This is a modified version of the Firmadyne system to be compatible with the FirmSolo re-hosting framework. The file-system creation and emulation scripts are modified to support FirmSolo's kernels and kernel module loading.
This version of Firmadyne is slightly older than the current upstream version, but it will updated in time.
FIRMADYNE is an automated and scalable system for performing emulation and dynamic analysis of Linux-based embedded firmware. It includes the following components:
- modified kernels (MIPS: v2.6.32, ARM: v4.1, v3.10) for instrumentation of firmware execution;
- a userspace NVRAM library to emulate a hardware NVRAM peripheral;
- an extractor to extract a filesystem and kernel from downloaded firmware;
- a small console application to spawn an additional shell for debugging;
- and a scraper to download firmware from 42+ different vendors.
We have also written the following three basic automated analyses using the FIRMADYNE system.
- Accessible Webpages: This script iterates through each file within the filesystem of a firmware image that appears to be served by a webserver, and aggregates the results based on whether they appear to required authentication.
- SNMP Information: This script dumps the contents of the
public
andprivate
SNMP v2c communities to disk using no credentials. - Vulnerability Check: This script tests for the presence of 60 known vulnerabilities using exploits from Metasploit. In addition, it also checks for 14 previously-unknown vulnerbailities that we discovered. For more information, including affected products and CVE's, refer to analyses/README.md.
In our 2016 Network and Distributed System Security Symposium (NDSS) paper, titled Towards Automated Dynamic Analysis for Linux-based Embedded Firmware, we evaluated the FIRMADYNE system over a dataset of 23,035 firmware images, of which we were able to extract 9,486. Using 60 exploits from the Metasploit Framework, and 14 previously-unknown vulnerabilities that we discovered, we showed that 846 out of 1,971 (43%) firmware images were vulnerable to at least one exploit, which we estimate to affect 89+ different products. For more details, refer to our paper linked above.
Note: This project is a research tool, and is currently not production ready. In particular, some components are quite immature and rough. We suggest running the system within a virtual machine. No support is offered, but pull requests are greatly appreciated, whether for documentation, tests, or code!
The following has been tested on a Ubuntu 14.04 machine. Other Debian-based systems should also be compatible.
First, clone this repository recursively and install its dependencies.
sudo apt-get install busybox-static fakeroot git dmsetup kpartx netcat-openbsd nmap python-psycopg2 python3-psycopg2 snmp uml-utilities util-linux vlan
git clone --recursive https://github.com/firmadyne/firmadyne.git
The extractor depends on the binwalk tool, so we need to install that and its dependencies.
git clone https://github.com/devttys0/binwalk.git
cd binwalk
sudo ./deps.sh
sudo python ./setup.py install
- For Python 2.x,
sudo apt-get install python-lzma
sudo -H pip install git+https://github.com/ahupp/python-magic
sudo -H pip install git+https://github.com/sviehb/jefferson
.- Optionally, instead of upstream sasquatch, our sasquatch fork can be used to prevent false positives by making errors fatal.
Next, install, set up, and configure the database.
sudo apt-get install postgresql
sudo -u postgres createuser -P firmadyne
, with passwordfirmadyne
sudo -u postgres createdb -O firmadyne firmware
sudo -u postgres psql -d firmware < ./firmadyne/database/schema
To download our pre-built binaries for all components, run the following script:
cd ./firmadyne; ./download.sh
Alternatively, refer to the instructions below to compile from source.
Only QEMU <= 2.12 is supported! See bugs #96 and #119 for more information.
To use QEMU provided by your distribution:
sudo apt-get install qemu-system-arm qemu-system-mips qemu-system-x86 qemu-utils
Note that emulation of x86-based firmware is not currently supported, but installing
qemu-system-x86
resolves a packaging issue on certain Debian-based distributions.
Alternatively, use our modified version
of qemu-linaro for certain
firmware with an alphafs
webserver that assumes a fixed memory mapping (not
recommended), or upstream qemu.
- Set
FIRMWARE_DIR
infirmadyne.config
to point to the root of this repository. - Download a firmware image, e.g. v2.0.3 for Netgear WNAP320.
wget http://www.downloads.netgear.com/files/GDC/WNAP320/WNAP320%20Firmware%20Version%202.0.3.zip
- Use the extractor to recover only the filesystem, no kernel (
-nk
), no parallel operation (-np
), populating theimage
table in the SQL server at127.0.0.1
(-sql
) with theNetgear
brand (-b
), and storing the tarball inimages
../sources/extractor/extractor.py -b Netgear -sql 127.0.0.1 -np -nk "WNAP320 Firmware Version 2.0.3.zip" images
- Identify the architecture of firmware
1
and store the result in theimage
table of the database../scripts/getArch.sh ./images/1.tar.gz
- Load the contents of the filesystem for firmware
1
into the database, populating theobject
andobject_to_image
tables../scripts/tar2db.py -i 1 -f ./images/1.tar.gz
- Create the QEMU disk image for firmware
1
.sudo ./scripts/makeImage.sh 1
- Infer the network configuration for firmware
1
. Kernel messages are logged to./scratch/1/qemu.initial.serial.log
../scripts/inferNetwork.sh 1
- Emulate firmware
1
with the inferred network configuration. This will modify the configuration of the host system by creating a TAP device and adding a route../scratch/1/run.sh
- The system should be available over the network, and is ready for analysis. Kernel messages are mirrored to
./scratch/1/qemu.final.serial.log
../analyses/snmpwalk.sh 192.168.0.100
./analyses/webAccess.py 1 192.168.0.100 log.txt
mkdir exploits; ./analyses/runExploits.py -t 192.168.0.100 -o exploits/exploit -e x
(requires Metasploit Framework)sudo nmap -O -sV 192.168.0.100
- The default console should be automatically connected to the terminal. Note that
Ctrl-c
is sent to the guest; use the QEMU monitor commandCtrl-a + x
to terminate emulation. For the sample firmware above, you will first need to delete the file/etc/securetty
from the filesystem to login asroot
with passwordpassword
. - The following scripts can be used to mount/unmount the filesystem of firmware
1
. Ensure that the emulated firmware is not running, and remember to unmount before performing any other operations.
sudo ./scripts/mount.sh 1
sudo ./scripts/umount.sh 1
This is a common error that is encountered when the network configuration is unable to be inferred. Follow the checklist below to figure out the cause.
inferNetwork.sh
: Did this script find any network interfaces (e.g.Interfaces: [br0, 192.168.0.1]
)? If so, this is a bug; please report it. Otherwise, continue below.qemu.initial.serial.log
: Does this file end withUnable to mount root fs on unknown-block(8,1)
? If so, the initial filesystem image was not generated correctly usingkpartx
. Try deleting the scratch directory corresponding to this firmware image, and restart atmakeImage.sh
. Otherwise, the initial emulation didn't produce any useful instrumentation. Try increasing the timeout ininferNetwork.sh
from60
to120
and restarting atinferNetwork.sh
.qemu.initial.serial.log
: Did theinit
process crash, and is this preceded by a failed NVRAM operation (e.g.nvram_get_buf: Unable to open key <foo>
)? If so, see the FAQ entry below.
It is likely that the process requested a NVRAM entry that FIRMADYNE does not have a default value for. This can be fixed by manually adding a source for NVRAM entries to NVRAM_DEFAULTS_PATH
, an entry to NVRAM_DEFAULTS
, or a file to OVERRIDE_POINT
in libnvram
. For more details, see the documentation for libnvram. Note that the first two options involve modifying config.h
, which will require recompilation of libnvram
.
- With full-system QEMU emulation, compile a statically-linked
gdbserver
for the target architecture, copy it into the filesystem, attach it to the process of interest, and connect remotely usinggdb-multiarch
. You'll need a cross-compile toolchain; either use thecrossbuild-essential-*
packages supplied by Debian/Ubuntu, build it from scratch using e.g.buildroot
, or look for GPL sources and/or pre-compiled binaries online. If you have IDA Pro, you can use IDA's pre-compiled debug servers (located in thedbgsrv
subdirectory of the install), though they are not GDB-compatible. - With full-system QEMU emulation, pass the
-s -S
parameters to QEMU and connect to the stub usingtarget remote localhost:1234
fromgdb-multiarch
. However, the debugger won't automatically know where kernel and userspace is in memory, so you may need to manually doadd-symbol-file
ingdb
and break aroundtry_to_run_init_process()
in the kernel. - With user-mode QEMU emulation,
chroot
into the firmware image (optional), setLD_LIBRARY_PATH
to contain the FIRMADYNE libnvram, and pass both the-L
parameter with the correct path to the firmware/lib
directory, and the binary of interest to QEMU. This is easiest to debug, because you can attach directly to the process usinggdb-multiarch
, and interact directly with the process, but the system state may not be accurate since the host kernel is being used. It is also somewhat insecure, because the emulated firmware can access the host filesystem and interact with the host kernel.
If you would like to compile the entire FIRMADYNE system from scratch without using our pre-built binaries, please follow the steps below.
In order to build any of the binaries used by FIRMADYNE, you will need three cross-compilation toolchains for the following architecture triples. Use only musl libc as the C runtime library for the toolchain; others have not been tested.
- arm-linux-musleabi
- mipseb-linux-musl
- mipsel-linux-musl
To simplify the process of building cross-compilation toolchains with musl, we recommend using the musl-cross project. Follow the below steps to build these toolchains from source, or alternatively click here to download our pre-built toolchains.
-
git clone https://github.com/GregorR/musl-cross.git
-
Modify or set the following variables in
defs.sh
BINUTILS_URL=http://ftp.gnu.org/gnu/binutils/binutils-2.25.1.tar.bz2
GCC_VERSION=5.3.0
GMP_VERSION=6.0.0a
MPC_VERSION=1.0.2
MPFR_VERSION=3.1.3
LIBELF_VERSION=master
MUSL_DEFAULT_VERSION=1.1.12
MUSL_GIT_VERSION=615629bd6fcd6ddb69ad762e679f088c7bd878e2
LANG_CXX=no
GCC_BUILTIN_PREREQS=yes
-
Modify or set the following variables in
config.sh
CFLAGS="-fPIC"
-
For little-endian MIPS, perform the following:
- set
TRIPLE=mipsel-linux-musl
inconfig.sh
- set
LINUX_HEADERS_URL=https://kernel.org/pub/linux/kernel/v2.6/longterm/v2.6.32/linux-2.6.32.70.tar.xz
indefs.sh
- run
./clean.sh
to clean out any previous builds - run
./build.sh
to build and install the toolchain into/opt/cross
- set
-
For big-endian MIPS, perform the following:
- set
TRIPLE=mipseb-linux-musl
inconfig.sh
- set
LINUX_HEADERS_URL=https://kernel.org/pub/linux/kernel/v2.6/longterm/v2.6.32/linux-2.6.32.70.tar.xz
indefs.sh
- run
./clean.sh
to clean out any previous builds - run
./build.sh
to build and install the toolchain into/opt/cross
- set
-
For little-endian ARM, perform the following:
- set
TRIPLE=arm-linux-musleabi
,GCC_BOOTSTRAP_CONFFLAGS="--with-arch=armv6 --with-float=softfp"
, andGCC_CONFFLAGS="--with-arch=armv6 --with-float=softfp"
inconfig.sh
- set
LINUX_HEADERS_URL=https://kernel.org/pub/linux/kernel/v4.x/linux-4.1.17.tar.xz
indefs.sh
- run
./clean.sh
to clean out any previous builds - run
./build.sh
to build and install the toolchain into/opt/cross
- set
-
You should have the following directories, or wherever you installed the toolchains:
/opt/cross/arm-linux-musleabi
/opt/cross/mipseb-linux-musl
/opt/cross/mipsel-linux-musl
cd ./firmadyne/sources/console
make clean && CC=/opt/cross/arm-linux-musleabi/bin/arm-linux-musleabi-gcc make && mv console ../../binaries/console.armel
make clean && CC=/opt/cross/mipseb-linux-musl/bin/mipseb-linux-musl-gcc make && mv console ../../binaries/console.mipseb
make clean && CC=/opt/cross/mipsel-linux-musl/bin/mipsel-linux-musl-gcc make && mv console ../../binaries/console.mipsel
cd ./firmadyne/sources/libnvram
make clean && CC=/opt/cross/arm-linux-musleabi/bin/arm-linux-musleabi-gcc make && mv libnvram.so ../../binaries/libnvram.so.armel
make clean && CC=/opt/cross/mipseb-linux-musl/bin/mipseb-linux-musl-gcc make && mv libnvram.so ../../binaries/libnvram.so.mipseb
make clean && CC=/opt/cross/mipsel-linux-musl/bin/mipsel-linux-musl-gcc make && mv libnvram.so ../../binaries/libnvram.so.mipsel
git clone https://github.com/firmadyne/kernel-v4.1.git && cd kernel-v4.1
mkdir -p build/armel
cp config.armel build/armel/.config
make ARCH=arm CROSS_COMPILE=/opt/cross/arm-linux-musleabi/bin/arm-linux-musleabi- O=./build/armel zImage -j8
cp build/armel/arch/arm/boot/zImage ../firmadyne/binaries/zImage.armel
-
git clone https://github.com/firmadyne/kernel-v2.6.32.git && cd kernel-v2.6.32
-
For big-endian MIPS, perform the following:
mkdir -p build/mipseb
cp config.mipseb build/mipseb/.config
make ARCH=mips CROSS_COMPILE=/opt/cross/mipseb-linux-musl/bin/mipseb-linux-musl- O=./build/mipseb -j8
cp build/mipseb/vmlinux ../firmadyne/binaries/vmlinux.mipseb
-
For little-endian MIPS, perform the following:
mkdir -p build/mipsel
cp config.mipsel build/mipsel/.config
make ARCH=mips CROSS_COMPILE=/opt/cross/mipsel-linux-musl/bin/mipsel-linux-musl- O=./build/mipsel -j8
cp build/mipsel/vmlinux ../firmadyne/binaries/vmlinux.mipsel
During development, the database was stored on a PostgreSQL server.
Although we cannot redistribute binary firmware, the data used for our experiments is available here.
Below are descriptions of tables in the schema.
brand
: Stores brand names for each vendor.
Column | Description |
---|---|
id | Primary key |
name | Brand name |
image
: Stores information about each firmware image.
Column | Description |
---|---|
id | Primary key |
filename | File name |
brand_id | Foreign key to brand |
hash | MD5 |
rootfs_extracted | Whether the primary filesystem was extracted |
kernel_extracted | Whether the kernel was extracted |
arch | Hardware architecture |
kernel_version | Version of the extracted kernel |
object
: Stores information about each file in a filesystem.
Column | Description |
---|---|
id | Primary key |
hash | MD5 |
object_to_image
: Maps unique files to their firmware images.
Column | Description |
---|---|
id | Primary key |
oid | Foreign key to object |
iid | Foreign key to image |
filename | Full path to the file |
regular_file | Whether the file is regular |
permissions | File permissions in octal |
uid | Owner's user ID |
gid | Group's group ID |
product
Column | Description |
---|---|
id | Primary key |
iid | Foreign key to image |
url | Download URL |
mib_filename | Filename of the SNMP MIB |
mib_hash | MD5 of the SNP MIB |
mib_url | Download URL of the SNMP MIB |
sdk_filename | Filename of the source SDK |
sdk_hash | MD5 of the source SDK |
sdk_url | Download URL of the source SDK |
product | Product name |
version | Version string |
build | Build string |
date | Release date |
The results discussed in our paper were produced using pre-release versions of the following:
- toolchains:
BINUTILS_URL=http://ftp.gnu.org/gnu/binutils/binutils-2.25.1.tar.bz2
,GCC_VERSION=4.9.3
,GMP_VERSION=6.0.0a
,MPC_VERSION=1.0.2
,MPFR_VERSION=3.1.3
,LIBELF_VERSION=71bf774909fd654d8167a475333fa8f37fbbcb5d
,MUSL_DEFAULT_VERSION=1.1.10
,MUSL_GIT_VERSION=996d148bf14b477b07fa3691bffeb930c67b2b62
,LANG_CXX=no
- ARM:
LINUX_HEADERS_URL=https://kernel.org/pub/linux/kernel/v3.x/linux-3.10.84.tar.xz
- MIPS:
LINUX_HEADERS_URL=https://kernel.org/pub/linux/kernel/v2.6/longterm/v2.6.32/linux-2.6.32.67.tar.xz
- kernels:
- ARM: firmadyne-v3.10.92
- MIPS: firmadyne-v2.6.32.68 without
e2b9f315547ea50a65baad4899a4780078ab273e
and26bb3636c987fc7e145af73ddea6c10fa93bdae9
- console:
c36ae8553fa4e9c82e8a65752906641d81c2360c
- extractor:
5520c64bfa8554c5c17ab671aaed0fdeec91bf19
- libnvram:
b60e7d4d576b39dd46107058adb635d43e80e00d
- qemu-linaro:
4753f5e8126a00cc0a8559bfd9b47d6340903323
- binwalk:
f2ce2992695fae5477c46980148c89e9c91a5cce
- jefferson:
090a33be0be4aac8eee8d825447c0eb18dc8b51a
- sasquatch:
287e4a8e059d3ee7a5f643211fcf00c292cd6f4d
- jefferson: