- StackRox Kubernetes Security Platform
The StackRox Kubernetes Security Platform performs a risk analysis of the container environment, delivers visibility and runtime alerts, and provides recommendations to proactively improve security by hardening the environment. StackRox integrates with every stage of container lifecycle: build, deploy and runtime.
The StackRox Kubernetes Security platform is built on the foundation of the product formerly known as Prevent, which itself was called Mitigate and Apollo. You may find references to these previous names in code or documentation.
You can reach out to us through Slack (#stackrox). For alternative ways, stop by our Community Hub stackrox.io.
For event updates, blogs and other resources follow the StackRox community site at stackrox.io.
For the StackRox Code of Conduct.
To report a vulnerability or bug.
StackRox offers quick installation via Helm Charts. Follow the Helm Installation Guide to get helm
CLI on your system.
Then run the helm quick installation script or proceed to section Manual Installation using Helm for configuration options.
Install StackRox via Helm Installation Script
/bin/bash <(curl -fsSL https://raw.githubusercontent.com/stackrox/stackrox/master/scripts/quick-helm-install.sh)
A default deployment of StackRox has certain CPU and memory requests and may fail on small (e.g. development) clusters if sufficient resources are not available. You may use the --small
command-line option in order to install StackRox on smaller clusters with limited resources. Using this option is not recommended for production deployments.
/bin/bash <(curl -fsSL https://raw.githubusercontent.com/stackrox/stackrox/master/scripts/quick-helm-install.sh) --small
The script adds the StackRox helm repository, generates an admin password, installs stackrox-central-services, creates an init bundle for provisioning stackrox-secured-cluster-services, and finally installs stackrox-secured-cluster-services on the same cluster.
Finally, the script will automatically open the browser and log you into StackRox. A certificate warning may be displayed since the certificate is self-signed. See the Accessing the StackRox User Interface (UI) section to read more about the warnings. After authenticating you can access the dashboard using https://localhost:8000/main/dashboard.
To further customize your Helm installation, consult these documents:
StackRox offers quick installation via Helm Charts. Follow the Helm Installation Guide to get the helm
CLI on your system.
Deploying using Helm consists of 4 steps
- Add the StackRox repository to Helm
- Launch StackRox Central Services using helm
- Create a cluster configuration and a service identity (init bundle)
- Deploy the StackRox Secured Cluster Services using that configuration and those credentials (this step can be done multiple times to add more clusters to the StackRox Central Service)
Install StackRox Central Services
First, the StackRox Central Services will be added to your Kubernetes cluster. This includes the UI and Scanner. To start, add the stackrox/helm-charts/opensource repository to Helm.
helm repo add stackrox https://raw.githubusercontent.com/stackrox/helm-charts/main/opensource/
To see all available Helm charts in the repo run (you may add the option --devel
to show non-release builds as well)
helm search repo stackrox
To install stackrox-central-services, you will need a secure password. This password will be needed later when creating an init bundle.
STACKROX_ADMIN_PASSWORD="$(openssl rand -base64 20 | tr -d '/=+')"
From here, you can install stackrox-central-services to get Central and Scanner components deployed on your cluster. Note that you need only one deployed instance of stackrox-central-services even if you plan to secure multiple clusters.
helm install -n stackrox --create-namespace stackrox-central-services stackrox/stackrox-central-services --set central.adminPassword.value="${STACKROX_ADMIN_PASSWORD}"
If you're deploying StackRox on nodes with limited resources such as a local development cluster, run the following command to reduce StackRox resource requirements. Keep in mind that these reduced resource settings are not suited for a production setup.
helm upgrade -n stackrox stackrox-central-services stackrox/stackrox-central-services \
--set central.resources.requests.memory=1Gi \
--set central.resources.requests.cpu=1 \
--set central.resources.limits.memory=4Gi \
--set central.resources.limits.cpu=1 \
--set scanner.autoscaling.disable=true \
--set scanner.replicas=1 \
--set scanner.resources.requests.memory=500Mi \
--set scanner.resources.requests.cpu=500m \
--set scanner.resources.limits.memory=2500Mi \
--set scanner.resources.limits.cpu=2000m
Install StackRox Secured Cluster Services
Next, the secured cluster component will need to be deployed to collect information on from the Kubernetes nodes.
Generate an init bundle containing initialization secrets. The init bundle will be saved in stackrox-init-bundle.yaml
, and you will use it to provision secured clusters as shown below.
kubectl -n stackrox exec deploy/central -- roxctl --insecure-skip-tls-verify \
--password "${STACKROX_ADMIN_PASSWORD}" \
central init-bundles generate stackrox-init-bundle --output - > stackrox-init-bundle.yaml
Set a meaningful cluster name for your secured cluster in the CLUSTER_NAME
shell variable. The cluster will be identified by this name in the clusters list of the StackRox UI.
CLUSTER_NAME="my-secured-cluster"
Then install stackrox-secured-cluster-services (with the init bundle you generated earlier) using this command:
helm install -n stackrox stackrox-secured-cluster-services stackrox/stackrox-secured-cluster-services \
-f stackrox-init-bundle.yaml \
--set clusterName="$CLUSTER_NAME"
When deploying stackrox-secured-cluster-services on a different cluster than the one where stackrox-central-services is deployed, you will also need to specify the endpoint (address and port number) of Central via --set centralEndpoint=<endpoint_of_central_service>
command-line argument.
When deploying StackRox Secured Cluster Services on a small node, you can install with additional options. This should reduce stackrox-secured-cluster-services resource requirements. Keep in mind that these reduced resource settings are not recommended for a production setup.
helm install -n stackrox stackrox-secured-cluster-services stackrox/stackrox-secured-cluster-services \
-f stackrox-init-bundle.yaml \
--set clusterName="$CLUSTER_NAME" \
--set sensor.resources.requests.memory=500Mi \
--set sensor.resources.requests.cpu=500m \
--set sensor.resources.limits.memory=500Mi \
--set sensor.resources.limits.cpu=500m
To further customize your Helm installation consult these documents:
The deploy
script will:
- Launch StackRox Central Services
- Create a cluster configuration and a service identity
- Deploy the StackRox Secured Cluster Services using that configuration and those credentials
You can set the environment variable MAIN_IMAGE_TAG
in your shell to
ensure that you get the version you want.
If you check out a commit, the scripts will launch the image corresponding to that commit by default. The image will be pulled if needed.
Further steps are orchestrator specific.
Click to expand
Follow the guide below to quickly deploy a specific version of StackRox to your Kubernetes cluster in the stackrox
namespace. If you want to install a specific version, make sure to define/set it in MAIN_IMAGE_TAG
, otherwise it will install the latest nightly build.
Run the following in your working directory of choice:
git clone git@github.com:stackrox/stackrox.git
cd stackrox
MAIN_IMAGE_TAG=VERSION_TO_USE ./deploy/k8s/deploy.sh
After a few minutes, all resources should be deployed.
Credentials for the 'admin' user can be found in the ./deploy/k8s/central-deploy/password
file.
Note: While the password file is stored in plaintext on your local filesystem, the Kubernetes Secret StackRox uses is encrypted, and you will not be able to alter the secret at runtime. If you lose the password, you will have to redeploy central.
Click to Expand
Before deploying on OpenShift, ensure that you have the oc - OpenShift Command Line installed.
Follow the guide below to quickly deploy a specific version of StackRox to your OpenShift cluster in the stackrox
namespace. Make sure to add the most recent tag to the MAIN_IMAGE_TAG
variable.
Run the following in your working directory of choice:
git clone git@github.com:stackrox/stackrox.git
cd stackrox
MAIN_IMAGE_TAG=VERSION_TO_USE ./deploy/openshift/deploy.sh
After a few minutes, all resources should be deployed. The process will complete with this message.
Credentials for the 'admin' user can be found in the ./deploy/openshift/central-deploy/password
file.
Note: While the password file is stored in plaintext on your local filesystem, the Kubernetes Secret StackRox uses is encrypted, and you will not be able to alter the secret at runtime. If you loose the password, you will have to redeploy central.
Click to Expand
Run the following in your working directory of choice:
git clone git@github.com:stackrox/stackrox.git
cd stackrox
MAIN_IMAGE_TAG=latest ./deploy/k8s/deploy-local.sh
After a few minutes, all resources should be deployed.
Credentials for the 'admin' user can be found in the ./deploy/k8s/deploy-local/password
file.
Click to expand
After the deployment has completed (Helm or script install) a port-forward should exist, so you can connect to https://localhost:8000/. Run the following
kubectl port-forward -n 'stackrox' svc/central "8000:443"
Then go to https://localhost:8000/ in your web browser.
Username = The default user is admin
Password (Helm) = The password is in $STACKROX_ADMIN_PASSWORD
after a manual installation, or printed at the end of the quick installation script.
Password (Script) = The password will be located in the /deploy/<orchestrator>/central-deploy/password.txt
folder for the script install.
-
UI Dev Docs: Refer to ui/README.md
-
E2E Dev Docs: Refer to qa-tests-backend/README.md
The following tools are necessary to test code and build image(s):
Click to expand
- Make
- Go
- Get the version specified in EXPECTED_GO_VERSION.
- Various Go linters and RocksDB dependencies that can be installed using
make reinstall-dev-tools
. - UI build tooling as specified in ui/README.md.
- Docker
- Note: Docker Desktop now requires a paid subscription for larger, enterprise companies.
- Some StackRox devs recommend Colima
- RocksDB
- Xcode command line tools (macOS only)
- Bats is used to run certain shell tests.
You can obtain it with
brew install bats
ornpm install -g bats
. - oc OpenShift cli tool
Xcode - macOS Only
Usually you would have these already installed by brew. However, if you get an error when building the golang x/tools, try first making sure the EULA is agreed by:
- starting Xcode
- building a new blank app project
- starting the blank project app in the emulator
- close both the emulator and the Xcode, then
- run the following commands:
xcode-select --install
sudo xcode-select --switch /Library/Developer/CommandLineTools # Enable command line tools
sudo xcode-select -s /Applications/Xcode.app/Contents/Developer
For more info, see nodejs/node-gyp#569
Click to expand
# Create a GOPATH: this is the location of your Go "workspace".
# (Note that it is not – and must not – be the same as the path Go is installed to.)
# The default is to have it in ~/go/, or ~/development, but anything you prefer goes.
# Whatever you decide, create the directory, set GOPATH, and update PATH:
export GOPATH=$HOME/go # Change this if you choose to use a different workspace.
export PATH=$PATH:$GOPATH/bin
# You probably want to permanently set these by adding the following commands to your shell
# configuration (e.g. ~/.bash_profile)
cd $GOPATH
mkdir -p bin pkg
mkdir -p src/github.com/stackrox
cd src/github.com/stackrox
git clone git@github.com:stackrox/stackrox.git
Click to expand
To sweeten your experience, install the workflow scripts beforehand.
First install RocksDB. Follow Mac or Linux guidelines
$ cd $GOPATH/src/github.com/stackrox/stackrox
$ make install-dev-tools
$ make image
Now, you need to bring up a Kubernetes cluster yourself before proceeding.
Development can either happen in GCP or locally with
Docker Desktop, Colima, minikube.
Note that Docker Desktop and Colima are more suited for macOS development, because the cluster will have access to images built with make image
locally without additional configuration. Also, Collector has better support for these than minikube where drivers may not be available.
# To keep the StackRox Central's RocksDB state between restarts, set:
$ export STORAGE=pvc
# To save time on rebuilds by skipping UI builds, set:
$ export SKIP_UI_BUILD=1
# When you deploy locally make sure your kube context points to the desired kubernetes cluster,
# for example Docker Desktop.
# To check the current context you can call a workflow script:
$ roxkubectx
# To deploy locally, call:
$ ./deploy/k8s/deploy-local.sh
# Now you can access StackRox dashboard at https://localhost:8000
# or simply call another workflow script:
$ logmein
See Installation via Scripts for further reading. To read more about the environment variables, consult deploy/README.md.
# Build image, this will create `stackrox/main` with a tag defined by `make tag`.
$ make image
# Compile all binaries
$ make main-build-dockerized
# Displays the docker image tag which would be generated
$ make tag
# Note: there are integration tests in some components, and we currently
# run those manually. They will be re-enabled at some point.
$ make test
# Apply and check style standards in Go and JavaScript
$ make style
# enable pre-commit hooks for style checks
$ make init-githooks
# Compile and restart only central
$ make fast-central
# Compile only sensor
$ make fast-sensor
# Only compile protobuf
$ make proto-generated-srcs
Click to expand
The workflow repository contains some helper scripts
which support our development workflow. Explore more commands with roxhelp --list-all
.
# Change directory to rox root
$ cdrox
# Handy curl shortcut for your StackRox central instance
# Uses https://localhost:8000 by default or ROX_BASE_URL env variable
# Also uses the admin credentials from your last deployment via deploy.sh
$ roxcurl /v1/metadata
# Run quickstyle checks, faster than stackrox's "make style"
$ quickstyle
# The workflow repository includes some tools for supporting
# working with multiple inter-dependent branches.
# Examples:
$ smart-branch <branch-name> # create new branch
... work on branch...
$ smart-rebase # rebase from parent branch
... continue working on branch...
$ smart-diff # check diff relative to parent branch
... git push, etc.
Click to expand
If you're using GoLand for development, the following can help improve the experience.
Make sure the Protocol Buffers
plugin is installed. The plugin comes installed by default in GoLand.
If it isn't, use Help | Find Action...
, type Plugins
and hit enter, then switch to Marketplace
, type its name and install the plugin.
This plugin does not know where to look for .proto
imports by default in GoLand therefore you need to explicitly
configure paths for this plugin. See https://github.com/jvolkman/intellij-protobuf-editor#path-settings.
- Go to
GoLand | Preferences | Languages & Frameworks | Protocol Buffers
. - Uncheck
Configure automatically
. - Click on
+
button, navigate and select./proto
directory in the root of the repo. - Optionally, also add
$HOME/go/pkg/mod/github.com/gogo/googleapis@1.1.0
and$HOME/go/pkg/mod/github.com/gogo/protobuf@v1.3.1/
. - To verify: use menu
Navigate | File...
type any.proto
file name, e.g.alert_service.proto
, and check that all import strings are shown green, not red.
Click to expand
Kubernetes debugger setup
With GoLand, you can naturally use breakpoints and the debugger when running unit tests in IDE.
If you would like to debug local or even remote deployment, follow the procedure below.
- Create debug build locally by exporting
DEBUG_BUILD=yes
:Alternatively, debug build will also be created when the branch name contains$ DEBUG_BUILD=yes make image
-debug
substring. This works locally withmake image
and in CI. - Deploy the image using instructions from this README file. Works both with
deploy-local.sh
anddeploy.sh
. - Start the debugger (and port forwarding) in the target pod using
roxdebug
command fromworkflow
repo.# For Central $ roxdebug # For Sensor $ roxdebug deploy/sensor # See usage help $ roxdebug --help
- Configure GoLand for remote debugging (should be done only once):
- Open
Run | Edit Configurations …
, click on the+
icon to add new configuration, chooseGo Remote
template. - Choose
Host:
localhost
andPort:
40000
. Give this configuration some name. - Select
On disconnect:
Leave it running
(this prevents GoLand forgetting breakpoints on reconnect).
- Open
- Attach GoLand to debugging port: select
Run | Debug…
and choose configuration you've created. If all done right, you should seeConnected
message in theDebug | Debugger | Variables
window at the lower part of the screen. - Set some code breakpoints, trigger corresponding actions and happy debugging!
See Debugging go code running in Kubernetes for more info.
Kubernetes
docker run -i --rm stackrox.io/main:<tag> interactive > k8s.zip
This will run you through an installer and generate a k8s.zip
file.
unzip k8s.zip -d k8s
bash k8s/central.sh
Now Central has been deployed. Use the UI to deploy Sensor.
OpenShift
Note: If using a host mount, you need to allow the container to access it by using
sudo chcon -Rt svirt_sandbox_file_t <full volume path>
Take the image-setup.sh script from this repo and run it to do the pull/push to local OpenShift registry. This is a prerequisite for every new cluster.
bash image-setup.sh
docker run -i --rm stackrox.io/main:<tag> interactive > openshift.zip
This will run you through an installer and generate a openshift.zip
file.
unzip openshift.zip -d openshift
bash openshift/central.sh
Click to Expand
The following information has been gathered to help with the installation and operation of the open source StackRox project. These recommendations were developed for the Red Hat Advanced Cluster Security for Kubernetes product and have not been tested with the upstream StackRox project.
Recommended Kubernetes Distributions
The Kubernetes Platforms that StackRox has been deployed onto with minimal issues are listed below.
- Red Hat OpenShift Dedicated (OSD)
- Azure Red Hat OpenShift (ARO)
- Red Hat OpenShift Service on AWS (ROSA)
- Amazon Elastic Kubernetes Service (EKS)
- Google Kubernetes Engine (GKE)
- Microsoft Azure Kubernetes Service (AKS)
If you deploy into a Kubernetes distribution other than the ones listed above you may encounter issues.
Recommended Operating Systems
StackRox is known to work on the recent versions of the following operating systems.
- Ubuntu
- Debian
- Red Hat Enterprise Linux (RHEL)
- CentOS
- Fedora CoreOS
- Flatcar Container Linux
- Google COS
- Amazon Linux
- Garden Linux
Recommended Web Browsers
The following table lists the browsers that can view the StackRox web user interface.
- Google Chrome 88.0 (64-bit)
- Microsoft Internet Explorer Edge
- Version 44 and later (Windows)
- Version 81 (Official build) (64-bit)
- Safari on MacOS (Mojave) - Version 14.0
- Mozilla Firefox Version 82.0.2 (64-bit)