Istio Hardened📜
Big Bang has added the .Values.istio.hardened
map attibute to the values of applications that can be istio-injected (when .Values.istio.enabled
is true
). This document walks through the impact of setting .Values.istio.hardened: true
on how traffic is managed within a given istio-injected package.
Prerequisites📜
In order for .Values.istio.hardened.enabled: true
to have any impact, the package must also have .Values.istio.enabled: true
set. This is because all of the resources created by setting .Values.istio.hardened.enabled: true
are applied to the istio service mesh, which includes istio sidecar proxies. If there are no istio proxies, then no mesh components exist in the namespace and therefore istio Kubernetes resources in the namespace will not effect anything.
REGISTRY_ONLY Istio Sidecar resources📜
When .Values.istio.hardened.enabled: true
is set, a Sidecar
resource is applied to the package’s namespace that sets the outboundTrafficPolicy of the Sidecar to REGISTRY_ONLY
. What this means is that for pods with an istio-proxy running as a “sidecar”, the only egress traffic allowed is for traffic that is destinated for a service that exists within the istio service mesh registry.
By default, all Kubernetes Services are added to this registry. However, cluster-external hostnames, IP addresses, and other endpoints will NOT be reachable with this Sidecar in place. For example, if an application attempts to reach out to the Kubernetes API Service at kubernetes.default.svc.cluster.local
(or any of it’s SANs), the request will not be blocked by the Sidecar. Conversely, if the application attempts to reach out to s3.us-gov-west-1.amazonaws.com, the request with fail unless there is a ServiceEntry (see below) that adds s3.us-gov-west-1.amazonaws.com to the service mesh registry. This Sidecar is added in order to provide defense in depth, working alongside NetworkPolicies to prevent data exfiltration by malicious actors.
ServiceEntry Istio resources📜
Because some application have well-documented requirements to reach out to cluster external endpoints (S3 is one common example), Big Bang has added ServiceEntries to get those endpoints included in the Istio service registry. If we missed one, please open an issue detailing what endpoint needs to be whitelisted with a ServiceEntry. Alternatively, you can create your own whitelisted endpoints by using the .Values.istio.hardened.customServiceEntries
list, which will generate a ServiceEntry according to the .spec
map you set.
customServiceEntries
is there for edge cases that may be specific to your requirements, and not allcustomServiceEntries
may be appropriate for all Big Bang users.
Example customServiceEntry📜
To create a ServiceEntry for google, the corresponding customServiceEntry attribute could be set:
istio:
enabled: true
hardened:
enabled: true
customServiceEntries:
- name: "allow-google"
enabled: true
spec:
hosts:
- google.com
location: MESH_EXTERNAL
ports:
- number: 443
protocol: TLS
name: https
resolution: DNS
This would result in the following ServiceEntry being created:
apiVersion: networking.istio.io/v1beta1
kind: ServiceEntry
metadata:
name: allow-google
namespace: my-app-namespace
spec:
hosts:
- google.com
location: MESH_EXTERNAL
ports:
- name: https
number: 443
protocol: TLS
resolution: DNS
For more information on writting ServiceEntries, see this documentation
Authorization Policies📜
Istio Authorization Policies will be created provided istio.enabled
and istio.hardened.enabled
are set to true
. There is a default deny policy which will deny everything that is not explicitly allowed with another policy. Denials look like a 403 with the message RBAC: access denied
. Other policies that are created might include allow ingress gateways, allow monitoring, or allow a supported service that needs access to these resources. You will find these listed under istio.hardened
as named objects that have 3 properties: enabled
, namespaces
, and principals
. There are also templates which allow you to create custom authorization policies through additional values, these are described in greater detail below. The last rules to note are global rules. These are any rules created in the istio-system
namespace. Rather than affecting just the istio-system
namespace, they will apply to all namespaces.
Rules📜
Apart from the default deny, most rules will be explicit allows. Included rules will be for other supported packages. Any other rules will need to be created with the templates described below. Rules affect a namespace. Rules go on the “server” in the “client-server” relationship.
Application Order: 1. If there are any CUSTOM policies that match the request, evaluate and deny the request if the evaluation result is deny. 1. If there are any DENY policies that match the request, deny the request. 1. If there are no ALLOW policies for the workload, allow the request. 1. If any of the ALLOW policies match the request, allow the request. 1. Deny the request.
Templates📜
Templates are just an easy way to inject more authorization policies by just modifying values files. They essentially allow you to pass in a name and spec, then have it deploy an authorization policy with that spec in the .Release.Namespace
. They also allow you to enable/disable specific policies for development, debugging, and other purposes.
If you pass these partial values:
istio:
hardened:
customAuthorizationPolicies:
- name: "allow-my-namespace"
enabled: true
spec:
selector:
matchLabels:
app.kubernetes.io/name: "server-app"
action: ALLOW
rules:
- from:
- source:
namespaces:
- "my-namespace"
This policy would be generated: ```yaml apiVersion: security.istio.io/v1 kind: AuthorizationPolicy metadata: name: “allow-my-namespace” namespace: {{ $.Release.Namespace }}
spec: selector: matchLabels: app.kubernetes.io/name: “server-app” action: ALLOW rules: - from: - source: namespaces: - “my-namespace” ```s