Example/Pods/Target Support Files/Pods-GIFFromImages_Example/Pods-GIFFromImages_Example-frameworks.sh
#!/bin/sh
set -e
set -u
set -o pipefail
function on_error {
echo "$(realpath -mq "${0}"):$1: error: Unexpected failure"
}
trap 'on_error $LINENO' ERR
if [ -z ${FRAMEWORKS_FOLDER_PATH+x} ]; then
# If FRAMEWORKS_FOLDER_PATH is not set, then there's nowhere for us to copy
# frameworks to, so exit 0 (signalling the script phase was successful).
exit 0
fi
echo "mkdir -p ${CONFIGURATION_BUILD_DIR}/${FRAMEWORKS_FOLDER_PATH}"
mkdir -p "${CONFIGURATION_BUILD_DIR}/${FRAMEWORKS_FOLDER_PATH}"
COCOAPODS_PARALLEL_CODE_SIGN="${COCOAPODS_PARALLEL_CODE_SIGN:-false}"
SWIFT_STDLIB_PATH="${DT_TOOLCHAIN_DIR}/usr/lib/swift/${PLATFORM_NAME}"
BCSYMBOLMAP_DIR="BCSymbolMaps"
# This protects against multiple targets copying the same framework dependency at the same time. The solution
# was originally proposed here: https://lists.samba.org/archive/rsync/2008-February/020158.html
RSYNC_PROTECT_TMP_FILES=(--filter "P .*.??????")
# Copies and strips a vendored framework
install_framework()
{
if [ -r "${BUILT_PRODUCTS_DIR}/$1" ]; then
local source="${BUILT_PRODUCTS_DIR}/$1"
elif [ -r "${BUILT_PRODUCTS_DIR}/$(basename "$1")" ]; then
local source="${BUILT_PRODUCTS_DIR}/$(basename "$1")"
elif [ -r "$1" ]; then
local source="$1"
fi
local destination="${TARGET_BUILD_DIR}/${FRAMEWORKS_FOLDER_PATH}"
if [ -L "${source}" ]; then
echo "Symlinked..."
source="$(readlink "${source}")"
fi
if [ -d "${source}/${BCSYMBOLMAP_DIR}" ]; then
# Locate and install any .bcsymbolmaps if present, and remove them from the .framework before the framework is copied
find "${source}/${BCSYMBOLMAP_DIR}" -name "*.bcsymbolmap"|while read f; do
echo "Installing $f"
install_bcsymbolmap "$f" "$destination"
rm "$f"
done
rmdir "${source}/${BCSYMBOLMAP_DIR}"
fi
# Use filter instead of exclude so missing patterns don't throw errors.
echo "rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --links --filter \"- CVS/\" --filter \"- .svn/\" --filter \"- .git/\" --filter \"- .hg/\" --filter \"- Headers\" --filter \"- PrivateHeaders\" --filter \"- Modules\" \"${source}\" \"${destination}\""
rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --links --filter "- CVS/" --filter "- .svn/" --filter "- .git/" --filter "- .hg/" --filter "- Headers" --filter "- PrivateHeaders" --filter "- Modules" "${source}" "${destination}"
local basename
basename="$(basename -s .framework "$1")"
binary="${destination}/${basename}.framework/${basename}"
if ! [ -r "$binary" ]; then
binary="${destination}/${basename}"
elif [ -L "${binary}" ]; then
echo "Destination binary is symlinked..."
dirname="$(dirname "${binary}")"
binary="${dirname}/$(readlink "${binary}")"
fi
# Strip invalid architectures so "fat" simulator / device frameworks work on device
if [[ "$(file "$binary")" == *"dynamically linked shared library"* ]]; then
strip_invalid_archs "$binary"
fi
# Resign the code if required by the build settings to avoid unstable apps
code_sign_if_enabled "${destination}/$(basename "$1")"
# Embed linked Swift runtime libraries. No longer necessary as of Xcode 7.
if [ "${XCODE_VERSION_MAJOR}" -lt 7 ]; then
local swift_runtime_libs
swift_runtime_libs=$(xcrun otool -LX "$binary" | grep --color=never @rpath/libswift | sed -E s/@rpath\\/\(.+dylib\).*/\\1/g | uniq -u)
for lib in $swift_runtime_libs; do
echo "rsync -auv \"${SWIFT_STDLIB_PATH}/${lib}\" \"${destination}\""
rsync -auv "${SWIFT_STDLIB_PATH}/${lib}" "${destination}"
code_sign_if_enabled "${destination}/${lib}"
done
fi
}
# Copies and strips a vendored dSYM
install_dsym() {
local source="$1"
warn_missing_arch=${2:-true}
if [ -r "$source" ]; then
# Copy the dSYM into the targets temp dir.
echo "rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --filter \"- CVS/\" --filter \"- .svn/\" --filter \"- .git/\" --filter \"- .hg/\" --filter \"- Headers\" --filter \"- PrivateHeaders\" --filter \"- Modules\" \"${source}\" \"${DERIVED_FILES_DIR}\""
rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --filter "- CVS/" --filter "- .svn/" --filter "- .git/" --filter "- .hg/" --filter "- Headers" --filter "- PrivateHeaders" --filter "- Modules" "${source}" "${DERIVED_FILES_DIR}"
local basename
basename="$(basename -s .dSYM "$source")"
binary_name="$(ls "$source/Contents/Resources/DWARF")"
binary="${DERIVED_FILES_DIR}/${basename}.dSYM/Contents/Resources/DWARF/${binary_name}"
# Strip invalid architectures from the dSYM.
if [[ "$(file "$binary")" == *"Mach-O "*"dSYM companion"* ]]; then
strip_invalid_archs "$binary" "$warn_missing_arch"
fi
if [[ $STRIP_BINARY_RETVAL == 0 ]]; then
# Move the stripped file into its final destination.
echo "rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --links --filter \"- CVS/\" --filter \"- .svn/\" --filter \"- .git/\" --filter \"- .hg/\" --filter \"- Headers\" --filter \"- PrivateHeaders\" --filter \"- Modules\" \"${DERIVED_FILES_DIR}/${basename}.framework.dSYM\" \"${DWARF_DSYM_FOLDER_PATH}\""
rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --links --filter "- CVS/" --filter "- .svn/" --filter "- .git/" --filter "- .hg/" --filter "- Headers" --filter "- PrivateHeaders" --filter "- Modules" "${DERIVED_FILES_DIR}/${basename}.dSYM" "${DWARF_DSYM_FOLDER_PATH}"
else
# The dSYM was not stripped at all, in this case touch a fake folder so the input/output paths from Xcode do not reexecute this script because the file is missing.
touch "${DWARF_DSYM_FOLDER_PATH}/${basename}.dSYM"
fi
fi
}
# Used as a return value for each invocation of `strip_invalid_archs` function.
STRIP_BINARY_RETVAL=0
# Strip invalid architectures
strip_invalid_archs() {
binary="$1"
warn_missing_arch=${2:-true}
# Get architectures for current target binary
binary_archs="$(lipo -info "$binary" | rev | cut -d ':' -f1 | awk '{$1=$1;print}' | rev)"
# Intersect them with the architectures we are building for
intersected_archs="$(echo ${ARCHS[@]} ${binary_archs[@]} | tr ' ' '\n' | sort | uniq -d)"
# If there are no archs supported by this binary then warn the user
if [[ -z "$intersected_archs" ]]; then
if [[ "$warn_missing_arch" == "true" ]]; then
echo "warning: [CP] Vendored binary '$binary' contains architectures ($binary_archs) none of which match the current build architectures ($ARCHS)."
fi
STRIP_BINARY_RETVAL=1
return
fi
stripped=""
for arch in $binary_archs; do
if ! [[ "${ARCHS}" == *"$arch"* ]]; then
# Strip non-valid architectures in-place
lipo -remove "$arch" -output "$binary" "$binary"
stripped="$stripped $arch"
fi
done
if [[ "$stripped" ]]; then
echo "Stripped $binary of architectures:$stripped"
fi
STRIP_BINARY_RETVAL=0
}
# Copies the bcsymbolmap files of a vendored framework
install_bcsymbolmap() {
local bcsymbolmap_path="$1"
local destination="${BUILT_PRODUCTS_DIR}"
echo "rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --filter "- CVS/" --filter "- .svn/" --filter "- .git/" --filter "- .hg/" --filter "- Headers" --filter "- PrivateHeaders" --filter "- Modules" "${bcsymbolmap_path}" "${destination}""
rsync --delete -av "${RSYNC_PROTECT_TMP_FILES[@]}" --filter "- CVS/" --filter "- .svn/" --filter "- .git/" --filter "- .hg/" --filter "- Headers" --filter "- PrivateHeaders" --filter "- Modules" "${bcsymbolmap_path}" "${destination}"
}
# Signs a framework with the provided identity
code_sign_if_enabled() {
if [ -n "${EXPANDED_CODE_SIGN_IDENTITY:-}" -a "${CODE_SIGNING_REQUIRED:-}" != "NO" -a "${CODE_SIGNING_ALLOWED}" != "NO" ]; then
# Use the current code_sign_identity
echo "Code Signing $1 with Identity ${EXPANDED_CODE_SIGN_IDENTITY_NAME}"
local code_sign_cmd="/usr/bin/codesign --force --sign ${EXPANDED_CODE_SIGN_IDENTITY} ${OTHER_CODE_SIGN_FLAGS:-} --preserve-metadata=identifier,entitlements '$1'"
if [ "${COCOAPODS_PARALLEL_CODE_SIGN}" == "true" ]; then
code_sign_cmd="$code_sign_cmd &"
fi
echo "$code_sign_cmd"
eval "$code_sign_cmd"
fi
}
if [[ "$CONFIGURATION" == "Debug" ]]; then
install_framework "${BUILT_PRODUCTS_DIR}/GIFFromImages/GIFFromImages.framework"
fi
if [[ "$CONFIGURATION" == "Release" ]]; then
install_framework "${BUILT_PRODUCTS_DIR}/GIFFromImages/GIFFromImages.framework"
fi
if [ "${COCOAPODS_PARALLEL_CODE_SIGN}" == "true" ]; then
wait
fi