Storage
Brigade utilizes storage in the following ways:
- Shared Worker storage wherein a Brigade Worker’s workspace may be shared with and among its Jobs
- Artemis storage for Brigade’s Messaging/Queue component
- MongoDB storage for Brigade’s backing data store
Shared Worker storage
The workspace for a Brigade Worker can be shared among all Worker Jobs. This is an opt-in feature and isn’t enabled by default. When enabled, Brigade will create a PersistentVolume on the underlying Kubernetes cluster and automatically add the corresponding volume mount to each Worker Job created.
Note: As this volume may be accessed by more than one pod, and each pod may need both read and write access to the shared volume, its access mode is ReadWriteMany, which may not be supported by the default storage class configured on your Kubernetes cluster. See the Access Modes matrix for compatibility. Brigade is well-tested using NFS and Azure File on AKS. (Azure Disk does not support this required access mode.)
For Brigade Worker storage, it is often convenient to use storage backends that are optimized for short-term ephemeral storage. To that end, Brigade ships with its default configured as NFS (Network File System). Therefore, NFS will need to be deployed on the same Kubernetes cluster as Brigade. You can use the NFS Server Provisioner chart for this purpose:
$ helm repo add stable ttps://charts.helm.sh/stable
$ helm install nfs stable/nfs-server-provisioner \
--create-namespace --namespace nfs
By default, the NFS chart installs with persistance disabled. For various methods on enabling, as well as configuring other aspects of the installation, see the README.
This chart installs a StorageClass named nfs
. As mentioned,
Brigade already has worker.storageClass
set to nfs
in its
Helm chart values file. To configure an alternate storage
class, set this field’s value to the preferred storage class name. For example,
to use the Azure File storage class, the appropriate configuration would be:
worker:
workspaceStorageClass: azurefile
Enabling Worker storage
To enable shared Worker storage, set useWorkspace
to true
under the
workerTemplate
section on the project configuration file
(usually project.yaml
) for a Project. For example, here is the relevant bit
of configuration from the 08-shared-workspace example project:
spec:
workerTemplate:
useWorkspace: true
Each Worker Job requiring access to this workspace must then be configured with
a filepath value designating where the workspace should be mounted within the
Job’s container. (Note that this may be the Job’s primaryContainer
and/or one
or more of a Job’s sidecarContainer
(s)). This filepath value is assigned to
the workspaceMountPath
field on each applicable Job container.
In the example brigade.js
script below, the both Jobs are configured with the
workspaceMountPath
value set to /share
. Thus, second-job
is able to read
(and display) the message that first-job
emits, via the shared workspace
mount:
const { events, Job } = require("@brigadecore/brigadier");
events.on("brigade.sh/cli", "exec", async event => {
let job1 = new Job("first-job", "debian:latest", event);
job1.primaryContainer.workspaceMountPath = "/share";
job1.primaryContainer.command = ["bash"];
job1.primaryContainer.arguments = ["-c", "echo 'Hello!' > /share/message"];
await job1.run();
let job2 = new Job("second-job", "debian:latest", event);
job2.primaryContainer.workspaceMountPath = "/share";
job2.primaryContainer.command = ["cat"];
job2.primaryContainer.arguments = ["/share/message"];
await job2.run();
});
events.process();
Artemis storage
Brigade uses ActiveMQ Artemis as its messaging queue component. For more details on its function in Brigade, see the Design doc.
Messages (i.e. work to be scheduled on Kubernetes) should be persisted even
if/when Artemis itself goes down or is restarted. Therefore, by default,
persistence is enabled via the appropriate configuration on the
Brigade Helm Chart. The default access mode for the
backing PersistentVolume is ReadWriteOnce
. This mode, although configurable,
should not need changing.
There are, however, other persistence options that may be useful to customize,
such as volume size and storage class type. Regarding volume size, the default
is a fairly small 8Gi
, which is not considered adequate for a production
deployment and should be updated accordingly. All configuration options can be
seen under the artemis.persistence
section of the Brigade chart.
As the access mode is ReadWriteOnce
, nearly all storage class types should
function correctly for this PersistentVolume. By default, no storage class is
specified in the chart, which means the default storage class on the Kubernetes
cluster will be employed.
MongoDB storage
Brigade uses MongoDB as its backing data store. For more details on its function in Brigade, see the Design doc.
Data should be persisted even when/if MongoDB itself goes down or is restarted.
Therefore, by default, persistence is enabled via the appropriate configuration
on the Brigade Helm Chart. The default access mode for the
backing PersistentVolume is ReadWriteOnce
. This mode, although configurable,
should not need changing.
There are, however, other persistence options that may be useful to customize,
such as volume size and storage class type. Regarding volume size, the default
is a fairly small 8Gi
, which is not considered adequate for a production
deployment and should be updated accordingly. All configuration options can be
seen under the artemis.persistence
section of the Brigade chart.
As the access mode is ReadWriteOnce
, nearly all storage class types should
function correctly for this PersistentVolume. By default, no storage class is
specified in the chart, which means the default storage class on the Kubernetes
cluster will be employed.