| [[sql-component]] |
| = SQL Component |
| :page-source: components/camel-sql/src/main/docs/sql-component.adoc |
| |
| *Available as of Camel version 1.4* |
| |
| The SQL component allows you to work with databases using JDBC |
| queries. The difference between this component and xref:jdbc-component.adoc[JDBC] |
| component is that in case of SQL the query is a property of the endpoint |
| and it uses message payload as parameters passed to the query. |
| |
| This component uses `spring-jdbc` behind the scenes for the actual SQL |
| handling. |
| |
| Maven users will need to add the following dependency to their `pom.xml` |
| for this component: |
| |
| [source,xml] |
| ---- |
| <dependency> |
| <groupId>org.apache.camel</groupId> |
| <artifactId>camel-sql</artifactId> |
| <version>x.x.x</version> |
| <!-- use the same version as your Camel core version --> |
| </dependency> |
| ---- |
| |
| The SQL component also supports: |
| |
| * a JDBC based repository for the |
| Idempotent Consumer EIP pattern. See |
| further below. |
| * a JDBC based repository for the Aggregator EIP |
| pattern. See further below. |
| |
| == URI format |
| |
| TIP: This component can be used as a |
| http://camel.apache.org/transactional-client.html[Transactional Client]. |
| |
| The SQL component uses the following endpoint URI notation: |
| |
| [source,text] |
| ---- |
| sql:select * from table where id=# order by name[?options] |
| ---- |
| |
| You can use named parameters by using |
| :`#name_of_the_parameter` style as shown: |
| |
| [source,text] |
| ---- |
| sql:select * from table where id=:#myId order by name[?options] |
| ---- |
| |
| When using named parameters, Camel will lookup the names from, in the |
| given precedence: |
| |
| 1. from message body if its a `java.util.Map` |
| 2. from message headers |
| |
| If a named parameter cannot be resolved, then an exception is thrown. |
| |
| You can use Simple expressions as parameters as |
| shown: |
| |
| [source,text] |
| ---- |
| sql:select * from table where id=:#${property.myId} order by name[?options] |
| ---- |
| |
| Notice that the standard `?` symbol that denotes the parameters to an |
| SQL query is substituted with the `pass:[#]` symbol, because the `?` symbol is |
| used to specify options for the endpoint. The `?` symbol replacement can |
| be configured on endpoint basis. |
| |
| You can externalize your SQL queries to files |
| in the classpath or file system as shown: |
| |
| [source,text] |
| ---- |
| sql:classpath:sql/myquery.sql[?options] |
| ---- |
| |
| And the myquery.sql file is in the classpath and is just a plain text |
| |
| [source,sql] |
| ---- |
| -- this is a comment |
| select * |
| from table |
| where |
| id = :#${property.myId} |
| order by |
| name |
| ---- |
| |
| In the file you can use multilines and format the SQL as you wish. And |
| also use comments such as the – dash line. |
| |
| You can append query options to the URI in the following format, |
| `?option=value&option=value&...` |
| |
| == Options |
| |
| |
| |
| // component options: START |
| The SQL component supports 3 options, which are listed below. |
| |
| |
| |
| [width="100%",cols="2,5,^1,2",options="header"] |
| |=== |
| | Name | Description | Default | Type |
| | *dataSource* (common) | Sets the DataSource to use to communicate with the database. | | DataSource |
| | *usePlaceholder* (advanced) | Sets whether to use placeholder and replace all placeholder characters with sign in the SQL queries. This option is default true | true | boolean |
| | *basicPropertyBinding* (advanced) | Whether the component should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities | false | boolean |
| |=== |
| // component options: END |
| |
| |
| |
| |
| // endpoint options: START |
| The SQL endpoint is configured using URI syntax: |
| |
| ---- |
| sql:query |
| ---- |
| |
| with the following path and query parameters: |
| |
| === Path Parameters (1 parameters): |
| |
| |
| [width="100%",cols="2,5,^1,2",options="header"] |
| |=== |
| | Name | Description | Default | Type |
| | *query* | *Required* Sets the SQL query to perform. You can externalize the query by using file: or classpath: as prefix and specify the location of the file. | | String |
| |=== |
| |
| |
| === Query Parameters (48 parameters): |
| |
| |
| [width="100%",cols="2,5,^1,2",options="header"] |
| |=== |
| | Name | Description | Default | Type |
| | *allowNamedParameters* (common) | Whether to allow using named parameters in the queries. | true | boolean |
| | *dataSource* (common) | Sets the DataSource to use to communicate with the database. | | DataSource |
| | *dataSourceRef* (common) | *Deprecated* Sets the reference to a DataSource to lookup from the registry, to use for communicating with the database. | | String |
| | *outputClass* (common) | Specify the full package and class name to use as conversion when outputType=SelectOne. | | String |
| | *outputHeader* (common) | Store the query result in a header instead of the message body. By default, outputHeader == null and the query result is stored in the message body, any existing content in the message body is discarded. If outputHeader is set, the value is used as the name of the header to store the query result and the original message body is preserved. | | String |
| | *outputType* (common) | Make the output of consumer or producer to SelectList as List of Map, or SelectOne as single Java object in the following way: a) If the query has only single column, then that JDBC Column object is returned. (such as SELECT COUNT( ) FROM PROJECT will return a Long object. b) If the query has more than one column, then it will return a Map of that result. c) If the outputClass is set, then it will convert the query result into an Java bean object by calling all the setters that match the column names. It will assume your class has a default constructor to create instance with. d) If the query resulted in more than one rows, it throws an non-unique result exception. | SelectList | SqlOutputType |
| | *separator* (common) | The separator to use when parameter values is taken from message body (if the body is a String type), to be inserted at # placeholders. Notice if you use named parameters, then a Map type is used instead. The default value is comma. | , | char |
| | *breakBatchOnConsumeFail* (consumer) | Sets whether to break batch if onConsume failed. | false | boolean |
| | *bridgeErrorHandler* (consumer) | Allows for bridging the consumer to the Camel routing Error Handler, which mean any exceptions occurred while the consumer is trying to pickup incoming messages, or the likes, will now be processed as a message and handled by the routing Error Handler. By default the consumer will use the org.apache.camel.spi.ExceptionHandler to deal with exceptions, that will be logged at WARN or ERROR level and ignored. | false | boolean |
| | *expectedUpdateCount* (consumer) | Sets an expected update count to validate when using onConsume. | -1 | int |
| | *maxMessagesPerPoll* (consumer) | Sets the maximum number of messages to poll | | int |
| | *onConsume* (consumer) | After processing each row then this query can be executed, if the Exchange was processed successfully, for example to mark the row as processed. The query can have parameter. | | String |
| | *onConsumeBatchComplete* (consumer) | After processing the entire batch, this query can be executed to bulk update rows etc. The query cannot have parameters. | | String |
| | *onConsumeFailed* (consumer) | After processing each row then this query can be executed, if the Exchange failed, for example to mark the row as failed. The query can have parameter. | | String |
| | *routeEmptyResultSet* (consumer) | Sets whether empty resultset should be allowed to be sent to the next hop. Defaults to false. So the empty resultset will be filtered out. | false | boolean |
| | *sendEmptyMessageWhenIdle* (consumer) | If the polling consumer did not poll any files, you can enable this option to send an empty message (no body) instead. | false | boolean |
| | *transacted* (consumer) | Enables or disables transaction. If enabled then if processing an exchange failed then the consumer break out processing any further exchanges to cause a rollback eager | false | boolean |
| | *useIterator* (consumer) | Sets how resultset should be delivered to route. Indicates delivery as either a list or individual object. defaults to true. | true | boolean |
| | *exceptionHandler* (consumer) | To let the consumer use a custom ExceptionHandler. Notice if the option bridgeErrorHandler is enabled then this option is not in use. By default the consumer will deal with exceptions, that will be logged at WARN or ERROR level and ignored. | | ExceptionHandler |
| | *exchangePattern* (consumer) | Sets the exchange pattern when the consumer creates an exchange. | | ExchangePattern |
| | *pollStrategy* (consumer) | A pluggable org.apache.camel.PollingConsumerPollingStrategy allowing you to provide your custom implementation to control error handling usually occurred during the poll operation before an Exchange have been created and being routed in Camel. | | PollingConsumerPollStrategy |
| | *processingStrategy* (consumer) | Allows to plugin to use a custom org.apache.camel.component.sql.SqlProcessingStrategy to execute queries when the consumer has processed the rows/batch. | | SqlProcessingStrategy |
| | *batch* (producer) | Enables or disables batch mode | false | boolean |
| | *lazyStartProducer* (producer) | Whether the producer should be started lazy (on the first message). By starting lazy you can use this to allow CamelContext and routes to startup in situations where a producer may otherwise fail during starting and cause the route to fail being started. By deferring this startup to be lazy then the startup failure can be handled during routing messages via Camel's routing error handlers. Beware that when the first message is processed then creating and starting the producer may take a little time and prolong the total processing time of the processing. | false | boolean |
| | *noop* (producer) | If set, will ignore the results of the SQL query and use the existing IN message as the OUT message for the continuation of processing | false | boolean |
| | *useMessageBodyForSql* (producer) | Whether to use the message body as the SQL and then headers for parameters. If this option is enabled then the SQL in the uri is not used. | false | boolean |
| | *alwaysPopulateStatement* (advanced) | If enabled then the populateStatement method from org.apache.camel.component.sql.SqlPrepareStatementStrategy is always invoked, also if there is no expected parameters to be prepared. When this is false then the populateStatement is only invoked if there is 1 or more expected parameters to be set; for example this avoids reading the message body/headers for SQL queries with no parameters. | false | boolean |
| | *basicPropertyBinding* (advanced) | Whether the endpoint should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities | false | boolean |
| | *parametersCount* (advanced) | If set greater than zero, then Camel will use this count value of parameters to replace instead of querying via JDBC metadata API. This is useful if the JDBC vendor could not return correct parameters count, then user may override instead. | | int |
| | *placeholder* (advanced) | Specifies a character that will be replaced to in SQL query. Notice, that it is simple String.replaceAll() operation and no SQL parsing is involved (quoted strings will also change). | # | String |
| | *prepareStatementStrategy* (advanced) | Allows to plugin to use a custom org.apache.camel.component.sql.SqlPrepareStatementStrategy to control preparation of the query and prepared statement. | | SqlPrepareStatementStrategy |
| | *synchronous* (advanced) | Sets whether synchronous processing should be strictly used, or Camel is allowed to use asynchronous processing (if supported). | false | boolean |
| | *templateOptions* (advanced) | Configures the Spring JdbcTemplate with the key/values from the Map | | Map |
| | *usePlaceholder* (advanced) | Sets whether to use placeholder and replace all placeholder characters with sign in the SQL queries. This option is default true | true | boolean |
| | *backoffErrorThreshold* (scheduler) | The number of subsequent error polls (failed due some error) that should happen before the backoffMultipler should kick-in. | | int |
| | *backoffIdleThreshold* (scheduler) | The number of subsequent idle polls that should happen before the backoffMultipler should kick-in. | | int |
| | *backoffMultiplier* (scheduler) | To let the scheduled polling consumer backoff if there has been a number of subsequent idles/errors in a row. The multiplier is then the number of polls that will be skipped before the next actual attempt is happening again. When this option is in use then backoffIdleThreshold and/or backoffErrorThreshold must also be configured. | | int |
| | *delay* (scheduler) | Milliseconds before the next poll. You can also specify time values using units, such as 60s (60 seconds), 5m30s (5 minutes and 30 seconds), and 1h (1 hour). | 500 | long |
| | *greedy* (scheduler) | If greedy is enabled, then the ScheduledPollConsumer will run immediately again, if the previous run polled 1 or more messages. | false | boolean |
| | *initialDelay* (scheduler) | Milliseconds before the first poll starts. You can also specify time values using units, such as 60s (60 seconds), 5m30s (5 minutes and 30 seconds), and 1h (1 hour). | 1000 | long |
| | *repeatCount* (scheduler) | Specifies a maximum limit of number of fires. So if you set it to 1, the scheduler will only fire once. If you set it to 5, it will only fire five times. A value of zero or negative means fire forever. | 0 | long |
| | *runLoggingLevel* (scheduler) | The consumer logs a start/complete log line when it polls. This option allows you to configure the logging level for that. | TRACE | LoggingLevel |
| | *scheduledExecutorService* (scheduler) | Allows for configuring a custom/shared thread pool to use for the consumer. By default each consumer has its own single threaded thread pool. | | ScheduledExecutorService |
| | *scheduler* (scheduler) | To use a cron scheduler from either camel-spring or camel-quartz component | none | String |
| | *schedulerProperties* (scheduler) | To configure additional properties when using a custom scheduler or any of the Quartz, Spring based scheduler. | | Map |
| | *startScheduler* (scheduler) | Whether the scheduler should be auto started. | true | boolean |
| | *timeUnit* (scheduler) | Time unit for initialDelay and delay options. | MILLISECONDS | TimeUnit |
| | *useFixedDelay* (scheduler) | Controls if fixed delay or fixed rate is used. See ScheduledExecutorService in JDK for details. | true | boolean |
| |=== |
| // endpoint options: END |
| // spring-boot-auto-configure options: START |
| == Spring Boot Auto-Configuration |
| |
| When using Spring Boot make sure to use the following Maven dependency to have support for auto configuration: |
| |
| [source,xml] |
| ---- |
| <dependency> |
| <groupId>org.apache.camel</groupId> |
| <artifactId>camel-sql-starter</artifactId> |
| <version>x.x.x</version> |
| <!-- use the same version as your Camel core version --> |
| </dependency> |
| ---- |
| |
| |
| The component supports 4 options, which are listed below. |
| |
| |
| |
| [width="100%",cols="2,5,^1,2",options="header"] |
| |=== |
| | Name | Description | Default | Type |
| | *camel.component.sql.basic-property-binding* | Whether the component should use basic property binding (Camel 2.x) or the newer property binding with additional capabilities | false | Boolean |
| | *camel.component.sql.data-source* | Sets the DataSource to use to communicate with the database. The option is a javax.sql.DataSource type. | | String |
| | *camel.component.sql.enabled* | Enable sql component | true | Boolean |
| | *camel.component.sql.use-placeholder* | Sets whether to use placeholder and replace all placeholder characters with sign in the SQL queries. This option is default true | true | Boolean |
| |=== |
| // spring-boot-auto-configure options: END |
| |
| |
| |
| == Treatment of the message body |
| |
| The SQL component tries to convert the message body to an object of |
| `java.util.Iterator` type and then uses this iterator to fill the query |
| parameters (where each query parameter is represented by a `pass:[#]` symbol |
| (or configured placeholder) in the endpoint URI). If the message body is |
| not an array or collection, the conversion results in an iterator that |
| iterates over only one object, which is the body itself. |
| |
| For example, if the message body is an instance of `java.util.List`, the |
| first item in the list is substituted into the first occurrence of `pass:[#]` |
| in the SQL query, the second item in the list is substituted into the |
| second occurrence of `pass:[#]`, and so on. |
| |
| If `batch` is set to `true`, then the interpretation of the inbound |
| message body changes slightly – instead of an iterator of parameters, |
| the component expects an iterator that contains the parameter iterators; |
| the size of the outer iterator determines the batch size. |
| |
| You can use the option useMessageBodyForSql that |
| allows to use the message body as the SQL statement, and then the SQL |
| parameters must be provided in a header with the |
| key SqlConstants.SQL_PARAMETERS. This allows the SQL component to work |
| more dynamic as the SQL query is from the message body. |
| |
| == Result of the query |
| |
| For `select` operations, the result is an instance of |
| `List<Map<String, Object>>` type, as returned by the |
| http://static.springframework.org/spring/docs/2.5.x/api/org/springframework/jdbc/core/JdbcTemplate.html#queryForList(java.lang.String,%20java.lang.Object%91%93)[JdbcTemplate.queryForList()] |
| method. For `update` operations, a `NULL` body is returned as the `update` operation is only set as a header and never as a body. |
| |
| NOTE: See <<sql-component-header-values, Header values>> for more information on the `update` operation. |
| |
| By default, the result is placed in the message body. If the |
| outputHeader parameter is set, the result is placed in the header. This |
| is an alternative to using a full message enrichment pattern to add |
| headers, it provides a concise syntax for querying a sequence or some |
| other small value into a header. It is convenient to use outputHeader |
| and outputType together: |
| |
| [source,java] |
| ---- |
| from("jms:order.inbox") |
| .to("sql:select order_seq.nextval from dual?outputHeader=OrderId&outputType=SelectOne") |
| .to("jms:order.booking"); |
| ---- |
| |
| == Using StreamList |
| |
| The producer supports outputType=StreamList |
| that uses an iterator to stream the output of the query. This allows to |
| process the data in a streaming fashion which for example can be used by |
| the Splitter EIP to process each row one at a time, |
| and load data from the database as needed. |
| |
| [source,java] |
| ---- |
| from("direct:withSplitModel") |
| .to("sql:select * from projects order by id?outputType=StreamList&outputClass=org.apache.camel.component.sql.ProjectModel") |
| .to("log:stream") |
| .split(body()).streaming() |
| .to("log:row") |
| .to("mock:result") |
| .end(); |
| ---- |
| |
| [[sql-component-header-values]] |
| == Header values |
| |
| When performing `update` operations, the SQL Component stores the update |
| count in the following message headers: |
| |
| [cols="1,3"] |
| |=== |
| |Header |Description |
| |
| |`CamelSqlUpdateCount` |The number of rows updated for `update` operations, returned as an |
| `Integer` object. This header is not provided when using |
| outputType=StreamList. |
| |
| |`CamelSqlRowCount` |The number of rows returned for `select` operations, returned as an |
| `Integer` object. This header is not provided when using |
| outputType=StreamList. |
| |
| |`CamelSqlQuery` |Query to execute. This query takes precedence over the |
| query specified in the endpoint URI. Note that query parameters in the |
| header _are_ represented by a `?` instead of a `pass:[#]` symbol |
| |=== |
| |
| When performing `insert` operations, the SQL Component stores the rows |
| with the generated keys and number of these rown in the following |
| message headers: |
| |
| [cols="1,3"] |
| |=== |
| |Header |Description |
| |
| |CamelSqlGeneratedKeysRowCount |The number of rows in the header that contains generated keys. |
| |
| |CamelSqlGeneratedKeyRows |Rows that contains the generated keys (a list of maps of keys). |
| |=== |
| |
| == Generated keys |
| |
| *Available as of Camel 2.12.4, 2.13.1 and 2.14* |
| |
| If you insert data using SQL INSERT, then the RDBMS may support auto |
| generated keys. You can instruct the SQL producer to return the |
| generated keys in headers. + |
| To do that set the header `CamelSqlRetrieveGeneratedKeys=true`. Then |
| the generated keys will be provided as headers with the keys listed in |
| the table above. |
| |
| You can see more details in this |
| https://gitbox.apache.org/repos/asf?p=camel.git;a=blob;f=components/camel-sql/src/test/java/org/apache/camel/component/sql/SqlGeneratedKeysTest.java;h=54c19b7332bb0aa81ee24ff3d3a66885a6b9e9aa;hb=HEAD[unit test]. |
| |
| == DataSource |
| |
| You can now set a reference to a `DataSource` in the URI directly: |
| |
| [source,text] |
| ---- |
| sql:select * from table where id=# order by name?dataSource=myDS |
| ---- |
| |
| == Using named parameters |
| |
| *Available as of Camel 2.11* |
| |
| In the given route below, we want to get all the projects from the |
| projects table. Notice the SQL query has 2 named parameters, :#lic and |
| :#min. + |
| Camel will then lookup for these parameters from the message body or |
| message headers. Notice in the example above we set two headers with |
| constant value + |
| for the named parameters: |
| |
| [source,java] |
| ---- |
| from("direct:projects") |
| .setHeader("lic", constant("ASF")) |
| .setHeader("min", constant(123)) |
| .to("sql:select * from projects where license = :#lic and id > :#min order by id") |
| ---- |
| |
| Though if the message body is a `java.util.Map` then the named |
| parameters will be taken from the body. |
| |
| [source,java] |
| ---- |
| from("direct:projects") |
| .to("sql:select * from projects where license = :#lic and id > :#min order by id") |
| ---- |
| |
| == Using expression parameters in producers |
| |
| *Available as of Camel 2.14* |
| |
| In the given route below, we want to get all the project from the |
| database. It uses the body of the exchange for defining the license and |
| uses the value of a property as the second parameter. |
| |
| [source,java] |
| ---- |
| from("direct:projects") |
| .setBody(constant("ASF")) |
| .setProperty("min", constant(123)) |
| .to("sql:select * from projects where license = :#${body} and id > :#${property.min} order by id") |
| ---- |
| |
| === Using expression parameters in consumers |
| |
| *Available as of Camel 2.23* |
| |
| When using the SQL component as consumer, you can now also use expression parameters (simple language) |
| to build dynamic query parameters, such as calling a method on a bean to retrieve an id, date or something. |
| |
| For example in the sample below we call the nextId method on the bean myIdGenerator: |
| |
| [source,java] |
| ---- |
| from("sql:select * from projects where id = :#${bean:myIdGenerator.nextId}") |
| .to("mock:result"); |
| ---- |
| |
| And the bean has the following method: |
| |
| [source,java] |
| ---- |
| public static class MyIdGenerator { |
| |
| private int id = 1; |
| |
| public int nextId() { |
| return id++; |
| } |
| ---- |
| |
| Notice that there is no existing `Exchange` with message body and headers, so |
| the simple expression you can use in the consumer are most useable for calling |
| bean methods as in this example. |
| |
| == Using IN queries with dynamic values |
| |
| *Available as of Camel 2.17* |
| |
| The SQL producer allows to use SQL queries with |
| IN statements where the IN values is dynamic computed. For example from |
| the message body or a header etc. |
| |
| To use IN you need to: |
| |
| * prefix the parameter name with `in:` |
| * add `( )` around the parameter |
| |
| An example explains this better. The following query is used: |
| |
| [source,sql] |
| ---- |
| -- this is a comment |
| select * |
| from projects |
| where project in (:#in:names) |
| order by id |
| ---- |
| |
| In the following route: |
| |
| [source,java] |
| ---- |
| from("direct:query") |
| .to("sql:classpath:sql/selectProjectsIn.sql") |
| .to("log:query") |
| .to("mock:query"); |
| ---- |
| |
| Then the IN query can use a header with the key names with the dynamic |
| values such as: |
| |
| [source,java] |
| ---- |
| // use an array |
| template.requestBodyAndHeader("direct:query", "Hi there!", "names", new String[]{"Camel", "AMQ"}); |
| |
| // use a list |
| List<String> names = new ArrayList<String>(); |
| names.add("Camel"); |
| names.add("AMQ"); |
| |
| template.requestBodyAndHeader("direct:query", "Hi there!", "names", names); |
| |
| // use a string separated values with comma |
| template.requestBodyAndHeader("direct:query", "Hi there!", "names", "Camel,AMQ"); |
| ---- |
| |
| The query can also be specified in the endpoint instead of being |
| externalized (notice that externalizing makes maintaining the SQL |
| queries easier) |
| |
| [source,java] |
| ---- |
| from("direct:query") |
| .to("sql:select * from projects where project in (:#in:names) order by id") |
| .to("log:query") |
| .to("mock:query"); |
| ---- |
| |
| |
| == Using the JDBC based idempotent repository |
| |
| *Available as of Camel 2.7* |
| |
| In this section we will use the JDBC based |
| idempotent repository. |
| |
| [TIP] |
| ==== |
| *Abstract class* |
| |
| There is an abstract class |
| `org.apache.camel.processor.idempotent.jdbc.AbstractJdbcMessageIdRepository` |
| you can extend to build custom JDBC idempotent repository. |
| ==== |
| |
| First we have to create the database table which will be used by the |
| idempotent repository. We use the following schema: |
| |
| [source,sql] |
| ---- |
| CREATE TABLE CAMEL_MESSAGEPROCESSED ( processorName VARCHAR(255), |
| messageId VARCHAR(100) ) |
| ---- |
| |
| |
| We added the createdAt column: |
| |
| [source,sql] |
| ---- |
| CREATE TABLE CAMEL_MESSAGEPROCESSED ( processorName VARCHAR(255), |
| messageId VARCHAR(100), createdAt TIMESTAMP ) |
| ---- |
| |
| WARNING: The SQL Server *TIMESTAMP* type is a fixed-length binary-string type. It |
| does not map to any of the JDBC time types: *DATE*, *TIME*, or |
| *TIMESTAMP*. |
| |
| When working with concurrent consumers it is crucial to create a unique constraint on the columns processorName and messageId. |
| Because the syntax for this constraint differs from database to database, we do not show it here. |
| |
| === Customize the JDBC idempotency repository |
| |
| You have a few options to tune the |
| `org.apache.camel.processor.idempotent.jdbc.JdbcMessageIdRepository` for |
| your needs: |
| |
| [cols="1,1,2"] |
| |=== |
| |Parameter |Default Value |Description |
| |
| |createTableIfNotExists |true |Defines whether or not Camel should try to create the table if it |
| doesn't exist. |
| |
| |tableExistsString |SELECT 1 FROM CAMEL_MESSAGEPROCESSED WHERE 1 = 0 |This query is used to figure out whether the table already exists or |
| not. It must throw an exception to indicate the table doesn't exist. |
| |
| |createString |CREATE TABLE CAMEL_MESSAGEPROCESSED (processorName VARCHAR(255), |
| messageId VARCHAR(100), createdAt TIMESTAMP) |The statement which is used to create the table. |
| |
| |queryString |SELECT COUNT(*) FROM CAMEL_MESSAGEPROCESSED WHERE processorName = ? AND |
| messageId = ? |The query which is used to figure out whether the message already exists |
| in the repository (the result is not equals to '0'). It takes two |
| parameters. This first one is the processor name (`String`) and the |
| second one is the message id (`String`). |
| |
| |insertString |INSERT INTO CAMEL_MESSAGEPROCESSED (processorName, messageId, createdAt) |
| VALUES (?, ?, ?) |The statement which is used to add the entry into the table. It takes |
| three parameter. The first one is the processor name (`String`), the |
| second one is the message id (`String`) and the third one is the |
| timestamp (`java.sql.Timestamp`) when this entry was added to the |
| repository. |
| |
| |deleteString |DELETE FROM CAMEL_MESSAGEPROCESSED WHERE processorName = ? AND messageId = ? |The statement which is used to delete the entry from the database. |
| It takes two parameter. This first one is the processor name (`String`) and |
| the second one is the message id (`String`). |
| |=== |
| |
| == Using the JDBC based aggregation repository |
| |
| *Available as of Camel 2.6* |
| |
| `JdbcAggregationRepository` is an `AggregationRepository` which on the |
| fly persists the aggregated messages. This ensures that you will not |
| loose messages, as the default aggregator will use an in memory only |
| `AggregationRepository`. The `JdbcAggregationRepository` allows together with Camel to provide |
| persistent support for the Aggregator. |
| |
| Only when an Exchange has been successfully |
| processed it will be marked as complete which happens when the `confirm` |
| method is invoked on the `AggregationRepository`. This means if the same |
| Exchange fails again it will be kept retried until |
| it success. |
| |
| You can use option `maximumRedeliveries` to limit the maximum number of |
| redelivery attempts for a given recovered Exchange. |
| You must also set the `deadLetterUri` option so Camel knows where to |
| send the Exchange when the `maximumRedeliveries` was |
| hit. |
| |
| You can see some examples in the unit tests of camel-sql, for example |
| https://svn.apache.org/repos/asf/camel/trunk/components/camel-sql/src/test/java/org/apache/camel/processor/aggregate/jdbc/JdbcAggregateRecoverDeadLetterChannelTest.java[this |
| test]. |
| |
| === Database |
| |
| To be operational, each aggregator uses two table: the aggregation and |
| completed one. By convention the completed has the same name as the |
| aggregation one suffixed with `"_COMPLETED"`. The name must be |
| configured in the Spring bean with the `RepositoryName` property. In the |
| following example aggregation will be used. |
| |
| The table structure definition of both table are identical: in both case |
| a String value is used as key (*id*) whereas a Blob contains the |
| exchange serialized in byte array. + |
| However one difference should be remembered: the *id* field does not |
| have the same content depending on the table. + |
| In the aggregation table *id* holds the correlation Id used by the |
| component to aggregate the messages. In the completed table, *id* holds |
| the id of the exchange stored in corresponding the blob field. |
| |
| Here is the SQL query used to create the tables, just replace |
| `"aggregation"` with your aggregator repository name. |
| |
| [source,sql] |
| ----- |
| CREATE TABLE aggregation ( |
| id varchar(255) NOT NULL, |
| exchange blob NOT NULL, |
| constraint aggregation_pk PRIMARY KEY (id) |
| ); |
| CREATE TABLE aggregation_completed ( |
| id varchar(255) NOT NULL, |
| exchange blob NOT NULL, |
| constraint aggregation_completed_pk PRIMARY KEY (id) |
| ); |
| ----- |
| |
| |
| == Storing body and headers as text |
| |
| *Available as of Camel 2.11* |
| |
| You can configure the `JdbcAggregationRepository` to store message body |
| and select(ed) headers as String in separate columns. For example to |
| store the body, and the following two headers `companyName` and |
| `accountName` use the following SQL: |
| |
| [source,sql] |
| ---- |
| CREATE TABLE aggregationRepo3 ( |
| id varchar(255) NOT NULL, |
| exchange blob NOT NULL, |
| body varchar(1000), |
| companyName varchar(1000), |
| accountName varchar(1000), |
| constraint aggregationRepo3_pk PRIMARY KEY (id) |
| ); |
| CREATE TABLE aggregationRepo3_completed ( |
| id varchar(255) NOT NULL, |
| exchange blob NOT NULL, |
| body varchar(1000), |
| companyName varchar(1000), |
| accountName varchar(1000), |
| constraint aggregationRepo3_completed_pk PRIMARY KEY (id) |
| ); |
| ---- |
| |
| And then configure the repository to enable this behavior as shown |
| below: |
| |
| [source,xml] |
| ---- |
| <bean id="repo3" |
| class="org.apache.camel.processor.aggregate.jdbc.JdbcAggregationRepository"> |
| <property name="repositoryName" value="aggregationRepo3"/> |
| <property name="transactionManager" ref="txManager3"/> |
| <property name="dataSource" ref="dataSource3"/> |
| <!-- configure to store the message body and following headers as text in the repo --> |
| <property name="storeBodyAsText" value="true"/> |
| <property name="headersToStoreAsText"> |
| <list> |
| <value>companyName</value> |
| <value>accountName</value> |
| </list> |
| </property> |
| </bean> |
| ---- |
| |
| === Codec (Serialization) |
| |
| Since they can contain any type of payload, Exchanges are not |
| serializable by design. It is converted into a byte array to be stored |
| in a database BLOB field. All those conversions are handled by the |
| `JdbcCodec` class. One detail of the code requires your attention: the |
| `ClassLoadingAwareObjectInputStream`. |
| |
| The `ClassLoadingAwareObjectInputStream` has been reused from the |
| http://activemq.apache.org/[Apache ActiveMQ] project. It wraps an |
| `ObjectInputStream` and use it with the `ContextClassLoader` rather than |
| the `currentThread` one. The benefit is to be able to load classes |
| exposed by other bundles. This allows the exchange body and headers to |
| have custom types object references. |
| |
| === Transaction |
| |
| A Spring `PlatformTransactionManager` is required to orchestrate |
| transaction. |
| |
| ==== Service (Start/Stop) |
| |
| The `start` method verify the connection of the database and the |
| presence of the required tables. If anything is wrong it will fail |
| during starting. |
| |
| === Aggregator configuration |
| |
| Depending on the targeted environment, the aggregator might need some |
| configuration. As you already know, each aggregator should have its own |
| repository (with the corresponding pair of table created in the |
| database) and a data source. If the default lobHandler is not adapted to |
| your database system, it can be injected with the `lobHandler` property. |
| |
| Here is the declaration for Oracle: |
| |
| [source,xml] |
| ---- |
| <bean id="lobHandler" class="org.springframework.jdbc.support.lob.OracleLobHandler"> |
| <property name="nativeJdbcExtractor" ref="nativeJdbcExtractor"/> |
| </bean> |
| <bean id="nativeJdbcExtractor" |
| class="org.springframework.jdbc.support.nativejdbc.CommonsDbcpNativeJdbcExtractor"/> |
| <bean id="repo" |
| class="org.apache.camel.processor.aggregate.jdbc.JdbcAggregationRepository"> |
| <property name="transactionManager" ref="transactionManager"/> |
| <property name="repositoryName" value="aggregation"/> |
| <property name="dataSource" ref="dataSource"/> |
| <!-- Only with Oracle, else use default --> |
| <property name="lobHandler" ref="lobHandler"/> |
| </bean> |
| ---- |
| |
| === Optimistic locking |
| |
| You can turn on `optimisticLocking` and use |
| this JDBC based aggregation repository in a clustered environment where |
| multiple Camel applications shared the same database for the aggregation |
| repository. If there is a race condition there JDBC driver will throw a |
| vendor specific exception which the `JdbcAggregationRepository` can |
| react upon. To know which caused exceptions from the JDBC driver is |
| regarded as an optimistick locking error we need a mapper to do this. |
| Therefore there is a |
| `org.apache.camel.processor.aggregate.jdbc.JdbcOptimisticLockingExceptionMapper` |
| allows you to implement your custom logic if needed. There is a default |
| implementation |
| `org.apache.camel.processor.aggregate.jdbc.DefaultJdbcOptimisticLockingExceptionMapper` |
| which works as follows: |
| |
| The following check is done: |
| |
| * If the caused exception is an `SQLException` then the SQLState is |
| checked if starts with 23. |
| * If the caused exception is a `DataIntegrityViolationException` |
| * If the caused exception class name has "ConstraintViolation" in its |
| name. |
| * Optional checking for FQN class name matches if any class names has been |
| configured. |
| |
| You can in addition add FQN classnames, and if any of the caused |
| exception (or any nested) equals any of the FQN class names, then its an |
| optimistick locking error. |
| |
| Here is an example, where we define 2 extra FQN class names from the |
| JDBC vendor. |
| |
| [source,xml] |
| ---- |
| <bean id="repo" |
| class="org.apache.camel.processor.aggregate.jdbc.JdbcAggregationRepository"> |
| <property name="transactionManager" ref="transactionManager"/> |
| <property name="repositoryName" value="aggregation"/> |
| <property name="dataSource" ref="dataSource"/> |
| <property name="jdbcOptimisticLockingExceptionMapper" ref="myExceptionMapper"/> |
| </bean> |
| <!-- use the default mapper with extraFQN class names from our JDBC driver --> |
| <bean id="myExceptionMapper" class="org.apache.camel.processor.aggregate.jdbc.DefaultJdbcOptimisticLockingExceptionMapper"> |
| <property name="classNames"> |
| <util:set> |
| <value>com.foo.sql.MyViolationExceptoion</value> |
| <value>com.foo.sql.MyOtherViolationExceptoion</value> |
| </util:set> |
| </property> |
| </bean> |
| ---- |
| |
| === Propagation behavior |
| |
| `JdbcAggregationRepository` uses two distinct _transaction templates_ from Spring-TX. One is read-only |
| and one is used for read-write operations. |
| |
| However, when using `JdbcAggregationRepository` within a route that itself uses `<transacted />` and there's |
| common `PlatformTransactionManager` used, there may be a need to configure _propagation behavior_ used by |
| transaction templates inside `JdbcAggregationRepository`. |
| |
| Here's a way to do it: |
| [source,xml] |
| ---- |
| <bean id="repo" |
| class="org.apache.camel.processor.aggregate.jdbc.JdbcAggregationRepository"> |
| <property name="propagationBehaviorName" value="PROPAGATION_NESTED" /> |
| </bean> |
| ---- |
| |
| Propagation is specified by constants of `org.springframework.transaction.TransactionDefinition` interface, |
| so `propagationBehaviorName` is convenient setter that allows to use names of the constants. |
| |
| === PostgreSQL case |
| |
| There's special database that may cause problems with optimistic locking used by `JdbcAggregationRepository`. |
| PostgreSQL marks connection as invalid in case of data integrity violation exception (the one with SQLState 23505). |
| This makes the connection effectively unusable within nested transaction. |
| Details can be found |
| https://www.postgresql.org/message-id/200609241203.59292.ralf.wiebicke%40exedio.com[in this document]. |
| |
| `org.apache.camel.processor.aggregate.jdbc.PostgresAggregationRepository` extends `JdbcAggregationRepository` and |
| uses special `INSERT .. ON CONFLICT ..` statement to provide optimistic locking behavior. |
| |
| This statement is (with default aggregation table definition): |
| [source,sql] |
| ---- |
| INSERT INTO aggregation (id, exchange) values (?, ?) ON CONFLICT DO NOTHING |
| ---- |
| |
| Details can be found https://www.postgresql.org/docs/9.5/sql-insert.html[in PostgreSQL documentation]. |
| |
| When this clause is used, `java.sql.PreparedStatement.executeUpdate()` call returns `0` instead of throwing |
| SQLException with SQLState=23505. Further handling is exactly the same as with generic `JdbcAggregationRepository`, |
| but without marking PostgreSQL connection as invalid. |
| |
| == Camel Sql Starter |
| |
| A starter module is available to spring-boot users. When using the starter, |
| the `DataSource` can be directly configured using spring-boot properties. |
| |
| [source,java] |
| ---- |
| # Example for a mysql datasource |
| spring.datasource.url=jdbc:mysql://localhost/test |
| spring.datasource.username=dbuser |
| spring.datasource.password=dbpass |
| spring.datasource.driver-class-name=com.mysql.jdbc.Driver |
| ---- |
| |
| To use this feature, add the following dependencies to your spring boot pom.xml file: |
| |
| [source,xml] |
| ---- |
| <dependency> |
| <groupId>org.apache.camel</groupId> |
| <artifactId>camel-sql-starter</artifactId> |
| <version>${camel.version}</version> <!-- use the same version as your Camel core version --> |
| </dependency> |
| |
| <dependency> |
| <groupId>org.springframework.boot</groupId> |
| <artifactId>spring-boot-starter-jdbc</artifactId> |
| <version>${spring-boot-version}</version> |
| </dependency> |
| ---- |
| |
| You should also include the specific database driver, if needed. |
| |