The camblet-driver is the supporting Linux kernel module for the Camblet system. It is capable of enhancing plain old TCP sockets in a frictionless way so that application developers can focus on their business logic instead of dealing with the complexity of TLS, mTLS, and other security-related concerns. It is doing this seamlessly, no code changes or re-compilations or re-deployments are required.
The features are the following:
- providing zero-trust identity for UNIX TCP sockets through mTLS
- access control, authorization and authentication (through OPA)
- providing frictionless TLS termination for those TCP sockets
- supporting every Linux-based machine (bare-metal, vanilla VM, Kubernetes, etc... you name it)
The early incarnation of this project was presented on KubeCon 2023 Amsterdam, Wasm Day, you can find the recording here. By that time the module was capable of running OPA -> Wasm compiled policies in the Kernel and those were exposed as an eBPF function from the kernel module.
The wasm3 runtime was chosen since it is written in C and has minimal dependencies (except a C library) and it is extremely portable. In kernel space, there is no libc, but we maintain a fork of wasm3 which can run in kernel space as well (check the third-party/wasm3/
submodule).
Current restrictions for kernel-space wasm3:
- no floating point support [can be soft-emulated if needed]
- no WASI support
Checkout the code before you start:
git clone --recurse-submodules https://github.com/cisco-open/camblet-driver.git
cd camblet-driver
Our primary development environment is Lima since it supports x86_64 and ARM as well. The module was tested on Ubuntu and Arch Linux and requires kernel version 5.15 and upwards.
Install Lima itself, for example on macOS using brew
:
brew install lima
Launch the default VM which is an Ubuntu and matches the host's architecture by default:
limactl start
# You may also start the VM with your user home mounted as writable with this one-liner:
limactl start --set '.mounts[0].writable=true' --tty=false
Setup the required dependencies in the VM:
lima # enter the VM
sudo apt update && sudo apt install make
make setup-vm
We are using VSCode for development and the project ships with a c_cpp_properties.json
file which contains the required paths for the kernel headers. The file is ARM specific from include path point-of-view so if you happen to run on x86_64 please replace the paths accordingly (arm64 -> x86, aarch64 -> x86_64).
We are respecting your c_cpp_properties.json
file by not overriding it. Please copy the required parts to your file, if it is already present.
You will also need a Linux source bundle, to have full navigation in the source code. The easiest way is to run the setup-dev-env
target after you already have created a working and configured VM in Lima (with lima make setup-vm
). This target installs the necessary GCC cross-compilers for IntelliSense, clones the Linux repo, and configures the VSCode workspace accordingly:
# Start the VM if you haven't already
limactl start
# Setup the development environment
make setup-dev-env
This assumes that you have created a development environment according to the previous section.
Build the kernel modules(BearSSL and Camblet):
# Enter the VM
lima
# Build on all CPU cores parallelly
make -j$(nproc)
Load the kernel modules(BearSSL and Camblet):
make insmod
Unload the kernel modules(BearSSL and Camblet):
make rmmod
Follow the kernel logs:
make logs
Install the CLI for the kernel module:
# You can build the module on your workstation
git clone https://github.com/cisco-open/camblet.git
cd camblet
GOOS=linux make build
# But you need to run it in the VM, where the device is exposed
lima sudo build/camblet agent --policies-path $(pwd)/camblet.d/policies --services-path $(pwd)/camblet.d/services
Then follow the instructions here.
The kernel module can terminate TLS connections for ordinary TCP sockets (IPv4 or IPv6), and forward the plaintext traffic to a user space application.
Between two applications - both of them intercepted by this module - the traffic is always encrypted by kTLS. If one of them is not intercepted by the module but supports the ChaCha20-Poly1305 AEAD - kTLS is used. Otherwise, the traffic is encrypted by BearSSL.
Most of the logs of this module are on debug level and can be shown using dynamic debug feature of the Linux kernel.
Use the following command to turn on debug level logging for the module:
echo -n '-p; module camblet file opa.c +pftl' | sudo tee /proc/dynamic_debug/control > /dev/null
The kernel module offers TLS termination on certain ports selected by an OPA rule-set:
# Edit the rule-set
vim socket.rego
# Build and insert the module, then follow the logs
make
make insmod
make logs
# In another terminal start a server
lima python3 -m http.server --protocol HTTP/1.1
# In another terminal connect to the server (over plaintext, will be TLS terminated by the kernel)
lima curl -v http://localhost:8000
It is also possible to manually install the kernel module with DKMS.
Linux kernel modules need to be built against a specified kernel version, this is when dynamic kernel module support, DKMS comes in handy. The DKMS framework enables you to automatically re-build kernel modules into the current kernel tree as you upgrade your kernel, so you don't need to re-build them manually every time.
Ensure that DKMS is installed on your system. You can typically install it using your distribution's package manager.
For example, on Debian-based systems:
sudo apt install dkms
On Red Hat compatible systems:
sudo dnf install --enablerepo epel dkms
On Amazon Linux:
sudo dnf install dkms
The Camblet can be installed with DKMS in the following way currently:
sudo git clone --recurse-submodule https://github.com/cisco-open/camblet-driver.git /usr/src/camblet-0.6.0/
# Add the kernel module to the DKMS source control
sudo dkms add -m camblet -v 0.6.0
# Build and install the kernel module against the current kernel version
sudo dkms install -m camblet -v 0.6.0
# Load the kernel module
sudo modprobe camblet
# Check the logs that the module got loaded
sudo dmesg -T
Un-installation is very simple as well:
# Unload the kernel module
sudo modprobe -r camblet
# Remove the kernel module from DKMS source control
sudo dkms uninstall -m camblet -v 0.6.0
sudo dkms remove -m camblet -v 0.6.0
The kernel module can be packaged into a Debian package with DKMS support, so kernel module re-builds are handled automatically.
Prepare the build environment, if you want to build the package on your workstation:
sudo apt install debhelper
The package can be built with the following command:
make deb
The package can be installed with the following command:
sudo apt install ../camblet-driver_0.4.0-1_all.deb
The kernel module can be packaged into an RPM package with DKMS support, so kernel module re-builds are handled automatically.
Prepare the build environment, if you want to build the package on your workstation:
sudo dnf install rpm-build
The package can be built with the following command:
make rpm
The package can be installed with the following command:
sudo dnf install ../camblet-driver-0.4.0-1.noarch.rpm