- Ingress Configuration
Ingress Configuration
Argo CD runs both a gRPC server (used by the CLI), as well as a HTTP/HTTPS server (used by the UI). Both protocols are exposed by the argocd-server service object on the following ports:
- 443 - gRPC/HTTPS
- 80 - HTTP (redirects to HTTPS)
There are several ways how Ingress can be configured.
Ambassador
The Ambassador Edge Stack can be used as a Kubernetes ingress controller with automatic TLS termination and routing capabilities for both the CLI and the UI.
The API server should be run with TLS disabled. Edit the argocd-server
deployment to add the --insecure
flag to the argocd-server command. Given the argocd
CLI includes the port number in the request host
header, 2 Mappings are required.
Option 1: Mapping CRD for Host-based Routing
apiVersion: getambassador.io/v2
kind: Mapping
metadata:
name: argocd-server-ui
namespace: argocd
spec:
host: argocd.example.com
prefix: /
service: argocd-server:443
---
apiVersion: getambassador.io/v2
kind: Mapping
metadata:
name: argocd-server-cli
namespace: argocd
spec:
host: argocd.example.com:443
prefix: /
service: argocd-server:443
Login with the argocd
CLI using the extra --grpc-web-root-path
flag for gRPC-web.
argocd login <host>:<port> --grpc-web-root-path /
Option 2: Mapping CRD for Path-based Routing
The API server must be configured to be available under a non-root path (e.g. /argo-cd
). Edit the argocd-server
deployment to add the --rootpath=/argo-cd
flag to the argocd-server command.
apiVersion: getambassador.io/v2
kind: Mapping
metadata:
name: argocd-server
namespace: argocd
spec:
prefix: /argo-cd
rewrite: /argo-cd
service: argocd-server:443
Login with the argocd
CLI using the extra --grpc-web-root-path
flag for non-root paths.
argocd login <host>:<port> --grpc-web-root-path /argo-cd
Contour
The Contour ingress controller can terminate TLS ingress traffic at the edge.
The Argo CD API server should be run with TLS disabled. Edit the argocd-server
Deployment to add the --insecure
flag to the argocd-server container command.
It is also possible to provide an internal-only ingress path and an external-only ingress path by deploying two instances of Contour: one behind a private-subnet LoadBalancer service and one behind a public-subnet LoadBalancer service. The private Contour deployment will pick up Ingresses annotated with kubernetes.io/ingress.class: contour-external
and the public Contour deployment will pick up Ingresses annotated with kubernetes.io/ingress.class: contour-external
.
This provides the opportunity to deploy the Argo CD UI privately but still allow for SSO callbacks to succeed.
Private Argo CD UI with Multiple Ingress Objects and BYO Certificate
Since Contour Ingress supports only a single protocol per Ingress object, define three Ingress objects. One for private HTTP/HTTPS, one for private gRPC, and one for public HTTPS SSO callbacks.
Internal HTTP/HTTPS Ingress:
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: argocd-server-http
annotations:
kubernetes.io/ingress.class: contour-internal
ingress.kubernetes.io/force-ssl-redirect: "true"
spec:
rules:
- host: internal.path.to.argocd.io
http:
paths:
- backend:
serviceName: argocd-server
servicePort: http
tls:
- hosts:
- internal.path.to.argocd.io
secretName: your-certificate-name
Internal gRPC Ingress:
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: argocd-server-grpc
annotations:
kubernetes.io/ingress.class: contour-internal
spec:
rules:
- host: grpc-internal.path.to.argocd.io
http:
paths:
- backend:
serviceName: argocd-server
servicePort: https
tls:
- hosts:
- grpc-internal.path.to.argocd.io
secretName: your-certificate-name
External HTTPS SSO Callback Ingress:
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: argocd-server-external-callback-http
annotations:
kubernetes.io/ingress.class: contour-external
ingress.kubernetes.io/force-ssl-redirect: "true"
spec:
rules:
- host: external.path.to.argocd.io
http:
paths:
- path: /api/dex/callback
backend:
serviceName: argocd-server
servicePort: http
tls:
- hosts:
- external.path.to.argocd.io
secretName: your-certificate-name
The argocd-server Service needs to be annotated with projectcontour.io/upstream-protocol.h2c: "https,443"
to wire up the gRPC protocol proxying.
The API server should then be run with TLS disabled. Edit the argocd-server
deployment to add the --insecure
flag to the argocd-server command:
spec:
template:
spec:
containers:
- name: argocd-server
command:
- /argocd-server
- --repo-server
- argocd-repo-server:8081
- --insecure
kubernetes/ingress-nginx
Option 1: SSL-Passthrough
Argo CD serves multiple protocols (gRPC/HTTPS) on the same port (443), this provides a challenge when attempting to define a single nginx ingress object and rule for the argocd-service, since the nginx.ingress.kubernetes.io/backend-protocol
annotation accepts only a single value for the backend protocol (e.g. HTTP, HTTPS, GRPC, GRPCS).
In order to expose the Argo CD API server with a single ingress rule and hostname, the nginx.ingress.kubernetes.io/ssl-passthrough
annotation must be used to passthrough TLS connections and terminate TLS at the Argo CD API server.
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: argocd-server-ingress
namespace: argocd
annotations:
kubernetes.io/ingress.class: nginx
nginx.ingress.kubernetes.io/force-ssl-redirect: "true"
nginx.ingress.kubernetes.io/ssl-passthrough: "true"
spec:
rules:
- host: argocd.example.com
http:
paths:
- backend:
serviceName: argocd-server
servicePort: https
The above rule terminates TLS at the Argo CD API server, which detects the protocol being used, and responds appropriately. Note that the nginx.ingress.kubernetes.io/ssl-passthrough
annotation requires that the --enable-ssl-passthrough
flag be added to the command line arguments to nginx-ingress-controller
.
SSL-Passthrough with cert-manager and Let’s Encrypt
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: argocd-server-ingress
namespace: argocd
annotations:
cert-manager.io/cluster-issuer: letsencrypt-prod
kubernetes.io/ingress.class: nginx
kubernetes.io/tls-acme: "true"
nginx.ingress.kubernetes.io/ssl-passthrough: "true"
# If you encounter a redirect loop or are getting a 307 response code
# then you need to force the nginx ingress to connect to the backend using HTTPS.
#
nginx.ingress.kubernetes.io/backend-protocol: "HTTPS"
spec:
rules:
- host: argocd.example.com
http:
paths:
- path: /
pathType: Prefix
backend:
service:
name: argocd-server
port:
name: https
tls:
- hosts:
- argocd.example.com
secretName: argocd-secret # do not change, this is provided by Argo CD
Option 2: Multiple Ingress Objects And Hosts
Since ingress-nginx Ingress supports only a single protocol per Ingress object, an alternative way would be to define two Ingress objects. One for HTTP/HTTPS, and the other for gRPC:
HTTP/HTTPS Ingress:
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: argocd-server-http-ingress
namespace: argocd
annotations:
kubernetes.io/ingress.class: "nginx"
nginx.ingress.kubernetes.io/force-ssl-redirect: "true"
nginx.ingress.kubernetes.io/backend-protocol: "HTTP"
spec:
rules:
- http:
paths:
- backend:
serviceName: argocd-server
servicePort: http
host: argocd.example.com
tls:
- hosts:
- argocd.example.com
secretName: argocd-secret # do not change, this is provided by Argo CD
gRPC Ingress:
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
name: argocd-server-grpc-ingress
namespace: argocd
annotations:
kubernetes.io/ingress.class: "nginx"
nginx.ingress.kubernetes.io/backend-protocol: "GRPC"
spec:
rules:
- http:
paths:
- backend:
serviceName: argocd-server
servicePort: https
host: grpc.argocd.example.com
tls:
- hosts:
- grpc.argocd.example.com
secretName: argocd-secret # do not change, this is provided by Argo CD
The API server should then be run with TLS disabled. Edit the argocd-server
deployment to add the --insecure
flag to the argocd-server command:
spec:
template:
spec:
containers:
- name: argocd-server
command:
- argocd-server
- --repo-server
- argocd-repo-server:8081
- --insecure
The obvious disadvantage to this approach is that this technique requires two separate hostnames for the API server — one for gRPC and the other for HTTP/HTTPS. However it allows TLS termination to happen at the ingress controller.
Traefik (v2.2)
Traefik can be used as an edge router and provide TLS termination within the same deployment.
It currently has an advantage over NGINX in that it can terminate both TCP and HTTP connections on the same port meaning you do not require multiple hosts or paths.
The API server should be run with TLS disabled. Edit the argocd-server
deployment to add the --insecure
flag to the argocd-server command.
IngressRoute CRD
apiVersion: traefik.containo.us/v1alpha1
kind: IngressRoute
metadata:
name: argocd-server
namespace: argocd
spec:
entryPoints:
- websecure
routes:
- kind: Rule
match: Host(`argocd.example.com`)
priority: 10
services:
- name: argocd-server
port: 80
- kind: Rule
match: Host(`argocd.example.com`) && Headers(`Content-Type`, `application/grpc`)
priority: 11
services:
- name: argocd-server
port: 80
scheme: h2c
tls:
certResolver: default
options: {}
AWS Application Load Balancers (ALBs) And Classic ELB (HTTP Mode)
AWS ALBs can be used as an L7 Load Balancer for both UI and gRPC traffic, whereas Classic ELBs and NLBs can be used as L4 Load Balancers for both.
When using an ALB, you’ll want to create a second service for argocd-server. This is necessary because we need to tell the ALB to send the GRPC traffic to a different target group then the UI traffic, since the backend protocol is HTTP2 instead of HTTP1.
apiVersion: v1
kind: Service
metadata:
annotations:
alb.ingress.kubernetes.io/backend-protocol-version: HTTP2 #This tells AWS to send traffic from the ALB using HTTP2. Can use GRPC as well if you want to leverage GRPC specific features
labels:
app: argogrpc
name: argogrpc
namespace: argocd
spec:
ports:
- name: "443"
port: 443
protocol: TCP
targetPort: 8080
selector:
app.kubernetes.io/name: argocd-server
sessionAffinity: None
type: NodePort
Once we create this service, we can configure the Ingress to conditionally route all application/grpc
traffic to the new HTTP2 backend, using the alb.ingress.kubernetes.io/conditions
annotation, as seen below. Note: The value after the . in the condition annotation must be the same name as the service that you want traffic to route to - and will be applied on any path with a matching serviceName.
apiVersion: networking.k8s.io/v1
kind: Ingress
metadata:
annotations:
alb.ingress.kubernetes.io/backend-protocol: HTTPS
# Use this annotation (which must match a service name) to route traffic to HTTP2 backends.
alb.ingress.kubernetes.io/conditions.argogrpc: |
[{"field":"http-header","httpHeaderConfig":{"httpHeaderName": "Content-Type", "values":["application/grpc"]}}]
alb.ingress.kubernetes.io/listen-ports: '[{"HTTPS":443}]'
name: argocd
namespace: argocd
spec:
rules:
- host: argocd.argoproj.io
http:
paths:
- backend:
serviceName: argogrpc
servicePort: 443
pathType: ImplementationSpecific
- backend:
serviceName: argocd-server
servicePort: 443
pathType: ImplementationSpecific
tls:
- hosts:
- argocd.argoproj.io
Google Cloud load balancers with Kubernetes Ingress
You can make use of the integration of GKE with Google Cloud to deploy Load Balancers using just Kubernetes objects.
For this we will need these five objects: - A Service - A BackendConfig - A FrontendConfig - A secret with your SSL certificate - An Ingress for GKE
If you need detail for all the options available for these Google integrations, you can check the Google docs on configuring Ingress features
Disable internal TLS
First, to avoid internal redirection loops from HTTP to HTTPS, the API server should be run with TLS disabled. Edit the argocd-server deployment to add the —insecure flag to the argocd-server command. For this you can edit your resource live with kubectl -n argocd edit deployments.apps argocd-server
or use a kustomize patch before installing Argo CD.
The container command should change from:
containers:
- command:
- argocd-server
- --staticassets
- /shared/app
To:
containers:
- command:
- argocd-server
- --insecure
- --staticassets
- /shared/app
Creating a service
Now you need an externally accesible service. This is practically the same as the internal service Argo CD has, but as a NodePort and with Google Cloud annotations. Note that this service is annotated to use a Network Endpoint Group (NEG) to allow your load balancer to send traffic directly to your pods without using kube-proxy, so remove the neg
annotation it that’s not what you want.
The service:
apiVersion: v1
kind: Service
metadata:
name: argocd-server-external
namespace: argocd
annotations:
cloud.google.com/neg: '{"ingress": true}'
cloud.google.com/backend-config: '{"ports": {"http":"argocd-backend-config"}}'
spec:
type: NodePort
ports:
- name: http
port: 80
protocol: TCP
targetPort: 8080
selector:
app.kubernetes.io/name: argocd-server
Creating a BackendConfig
See that previous service referencing a backend config called argo-backend-config
? So lets deploy it using this yaml:
apiVersion: cloud.google.com/v1
kind: BackendConfig
metadata:
name: argocd-backend-config
namespace: argocd
spec:
healthCheck:
checkIntervalSec: 30
timeoutSec: 5
healthyThreshold: 1
unhealthyThreshold: 2
type: HTTP
requestPath: /healthz
port: 8080
It uses the same health check as the pods.
Creating a FrontendConfig
Now we can deploy a frontend config with an HTTP to HTTPS redirect:
apiVersion: networking.gke.io/v1beta1
kind: FrontendConfig
metadata:
name: argocd-frontend-config
namespace: argocd
spec:
redirectToHttps:
enabled: true
Note
The next two steps (the certificate secret and the Ingress) are described supposing that you manage the certificate yourself, and you have the certificate and key files for it. In the case that your certificate is Google-managed, fix the next two steps using the guide to use a Google-managed SSL certificate.
Creating a certificate secret
We need now to create a secret with the SSL certificate we want in our load balancer. It’s as easy as executing this command on the path you have your certificate keys stored:
kubectl -n argocd create secret tls secret-yourdomain-com \
--cert cert-file.crt --key key-file.key
Creating an Ingress
And finally, to top it all, our Ingress. Note the reference to our frontend config, the service, and to the certificate secret:
apiVersion: networking.k8s.io/v1beta1
kind: Ingress
metadata:
name: argocd
namespace: argocd
annotations:
networking.gke.io/v1beta1.FrontendConfig: argocd-frontend-config
spec:
tls:
- secretName: secret-yourdomain-com
rules:
- host: argocd.yourdomain.com
http:
paths:
- path: /*
backend:
serviceName: argocd-server-external
servicePort: http
Deprecation Warning
Note that, according to this deprecation guide, if you’re using Kubernetes 1.22+, instead of networking.k8s.io/v1beta1
, you should use networking.k8s.io/v1
.
As you may know already, it can take some minutes to deploy the load balancer and become ready to accept connections. Once it’s ready, get the public IP address for your Load Balancer, go to your DNS server (Google or third party) and point your domain or subdomain (i.e. argocd.yourdomain.com) to that IP address.
You can get that IP address describing the Ingress object like this:
kubectl -n argocd describe ingresses argocd | grep Address
Once the DNS change is propagated, you’re ready to use Argo with your Google Cloud Load Balancer
Authenticating through multiple layers of authenticating reverse proxies
ArgoCD endpoints may be protected by one or more reverse proxies layers, in that case, you can provide additional headers through the argocd
CLI --header
parameter to authenticate through those layers.
$ argocd login <host>:<port> --header 'x-token1:foo' --header 'x-token2:bar' # can be repeated multiple times
$ argocd login <host>:<port> --header 'x-token1:foo,x-token2:bar' # headers can also be comma separated
ArgoCD Server and UI Root Path (v1.5.3)
ArgoCD server and UI can be configured to be available under a non-root path (e.g. /argo-cd
). To do this, add the --rootpath
flag into the argocd-server
deployment command:
spec:
template:
spec:
name: argocd-server
containers:
- command:
- /argocd-server
- --repo-server
- argocd-repo-server:8081
- --rootpath
- /argo-cd
NOTE: The flag --rootpath
changes both API Server and UI base URL. Example nginx.conf:
worker_processes 1;
events { worker_connections 1024; }
http {
sendfile on;
server {
listen 443;
location /argo-cd/ {
proxy_pass https://localhost:8080/argo-cd/;
proxy_redirect off;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Host $server_name;
# buffering should be disabled for api/v1/stream/applications to support chunked response
proxy_buffering off;
}
}
}
Flag --grpc-web-root-path
is used to provide a non-root path (e.g. /argo-cd)
$ argocd login <host>:<port> --grpc-web-root-path /argo-cd
UI Base Path
If the Argo CD UI is available under a non-root path (e.g. /argo-cd
instead of /
) then the UI path should be configured in the API server. To configure the UI path add the --basehref
flag into the argocd-server
deployment command:
spec:
template:
spec:
name: argocd-server
containers:
- command:
- /argocd-server
- --repo-server
- argocd-repo-server:8081
- --basehref
- /argo-cd
NOTE: The flag --basehref
only changes the UI base URL. The API server will keep using the /
path so you need to add a URL rewrite rule to the proxy config. Example nginx.conf with URL rewrite:
worker_processes 1;
events { worker_connections 1024; }
http {
sendfile on;
server {
listen 443;
location /argo-cd {
rewrite /argo-cd/(.*) /$1 break;
proxy_pass https://localhost:8080;
proxy_redirect off;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Host $server_name;
# buffering should be disabled for api/v1/stream/applications to support chunked response
proxy_buffering off;
}
}
}