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kali-arm/odroid-xu.sh
2018-06-30 17:03:58 -05:00

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#!/bin/bash
# This is the HardKernel ODROID XU Kali ARM build script - http://hardkernel.com/main/main.php
# A trusted Kali Linux image created by Offensive Security - http://www.offensive-security.com
if [[ $EUID -ne 0 ]]; then
echo "This script must be run as root"
exit 1
fi
if [[ $# -eq 0 ]] ; then
echo "Please pass version number, e.g. $0 2.0"
exit 0
fi
basedir=`pwd`/odroidxu-$1
# Custom hostname variable
hostname=kali
# Custom image file name variable - MUST NOT include .img at the end.
imagename=kali-linux-$1-odroidxu
if [ $2 ]; then
hostname=$2
fi
if [ $3 ]; then
imagename=$3
fi
# Generate a random machine name to be used.
machine=$(cat /dev/urandom | tr -dc 'a-zA-Z0-9' | fold -w 16 | head -n 1)
# This is used for cross compiling the exynos5-hwcomposer.
# If this isn't built/installed, there will be no framebuffer console.
hosttuple=arm-linux-gnueabihf
# Make sure that the cross compiler can be found in the path before we do
# anything else, that way the builds don't fail half way through.
export CROSS_COMPILE=arm-linux-gnueabihf-
if [ $(compgen -c $CROSS_COMPILE | wc -l) -eq 0 ] ; then
echo "Missing cross compiler. Set up PATH according to the README"
exit 1
fi
# Unset CROSS_COMPILE so that if there is any native compiling needed it doesn't
# get cross compiled.
unset CROSS_COMPILE
# Package installations for various sections.
# This will build a minimal XFCE Kali system with the top 10 tools.
# This is the section to edit if you would like to add more packages.
# See http://www.kali.org/new/kali-linux-metapackages/ for meta packages you can
# use. You can also install packages, using just the package name, but keep in
# mind that not all packages work on ARM! If you specify one of those, the
# script will throw an error, but will still continue on, and create an unusable
# image, keep that in mind.
arm="abootimg cgpt fake-hwclock ntpdate u-boot-tools vboot-utils vboot-kernel-utils"
base="e2fsprogs initramfs-tools kali-defaults kali-menu parted sudo usbutils firmware-linux firmware-atheros firmware-libertas firmware-realtek"
desktop="fonts-croscore fonts-crosextra-caladea fonts-crosextra-carlito gnome-theme-kali gtk3-engines-xfce kali-desktop-xfce kali-root-login lightdm network-manager network-manager-gnome xfce4 xserver-xorg-video-fbdev"
tools="aircrack-ng ethtool hydra john libnfc-bin mfoc nmap passing-the-hash sqlmap usbutils winexe wireshark"
services="apache2 openssh-server"
extras="iceweasel xfce4-terminal wpasupplicant"
packages="${arm} ${base} ${desktop} ${tools} ${services} ${extras}"
architecture="armhf"
# If you have your own preferred mirrors, set them here.
# After generating the rootfs, we set the sources.list to the default settings.
mirror=http.kali.org
# Set this to use an http proxy, like apt-cacher-ng, and uncomment further down
# to unset it.
#export http_proxy="http://localhost:3142/"
mkdir -p ${basedir}
cd ${basedir}
# create the rootfs - not much to modify here, except maybe the hostname.
debootstrap --foreign --arch $architecture kali-rolling kali-$architecture http://$mirror/kali
cp /usr/bin/qemu-arm-static kali-$architecture/usr/bin/
LANG=C systemd-nspawn -M $machine -D kali-$architecture /debootstrap/debootstrap --second-stage
# Create sources.list
cat << EOF > kali-$architecture/etc/apt/sources.list
deb http://$mirror/kali kali-rolling main contrib non-free
EOF
# Set hostname
echo "$hostname" > kali-$architecture/etc/hostname
# So X doesn't complain, we add $hostname to hosts
cat << EOF > kali-$architecture/etc/hosts
127.0.0.1 $hostname localhost
::1 localhost ip6-localhost ip6-loopback
fe00::0 ip6-localnet
ff00::0 ip6-mcastprefix
ff02::1 ip6-allnodes
ff02::2 ip6-allrouters
EOF
cat << EOF > kali-$architecture/etc/network/interfaces
auto lo
iface lo inet loopback
auto eth0
iface eth0 inet dhcp
EOF
cat << EOF > kali-$architecture/etc/resolv.conf
nameserver 8.8.8.8
EOF
cat << 'EOF' > kali-$architecture/lib/systemd/system/regenerate_ssh_host_keys.service
[Unit]
Description=Regenerate SSH host keys
Before=ssh.service
[Service]
Type=oneshot
ExecStartPre=-/bin/dd if=/dev/hwrng of=/dev/urandom count=1 bs=4096
ExecStartPre=-/bin/sh -c "/bin/rm -f -v /etc/ssh/ssh_host_*_key*"
ExecStart=/usr/bin/ssh-keygen -A -v
ExecStartPost=/bin/sh -c "for i in /etc/ssh/ssh_host_*_key*; do actualsize=$(wc -c <\"$i\") ;if [ $actualsize -eq 0 ]; then echo size is 0 bytes ; exit 1 ; fi ; done ; /bin/systemctl disable regenerate_ssh_host_keys"
[Install]
WantedBy=multi-user.target
EOF
chmod 644 kali-$architecture/lib/systemd/system/regenerate_ssh_host_keys.service
export MALLOC_CHECK_=0 # workaround for LP: #520465
export LC_ALL=C
export DEBIAN_FRONTEND=noninteractive
#mount -t proc proc kali-$architecture/proc
#mount -o bind /dev/ kali-$architecture/dev/
#mount -o bind /dev/pts kali-$architecture/dev/pts
cat << EOF > kali-$architecture/debconf.set
console-common console-data/keymap/policy select Select keymap from full list
console-common console-data/keymap/full select en-latin1-nodeadkeys
EOF
cat << EOF > kali-$architecture/third-stage
#!/bin/bash
dpkg-divert --add --local --divert /usr/sbin/invoke-rc.d.chroot --rename /usr/sbin/invoke-rc.d
cp /bin/true /usr/sbin/invoke-rc.d
echo -e "#!/bin/sh\nexit 101" > /usr/sbin/policy-rc.d
chmod 755 /usr/sbin/policy-rc.d
apt-get update
apt-get --yes --allow-change-held-packages install locales-all
debconf-set-selections /debconf.set
rm -f /debconf.set
apt-get update
apt-get -y install git-core binutils ca-certificates initramfs-tools u-boot-tools
apt-get -y install locales console-common less nano git
echo "root:toor" | chpasswd
rm -f /etc/udev/rules.d/70-persistent-net.rules
export DEBIAN_FRONTEND=noninteractive
apt-get --yes --allow-change-held-packages install $packages
if [ $? > 0 ];
then
apt-get --yes --allow-change-held-packages --fix-broken install
fi
apt-get --yes --allow-change-held-packages dist-upgrade
apt-get --yes --allow-change-held-packages autoremove
# Generate SSH host keys on first run
systemctl enable regenerate_ssh_host_keys
systemctl enable ssh
rm /usr/sbin/policy-rc.d
rm -f /usr/sbin/invoke-rc.d
dpkg-divert --remove --rename /usr/sbin/invoke-rc.d
rm -f /third-stage
EOF
chmod 755 kali-$architecture/third-stage
LANG=C systemd-nspawn -M $machine -D kali-$architecture /third-stage
cat << EOF > kali-$architecture/cleanup
#!/bin/bash
rm -rf /root/.bash_history
apt-get update
apt-get clean
rm -f /0
rm -f /hs_err*
rm -f cleanup
rm -f /usr/bin/qemu*
EOF
chmod 755 kali-$architecture/cleanup
LANG=C systemd-nspawn -M $machine -D kali-$architecture /cleanup
#umount kali-$architecture/proc/sys/fs/binfmt_misc
#umount kali-$architecture/dev/pts
#umount kali-$architecture/dev/
#umount kali-$architecture/proc
# Create the disk and partition it
echo "Creating image file $imagename.img"
dd if=/dev/zero of=${basedir}/$imagename.img bs=1M count=7000
parted $imagename.img --script -- mklabel msdos
parted $imagename.img --script -- mkpart primary fat32 3072s 264191s
parted $imagename.img --script -- mkpart primary ext4 264192s 100%
# Set the partition variables
loopdevice=`losetup -f --show ${basedir}/$imagename.img`
device=`kpartx -va $loopdevice| sed -E 's/.*(loop[0-9])p.*/\1/g' | head -1`
sleep 5
device="/dev/mapper/${device}"
bootp=${device}p1
rootp=${device}p2
# Create file systems
mkfs.vfat $bootp
mkfs.ext4 -O ^flex_bg -O ^metadata_csum $rootp
# Create the dirs for the partitions and mount them
mkdir -p ${basedir}/bootp ${basedir}/root
mount $bootp ${basedir}/bootp
mount $rootp ${basedir}/root
echo "Rsyncing rootfs into image file"
rsync -HPavz -q ${basedir}/kali-$architecture/ ${basedir}/root/
# Serial console settings.
# (Auto login on serial console)
#T1:12345:respawn:/sbin/agetty 115200 ttySAC2 vt100 >> ${basedir}/root/etc/inittab
# (No auto login)
#T1:12345:respawn:/bin/login -f root ttySAC2 /dev/ttySAC2 2>&1' >> ${basedir}/root/etc/inittab
# Make sure ttySAC1 is in root/etc/securetty so root can login on serial console.
echo 'T1:12345:respawn:/bin/login -f root ttySAC2 /dev/ttySAC2 2>&1' >> ${basedir}/root/etc/inittab
cat << EOF >> ${basedir}/root/etc/udev/links.conf
M ttySAC2 c 5 1
EOF
cat << EOF >> ${basedir}/root/etc/securetty
ttySAC0
ttySAC1
ttySAC2
EOF
# Start X on the ODROID XU.
cp ${basedir}/root/etc/skel/.profile ${basedir}/root/root/.bash_profile
cat << EOF >> ${basedir}/root/root/.bash_profile
if [ -z "$DISPLAY" ] && [ $(tty) = /dev/ttySAC1 ]; then
startx
fi
EOF
cat << EOF > ${basedir}/root/etc/apt/sources.list
deb http://http.kali.org/kali kali-rolling main non-free contrib
deb-src http://http.kali.org/kali kali-rolling main non-free contrib
EOF
# Uncomment this if you use apt-cacher-ng otherwise git clones will fail.
#unset http_proxy
# Kernel section. If you want to use a custom kernel, or configuration, replace
# them in this section.
git clone --depth 1 https://github.com/hardkernel/linux.git -b odroidxu-3.4.y ${basedir}/root/usr/src/kernel
cd ${basedir}/root/usr/src/kernel
git rev-parse HEAD > ../kernel-at-commit
patch -p1 --no-backup-if-mismatch < ${basedir}/../patches/mac80211.patch
touch .scmversion
export ARCH=arm
export CROSS_COMPILE=arm-linux-gnueabihf-
cp ${basedir}/../kernel-configs/xu.config .config
cp ${basedir}/../kernel-configs/xu.config ../xu.config
make -j $(grep -c processor /proc/cpuinfo)
make modules_install INSTALL_MOD_PATH=${basedir}/root
cp arch/arm/boot/zImage ${basedir}/bootp
# This is to build the console framebuffer application.
echo "Building the hwcomposer"
cd ${basedir}/root/usr/src/kernel/tools/hardkernel/exynos5-hwcomposer
# It's quite chatty still, so we if 0 the logging, and also add a missing #define
sed -i -e 's/if 1/if 0/g' include/log.h
sed -i -e 's/#define ALOGD/#define ALOGD\r#define ALOGF/g' include/log.h
./configure --prefix=/usr --build x86_64-pc-linux-gnu --host $hosttuple
make
make DESTDIR=${basedir}/root install
cd ${basedir}/root/etc/
sed -i -e 's~^exit 0~exynos5-hwcomposer > /dev/null 2>\&1 \&\nexit 0~' rc.local
cd ${basedir}
cd ${basedir}/root/usr/src/kernel
make mrproper
cp ../xu.config .config
make modules_prepare
cd ${basedir}
# Fix up the symlink for building external modules
# kernver is used so we don't need to keep track of what the current compiled
# version is
kernver=$(ls ${basedir}/root/lib/modules/)
cd ${basedir}/root/lib/modules/$kernver
rm build
rm source
ln -s /usr/src/kernel build
ln -s /usr/src/kernel source
cd ${basedir}
# XU can do 720p or 1080p so create 2 boot.txt, default to 720p
cat << EOF > ${basedir}/bootp/boot-hdmi-720.txt
setenv initrd_high "0xffffffff"
setenv fdt_high "0xffffffff"
setenv fb_x_res "1280"
setenv fb_y_res "720"
setenv hdmi_phy_res "720"
setenv bootcmd "fatload mmc 0:1 0x40008000 zImage; fatload mmc 0:1 0x42000000 uInitrd; bootz 0x40008000 0x42000000"
setenv bootargs "console=tty1 console=ttySAC2,115200n8 vmalloc=512M fb_x_res=\${fb_x_res} fb_y_res=\${fb_y_res} hdmi_phy_res=\${hdmi_phy_res} vout=hdmi led_blink=1 fake_fb=true root=/dev/mmcblk0p2 rootwait rootfstype=ext4 rw net.ifnames=0"
boot
EOF
cat << EOF > ${basedir}/bootp/boot-hdmi-1080.txt
setenv initrd_high "0xffffffff"
setenv fdt_high "0xffffffff"
setenv fb_x_res "1920"
setenv fb_y_res "1080"
setenv hdmi_phy_res "1080"
setenv bootcmd "fatload mmc 0:1 0x40008000 zImage; fatload mmc 0:1 0x42000000 uInitrd; bootz 0x40008000 0x42000000"
setenv bootargs "console=tty1 console=ttySAC2,115200n8 vmalloc=512M fb_x_res=\${fb_x_res} fb_y_res=\${fb_y_res} hdmi_phy_res=\${hdmi_phy_res} vout=hdmi led_blink=1 fake_fb=true root=/dev/mmcblk0p2 rootwait rw rootfstype=ext4 net.ifnames=0"
boot
EOF
# Create boot.scr(s)
mkimage -A arm -T script -C none -d ${basedir}/bootp/boot-hdmi-720.txt ${basedir}/bootp/boot-720.scr
mkimage -A arm -T script -C none -d ${basedir}/bootp/boot-hdmi-1080.txt ${basedir}/bootp/boot-1080.scr
cp ${basedir}/bootp/boot-720.scr ${basedir}/bootp/boot.scr
rm -rf ${basedir}/root/lib/firmware
cd ${basedir}/root/lib
git clone --depth 1 https://git.kernel.org/pub/scm/linux/kernel/git/firmware/linux-firmware.git firmware
rm -rf ${basedir}/root/lib/firmware/.git
cd ${basedir}
cp ${basedir}/../misc/zram ${basedir}/root/etc/init.d/zram
chmod 755 ${basedir}/root/etc/init.d/zram
sed -i -e 's/^#PermitRootLogin.*/PermitRootLogin yes/' ${basedir}/root/etc/ssh/sshd_config
# Write the signed u-boot binary to the image so that it will boot.
cd ${basedir}/root/usr/src/kernel/tools/hardkernel/u-boot-pre-built
sh sd_fusing.sh $loopdevice
cd ${basedir}
umount $bootp
umount $rootp
kpartx -dv $loopdevice
# Unmount partitions
# The XU u-boot version is 2012.07
# as of 10/13/2013 the bl1 and bl2 aren't in u-boot sources.
# So, we'll need to copy them from the kernel directory into here.
# We also need to modify some files in u-boot to work with the cross compiler.
#git clone --depth 1 https://github.com/hardkernel/u-boot -b odroid-v2012.07
#cd ${basedir}/u-boot
# https://code.google.com/p/chromium/issues/detail?id=213120
#sed -i -e "s/soft-float/float-abi=hard -mfpu=vfpv3/g" \
# arch/arm/cpu/armv7/config.mk
#make smdk5410_config
#make -j $(grep -c processor /proc/cpuinfo)
#cd ${basedir}/u-boot/sd_fuse/smdk5410/
#cp ${basedir}/kernel/tools/hardkernel/u-boot-pre-built/
#sh sd_fuse.sh $loopdevice
#cd ${basedir}
losetup -d $loopdevice
# Don't pixz on 32bit, there isn't enough memory to compress the images.
MACHINE_TYPE=`uname -m`
if [ ${MACHINE_TYPE} == 'x86_64' ]; then
echo "Compressing $imagename.img"
pixz ${basedir}/$imagename.img ${basedir}/../$imagename.img.xz
rm ${basedir}/$imagename.img
fi
# Clean up all the temporary build stuff and remove the directories.
# Comment this out to keep things around if you want to see what may have gone
# wrong.
echo "Removing temporary build files"
rm -rf ${basedir}