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setup.sh
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setup.sh
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set -eu
set -o pipefail
if (( "${NIX_DEBUG:-0}" >= 6 )); then
set -x
fi
: ${outputs:=out}
######################################################################
# Hook handling.
# Run all hooks with the specified name in the order in which they
# were added, stopping if any fails (returns a non-zero exit
# code). The hooks for <hookName> are the shell function or variable
# <hookName>, and the values of the shell array ‘<hookName>Hooks’.
runHook() {
local oldOpts="$(shopt -po nounset)"
set -u # May be called from elsewhere, so do `set -u`.
local hookName="$1"
shift
local hooksSlice="${hookName%Hook}Hooks[@]"
local hook
# Hack around old bash being bad and thinking empty arrays are
# undefined.
for hook in "_callImplicitHook 0 $hookName" ${!hooksSlice+"${!hooksSlice}"}; do
_eval "$hook" "$@"
set -u # To balance `_eval`
done
eval "${oldOpts}"
return 0
}
# Run all hooks with the specified name, until one succeeds (returns a
# zero exit code). If none succeed, return a non-zero exit code.
runOneHook() {
local oldOpts="$(shopt -po nounset)"
set -u # May be called from elsewhere, so do `set -u`.
local hookName="$1"
shift
local hooksSlice="${hookName%Hook}Hooks[@]"
local hook ret=1
# Hack around old bash like above
for hook in "_callImplicitHook 1 $hookName" ${!hooksSlice+"${!hooksSlice}"}; do
if _eval "$hook" "$@"; then
ret=0
break
fi
set -u # To balance `_eval`
done
eval "${oldOpts}"
return "$ret"
}
# Run the named hook, either by calling the function with that name or
# by evaluating the variable with that name. This allows convenient
# setting of hooks both from Nix expressions (as attributes /
# environment variables) and from shell scripts (as functions). If you
# want to allow multiple hooks, use runHook instead.
_callImplicitHook() {
set -u
local def="$1"
local hookName="$2"
case "$(type -t "$hookName")" in
(function|alias|builtin)
set +u
"$hookName";;
(file)
set +u
source "$hookName";;
(keyword) :;;
(*) if [ -z "${!hookName:-}" ]; then
return "$def";
else
set +u
eval "${!hookName}"
fi;;
esac
# `_eval` expects hook to need nounset disable and leave it
# disabled anyways, so Ok to to delegate. The alternative of a
# return trap is no good because it would affect nested returns.
}
# A function wrapper around ‘eval’ that ensures that ‘return’ inside
# hooks exits the hook, not the caller. Also will only pass args if
# command can take them
_eval() {
if [ "$(type -t "$1")" = function ]; then
set +u
"$@" # including args
else
set +u
eval "$1"
fi
# `run*Hook` reenables `set -u`
}
######################################################################
# Logging.
# Obsolete.
stopNest() { true; }
header() { echo "$1"; }
closeNest() { true; }
# Prints a command such that all word splits are unambiguous. We need
# to split the command in three parts because the middle format string
# will be, and must be, repeated for each argument. The first argument
# goes before the ':' and is just for convenience.
echoCmd() {
printf "%s:" "$1"
shift
printf ' %q' "$@"
echo
}
######################################################################
# Error handling.
exitHandler() {
exitCode="$?"
set +e
if [ -n "${showBuildStats:-}" ]; then
times > "$NIX_BUILD_TOP/.times"
local -a times=($(cat "$NIX_BUILD_TOP/.times"))
# Print the following statistics:
# - user time for the shell
# - system time for the shell
# - user time for all child processes
# - system time for all child processes
echo "build time elapsed: " "${times[@]}"
fi
if (( "$exitCode" != 0 )); then
runHook failureHook
# If the builder had a non-zero exit code and
# $succeedOnFailure is set, create the file
# ‘$out/nix-support/failed’ to signal failure, and exit
# normally. Otherwise, return the original exit code.
if [ -n "${succeedOnFailure:-}" ]; then
echo "build failed with exit code $exitCode (ignored)"
mkdir -p "$out/nix-support"
printf "%s" "$exitCode" > "$out/nix-support/failed"
exit 0
fi
else
runHook exitHook
fi
exit "$exitCode"
}
trap "exitHandler" EXIT
######################################################################
# Helper functions.
addToSearchPathWithCustomDelimiter() {
local delimiter="$1"
local varName="$2"
local dir="$3"
if [ -d "$dir" ]; then
export "${varName}=${!varName:+${!varName}${delimiter}}${dir}"
fi
}
PATH_DELIMITER=':'
addToSearchPath() {
addToSearchPathWithCustomDelimiter "${PATH_DELIMITER}" "$@"
}
# Add $1/lib* into rpaths.
# The function is used in multiple-outputs.sh hook,
# so it is defined here but tried after the hook.
_addRpathPrefix() {
if [ "${NIX_NO_SELF_RPATH:-0}" != 1 ]; then
export NIX_LDFLAGS="-rpath $1/lib $NIX_LDFLAGS"
if [ -n "${NIX_LIB64_IN_SELF_RPATH:-}" ]; then
export NIX_LDFLAGS="-rpath $1/lib64 $NIX_LDFLAGS"
fi
if [ -n "${NIX_LIB32_IN_SELF_RPATH:-}" ]; then
export NIX_LDFLAGS="-rpath $1/lib32 $NIX_LDFLAGS"
fi
fi
}
# Return success if the specified file is an ELF object.
isELF() {
local fn="$1"
local fd
local magic
exec {fd}< "$fn"
read -r -n 4 -u "$fd" magic
exec {fd}<&-
if [ "$magic" = $'\177ELF' ]; then return 0; else return 1; fi
}
# Return success if the specified file is a script (i.e. starts with
# "#!").
isScript() {
local fn="$1"
local fd
local magic
exec {fd}< "$fn"
read -r -n 2 -u "$fd" magic
exec {fd}<&-
if [[ "$magic" =~ \#! ]]; then return 0; else return 1; fi
}
# printf unfortunately will print a trailing newline regardless
printLines() {
(( "$#" > 0 )) || return 0
printf '%s\n' "$@"
}
printWords() {
(( "$#" > 0 )) || return 0
printf '%s ' "$@"
}
######################################################################
# Initialisation.
# Set a fallback default value for SOURCE_DATE_EPOCH, used by some
# build tools to provide a deterministic substitute for the "current"
# time. Note that 1 = 1970-01-01 00:00:01. We don't use 0 because it
# confuses some applications.
export SOURCE_DATE_EPOCH
: ${SOURCE_DATE_EPOCH:=1}
# Wildcard expansions that don't match should expand to an empty list.
# This ensures that, for instance, "for i in *; do ...; done" does the
# right thing.
shopt -s nullglob
# Set up the initial path.
PATH=
HOST_PATH=
for i in $initialPath; do
if [ "$i" = / ]; then i=; fi
addToSearchPath PATH "$i/bin"
# For backward compatibility, we add initial path to HOST_PATH so
# it can be used in auto patch-shebangs. Unfortunately this will
# not work with cross compilation.
if [ -z "${strictDeps-}" ]; then
addToSearchPath HOST_PATH "$i/bin"
fi
done
if (( "${NIX_DEBUG:-0}" >= 1 )); then
echo "initial path: $PATH"
fi
# Check that the pre-hook initialised SHELL.
if [ -z "${SHELL:-}" ]; then echo "SHELL not set"; exit 1; fi
BASH="$SHELL"
export CONFIG_SHELL="$SHELL"
# Dummy implementation of the paxmark function. On Linux, this is
# overwritten by paxctl's setup hook.
paxmark() { true; }
# Execute the pre-hook.
if [ -z "${shell:-}" ]; then export shell="$SHELL"; fi
runHook preHook
# Allow the caller to augment buildInputs (it's not always possible to
# do this before the call to setup.sh, since the PATH is empty at that
# point; here we have a basic Unix environment).
runHook addInputsHook
# Package accumulators
# shellcheck disable=SC2034
declare -a pkgsBuildBuild pkgsBuildHost pkgsBuildTarget
declare -a pkgsHostHost pkgsHostTarget
declare -a pkgsTargetTarget
declare -ra pkgBuildAccumVars=(pkgsBuildBuild pkgsBuildHost pkgsBuildTarget)
declare -ra pkgHostAccumVars=(pkgsHostHost pkgsHostTarget)
declare -ra pkgTargetAccumVars=(pkgsTargetTarget)
declare -ra pkgAccumVarVars=(pkgBuildAccumVars pkgHostAccumVars pkgTargetAccumVars)
# Hooks
declare -a envBuildBuildHooks envBuildHostHooks envBuildTargetHooks
declare -a envHostHostHooks envHostTargetHooks
declare -a envTargetTargetHooks
declare -ra pkgBuildHookVars=(envBuildBuildHook envBuildHostHook envBuildTargetHook)
declare -ra pkgHostHookVars=(envHostHostHook envHostTargetHook)
declare -ra pkgTargetHookVars=(envTargetTargetHook)
declare -ra pkgHookVarVars=(pkgBuildHookVars pkgHostHookVars pkgTargetHookVars)
# Add env hooks for all sorts of deps with the specified host offset.
addEnvHooks() {
local depHostOffset="$1"
shift
local pkgHookVarsSlice="${pkgHookVarVars[$depHostOffset + 1]}[@]"
local pkgHookVar
for pkgHookVar in "${!pkgHookVarsSlice}"; do
eval "${pkgHookVar}s"'+=("$@")'
done
}
# Propagated dep files
declare -ra propagatedBuildDepFiles=(
propagated-build-build-deps
propagated-native-build-inputs # Legacy name for back-compat
propagated-build-target-deps
)
declare -ra propagatedHostDepFiles=(
propagated-host-host-deps
propagated-build-inputs # Legacy name for back-compat
)
declare -ra propagatedTargetDepFiles=(
propagated-target-target-deps
)
declare -ra propagatedDepFilesVars=(
propagatedBuildDepFiles
propagatedHostDepFiles
propagatedTargetDepFiles
)
# Platform offsets: build = -1, host = 0, target = 1
declare -ra allPlatOffsets=(-1 0 1)
# Mutually-recursively find all build inputs. See the dependency section of the
# stdenv chapter of the Nixpkgs manual for the specification this algorithm
# implements.
findInputs() {
local -r pkg="$1"
local -ri hostOffset="$2"
local -ri targetOffset="$3"
# Sanity check
(( "$hostOffset" <= "$targetOffset" )) || exit -1
local varVar="${pkgAccumVarVars[$hostOffset + 1]}"
local varRef="$varVar[\$targetOffset - \$hostOffset]"
local var="${!varRef}"
unset -v varVar varRef
# TODO(@Ericson2314): Restore using associative array once Darwin
# nix-shell doesn't use impure bash. This should replace the O(n)
# case with an O(1) hash map lookup, assuming bash is implemented
# well :D.
local varSlice="$var[*]"
# ${..-} to hack around old bash empty array problem
case "${!varSlice-}" in
*" $pkg "*) return 0 ;;
esac
unset -v varSlice
eval "$var"'+=("$pkg")'
if ! [ -e "$pkg" ]; then
echo "build input $pkg does not exist" >&2
exit 1
fi
# The current package's host and target offset together
# provide a <=-preserving homomorphism from the relative
# offsets to current offset
function mapOffset() {
local -ri inputOffset="$1"
if (( "$inputOffset" <= 0 )); then
local -ri outputOffset="$inputOffset + $hostOffset"
else
local -ri outputOffset="$inputOffset - 1 + $targetOffset"
fi
echo "$outputOffset"
}
# Host offset relative to that of the package whose immediate
# dependencies we are currently exploring.
local -i relHostOffset
for relHostOffset in "${allPlatOffsets[@]}"; do
# `+ 1` so we start at 0 for valid index
local files="${propagatedDepFilesVars[$relHostOffset + 1]}"
# Host offset relative to the package currently being
# built---as absolute an offset as will be used.
local -i hostOffsetNext
hostOffsetNext="$(mapOffset relHostOffset)"
# Ensure we're in bounds relative to the package currently
# being built.
[[ "${allPlatOffsets[*]}" = *"$hostOffsetNext"* ]] || continue
# Target offset relative to the *host* offset of the package
# whose immediate dependencies we are currently exploring.
local -i relTargetOffset
for relTargetOffset in "${allPlatOffsets[@]}"; do
(( "$relHostOffset" <= "$relTargetOffset" )) || continue
local fileRef="${files}[$relTargetOffset - $relHostOffset]"
local file="${!fileRef}"
unset -v fileRef
# Target offset relative to the package currently being
# built.
local -i targetOffsetNext
targetOffsetNext="$(mapOffset relTargetOffset)"
# Once again, ensure we're in bounds relative to the
# package currently being built.
[[ "${allPlatOffsets[*]}" = *"$targetOffsetNext"* ]] || continue
[[ -f "$pkg/nix-support/$file" ]] || continue
local pkgNext
for pkgNext in $(< "$pkg/nix-support/$file"); do
findInputs "$pkgNext" "$hostOffsetNext" "$targetOffsetNext"
done
done
done
}
# Make sure all are at least defined as empty
: ${depsBuildBuild=} ${depsBuildBuildPropagated=}
: ${nativeBuildInputs=} ${propagatedNativeBuildInputs=} ${defaultNativeBuildInputs=}
: ${depsBuildTarget=} ${depsBuildTargetPropagated=}
: ${depsHostHost=} ${depsHostHostPropagated=}
: ${buildInputs=} ${propagatedBuildInputs=} ${defaultBuildInputs=}
: ${depsTargetTarget=} ${depsTargetTargetPropagated=}
for pkg in $depsBuildBuild $depsBuildBuildPropagated; do
findInputs "$pkg" -1 -1
done
for pkg in $nativeBuildInputs $propagatedNativeBuildInputs; do
findInputs "$pkg" -1 0
done
for pkg in $depsBuildTarget $depsBuildTargetPropagated; do
findInputs "$pkg" -1 1
done
for pkg in $depsHostHost $depsHostHostPropagated; do
findInputs "$pkg" 0 0
done
for pkg in $buildInputs $propagatedBuildInputs ; do
findInputs "$pkg" 0 1
done
for pkg in $depsTargetTarget $depsTargetTargetPropagated; do
findInputs "$pkg" 1 1
done
# Default inputs must be processed last
for pkg in $defaultNativeBuildInputs; do
findInputs "$pkg" -1 0
done
for pkg in $defaultBuildInputs; do
findInputs "$pkg" 0 1
done
# Add package to the future PATH and run setup hooks
activatePackage() {
local pkg="$1"
local -ri hostOffset="$2"
local -ri targetOffset="$3"
# Sanity check
(( "$hostOffset" <= "$targetOffset" )) || exit -1
if [ -f "$pkg" ]; then
local oldOpts="$(shopt -po nounset)"
set +u
source "$pkg"
eval "$oldOpts"
fi
# Only dependencies whose host platform is guaranteed to match the
# build platform are included here. That would be `depsBuild*`,
# and legacy `nativeBuildInputs`, in general. If we aren't cross
# compiling, however, everything can be put on the PATH. To ease
# the transition, we do include everything in thatcase.
#
# TODO(@Ericson2314): Don't special-case native compilation
if [[ ( -z "${strictDeps-}" || "$hostOffset" -le -1 ) && -d "$pkg/bin" ]]; then
addToSearchPath _PATH "$pkg/bin"
fi
if [[ "$hostOffset" -eq 0 && -d "$pkg/bin" ]]; then
addToSearchPath HOST_PATH "$pkg/bin"
fi
if [[ -f "$pkg/nix-support/setup-hook" ]]; then
local oldOpts="$(shopt -po nounset)"
set +u
source "$pkg/nix-support/setup-hook"
eval "$oldOpts"
fi
}
_activatePkgs() {
local -i hostOffset targetOffset
local pkg
for hostOffset in "${allPlatOffsets[@]}"; do
local pkgsVar="${pkgAccumVarVars[$hostOffset + 1]}"
for targetOffset in "${allPlatOffsets[@]}"; do
(( "$hostOffset" <= "$targetOffset" )) || continue
local pkgsRef="${pkgsVar}[$targetOffset - $hostOffset]"
local pkgsSlice="${!pkgsRef}[@]"
for pkg in ${!pkgsSlice+"${!pkgsSlice}"}; do
activatePackage "$pkg" "$hostOffset" "$targetOffset"
done
done
done
}
# Run the package setup hooks and build _PATH
_activatePkgs
# Set the relevant environment variables to point to the build inputs
# found above.
#
# These `depOffset`s, beyond indexing the arrays, also tell the env
# hook what sort of dependency (ignoring propagatedness) is being
# passed to the env hook. In a real language, we'd append a closure
# with this information to the relevant env hook array, but bash
# doesn't have closures, so it's easier to just pass this in.
_addToEnv() {
local -i depHostOffset depTargetOffset
local pkg
for depHostOffset in "${allPlatOffsets[@]}"; do
local hookVar="${pkgHookVarVars[$depHostOffset + 1]}"
local pkgsVar="${pkgAccumVarVars[$depHostOffset + 1]}"
for depTargetOffset in "${allPlatOffsets[@]}"; do
(( "$depHostOffset" <= "$depTargetOffset" )) || continue
local hookRef="${hookVar}[$depTargetOffset - $depHostOffset]"
if [[ -z "${strictDeps-}" ]]; then
# Apply environment hooks to all packages during native
# compilation to ease the transition.
#
# TODO(@Ericson2314): Don't special-case native compilation
for pkg in \
${pkgsBuildBuild+"${pkgsBuildBuild[@]}"} \
${pkgsBuildHost+"${pkgsBuildHost[@]}"} \
${pkgsBuildTarget+"${pkgsBuildTarget[@]}"} \
${pkgsHostHost+"${pkgsHostHost[@]}"} \
${pkgsHostTarget+"${pkgsHostTarget[@]}"} \
${pkgsTargetTarget+"${pkgsTargetTarget[@]}"}
do
runHook "${!hookRef}" "$pkg"
done
else
local pkgsRef="${pkgsVar}[$depTargetOffset - $depHostOffset]"
local pkgsSlice="${!pkgsRef}[@]"
for pkg in ${!pkgsSlice+"${!pkgsSlice}"}; do
runHook "${!hookRef}" "$pkg"
done
fi
done
done
}
# Run the package-specific hooks set by the setup-hook scripts.
_addToEnv
_addRpathPrefix "$out"
# Set the TZ (timezone) environment variable, otherwise commands like
# `date' will complain (e.g., `Tue Mar 9 10:01:47 Local time zone must
# be set--see zic manual page 2004').
export TZ=UTC
# Set the prefix. This is generally $out, but it can be overriden,
# for instance if we just want to perform a test build/install to a
# temporary location and write a build report to $out.
if [ -z "${prefix:-}" ]; then
prefix="$out";
fi
if [ "${useTempPrefix:-}" = 1 ]; then
prefix="$NIX_BUILD_TOP/tmp_prefix";
fi
PATH="${_PATH-}${_PATH:+${PATH:+:}}$PATH"
if (( "${NIX_DEBUG:-0}" >= 1 )); then
echo "final path: $PATH"
fi
# Make GNU Make produce nested output.
export NIX_INDENT_MAKE=1
# Normalize the NIX_BUILD_CORES variable. The value might be 0, which
# means that we're supposed to try and auto-detect the number of
# available CPU cores at run-time.
if [ -z "${NIX_BUILD_CORES:-}" ]; then
NIX_BUILD_CORES="1"
elif [ "$NIX_BUILD_CORES" -le 0 ]; then
NIX_BUILD_CORES=$(nproc 2>/dev/null || true)
if expr >/dev/null 2>&1 "$NIX_BUILD_CORES" : "^[0-9][0-9]*$"; then
:
else
NIX_BUILD_CORES="1"
fi
fi
export NIX_BUILD_CORES
# Prevent OpenSSL-based applications from using certificates in
# /etc/ssl.
# Leave it in shells for convenience.
if [ -z "${SSL_CERT_FILE:-}" ] && [ -z "${IN_NIX_SHELL:-}" ]; then
export SSL_CERT_FILE=/no-cert-file.crt
fi
######################################################################
# Textual substitution functions.
substituteStream() {
local var=$1
shift
while (( "$#" )); do
case "$1" in
--replace)
pattern="$2"
replacement="$3"
shift 3
;;
--subst-var)
local varName="$2"
shift 2
# check if the used nix attribute name is a valid bash name
if ! [[ "$varName" =~ ^[a-zA-Z_][a-zA-Z0-9_]*$ ]]; then
echo "substituteStream(): ERROR: substitution variables must be valid Bash names, \"$varName\" isn't." >&2
return 1
fi
if [ -z ${!varName+x} ]; then
echo "substituteStream(): ERROR: variable \$$varName is unset" >&2
return 1
fi
pattern="@$varName@"
replacement="${!varName}"
;;
--subst-var-by)
pattern="@$2@"
replacement="$3"
shift 3
;;
*)
echo "substituteStream(): ERROR: Invalid command line argument: $1" >&2
return 1
;;
esac
eval "$var"'=${'"$var"'//"$pattern"/"$replacement"}'
done
printf "%s" "${!var}"
}
consumeEntire() {
# read returns non-0 on EOF, so we want read to fail
if IFS='' read -r -N 0 $1; then
echo "consumeEntire(): ERROR: Input null bytes, won't process" >&2
return 1
fi
}
substitute() {
local input="$1"
local output="$2"
shift 2
if [ ! -f "$input" ]; then
echo "substitute(): ERROR: file '$input' does not exist" >&2
return 1
fi
local content
consumeEntire content < "$input"
if [ -e "$output" ]; then chmod +w "$output"; fi
substituteStream content "$@" > "$output"
}
substituteInPlace() {
local fileName="$1"
shift
substitute "$fileName" "$fileName" "$@"
}
_allFlags() {
for varName in $(awk 'BEGIN { for (v in ENVIRON) if (v ~ /^[a-z][a-zA-Z0-9_]*$/) print v }'); do
if (( "${NIX_DEBUG:-0}" >= 1 )); then
printf "@%s@ -> %q\n" "${varName}" "${!varName}"
fi
args+=("--subst-var" "$varName")
done
}
substituteAllStream() {
local -a args=()
_allFlags
substituteStream "$1" "${args[@]}"
}
# Substitute all environment variables that start with a lowercase character and
# are valid Bash names.
substituteAll() {
local input="$1"
local output="$2"
local -a args=()
_allFlags
substitute "$input" "$output" "${args[@]}"
}
substituteAllInPlace() {
local fileName="$1"
shift
substituteAll "$fileName" "$fileName" "$@"
}
######################################################################
# What follows is the generic builder.
# This function is useful for debugging broken Nix builds. It dumps
# all environment variables to a file `env-vars' in the build
# directory. If the build fails and the `-K' option is used, you can
# then go to the build directory and source in `env-vars' to reproduce
# the environment used for building.
dumpVars() {
if [ "${noDumpEnvVars:-0}" != 1 ]; then
export > "$NIX_BUILD_TOP/env-vars" || true
fi
}
# Utility function: echo the base name of the given path, with the
# prefix `HASH-' removed, if present.
stripHash() {
local strippedName
# On separate line for `set -e`
strippedName="$(basename "$1")"
if echo "$strippedName" | grep -q '^[a-z0-9]\{32\}-'; then
echo "$strippedName" | cut -c34-
else
echo "$strippedName"
fi
}
unpackCmdHooks+=(_defaultUnpack)
_defaultUnpack() {
local fn="$1"
if [ -d "$fn" ]; then
# We can't preserve hardlinks because they may have been
# introduced by store optimization, which might break things
# in the build.
cp -pr --reflink=auto -- "$fn" "$(stripHash "$fn")"
else
case "$fn" in
*.tar.xz | *.tar.lzma | *.txz)
# Don't rely on tar knowing about .xz.
xz -d < "$fn" | tar xf -
;;
*.tar | *.tar.* | *.tgz | *.tbz2 | *.tbz)
# GNU tar can automatically select the decompression method
# (info "(tar) gzip").
tar xf "$fn"
;;
*)
return 1
;;
esac
fi
}
unpackFile() {
curSrc="$1"
header "unpacking source archive $curSrc" 3
if ! runOneHook unpackCmd "$curSrc"; then
echo "do not know how to unpack source archive $curSrc"
exit 1
fi
}
unpackPhase() {
runHook preUnpack
if [ -z "${srcs:-}" ]; then
if [ -z "${src:-}" ]; then
# shellcheck disable=SC2016
echo 'variable $src or $srcs should point to the source'
exit 1
fi
srcs="$src"
fi
# To determine the source directory created by unpacking the
# source archives, we record the contents of the current
# directory, then look below which directory got added. Yeah,
# it's rather hacky.
local dirsBefore=""
for i in *; do
if [ -d "$i" ]; then
dirsBefore="$dirsBefore $i "
fi
done
# Unpack all source archives.
for i in $srcs; do
unpackFile "$i"
done
# Find the source directory.
# set to empty if unset
: ${sourceRoot=}
if [ -n "${setSourceRoot:-}" ]; then
runOneHook setSourceRoot
elif [ -z "$sourceRoot" ]; then
for i in *; do
if [ -d "$i" ]; then
case $dirsBefore in
*\ $i\ *)
;;
*)
if [ -n "$sourceRoot" ]; then
echo "unpacker produced multiple directories"
exit 1
fi
sourceRoot="$i"
;;
esac
fi
done
fi
if [ -z "$sourceRoot" ]; then
echo "unpacker appears to have produced no directories"
exit 1
fi
echo "source root is $sourceRoot"
# By default, add write permission to the sources. This is often
# necessary when sources have been copied from other store
# locations.
if [ "${dontMakeSourcesWritable:-0}" != 1 ]; then
chmod -R u+w -- "$sourceRoot"
fi
runHook postUnpack
}
patchPhase() {
runHook prePatch
for i in ${patches:-}; do
header "applying patch $i" 3
local uncompress=cat
case "$i" in
*.gz)
uncompress="gzip -d"
;;
*.bz2)
uncompress="bzip2 -d"
;;
*.xz)
uncompress="xz -d"
;;
*.lzma)
uncompress="lzma -d"
;;
esac
# "2>&1" is a hack to make patch fail if the decompressor fails (nonexistent patch, etc.)
# shellcheck disable=SC2086
$uncompress < "$i" 2>&1 | patch ${patchFlags:--p1}
done
runHook postPatch
}
fixLibtool() {
sed -i -e 's^eval sys_lib_.*search_path=.*^^' "$1"
}
configurePhase() {
runHook preConfigure
# set to empty if unset
: ${configureScript=}
: ${configureFlags=}
if [[ -z "$configureScript" && -x ./configure ]]; then
configureScript=./configure
fi
if [ -z "${dontFixLibtool:-}" ]; then
local i
find . -iname "ltmain.sh" -print0 | while IFS='' read -r -d '' i; do
echo "fixing libtool script $i"
fixLibtool "$i"
done
fi
if [[ -z "${dontAddPrefix:-}" && -n "$prefix" ]]; then
configureFlags="${prefixKey:---prefix=}$prefix $configureFlags"
fi
# Add --disable-dependency-tracking to speed up some builds.
if [ -z "${dontAddDisableDepTrack:-}" ]; then
if [ -f "$configureScript" ] && grep -q dependency-tracking "$configureScript"; then
configureFlags="--disable-dependency-tracking $configureFlags"
fi
fi
# By default, disable static builds.
if [ -z "${dontDisableStatic:-}" ]; then
if [ -f "$configureScript" ] && grep -q enable-static "$configureScript"; then
configureFlags="--disable-static $configureFlags"
fi
fi
if [ -n "$configureScript" ]; then
# Old bash empty array hack
# shellcheck disable=SC2086
local flagsArray=(
$configureFlags ${configureFlagsArray+"${configureFlagsArray[@]}"}
)
echoCmd 'configure flags' "${flagsArray[@]}"
# shellcheck disable=SC2086
$configureScript "${flagsArray[@]}"
unset flagsArray
else
echo "no configure script, doing nothing"
fi
runHook postConfigure
}
buildPhase() {
runHook preBuild