Experiment CRD¶
What is the Experiment CRD?¶
The Experiment CRD allows users to have ephemeral runs of one or more ReplicaSets. In addition to running ephemeral ReplicaSets, the Experiment CRD can launch AnalysisRuns alongside the ReplicaSets. Generally, those AnalysisRun is used to confirm that new ReplicaSets are running as expected.
Use cases of Experiments¶
-
A user wants to run two versions of an application for a specific duration to enable Kayenta-style analysis of their application. The Experiment CRD creates 2 ReplicaSets (a baseline and a canary) based on the
spec.templatesfield of the Experiment and waits until both are healthy. After the duration passes, the Experiment scales down the ReplicaSets, and the user can start the Kayenta analysis run. -
A user can use experiments to enable A/B/C testing by launching multiple experiments with a different version of their application for a long duration. Each Experiment has one PodSpec template that defines a specific version a user would want to run. The Experiment allows users to launch multiple experiments at once and keep each Experiment self-contained.
-
Launching a new version of an existing application with different labels to avoid receiving traffic from a Kubernetes service. The user can run tests against the new version before continuing the Rollout.
Experiment Spec¶
Below is an example of an experiment that creates two ReplicaSets with 1 replica each and runs them for 20 minutes once they both become available. Additionally, several AnalysisRuns are run to perform analysis against the pods of the Experiment
apiVersion: argoproj.io/v1alpha1
kind: Experiment
metadata:
name: example-experiment
spec:
# Duration of the experiment, beginning from when all ReplicaSets became healthy (optional)
# If omitted, will run indefinitely until terminated, or until all analyses which were marked
# `requiredForCompletion` have completed.
duration: 20m
# Deadline in seconds in which a ReplicaSet should make progress towards becoming available.
# If exceeded, the Experiment will fail.
progressDeadlineSeconds: 30
# List of pod template specs to run in the experiment as ReplicaSets
templates:
- name: purple
# Number of replicas to run (optional). If omitted, will run a single replica
replicas: 1
selector:
matchLabels:
app: canary-demo
color: purple
template:
metadata:
labels:
app: canary-demo
color: purple
spec:
containers:
- name: rollouts-demo
image: argoproj/rollouts-demo:purple
imagePullPolicy: Always
ports:
- name: http
containerPort: 8080
protocol: TCP
- name: orange
replicas: 1
minReadySeconds: 10
selector:
matchLabels:
app: canary-demo
color: orange
template:
metadata:
labels:
app: canary-demo
color: orange
spec:
containers:
- name: rollouts-demo
image: argoproj/rollouts-demo:orange
imagePullPolicy: Always
ports:
- name: http
containerPort: 8080
protocol: TCP
# List of AnalysisTemplate references to perform during the experiment
analyses:
- name: purple
templateName: http-benchmark
args:
- name: host
value: purple
- name: orange
templateName: http-benchmark
args:
- name: host
value: orange
- name: compare-results
templateName: compare
# If requiredForCompletion is true for an analysis reference, the Experiment will not complete
# until this analysis has completed.
requiredForCompletion: true
args:
- name: host
value: purple
Experiment Lifecycle¶
An Experiment is intended to temporarily run one or more templates. The lifecycle of an Experiment is as follows:
- Create and scale a ReplicaSet for each pod template specified under
spec.templates - Wait for all ReplicaSets reach full availability. If a ReplicaSet does not become available
within
spec.progressDeadlineSeconds, the Experiment will fail. Once available, the Experiment will transition from thePendingstate to aRunningstate. - Once an Experiment is considered
Running, it will begin an AnalysisRun for every AnalysisTemplate referenced underspec.analyses. - If a duration is specified under
spec.duration, the Experiment will wait until the duration has elapsed before completing the Experiment. - If an AnalysisRun fails or errors, the Experiment will end prematurely, with a status equal to
the unsuccessful AnalysisRun (i.e.
FailedorError) - If one or more of the referenced AnalysisTemplates is marked with
requiredForCompletion: true, the Experiment will not complete until those AnalysisRuns have completed, even if it exceeds the Experiment duration. - If neither a
spec.durationorrequiredForCompletion: trueis specified, the Experiment will run indefinitely, until explicitly terminated (by settingspec.terminate: true). - Once an Experiment is complete, the ReplicaSets will be scaled to zero, and any incomplete AnalysisRuns will be terminated.
Note
ReplicaSet names are generated by combining the Experiment name with the template name.
Integration With Rollouts¶
A rollout using the Canary strategy can create an experiment using an experiment step. The
experiment step serves as a blocking step for the Rollout, and a Rollout will not continue until the
Experiment succeeds. The Rollout creates an Experiment using the configuration in the experiment
step of the Rollout. If the Experiment fails or errors, the Rollout will abort.
Note
Experiment names are generated by combining the Rollout's name, the PodHash of the new ReplicaSet, the current revision of the Rollout, and the current step-index.
apiVersion: argoproj.io/v1alpha1
kind: Rollout
metadata:
name: guestbook
labels:
app: guestbook
spec:
...
strategy:
canary:
steps:
- experiment:
duration: 1h
templates:
- name: baseline
specRef: stable
- name: canary
specRef: canary
analyses:
- name : mann-whitney
templateName: mann-whitney
args:
- name: baseline-hash
value: "{{templates.baseline.podTemplateHash}}"
- name: canary-hash
value: "{{templates.canary.podTemplateHash}}"
In the example above, during an update of a Rollout, the Rollout will launch an Experiment. The
Experiment will create two ReplicaSets: baseline and canary, with one replica each, and will run
for one hour. The baseline template uses the PodSpec from the stable ReplicaSet, and the canary
template uses the PodSpec from the canary ReplicaSet.
Additionally, the Experiment will perform analysis using the AnalysisTemplate named mann-whitney.
The AnalysisRun is supplied with the pod-hash details of the baseline and canary to perform the
necessary metrics queries, using the {{templates.baseline.podTemplateHash}} and
{{templates.canary.podTemplateHash}} variables respectively.
Note
The pod-hashes of the baseline/canary ReplicaSets created by the Experiment, will have
different values than the pod-hashes of the stable/canary ReplicaSets created by the
Rollout. This is despite the fact that the PodSpec are the same. This is intentional behavior,
in order to allow the metrics of the Experiment's pods to be delineated and queried separately
from the metrics of the Rollout pods.
Weighted Experiment Step with Traffic Routing¶
Important
Available since v1.1
A Rollout using the Canary strategy along with Traffic Routing can split traffic to an experiment stack in a fine-grained manner. When Traffic Routing is enabled, the Rollout Experiment step allows traffic to be shifted to experiment pods.
Note
This feature is currently available only for the SMI, ALB, and Istio Traffic Routers.
apiVersion: argoproj.io/v1alpha1
kind: Rollout
metadata:
name: guestbook
labels:
app: guestbook
spec:
...
strategy:
canary:
trafficRouting:
alb:
ingress: ingress
...
steps:
- experiment:
duration: 1h
templates:
- name: experiment-baseline
specRef: stable
weight: 5
- name: experiment-canary
specRef: canary
weight: 5
In the above example, during an update, the first step would start
a baseline vs. canary experiment. When pods are ready (Experiment enters
Running phase), the rollout would direct 5% of traffic to experiment-canary and 5%
to experiment-baseline, leaving the remaining 90% of traffic to the old stack.
Note
When a weighted experiment step with traffic routing is used, a service is auto-created for each experiment template. The traffic routers use this service to send traffic to the experiment pods.