High Availability
Argo CD is largely stateless. All data is persisted as Kubernetes objects, which in turn is stored in Kubernetes’ etcd. Redis is only used as a throw-away cache and can be lost. When lost, it will be rebuilt without loss of service.
A set of HA manifests are provided for users who wish to run Argo CD in a highly available manner. This runs more containers, and runs Redis in HA mode.
NOTE: The HA installation will require at least three different nodes due to pod anti-affinity roles in the specs. Additionally, IPv6 only clusters are not supported.
Scaling Up
argocd-repo-server
settings:
The argocd-repo-server
is responsible for cloning Git repository, keeping it up to date and generating manifests using the appropriate tool.
argocd-repo-server
fork/exec config management tool to generate manifests. The fork can fail due to lack of memory or limit on the number of OS threads. The--parallelismlimit
flag controls how many manifests generations are running concurrently and helps avoid OOM kills.the
argocd-repo-server
ensures that repository is in the clean state during the manifest generation using config management tools such as Kustomize, Helm or custom plugin. As a result Git repositories with multiple applications might affect repository server performance. Read Monorepo Scaling Considerations for more information.argocd-repo-server
clones the repository into/tmp
(or the path specified in theTMPDIR
env variable). The Pod might run out of disk space if it has too many repositories or if the repositories have a lot of files. To avoid this problem mount a persistent volume.argocd-repo-server
usesgit ls-remote
to resolve ambiguous revisions such asHEAD
, a branch or a tag name. This operation happens frequently and might fail. To avoid failed syncs use theARGOCD_GIT_ATTEMPTS_COUNT
environment variable to retry failed requests.argocd-repo-server
Every 3m (by default) Argo CD checks for changes to the app manifests. Argo CD assumes by default that manifests only change when the repo changes, so it caches the generated manifests (for 24h by default). With Kustomize remote bases, or in case a Helm chart gets changed without bumping its version number, the expected manifests can change even though the repo has not changed. By reducing the cache time, you can get the changes without waiting for 24h. Use--repo-cache-expiration duration
, and we’d suggest in low volume environments you try ‘1h’. Bear in mind that this will negate the benefits of caching if set too low.argocd-repo-server
executes config management tools such ashelm
orkustomize
and enforces a 90 second timeout. This timeout can be changed by using theARGOCD_EXEC_TIMEOUT
env variable. The value should be in the Go time duration string format, for example,2m30s
.
metrics:
argocd_git_request_total
- Number of git requests. This metric provides two tags:repo
- Git repo URL;request_type
-ls-remote
orfetch
.ARGOCD_ENABLE_GRPC_TIME_HISTOGRAM
- Is an environment variable that enables collecting RPC performance metrics. Enable it if you need to troubleshoot performance issues. Note: This metric is expensive to both query and store!
argocd-application-controller
settings:
The argocd-application-controller
uses argocd-repo-server
to get generated manifests and Kubernetes API server to get the actual cluster state.
each controller replica uses two separate queues to process application reconciliation (milliseconds) and app syncing (seconds). The number of queue processors for each queue is controlled by
--status-processors
(20 by default) and--operation-processors
(10 by default) flags. Increase the number of processors if your Argo CD instance manages too many applications. For 1000 application we use 50 for--status-processors
and 25 for--operation-processors
The manifest generation typically takes the most time during reconciliation. The duration of manifest generation is limited to make sure the controller refresh queue does not overflow. The app reconciliation fails with
Context deadline exceeded
error if the manifest generation is taking too much time. As a workaround increase the value of--repo-server-timeout-seconds
and consider scaling up theargocd-repo-server
deployment.The controller uses Kubernetes watch APIs to maintain a lightweight Kubernetes cluster cache. This allows avoiding querying Kubernetes during app reconciliation and significantly improves performance. For performance reasons the controller monitors and caches only the preferred versions of a resource. During reconciliation, the controller might have to convert cached resources from the preferred version into a version of the resource stored in Git. If
kubectl convert
fails because the conversion is not supported then the controller falls back to Kubernetes API query which slows down reconciliation. In this case, we advise to use the preferred resource version in Git.The controller polls Git every 3m by default. You can change this duration using the
timeout.reconciliation
setting in theargocd-cm
ConfigMap. The value oftimeout.reconciliation
is a duration string e.g60s
,1m
,1h
or1d
.If the controller is managing too many clusters and uses too much memory then you can shard clusters across multiple controller replicas. To enable sharding, increase the number of replicas in
argocd-application-controller
StatefulSet
and repeat the number of replicas in theARGOCD_CONTROLLER_REPLICAS
environment variable. The strategic merge patch below demonstrates changes required to configure two controller replicas.By default, the controller will update the cluster information every 10 seconds. If there is a problem with your cluster network environment that is causing the update time to take a long time, you can try modifying the environment variable
ARGO_CD_UPDATE_CLUSTER_INFO_TIMEOUT
to increase the timeout (the unit is seconds).
apiVersion: apps/v1
kind: StatefulSet
metadata:
name: argocd-application-controller
spec:
replicas: 2
template:
spec:
containers:
- name: argocd-application-controller
env:
- name: ARGOCD_CONTROLLER_REPLICAS
value: "2"
In order to manually set the cluster’s shard number, specify the optional
shard
property when creating a cluster. If not specified, it will be calculated on the fly by the application controller.The shard distribution algorithm of the
argocd-application-controller
can be set by using the--sharding-method
parameter. Supported sharding methods are : [legacy (default), round-robin].legacy
mode uses anuid
based distribution (non-uniform).round-robin
uses an equal distribution across all shards. The--sharding-method
parameter can also be overriden by setting the keycontroller.sharding.algorithm
in theargocd-cmd-params-cm
configMap
(preferably) or by setting theARGOCD_CONTROLLER_SHARDING_ALGORITHM
environment variable and by specifiying the same possible values.
Alpha Feature
The round-robin
shard distribution algorithm is an experimental feature. Reshuffling is known to occur in certain scenarios with cluster removal. If the cluster at rank-0 is removed, reshuffling all clusters across shards will occur and may temporarily have negative performance impacts.
- A cluster can be manually assigned and forced to a
shard
by patching theshard
field in the cluster secret to contain the shard number, e.g.
apiVersion: v1
kind: Secret
metadata:
name: mycluster-secret
labels:
argocd.argoproj.io/secret-type: cluster
type: Opaque
stringData:
shard: 1
name: mycluster.com
server: https://mycluster.com
config: |
{
"bearerToken": "<authentication token>",
"tlsClientConfig": {
"insecure": false,
"caData": "<base64 encoded certificate>"
}
}
ARGOCD_ENABLE_GRPC_TIME_HISTOGRAM
- environment variable that enables collecting RPC performance metrics. Enable it if you need to troubleshoot performance issues. Note: This metric is expensive to both query and store!ARGOCD_CLUSTER_CACHE_LIST_PAGE_BUFFER_SIZE
- environment variable controlling the number of pages the controller buffers in memory when performing a list operation against the K8s api server while syncing the cluster cache. This is useful when the cluster contains a large number of resources and cluster sync times exceed the default etcd compaction interval timeout. In this scenario, when attempting to sync the cluster cache, the application controller may throw an error that thecontinue parameter is too old to display a consistent list result
. Setting a higher value for this environment variable configures the controller with a larger buffer in which to store pre-fetched pages which are processed asynchronously, increasing the likelihood that all pages have been pulled before the etcd compaction interval timeout expires. In the most extreme case, operators can set this value such thatARGOCD_CLUSTER_CACHE_LIST_PAGE_SIZE * ARGOCD_CLUSTER_CACHE_LIST_PAGE_BUFFER_SIZE
exceeds the largest resource count (grouped by k8s api version, the granule of parallelism for list operations). In this case, all resources will be buffered in memory — no api server request will be blocked by processing.
metrics
argocd_app_reconcile
- reports application reconciliation duration. Can be used to build reconciliation duration heat map to get a high-level reconciliation performance picture.argocd_app_k8s_request_total
- number of k8s requests per application. The number of fallback Kubernetes API queries - useful to identify which application has a resource with non-preferred version and causes performance issues.
argocd-server
The argocd-server
is stateless and probably the least likely to cause issues. To ensure there is no downtime during upgrades, consider increasing the number of replicas to 3
or more and repeat the number in the ARGOCD_API_SERVER_REPLICAS
environment variable. The strategic merge patch below demonstrates this.
apiVersion: apps/v1
kind: Deployment
metadata:
name: argocd-server
spec:
replicas: 3
template:
spec:
containers:
- name: argocd-server
env:
- name: ARGOCD_API_SERVER_REPLICAS
value: "3"
settings:
- The
ARGOCD_API_SERVER_REPLICAS
environment variable is used to divide the limit of concurrent login requests (ARGOCD_MAX_CONCURRENT_LOGIN_REQUESTS_COUNT) between each replica. - The
ARGOCD_GRPC_MAX_SIZE_MB
environment variable allows specifying the max size of the server response message in megabytes. The default value is 200. You might need to increase this for an Argo CD instance that manages 3000+ applications.
argocd-dex-server, argocd-redis
The argocd-dex-server
uses an in-memory database, and two or more instances would have inconsistent data. argocd-redis
is pre-configured with the understanding of only three total redis servers/sentinels.
Monorepo Scaling Considerations
Argo CD repo server maintains one repository clone locally and uses it for application manifest generation. If the manifest generation requires to change a file in the local repository clone then only one concurrent manifest generation per server instance is allowed. This limitation might significantly slowdown Argo CD if you have a mono repository with multiple applications (50+).
Enable Concurrent Processing
Argo CD determines if manifest generation might change local files in the local repository clone based on the config management tool and application settings. If the manifest generation has no side effects then requests are processed in parallel without a performance penalty. The following are known cases that might cause slowness and their workarounds:
Multiple Helm based applications pointing to the same directory in one Git repository: ensure that your Helm chart doesn’t have conditional dependencies and create
.argocd-allow-concurrency
file in the chart directory.Multiple Custom plugin based applications: avoid creating temporal files during manifest generation and create
.argocd-allow-concurrency
file in the app directory, or use the sidecar plugin option, which processes each application using a temporary copy of the repository.Multiple Kustomize applications in same repository with parameter overrides: sorry, no workaround for now.
Webhook and Manifest Paths Annotation
Argo CD aggressively caches generated manifests and uses the repository commit SHA as a cache key. A new commit to the Git repository invalidates the cache for all applications configured in the repository. This can negatively affect repositories with multiple applications. You can use webhooks and the argocd.argoproj.io/manifest-generate-paths
Application CRD annotation to solve this problem and improve performance.
The argocd.argoproj.io/manifest-generate-paths
annotation contains a semicolon-separated list of paths within the Git repository that are used during manifest generation. The webhook compares paths specified in the annotation with the changed files specified in the webhook payload. If no modified files match the paths specified in argocd.argoproj.io/manifest-generate-paths
, then the webhook will not trigger application reconciliation and the existing cache will be considered valid for the new commit.
Installations that use a different repository for each application are not subject to this behavior and will likely get no benefit from using these annotations.
Note
Application manifest paths annotation support depends on the git provider used for the Application. It is currently only supported for GitHub, GitLab, and Gogs based repos.
- Relative path The annotation might contain a relative path. In this case the path is considered relative to the path specified in the application source:
apiVersion: argoproj.io/v1alpha1
kind: Application
metadata:
name: guestbook
namespace: argocd
annotations:
# resolves to the 'guestbook' directory
argocd.argoproj.io/manifest-generate-paths: .
spec:
source:
repoURL: https://github.com/argoproj/argocd-example-apps.git
targetRevision: HEAD
path: guestbook
# ...
- Absolute path The annotation value might be an absolute path starting with ‘/‘. In this case path is considered as an absolute path within the Git repository:
apiVersion: argoproj.io/v1alpha1
kind: Application
metadata:
name: guestbook
annotations:
argocd.argoproj.io/manifest-generate-paths: /guestbook
spec:
source:
repoURL: https://github.com/argoproj/argocd-example-apps.git
targetRevision: HEAD
path: guestbook
# ...
- Multiple paths It is possible to put multiple paths into the annotation. Paths must be separated with a semicolon (
;
):
apiVersion: argoproj.io/v1alpha1
kind: Application
metadata:
name: guestbook
annotations:
# resolves to 'my-application' and 'shared'
argocd.argoproj.io/manifest-generate-paths: .;../shared
spec:
source:
repoURL: https://github.com/argoproj/argocd-example-apps.git
targetRevision: HEAD
path: my-application
# ...