#!/bin/env bash
# Compile DXVK git on Debian/Ubuntu/Mint and variants
# Copyright (C) 2019 Pekka Helenius
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
########################################################
# DO NOT RUN INDIVIDUALLY, ONLY VIA ../../updatewine.sh PARENT SCRIPT!
########################################################
# Root directory of this script file
DXVKROOT="${PWD}"
# datedir variable supplied by ../updatewine_debian.sh script file
datedir="${1}"
########################################################
# Divide input args into array indexes
i=0
for p in ${@:2}; do
params[$i]=${p}
let i++
done
########################################################
# Parse input git override hashes
# This order is mandatory!
# If you change the order or contents of 'githash_overrides'
# array in ../updatewine.sh, make sure to update these
# variables!
#
git_commithash_dxvk=${params[0]}
git_commithash_glslang=${params[1]}
git_commithash_meson=${params[2]}
git_branch_dxvk=${params[3]}
git_branch_glslang=${params[5]}
git_branch_meson=${params[6]}
########################################################
# Parse input arguments, filter user parameters
# The range is defined in ../updatewine.sh
# All input arguments are:
# 4* 4*
# 0 1 2 3 4 5 6 7 8 9...
# Filter all but , i.e. the first 0-8 arguments
i=0
for arg in ${params[@]:8}; do
args[$i]="${arg}"
let i++
done
for check in ${args[@]}; do
case ${check} in
--no-install)
NO_INSTALL=
;;
--updateoverride)
UPDATE_OVERRIDE=
;;
--buildpkg-rm)
BUILDPKG_RM=
;;
--no-dxvk)
NO_DXVK=
;;
esac
done
########################################################
# Check presence of Wine. Some version of Wine should
# be found in the system in order to install DXVK.
known_wines=(
'wine'
'wine-stable'
'wine32'
'wine64'
'libwine:amd64'
'libwine:i386'
'wine-git'
'wine-staging-git'
)
# Alternative remote dependency packages for Debian distributions which offer too old packages for DXVK
#
# Left side: ,
# Right side: package alternative source URL
#
# NOTE: Determine these packages in corresponding debdata files as runtime or buildtime dependencies
#
# As this seems to be a dependency for binutils-mingw packages
function binutils_common_ver() {
if [[ $(dpkg -s binutils-common &>/dev/null)$? -ne 0 ]]; then
sudo apt -y install binutils-common
fi
if [[ $? -eq 0 ]]; then
binutils_ver=$(dpkg -s binutils-common | sed -rn 's/^Version: ([0-9\.]+).*$/\1/p')
fi
}
binutils_common_ver
remotePackagesUrls=(
"http://mirrors.edge.kernel.org/ubuntu/pool/universe/b/binutils-mingw-w64"
"http://mirrors.edge.kernel.org/ubuntu/pool/universe/g/gcc-mingw-w64"
"http://mirrors.edge.kernel.org/ubuntu/pool/universe/m/mingw-w64"
)
remotePackagesPool=(
"gcc-mingw-w64-base"
"mingw-w64-common"
"binutils-mingw-w64-x86-64"
"binutils-mingw-w64-i686"
"mingw-w64-x86-64-dev"
"gcc-mingw-w64-x86-64"
"g++-mingw-w64-x86-64"
"mingw-w64-i686-dev"
"gcc-mingw-w64-i686"
"g++-mingw-w64-i686"
)
typeset -A remotePackagesAlt
for rpp in ${remotePackagesPool[@]}; do
for URL in "${remotePackagesUrls[@]}"; do
# Fetch exact package name and associated date
pkg_data=$(curl -s "${URL}/" | sed -rn 's/.*href="(.*(amd64|all)\.deb)">.*([0-9]{2}\-[A-Za-z]{3}\-[0-9]{4}).*/\1 \3/p' | sed 's/%2B/+/g' | grep "${rpp}")
if [[ ${pkg_data} = "" ]]; then
continue
fi
# Associate Unix-formatted date with the exact package name
IFS=$'\n'
for ps in ${pkg_data[@]}; do
ps_pkg=$(printf "%s" "${ps}" | awk '{print $1}')
ps_date=$(date --date=$(printf "%s" "${ps}" | awk '{print $NF}') +%s)
remotePackagesAltDate+=("${ps_date}|${ps_pkg}")
done
IFS=" "
# Sort exact package names by date
remotePackagesAltDateSorted=($(sort <<<"${remotePackagesAltDate[*]}"))
# binutils packages depend on system binutils-common. Versions must match, even if not the newest package available.
if [[ ${ps_pkg} =~ binutils ]] && [[ ${binutils_ver} != "" ]]; then
for b in ${remotePackagesAltDateSorted[@]}; do
if [[ ${b} =~ ${binutils_ver} ]]; then
remotePackagesAltBinUtils+=(${b})
fi
done
unset remotePackagesAltDateSorted
remotePackagesAltDateSorted=(${remotePackagesAltBinUtils[@]})
unset remotePackagesAltBinUtils
fi
# Get the newest exact package name
pkg=$(printf "%s" ${remotePackagesAltDateSorted[-1]} | sed -r 's/^[0-9]+\|(.*)/\1/')
unset remotePackagesAltDate
unset remotePackagesAltDateSorted
# Prepare and set a well-formatted value into remotePackagesAlt associative array
if [ ! "${pkg}" == "" ]; then
rpp_url=$(printf "%s/%s" "${URL}" "${pkg}")
rpp_shortver=$(printf "%s" "${pkg}" | sed -r 's/.*_(.*[0-9]+)\-.*_(all|amd64).*/\1/g; s/[^0-9]//g')
rpp_token=$(printf "%s,%d" "${rpp}" "${rpp_shortver}")
remotePackagesAlt+=(["${rpp_token}"]="${rpp_url}")
break 1
fi
done
done
# Posix-compliant MingW alternative executables
#
typeset -A alternatives
alternatives=(
[x86_64-w64-mingw32-gcc]="x86_64-w64-mingw32-gcc-posix"
[x86_64-w64-mingw32-g++]="x86_64-w64-mingw32-g++-posix"
[i686-w64-mingw32-gcc]="i686-w64-mingw32-gcc-posix"
[i686-w64-mingw32-g++]="i686-w64-mingw32-g++-posix"
)
# Temporary symbolic links for DXVK compilation
#
typeset -A tempLinks
tempLinks=(
['/usr/bin/i686-w64-mingw32-gcc']='/usr/bin/i686-w64-mingw32-gcc-posix'
['/usr/bin/i686-w64-mingw32-g++']='/usr/bin/i686-w64-mingw32-g++-posix'
['/usr/bin/x86_64-w64-mingw32-gcc']='x86_64-w64-mingw32-gcc-posix'
['/usr/bin/x86_64-w64-mingw32-g++']='x86_64-w64-mingw32-g++-posix'
)
########################################################
function runtimeCheck() {
# Friendly name for this package
local pkgreq_name=${1}
# Known package names to check on Debian
local known_pkgs=${2}
# Check if any of these Wine packages are present on the system
i=0
for pkg in ${known_pkgs[@]}; do
if [[ $(echo $(dpkg -s ${pkg} &>/dev/null)$?) -eq 0 ]]; then
local pkglist[$i]=${pkg}
let i++
fi
done
if [[ -z ${pkglist[*]} ]]; then
echo -e "\e[1mWARNING:\e[0m Not installing DXVK because \e[1m${pkgreq_name}\e[0m is missing on your system.\n\
${pkgreq_name} should be installed in order to use DXVK. Just compiling DXVK for later use.\n"
# Do this check separately so we can warn about all missing runtime dependencies above
if [[ ! -v NO_INSTALL ]]; then
# Force --no-install switch
NO_INSTALL=
fi
fi
}
########################################################
# If the script is interrupted (Ctrl+C/SIGINT), do the following
function DXVK_intCleanup() {
rm -rf ${DXVKROOT}/{dxvk-git,meson,glslang,*.deb}
rm -rf ${DXVKROOT}/../compiled_deb/"${datedir}"
exit 0
}
# Allow interruption of the script at any time (Ctrl + C)
trap "DXVK_intCleanup" INT
# Error event
#trap "DXVK_intCleanup" ERR
########################################################
# http://wiki.bash-hackers.org/snipplets/print_horizontal_line#a_line_across_the_entire_width_of_the_terminal
function INFO_SEP() { printf '%*s\n' "${COLUMNS:-$(tput cols)}" '' | tr ' ' - ; }
########################################################
# Update all packages if UPDATE_OVERRIDE given
if [[ -v UPDATE_OVERRIDE ]]; then
echo -en "Updating all packages" && \
if [[ $(printf $(sudo -n uptime &>/dev/null)$?) -ne 0 ]]; then printf " Please provide your sudo password.\n"; else printf "\n\n"; fi
sudo apt update && sudo apt upgrade -y
fi
########################################################
# Check do we need to compile the package
# given as input for this function
function pkgcompilecheck() {
local install_function=${1}
local pkg=${2}
local pkg_data=${3}
if [[ $(echo $(dpkg -s ${pkg} &>/dev/null)$?) -ne 0 ]] || [[ -v UPDATE_OVERRIDE ]]; then
${install_function} ${pkg_data}
fi
}
########################################################
# DXVK CUSTOM INSTALLATION HOOKS
# These are custom installation instructions for DXVK
# They are not used independently.
function dxvk_install_custom() {
local PATCHDIR="${1}"
# Use posix alternates for MinGW binaries
function dxvk_posixpkgs() {
for alt in ${!alternatives[@]}; do
echo "Linking MingW executable ${alt} to ${alternatives[$alt]}"
sudo rm -rf /etc/alternatives/"${alt}" 2>/dev/null
sudo ln -sf /usr/bin/"${alternatives[$alt]}" /etc/alternatives/"${alt}"
if [[ $? -ne 0 ]]; then
echo -e "\e[1mERROR:\e[0m Error occured while linking executable ${alt} to ${alternatives[$alt]}. Aborting\n"
exit 1
fi
done
for link in ${!tempLinks[@]}; do
if [[ ! -f ${link} ]]; then
echo "Creating temporary links for MingW executable ${link}"
sudo ln -sf ${tempLinks["${link}"]} "${link}"
if [[ $? -ne 0 ]]; then
echo -e "\e[1mERROR:\e[0m Error occured while linking executable ${link}. Aborting\n"
exit 1
fi
fi
done
}
############################
# DXVK - CUSTOM PATCHES
# Add and apply custom DXVK patches
function dxvk_custompatches() {
# Get our current directory, since we will change it during patching process below
# We want to go back here after having applied the patches
local CURDIR="${PWD}"
# Check if the following folder exists, and proceed.
if [[ -d "${DXVKROOT}/../../${PATCHDIR}" ]]; then
cp -r "${DXVKROOT}/../../${PATCHDIR}/"*.{patch,diff} "${DXVKROOT}/${pkg_name}/" 2>/dev/null
local dxvk_builddir_name=$(ls -l "${DXVKROOT}/${pkg_name}" | grep ^d | awk '{print $NF}')
# TODO Expecting just one folder here. This method doesn't work with multiple dirs present
if [[ $(echo ${dxvk_builddir_name} | wc -l) -gt 1 ]]; then
echo -e "\e[1mERROR:\e[0m Multiple entries in dxvk build directory detected. Can't decide which one to use. Aborting\n"
exit 1
fi
local dxvk_builddir_path="${DXVKROOT}/${pkg_name}/${dxvk_builddir_name}"
cd "${dxvk_builddir_path}"
for pfile in ../*.{patch,diff}; do
if [[ -f ${pfile} ]]; then
echo -e "Applying DXVK patch: ${pfile}\n"
patch -Np1 < ${pfile}
fi
if [[ $? -ne 0 ]]; then
echo -e "\e[1mERROR:\e[0m Error occured while applying DXVK patch '${pfile}'. Aborting\n"
cd ${CURDIR}
exit 1
fi
done
cd "${CURDIR}"
fi
}
############################
# DXVK - CUSTOM HOOKS EXECUTION
dxvk_custompatches && \
dxvk_posixpkgs
}
########################################################
# COMMON - COMPILE AND INSTALL DEB PACKAGE
# Instructions to compile and install a deb package
# on Debian system
# Global variable to track buildtime dependencies
z=0
function compile_and_install_deb() {
############################
# Set local variables
local _pkg_name="${1}"
local _pkg_license="${2}"
local _pkg_giturl="${3}"
local _pkg_gitbranch="${4}"
local _git_commithash="${5}"
local _pkg_gitver="${6}"
local _pkg_debinstall="${7}"
local _pkg_debcontrol="${8}"
local _pkg_debrules="${9}"
local _pkg_installfile="${10}"
local _pkg_controlfile="${11}"
local _pkg_rulesfile="${12}"
local _pkg_deps_build="${13}"
local _pkg_deps_runtime="${14}"
local _pkg_debbuilder="${15}"
local _pkg_debcompat="${16}"
local _pkg_compatfile="${17}"
############################
# COMMON - ARRAY PARAMETER FIX
# Separate array indexes correctly
# We have streamed all array indexes, separated
# by | symbol. We reconstruct the arrays here.
function arrayparser_reverse() {
local arrays=(
'_pkg_deps_build'
'_pkg_deps_runtime'
)
for w in ${arrays[@]}; do
local s=\${${w}}
local IFS='|'
local y=0
for t in $(eval printf '%s\|' ${s}); do
eval ${w}[$y]=\"${t}\"
let y++
done
unset IFS
done
}
arrayparser_reverse
############################
function pkg_installcheck() {
return $(echo $(dpkg -s "${1}" &>/dev/null)$?)
}
############################
echo -e "Starting compilation$(if [[ ! -v NO_INSTALL ]] || [[ ${_pkg_name} =~ ^meson|glslang$ ]]; then printf " & installation"; fi) of ${_pkg_name}\n"
############################
# COMMON - PACKAGE DEPENDENCIES CHECK
# Check and install package related dependencies if they are missing
function pkg_dependencies() {
local _pkg_list="${1}"
local _pkg_type="${2}"
local IFS=$'\n'
_pkg_list=$(echo "${_pkg_list}" | sed 's/([^)]*)//g')
unset IFS
case ${_pkg_type} in
buildtime)
local _pkg_type_str="build time"
;;
runtime)
local _pkg_type_str="runtime"
;;
esac
if [[ ${_pkg_list[0]} == "empty" ]]; then
return 0
fi
# Generate a list of missing dependencies
local a=0
for p in ${_pkg_list[@]}; do
if [[ $(pkg_installcheck ${p})$? -eq 0 ]]; then
local _validlist[$a]=${p}
let a++
# Global array to track installed build dependencies
if [[ ${_pkg_type} == "buildtime" ]]; then
_buildpkglist[$z]="${p}"
let z++
fi
fi
done
function pkg_remoteinstall() {
sudo apt install -y ${1} &> /dev/null
}
function pkg_localinstall() {
wget ${1} -O ${DXVKROOT}/"${2}".deb
sudo dpkg -i --force-all ${DXVKROOT}/"${2}".deb
}
function pkg_configure() {
if [[ $(sudo dpkg-reconfigure ${1} | grep "is broken or not fully installed") ]]; then
if [[ -v ${2} ]]; then
pkg_localinstall ${2} ${1}
else
pkg_remoteinstall ${1}
fi
fi
}
# Install missing dependencies, be informative
local b=0
for _pkg_dep in ${_validlist[@]}; do
echo -e "$(( $b + 1 ))/$(( ${#_validlist[*]} )) - Installing ${_pkg_name} ${_pkg_type_str} dependency ${_pkg_dep}"
if [[ ${#remotePackagesAlt[@]} -gt 0 ]]; then
for altRemote in ${!remotePackagesAlt[@]}; do
altRemotepkg=$(echo ${altRemote} | awk -F ',' '{print $1}')
altRemotever=$(echo ${altRemote} | awk -F ',' '{print $2}')
if [[ "${_pkg_dep}" == "${altRemotepkg}" ]]; then
if [[ $(pkg_installcheck ${altRemotepkg})$? -ne 0 ]]; then
# TODO remove duplicate functionality
if [[ $(apt-cache show "${altRemotepkg}" | grep -m1 -oP "(?<=^Version: )[0-9|\.]*" | sed 's/\.//g') < ${altRemotever} ]]; then
pkg_localinstall ${remotePackagesAlt["${altRemote}"]} "${altRemotepkg}"
pkg_configure "${altRemotepkg}" ${remotePackagesAlt["${altRemote}"]}
else
pkg_remoteinstall "${altRemotepkg}"
pkg_configure "${altRemotepkg}"
fi
else
if [[ $(dpkg -s "${altRemotepkg}" | grep -m1 -oP "(?<=^Version: )[0-9|\.]*" | sed 's/\.//g') < ${altRemotever} ]]; then
pkg_localinstall ${remotePackagesAlt["${altRemote}"]} "${altRemotepkg}"
pkg_configure "${altRemotepkg}" ${remotePackagesAlt["${altRemote}"]}
else
pkg_remoteinstall "${altRemotepkg}"
pkg_configure "${altRemotepkg}"
fi
fi
fi
done
fi
if [[ $(pkg_installcheck ${_pkg_dep})$? -ne 0 ]]; then
pkg_remoteinstall "${_pkg_dep}"
pkg_configure "${_pkg_dep}"
fi
if [[ $? -eq 0 ]]; then
let b++
else
echo -e "\n\e[1mERROR:\e[0m Error occured while installing ${_pkg_dep}. Aborting.\n"
exit 1
fi
done
if [[ -n ${_validlist[*]} ]]; then
# Add empty newline
echo ""
fi
}
############################
# COMMON - RETRIEVE PACKAGE
# GIT VERSION TAG
# Get git-based version in order to rename the package main folder
# This is required by deb builder. It retrieves the version number
# from that folder name
function pkg_gitversion() {
if [[ -n "${_pkg_gitver}" ]] && [[ "${_pkg_gitver}" =~ ^git ]]; then
cd ${_pkg_name}
git checkout ${_pkg_gitbranch}
git reset --hard ${_git_commithash}
if [[ $? -ne 0 ]]; then
echo -e "\e[1mERROR:\e[0m Couldn't find commit ${_git_commithash} for ${_pkg_name}. Aborting\n"
exit 1
fi
_pkg_gitver=$(eval "${_pkg_gitver}")
cd ..
fi
}
############################
# COMMON - OVERWRITE
# DEBIAN BUILD ENV FILES
# Overwrite a file which is given as user input
# The contents are supplied as input, too.
function pkg_override_debianfile() {
local contents=${1}
local targetfile=${2}
if [[ ${contents} != "empty" ]]; then
echo "${contents}" > "${targetfile}"
if [[ $? -ne 0 ]]; then
echo -e "\e[1mERROR:\e[0m Couldn't create Debian file '${targetfile}' for ${_pkg_name}. Aborting\n"
exit 1
fi
fi
}
############################
# COMMON - GET SOURCE AND
# PREPARE SOURCE FOLDER
function pkg_folderprepare() {
# Remove old build directory, if present
rm -rf ${_pkg_name}
# Create a new build directory, access it and download git sources there
mkdir ${_pkg_name}
cd ${_pkg_name}
echo -e "Retrieving source code of ${_pkg_name} from $(printf ${_pkg_giturl} | sed 's/^.*\/\///; s/\/.*//')\n"
git clone ${_pkg_giturl} ${_pkg_name}
# If sources could be downloaded, rename the folder properly for deb builder
# Access the folder after which package specific debianbuild function will be run
# That function is defined inside package specific install_main function below
if [[ $? -eq 0 ]]; then
pkg_gitversion && \
mv ${_pkg_name} ${_pkg_name}-${_pkg_gitver}
cd ${_pkg_name}-${_pkg_gitver}
dh_make --createorig -s -y -c ${_pkg_license} && \
pkg_override_debianfile "${_pkg_debinstall}" "${_pkg_installfile}"
pkg_override_debianfile "${_pkg_debcontrol}" "${_pkg_controlfile}"
pkg_override_debianfile "${_pkg_debrules}" "${_pkg_rulesfile}"
pkg_override_debianfile "${_pkg_debcompat}" "${_pkg_compatfile}"
else
echo -e "\e[1mERROR:\e[0m Error while downloading source of ${_pkg_name} package. Aborting\n"
exit 1
fi
}
############################
# COMMON - COMPILE, INSTALL
# AND STORE DEB PACKAGE
function pkg_debianbuild() {
# Start deb builder
bash -c "${_pkg_debbuilder}"
# Once our deb package is compiled, install and store it
# We do not make installation optional for deps because they are required by DXVK
if [[ $? -eq 0 ]]; then
rm -rf ../*.{changes,buildinfo,tar.xz}
if [[ "${_pkg_name}" == *"dxvk"* ]] && [[ ! -v NO_INSTALL ]]; then
sudo dpkg -i ../${_pkg_name}*.deb
elif [[ "${_pkg_name}" != *"dxvk"* ]]; then
sudo dpkg -i ../${_pkg_name}*.deb
fi
mv ../${_pkg_name}*.deb ../../../compiled_deb/"${datedir}" && \
echo -e "Compiled ${_pkg_name} is stored at '$(readlink -f ../../../compiled_deb/"${datedir}")/'\n"
cd ../..
rm -rf {${_pkg_name},*.deb}
else
buildpkg_removal
exit 1
fi
}
############################
# COMMON - EXECUTION HOOKS
pkg_dependencies "${_pkg_deps_build[*]}" buildtime
if [[ ${_pkg_deps_runtime[0]} != "empty" ]] && [[ ! -v NO_INSTALL ]]; then
pkg_dependencies "${_pkg_deps_runtime[*]}" runtime
fi
pkg_folderprepare
# TODO use package name or separate override switch here?
if [[ "${_pkg_name}" == *"dxvk"* ]]; then
dxvk_install_custom "dxvk_custom_patches"
fi
pkg_debianbuild
unset _pkg_gitver
}
########################################################
# BUILD DEPENDENCIES REMOVAL
function buildpkg_removal() {
_buildpkglist=($(echo ${_buildpkglist[@]} | tr ' ' '\n' |sort -u | tr '\n' ' '))
for link in ${!tempLinks[@]}; do
if [[ $(file ${link}) == *"symbolic link"* ]]; then
sudo rm -f "${link}"
fi
done
# Build time dependencies which were installed but no longer needed
if [[ -v _buildpkglist ]]; then
if [[ -v BUILDPKG_RM ]]; then
sudo apt purge --remove -y ${_buildpkglist[*]}
# In some cases, glslang or meson may still be present on the system. Remove them
for _extrapkg in glslang meson; do
if [[ $(echo $(dpkg -s ${_extrapkg} &>/dev/null)$?) -eq 0 ]]; then
sudo dpkg --remove --force-remove-reinstreq ${_extrapkg}
fi
done
# Manually obtained deb packages are expected to break system configuration, thus we need to fix it.
sudo apt --fix-broken -y install
else
echo -e "The following build time dependencies were installed and no longer needed:\n\n$(for l in ${_buildpkglist[*]}; do echo -e ${l}; done)\n"
fi
fi
}
########################################################
# Package installation instructions
function pkg_install_main() {
# Read necessary variables from debdata file
local pkg_datafile=${1}
if [[ -f ${pkg_datafile} ]]; then
source ${pkg_datafile}
else
echo -e "\e[1mERROR:\e[0m Couldn't read datafile '${pkg_datafile}'. Check the file path and try again.\n"
exit 1
fi
############################
# Prepare these arrays for 'compile_and_install_deb' input
# Separate each array index with | in these arrays
function pkg_arrayparser() {
local pkg_arrays=(
'pkg_deps_build'
'pkg_deps_runtime'
)
local IFS=$'\n'
for w in ${pkg_arrays[@]}; do
local s=\${${w}[@]}
local t=$(eval printf '%s\|' ${s})
unset ${w}
eval ${w}=\"${t}\"
done
}
############################
# Execute package installation procedure
pkg_arrayparser && \
compile_and_install_deb \
"${pkg_name}" \
"${pkg_license}" \
"${pkg_giturl}" \
"${pkg_gitbranch}" \
"${git_commithash}" \
"${pkg_gitver}" \
"${pkg_debinstall}" \
"${pkg_debcontrol}" \
"${pkg_debrules}" \
"${pkg_installfile}" \
"${pkg_controlfile}" \
"${pkg_rulesfile}" \
"${pkg_deps_build}" \
"${pkg_deps_runtime}" \
"${pkg_debbuilder}" \
"${pkg_debcompat}" \
"${pkg_compatfile}"
}
########################################################
# Check existence of known Wine packages
runtimeCheck Wine "${known_wines[*]}"
# Meson - compile (& install)
pkgcompilecheck pkg_install_main meson "${DXVKROOT}/meson.debdata"
# Glslang - compile (& install)
pkgcompilecheck pkg_install_main glslang "${DXVKROOT}/glslang.debdata"
if [[ ! -v NO_DXVK ]]; then
# DXVK - compile (& install)
pkg_install_main "${DXVKROOT}/dxvk.debdata"
fi
# Clean buildtime dependencies
buildpkg_removal