Argo CD has undergone rigorous internal security reviews and penetration testing to satisfy PCI compliance requirements. The following are some security topics and implementation details of Argo CD.
Authentication to Argo CD API server is performed exclusively using JSON Web Tokens (JWTs). Username/password bearer tokens are not used for authentication. The JWT is obtained/managed in one of the following ways:
-
For the local
admin
user, a username/password is exchanged for a JWT using the/api/v1/session
endpoint. This token is signed & issued by the Argo CD API server itself and it expires after 24 hours (this token used not to expire, see CVE-2021-26921). When the admin password is updated, all existing admin JWT tokens are immediately revoked. The password is stored as a bcrypt hash in theargocd-secret
Secret. -
For Single Sign-On users, the user completes an OAuth2 login flow to the configured OIDC identity provider (either delegated through the bundled Dex provider, or directly to a self-managed OIDC provider). This JWT is signed & issued by the IDP, and expiration and revocation is handled by the provider. Dex tokens expire after 24 hours.
-
Automation tokens are generated for a project using the
/api/v1/projects/{project}/roles/{role}/token
endpoint, and are signed & issued by Argo CD. These tokens are limited in scope and privilege, and can only be used to manage application resources in the project which it belongs to. Project JWTs have a configurable expiration and can be immediately revoked by deleting the JWT reference ID from the project role.
Authorization is performed by iterating the list of group membership in a user's JWT groups claims, and comparing each group against the roles/rules in the RBAC policy. Any matched rule permits access to the API request.
All network communication is performed over TLS including service-to-service communication between
the three components (argocd-server, argocd-repo-server, argocd-application-controller). The Argo CD
API server can enforce the use of TLS 1.2 using the flag: --tlsminversion 1.2
.
Communication with Redis is performed over plain HTTP by default. TLS can be setup with command line arguments.
Git and helm repositories are managed by a stand-alone service, called the repo-server. The repo-server does not carry any Kubernetes privileges and does not store credentials to any services (including git). The repo-server is responsible for cloning repositories which have been permitted and trusted by Argo CD operators, and generating kubernetes manifests at a given path in the repository. For performance and bandwidth efficiency, the repo-server maintains local clones of these repositories so that subsequent commits to the repository are efficiently downloaded.
There are security considerations when configuring git repositories that Argo CD is permitted to deploy from. In short, gaining unauthorized write access to a git repository trusted by Argo CD will have serious security implications outlined below.
Since Argo CD deploys the Kubernetes resources defined in git, an attacker with access to a trusted git repo would be able to affect the Kubernetes resources which are deployed. For example, an attacker could update the deployment manifest deploy malicious container images to the environment, or delete resources in git causing them to be pruned in the live environment.
In addition to raw YAML, Argo CD natively supports two popular Kubernetes config management tools,
helm and kustomize. When rendering manifests, Argo CD executes these config management tools
(i.e. helm template
, kustomize build
) to generate the manifests. It is possible that an attacker
with write access to a trusted git repository may construct malicious helm charts or kustomizations
that attempt to read files out-of-tree. This includes adjacent git repos, as well as files on the
repo-server itself. Whether or not this is a risk to your organization depends on if the contents
in the git repos are sensitive in nature. By default, the repo-server itself does not contain
sensitive information, but might be configured with Config Management Plugins which do
(e.g. decryption keys). If such plugins are used, extreme care must be taken to ensure the
repository contents can be trusted at all times.
Optionally the built-in config management tools might be individually disabled. If you know that your users will not need a certain config management tool, it's advisable to disable that tool. See Tool Detection for more information.
Argo CD's repository allow-list only restricts the initial repository which is cloned. However, both kustomize and helm contain features to reference and follow additional repositories (e.g. kustomize remote bases, helm chart dependencies), of which might not be in the repository allow-list. Argo CD operators must understand that users with write access to trusted git repositories could reference other remote git repositories containing Kubernetes resources not easily searchable or auditable in the configured git repositories.
Argo CD never returns sensitive data from its API, and redacts all sensitive data in API payloads and logs. This includes:
- cluster credentials
- Git credentials
- OAuth2 client secrets
- Kubernetes Secret values
To manage external clusters, Argo CD stores the credentials of the external cluster as a Kubernetes
Secret in the argocd namespace. This secret contains the K8s API bearer token associated with the
argocd-manager
ServiceAccount created during argocd cluster add
, along with connection options
to that API server (TLS configuration/certs, AWS role-arn, etc...).
The information is used to reconstruct a REST config and kubeconfig to the cluster used by Argo CD
services.
To rotate the bearer token used by Argo CD, the token can be deleted (e.g. using kubectl) which
causes kubernetes to generate a new secret with a new bearer token. The new token can be re-inputted
to Argo CD by re-running argocd cluster add
. Run the following commands against the managed
cluster:
# run using a kubeconfig for the externally managed cluster
kubectl delete secret argocd-manager-token-XXXXXX -n kube-system
argocd cluster add CONTEXTNAME
To revoke Argo CD's access to a managed cluster, delete the RBAC artifacts against the managed cluster, and remove the cluster entry from Argo CD:
# run using a kubeconfig for the externally managed cluster
kubectl delete sa argocd-manager -n kube-system
kubectl delete clusterrole argocd-manager-role
kubectl delete clusterrolebinding argocd-manager-role-binding
argocd cluster rm https://your-kubernetes-cluster-addr
NOTE: for AWS EKS clusters, the get-token command is used to authenticate to the external cluster, which uses IAM roles in lieu of locally stored tokens, so token rotation is not needed, and revocation is handled through IAM.
By default, Argo CD uses a clusteradmin level role in order to:
- watch & operate on cluster state
- deploy resources to the cluster
Although Argo CD requires cluster-wide read privileges to resources in the managed cluster to function properly, it does not necessarily need full write privileges to the cluster. The ClusterRole used by argocd-server and argocd-application-controller can be modified such that write privileges are limited to only the namespaces and resources that you wish Argo CD to manage.
To fine-tune privileges of externally managed clusters, edit the ClusterRole of the argocd-manager-role
# run using a kubeconfig for the externally managed cluster
kubectl edit clusterrole argocd-manager-role
To fine-tune privileges which Argo CD has against its own cluster (i.e. https://kubernetes.default.svc
),
edit the following cluster roles where Argo CD is running in:
# run using a kubeconfig to the cluster Argo CD is running in
kubectl edit clusterrole argocd-server
kubectl edit clusterrole argocd-application-controller
!!! tip If you want to deny ArgoCD access to a kind of resource then add it as an excluded resource.
As a GitOps deployment tool, the Git commit history provides a natural audit log of what changes were made to application configuration, when they were made, and by whom. However, this audit log only applies to what happened in Git and does not necessarily correlate one-to-one with events that happen in a cluster. For example, User A could have made multiple commits to application manifests, but User B could have just only synced those changes to the cluster sometime later.
To complement the Git revision history, Argo CD emits Kubernetes Events of application activity, indicating the responsible actor when applicable. For example:
$ kubectl get events
LAST SEEN FIRST SEEN COUNT NAME KIND SUBOBJECT TYPE REASON SOURCE MESSAGE
1m 1m 1 guestbook.157f7c5edd33aeac Application Normal ResourceCreated argocd-server admin created application
1m 1m 1 guestbook.157f7c5f0f747acf Application Normal ResourceUpdated argocd-application-controller Updated sync status: -> OutOfSync
1m 1m 1 guestbook.157f7c5f0fbebbff Application Normal ResourceUpdated argocd-application-controller Updated health status: -> Missing
1m 1m 1 guestbook.157f7c6069e14f4d Application Normal OperationStarted argocd-server admin initiated sync to HEAD (8a1cb4a02d3538e54907c827352f66f20c3d7b0d)
1m 1m 1 guestbook.157f7c60a55a81a8 Application Normal OperationCompleted argocd-application-controller Sync operation to 8a1cb4a02d3538e54907c827352f66f20c3d7b0d succeeded
1m 1m 1 guestbook.157f7c60af1ccae2 Application Normal ResourceUpdated argocd-application-controller Updated sync status: OutOfSync -> Synced
1m 1m 1 guestbook.157f7c60af5bc4f0 Application Normal ResourceUpdated argocd-application-controller Updated health status: Missing -> Progressing
1m 1m 1 guestbook.157f7c651990e848 Application Normal ResourceUpdated argocd-application-controller Updated health status: Progressing -> Healthy
These events can be then be persisted for longer periods of time using other tools as Event Exporter or Event Router.
Payloads from webhook events are considered untrusted. Argo CD only examines the payload to infer the involved applications of the webhook event (e.g. which repo was modified), then refreshes the related application for reconciliation. This refresh is the same refresh which occurs regularly at three minute intervals, just fast-tracked by the webhook event.
Argo CD logs payloads of most API requests except request that are considered sensitive, such as
/cluster.ClusterService/Create
, /session.SessionService/Create
etc. The full list of method
can be found in server/server.go.
Argo CD does not log IP addresses of clients requesting API endpoints, since the API server is typically behind a proxy. Instead, it is recommended to configure IP addresses logging in the proxy server that sits in front of the API server.