Secure Control of Egress Traffic in Istio, part 2

Use Istio Egress Traffic Control to prevent attacks involving egress traffic.

Jul 10, 2019 | By Vadim Eisenberg - IBM

Welcome to part 2 in our new series about secure control of egress traffic in Istio. In the first part in the series, I presented the attacks involving egress traffic and the requirements we collected for a secure control system for egress traffic. In this installment, I describe the Istio way to securely control the egress traffic, and show how Istio can help you prevent the attacks.

Secure control of egress traffic in Istio

To implement secure control of egress traffic in Istio, you must direct TLS traffic to external services through an egress gateway. Alternatively, you can direct HTTP traffic through an egress gateway and let the egress gateway perform TLS origination.

Both alternatives have their pros and cons, you should choose between them according to your circumstances. The choice mainly depends on whether your application can send unencrypted HTTP requests and whether your organization’s security policies allow sending unencrypted HTTP requests. For example, if your application uses some client library that encrypts the traffic without a possibility to cancel the encryption, you cannot use the option of sending unencrypted HTTP traffic. The same in the case your organization’s security policies do not allow sending unencrypted HTTP requests inside the pod (outside the pod the traffic is encrypted by Istio).

If the application sends HTTP requests and the egress gateway performs TLS origination, you can monitor HTTP information like HTTP methods, headers, and URL paths. You can also define policies based on said HTTP information. If the application performs TLS origination, you can monitor SNI and the service account of the source pod’s TLS traffic, and define policies based on SNI and service accounts.

You must ensure that traffic from your cluster to the outside cannot bypass the egress gateway. Istio cannot enforce it for you, so you must apply some additional security mechanisms, for example, the Kubernetes network policies or an L3 firewall. See an example of the Kubernetes network policies configuration. According to the Defense in depth concept, the more security mechanisms you apply for the same goal, the better.

You must also ensure that Istio control plane and the egress gateway cannot be compromised. While you may have hundreds or thousands of application pods in your cluster, there are only a dozen of Istio control plane pods and the gateways. You can and should focus on protecting the control plane pods and the gateways, since it is easy (there is a small number of pods to protect) and it is most crucial for the security of your cluster. If attackers compromise the control plane or the egress gateway, they could violate any policy.

You might have multiple tools to protect the control plane pods, depending on your environment. The reasonable security measures are:

Once you direct egress traffic through an egress gateway and apply the additional security mechanisms, you can securely monitor and enforce security policies for the traffic.

The following diagram shows Istio’s security architecture, augmented with an L3 firewall which is part of the additional security mechanisms that should be provided outside of Istio.

Istio Security Architecture with Egress Gateway and L3 Firewall
Istio Security Architecture with Egress Gateway and L3 Firewall

You can configure the L3 firewall trivially to only allow incoming traffic through the Istio ingress gateway and only allow outgoing traffic through the Istio egress gateway. The Istio proxies of the gateways enforce policies and report telemetry just as all other proxies in the mesh do.

Now let’s examine possible attacks and let me show you how the secure control of egress traffic in Istio prevents them.

Preventing possible attacks

Consider the following security policies for egress traffic:

Suppose the attackers have the following goals:

Now suppose that the attackers manage to break into one of the pods of application A, and try to use the compromised pod to perform the forbidden access. The attackers may try their luck and access the external services in a straightforward way. You will react to the straightforward attempts as follows:

Having failed to achieve their goals in a straightforward way, the malicious actors may resort to advanced attacks:

As far as we can see, all the forbidden access is prevented, or at least is monitored and can be prevented later. If you see other attacks that involve egress traffic or security holes in the current design, we would be happy to hear about it.


Hopefully, I managed to convince you that Istio is an effective tool to prevent attacks involving egress traffic. In the next part of this series, I compare secure control of egress traffic in Istio with alternative solutions such as Kubernetes Network Policies and legacy egress proxies/firewalls.