Bpflock – eBPF Driven Security For Locking And Auditing Linux Machines
bpflock - eBPF driven security for locking and auditing Linux machines.
Note: bpflock is currently in experimental stage, it may break, options and security semantics may change, some BPF programs will be updated to use Cilium ebpf library.
1. Introduction
bpflock uses eBPF to strength Linux security. By restricting access to a various range of Linux features, bpflock is able to reduce the attack surface and block some well known attack techniques.
Only programs like container managers, systemd and other containers/programs that run in the host pid and network namespaces are allowed access to full Linux features, containers and applications that run on their own namespace will be restricted. If bpflock bpf programs run under the restricted
profile then all programs/containers including privileged ones will have their access denied.
bpflock protects Linux machines by taking advantage of multiple security features including Linux Security Modules + BPF.
Architecture and Security design notes:
- bpflock is not a mandatory access control labeling solution, and it does not intent to replace AppArmor, SELinux, and other MAC solutions. bpflock uses a simple declarative security profile.
- bpflock offers multiple small bpf programs that can be reused in multiple contexts from Cloud Native deployments to Linux IoT devices.
- bpflock is able to restrict root from accessing certain Linux features, however it does not protect against evil root.
2. Functionality Overview
2.1 Security features
bpflock offer multiple security protections that can be classified as:
-
- Fileless Memory Execution
- Namespaces protection
-
System and Application tracing
- Trace Application Execution
- Trace Privileged System Operations
-
Filesystem Protections
- Read-only root filesystem protection
- sysfs protection
-
Network protections
- bpflock may include in future a simple network protection that can be used in single machine workload or Linux-IoT, but will not include a Cloud Native protection. Cilium and other kubernetes CNI related solutions are by far better.
2.2 Semantics
bpflock keeps the security semantics simple. It support three global profiles to broadly cover the security sepctrum, and restrict access to specific Linux features.
-
profile
: this is the global profile that can be applied per bpf program, it takes one of the followings:allow|none|privileged
: they are the same, they define the least secure profile. In this profile access is logged and allowed for all processes. Useful to log security events.baseline
: restrictive profile where access is denied for all processes, except privileged applications and containers that run in the host namespaces, or per cgroup allowed profiles in thebpflock_cgroupmap
bpf map.restricted
: heavily restricted profile where access is denied for all processes.
-
Allowed
orblocked
operations/commands:Under the
allow|privileged
orbaseline
profiles, a list of allowed or blocked commands can be specified and will be applied.--protection-allow
: comma-separated list of allowed operations. Valid underbaseline
profile, this is useful for applications that are too specific and perform privileged operations. It will reduce the use of theallow | privileged
profile, so instead of using theprivileged
profile, we can specify thebaseline
one and add a set of allowed commands to offer a case-by-case definition for such applications.--protection-block
: comma-separated list of blocked operations. Valid underallow|privileged
andbaseline
profiles, it allows to restrict access to some features without using the fullrestricted
profile that might break some specific applications. Usingbaseline
orprivileged
profiles opens the gate to access most Linux features, but with the--protection-block
option some of this access can be blocked.
For bpf security examples check bpflock configuration examples
3. Deployment
3.1 Prerequisites
bpflock needs the following:
-
Linux kernel version >= 5.13 with the following configuration:
Obviously a BTF enabled kernel.Enable BPF LSM support
If your kernel was compiled with
CONFIG_BPF_LSM=y
check the/boot/config-*
to confirm, but when running bpflock it fails with:must have a kernel with 'CONFIG_BPF_LSM=y' 'CONFIG_LSM=\"...,bpf\"'"
Then to enable BPF LSM as an example on Ubuntu:
- Open the /etc/default/grub file as privileged of course.
- Append the following to the
GRUB_CMDLINE_LINUX
variable and save.or"lsm=lockdown,capability,yama,apparmor,bpf"
GRUB_CMDLINE_LINUX="lsm=lockdown,capability,yama,apparmor,bpf"
- Update grub config with:
sudo update-grub2
- Reboot into your kernel.
3.2 Docker deployment
To run using the default
allow
orprivileged
profile (the least secure profile):docker run --name bpflock -it --rm --cgroupns=host \
--pid=host --privileged \
-v /sys/kernel/:/sys/kernel/ \
-v /sys/fs/bpf:/sys/fs/bpf linuxlock/bpflockFileless Binary Execution
To log and restict fileless binary execution run with:
docker run --name bpflock -it --rm --cgroupns=host --pid=host --privileged \
-e "BPFLOCK_FILELESSLOCK_PROFILE=restricted" \
-v /sys/kernel/:/sys/kernel/ \
-v /sys/fs/bpf:/sys/fs/bpf linuxlock/bpflockWhen running under
restricted
profile, the container logs will display:Running under therestricted
profile may break things, this is why the default profile isallow
.Kernel Modules Protection
To apply Kernel Modules Protection run with environment variable
BPFLOCK_KMODLOCK_PROFILE=baseline
orBPFLOCK_KMODLOCK_PROFILE=restricted
:docker run --name bpflock -it --rm --cgroupns=host --pid=host --privileged \
-e "BPFLOCK_KMODLOCK_PROFILE=restricted" \
-v /sys/kernel/:/sys/kernel/ \
-v /sys/fs/bpf:/sys/fs/bpf linuxlock/bpflockExample:
$ sudo unshare -p -n -f
# modprobe xfs
modprobe: ERROR: could not insert 'xfs': Operation not permittedKernel Image Lock-downTo apply Kernel Image Lock-down run with environment variable
BPFLOCK_KIMGLOCK_PROFILE=baseline
:docker run --name bpflock -it --rm --cgroupns=host --pid=host --privileged \
-e "BPFLOCK_KIMGLOCK_PROFILE=baseline" \
-v /sys/kernel/:/sys/kernel/ \
-v /sys/fs/bpf:/sys/fs/bpf linuxlock/bpflock$ sudo unshare -f -p -n bash
# head -c 1 /dev/mem
head: cannot open '/dev/mem' for reading: Operation not permittedBPF ProtectionTo apply bpf restriction run with environment variable
BPFLOCK_BPFRESTRICT_PROFILE=baseline
orBPFLOCK_BPFRESTRICT_PROFILE=restricted
:docker run --name bpflock -it --rm --cgroupns=host --pid=host --privileged \
-e "BPFLOCK_BPFRESTRICT_PROFILE=baseline" \
-v /sys/kernel/:/sys/kernel/ \
-v /sys/fs/bpf:/sys/fs/bpf linuxlock/bpflockExample running in a different pid and network namespaces and using bpftool:
$ sudo unshare -f -p -n bash
# bpftool prog
Error: can't get next program: Operation not permittedRunning with the-e "BPFLOCK_BPFRESTRICT_PROFILE=restricted"
profile will deny bpf for all:3.3 Configuration and Environment filePassing configuration as bind mounts can be achieved using the following command.
Assuming bpflock.yaml and bpf.d profiles configs are in current directory inside
bpflock
directory, then we can just use:ls bpflock/
bpf.d bpflock.d bpflock.yamldocker run --name bpflock -it --rm --cgroupns=host --pid=host --privileged \
-v $(pwd)/bpflock/:/etc/bpflock \
-v /sys/kernel/:/sys/kernel/ \
-v /sys/fs/bpf:/sys/fs/bpf linuxlock/bpflockPassing environment variables can also be done with files using
--env-file
. All parameters can be passed as environment variables using theBPFLOCK_$VARIABLE_NAME=VALUE
format.Example run with environment variables in a file:
docker run --name bpflock -it --rm --cgroupns=host --pid=host --privileged \
--env-file bpflock.env.list \
-v /sys/kernel/:/sys/kernel/ \
-v /sys/fs/bpf:/sys/fs/bpf linuxlock/bpflock4. Documentation
Documentation files can be found here.
5. Build
bpflock uses docker BuildKit to build and Golang to make some checks and run tests. bpflock is built inside Ubuntu container that downloads the standard golang package.
Run the following to build the bpflock docker container:
git submodule update --init --recursive
makeBpf programs are built using libbpf. The docker image used is Ubuntu.
If you want to only build the bpf programs directly without using docker, then on Ubuntu:
sudo apt install -y pkg-config bison binutils-dev build-essential \
flex libc6-dev clang-12 libllvm12 llvm-12-dev libclang-12-dev \
zlib1g-dev libelf-dev libfl-dev gcc-multilib zlib1g-dev \
libcap-dev libiberty-dev libbfd-devThen run:
make bpf-programs
In this case the generated programs will be inside the ./bpf/build/... directory.
Credits
bpflock uses lot of resources including source code from the Cilium and bcc projects.
License
The bpflock user space components are licensed under the Apache License, Version 2.0. The BPF code where it is noted is licensed under the General Public License, Version 2.0.