#!/usr/bin/env bash # SPDX-License-Identifier: MIT set -ev TEST_RUNNER="scripts/ci/fedora-test-runner.sh" # # Variables for controlling the Fedora Image version and download URLs. # MAJOR_VERSION="32" MINOR_VERSION="1.6" BASE_URL="https://download.fedoraproject.org/pub/fedora/linux/releases" IMAGE_BASE_NAME="Fedora-Cloud-Base-$MAJOR_VERSION-$MINOR_VERSION.x86_64" IMAGE_URL="$BASE_URL/$MAJOR_VERSION/Cloud/x86_64/images/$IMAGE_BASE_NAME.raw.xz" CHECK_URL="$BASE_URL/$MAJOR_VERSION/Cloud/x86_64/images/Fedora-Cloud-$MAJOR_VERSION-$MINOR_VERSION-x86_64-CHECKSUM" GPG_URL="https://getfedora.org/static/fedora.gpg" # # Travis gives us 7.5GB of RAM and two cores: # https://docs.travis-ci.com/user/reference/overview/ # MEMORY=4096 VCPUS="$(nproc)" # Install these here so other builds don't have to wait on these deps to download and install sudo apt-get install qemu-kvm libvirt-bin virtinst bridge-utils cpu-checker libguestfs-tools sudo usermod -a -G kvm,libvirt,libvirt-qemu "$USER" # Verify that KVM is working, useful if Travis ever changes anything. kvm-ok sudo systemctl enable libvirtd sudo systemctl start libvirtd # Set up a key so we can ssh into the VM ssh-keygen -N "" -f "$HOME/.ssh/id_rsa" # # Get the Fedora Cloud Image, It is a base image that small and ready to go, extract it and modify it with virt-sysprep # - https://alt.fedoraproject.org/en/verify.html cd "$HOME" wget "$IMAGE_URL" # Verify the image curl "$GPG_URL" | gpg --import wget "$CHECK_URL" gpg --verify-files ./*-CHECKSUM sha256sum --ignore-missing -c ./*-CHECKSUM # Extract the image unxz -T0 "$IMAGE_BASE_NAME.raw.xz" # Search is needed for $HOME so virt service can access the image file. chmod a+x "$HOME" # # Modify the virtual image to: # - Enable a login, we just use root # - Enable passwordless login # - Force a relabel to fix labels on ssh keys # sudo virt-sysprep -a "$IMAGE_BASE_NAME.raw" \ --root-password password:123456 \ --hostname fedoravm \ --append-line '/etc/ssh/sshd_config:PermitRootLogin yes' \ --append-line '/etc/ssh/sshd_config:PubkeyAuthentication yes' \ --mkdir /root/.ssh \ --upload "$HOME/.ssh/id_rsa.pub:/root/.ssh/authorized_keys" \ --chmod '0600:/root/.ssh/authorized_keys' \ --run-command 'chown root:root /root/.ssh/authorized_keys' \ --copy-in "$TRAVIS_BUILD_DIR:/root" \ --network \ --selinux-relabel # # Now we create a domain by using virt-install. This not only creates the domain, but runs the VM as well # It should be ready to go for ssh, once ssh starts. # sudo virt-install \ --name fedoravm \ --memory $MEMORY \ --vcpus $VCPUS \ --disk "$IMAGE_BASE_NAME.raw" \ --import --noautoconsole # # Here comes the tricky part, we have to figure out when the VM comes up AND we need the ip address for ssh. So we # can check the net-dhcp leases, for our host. We have to poll, and we will poll for up to 3 minutes in 6 second # intervals, so 30 poll attempts (0-29 inclusive). # # We have a full reboot + relabel, so first sleep gets us close # sleep 30 for i in $(seq 0 29); do echo "loop $i" sleep 6s # Get the leases, but tee it so it's easier to debug sudo virsh net-dhcp-leases default | tee dhcp-leases.txt # get our ipaddress ipaddy="$(grep fedoravm dhcp-leases.txt | awk '{print $5}' | cut -d'/' -f 1-1)" if [ -n "$ipaddy" ]; then # found it, we're done looking, print it for debug logs echo "ipaddy: $ipaddy" break fi # it's empty/not found, loop back and try again. done # Did we find it? If not die. if [ -z "$ipaddy" ]; then echo "ipaddy zero length, exiting with error 1" exit 1 fi # # Great we have a host running, ssh into it. We specify -o so # we don't get blocked on asking to add the servers key to # our known_hosts. Also, we need to forward the project directory # so forks know where to go. # project_dir="$(basename "$TRAVIS_BUILD_DIR")" ssh -tt -o StrictHostKeyChecking=no -o LogLevel=QUIET "root@$ipaddy" "SELINUX_DIR=/root/$project_dir /root/$project_dir/$TEST_RUNNER" exit 0