- Overview
- Configuring
Workspaces
- More examples
Workspaces
allow Tasks
to declare parts of the filesystem that need to be provided
at runtime by TaskRuns
. A TaskRun
can make these parts of the filesystem available
in many ways: using a read-only ConfigMap
or Secret
, an existing PersistentVolumeClaim
shared with other Tasks, create a PersistentVolumeClaim
from a provided VolumeClaimTemplate
, or simply an emptyDir
that is discarded when the TaskRun
completes.
Workspaces
are similar to Volumes
except that they allow a Task
author
to defer to users and their TaskRuns
when deciding which class of storage to use.
Workspaces can serve the following purposes:
- Storage of inputs and/or outputs
- Sharing data among
Tasks
- A mount point for credentials held in
Secrets
- A mount point for configurations held in
ConfigMaps
- A mount point for common tools shared by an organization
- A cache of build artifacts that speed up jobs
Tasks
specify where a Workspace
resides on disk for its Steps
. At
runtime, a TaskRun
provides the specific details of the Volume
that is
mounted into that Workspace
.
This separation of concerns allows for a lot of flexibility. For example, in isolation,
a single TaskRun
might simply provide an emptyDir
volume that mounts quickly
and disappears at the end of the run. In a more complex system, however, a TaskRun
might use a PersistentVolumeClaim
which is pre-populated with
data for the Task
to process. In both scenarios the Task's
Workspace
declaration remains the same and only the runtime
information in the TaskRun
changes.
A Pipeline
can use Workspaces
to show how storage will be shared through
its Tasks
. For example, Task
A might clone a source repository onto a Workspace
and Task
B might compile the code that it finds in that Workspace
. It's
the Pipeline's
job to ensure that the Workspace
these two Tasks
use is the
same, and more importantly, that the order in which they access the Workspace
is
correct.
PipelineRuns
perform mostly the same duties as TaskRuns
- they provide the
specific Volume
information to use for the Workspaces
used by each Pipeline
.
PipelineRuns
have the added responsibility of ensuring that whatever Volume
type they
provide can be safely and correctly shared across multiple Tasks
.
This section describes how to configure one or more Workspaces
in a TaskRun
.
To configure one or more Workspaces
in a Task
, add a workspaces
list with each entry using the following fields:
name
- (required) A unique string identifier that can be used to refer to the workspacedescription
- An informative string describing the purpose of theWorkspace
readOnly
- A boolean declaring whether theTask
will write to theWorkspace
.mountPath
- A path to a location on disk where the workspace will be available toSteps
. Relative paths will be prepended with/workspace
. If amountPath
is not provided the workspace will be placed by default at/workspace/<name>
where<name>
is the workspace's unique name.
Note the following:
- A
Task
definition can include as manyWorkspaces
as it needs. - A
readOnly
Workspace
will have its volume mounted as read-only. Attempting to write to areadOnly
Workspace
will result in errors and failedTaskRuns
. mountPath
can be either absolute or relative. Absolute paths start with/
and relative paths start with the name of a directory. For example, amountPath
of"/foobar"
is absolute and exposes theWorkspace
at/foobar
inside theTask's
Steps
, but amountPath
of"foobar"
is relative and exposes theWorkspace
at/workspace/foobar
.
Below is an example Task
definition that includes a Workspace
called messages
to which the Task
writes a message:
spec:
steps:
- name: write-message
image: ubuntu
script: |
#!/usr/bin/env bash
set -xe
echo hello! > $(workspaces.messages.path)/message
workspaces:
- name: messages
description: The folder where we write the message to
mountPath: /custom/path/relative/to/root
The following variables make information about Workspaces
available to Tasks
:
$(workspaces.<name>.path)
- specifies the path to aWorkspace
where<name>
is the name of theWorkspace
.$(workspaces.<name>.claim)
- specifies the name of thePersistentVolumeClaim
used as a volume source for theWorkspace
where<name>
is the name of theWorkspace
. If a volume source other thanPersistentVolumeClaim
is used, an empty string is returned.$(workspaces.<name>.volume)
- specifies the name of theVolume
provided for aWorkspace
where<name>
is the name of theWorkspace
.
A TaskRun
that executes a Task
containing a workspaces
list must bind
those workspaces
to actual physical Volumes
. To do so, the TaskRun
includes
its own workspaces
list. Each entry in the list contains the following fields:
name
- (required) The name of theWorkspace
within theTask
for which theVolume
is being providedsubPath
- An optional subdirectory on theVolume
to store data for thatWorkspace
The entry must also include one VolumeSource
. See Using VolumeSources
with Workspaces
for more information.
Caution:
- The
subPath
must exist on theVolume
before theTaskRun
executes or the execution will fail. - The
Workspaces
declared in aTask
must be available when executing the associatedTaskRun
. Otherwise, theTaskRun
will fail.
The following example illustrate how to specify Workspaces
in your TaskRun
definition,
an emptyDir
is provided for a Task's workspace
called myworkspace
:
apiVersion: tekton.dev/v1beta1
kind: TaskRun
metadata:
generateName: example-taskrun-
spec:
taskRef:
name: example-task
workspaces:
- name: myworkspace # this workspace name must be declared in the Task
emptyDir: {} # emptyDir volumes can be used for TaskRuns, but consider using a PersistentVolumeClaim for PipelineRuns
For examples of using other types of volume sources, see Specifying VolumeSources
in Workspaces
.
For a more in-depth example, see Workspaces
in a TaskRun
.
While individual Tasks
declare the Workspaces
they need to run, the Pipeline
decides
which Workspaces
are shared among its Tasks
. To declare shared Workspaces
in a Pipeline
,
you must add the following information to your Pipeline
definition:
- A list of
Workspaces
that yourPipelineRuns
will be providing. Use theworkspaces
field to specify the targetWorkspaces
in yourPipeline
definition as shown below. Each entry in the list must have a unique name. - A mapping of
Workspace
names between thePipeline
and theTask
definitions.
The example below defines a Pipeline
with a single Workspace
named pipeline-ws1
. This
Workspace
is bound in two Tasks
- first as the output
workspace declared by the gen-code
Task
, then as the src
workspace declared by the commit
Task
. If the Workspace
provided by the PipelineRun
is a PersistentVolumeClaim
then these two Tasks
can share
data within that Workspace
.
spec:
workspaces:
- name: pipeline-ws1 # Name of the workspace in the Pipeline
tasks:
- name: use-ws-from-pipeline
taskRef:
name: gen-code # gen-code expects a workspace named "output"
workspaces:
- name: output
workspace: pipeline-ws1
- name: use-ws-again
taskRef:
name: commit # commit expects a workspace named "src"
workspaces:
- name: src
workspace: pipeline-ws1
runAfter:
- use-ws-from-pipeline # important: use-ws-from-pipeline writes to the workspace first
Include a subPath
in the workspace binding to mount different parts of the same volume for different Tasks. See a full example of this kind of Pipeline which writes data to two adjacent directories on the same Volume.
The subPath
specified in a Pipeline
will be appended to any subPath
specified as part of the PipelineRun
workspace declaration. So a PipelineRun
declaring a Workspace with subPath
of /foo
for a Pipeline
who binds it to a Task
with subPath
of /bar
will end up mounting the Volume
's /foo/bar
directory.
Sharing a Workspace
between Tasks
requires you to define the order in which those Tasks
will be accessing that Workspace
since different classes of storage have different limits
for concurrent reads and writes. For example, a PersistentVolumeClaim
with
access mode
ReadWriteOnce
only allow Tasks
on the same node writing to it at once.
Using parallel Tasks
in a Pipeline
will work with PersistentVolumeClaims
configured with
access mode
ReadWriteMany
or ReadOnlyMany
but you must ensure that those are available for your storage class.
When using PersistentVolumeClaims
with access mode ReadWriteOnce
for parallel Tasks
, you can configure a
workspace with it's own PersistentVolumeClaim
for each parallel Task
.
Use the runAfter
field in your Pipeline
definition to define when a Task
should be executed. For more
information, see the runAfter
documentation.
Warning: You must ensure that this order is compatible with the configured access modes for your PersistentVolumeClaim
.
Parallel Tasks
using the same PersistentVolumeClaim
with access mode ReadWriteOnce
, may execute on
different nodes and be forced to execute sequentially which may cause Tasks
to time out.
For a PipelineRun
to execute a Pipeline
that includes one or more Workspaces
, it needs to
bind the Workspace
names to volumes using its own workspaces
field. Each entry in
this list must correspond to a Workspace
declaration in the Pipeline
. Each entry in the
workspaces
list must specify the following:
name
- (required) the name of theWorkspace
specified in thePipeline
definition for which a volume is being provided.subPath
- (optional) a directory on the volume that will store thatWorkspace's
data. This directory must exist at the time theTaskRun
executes, otherwise the execution will fail.
The entry must also include one VolumeSource
. See Using VolumeSources
with Workspaces
for more information.
Note: If the Workspaces
specified by a Pipeline
are not provided at runtime by a PipelineRun
, that PipelineRun
will fail.
In the example below, a volumeClaimTemplate
is provided for how a PersistentVolumeClaim
should be created for a workspace named
myworkspace
declared in a Pipeline
. When using volumeClaimTemplate
a new PersistentVolumeClaim
is created for
each PipelineRun
and it allows the user to specify e.g. size and StorageClass for the volume.
apiVersion: tekton.dev/v1beta1
kind: PipelineRun
metadata:
generateName: example-pipelinerun-
spec:
pipelineRef:
name: example-pipeline
workspaces:
- name: myworkspace # this workspace name must be declared in the Pipeline
volumeClaimTemplate:
spec:
accessModes:
- ReadWriteOnce # access mode may affect how you can use this volume in parallel tasks
resources:
requests:
storage: 1Gi
For examples of using other types of volume sources, see Specifying VolumeSources
in Workspaces
.
For a more in-depth example, see the Workspaces
in PipelineRun
YAML sample.
You can only use a single type of VolumeSource
per Workspace
entry. The configuration
options differ for each type. Workspaces
support the following fields:
PersistentVolumeClaim
volumes are a good choice for sharing data among Tasks
within a Pipeline
.
Beware that the access mode
configured for the PersinstentVolumeClaim
effects how you can use the volume for parallel Tasks
in a Pipeline
. See
Specifying workspace
order in a Pipeline
for more information about this.
There are two ways of using PersistentVolumeClaims
as a VolumeSource
.
The volumeClaimTemplate
is a template of a PersistentVolumeClaim
volume,
created for each PipelineRun
or TaskRun
. When the volume is created from a template in a PipelineRun
or TaskRun
it will be deleted when the PipelineRun
or TaskRun
is deleted.
workspaces:
- name: myworkspace
volumeClaimTemplate:
spec:
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 1Gi
The persistentVolumeClaim
field references an existing persistentVolumeClaim
volume. The example exposes only the subdirectory my-subdir
from that PersistentVolumeClaim
workspaces:
- name: myworkspace
persistentVolumeClaim:
claimName: mypvc
subPath: my-subdir
The emptyDir
field references an emptyDir
volume which holds
a temporary directory that only lives as long as the TaskRun
that invokes it. emptyDir
volumes are not suitable for sharing data among Tasks
within a Pipeline
.
However, they work well for single TaskRuns
where the data stored in the emptyDir
needs to be shared among the Steps
of the Task
and discarded after execution.
workspaces:
- name: myworkspace
emptyDir: {}
The configMap
field references a configMap
volume.
Using a configMap
as a Workspace
has the following limitations:
configMap
volume sources are always mounted as read-only.Steps
cannot write to them and will error out if they try.- The
configMap
you want to use as aWorkspace
must exist prior to submitting theTaskRun
. configMaps
are size-limited to 1MB.
workspaces:
- name: myworkspace
configmap:
name: my-configmap
The secret
field references a secret
volume.
Using a secret
volume has the following limitations:
secret
volume sources are always mounted as read-only.Steps
cannot write to them and will error out if they try.- The
secret
you want to use as aWorkspace
must exist prior to submitting theTaskRun
. secret
are size-limited to 1MB.
workspaces:
- name: myworkspace
secret:
secretName: my-secret
If you need support for a VolumeSource
type not listed above, open an issue or
a pull request.
See the following in-depth examples of configuring Workspaces
: