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13-kernel.sh
310 lines | 12.0 KiB | application/x-sh | BashLexer
#
# Build and Setup RPi2/3 Kernel
#
# Load utility functions
. ./functions.sh
# Fetch and build latest raspberry kernel
if [ "$BUILD_KERNEL" = true ] ; then
# Setup source directory
mkdir -p "${R}/usr/src"
# Copy existing kernel sources into chroot directory
if [ -n "$KERNELSRC_DIR" ] && [ -d "$KERNELSRC_DIR" ] ; then
# Copy kernel sources
cp -r "${KERNELSRC_DIR}" "${R}/usr/src"
# Clean the kernel sources
if [ "$KERNELSRC_CLEAN" = true ] && [ "$KERNELSRC_PREBUILT" = false ] ; then
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" mrproper
fi
else # KERNELSRC_DIR=""
# Fetch current raspberrypi kernel sources
git -C "${R}/usr/src" clone --depth=1 "${KERNEL_URL}"
fi
# Calculate optimal number of kernel building threads
if [ "$KERNEL_THREADS" = "1" ] && [ -r /proc/cpuinfo ] ; then
KERNEL_THREADS=$(grep -c processor /proc/cpuinfo)
fi
# Configure and build kernel
if [ "$KERNELSRC_PREBUILT" = false ] ; then
# Remove device, network and filesystem drivers from kernel configuration
if [ "$KERNEL_REDUCE" = true ] ; then
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" "${KERNEL_DEFCONFIG}"
sed -i\
-e "s/\(^CONFIG_SND.*\=\).*/\1n/"\
-e "s/\(^CONFIG_SOUND.*\=\).*/\1n/"\
-e "s/\(^CONFIG_AC97.*\=\).*/\1n/"\
-e "s/\(^CONFIG_VIDEO_.*\=\).*/\1n/"\
-e "s/\(^CONFIG_MEDIA_TUNER.*\=\).*/\1n/"\
-e "s/\(^CONFIG_DVB.*\=\)[ym]/\1n/"\
-e "s/\(^CONFIG_REISERFS.*\=\).*/\1n/"\
-e "s/\(^CONFIG_JFS.*\=\).*/\1n/"\
-e "s/\(^CONFIG_XFS.*\=\).*/\1n/"\
-e "s/\(^CONFIG_GFS2.*\=\).*/\1n/"\
-e "s/\(^CONFIG_OCFS2.*\=\).*/\1n/"\
-e "s/\(^CONFIG_BTRFS.*\=\).*/\1n/"\
-e "s/\(^CONFIG_HFS.*\=\).*/\1n/"\
-e "s/\(^CONFIG_JFFS2.*\=\)[ym]/\1n/"\
-e "s/\(^CONFIG_UBIFS.*\=\).*/\1n/"\
-e "s/\(^CONFIG_SQUASHFS.*\=\)[ym]/\1n/"\
-e "s/\(^CONFIG_W1.*\=\)[ym]/\1n/"\
-e "s/\(^CONFIG_HAMRADIO.*\=\).*/\1n/"\
-e "s/\(^CONFIG_CAN.*\=\).*/\1n/"\
-e "s/\(^CONFIG_IRDA.*\=\).*/\1n/"\
-e "s/\(^CONFIG_BT_.*\=\).*/\1n/"\
-e "s/\(^CONFIG_WIMAX.*\=\)[ym]/\1n/"\
-e "s/\(^CONFIG_6LOWPAN.*\=\).*/\1n/"\
-e "s/\(^CONFIG_IEEE802154.*\=\).*/\1n/"\
-e "s/\(^CONFIG_NFC.*\=\).*/\1n/"\
-e "s/\(^CONFIG_FB_TFT=.*\=\).*/\1n/"\
-e "s/\(^CONFIG_TOUCHSCREEN.*\=\).*/\1n/"\
-e "s/\(^CONFIG_USB_GSPCA_.*\=\).*/\1n/"\
-e "s/\(^CONFIG_DRM.*\=\).*/\1n/"\
"${KERNEL_DIR}/.config"
fi
if [ "$KERNELSRC_CONFIG" = true ] ; then
# Load default raspberry kernel configuration
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" "${KERNEL_DEFCONFIG}"
if [ ! -z "$KERNELUSR_CONFIG" ] ; then
cp $KERNELUSR_CONFIG ${KERNEL_DIR}/.config
fi
# Start menu-driven kernel configuration (interactive)
if [ "$KERNEL_MENUCONFIG" = true ] ; then
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" menuconfig
fi
fi
# Cross compile kernel and modules
make -C "${KERNEL_DIR}" -j${KERNEL_THREADS} ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" zImage modules dtbs
fi
# Check if kernel compilation was successful
if [ ! -r "${KERNEL_DIR}/arch/${KERNEL_ARCH}/boot/zImage" ] ; then
echo "error: kernel compilation failed! (zImage not found)"
cleanup
exit 1
fi
# Install kernel modules
if [ "$ENABLE_REDUCE" = true ] ; then
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" INSTALL_MOD_STRIP=1 INSTALL_MOD_PATH=../../.. modules_install
else
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" INSTALL_MOD_PATH=../../.. modules_install
# Install kernel firmware
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" INSTALL_FW_PATH=../../../lib firmware_install
fi
# Install kernel headers
if [ "$KERNEL_HEADERS" = true ] && [ "$KERNEL_REDUCE" = false ] ; then
make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" INSTALL_HDR_PATH=../.. headers_install
fi
# Prepare boot (firmware) directory
mkdir "${BOOT_DIR}"
# Get kernel release version
KERNEL_VERSION=`cat "${KERNEL_DIR}/include/config/kernel.release"`
# Copy kernel configuration file to the boot directory
install_readonly "${KERNEL_DIR}/.config" "${R}/boot/config-${KERNEL_VERSION}"
# Copy dts and dtb device tree sources and binaries
mkdir "${BOOT_DIR}/overlays"
install_readonly "${KERNEL_DIR}/arch/${KERNEL_ARCH}/boot/dts/"*.dtb "${BOOT_DIR}/"
install_readonly "${KERNEL_DIR}/arch/${KERNEL_ARCH}/boot/dts/overlays/"*.dtb* "${BOOT_DIR}/overlays/"
install_readonly "${KERNEL_DIR}/arch/${KERNEL_ARCH}/boot/dts/overlays/README" "${BOOT_DIR}/overlays/README"
if [ "$ENABLE_UBOOT" = false ] ; then
# Convert and copy zImage kernel to the boot directory
"${KERNEL_DIR}/scripts/mkknlimg" "${KERNEL_DIR}/arch/${KERNEL_ARCH}/boot/zImage" "${BOOT_DIR}/${KERNEL_IMAGE}"
else
# Copy zImage kernel to the boot directory
install_readonly "${KERNEL_DIR}/arch/${KERNEL_ARCH}/boot/zImage" "${BOOT_DIR}/${KERNEL_IMAGE}"
fi
# Remove kernel sources
if [ "$KERNEL_REMOVESRC" = true ] ; then
rm -fr "${KERNEL_DIR}"
fi
if [ -n "$RPI_FIRMWARE_DIR" ] && [ -d "$RPI_FIRMWARE_DIR" ] ; then
# Install boot binaries from local directory
cp ${RPI_FIRMWARE_DIR}/boot/bootcode.bin ${BOOT_DIR}/bootcode.bin
cp ${RPI_FIRMWARE_DIR}/boot/fixup.dat ${BOOT_DIR}/fixup.dat
cp ${RPI_FIRMWARE_DIR}/boot/fixup_cd.dat ${BOOT_DIR}/fixup_cd.dat
cp ${RPI_FIRMWARE_DIR}/boot/fixup_x.dat ${BOOT_DIR}/fixup_x.dat
cp ${RPI_FIRMWARE_DIR}/boot/start.elf ${BOOT_DIR}/start.elf
cp ${RPI_FIRMWARE_DIR}/boot/start_cd.elf ${BOOT_DIR}/start_cd.elf
cp ${RPI_FIRMWARE_DIR}/boot/start_x.elf ${BOOT_DIR}/start_x.elf
else
# Install latest boot binaries from raspberry/firmware github
wget -q -O "${BOOT_DIR}/bootcode.bin" "${FIRMWARE_URL}/bootcode.bin"
wget -q -O "${BOOT_DIR}/fixup.dat" "${FIRMWARE_URL}/fixup.dat"
wget -q -O "${BOOT_DIR}/fixup_cd.dat" "${FIRMWARE_URL}/fixup_cd.dat"
wget -q -O "${BOOT_DIR}/fixup_x.dat" "${FIRMWARE_URL}/fixup_x.dat"
wget -q -O "${BOOT_DIR}/start.elf" "${FIRMWARE_URL}/start.elf"
wget -q -O "${BOOT_DIR}/start_cd.elf" "${FIRMWARE_URL}/start_cd.elf"
wget -q -O "${BOOT_DIR}/start_x.elf" "${FIRMWARE_URL}/start_x.elf"
fi
else # BUILD_KERNEL=false
# Kernel installation
chroot_exec apt-get -qq -y --no-install-recommends install linux-image-"${COLLABORA_KERNEL}" raspberrypi-bootloader-nokernel
# Install flash-kernel last so it doesn't try (and fail) to detect the platform in the chroot
chroot_exec apt-get -qq -y install flash-kernel
# Check if kernel installation was successful
VMLINUZ="$(ls -1 ${R}/boot/vmlinuz-* | sort | tail -n 1)"
if [ -z "$VMLINUZ" ] ; then
echo "error: kernel installation failed! (/boot/vmlinuz-* not found)"
cleanup
exit 1
fi
# Copy vmlinuz kernel to the boot directory
install_readonly "${VMLINUZ}" "${BOOT_DIR}/${KERNEL_IMAGE}"
fi
# Setup firmware boot cmdline
if [ "$ENABLE_SPLITFS" = true ] ; then
CMDLINE="dwc_otg.lpm_enable=0 root=/dev/sda1 rootfstype=ext4 rootflags=commit=100,data=writeback elevator=deadline rootwait console=tty1"
else
CMDLINE="dwc_otg.lpm_enable=0 root=/dev/mmcblk0p2 rootfstype=ext4 rootflags=commit=100,data=writeback elevator=deadline rootwait console=tty1"
fi
# Add encrypted root partition to cmdline.txt
if [ "$ENABLE_CRYPTFS" = true ] ; then
if [ "$ENABLE_SPLITFS" = true ] ; then
CMDLINE=$(echo ${CMDLINE} | sed "s/sda1/mapper\/${CRYPTFS_MAPPING} cryptdevice=\/dev\/sda1:${CRYPTFS_MAPPING}/")
else
CMDLINE=$(echo ${CMDLINE} | sed "s/mmcblk0p2/mapper\/${CRYPTFS_MAPPING} cryptdevice=\/dev\/mmcblk0p2:${CRYPTFS_MAPPING}/")
fi
fi
# Add serial console support
if [ "$ENABLE_CONSOLE" = true ] ; then
CMDLINE="${CMDLINE} console=ttyAMA0,115200 kgdboc=ttyAMA0,115200"
fi
# Remove IPv6 networking support
if [ "$ENABLE_IPV6" = false ] ; then
CMDLINE="${CMDLINE} ipv6.disable=1"
fi
# Automatically assign predictable network interface names
if [ "$ENABLE_IFNAMES" = false ] ; then
CMDLINE="${CMDLINE} net.ifnames=0"
else
CMDLINE="${CMDLINE} net.ifnames=1"
fi
# Set init to systemd if required by Debian release
if [ "$RELEASE" = "stretch" ] ; then
CMDLINE="${CMDLINE} init=/bin/systemd"
fi
# Install firmware boot cmdline
echo "${CMDLINE}" > "${BOOT_DIR}/cmdline.txt"
# Install firmware config
install_readonly files/boot/config.txt "${BOOT_DIR}/config.txt"
# Setup minimal GPU memory allocation size: 16MB (no X)
if [ "$ENABLE_MINGPU" = true ] ; then
echo "gpu_mem=16" >> "${BOOT_DIR}/config.txt"
fi
# Setup boot with initramfs
if [ "$ENABLE_INITRAMFS" = true ] ; then
echo "initramfs initramfs-${KERNEL_VERSION} followkernel" >> "${BOOT_DIR}/config.txt"
fi
# Disable RPi3 Bluetooth and restore ttyAMA0 serial device
if [ "$RPI_MODEL" = 3 ] ; then
if [ "$ENABLE_CONSOLE" = true ] ; then
echo "dtoverlay=pi3-miniuart-bt" >> "${BOOT_DIR}/config.txt"
fi
fi
# Create firmware configuration and cmdline symlinks
ln -sf firmware/config.txt "${R}/boot/config.txt"
ln -sf firmware/cmdline.txt "${R}/boot/cmdline.txt"
# Install and setup kernel modules to load at boot
mkdir -p "${R}/lib/modules-load.d/"
install_readonly files/modules/rpi2.conf "${R}/lib/modules-load.d/rpi2.conf"
# Load hardware random module at boot
if [ "$ENABLE_HWRANDOM" = true ] && [ "$BUILD_KERNEL" = false ] ; then
sed -i "s/^# bcm2708_rng/bcm2708_rng/" "${R}/lib/modules-load.d/rpi2.conf"
fi
# Load sound module at boot
if [ "$ENABLE_SOUND" = true ] ; then
sed -i "s/^# snd_bcm2835/snd_bcm2835/" "${R}/lib/modules-load.d/rpi2.conf"
fi
# Install kernel modules blacklist
mkdir -p "${ETC_DIR}/modprobe.d/"
install_readonly files/modules/raspi-blacklist.conf "${ETC_DIR}/modprobe.d/raspi-blacklist.conf"
# Install and setup fstab
install_readonly files/mount/fstab "${ETC_DIR}/fstab"
# Add usb/sda disk root partition to fstab
if [ "$ENABLE_SPLITFS" = true ] && [ "$ENABLE_CRYPTFS" = false ] ; then
sed -i "s/mmcblk0p2/sda1/" "${ETC_DIR}/fstab"
fi
# Add encrypted root partition to fstab and crypttab
if [ "$ENABLE_CRYPTFS" = true ] ; then
# Replace fstab root partition with encrypted partition mapping
sed -i "s/mmcblk0p2/mapper\/${CRYPTFS_MAPPING}/" "${ETC_DIR}/fstab"
# Add encrypted partition to crypttab and fstab
install_readonly files/mount/crypttab "${ETC_DIR}/crypttab"
echo "${CRYPTFS_MAPPING} /dev/mmcblk0p2 none luks" >> "${ETC_DIR}/crypttab"
if [ "$ENABLE_SPLITFS" = true ] ; then
# Add usb/sda disk to crypttab
sed -i "s/mmcblk0p2/sda1/" "${ETC_DIR}/crypttab"
fi
fi
# Generate initramfs file
if [ "$ENABLE_INITRAMFS" = true ] ; then
if [ "$ENABLE_CRYPTFS" = true ] ; then
# Include initramfs scripts to auto expand encrypted root partition
if [ "$EXPANDROOT" = true ] ; then
install_exec files/initramfs/expand_encrypted_rootfs "${ETC_DIR}/initramfs-tools/scripts/init-premount/expand_encrypted_rootfs"
install_exec files/initramfs/expand-premount "${ETC_DIR}/initramfs-tools/scripts/local-premount/expand-premount"
install_exec files/initramfs/expand-tools "${ETC_DIR}/initramfs-tools/hooks/expand-tools"
fi
# Disable SSHD inside initramfs
printf "#\n# DROPBEAR: [ y | n ]\n#\n\nDROPBEAR=n\n" >> "${ETC_DIR}/initramfs-tools/initramfs.conf"
# Dummy mapping required by mkinitramfs
echo "0 1 crypt $(echo ${CRYPTFS_CIPHER} | cut -d ':' -f 1) ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff 0 7:0 4096" | chroot_exec dmsetup create "${CRYPTFS_MAPPING}"
# Generate initramfs with encrypted root partition support
chroot_exec mkinitramfs -o "/boot/firmware/initramfs-${KERNEL_VERSION}" "${KERNEL_VERSION}"
# Remove dummy mapping
chroot_exec cryptsetup close "${CRYPTFS_MAPPING}"
else
# Generate initramfs without encrypted root partition support
chroot_exec mkinitramfs -o "/boot/firmware/initramfs-${KERNEL_VERSION}" "${KERNEL_VERSION}"
fi
fi
# Install sysctl.d configuration files
install_readonly files/sysctl.d/81-rpi-vm.conf "${ETC_DIR}/sysctl.d/81-rpi-vm.conf"