mesa/.gitlab-ci/crosvm-runner.sh
Vignesh Raman ce98715566 ci/crosvm: Use default value for CROSVM_GALLIUM_DRIVER
Use a default value for CROSVM_GALLIUM_DRIVER. This change
ensures that if the variable is unset, it defaults to an
empty string. This prevents unbound variable errors with
set -u in the case of drm-ci.

Signed-off-by: Vignesh Raman <vignesh.raman@collabora.com>
Part-of: <https://gitlab.freedesktop.org/mesa/mesa/-/merge_requests/31814>
2024-10-24 08:46:54 +00:00

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#!/usr/bin/env bash
# shellcheck disable=SC2086 # we want word splitting
set -ue
# Instead of starting one dEQP instance per available CPU core, pour our
# concurrency at llvmpipe threads instead. This is mostly useful for VirGL and
# Venus, which serialise quite a bit at the host level. So instead of smashing
# it with a pile of concurrent jobs which don't actually parallelise very well,
# we use that concurrency for llvmpipe/lavapipe's render pipeline.
if [ -n "${PARALLELISE_VIA_LP_THREADS:-}" ]; then
export LP_NUM_THREADS="${FDO_CI_CONCURRENT:-4}"
export FDO_CI_CONCURRENT=1
fi
# If run outside of a deqp-runner invoction (e.g. piglit trace replay), then act
# the same as the first thread in its threadpool.
THREAD=${DEQP_RUNNER_THREAD:-0}
#
# Helper to generate CIDs for virtio-vsock based communication with processes
# running inside crosvm guests.
#
# A CID is a 32-bit Context Identifier to be assigned to a crosvm instance
# and must be unique across the host system. For this purpose, let's take
# the least significant 25 bits from CI_JOB_ID as a base and generate a 7-bit
# prefix number to handle up to 128 concurrent crosvm instances per job runner.
#
# As a result, the following variables are set:
# - VSOCK_CID: the crosvm unique CID to be passed as a run argument
#
# - VSOCK_STDOUT, VSOCK_STDERR: the port numbers the guest should accept
# vsock connections on in order to transfer output messages
#
# - VM_TEMP_DIR: the temporary directory path used to pass additional
# context data towards the guest
#
set_vsock_context() {
[ -n "${CI_JOB_ID:-}" ] || {
echo "Missing or unset CI_JOB_ID env variable" >&2
exit 1
}
VM_TEMP_DIR="/tmp-vm.${THREAD}"
# Clear out any leftover files from a previous run.
rm -rf $VM_TEMP_DIR
mkdir $VM_TEMP_DIR || return 1
VSOCK_CID=$(((CI_JOB_ID & 0x1ffffff) | ((THREAD & 0x7f) << 25)))
VSOCK_STDOUT=5001
VSOCK_STDERR=5002
return 0
}
# The dEQP binary needs to run from the directory it's in
if [ -n "${1##*.sh}" ] && [ -z "${1##*"deqp"*}" ]; then
DEQP_BIN_DIR=$(dirname "$1")
export DEQP_BIN_DIR
fi
VM_SOCKET=crosvm-${THREAD}.sock
# Terminate any existing crosvm, if a previous invocation of this shell script
# was terminated due to timeouts. This "vm stop" may fail if the crosvm died
# without cleaning itself up.
if [ -e $VM_SOCKET ]; then
crosvm stop $VM_SOCKET || true
# Wait for socats from that invocation to drain
sleep 5
rm -rf $VM_SOCKET || true
fi
set_vsock_context || { echo "Could not generate crosvm vsock CID" >&2; exit 1; }
# Securely pass the current variables to the crosvm environment
echo "Variables passed through:"
SCRIPTS_DIR=$(readlink -en "${0%/*}")
${SCRIPTS_DIR}/common/generate-env.sh | tee ${VM_TEMP_DIR}/crosvm-env.sh
cp ${SCRIPTS_DIR}/setup-test-env.sh ${VM_TEMP_DIR}/setup-test-env.sh
# Set the crosvm-script as the arguments of the current script
echo "export SCRIPTS_DIR=${SCRIPTS_DIR}" > ${VM_TEMP_DIR}/crosvm-script.sh
echo ". ${VM_TEMP_DIR}/setup-test-env.sh" >> ${VM_TEMP_DIR}/crosvm-script.sh
echo "$@" >> ${VM_TEMP_DIR}/crosvm-script.sh
# Setup networking
/usr/sbin/iptables-legacy -w -t nat -A POSTROUTING -o eth0 -j MASQUERADE
echo 1 > /proc/sys/net/ipv4/ip_forward
# Start background processes to receive output from guest
socat -u vsock-connect:${VSOCK_CID}:${VSOCK_STDERR},retry=200,interval=0.1 stderr &
socat -u vsock-connect:${VSOCK_CID}:${VSOCK_STDOUT},retry=200,interval=0.1 stdout &
# Prepare to start crosvm
unset DISPLAY
unset XDG_RUNTIME_DIR
CROSVM_KERN_ARGS="quiet console=null root=my_root rw rootfstype=virtiofs ip=192.168.30.2::192.168.30.1:255.255.255.0:crosvm:eth0"
CROSVM_KERN_ARGS="${CROSVM_KERN_ARGS} init=${SCRIPTS_DIR}/crosvm-init.sh -- ${VSOCK_STDOUT} ${VSOCK_STDERR} ${VM_TEMP_DIR}"
[ "${CROSVM_GALLIUM_DRIVER:-}" = "llvmpipe" ] && \
CROSVM_LIBGL_ALWAYS_SOFTWARE=true || CROSVM_LIBGL_ALWAYS_SOFTWARE=false
set +e -x
# We aren't testing the host driver here, so we don't need to validate NIR on the host
NIR_DEBUG="novalidate" \
LIBGL_ALWAYS_SOFTWARE=${CROSVM_LIBGL_ALWAYS_SOFTWARE:-} \
GALLIUM_DRIVER=${CROSVM_GALLIUM_DRIVER:-} \
VK_DRIVER_FILES=$CI_PROJECT_DIR/install/share/vulkan/icd.d/${CROSVM_VK_DRIVER:-}_icd.x86_64.json \
crosvm --no-syslog run \
--gpu "${CROSVM_GPU_ARGS:-}" --gpu-render-server "path=${VIRGL_RENDER_SERVER:-/usr/local/libexec/virgl_render_server}" \
-m "${CROSVM_MEMORY:-4096}" -c "${CROSVM_CPU:-2}" --disable-sandbox \
--shared-dir /:my_root:type=fs:writeback=true:timeout=60:cache=always \
--net "host-ip=192.168.30.1,netmask=255.255.255.0,mac=AA:BB:CC:00:00:12" \
-s $VM_SOCKET \
--cid ${VSOCK_CID} -p "${CROSVM_KERN_ARGS}" \
/lava-files/${KERNEL_IMAGE_NAME:-bzImage} > ${VM_TEMP_DIR}/crosvm 2>&1
CROSVM_RET=$?
[ ${CROSVM_RET} -eq 0 ] && {
# The actual return code is the crosvm guest script's exit code
CROSVM_RET=$(cat ${VM_TEMP_DIR}/exit_code 2>/dev/null)
# Force error when the guest script's exit code is not available
CROSVM_RET=${CROSVM_RET:-1}
}
# Show crosvm output on error to help with debugging
[ ${CROSVM_RET} -eq 0 ] || {
set +x
echo "Dumping crosvm output.." >&2
cat ${VM_TEMP_DIR}/crosvm >&2
set -x
}
exit ${CROSVM_RET}