Egress Gateways
The Accessing External Services task shows how to configure Istio to allow access to external HTTP and HTTPS services from applications inside the mesh. There, the external services are called directly from the client sidecar. This example also shows how to configure Istio to call external services, although this time indirectly via a dedicated egress gateway service.
Istio uses ingress and egress gateways to configure load balancers executing at the edge of a service mesh. An ingress gateway allows you to define entry points into the mesh that all incoming traffic flows through. Egress gateway is a symmetrical concept; it defines exit points from the mesh. Egress gateways allow you to apply Istio features, for example, monitoring and route rules, to traffic exiting the mesh.
Use case
Consider an organization that has a strict security requirement that all traffic leaving the service mesh must flow through a set of dedicated nodes. These nodes will run on dedicated machines, separated from the rest of the nodes running applications in the cluster. These special nodes will serve for policy enforcement on the egress traffic and will be monitored more thoroughly than other nodes.
Another use case is a cluster where the application nodes don’t have public IPs, so the in-mesh services that run on them cannot access the Internet. Defining an egress gateway, directing all the egress traffic through it, and allocating public IPs to the egress gateway nodes allows the application nodes to access external services in a controlled way.
Before you begin
Setup Istio by following the instructions in the Installation guide.
Deploy the curl sample app to use as a test source for sending requests.
$ kubectl apply -f @samples/curl/curl.yaml@
Set the
SOURCE_POD
environment variable to the name of your source pod:$ export SOURCE_POD=$(kubectl get pod -l app=curl -o jsonpath={.items..metadata.name})
Enable Envoy’s access logging if not already enabled. For example, using
istioctl
:$ istioctl install <flags-you-used-to-install-Istio> --set meshConfig.accessLogFile=/dev/stdout
Deploy Istio egress gateway
Check if the Istio egress gateway is deployed:
$ kubectl get pod -l istio=egressgateway -n istio-system
If no pods are returned, deploy the Istio egress gateway by performing the following step.
If you used an
IstioOperator
configuration to install Istio, add the following fields to your configuration:spec: components: egressGateways: - name: istio-egressgateway enabled: true
Otherwise, add the equivalent settings to your original
istioctl install
command, for example:$ istioctl install <flags-you-used-to-install-Istio> \ --set "components.egressGateways[0].name=istio-egressgateway" \ --set "components.egressGateways[0].enabled=true"
Egress gateway for HTTP traffic
First create a ServiceEntry
to allow direct traffic to an external service.
Define a
ServiceEntry
foredition.cnn.com
.$ kubectl apply -f - <<EOF apiVersion: networking.istio.io/v1 kind: ServiceEntry metadata: name: cnn spec: hosts: - edition.cnn.com ports: - number: 80 name: http-port protocol: HTTP - number: 443 name: https protocol: HTTPS resolution: DNS EOF
Verify that your
ServiceEntry
was applied correctly by sending an HTTP request to http://edition.cnn.com/politics.$ kubectl exec "$SOURCE_POD" -c curl -- curl -sSL -o /dev/null -D - http://edition.cnn.com/politics ... HTTP/1.1 301 Moved Permanently ... location: https://edition.cnn.com/politics ... HTTP/2 200 Content-Type: text/html; charset=utf-8 ...
The output should be the same as in the TLS Origination for Egress Traffic example, without TLS origination.
Create a
Gateway
for egress traffic to edition.cnn.com port 80.
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: Gateway
metadata:
name: istio-egressgateway
spec:
selector:
istio: egressgateway
servers:
- port:
number: 80
name: http
protocol: HTTP
hosts:
- edition.cnn.com
---
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: egressgateway-for-cnn
spec:
host: istio-egressgateway.istio-system.svc.cluster.local
subsets:
- name: cnn
EOF
$ kubectl apply -f - <<EOF
apiVersion: gateway.networking.k8s.io/v1
kind: Gateway
metadata:
name: cnn-egress-gateway
annotations:
networking.istio.io/service-type: ClusterIP
spec:
gatewayClassName: istio
listeners:
- name: http
hostname: edition.cnn.com
port: 80
protocol: HTTP
allowedRoutes:
namespaces:
from: Same
EOF
- Configure route rules to direct traffic from the sidecars to the egress gateway and from the egress gateway to the external service:
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: VirtualService
metadata:
name: direct-cnn-through-egress-gateway
spec:
hosts:
- edition.cnn.com
gateways:
- istio-egressgateway
- mesh
http:
- match:
- gateways:
- mesh
port: 80
route:
- destination:
host: istio-egressgateway.istio-system.svc.cluster.local
subset: cnn
port:
number: 80
weight: 100
- match:
- gateways:
- istio-egressgateway
port: 80
route:
- destination:
host: edition.cnn.com
port:
number: 80
weight: 100
EOF
$ kubectl apply -f - <<EOF
apiVersion: gateway.networking.k8s.io/v1
kind: HTTPRoute
metadata:
name: direct-cnn-to-egress-gateway
spec:
parentRefs:
- kind: ServiceEntry
group: networking.istio.io
name: cnn
rules:
- backendRefs:
- name: cnn-egress-gateway-istio
port: 80
---
apiVersion: gateway.networking.k8s.io/v1
kind: HTTPRoute
metadata:
name: forward-cnn-from-egress-gateway
spec:
parentRefs:
- name: cnn-egress-gateway
hostnames:
- edition.cnn.com
rules:
- backendRefs:
- kind: Hostname
group: networking.istio.io
name: edition.cnn.com
port: 80
EOF
Resend the HTTP request to http://edition.cnn.com/politics.
$ kubectl exec "$SOURCE_POD" -c curl -- curl -sSL -o /dev/null -D - http://edition.cnn.com/politics ... HTTP/1.1 301 Moved Permanently ... location: https://edition.cnn.com/politics ... HTTP/2 200 Content-Type: text/html; charset=utf-8 ...
The output should be the same as in the step 2.
Check the log of the egress gateway pod for a line corresponding to our request.
If Istio is deployed in the istio-system
namespace, the command to print the log is:
$ kubectl logs -l istio=egressgateway -c istio-proxy -n istio-system | tail
You should see a line similar to the following:
[2019-09-03T20:57:49.103Z] "GET /politics HTTP/2" 301 - "-" "-" 0 0 90 89 "10.244.2.10" "curl/7.64.0" "ea379962-9b5c-4431-ab66-f01994f5a5a5" "edition.cnn.com" "151.101.65.67:80" outbound|80||edition.cnn.com - 10.244.1.5:80 10.244.2.10:50482 edition.cnn.com -
Access the log corresponding to the egress gateway using the Istio-generated pod label:
$ kubectl logs -l gateway.networking.k8s.io/gateway-name=cnn-egress-gateway -c istio-proxy | tail
You should see a line similar to the following:
[2024-01-09T15:35:47.283Z] "GET /politics HTTP/1.1" 301 - via_upstream - "-" 0 0 2 2 "172.30.239.55" "curl/7.87.0-DEV" "6c01d65f-a157-97cd-8782-320a40026901" "edition.cnn.com" "151.101.195.5:80" outbound|80||edition.cnn.com 172.30.239.16:55636 172.30.239.16:80 172.30.239.55:59224 - default.forward-cnn-from-egress-gateway.0
Note that you only redirected the HTTP traffic from port 80 through the egress gateway. The HTTPS traffic to port 443 went directly to edition.cnn.com.
Cleanup HTTP gateway
Remove the previous definitions before proceeding to the next step:
$ kubectl delete serviceentry cnn
$ kubectl delete gateway istio-egressgateway
$ kubectl delete virtualservice direct-cnn-through-egress-gateway
$ kubectl delete destinationrule egressgateway-for-cnn
$ kubectl delete serviceentry cnn
$ kubectl delete gtw cnn-egress-gateway
$ kubectl delete httproute direct-cnn-to-egress-gateway
$ kubectl delete httproute forward-cnn-from-egress-gateway
Egress gateway for HTTPS traffic
In this section you direct HTTPS traffic (TLS originated by the application) through an egress gateway.
You need to specify port 443 with protocol TLS
in a corresponding ServiceEntry
and egress Gateway
.
Define a
ServiceEntry
foredition.cnn.com
:$ kubectl apply -f - <<EOF apiVersion: networking.istio.io/v1 kind: ServiceEntry metadata: name: cnn spec: hosts: - edition.cnn.com ports: - number: 443 name: tls protocol: TLS resolution: DNS EOF
Verify that your
ServiceEntry
was applied correctly by sending an HTTPS request to https://edition.cnn.com/politics.$ kubectl exec "$SOURCE_POD" -c curl -- curl -sSL -o /dev/null -D - https://edition.cnn.com/politics ... HTTP/2 200 Content-Type: text/html; charset=utf-8 ...
Create an egress
Gateway
for edition.cnn.com and route rules to direct the traffic through the egress gateway and from the egress gateway to the external service.
$ kubectl apply -f - <<EOF
apiVersion: networking.istio.io/v1
kind: Gateway
metadata:
name: istio-egressgateway
spec:
selector:
istio: egressgateway
servers:
- port:
number: 443
name: tls
protocol: TLS
hosts:
- edition.cnn.com
tls:
mode: PASSTHROUGH
---
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: egressgateway-for-cnn
spec:
host: istio-egressgateway.istio-system.svc.cluster.local
subsets:
- name: cnn
---
apiVersion: networking.istio.io/v1
kind: VirtualService
metadata:
name: direct-cnn-through-egress-gateway
spec:
hosts:
- edition.cnn.com
gateways:
- mesh
- istio-egressgateway
tls:
- match:
- gateways:
- mesh
port: 443
sniHosts:
- edition.cnn.com
route:
- destination:
host: istio-egressgateway.istio-system.svc.cluster.local
subset: cnn
port:
number: 443
- match:
- gateways:
- istio-egressgateway
port: 443
sniHosts:
- edition.cnn.com
route:
- destination:
host: edition.cnn.com
port:
number: 443
weight: 100
EOF
$ kubectl apply -f - <<EOF
apiVersion: gateway.networking.k8s.io/v1
kind: Gateway
metadata:
name: cnn-egress-gateway
annotations:
networking.istio.io/service-type: ClusterIP
spec:
gatewayClassName: istio
listeners:
- name: tls
hostname: edition.cnn.com
port: 443
protocol: TLS
tls:
mode: Passthrough
allowedRoutes:
namespaces:
from: Same
---
apiVersion: gateway.networking.k8s.io/v1alpha2
kind: TLSRoute
metadata:
name: direct-cnn-to-egress-gateway
spec:
parentRefs:
- kind: ServiceEntry
group: networking.istio.io
name: cnn
rules:
- backendRefs:
- name: cnn-egress-gateway-istio
port: 443
---
apiVersion: gateway.networking.k8s.io/v1alpha2
kind: TLSRoute
metadata:
name: forward-cnn-from-egress-gateway
spec:
parentRefs:
- name: cnn-egress-gateway
hostnames:
- edition.cnn.com
rules:
- backendRefs:
- kind: Hostname
group: networking.istio.io
name: edition.cnn.com
port: 443
EOF
Send an HTTPS request to https://edition.cnn.com/politics. The output should be the same as before.
$ kubectl exec "$SOURCE_POD" -c curl -- curl -sSL -o /dev/null -D - https://edition.cnn.com/politics ... HTTP/2 200 Content-Type: text/html; charset=utf-8 ...
Check the log of the egress gateway’s proxy.
If Istio is deployed in the istio-system
namespace, the command to print the log is:
$ kubectl logs -l istio=egressgateway -n istio-system
You should see a line similar to the following:
[2019-01-02T11:46:46.981Z] "- - -" 0 - 627 1879689 44 - "-" "-" "-" "-" "151.101.129.67:443" outbound|443||edition.cnn.com 172.30.109.80:41122 172.30.109.80:443 172.30.109.112:59970 edition.cnn.com
Access the log corresponding to the egress gateway using the Istio-generated pod label:
$ kubectl logs -l gateway.networking.k8s.io/gateway-name=cnn-egress-gateway -c istio-proxy | tail
You should see a line similar to the following:
[2024-01-11T21:09:42.835Z] "- - -" 0 - - - "-" 839 2504306 231 - "-" "-" "-" "-" "151.101.195.5:443" outbound|443||edition.cnn.com 172.30.239.8:34470 172.30.239.8:443 172.30.239.15:43956 edition.cnn.com -
Cleanup HTTPS gateway
$ kubectl delete serviceentry cnn
$ kubectl delete gateway istio-egressgateway
$ kubectl delete virtualservice direct-cnn-through-egress-gateway
$ kubectl delete destinationrule egressgateway-for-cnn
$ kubectl delete serviceentry cnn
$ kubectl delete gtw cnn-egress-gateway
$ kubectl delete tlsroute direct-cnn-to-egress-gateway
$ kubectl delete tlsroute forward-cnn-from-egress-gateway
Additional security considerations
Note that defining an egress Gateway
in Istio does not in itself provides any special treatment for the nodes
on which the egress gateway service runs. It is up to the cluster administrator or the cloud provider to deploy
the egress gateways on dedicated nodes and to introduce additional security measures to make these nodes more
secure than the rest of the mesh.
Istio cannot securely enforce that all egress traffic actually flows through the egress gateways. Istio only enables such flow through its sidecar proxies. If attackers bypass the sidecar proxy, they could directly access external services without traversing the egress gateway. Thus, the attackers escape Istio’s control and monitoring. The cluster administrator or the cloud provider must ensure that no traffic leaves the mesh bypassing the egress gateway. Mechanisms external to Istio must enforce this requirement. For example, the cluster administrator can configure a firewall to deny all traffic not coming from the egress gateway. The Kubernetes network policies can also forbid all the egress traffic not originating from the egress gateway (see the next section for an example). Additionally, the cluster administrator or the cloud provider can configure the network to ensure application nodes can only access the Internet via a gateway. To do this, the cluster administrator or the cloud provider can prevent the allocation of public IPs to pods other than gateways and can configure NAT devices to drop packets not originating at the egress gateways.
Apply Kubernetes network policies
This section shows you how to create a
Kubernetes network policy to prevent
bypassing of the egress gateway. To test the network policy, you create a namespace, test-egress
, deploy
the curl sample to it, and then attempt to send requests to a gateway-secured
external service.
Follow the steps in the Egress gateway for HTTPS traffic section.
Create the
test-egress
namespace:$ kubectl create namespace test-egress
Deploy the curl sample to the
test-egress
namespace.$ kubectl apply -n test-egress -f @samples/curl/curl.yaml@
Check that the deployed pod has a single container with no Istio sidecar attached:
$ kubectl get pod "$(kubectl get pod -n test-egress -l app=curl -o jsonpath={.items..metadata.name})" -n test-egress NAME READY STATUS RESTARTS AGE curl-776b7bcdcd-z7mc4 1/1 Running 0 18m
Send an HTTPS request to https://edition.cnn.com/politics from the
curl
pod in thetest-egress
namespace. The request will succeed since you did not define any restrictive policies yet.$ kubectl exec "$(kubectl get pod -n test-egress -l app=curl -o jsonpath={.items..metadata.name})" -n test-egress -c curl -- curl -s -o /dev/null -w "%{http_code}\n" https://edition.cnn.com/politics 200
Label the namespaces where the Istio control plane and egress gateway are running. If you deployed Istio in the
istio-system
namespace, the command is:
$ kubectl label namespace istio-system istio=system
$ kubectl label namespace istio-system istio=system
$ kubectl label namespace default gateway=true
Label the
kube-system
namespace.$ kubectl label ns kube-system kube-system=true
Define a
NetworkPolicy
to limit the egress traffic from thetest-egress
namespace to traffic destined to the control plane, gateway, and to thekube-system
DNS service (port 53).
$ cat <<EOF | kubectl apply -n test-egress -f -
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: allow-egress-to-istio-system-and-kube-dns
spec:
podSelector: {}
policyTypes:
- Egress
egress:
- to:
- namespaceSelector:
matchLabels:
kube-system: "true"
ports:
- protocol: UDP
port: 53
- to:
- namespaceSelector:
matchLabels:
istio: system
EOF
$ cat <<EOF | kubectl apply -n test-egress -f -
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: allow-egress-to-istio-system-and-kube-dns
spec:
podSelector: {}
policyTypes:
- Egress
egress:
- to:
- namespaceSelector:
matchLabels:
kube-system: "true"
ports:
- protocol: UDP
port: 53
- to:
- namespaceSelector:
matchLabels:
istio: system
- to:
- namespaceSelector:
matchLabels:
gateway: "true"
EOF
Resend the previous HTTPS request to https://edition.cnn.com/politics. Now it should fail since the traffic is blocked by the network policy. Note that the
curl
pod cannot bypass the egress gateway. The only way it can accessedition.cnn.com
is by using an Istio sidecar proxy and by directing the traffic to the egress gateway. This setting demonstrates that even if some malicious pod manages to bypass its sidecar proxy, it will not be able to access external sites and will be blocked by the network policy.$ kubectl exec "$(kubectl get pod -n test-egress -l app=curl -o jsonpath={.items..metadata.name})" -n test-egress -c curl -- curl -v -sS https://edition.cnn.com/politics Hostname was NOT found in DNS cache Trying 151.101.65.67... Trying 2a04:4e42:200::323... Immediate connect fail for 2a04:4e42:200::323: Cannot assign requested address Trying 2a04:4e42:400::323... Immediate connect fail for 2a04:4e42:400::323: Cannot assign requested address Trying 2a04:4e42:600::323... Immediate connect fail for 2a04:4e42:600::323: Cannot assign requested address Trying 2a04:4e42::323... Immediate connect fail for 2a04:4e42::323: Cannot assign requested address connect to 151.101.65.67 port 443 failed: Connection timed out
Now inject an Istio sidecar proxy into the
curl
pod in thetest-egress
namespace by first enabling automatic sidecar proxy injection in thetest-egress
namespace:$ kubectl label namespace test-egress istio-injection=enabled
Then redeploy the
curl
deployment:$ kubectl delete deployment curl -n test-egress $ kubectl apply -f @samples/curl/curl.yaml@ -n test-egress
Check that the deployed pod has two containers, including the Istio sidecar proxy (
istio-proxy
):
$ kubectl get pod "$(kubectl get pod -n test-egress -l app=curl -o jsonpath={.items..metadata.name})" -n test-egress -o jsonpath='{.spec.containers[*].name}'
curl istio-proxy
Before proceeding, you’ll need to create a similar destination rule as the one used for the curl
pod in the default
namespace,
to direct the test-egress
namespace traffic through the egress gateway:
$ kubectl apply -n test-egress -f - <<EOF
apiVersion: networking.istio.io/v1
kind: DestinationRule
metadata:
name: egressgateway-for-cnn
spec:
host: istio-egressgateway.istio-system.svc.cluster.local
subsets:
- name: cnn
EOF
$ kubectl get pod "$(kubectl get pod -n test-egress -l app=curl -o jsonpath={.items..metadata.name})" -n test-egress -o jsonpath='{.spec.containers[*].name}'
curl istio-proxy
Send an HTTPS request to https://edition.cnn.com/politics. Now it should succeed since the traffic flows to the egress gateway is allowed by the Network Policy you defined. The gateway then forwards the traffic to
edition.cnn.com
.$ kubectl exec "$(kubectl get pod -n test-egress -l app=curl -o jsonpath={.items..metadata.name})" -n test-egress -c curl -- curl -sS -o /dev/null -w "%{http_code}\n" https://edition.cnn.com/politics 200
Check the log of the egress gateway’s proxy.
If Istio is deployed in the istio-system
namespace, the command to print the log is:
$ kubectl logs -l istio=egressgateway -n istio-system
You should see a line similar to the following:
[2020-03-06T18:12:33.101Z] "- - -" 0 - "-" "-" 906 1352475 35 - "-" "-" "-" "-" "151.101.193.67:443" outbound|443||edition.cnn.com 172.30.223.53:39460 172.30.223.53:443 172.30.223.58:38138 edition.cnn.com -
Access the log corresponding to the egress gateway using the Istio-generated pod label:
$ kubectl logs -l gateway.networking.k8s.io/gateway-name=cnn-egress-gateway -c istio-proxy | tail
You should see a line similar to the following:
[2024-01-12T19:54:01.821Z] "- - -" 0 - - - "-" 839 2504837 46 - "-" "-" "-" "-" "151.101.67.5:443" outbound|443||edition.cnn.com 172.30.239.60:49850 172.30.239.60:443 172.30.239.21:36512 edition.cnn.com -
Cleanup network policies
- Delete the resources created in this section:
$ kubectl delete -f @samples/curl/curl.yaml@ -n test-egress
$ kubectl delete destinationrule egressgateway-for-cnn -n test-egress
$ kubectl delete networkpolicy allow-egress-to-istio-system-and-kube-dns -n test-egress
$ kubectl label namespace kube-system kube-system-
$ kubectl label namespace istio-system istio-
$ kubectl delete namespace test-egress
$ kubectl delete -f @samples/curl/curl.yaml@ -n test-egress
$ kubectl delete networkpolicy allow-egress-to-istio-system-and-kube-dns -n test-egress
$ kubectl label namespace kube-system kube-system-
$ kubectl label namespace istio-system istio-
$ kubectl label namespace default gateway-
$ kubectl delete namespace test-egress
- Follow the steps in the Cleanup HTTPS gateway section.
Cleanup
Shutdown the curl service:
$ kubectl delete -f @samples/curl/curl.yaml@