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Jobs
A Job creates one or more Pods and will continue to retry execution of the Pods until a specified number of them successfully terminate. As pods successfully complete, the Job tracks the successful completions. When a specified number of successful completions is reached, the task (ie, Job) is complete. Deleting a Job will clean up the Pods it created. Suspending a Job will delete its active Pods until the Job is resumed again.
A simple case is to create one Job object in order to reliably run one Pod to completion. The Job object will start a new Pod if the first Pod fails or is deleted (for example due to a node hardware failure or a node reboot).
You can also use a Job to run multiple Pods in parallel.
If you want to run a Job (either a single task, or several in parallel) on a schedule, see CronJob.
Running an example Job
Here is an example Job config. It computes π to 2000 places and prints it out. It takes around 10s to complete.
apiVersion: batch/v1
kind: Job
metadata:
name: pi
spec:
template:
spec:
containers:
- name: pi
image: perl
command: ["perl", "-Mbignum=bpi", "-wle", "print bpi(2000)"]
restartPolicy: Never
backoffLimit: 4
You can run the example with this command:
kubectl apply -f https://kubernetes.io/examples/controllers/job.yaml
The output is similar to this:
job.batch/pi created
Check on the status of the Job with kubectl
:
kubectl describe jobs/pi
The output is similar to this:
Name: pi
Namespace: default
Selector: controller-uid=c9948307-e56d-4b5d-8302-ae2d7b7da67c
Labels: controller-uid=c9948307-e56d-4b5d-8302-ae2d7b7da67c
job-name=pi
Annotations: kubectl.kubernetes.io/last-applied-configuration:
{"apiVersion":"batch/v1","kind":"Job","metadata":{"annotations":{},"name":"pi","namespace":"default"},"spec":{"backoffLimit":4,"template":...
Parallelism: 1
Completions: 1
Start Time: Mon, 02 Dec 2019 15:20:11 +0200
Completed At: Mon, 02 Dec 2019 15:21:16 +0200
Duration: 65s
Pods Statuses: 0 Running / 1 Succeeded / 0 Failed
Pod Template:
Labels: controller-uid=c9948307-e56d-4b5d-8302-ae2d7b7da67c
job-name=pi
Containers:
pi:
Image: perl
Port: <none>
Host Port: <none>
Command:
perl
-Mbignum=bpi
-wle
print bpi(2000)
Environment: <none>
Mounts: <none>
Volumes: <none>
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal SuccessfulCreate 14m job-controller Created pod: pi-5rwd7
To view completed Pods of a Job, use kubectl get pods
.
To list all the Pods that belong to a Job in a machine readable form, you can use a command like this:
pods=$(kubectl get pods --selector=job-name=pi --output=jsonpath='{.items[*].metadata.name}')
echo $pods
The output is similar to this:
pi-5rwd7
Here, the selector is the same as the selector for the Job. The --output=jsonpath
option specifies an expression
with the name from each Pod in the returned list.
View the standard output of one of the pods:
kubectl logs $pods
The output is similar to this:
3.1415926535897932384626433832795028841971693993751058209749445923078164062862089986280348253421170679821480865132823066470938446095505822317253594081284811174502841027019385211055596446229489549303819644288109756659334461284756482337867831652712019091456485669234603486104543266482133936072602491412737245870066063155881748815209209628292540917153643678925903600113305305488204665213841469519415116094330572703657595919530921861173819326117931051185480744623799627495673518857527248912279381830119491298336733624406566430860213949463952247371907021798609437027705392171762931767523846748184676694051320005681271452635608277857713427577896091736371787214684409012249534301465495853710507922796892589235420199561121290219608640344181598136297747713099605187072113499999983729780499510597317328160963185950244594553469083026425223082533446850352619311881710100031378387528865875332083814206171776691473035982534904287554687311595628638823537875937519577818577805321712268066130019278766111959092164201989380952572010654858632788659361533818279682303019520353018529689957736225994138912497217752834791315155748572424541506959508295331168617278558890750983817546374649393192550604009277016711390098488240128583616035637076601047101819429555961989467678374494482553797747268471040475346462080466842590694912933136770289891521047521620569660240580381501935112533824300355876402474964732639141992726042699227967823547816360093417216412199245863150302861829745557067498385054945885869269956909272107975093029553211653449872027559602364806654991198818347977535663698074265425278625518184175746728909777727938000816470600161452491921732172147723501414419735685481613611573525521334757418494684385233239073941433345477624168625189835694855620992192221842725502542568876717904946016534668049886272327917860857843838279679766814541009538837863609506800642251252051173929848960841284886269456042419652850222106611863067442786220391949450471237137869609563643719172874677646575739624138908658326459958133904780275901
Writing a Job spec
As with all other Kubernetes config, a Job needs apiVersion
, kind
, and metadata
fields.
Its name must be a valid DNS subdomain name.
A Job also needs a .spec
section.
Pod Template
The .spec.template
is the only required field of the .spec
.
The .spec.template
is a pod template. It has exactly the same schema as a Pod, except it is nested and does not have an apiVersion
or kind
.
In addition to required fields for a Pod, a pod template in a Job must specify appropriate labels (see pod selector) and an appropriate restart policy.
Only a RestartPolicy
equal to Never
or OnFailure
is allowed.
Pod selector
The .spec.selector
field is optional. In almost all cases you should not specify it.
See section specifying your own pod selector.
Parallel execution for Jobs
There are three main types of task suitable to run as a Job:
- Non-parallel Jobs
- normally, only one Pod is started, unless the Pod fails.
- the Job is complete as soon as its Pod terminates successfully.
- Parallel Jobs with a fixed completion count:
- specify a non-zero positive value for
.spec.completions
. - the Job represents the overall task, and is complete when there are
.spec.completions
successful Pods. - when using
.spec.completionMode="Indexed"
, each Pod gets a different index in the range 0 to.spec.completions-1
.
- specify a non-zero positive value for
- Parallel Jobs with a work queue:
- do not specify
.spec.completions
, default to.spec.parallelism
. - the Pods must coordinate amongst themselves or an external service to determine what each should work on. For example, a Pod might fetch a batch of up to N items from the work queue.
- each Pod is independently capable of determining whether or not all its peers are done, and thus that the entire Job is done.
- when any Pod from the Job terminates with success, no new Pods are created.
- once at least one Pod has terminated with success and all Pods are terminated, then the Job is completed with success.
- once any Pod has exited with success, no other Pod should still be doing any work for this task or writing any output. They should all be in the process of exiting.
- do not specify
For a non-parallel Job, you can leave both .spec.completions
and .spec.parallelism
unset. When both are
unset, both are defaulted to 1.
For a fixed completion count Job, you should set .spec.completions
to the number of completions needed.
You can set .spec.parallelism
, or leave it unset and it will default to 1.
For a work queue Job, you must leave .spec.completions
unset, and set .spec.parallelism
to
a non-negative integer.
For more information about how to make use of the different types of job, see the job patterns section.
Controlling parallelism
The requested parallelism (.spec.parallelism
) can be set to any non-negative value.
If it is unspecified, it defaults to 1.
If it is specified as 0, then the Job is effectively paused until it is increased.
Actual parallelism (number of pods running at any instant) may be more or less than requested parallelism, for a variety of reasons:
- For fixed completion count Jobs, the actual number of pods running in parallel will not exceed the number of
remaining completions. Higher values of
.spec.parallelism
are effectively ignored. - For work queue Jobs, no new Pods are started after any Pod has succeeded -- remaining Pods are allowed to complete, however.
- If the Job Controller has not had time to react.
- If the Job controller failed to create Pods for any reason (lack of
ResourceQuota
, lack of permission, etc.), then there may be fewer pods than requested. - The Job controller may throttle new Pod creation due to excessive previous pod failures in the same Job.
- When a Pod is gracefully shut down, it takes time to stop.
Completion mode
Kubernetes v1.22 [beta]
Jobs with fixed completion count - that is, jobs that have non null
.spec.completions
- can have a completion mode that is specified in .spec.completionMode
:
-
NonIndexed
(default): the Job is considered complete when there have been.spec.completions
successfully completed Pods. In other words, each Pod completion is homologous to each other. Note that Jobs that have null.spec.completions
are implicitlyNonIndexed
. -
Indexed
: the Pods of a Job get an associated completion index from 0 to.spec.completions-1
. The index is available through three mechanisms:- The Pod annotation
batch.kubernetes.io/job-completion-index
. - As part of the Pod hostname, following the pattern
$(job-name)-$(index)
. When you use an Indexed Job in combination with a Service, Pods within the Job can use the deterministic hostnames to address each other via DNS. - From the containarized task, in the environment variable
JOB_COMPLETION_INDEX
.
The Job is considered complete when there is one successfully completed Pod for each index. For more information about how to use this mode, see Indexed Job for Parallel Processing with Static Work Assignment. Note that, although rare, more than one Pod could be started for the same index, but only one of them will count towards the completion count.
- The Pod annotation
Handling Pod and container failures
A container in a Pod may fail for a number of reasons, such as because the process in it exited with
a non-zero exit code, or the container was killed for exceeding a memory limit, etc. If this
happens, and the .spec.template.spec.restartPolicy = "OnFailure"
, then the Pod stays
on the node, but the container is re-run. Therefore, your program needs to handle the case when it is
restarted locally, or else specify .spec.template.spec.restartPolicy = "Never"
.
See pod lifecycle for more information on restartPolicy
.
An entire Pod can also fail, for a number of reasons, such as when the pod is kicked off the node
(node is upgraded, rebooted, deleted, etc.), or if a container of the Pod fails and the
.spec.template.spec.restartPolicy = "Never"
. When a Pod fails, then the Job controller
starts a new Pod. This means that your application needs to handle the case when it is restarted in a new
pod. In particular, it needs to handle temporary files, locks, incomplete output and the like
caused by previous runs.
Note that even if you specify .spec.parallelism = 1
and .spec.completions = 1
and
.spec.template.spec.restartPolicy = "Never"
, the same program may
sometimes be started twice.
If you do specify .spec.parallelism
and .spec.completions
both greater than 1, then there may be
multiple pods running at once. Therefore, your pods must also be tolerant of concurrency.
Pod backoff failure policy
There are situations where you want to fail a Job after some amount of retries
due to a logical error in configuration etc.
To do so, set .spec.backoffLimit
to specify the number of retries before
considering a Job as failed. The back-off limit is set by default to 6. Failed
Pods associated with the Job are recreated by the Job controller with an
exponential back-off delay (10s, 20s, 40s ...) capped at six minutes. The
back-off count is reset when a Job's Pod is deleted or successful without any
other Pods for the Job failing around that time.
restartPolicy = "OnFailure"
, keep in mind that your Pod running the Job
will be terminated once the job backoff limit has been reached. This can make debugging the Job's executable more difficult. We suggest setting
restartPolicy = "Never"
when debugging the Job or using a logging system to ensure output
from failed Jobs is not lost inadvertently.
Job termination and cleanup
When a Job completes, no more Pods are created, but the Pods are usually not deleted either.
Keeping them around
allows you to still view the logs of completed pods to check for errors, warnings, or other diagnostic output.
The job object also remains after it is completed so that you can view its status. It is up to the user to delete
old jobs after noting their status. Delete the job with kubectl
(e.g. kubectl delete jobs/pi
or kubectl delete -f ./job.yaml
). When you delete the job using kubectl
, all the pods it created are deleted too.
By default, a Job will run uninterrupted unless a Pod fails (restartPolicy=Never
) or a Container exits in error (restartPolicy=OnFailure
), at which point the Job defers to the
.spec.backoffLimit
described above. Once .spec.backoffLimit
has been reached the Job will be marked as failed and any running Pods will be terminated.
Another way to terminate a Job is by setting an active deadline.
Do this by setting the .spec.activeDeadlineSeconds
field of the Job to a number of seconds.
The activeDeadlineSeconds
applies to the duration of the job, no matter how many Pods are created.
Once a Job reaches activeDeadlineSeconds
, all of its running Pods are terminated and the Job status will become type: Failed
with reason: DeadlineExceeded
.
Note that a Job's .spec.activeDeadlineSeconds
takes precedence over its .spec.backoffLimit
. Therefore, a Job that is retrying one or more failed Pods will not deploy additional Pods once it reaches the time limit specified by activeDeadlineSeconds
, even if the backoffLimit
is not yet reached.
Example:
apiVersion: batch/v1
kind: Job
metadata:
name: pi-with-timeout
spec:
backoffLimit: 5
activeDeadlineSeconds: 100
template:
spec:
containers:
- name: pi
image: perl
command: ["perl", "-Mbignum=bpi", "-wle", "print bpi(2000)"]
restartPolicy: Never
Note that both the Job spec and the Pod template spec within the Job have an activeDeadlineSeconds
field. Ensure that you set this field at the proper level.
Keep in mind that the restartPolicy
applies to the Pod, and not to the Job itself: there is no automatic Job restart once the Job status is type: Failed
.
That is, the Job termination mechanisms activated with .spec.activeDeadlineSeconds
and .spec.backoffLimit
result in a permanent Job failure that requires manual intervention to resolve.
Clean up finished jobs automatically
Finished Jobs are usually no longer needed in the system. Keeping them around in the system will put pressure on the API server. If the Jobs are managed directly by a higher level controller, such as CronJobs, the Jobs can be cleaned up by CronJobs based on the specified capacity-based cleanup policy.
TTL mechanism for finished Jobs
Kubernetes v1.21 [beta]
Another way to clean up finished Jobs (either Complete
or Failed
)
automatically is to use a TTL mechanism provided by a
TTL controller for
finished resources, by specifying the .spec.ttlSecondsAfterFinished
field of
the Job.
When the TTL controller cleans up the Job, it will delete the Job cascadingly, i.e. delete its dependent objects, such as Pods, together with the Job. Note that when the Job is deleted, its lifecycle guarantees, such as finalizers, will be honored.
For example:
apiVersion: batch/v1
kind: Job
metadata:
name: pi-with-ttl
spec:
ttlSecondsAfterFinished: 100
template:
spec:
containers:
- name: pi
image: perl
command: ["perl", "-Mbignum=bpi", "-wle", "print bpi(2000)"]
restartPolicy: Never
The Job pi-with-ttl
will be eligible to be automatically deleted, 100
seconds after it finishes.
If the field is set to 0
, the Job will be eligible to be automatically deleted
immediately after it finishes. If the field is unset, this Job won't be cleaned
up by the TTL controller after it finishes.
It is recommended to set ttlSecondsAfterFinished
field because unmanaged jobs
(Jobs that you created directly, and not indirectly through other workload APIs
such as CronJob) have a default deletion
policy of orphanDependents
causing Pods created by an unmanaged Job to be left around
after that Job is fully deleted.
Even though the control plane eventually
garbage collects
the Pods from a deleted Job after they either fail or complete, sometimes those
lingering pods may cause cluster performance degradation or in worst case cause the
cluster to go offline due to this degradation.
You can use LimitRanges and ResourceQuotas to place a cap on the amount of resources that a particular namespace can consume.
Job patterns
The Job object can be used to support reliable parallel execution of Pods. The Job object is not designed to support closely-communicating parallel processes, as commonly found in scientific computing. It does support parallel processing of a set of independent but related work items. These might be emails to be sent, frames to be rendered, files to be transcoded, ranges of keys in a NoSQL database to scan, and so on.
In a complex system, there may be multiple different sets of work items. Here we are just considering one set of work items that the user wants to manage together — a batch job.
There are several different patterns for parallel computation, each with strengths and weaknesses. The tradeoffs are:
- One Job object for each work item, vs. a single Job object for all work items. The latter is better for large numbers of work items. The former creates some overhead for the user and for the system to manage large numbers of Job objects.
- Number of pods created equals number of work items, vs. each Pod can process multiple work items. The former typically requires less modification to existing code and containers. The latter is better for large numbers of work items, for similar reasons to the previous bullet.
- Several approaches use a work queue. This requires running a queue service, and modifications to the existing program or container to make it use the work queue. Other approaches are easier to adapt to an existing containerised application.
The tradeoffs are summarized here, with columns 2 to 4 corresponding to the above tradeoffs. The pattern names are also links to examples and more detailed description.
Pattern | Single Job object | Fewer pods than work items? | Use app unmodified? |
---|---|---|---|
Queue with Pod Per Work Item | ✓ | sometimes | |
Queue with Variable Pod Count | ✓ | ✓ | |
Indexed Job with Static Work Assignment | ✓ | ✓ | |
Job Template Expansion | ✓ |
When you specify completions with .spec.completions
, each Pod created by the Job controller
has an identical spec
. This means that
all pods for a task will have the same command line and the same
image, the same volumes, and (almost) the same environment variables. These patterns
are different ways to arrange for pods to work on different things.
This table shows the required settings for .spec.parallelism
and .spec.completions
for each of the patterns.
Here, W
is the number of work items.
Pattern | .spec.completions |
.spec.parallelism |
---|---|---|
Queue with Pod Per Work Item | W | any |
Queue with Variable Pod Count | null | any |
Indexed Job with Static Work Assignment | W | any |
Job Template Expansion | 1 | should be 1 |
Advanced usage
Suspending a Job
Kubernetes v1.22 [beta]
When a Job is created, the Job controller will immediately begin creating Pods
to satisfy the Job's requirements and will continue to do so until the Job is
complete. However, you may want to temporarily suspend a Job's execution and
resume it later. To suspend a Job, you can update the .spec.suspend
field of
the Job to true; later, when you want to resume it again, update it to false.
Creating a Job with .spec.suspend
set to true will create it in the suspended
state.
When a Job is resumed from suspension, its .status.startTime
field will be
reset to the current time. This means that the .spec.activeDeadlineSeconds
timer will be stopped and reset when a Job is suspended and resumed.
Remember that suspending a Job will delete all active Pods. When the Job is
suspended, your Pods will be terminated
with a SIGTERM signal. The Pod's graceful termination period will be honored and
your Pod must handle this signal in this period. This may involve saving
progress for later or undoing changes. Pods terminated this way will not count
towards the Job's completions
count.
An example Job definition in the suspended state can be like so:
kubectl get job myjob -o yaml
apiVersion: batch/v1
kind: Job
metadata:
name: myjob
spec:
suspend: true
parallelism: 1
completions: 5
template:
spec:
...
The Job's status can be used to determine if a Job is suspended or has been suspended in the past:
kubectl get jobs/myjob -o yaml
apiVersion: batch/v1
kind: Job
# .metadata and .spec omitted
status:
conditions:
- lastProbeTime: "2021-02-05T13:14:33Z"
lastTransitionTime: "2021-02-05T13:14:33Z"
status: "True"
type: Suspended
startTime: "2021-02-05T13:13:48Z"
The Job condition of type "Suspended" with status "True" means the Job is
suspended; the lastTransitionTime
field can be used to determine how long the
Job has been suspended for. If the status of that condition is "False", then the
Job was previously suspended and is now running. If such a condition does not
exist in the Job's status, the Job has never been stopped.
Events are also created when the Job is suspended and resumed:
kubectl describe jobs/myjob
Name: myjob
...
Events:
Type Reason Age From Message
---- ------ ---- ---- -------
Normal SuccessfulCreate 12m job-controller Created pod: myjob-hlrpl
Normal SuccessfulDelete 11m job-controller Deleted pod: myjob-hlrpl
Normal Suspended 11m job-controller Job suspended
Normal SuccessfulCreate 3s job-controller Created pod: myjob-jvb44
Normal Resumed 3s job-controller Job resumed
The last four events, particularly the "Suspended" and "Resumed" events, are
directly a result of toggling the .spec.suspend
field. In the time between
these two events, we see that no Pods were created, but Pod creation restarted
as soon as the Job was resumed.
Specifying your own Pod selector
Normally, when you create a Job object, you do not specify .spec.selector
.
The system defaulting logic adds this field when the Job is created.
It picks a selector value that will not overlap with any other jobs.
However, in some cases, you might need to override this automatically set selector.
To do this, you can specify the .spec.selector
of the Job.
Be very careful when doing this. If you specify a label selector which is not
unique to the pods of that Job, and which matches unrelated Pods, then pods of the unrelated
job may be deleted, or this Job may count other Pods as completing it, or one or both
Jobs may refuse to create Pods or run to completion. If a non-unique selector is
chosen, then other controllers (e.g. ReplicationController) and their Pods may behave
in unpredictable ways too. Kubernetes will not stop you from making a mistake when
specifying .spec.selector
.
Here is an example of a case when you might want to use this feature.
Say Job old
is already running. You want existing Pods
to keep running, but you want the rest of the Pods it creates
to use a different pod template and for the Job to have a new name.
You cannot update the Job because these fields are not updatable.
Therefore, you delete Job old
but leave its pods
running, using kubectl delete jobs/old --cascade=orphan
.
Before deleting it, you make a note of what selector it uses:
kubectl get job old -o yaml
The output is similar to this:
kind: Job
metadata:
name: old
...
spec:
selector:
matchLabels:
controller-uid: a8f3d00d-c6d2-11e5-9f87-42010af00002
...
Then you create a new Job with name new
and you explicitly specify the same selector.
Since the existing Pods have label controller-uid=a8f3d00d-c6d2-11e5-9f87-42010af00002
,
they are controlled by Job new
as well.
You need to specify manualSelector: true
in the new Job since you are not using
the selector that the system normally generates for you automatically.
kind: Job
metadata:
name: new
...
spec:
manualSelector: true
selector:
matchLabels:
controller-uid: a8f3d00d-c6d2-11e5-9f87-42010af00002
...
The new Job itself will have a different uid from a8f3d00d-c6d2-11e5-9f87-42010af00002
. Setting
manualSelector: true
tells the system to that you know what you are doing and to allow this
mismatch.
Job tracking with finalizers
Kubernetes v1.22 [alpha]
In order to use this behavior, you must enable the JobTrackingWithFinalizers
feature gate
on the API server
and the controller manager.
It is disabled by default.
When enabled, the control plane tracks new Jobs using the behavior described below. Existing Jobs are unaffected. As a user, the only difference you would see is that the control plane tracking of Job completion is more accurate.
When this feature isn't enabled, the Job Controller
relies on counting the Pods that exist in the cluster to track the Job status,
that is, to keep the counters for succeeded
and failed
Pods.
However, Pods can be removed for a number of reasons, including:
- The garbage collector that removes orphan Pods when a Node goes down.
- The garbage collector that removes finished Pods (in
Succeeded
orFailed
phase) after a threshold. - Human intervention to delete Pods belonging to a Job.
- An external controller (not provided as part of Kubernetes) that removes or replaces Pods.
If you enable the JobTrackingWithFinalizers
feature for your cluster, the
control plane keeps track of the Pods that belong to any Job and notices if any
such Pod is removed from the API server. To do that, the Job controller creates Pods with
the finalizer batch.kubernetes.io/job-tracking
. The controller removes the
finalizer only after the Pod has been accounted for in the Job status, allowing
the Pod to be removed by other controllers or users.
The Job controller uses the new algorithm for new Jobs only. Jobs created
before the feature is enabled are unaffected. You can determine if the Job
controller is tracking a Job using Pod finalizers by checking if the Job has the
annotation batch.kubernetes.io/job-tracking
. You should not manually add
or remove this annotation from Jobs.
Alternatives
Bare Pods
When the node that a Pod is running on reboots or fails, the pod is terminated and will not be restarted. However, a Job will create new Pods to replace terminated ones. For this reason, we recommend that you use a Job rather than a bare Pod, even if your application requires only a single Pod.
Replication Controller
Jobs are complementary to Replication Controllers. A Replication Controller manages Pods which are not expected to terminate (e.g. web servers), and a Job manages Pods that are expected to terminate (e.g. batch tasks).
As discussed in Pod Lifecycle, Job
is only appropriate
for pods with RestartPolicy
equal to OnFailure
or Never
.
(Note: If RestartPolicy
is not set, the default value is Always
.)
Single Job starts controller Pod
Another pattern is for a single Job to create a Pod which then creates other Pods, acting as a sort of custom controller for those Pods. This allows the most flexibility, but may be somewhat complicated to get started with and offers less integration with Kubernetes.
One example of this pattern would be a Job which starts a Pod which runs a script that in turn starts a Spark master controller (see spark example), runs a spark driver, and then cleans up.
An advantage of this approach is that the overall process gets the completion guarantee of a Job object, but maintains complete control over what Pods are created and how work is assigned to them.
What's next
- Learn about Pods.
- Read about different ways of running Jobs:
- Coarse Parallel Processing Using a Work Queue
- Fine Parallel Processing Using a Work Queue
- Use an indexed Job for parallel processing with static work assignment (beta)
- Create multiple Jobs based on a template: Parallel Processing using Expansions
- Follow the links within Clean up finished jobs automatically to learn more about how your cluster can clean up completed and / or failed tasks.
Job
is part of the Kubernetes REST API. Read the Job object definition to understand the API for jobs.- Read about
CronJob
, which you can use to define a series of Jobs that will run based on a schedule, similar to the Unix toolcron
.