A tool for scanning Kubernetes cluster for risky permissions in Kubernetes's Role-based access control (RBAC) authorization model. The tool was published as part of the "Securing Kubernetes Clusters by Eliminating Risky Permissions" research https://www.cyberark.com/threat-research-blog/securing-kubernetes-clusters-by-eliminating-risky-permissions/. Table of Contents Overview What can it do? Usage Container Directly with Python3 Prerequisites Example for installation on Ubuntu With KubeConfig file From a remote with ServiceAccount token Examples Demo Risky Roles YAML Showcase License References Overview KubiScan helps cluster administrators identify permissions that attackers could potentially exploit to compromise the clusters. This can be especially helpful on large environments where there are lots of permissions that can be challenging to track. KubiScan gathers information about risky roles\clusterroles, rolebindings\clusterrolebindings, users and pods, automating traditional manual processes and giving administrators the visibility they need to reduce risk. What can it do? Identify risky Roles\ClusterRoles Identify risky RoleBindings\ClusterRoleBindings Identify risky Subjects (Users, Groups and ServiceAccounts) Identify risky Pods\Containers Dump tokens from pods (all or by namespace) Get associated RoleBindings\ClusterRoleBindings to Role, ClusterRole or Subject (user, group or service account) List Subjects with specific kind ('User', 'Group' or 'ServiceAccount') List rules of RoleBinding or ClusterRoleBinding Show Pods that have access to secret data through a volume or environment variables Get bootstrap tokens for the cluster CVE scan EKS\AKS\GKE support Usage Container You can run it like that: ./docker_run.sh <kube_config_file> # For example: ./docker_run.sh ~/.kube/config It will copy all the files linked inside the config file into the container and spwan a shell into the container. To build the Docker image run: docker build -t kubiscan . Directly with Python3 Prerequisites: Python 3.6+ Pip3 Kubernetes Python Client Prettytable openssl (built-in in ubuntu) - used only for join token Example for installation on Ubuntu: apt-get update apt-get install -y python3 python3-pip pip3 install -r requirements.txt Run alias kubiscan='python3 /<KubiScan_folder>/KubiScan.py' to use kubiscan. After installing all of the above requirements you can run it in two different ways: With KubeConfig file: Make sure you have access to ~/.kube/config file and all the relevant certificates, simply run: kubiscan <command> For example: kubiscan -rs will show all the risky subjects (users, service accounts and groups). From a remote with ServiceAccount token Some functionality requires a privileged service account with the following permissions: resources: ["roles", "clusterroles", "rolebindings", "clusterrolebindings", "pods", "secrets"] verbs: ["get", "list"] resources: ["pods/exec"] verbs: ["create", "get"] But most of the functionalities are not, so you can use this settings for limited service account: It can be created by running: kubectl apply -f - << EOF apiVersion: v1 kind: ServiceAccount metadata: name: kubiscan-sa namespace: default --- apiVersion: v1 kind: Secret type: kubernetes.io/service-account-token metadata: name: kubiscan-sa-secret annotations: kubernetes.io/service-account.name: kubiscan-sa --- kind: ClusterRoleBinding apiVersion: rbac.authorization.k8s.io/v1 metadata: name: kubiscan-clusterrolebinding subjects: - kind: ServiceAccount name: kubiscan-sa namespace: default apiGroup: "" roleRef: kind: ClusterRole name: kubiscan-clusterrole apiGroup: "" --- kind: ClusterRole apiVersion: rbac.authorization.k8s.io/v1 metadata: name: kubiscan-clusterrole rules: - apiGroups: ["*"] resources: ["roles", "clusterroles", "rolebindings", "clusterrolebindings", "pods"] verbs: ["get", "list"] EOF Note that from Kubernetes 1.24, the creation of service account doesn't create a secret. This means that we need to create the secret. Before 1.24, you can remove the Secret object from the above commands and save the service account's token to a file: kubectl get secrets $(kubectl get sa kubiscan-sa -o=jsonpath='{.secrets[0].name}') -o=jsonpath='{.data.token}' | base64 -d > token From 1.24, you don't need to change anything and save the token like that: kubectl get secrets kubiscan-sa-secret -o=jsonpath='{.data.token}' | base64 -d > token After saving the token into the file, you can use it like that: python3 ./KubiScan.py -ho <master_ip:master_port> -t /token <command> For example: alias kubiscan='python3 /<KubiScan_folder>/KubiScan.py kubiscan -ho 192.168.21.129:8443 -t /token -rs Notice that you can also use the certificate authority (ca.crt) to verify the SSL connection: kubiscan -ho <master_ip:master_port> -t /token -c /ca.crt <command> To remove the privileged service account, run the following commands: kubectl delete clusterroles kubiscan-clusterrole kubectl delete clusterrolebindings kubiscan-clusterrolebinding kubectl delete sa kubiscan-sa kubectl delete secrets kubiscan-sa-secret Examples To see all the examples, run python3 KubiScan.py -e or from within the container kubiscan -e. Demo A small example of KubiScan usage: Risky Roles YAML There is a file named risky_roles.yaml. This file contains templates for risky roles with priority. Although the kind in each role is Role, these templates will be compared against any Role\ClusterRole in the cluster. When each of these roles is checked against a role in the cluster, it checks if the role in the cluster contains the rules from the risky role. If it does, it will be marked as risky. We added all the roles we found to be risky, but because each one can define the term "risky" in a different way, you can modify the file by adding\removing roles you think are more\less risky. ❤️ Showcase Presented at RSA 2020 "Compromising Kubernetes Cluster by Exploiting RBAC Permissions" Presented at RSA 2022 "Attacking and Defending Kubernetes Cluster: Kubesploit vs KubiScan" Article by PortSwigger "KubiScan: Open source Kubernetes security tool showcased at Black Hat 2020" License Copyright (c) 2020 CyberArk Software Ltd. All rights reserved This repository is licensed under GPL-3.0 License - see LICENSE for more details. References: For more comments, suggestions or questions, you can contact Eviatar Gerzi (@g3rzi) and CyberArk Labs.