#!/bin/bash -eux # vi: ts=4 expandtab # # Generate OVA images # # OVA images are, by defintiion a tarball consisting of a disk image, OVF file # and checksums. This step produces an OVA that is suitable for use with # Cloud's that support the OVF specification. # # For this step, we re-use the VMDK's made in 040-vmdk-image.binary case $ARCH in amd64|i386) ;; *) echo "OVA images are not supported for $ARCH yet."; exit 0;; esac cur_d=${PWD} my_d=$(dirname $(readlink -f ${0})) base_vmdk="livecd.ubuntu-cpc.disk1.vmdk" if [ "$ARCH" = "amd64" ]; then base_vmdk="livecd.ubuntu-cpc.uefi.vmdk" fi if [ ! -e ${base_vmdk} ]; then find . | grep vmdk exit 0 fi # Lets be safe about this scratch_d=$(mktemp -d) trap "rm -rf ${scratch_d}" EXIT # Used to identify bits suite=$(chroot chroot lsb_release -c -s) version=$(chroot chroot lsb_release --release --short) distro=$(chroot chroot lsb_release --id --short | tr [:upper:] [:lower:]) # Put our vmdk in place for OVA conversion prefix="${distro}-${suite}-${version}-cloudimg" vmdk_f="${scratch_d}/${prefix}.vmdk" cp ${base_vmdk} ${vmdk_f} # Get information about the VMDK vmdk_size=$(du -b "${vmdk_f}" | cut -f1) vmdk_capacity=$(qemu-img info "${vmdk_f}" | awk '-F[\( ]' '$1 ~ /virtual/ && $NF ~ /bytes.*/ {print$(NF-1)}') # Populate the OVF template ovf="${scratch_d}/${prefix}.ovf" cp ${my_d}/ovf/ubuntu-ova-v1-vmdk.tmpl ${ovf} serial_stamp=$(date +%Y%m%d) sed -i "${ovf}" \ -e "s/@@NAME@@/${prefix}-${serial_stamp}/g" \ -e "s/@@FILENAME@@/${vmdk_f##*/}/g" \ -e "s/@@VMDK_FILE_SIZE@@/${vmdk_size}/g" \ -e "s/@@VMDK_CAPACITY@@/${vmdk_capacity}/g" \ -e "s/@@NUM_CPUS@@/2/g" \ -e "s/@@VERSION@@/${version}/g" \ -e "s/@@DATE@@/${serial_stamp}/g" \ -e "s/@@MEM_SIZE@@/1024/g" # Get the checksums vmdk_sha256=$(sha256sum ${vmdk_f} | cut -d' ' -f1) ovf_sha256=$(sha256sum ${ovf} | cut -d' ' -f1) # Generate the manifest manifest="${scratch_d}/${prefix}.mf" cat > "${manifest}" <