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Configuring a Step
for Restart
In the “Configuring and Running a Job” section , restarting a
Job
was discussed. Restart has numerous impacts on steps, and, consequently, may
require some specific configuration.
Setting a Start Limit
There are many scenarios where you may want to control the number of times a Step
can
be started. For example, you might need to configure a particular Step
so that it
runs only once because it invalidates some resource that must be fixed manually before it can
be run again. This is configurable on the step level, since different steps may have
different requirements. A Step
that can be executed only once can exist as part of the
same Job
as a Step
that can be run infinitely.
-
Java
-
XML
The following code fragment shows an example of a start limit configuration in Java:
@Bean
public Step step1(JobRepository jobRepository, PlatformTransactionManager transactionManager) {
return new StepBuilder("step1", jobRepository)
.<String, String>chunk(10, transactionManager)
.reader(itemReader())
.writer(itemWriter())
.startLimit(1)
.build();
}
The following code fragment shows an example of a start limit configuration in XML:
<step id="step1">
<tasklet start-limit="1">
<chunk reader="itemReader" writer="itemWriter" commit-interval="10"/>
</tasklet>
</step>
The step shown in the preceding example can be run only once. Attempting to run it again
causes a StartLimitExceededException
to be thrown. Note that the default value for the
start-limit is Integer.MAX_VALUE
.
Restarting a Completed Step
In the case of a restartable job, there may be one or more steps that should always be
run, regardless of whether or not they were successful the first time. An example might
be a validation step or a Step
that cleans up resources before processing. During
normal processing of a restarted job, any step with a status of COMPLETED
(meaning it
has already been completed successfully), is skipped. Setting allow-start-if-complete
to
true
overrides this so that the step always runs.
-
Java
-
XML
The following code fragment shows how to define a restartable job in Java:
@Bean
public Step step1(JobRepository jobRepository, PlatformTransactionManager transactionManager) {
return new StepBuilder("step1", jobRepository)
.<String, String>chunk(10, transactionManager)
.reader(itemReader())
.writer(itemWriter())
.allowStartIfComplete(true)
.build();
}
The following code fragment shows how to define a restartable job in XML:
<step id="step1">
<tasklet allow-start-if-complete="true">
<chunk reader="itemReader" writer="itemWriter" commit-interval="10"/>
</tasklet>
</step>
Step
Restart Configuration Example
-
Java
-
XML
The following Java example shows how to configure a job to have steps that can be restarted:
@Bean
public Job footballJob(JobRepository jobRepository, Step playerLoad, Step gameLoad, Step playerSummarization) {
return new JobBuilder("footballJob", jobRepository)
.start(playerLoad)
.next(gameLoad)
.next(playerSummarization)
.build();
}
@Bean
public Step playerLoad(JobRepository jobRepository, PlatformTransactionManager transactionManager) {
return new StepBuilder("playerLoad", jobRepository)
.<String, String>chunk(10, transactionManager)
.reader(playerFileItemReader())
.writer(playerWriter())
.build();
}
@Bean
public Step gameLoad(JobRepository jobRepository, PlatformTransactionManager transactionManager) {
return new StepBuilder("gameLoad", jobRepository)
.allowStartIfComplete(true)
.<String, String>chunk(10, transactionManager)
.reader(gameFileItemReader())
.writer(gameWriter())
.build();
}
@Bean
public Step playerSummarization(JobRepository jobRepository, PlatformTransactionManager transactionManager) {
return new StepBuilder("playerSummarization", jobRepository)
.startLimit(2)
.<String, String>chunk(10, transactionManager)
.reader(playerSummarizationSource())
.writer(summaryWriter())
.build();
}
The following XML example shows how to configure a job to have steps that can be restarted:
<job id="footballJob" restartable="true">
<step id="playerload" next="gameLoad">
<tasklet>
<chunk reader="playerFileItemReader" writer="playerWriter"
commit-interval="10" />
</tasklet>
</step>
<step id="gameLoad" next="playerSummarization">
<tasklet allow-start-if-complete="true">
<chunk reader="gameFileItemReader" writer="gameWriter"
commit-interval="10"/>
</tasklet>
</step>
<step id="playerSummarization">
<tasklet start-limit="2">
<chunk reader="playerSummarizationSource" writer="summaryWriter"
commit-interval="10"/>
</tasklet>
</step>
</job>
The preceding example configuration is for a job that loads in information about football
games and summarizes them. It contains three steps: playerLoad
, gameLoad
, and
playerSummarization
. The playerLoad
step loads player information from a flat file,
while the gameLoad
step does the same for games. The final step,
playerSummarization
, then summarizes the statistics for each player, based upon the
provided games. It is assumed that the file loaded by playerLoad
must be loaded only
once but that gameLoad
can load any games found within a particular directory,
deleting them after they have been successfully loaded into the database. As a result,
the playerLoad
step contains no additional configuration. It can be started any number
of times is skipped if complete. The gameLoad
step, however, needs to be run
every time in case extra files have been added since it last ran. It has
allow-start-if-complete
set to true
to always be started. (It is assumed
that the database table that games are loaded into has a process indicator on it, to ensure
new games can be properly found by the summarization step). The summarization step,
which is the most important in the job, is configured to have a start limit of 2. This
is useful because, if the step continually fails, a new exit code is returned to the
operators that control job execution, and it can not start again until manual
intervention has taken place.
This job provides an example for this document and is not the same as the footballJob
found in the samples project.
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The remainder of this section describes what happens for each of the three runs of the
footballJob
example.
Run 1:
-
playerLoad
runs and completes successfully, adding 400 players to thePLAYERS
table. -
gameLoad
runs and processes 11 files worth of game data, loading their contents into theGAMES
table. -
playerSummarization
begins processing and fails after 5 minutes.
Run 2:
-
playerLoad
does not run, since it has already completed successfully, andallow-start-if-complete
isfalse
(the default). -
gameLoad
runs again and processes another 2 files, loading their contents into theGAMES
table as well (with a process indicator indicating they have yet to be processed). -
playerSummarization
begins processing of all remaining game data (filtering using the process indicator) and fails again after 30 minutes.
Run 3:
-
playerLoad
does not run, since it has already completed successfully, andallow-start-if-complete
isfalse
(the default). -
gameLoad
runs again and processes another 2 files, loading their contents into theGAMES
table as well (with a process indicator indicating they have yet to be processed). -
playerSummarization
is not started and the job is immediately killed, since this is the third execution ofplayerSummarization
, and its limit is only 2. Either the limit must be raised or theJob
must be executed as a newJobInstance
.