如果我们想创建一个将名字O'Reilly插入表中的SQL命令,则必须使用二个相连的“''”号替换O'Reilly中的“'”号。完成这些工作的最好的方法是创建一个完成替换操作的helper方法,然后在连接字符串心服用公式表达一个SQL命令时,使用创建的helper方法。与此类似的是,我们可以让helper方法接受一个Date型的值,然后让它输出基于Oracle的to_date()函数的字符串表达式。

  5、利用PreparedStatement对象提高数据库的总体效率

  在使用PreparedStatement对象执行SQL命令时,命令被数据库进行解析和编译,然后被放到命令缓冲区。然后,每当执行同一个PreparedStatement对象时,它就会被再解析一次,但不会被再次编译。在缓冲区中可以发现预编译的命令,并且可以重新使用。在有大量用户的企业级应用软件中,经常会重复执行相同的SQL命令,使用PreparedStatement对象带来的编译次数的减少能够提高数据库的总体性能。如果不是在客户端创建、预备、执行PreparedStatement任务需要的时间长于Statement任务,我会建议在除动态SQL命令之外的所有情况下使用PreparedStatement对象。

  6、在成批处理重复的插入或更新操作中使用PreparedStatement对象

  如果成批地处理插入和更新操作,就能够显著地减少它们所需要的时间。Oracle提供的Statement和 CallableStatement并不真正地支持批处理,只有PreparedStatement对象才真正地支持批处理。我们可以使用addBatch()和executeBatch()方法选择标准的JDBC批处理,或者通过利用PreparedStatement对象的setExecuteBatch()方法和标准的executeUpdate()方法选择速度更快的Oracle专有的方法。要使用Oracle专有的批处理机制,可以以如下所示的方式调用setExecuteBatch():

PreparedStatement pstmt3D null;
try {
 ((OraclePreparedStatement)pstmt).setExecuteBatch(30);
 ...
 pstmt.executeUpdate();
}

  调用setExecuteBatch()时指定的值是一个上限,当达到该值时,就会自动地引发SQL命令执行,标准的executeUpdate()方法就会被作为批处理送到数据库中。我们可以通过调用PreparedStatement类的sendBatch()方法随时传输批处理任务。

 7、使用Oracle locator方法插入、更新大对象(LOB)

  Oracle的PreparedStatement类不完全支持BLOB和CLOB等大对象的处理,尤其是Thin驱动程序不支持利用PreparedStatement对象的setObject()和setBinaryStream()方法设置BLOB的值,也不支持利用setCharacterStream()方法设置CLOB的值。只有locator本身中的方法才能够从数据库中获取LOB类型的值。可以使用PreparedStatement对象插入或更新LOB,但需要使用locator才能获取LOB的值。由于存在这二个问题,因此,我建议使用locator的方法来插入、更新或获取LOB的值。

  8、使用SQL92语法调用存储过程

  在调用存储过程时,我们可以使用SQL92或Oracle PL/SQL,由于使用Oracle PL/SQL并没有什么实际的好处,而且会给以后维护你的应用程序的开发人员带来麻烦,因此,我建议在调用存储过程时使用SQL92。

  9、使用Object SQL将对象模式转移到数据库中

  既然可以将Oracle的数据库作为一种面向对象的数据库来使用,就可以考虑将应用程序中的面向对象模式转到数据库中。目前的方法是创建Java bean作为伪装的数据库对象,将它们的属性映射到关系表中,然后在这些bean中添加方法。尽管这样作在Java中没有什么问题,但由于操作都是在数据库之外进行的,因此其他访问数据库的应用软件无法利用对象模式。如果利用Oracle的面向对象的技术,可以通过创建一个新的数据库对象类型在数据库中模仿其数据和操作,然后使用JPublisher等工具生成自己的Java bean类。如果使用这种方式,不但Java应用程序可以使用应用软件的对象模式,其他需要共享你的应用中的数据和操作的应用软件也可以使用应用软件中的对象模式。

  10、利用SQL完成数据库内的操作

  我要向大家介绍的最重要的经验是充分利用SQL的面向集合的方法来解决数据库处理需求,而不是使用Java等过程化的编程语言。

  如果编程人员要在一个表中查找许多行,结果中的每个行都会查找其他表中的数据,最后,编程人员创建了独立的UPDATE命令来成批地更新第一个表中的数据。与此类似的任务可以通过在set子句中使用多列子查询而在一个UPDATE命令中完成。当能够在单一的SQL命令中完成任务,何必要让数据在网上流来流去的?我建议用户认真学习如何最大限度地发挥SQL的功能。

分享16小时的高含金的Java和Linux课程视频

我听过网上不少老师的Java视频培训课程,从著名的张孝祥老师到孙鑫老师等等,觉得陈宝峰老师讲课也非常有特色,好东西,值得一听. 其他的也不多说什么了, 由各位看客听客自己评价. 我第一步先将这些资源放到Emule上共享,由于个人能力和资源有限,如果觉得东西"值",请帮忙分流,谢谢.
http://www.verycd.com/groups/datum/271534.topic 或者
http://bbs.verycd.com/topics/507860/ 需要注册用户才可以看见,有些不方便,内容是相同的.

题外话,不要以貌取人,看看文件很小,以为内容很少呢,其实每个文件的课时都标在那里了,一点不比那些几百MB文件要的短.

课程内容目录:

Java基础篇.rar 包中的内容

01.Java的发展与开发环境配置  时长 0:54:21
02.基本类型与变量定义      时长 0:59:54
03.操作符与表达式          时长 0:53:26
04.Java中的基本语句        时长 0:52:14
05.各种语句编程实例        时长 0:38:48
06.类的定义与使用          时长 1:01:37

Java进阶篇.rar 包中的内容

[Java专题篇]
01.SQL基础.wmv 时长0:46:16
02.数据库概述与MySQL获取安装.wmv  时长0:49:23
03.图形用户界面基础与AWT.wmv      时长0:46:28
04.Windows下的Eclipse使用入门.wmv 时长0:45:19

[Linux用户基础篇]
01.Unix与Linux概述.wmv  时长0:45:14
02.Red Hat Enterprise Linux5安装.wmv 时长0:45:51
03.初始Linux系统.wmv 时长0:56:15

[Servlet与JSP篇]
01.Web开发基础与Tomcat入门.wmv 时长0:51:14
02.Servlet的原理与生命周期.wmv 时长0:34:17
03.Servlet的开发与部署.wmv 时长0:46:34

Java连接各种数据库的实例

1、Oracle8/8i/9i数据库(thin模式)
Class.forName("Oracle.JDBC.driver.OracleDriver").newInstance();
String url="JDBC:oracle:thin:@localhost:1521:orcl";
//orcl为数据库的SID
String user="test";
String passWord="test";
Connection conn= DriverManager.getConnection(url,user,passWord);

2、DB2数据库
Class.forName("com.ibm.DB2.jdbc.app.DB2Driver ").newInstance();
String url="jdbc:db2://localhost:5000/sample";
//sample为你的数据库名
String user="admin";
String password="";
Connection conn= DriverManager.getConnection(url,user,password);

3、SQL Server7.0/2000数据库
Class.forName("com.microsoft.jdbc.sqlserver.SQLServerDriver").newInstance();
String url="jdbc:microsoft:sqlserver://localhost:1433;DatabaseName=mydb";
//mydb为数据库
String user="sa";
String password="";
Connection conn= DriverManager.getConnection(url,user,password);

4、Sybase数据库
Class.forName("com.Sybase.jdbc.SybDriver").newInstance();
String url =" jdbc:sybase:Tds:localhost:5007/myDB";
//myDB为你的数据库名
Properties sysProps = System.getProperties();
SysProps.put("user","userid");
SysProps.put("password","user_password");
Connection conn= DriverManager.getConnection(url, SysProps);

5、Informix数据库
Class.forName("com.informix.jdbc.IfxDriver").newInstance();
String url =
"jdbc:informix-sqli://123.45.67.89:1533/myDB:INFORMIXSERVER=myserver;
user=testuser;password=testpassword";
//myDB为数据库名
Connection conn= DriverManager.getConnection(url);

6、MySQL数据库
Class.forName("org.gjt.mm.MySQL.Driver").newInstance();
String url ="jdbc:mysql://localhost/myDB?user=soft&password=soft1234&useUnicode=true&characterEncoding=8859_1"
//myDB为数据库名
Connection conn= DriverManager.getConnection(url);

7、PostgreSQL数据库
Class.forName("org.postgresql.Driver").newInstance();
String url ="jdbc:postgresql://localhost/myDB"
//myDB为数据库名
String user="myuser";
String password="mypassword";
Connection conn= DriverManager.getConnection(url,user,password);

Eclipse+tomcat的安装配置

首先让我们看看准备工具:

jdk: jdk-1_5_0_05-windows-i586-p.exe

eclipse:eclipse-SDK-3.1.2-win32.zip

tomcat:jakarta-tomcat-5.0.28.exe

tomcat插件:tomcatPluginV31.zip

当所有这一切都准备好之后,让我们一项一项来安装配置

一 jdk的安装

jdk的安装只需要根据提示安装就可以了。中途你可以选择自己喜欢的安装路径。安装之后,会有一个jdk1.5.0_05和一个jre1.5.0_05文件夹。

然后开始设置环境变量。右键我的电脑--属性--高级--环境变量。在这里你可以选在在系统变量中添加,这样这台机器上的所有用户都可以使用这个环境变量。

添加CLASSPASS:  .;D:\Program Files\Java\jdk1.5.0_05\lib\tools.jar;D:\Program Files\Java\jdk1.5.0_05\lib\dt.jar  注意,在最前面有一个“.”,不要忘记了。这里面的路径要换成你自己的安装路径。

添加JAVA_HOME:  D:\Program Files\Java\jdk1.5.0_05 同样换成你自己的路径

二 tomcat的安装

按照安装提示进行安装就可以了。 中途可以选择端口。默认是8080。你可以改成80,这样在以后输入地址的时候比较方便。但是80端口比较容易发生冲突。所以这里就不用改了。(安装之后在配置文件中也可以重新设置端口号,请查阅相关资料)

在环境变量中添加 CATALINA_HOME: D:\Program Files\Tomcat 5.0

TOMCAT_HOME:D:\Program Files\Tomcat 5.0

TOMCAT_BASE:D:\Program Files\Tomcat 5.0

这里说明一下。我在网上搜了很多文章,对这里的环境变量设定不一。没有查到这三个环境变量具体有什么不同,可能是不同版本之间的差别?所以三个我全都写上了

在CLASSPATH中添加:D:\Program Files\Tomcat 5.0\common\lib\servlet-api.jar

在所有这一切做完之后,打开你的浏览器,输入 http://localhost:8080 看看会有什么事情发生。

三 eclipse的安装

将eclipse解压缩到目的文件夹。我的是D:\Program Files\eclipse。然后可以启动eclipse.exe。

关于eclipse的使用可以参看一些其他文章。

四 tomcat插件的安装

关闭eclipse。将tomcatPluginV31.zip解压缩,将解压缩的到的文件夹com.sysdeo.eclipse.tomcat_3.1.0拷贝到D:\Program Files\eclipse\plugins里面。

重新打开eclipse。然后在window--prefereces中的左侧找到java--Installed JREs,选中jdk1.5.0_05

然后在左侧找到tomcat,选择5.x版本 在tomcat根目录中,输入TOMCAT_HOME中的地址:D:\Program Files\Tomcat 5.0

在tomcat-advanced中,在tomcat base路径 一栏中,同样输入D:\Program Files\Tomcat 5.0