Fincer
/
dxvk-wine-autobuilder
mirror of https://github.com/Fincer/dxvk-wine-autobuilder


#!/bin/env bash


#    Compile DXVK git on Debian/Ubuntu/Mint and variants

#    Copyright (C) 2019, 2022  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 <https://www.gnu.org/licenses/>.


########################################################


# DO NOT RUN INDIVIDUALLY, ONLY VIA ../../updatewine.sh PARENT SCRIPT!


########################################################


# Root directory of this script file

WINE_ADDONS_ROOT="${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_dxvknvapi=${params[0]}

git_commithash_vkd3dproton=${params[1]}

git_commithash_dxvk=${params[2]}

git_commithash_glslang=${params[3]}

git_commithash_meson=${params[4]}


git_branch_dxvknvapi=${params[6]}

git_branch_vkd3dproton=${params[7]}

git_branch_dxvk=${params[8]}

git_branch_glslang=${params[9]}

git_branch_meson=${params[10]}


git_source_dxvknvapi_debian=${params[19]}

git_source_vkd3dproton_debian=${params[20]}

git_source_dxvk_debian=${params[21]}

git_source_glslang_debian=${params[15]}

git_source_meson_debian=${params[16]}


########################################################


# Parse input arguments, filter user parameters

# The range is defined in ../updatewine.sh

# All input arguments are:

# <datedir> 4*<githash_override> 4*<gitbranch_override> <args>

# 0         1 2 3 4              5 6 7 8                9...

# Filter all but <args>, i.e. the first 0-8 arguments


i=0

for arg in ${params[@]:24}; 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=

      ;;

    --no-nvapi)

      NO_NVAPI=

      ;;

    --no-vkd3d)

      NO_VKD3D=

      ;;

  esac


done


########################################################


# Check presence of Wine. Some version of Wine should

# be found in the system in order to install DXVK/DXVK NVAPI/VKD3D Proton.


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 Wine addons

#

# Left side:  <package name in repositories>,<version_number>

# 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


if [[ $(dpkg -s "binutils-common" &>/dev/null)$? -ne 0 ]]; then

  sudo apt -y install "binutils-common"

fi


binutils_ver=$(dpkg -s "binutils-common" | sed -rn 's/^Version: ([0-9\.]+).*$/\1/p')


remote_package_repositories=(

  "https://mirrors.edge.kernel.org/ubuntu/pool/universe/d/directx-headers"

  "https://mirrors.edge.kernel.org/ubuntu/pool/main/i/isl"

  "https://mirrors.edge.kernel.org/ubuntu/pool/universe/b/binutils-mingw-w64"

  "https://mirrors.edge.kernel.org/ubuntu/pool/universe/g/gcc-mingw-w64"

  "https://mirrors.edge.kernel.org/ubuntu/pool/universe/m/mingw-w64"

)


remote_packages_pool=(

  "directx-headers-dev"

  "libisl22"

  "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"

)


# NOTE: Package versions defined here *must* exist in some of the repositories!

typeset -A remote_packages_version_locks

remote_packages_version_locks=(

  [directx-headers-dev]="1.606.4"

)


pkg_multi_data_binutils=()


typeset -A rpp_alternatives

typeset -A remote_packages_selected

typeset -A remote_packages_alt_available


for rpp in "${remote_packages_pool[@]}"; do


  version_len=100

  new_rpp_url=

  new_rpp_token=

  version_lock=

  version_lock_set=0

  rpp_alternative_time=-1

  alt_remote_epoch_time=-1

  alt_remote_flat_version=-1


  rpp_alternatives=()

  remote_packages_alt_available=()


  for package_version_lock in ${!remote_packages_version_locks[@]}; do


    if [[ ${rpp} == ${package_version_lock} ]]; then

      version_lock=${remote_packages_version_locks[${package_version_lock}]}

      version_lock_set=1

      break 1

    fi


  done


  for source_url in "${remote_package_repositories[@]}"; do


    # Fetch exact package name and associated date.

    # rpp_rx is just for regex escaping purposes.

    rpp_rx=$(echo ${rpp} | sed 's/\+/\\\+/g')

    pkg_multi_data=(

      $(curl -s "${source_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 -E "${rpp_rx}_[0-9]" | xargs echo

      )

    )


    [[ ${#pkg_multi_data[@]} -eq 0 ]] && continue


    # binutils packages depend on system binutils-common.

    # Versions must match, even if the newest package is not available.

    if [[ ${rpp} =~ binutils ]] && [[ ${binutils_ver} != "" ]]; then

      for b in "${pkg_multi_data[@]}"; do

        if [[ ${b} =~ ${binutils_ver} ]]; then

          pkg_multi_data_binutils+=("${b}")

        fi

      done

      pkg_multi_data=( ${pkg_multi_data_binutils[@]} )

      unset pkg_multi_data_binutils

    fi


    # TODO: Remove duplicate functionality

    # Check relevant version parts while collecting

    # different versions of a package.

    # version_len is count of relevant parts.

    #

    # For instance

    # - In a case of versions 2.23.1, 2.28 and 2.34.6.1

    #   count of relevant parts is 2 as determined by

    #   version 2.28.

    #   In this fair comparison, we therefore consider

    #   normalized version 2.23, 2.28 and 2.34

    #

    for pkg_data in "${pkg_multi_data[@]}"; do


      rpp_pkg=$(printf '%s' "${pkg_data}" | awk -F '|' '{print $1}')

      rpp_version_raw=$(printf '%s' $(echo "${rpp_pkg}" | sed -r 's/.*_(.*[0-9]+)\-.*_(all|amd64).*/\1/g;'))


      version_parts=( $(echo ${rpp_version_raw} | sed 's/\./ /g') )


      new_version_len=$(printf '%d' ${#version_parts[@]})


      if [[ ${new_version_len} -lt ${version_len} ]]; then

        version_len=${new_version_len}

      fi


    done


    # Add each version of a package into associated array remote_packages_alt_available

    # We collect the next information here for each entry:

    # - package normalized version number

    # - package release date in epoch format

    # - package source root url and .deb name

    #

    # This information is collected so that we can determine which

    # package version to use, and which URL is associated to it.

    #

    for pkg_data in "${pkg_multi_data[@]}"; do


      rpp_pkg=$(printf '%s' "${pkg_data}" | awk -F '|' '{print $1}')

      rpp_epoch_time=$(date --date=$(printf '%s' "${ps}" | awk -F '|' '{print $2}') +%s)

      rpp_version_raw=$(printf '%s' $(echo "${rpp_pkg}" | sed -r 's/.*_(.*[0-9]+)\-.*_(all|amd64).*/\1/g;'))


      version_parts=( $(echo ${rpp_version_raw} | sed 's/\./ /g') )

      relevant_version_parts=( ${version_parts[@]:0:${version_len}} )


      rpp_flat_version=$(printf '%d' $(echo ${relevant_version_parts[@]} | sed 's/ //g'))

      rpp_dot_version=$(echo ${relevant_version_parts[@]} | sed 's/ /./g')


      rpp_token=$(printf '%s,%d,%d,%s' "${rpp}" "${rpp_epoch_time}" "${rpp_flat_version}" "${rpp_dot_version}")

      rpp_url=$(printf '%s/%s' "${source_url}" "${rpp_pkg}")


      remote_packages_alt_available+=(["${rpp_token}"]="${rpp_url}")


    done


  done


  # For collected package versions, get the highest available

  #

  for alt_remote_package in "${!remote_packages_alt_available[@]}"; do


    new_alt_remote_epoch_time=$(echo ${alt_remote_package} | awk -F ',' '{print $2}')

    new_alt_remote_flat_version=$(echo ${alt_remote_package} | awk -F ',' '{print $3}')

    new_alt_remote_dot_version=$(echo ${alt_remote_package} | awk -F ',' '{print $4}')


    # TODO: Remove duplicate functionality

    if [[ ${version_lock} =~ ${new_alt_remote_dot_version} ]]; then


      alt_remote_epoch_time=${new_alt_remote_epoch_time}

      alt_remote_flat_version=${new_alt_remote_flat_version}

      alt_remote_dot_version=${new_alt_remote_dot_version}


      new_rpp_token=${alt_remote_package}

      new_rpp_url=${remote_packages_alt_available[${alt_remote_package}]}


      rpp_alternatives+=(["${new_rpp_token}"]="${new_rpp_url}|${alt_remote_epoch_time}|${alt_remote_flat_version}")


    fi


    if [[ ${new_alt_remote_flat_version} -ge ${alt_remote_flat_version} ]] && [[ ${version_lock_set} -eq 0 ]]; then

      alt_remote_epoch_time=${new_alt_remote_epoch_time}

      alt_remote_flat_version=${new_alt_remote_flat_version}

      alt_remote_dot_version=${new_alt_remote_dot_version}


      new_rpp_token=${alt_remote_package}

      new_rpp_url=${remote_packages_alt_available[${alt_remote_package}]}


      rpp_alternatives+=(["${new_rpp_token}"]="${new_rpp_url}|${alt_remote_epoch_time}|${alt_remote_flat_version}")

    fi


  done


  # Do epoch time comparison for collected package versions

  #

  for rpp_alternative in ${!rpp_alternatives[@]}; do


    new_rpp_alternative=${rpp_alternative}

    new_rpp_alternative_time=$(printf '%d' $(echo ${rpp_alternative} | awk -F '|' '{print $2}') )


    if [[ ${new_rpp_alternative_time} -gt ${rpp_alternative_time} ]]; then

      rpp_alternative_time=${new_rpp_alternative_time}

    fi


    rpp_alternative=${new_rpp_alternative}


  done


  remote_packages_selected+=( ["${rpp}"]=$(echo "${rpp_alternatives[$rpp_alternative]}|${version_lock_set}") )


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 runtime_check() {


  local pkgreq_name

  local known_pkgs

  local pkglist


  # Friendly name for this package

  pkgreq_name=${1}

  # Known package names to check on Debian

  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

      pkglist[$i]=${pkg}

      let i++

    fi

  done


  if [[ -z ${pkglist[*]} ]]; then

    echo -e "\e[1mWARNING:\e[0m Not compiling Wine addons because \e[1m${pkgreq_name}\e[0m is missing on your system.\n\

${pkgreq_name} should be installed in order to use DXVK, DXVK NVAPI and VKD3D Proton.\n"


    exit 1


  fi


}


########################################################


# If the script is interrupted (Ctrl+C/SIGINT), do the following


function wine_addons_int_cleanup() {

  rm -rf ${WINE_ADDONS_ROOT}/{dxvk-git,meson,glslang,*.deb}

  rm -rf ${WINE_ADDONS_ROOT}/../compiled_deb/"${datedir}"

  exit 0

}


# Allow interruption of the script at any time (Ctrl + C)

trap "wine_addons_int_cleanup" INT


########################################################


# 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 pkg_compile_check() {


  local install_function

  local pkg

  local pkg_data


  install_function=${1}

  pkg=${2}

  pkg_data=${3}


  if [[ $(echo $(dpkg -s ${pkg} &>/dev/null)$?) -ne 0 ]] || [[ -v UPDATE_OVERRIDE ]]; then

    ${install_function} ${pkg_data}

  fi


}


########################################################


# ADDON CUSTOM INSTALLATION HOOKS


# These are custom installation instructions for addon

# They are not used independently.


function addon_install_custom() {


  local PATCHDIR


  PATCHDIR="${1}"


  # Use posix alternates for MinGW binaries

  function addon_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

  }


############################

# ADDON - CUSTOM PATCHES


  # Add and apply custom addon patches

  function addon_custom_patches() {


    local CURDIR

    local addon_builddir_name

    local addon_builddir_path


    # Get our current directory, since we will change it during patching process below

    # We want to go back here after having applied the patches

    CURDIR="${PWD}"


    # Check if the following folder exists, and proceed.

    if [[ -d "${WINE_ADDONS_ROOT}/../../${PATCHDIR}" ]]; then

      find "${WINE_ADDONS_ROOT}/../../${PATCHDIR}/" \( -iname "*.patch" -or -iname "*.diff" \) -exec cp -f {} "${WINE_ADDONS_ROOT}/${pkg_name}/" 2>/dev/null \;


      addon_builddir_name=$(ls -l "${WINE_ADDONS_ROOT}/${pkg_name}" | grep ^d | awk '{print $NF}')


      # TODO Expecting just one folder here. This method doesn't work with multiple dirs present

      if [[ $(echo ${addon_builddir_name} | wc -l) -gt 1 ]]; then

        echo -e "\e[1mERROR:\e[0m Multiple entries in addon build directory detected. Can't decide which one to use. Aborting\n"

        exit 1

      fi


      addon_builddir_path="${WINE_ADDONS_ROOT}/${pkg_name}/${addon_builddir_name}"


      cd "${addon_builddir_path}"

      for pfile in ../*.{patch,diff}; do

        if [[ -f ${pfile} ]]; then

          echo -e "Applying addon's patch: ${pfile}\n"

          patch -Np1 < ${pfile}

        fi


        if [[ $? -ne 0 ]]; then

          echo -e "\e[1mERROR:\e[0m Error occured while applying addon's patch '${pfile}'. Aborting\n"

          cd ${CURDIR}

          exit 1

        fi


      done


      cd "${CURDIR}"


    fi


  }


############################

# ADDON - CUSTOM HOOKS EXECUTION


  addon_custom_patches && \

  addon_posixpkgs

}


###########################################################


# Fetch extra package files


function fetch_extra_pkg_files() {


  local pkgname

  local pkgdir

  local extra_files_dir


  pkgname=${1}

  pkgdir=${2}

  extra_files_dir=${3}


  find ${extra_files_dir} -mindepth 1 -type f -exec cp -f {} ${pkgdir}/ \;


}


########################################################

# 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}"


  local extra_files_dir=$(find "../../extra_files/" -type d -iname "${_pkg_name%-*}")


  if [[ -d ${extra_files_dir} ]]; then

    [[ ! -d "debian/source" ]] && mkdir -p "debian/source"

    fetch_extra_pkg_files ${_pkg_name} "debian/source" ${extra_files_dir}

  fi


############################

# 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

    local s

    local IFS

    local y


    arrays=(

    '_pkg_deps_build'

    '_pkg_deps_runtime'

    )


    for w in ${arrays[@]}; do

      s=\${${w}}


      IFS='|'

      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() {


    local full_pkg_name_found


    full_pkg_name_found_return_code=$(echo $(dpkg -s "${1}" &>/dev/null)$?)


    # Bad and error-prone fallback

    if [[ ${full_pkg_name_found_return_code} -ne 0 ]]; then

      full_pkg_name_matches=$(dpkg --get-selections | awk '{print $1}' | grep ^${1} | wc -l)

      if  [[ ${full_pkg_name_matches} -ne 0 ]]; then

        full_pkg_name_found_return_code=0

      fi

    fi

    return ${full_pkg_name_found_return_code}

  }


############################


  echo -e "Starting compilation$(if [[ ! -v NO_INSTALL ]] || [[ ${_pkg_name} =~ ^meson|glslang$ ]]; then printf " & installation"; fi) of ${_pkg_name}\n"


############################


function get_locked_packages() {


  local _lock_pkgs


  # Generate a list of version-locked-dependencies

  if [[ ${#remote_packages_selected[@]} -gt 0 ]]; then


    for alt_remote_pkg in ${!remote_packages_selected[@]}; do

      alt_remote_version_lock_set=$(echo ${remote_packages_selected[${alt_remote_pkg}]} | awk -F '|' '{print $4}')


      if [[ ${alt_remote_version_lock_set} -eq 1 ]]; then

        _lock_pkgs+=(${alt_remote_pkg})

      fi


    done

  fi


  echo "${_lock_pkgs[*]}"

}


############################

# COMMON - PACKAGE DEPENDENCIES CHECK


# Check and install package related dependencies if they are missing


  function pkg_dependencies() {


    local _pkg_list

    local _pkg_type

    local _pkg_type_str

    local a

    local b

    local _validlist

    local _lock_pkgs

    local is_locked

    local IFS


    _pkg_list=("${1}")

    _pkg_type="${2}"


    _lock_pkgs=($(get_locked_packages))


    IFS=$'\n'

    _pkg_list=$(echo "${_pkg_list}" | sed 's/([^)]*)//g')

    unset IFS


    case ${_pkg_type} in

      buildtime)

        _pkg_type_str="build time"

        ;;

      runtime)

        _pkg_type_str="runtime"

        ;;

    esac


    if [[ ${_pkg_list[0]} == "empty" ]]; then

      return 0

    fi


    a=0

    # Generate a list of missing dependencies

    for p in ${_pkg_list[@]}; do


      is_locked=0


      for lock_pkg in "${_lock_pkgs[@]}"; do

        if [[ ${p%% *} == ${lock_pkg} ]]; then

          is_locked=1

          break 1

        fi

      done


      if [[ $(pkg_installcheck ${p%% *})$? -ne 0 ]] || [[ ${is_locked} -eq 1 ]]; then

        _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 ${WINE_ADDONS_ROOT}/"${2}".deb

      sudo dpkg -i --force-all ${WINE_ADDONS_ROOT}/"${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

    b=0

    for _pkg_dep in ${_validlist[@]}; do

      echo -e "$(( $b + 1 ))/$(( ${#_validlist[*]} )) - Installing ${_pkg_name} ${_pkg_type_str} dependency ${_pkg_dep}"


      if [[ ${#remote_packages_selected[@]} -gt 0 ]]; then


        for alt_remote_pkg in ${!remote_packages_selected[@]}; do


          if [[ "${_pkg_dep}" == "${alt_remote_pkg}" ]]; then


            alt_remote_url=$(echo ${remote_packages_selected[${alt_remote_pkg}]} | awk -F '|' '{print $1}')

            alt_remote_version=$(echo ${remote_packages_selected[${alt_remote_pkg}]} | awk -F '|' '{print $3}')

            alt_remote_version_lock_set=$(echo ${remote_packages_selected[${alt_remote_pkg}]} | awk -F '|' '{print $4}')


            # If remote pkg is not installed

            if [[ $(pkg_installcheck ${alt_remote_pkg})$? -ne 0 ]]; then


              # TODO remove duplicate functionality

              repository_version=$(apt-cache show "${alt_remote_pkg}" 2>/dev/null | grep -m1 -oP "(?<=^Version: )[0-9|\.]*" | sed 's/\.//g')

              [[ ! -z ${repository_version} ]] && repository_version=0


              if [[ ${repository_version} -eq ${alt_remote_version} ]]; then

                echo -e "Already updated. Skipping"

                continue 1

              fi


              if [[ ${repository_version} -lt ${alt_remote_version} ]] || [[ ${alt_remote_version_lock_set} -eq 1 ]]; then

                pkg_localinstall "${alt_remote_url}" "${alt_remote_pkg}"

                pkg_configure "${alt_remote_pkg}" "${alt_remote_url}"

              else

                pkg_remoteinstall "${alt_remote_pkg}"

                pkg_configure "${alt_remote_pkg}"

              fi


            # If remote pkg is installed

            else

              local_version=$(dpkg -s "${alt_remote_pkg}" | grep -m1 -oP "(?<=^Version: )[0-9|\.]*" | sed 's/\.//g')

              [[ ! -z ${local_version} ]] && local_version=0


              if [[ ${local_version} -eq ${alt_remote_version} ]]; then

                echo -e "Already updated. Skipping"

                continue 1

              fi


              if [[ ${local_version} -lt ${alt_remote_version} ]] || [[ ${alt_remote_version_lock_set} -eq 1 ]]; then

                pkg_localinstall "${alt_remote_url}" "${alt_remote_pkg}"

                pkg_configure "${alt_remote_pkg}" "${alt_remote_url}"

              else

                pkg_remoteinstall "${alt_remote_pkg}"

                pkg_configure "${alt_remote_pkg}"

              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

    local targetfile


    contents=${1}

    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}


      # Get all required submodules

      git submodule update --init --recursive


      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 may be required by the addon

    if [[ $? -eq 0 ]]; then

      rm -rf ../*.{changes,buildinfo,tar.xz}

      if [[ ! -v NO_INSTALL ]]; 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

    addon_install_custom "dxvk_custom_patches"


  elif [[ "${_pkg_name%-*}" == "dxvk-nvapi" ]]; then

    addon_install_custom "dxvk-nvapi_custom_patches"


  elif [[ "${_pkg_name%-*}" == "vkd3d-proton" ]]; then

    addon_install_custom "vkd3d-proton_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() {


  local pkg_datafile


  # Read necessary variables from debdata file

  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

    local IFS

    local s

    local t


    pkg_arrays=(

      'pkg_deps_build'

      'pkg_deps_runtime'

    )


    local IFS=$'\n'


    for w in ${pkg_arrays[@]}; do


      s=\${${w}[@]}

      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

runtime_check Wine "${known_wines[*]}"


# Meson - compile (& install)

pkg_compile_check pkg_install_main meson "${WINE_ADDONS_ROOT}/../debdata/meson.debdata"


# Glslang - compile (& install)

pkg_compile_check pkg_install_main glslang "${WINE_ADDONS_ROOT}/../debdata/glslang.debdata"


if [[ ! -v NO_DXVK ]]; then

  # DXVK - compile (& install)

  pkg_install_main "${WINE_ADDONS_ROOT}/../debdata/dxvk.debdata"

fi


if [[ ! -v NO_NVAPI ]]; then

  # DXVK NVAPI - compile (& install)

  pkg_install_main "${WINE_ADDONS_ROOT}/../debdata/dxvk_nvapi.debdata"

fi


if [[ ! -v NO_VKD3D ]]; then

  # VKD3D Proton - compile (& install)

  pkg_install_main "${WINE_ADDONS_ROOT}/../debdata/vkd3d_proton.debdata"

fi


# Clean buildtime dependencies

								buildpkg_removal