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https://github.com/NixOS/nixpkgs.git
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a7f5e8321e
autoPatchelfHook actually doesn't depend on stdenv and only needs bintools (with its wrapper). This change uses $NIX_BINTOOLS instead of $NIX_CC and makes the dependency on bintools explicit.
382 lines
13 KiB
Bash
382 lines
13 KiB
Bash
#!/usr/bin/env bash
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declare -a autoPatchelfLibs
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declare -Ag autoPatchelfFailedDeps
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gatherLibraries() {
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autoPatchelfLibs+=("$1/lib")
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}
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# wrapper around patchelf to raise proper error messages
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# containing the tried file name and command
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runPatchelf() {
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patchelf "$@" || (echo "Command failed: patchelf $*" && exit 1)
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}
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# shellcheck disable=SC2154
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# (targetOffset is referenced but not assigned.)
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addEnvHooks "$targetOffset" gatherLibraries
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isExecutable() {
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# For dynamically linked ELF files it would be enough to check just for the
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# INTERP section. However, we won't catch statically linked executables as
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# they only have an ELF type of EXEC but no INTERP.
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#
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# So what we do here is just check whether *either* the ELF type is EXEC
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# *or* there is an INTERP section. This also catches position-independent
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# executables, as they typically have an INTERP section but their ELF type
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# is DYN.
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isExeResult="$(LANG=C $READELF -h -l "$1" 2> /dev/null \
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| grep '^ *Type: *EXEC\>\|^ *INTERP\>')"
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# not using grep -q, because it can cause Broken pipe
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# https://unix.stackexchange.com/questions/305547/broken-pipe-when-grepping-output-but-only-with-i-flag
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[ -n "$isExeResult" ]
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}
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# We cache dependencies so that we don't need to search through all of them on
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# every consecutive call to findDependency.
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declare -Ag autoPatchelfCachedDepsAssoc
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declare -ag autoPatchelfCachedDeps
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addToDepCache() {
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if [[ ${autoPatchelfCachedDepsAssoc[$1]+f} ]]; then return; fi
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# store deps in an assoc. array for efficient lookups
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# otherwise findDependency would have quadratic complexity
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autoPatchelfCachedDepsAssoc["$1"]=""
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# also store deps in normal array to maintain their order
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autoPatchelfCachedDeps+=("$1")
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}
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declare -gi depCacheInitialised=0
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declare -gi doneRecursiveSearch=0
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declare -g foundDependency
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getDepsFromElfBinary() {
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# NOTE: This does not use runPatchelf because it may encounter non-ELF
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# files. Caller is expected to check the return code if needed.
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patchelf --print-needed "$1" 2> /dev/null
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}
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getRpathFromElfBinary() {
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# NOTE: This does not use runPatchelf because it may encounter non-ELF
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# files. Caller is expected to check the return code if needed.
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local rpath
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IFS=':' read -ra rpath < <(patchelf --print-rpath "$1" 2> /dev/null) || return $?
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printf "%s\n" "${rpath[@]}"
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}
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populateCacheForDep() {
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local so="$1"
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local rpath found
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rpath="$(getRpathFromElfBinary "$so")" || return 1
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for found in $(getDepsFromElfBinary "$so"); do
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local rpathElem
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for rpathElem in $rpath; do
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# Ignore empty element or $ORIGIN magic variable which should be
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# deterministically resolved by adding this package's library
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# files early anyway.
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#
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# shellcheck disable=SC2016
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# (Expressions don't expand in single quotes, use double quotes for
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# that.)
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if [[ -z "$rpathElem" || "$rpathElem" == *'$ORIGIN'* ]]; then
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continue
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fi
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local soname="${found%.so*}"
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local foundso=
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for foundso in "$rpathElem/$soname".so*; do
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addToDepCache "$foundso"
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done
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# Found in this element of the rpath, no need to check others.
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if [ -n "$foundso" ]; then
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break
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fi
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done
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done
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# Not found in any rpath element.
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return 1
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}
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populateCacheWithRecursiveDeps() {
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# Dependencies may add more to the end of this array, so we use a counter
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# with while instead of a regular for loop here.
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local -i i=0
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while [ $i -lt ${#autoPatchelfCachedDeps[@]} ]; do
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populateCacheForDep "${autoPatchelfCachedDeps[$i]}"
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i=$i+1
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done
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}
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getBinArch() {
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$OBJDUMP -f "$1" 2> /dev/null | sed -ne 's/^architecture: *\([^,]\+\).*/\1/p'
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}
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# Returns the specific OS ABI for an ELF file in the format produced by
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# readelf(1), like "UNIX - System V" or "UNIX - GNU".
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getBinOsabi() {
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$READELF -h "$1" 2> /dev/null | sed -ne 's/^[ \t]*OS\/ABI:[ \t]*\(.*\)/\1/p'
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}
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# Tests whether two OS ABIs are compatible, taking into account the generally
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# accepted compatibility of SVR4 ABI with other ABIs.
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areBinOsabisCompatible() {
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local wanted="$1"
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local got="$2"
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if [[ -z "$wanted" || -z "$got" ]]; then
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# One of the types couldn't be detected, so as a fallback we'll assume
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# they're compatible.
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return 0
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fi
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# Generally speaking, the base ABI (0x00), which is represented by
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# readelf(1) as "UNIX - System V", indicates broad compatibility with other
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# ABIs.
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#
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# TODO: This isn't always true. For example, some OSes embed ABI
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# compatibility into SHT_NOTE sections like .note.tag and .note.ABI-tag.
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# It would be prudent to add these to the detection logic to produce better
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# ABI information.
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if [[ "$wanted" == "UNIX - System V" ]]; then
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return 0
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fi
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# Similarly here, we should be able to link against a superset of features,
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# so even if the target has another ABI, this should be fine.
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if [[ "$got" == "UNIX - System V" ]]; then
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return 0
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fi
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# Otherwise, we simply return whether the ABIs are identical.
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if [[ "$wanted" == "$got" ]]; then
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return 0
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fi
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return 1
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}
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# NOTE: If you want to use this function outside of the autoPatchelf function,
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# keep in mind that the dependency cache is only valid inside the subshell
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# spawned by the autoPatchelf function, so invoking this directly will possibly
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# rebuild the dependency cache. See the autoPatchelf function below for more
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# information.
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findDependency() {
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local filename="$1"
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local arch="$2"
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local osabi="$3"
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local lib dep
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if [ $depCacheInitialised -eq 0 ]; then
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for lib in "${autoPatchelfLibs[@]}"; do
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for so in "$lib/"*.so*; do addToDepCache "$so"; done
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done
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depCacheInitialised=1
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fi
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for dep in "${autoPatchelfCachedDeps[@]}"; do
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if [ "$filename" = "${dep##*/}" ]; then
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if [ "$(getBinArch "$dep")" = "$arch" ] && areBinOsabisCompatible "$osabi" "$(getBinOsabi "$dep")"; then
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foundDependency="$dep"
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return 0
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fi
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fi
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done
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# Populate the dependency cache with recursive dependencies *only* if we
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# didn't find the right dependency so far and afterwards run findDependency
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# again, but this time with $doneRecursiveSearch set to 1 so that it won't
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# recurse again (and thus infinitely).
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if [ $doneRecursiveSearch -eq 0 ]; then
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populateCacheWithRecursiveDeps
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doneRecursiveSearch=1
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findDependency "$filename" "$arch" || return 1
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return 0
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fi
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return 1
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}
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autoPatchelfFile() {
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local dep rpath="" toPatch="$1"
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local interpreter
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interpreter="$(< "$NIX_BINTOOLS/nix-support/dynamic-linker")"
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local interpreterArch interpreterOsabi toPatchArch toPatchOsabi
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interpreterArch="$(getBinArch "$interpreter")"
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interpreterOsabi="$(getBinOsabi "$interpreter")"
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toPatchArch="$(getBinArch "$toPatch")"
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toPatchOsabi="$(getBinOsabi "$toPatch")"
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if [ "$interpreterArch" != "$toPatchArch" ]; then
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# Our target architecture is different than this file's architecture,
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# so skip it.
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echo "skipping $toPatch because its architecture ($toPatchArch) differs from target ($interpreterArch)" >&2
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return 0
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elif ! areBinOsabisCompatible "$interpreterOsabi" "$toPatchOsabi"; then
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echo "skipping $toPatch because its OS ABI ($toPatchOsabi) is not compatible with target ($interpreterOsabi)" >&2
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return 0
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fi
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if isExecutable "$toPatch"; then
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runPatchelf --set-interpreter "$interpreter" "$toPatch"
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# shellcheck disable=SC2154
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# (runtimeDependencies is referenced but not assigned.)
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if [ -n "$runtimeDependencies" ]; then
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for dep in $runtimeDependencies; do
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rpath="$rpath${rpath:+:}$dep/lib"
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done
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fi
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fi
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local libcLib
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libcLib="$(< "$NIX_BINTOOLS/nix-support/orig-libc")/lib"
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echo "searching for dependencies of $toPatch" >&2
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local missing
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missing="$(getDepsFromElfBinary "$toPatch")" || return 0
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# This ensures that we get the output of all missing dependencies instead
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# of failing at the first one, because it's more useful when working on a
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# new package where you don't yet know its dependencies.
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for dep in $missing; do
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if [[ "$dep" == /* ]]; then
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# This is an absolute path. If it exists, just use it. Otherwise,
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# we probably want this to produce an error when checked (because
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# just updating the rpath won't satisfy it).
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if [ -f "$dep" ]; then
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continue
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fi
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elif [ -f "$libcLib/$dep" ]; then
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# This library exists in libc, and will be correctly resolved by
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# the linker.
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continue
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fi
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echo -n " $dep -> " >&2
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if findDependency "$dep" "$toPatchArch" "$toPatchOsabi"; then
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rpath="$rpath${rpath:+:}${foundDependency%/*}"
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echo "found: $foundDependency" >&2
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else
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echo "not found!" >&2
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autoPatchelfFailedDeps["$dep"]="$toPatch"
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fi
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done
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if [ -n "$rpath" ]; then
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echo "setting RPATH to: $rpath" >&2
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runPatchelf --set-rpath "$rpath" "$toPatch"
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fi
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}
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# Can be used to manually add additional directories with shared object files
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# to be included for the next autoPatchelf invocation.
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addAutoPatchelfSearchPath() {
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local -a findOpts=()
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# XXX: Somewhat similar to the one in the autoPatchelf function, maybe make
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# it DRY someday...
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while [ $# -gt 0 ]; do
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case "$1" in
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--) shift; break;;
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--no-recurse) shift; findOpts+=("-maxdepth" 1);;
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--*)
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echo "addAutoPatchelfSearchPath: ERROR: Invalid command line" \
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"argument: $1" >&2
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return 1;;
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*) break;;
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esac
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done
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while IFS= read -r -d '' file; do
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addToDepCache "$file"
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done < <(find "$@" "${findOpts[@]}" \! -type d \
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\( -name '*.so' -o -name '*.so.*' \) -print0)
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}
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autoPatchelf() {
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local norecurse=
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while [ $# -gt 0 ]; do
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case "$1" in
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--) shift; break;;
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--no-recurse) shift; norecurse=1;;
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--*)
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echo "autoPatchelf: ERROR: Invalid command line" \
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"argument: $1" >&2
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return 1;;
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*) break;;
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esac
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done
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if [ $# -eq 0 ]; then
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echo "autoPatchelf: No paths to patch specified." >&2
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return 1
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fi
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echo "automatically fixing dependencies for ELF files" >&2
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# Add all shared objects of the current output path to the start of
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# autoPatchelfCachedDeps so that it's chosen first in findDependency.
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addAutoPatchelfSearchPath ${norecurse:+--no-recurse} -- "$@"
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while IFS= read -r -d $'\0' file; do
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isELF "$file" || continue
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segmentHeaders="$(LANG=C $READELF -l "$file")"
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# Skip if the ELF file doesn't have segment headers (eg. object files).
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# not using grep -q, because it can cause Broken pipe
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grep -q '^Program Headers:' <<<"$segmentHeaders" || continue
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if isExecutable "$file"; then
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# Skip if the executable is statically linked.
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grep -q "^ *INTERP\\>" <<<"$segmentHeaders" || continue
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fi
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# Jump file if patchelf is unable to parse it
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# Some programs contain binary blobs for testing,
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# which are identified as ELF but fail to be parsed by patchelf
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patchelf "$file" || continue
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autoPatchelfFile "$file"
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done < <(find "$@" ${norecurse:+-maxdepth 1} -type f -print0)
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# fail if any dependencies were not found and
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# autoPatchelfIgnoreMissingDeps is not set
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local depsMissing=0
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for failedDep in "${!autoPatchelfFailedDeps[@]}"; do
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echo "autoPatchelfHook could not satisfy dependency $failedDep wanted by ${autoPatchelfFailedDeps[$failedDep]}"
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depsMissing=1
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done
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# shellcheck disable=SC2154
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# (autoPatchelfIgnoreMissingDeps is referenced but not assigned.)
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if [[ $depsMissing == 1 && -z "$autoPatchelfIgnoreMissingDeps" ]]; then
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echo "Add the missing dependencies to the build inputs or set autoPatchelfIgnoreMissingDeps=true"
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exit 1
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fi
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}
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# XXX: This should ultimately use fixupOutputHooks but we currently don't have
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# a way to enforce the order. If we have $runtimeDependencies set, the setup
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# hook of patchelf is going to ruin everything and strip out those additional
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# RPATHs.
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#
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# So what we do here is basically run in postFixup and emulate the same
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# behaviour as fixupOutputHooks because the setup hook for patchelf is run in
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# fixupOutput and the postFixup hook runs later.
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#
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# shellcheck disable=SC2016
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# (Expressions don't expand in single quotes, use double quotes for that.)
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postFixupHooks+=('
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if [ -z "${dontAutoPatchelf-}" ]; then
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autoPatchelf -- $(for output in $outputs; do
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[ -e "${!output}" ] || continue
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echo "${!output}"
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done)
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fi
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')
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