# # 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 "$KERNELSRC_USRCONFIG" ] ; then cp $KERNELSRC_USRCONFIG ${KERNEL_DIR}/.config fi # Start menu-driven kernel configuration (interactive) if [ "$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 "${KERNEL_DIR}" else make -C "${KERNEL_DIR}" ARCH="${KERNEL_ARCH}" CROSS_COMPILE="${CROSS_COMPILE}" modules_prepare 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}/${KERNEL_IMAGE}" fi # Create symlinks for kernel modules ln -sf "${KERNEL_DIR}" "${R}/lib/modules/${KERNEL_VERSION}/build" ln -sf "${KERNEL_DIR}" "${R}/lib/modules/${KERNEL_VERSION}/source" # Install and setup fstab install_readonly files/mount/fstab "${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