How to set up syzkaller

Generic instructions on how to set up Linux kernel fuzzing with syzkaller are below.

Instructions for a particular VM type or kernel architecture can be found on these pages:

Install

The following components are needed to use syzkaller:

Go compiler and syzkaller itself
C compiler with coverage support
Linux kernel with coverage additions
Virtual machine or a physical device

If you encounter any troubles, check the troubleshooting page.

Go and syzkaller

syzkaller is written in Go, and Go 1.23+ toolchain is required for build. Generally we aim at supporting 2 latest releases of Go. The toolchain can be installed with:

wget https://dl.google.com/go/go1.23.6.linux-amd64.tar.gz
tar -xf go1.23.6.linux-amd64.tar.gz
export GOROOT=`pwd`/go
export PATH=$GOROOT/bin:$PATH

See Go: Download and install for other options.

To download and build syzkaller:

git clone https://github.com/google/syzkaller
cd syzkaller
make

As the result compiled binaries should appear in the bin/ dir.

Note: if you want to do cross-OS/arch testing, you need to specify TARGETOS, TARGETVMARCH and TARGETARCH arguments to make. See the Makefile for details.

Environment

You might need to properly setup binutils if you're fuzzing in a cross-arch environment as described here.

C Compiler

Syzkaller is a coverage-guided fuzzer and therefore it needs the kernel to be built with coverage support, which requires a recent GCC version. Coverage support was submitted to GCC, released in GCC 6.1.0 or later. Make sure that your GCC meets this requirement, or get a GCC that syzbot uses here.

Linux Kernel

Besides coverage support in GCC, you also need support for it on the kernel side. KCOV was added into mainline Linux kernel in version 4.6 and is be enabled by CONFIG_KCOV=y kernel configuration option. For older kernels you need to at least backport commit kernel: add kcov code coverage. Besides that, it's recommended to backport all kernel patches that touch kernel/kcov.c.

To enable more syzkaller features and improve bug detection abilities, it's recommended to use additional config options. See this page for details.

VM Setup

Syzkaller performs kernel fuzzing on worker virtual machines or physical devices. These worker environments are referred to as VMs. Out-of-the-box syzkaller supports QEMU, kvmtool and GCE virtual machines, Android devices and Odroid C2 boards.

These are the generic requirements for a syzkaller VM:

The fuzzing processes communicate with the outside world, so the VM image needs to include networking support.
The program files for the fuzzer processes are transmitted into the VM using SSH, so the VM image needs a running SSH server.
The VM's SSH configuration should be set up to allow root access for the identity that is included in the syz-manager's configuration. In other words, you should be able to do ssh -i $SSHID -p $PORT root@localhost without being prompted for a password (where SSHID is the SSH identification file and PORT is the port that are specified in the syz-manager configuration file).
The kernel exports coverage information via a debugfs entry, so the VM image needs to mount the debugfs filesystem at /sys/kernel/debug.

To use QEMU syzkaller VMs you have to install QEMU on your host system, see QEMU docs for details. The create-image.sh script can be used to create a suitable Linux image.

See the links at the top of the document for instructions on setting up syzkaller for QEMU, Android and some other types of VMs.

Troubleshooting

QEMU requires root for -enable-kvm.

Solution: add your user to the kvm group (sudo usermod -a -G kvm and relogin).
QEMU crashes with:

qemu-system-x86_64: error: failed to set MSR 0x48b to 0x159ff00000000 qemu-system-x86_64: /build/qemu-EmNSP4/qemu-4.2/target/i386/kvm.c:2947: kvm_put_msrs: Assertion `ret == cpu->kvm_msr_buf->nmsrs' failed.

Solution: remove -cpu host,migratable=off from the QEMU command line. The easiest way to do that is to set qemu_args to -enable-kvm in the syz-manager config file.