openssl/check-all-builds.sh - chromium/deps/openssl - Git at Google

 #!/bin/sh
 #

 set -e
 export LANG=C
 export LC_ALL=C

 PROGDIR=$(dirname "$0")
 PROGNAME=$(basename "$0")

 panic () {
   echo "ERROR: $@"
   exit 1
 }

 VERBOSE=1

 # Dump message is $VERBOSE >= $1
 # $1+: message.
 dump_n () {
   local LOG_LEVEL=$1
   shift
   if [ "$VERBOSE" -ge "$LOG_LEVEL" ]; then
     printf "%s\n" "$@"
   fi
 }

 # Dump a message unless --quiet is used.
 # $1+: message.
 dump () {
   dump_n 1 "$@"
 }

 # Dump a message if --verbose is used only.
 # $1+: message.
 log () {
   dump_n 2 "$@"
 }

 # Run a command silently, unless --verbose or '--verbose --verbose'
 # is used.
 # $1+: Command
 # Return: command status.
 run () {
   log "COMMAND: $*"
   case $VERBOSE in
     0)
       "$@" >/dev/null 2>&1 || return $?
       ;;
     1)
       "$@" >/dev/null || return $?
       ;;
     *)
       "$@" || return $?
       ;;
   esac
 }

 # $1: string
 # Out: input string, with capital letters replaced by small ones.
 tolower () {
   echo "$1" | tr '[A-Z]' '[a-z]'
 }

 # Return value of a given variable.
 # $1: Variable name
 var_value () {
   eval printf \"%s\" \"\$$1\"
 }

 # Remove some items from a list
 # $1: input space-separated list
 # $2: space-separated list of items to remove from 1
 # Out: items of $1 without items of $2
 filter_out () {
   local TMP=$(mktemp)
   local RESULT
   printf "" > $TMP
   echo "$2" | tr ' ' '\n' > $TMP
   RESULT=$(echo "$1" | tr ' ' '\n' | fgrep -x -v -f $TMP | tr '\n' ' ')
   rm -f $TMP
   echo "$RESULT"
 }

 src_to_obj () {
   case $1 in
     *.c)
       echo ${1%%.c}.o
       ;;
     *.S)
       echo ${1%%.S}.o
       ;;
     *)
       echo $1
       ;;
   esac
 }

 # Determine host operating system.
 HOST_OS=$(uname -s)
 case $HOST_OS in
   Linux)
     HOST_OS=linux
     ;;
   Darwin)
     HOST_OS=darwin
     ;;
 esac

 # Determine host architecture
 HOST_ARCH=$(uname -m)
 case $HOST_ARCH in
   i?86)
     HOST_ARCH=x86
     ;;
 esac

 ANDROID_HOST_TAG=$HOST_OS-$HOST_ARCH

 case $ANDROID_HOST_TAG in
   linux-x86_64|darwin-x86-64)
     ANDROID_HOST_TAG=$HOST_OS-x86
     ;;
   *)
     panic "Sorry, this script can only run on 64-bit Linux or Darwin"
 esac

 # Determine number of cores
 case $HOST_OS in
   linux)
     NUM_CORES=$(grep -c "processor" /proc/cpuinfo)
     ;;
   darwin)
     NUM_CORES=$(sysctl -n hw.ncpu)
     ;;
   *)
     NUM_CORES=1
     ;;
 esac

 # The list of supported Android target architectures.
 ANDROID_ARCHS="arm x86 mips"

 BUILD_TYPES=
 for ARCH in $ANDROID_ARCHS; do
   BUILD_TYPES="$BUILD_TYPES android-$ARCH"
 done
 ANDROID_BUILD_TYPES=$BUILD_TYPES

 # NOTE: The $HOST_OS-x86_64 is currently broken because the single
 #       <openssl/opensslconf.h> header is tailored for 32-bits.
 HOST_BUILD_TYPES="$HOST_OS-x86 $HOST_OS-generic32 $HOST_OS-generic64"

 BUILD_TYPES="$ANDROID_BUILD_TYPES $HOST_BUILD_TYPES"

 # Parse command-line
 DO_HELP=
 SRC_DIR=$(cd $PROGDIR && pwd)
 OUT_DIR=out
 BUILD_DIR=
 BUILD_TYPES=
 NUM_JOBS=$NUM_CORES
 ANDROID_BUILD_TOP=$(cd $PROGDIR/../.. && pwd)
 for OPT; do
   case $OPT in
     --help|-h|-?)
       DO_HELP=true
       ;;
     --build-dir=*)
       BUILD_DIR=${OPT##--build-dir=}
       ;;
     --verbose)
       VERBOSE=$(( $VERBOSE + 1 ))
       ;;
     --jobs=*)
       NUM_JOBS=${OPT##--jobs=}
       ;;
     --quiet)
       VERBOSE=$(( $VERBOSE - 1 ))
       ;;
     -j*)
       NUM_JOBS=${OPT##-j}
       ;;
     -*)
       panic "Unknown option '$OPT', see --help for details."
       ;;
     *)
       BUILD_TYPES="$BUILD_TYPES $OPT"
       ;;
   esac
 done

 # Print help when needed.
 if [ "$DO_HELP" ]; then
   echo \
 "Usage: $PROGNAME [options] [<build-type> ...]

 This script is used to ensure that all OpenSSL build variants compile
 properly. It can be used after modifying external/openssl/openssl.config
 and re-running import_openssl.sh to check that any changes didn't break
 the build.

 A <build-type> is a description of a given build of the library and its
 program. Its format is:

   <compiler>-<system>-<arch>

 Where: <compiler> is either 'gcc' or 'clang'.
        <system>   is 'android', 'linux' or 'darwin'.
        <arch>     is 'arm', 'x86'  or 'mips'.

 By default, it rebuilds the sources for the following build types:
 "
   for BUILD_TYPE in $BUILD_TYPES; do
     echo "  $BUILD_TYPE"
   done

   echo \
 "However, you can pass custom values on the command-line instead.

 This scripts generates a custom Makefile in a temporary directory, then
 launches 'make' in it to build all binaries in parallel. In case of
 problem, you can use the --build-dir=<path> option to specify a custom
 build-directory, which will _not_ be removed when the script exits.

 For example, to better see why a build fails:

    ./$PROGNAME --build-dir=/tmp/mydir
    make -C /tmp/mydir V=1

 Valid options:

   --help|-h|-?        Print this message.
   --build-dir=<path>  Specify build directory.
   --jobs=<count>      Run <count> parallel build jobs [$NUM_JOBS].
   -j<count>           Same as --jobs=<count>.
   --verbose           Increase verbosity.
   --quiet             Decrease verbosity.
 "
   exit 0
 fi

 log "Host OS: $HOST_OS"
 log "Host arch: $HOST_ARCH"
 log "Host CPU count: $NUM_CORES"

 if [ -z "$BUILD_TYPES" ]; then
   BUILD_TYPES="$ANDROID_BUILD_TYPES $HOST_BUILD_TYPES"
 fi
 log "Build types: $BUILD_TYPES"

 if [ -z "$BUILD_DIR" ]; then
   # Create a temporary directory, ensure it gets destroyed properly
   # when the script exits.
   BUILD_DIR=$(mktemp -d)
   clean_build_dir () {
     log "Cleaning up temporary directory: $BUILD_DIR"
     rm -rf "$BUILD_DIR"
     exit $1
   }
   trap "clean_build_dir 0" EXIT
   trap "clean_build_dir \$?" INT HUP QUIT TERM
   log "Using temporary build directory: $BUILD_DIR"
 else
   log "Using user build directory: $BUILD_DIR"
 fi

 mkdir -p "$BUILD_DIR" && rm -rf "$BUILD_DIR"/*

 MAKEFILE=$BUILD_DIR/GNUmakefile

 # Return source files for a given module and architecture.
 # $1: module prefix (e.g. CRYPTO)
 # $2: build arch.
 get_module_src_files_for_arch () {
   local prefix=$1
   local arch=$2
   local src_files="$(var_value OPENSSL_${prefix}_SOURCES)"
   src_files="$src_files $(var_value OPENSSL_${prefix}_SOURCES_${arch})"
   local exclude_files="$(var_value OPENSSL_${prefix}_SOURCES_EXCLUDES_${arch})"
   src_files=$(filter_out "$src_files" "$exclude_files")
   echo "$src_files"
 }

 # Return the compiler defines for a given module and architecture
 # $1: module prefix (e.g. CRYPTO)
 # $2 build arch.
 get_module_defines_for_arch () {
   local prefix=$1
   local arch=$2
   local defines="$(var_value OPENSSL_${prefix}_DEFINES)"
   defines="$defines $(var_value OPENSSL_${prefix}_DEFINES_${arch})"
   echo "$defines"
 }

 # $1: module prefix (e.g. CRYPTO)
 get_module_c_includes () {
   var_value OPENSSL_$1_INCLUDES
 }

 # $1: build type (e.g. gcc-android-arm)
 # Out: build arch.
 get_build_arch () {
   echo "$1" | cut -d- -f3
 }

 # $1: build arch
 # Out: GNU configuration target (e.g. arm-linux-androideabi)
 get_build_arch_target () {
   case $1 in
     arm)
       echo "arm-linux-androideabi"
       ;;
     x86)
       echo "i686-linux-android"
       ;;
     mips)
       echo "mipsel-linux-android"
       ;;
     *)
       echo "$1-linux-android"
       ;;
   esac
 }

 GCC_VERSION=4.7
 CLANG_VERSION=3.1

 get_prebuilt_gcc_dir_for_arch () {
   local arch=$1
   local target=$(get_build_arch_target $arch)
   echo "$ANDROID_BUILD_TOP/prebuilts/gcc/$ANDROID_HOST_TAG/$arch/$target-$GCC_VERSION"
 }

 get_prebuilt_clang () {
   echo "$ANDROID_BUILD_TOP/prebuilts/clang/$ANDROID_HOST_TAG/$CLANG_VERSION/clang"
 }

 get_prebuilt_ndk_sysroot_for_arch () {
   echo "$ANDROID_BUILD_TOP/prebuilts/ndk/current/platforms/android-9/arch-$1"
 }

 get_c_runtime_file () {
   local build_type=$1
   local arch=$(get_build_arch $build_type)
   local filename=$2
   echo "$(get_prebuilt_ndk_sysroot_for_arch $arch)/usr/lib/$filename"
 }

 # $1: build type (e.g. gcc-android-arm)
 get_build_compiler () {
   local arch=$(get_build_arch $1)
   local target=$(get_build_arch_target $arch)
   local gcc_dir=$(get_prebuilt_gcc_dir_for_arch $arch);
   local result

   # Get the toolchain binary.
   case $1 in
     gcc-android-*)
       result="$gcc_dir/bin/$target-gcc"
       ;;
     clang-android-*)
       result="$(get_prebuilt_clang) -target $target -B$gcc_dir/$target/bin -I$gcc_dir/lib/gcc/$target/$GCC_VERSION/include"
       ;;
     gcc-*)
       result=gcc
       ;;
     clang-*) # Must have host clang compiler.
       result=clang
       ;;
   esac

   compiler_check=$(which $result 2>/dev/null || echo "")
   if [ -z "$compiler_check" ]; then
     panic "Could not find compiler: $result"
   fi

   # Get the Android sysroot if needed.
   case $1 in
     *-android-*)
       result="$result --sysroot=$(get_prebuilt_ndk_sysroot_for_arch $arch)"
       ;;
   esac

   # Force -m32 flag when needed for 32-bit builds.
   case $1 in
     *-linux-x86|*-darwin-x86|*-generic32)
       result="$result -m32"
       ;;
   esac
   echo "$result"
 }

 # $1: build type.
 # Out: common compiler flags for this build.
 get_build_c_flags () {
   local result="-O2 -fPIC"
   case $1 in
     *-android-arm)
       result="$result -march=armv7-a -mfpu=vfpv3-d16"
       ;;
   esac

   case $1 in
     *-generic32|*-generic64)
       # Generic builds do not compile without this flag.
       result="$result -DOPENSSL_NO_ASM"
       ;;
   esac
   echo "$result"
 }

 # $1: build type.
 # Out: linker for this build.
 get_build_linker () {
   get_build_compiler $1
 }

 clear_sources () {
   g_all_objs=""
 }

 # Generate build instructions to compile source files.
 # Also update g_all_objs.
 # $1: module prefix (e.g. CRYPTO)
 # $2: build type
 build_sources () {
   local prefix=$1
   local build_type=$2
   echo "## build_sources prefix='$prefix' build_type='$build_type'"
   local arch=$(get_build_arch $build_type)
   local src_files=$(get_module_src_files_for_arch $prefix $arch)
   local c_defines=$(get_module_defines_for_arch $prefix $arch)
   local c_includes=$(get_module_c_includes $prefix "$SRC_DIR")
   local build_cc=$(get_build_compiler $build_type)
   local build_cflags=$(get_build_c_flags $build_type)
   local build_linker=$(get_build_linker $build_type)
   local src obj def inc

   printf "OUT_DIR := $OUT_DIR/$build_type\n\n"
   printf "BUILD_CC := $build_cc\n\n"
   printf "BUILD_LINKER := $build_linker\n\n"
   printf "BUILD_CFLAGS := $build_cflags"
   for inc in $c_includes; do
     printf " -I\$(SRC_DIR)/$inc"
   done
   for def in $c_defines; do
     printf " -D$def"
   done
   printf "\n\n"
   printf "BUILD_OBJECTS :=\n\n"

   case $build_type in
     clang-android-*)
       # The version of clang that comes with the platform build doesn't
       # support simple linking of shared libraries and executables. One
       # has to provide the C runtime files explicitely.
       local crtbegin_so=$(get_c_runtime_file $build_type crtbegin_so.o)
       local crtend_so=$(get_c_runtime_file $build_type crtend_so.o)
       local crtbegin_exe=$(get_c_runtime_file $build_type crtbegin_dynamic.o)
       local crtend_exe=$(get_c_runtime_file $build_type crtend_android.o)
       printf "CRTBEGIN_SO := $crtbegin_so\n"
       printf "CRTEND_SO := $crtend_so\n"
       printf "CRTBEGIN_EXE := $crtbegin_exe\n"
       printf "CRTEND_EXE := $crtend_exe\n"
       printf "\n"
       ;;
   esac

   for src in $src_files; do
     obj=$(src_to_obj $src)
     g_all_objs="$g_all_objs $obj"
     printf "OBJ := \$(OUT_DIR)/$obj\n"
     printf "BUILD_OBJECTS += \$(OBJ)\n"
     printf "\$(OBJ): PRIVATE_CC := \$(BUILD_CC)\n"
     printf "\$(OBJ): PRIVATE_CFLAGS := \$(BUILD_CFLAGS)\n"
     printf "\$(OBJ): \$(SRC_DIR)/$src\n"
     printf "\t@echo [$build_type] CC $src\n"
     printf "\t@mkdir -p \$\$(dirname \$@)\n"
     printf "\t\$(hide) \$(PRIVATE_CC) \$(PRIVATE_CFLAGS) -c -o \$@ \$<\n"
     printf "\n"
   done
   printf "\n"
 }

 # $1: library name (e.g. crypto).
 # $2: module prefix (e.g. CRYPTO).
 # $3: build type.
 # $4: source directory.
 # $5: output directory.
 build_shared_library () {
   local name=$1
   local prefix=$2
   local build_type=$3
   local src_dir="$4"
   local out_dir="$5"
   local shlib="lib${name}.so"
   local build_linker=$(get_build_linker $build_type)
   clear_sources
   build_sources $prefix $build_type

   # TODO(digit): Make the clang build link properly.
   printf "SHLIB=\$(OUT_DIR)/$shlib\n"
   printf "\$(SHLIB): PRIVATE_LINKER := \$(BUILD_LINKER)\n"
   case $build_type in
     clang-android-*)
       printf "\$(SHLIB): PRIVATE_CRTBEGIN := \$(CRTBEGIN_SO)\n"
       printf "\$(SHLIB): PRIVATE_CRTEND := \$(CRTEND_SO)\n"
       ;;
   esac
   printf "\$(SHLIB): \$(BUILD_OBJECTS)\n"
   printf "\t@echo [$build_type] SHARED_LIBRARY $(basename $shlib)\n"
   printf "\t@mkdir -p \$\$(dirname \$@)\n"
   case $build_type in
     clang-android-*)
       printf "\t\$(hide) \$(PRIVATE_LINKER) -nostdlib -shared -o \$@ \$(PRIVATE_CRTBEGIN) \$^ \$(PRIVATE_CRTEND)\n"
       ;;
     *)
       printf "\t\$(hide) \$(PRIVATE_LINKER) -shared -o \$@ \$^\n"
       ;;
   esac
   printf "\n"
 }

 # $1: executable name.
 # $2: module prefix (e.g. APPS).
 # $3: build type.
 # $4: source directory.
 # $5: output directory.
 # $6: dependent shared libraries (e.g. 'crypto ssl')
 build_executable () {
   local name=$1
   local prefix=$2
   local build_type=$3
   local src_dir="$4"
   local out_dir="$5"
   local shlibs="$6"
   local build_linker=$(get_build_linker $build_type)
   clear_sources
   build_sources $prefix $build_type

   # TODO(digit): Make the clang build link properly.
   exec=$name
   all_shlibs=
   printf "EXEC := \$(OUT_DIR)/$name\n"
   printf "openssl_all: \$(EXEC)\n"
   printf "\$(EXEC): PRIVATE_LINKER := \$(BUILD_LINKER)\n"
   printf "\$(EXEC): \$(BUILD_OBJECTS)"
   for lib in $shlibs; do
     printf " \$(OUT_DIR)/lib${lib}.so"
   done
   printf "\n"
   printf "\t@echo [$build_type] EXECUTABLE $name\n"
   printf "\t@mkdir -p \$\$(dirname \$@)\n"
   printf "\t\$(hide) \$(PRIVATE_LINKER) -o \$@ \$^\n"
   printf "\n"
 }

 ALL_BUILDS=

 generate_openssl_build () {
   local build_type=$1
   local out="$OUT_DIR/$build_type"
   ALL_BUILDS="$ALL_BUILDS $build_type"
   echo "# Build type: $build_type"
   build_shared_library crypto CRYPTO $build_type "$SRC_DIR" "$out"
   build_shared_library ssl SSL $build_type "$SRC_DIR" "$out"
   build_executable openssl APPS $build_type "$SRC_DIR" "$out" "crypto ssl"
 }

 generate_makefile () {
   echo \
 "# Auto-generated by $PROGDIR - do not edit

 .PHONY: openssl_all

 all: openssl_all

 # Use 'make V=1' to print build commands.
 ifeq (1,\$(V))
 hide :=
 else
 hide := @
 endif

 SRC_DIR=$SRC_DIR
 OUT_DIR=$OUT_DIR
 "

   for BUILD_TYPE in $BUILD_TYPES; do
     generate_openssl_build gcc-$BUILD_TYPE
   done

 # TODO(digit): Make the Clang build run.
 #   for BUILD_TYPE in $ANDROID_BUILD_TYPES; do
 #     generate_openssl_build clang-$BUILD_TYPE
 #   done
 }

 . $SRC_DIR/openssl.config


 dump "Generating Makefile"
 log "Makefile path: $MAKEFILE"
 generate_makefile > $MAKEFILE

 dump "Building libraries with $NUM_JOBS jobs"
 dump "For the following builds:"
 for BUILD in $ALL_BUILDS; do
   dump "  $BUILD"
 done
 MAKE_FLAGS="-j$NUM_JOBS"
 if [ "$VERBOSE" -gt 2 ]; then
   MAKE_FLAGS="$MAKE_FLAGS V=1"
 fi
 run make $MAKE_FLAGS -f "$MAKEFILE" -C "$BUILD_DIR"
 case $? in
   0)
     dump "All OK, congratulations!"
     ;;
   *)
     dump "Error, try doing the following to inspect the issues:"
     dump "   $PROGNAME --build-dir=/tmp/mybuild"
     dump "   make -C /tmp/mybuild V=1"
     dump ""
     ;;
 esac
	#!/bin/sh
	#

	set -e
	export LANG=C
	export LC_ALL=C

	PROGDIR=$(dirname "$0")
	PROGNAME=$(basename "$0")

	panic () {
	echo "ERROR: $@"
	exit 1
	}

	VERBOSE=1

	# Dump message is $VERBOSE >= $1
	# $1+: message.
	dump_n () {
	local LOG_LEVEL=$1
	shift
	if [ "$VERBOSE" -ge "$LOG_LEVEL" ]; then
	printf "%s\n" "$@"
	fi
	}

	# Dump a message unless --quiet is used.
	# $1+: message.
	dump () {
	dump_n 1 "$@"
	}

	# Dump a message if --verbose is used only.
	# $1+: message.
	log () {
	dump_n 2 "$@"
	}

	# Run a command silently, unless --verbose or '--verbose --verbose'
	# is used.
	# $1+: Command
	# Return: command status.
	run () {
	log "COMMAND: $*"
	case $VERBOSE in
	0)
	"$@" >/dev/null 2>&1 \|\| return $?
	;;
	1)
	"$@" >/dev/null \|\| return $?
	;;
	*)
	"$@" \|\| return $?
	;;
	esac
	}

	# $1: string
	# Out: input string, with capital letters replaced by small ones.
	tolower () {
	echo "$1" \| tr '[A-Z]' '[a-z]'
	}

	# Return value of a given variable.
	# $1: Variable name
	var_value () {
	eval printf \"%s\" \"\$$1\"
	}

	# Remove some items from a list
	# $1: input space-separated list
	# $2: space-separated list of items to remove from 1
	# Out: items of $1 without items of $2
	filter_out () {
	local TMP=$(mktemp)
	local RESULT
	printf "" > $TMP
	echo "$2" \| tr ' ' '\n' > $TMP
	RESULT=$(echo "$1" \| tr ' ' '\n' \| fgrep -x -v -f $TMP \| tr '\n' ' ')
	rm -f $TMP
	echo "$RESULT"
	}

	src_to_obj () {
	case $1 in
	*.c)
	echo ${1%%.c}.o
	;;
	*.S)
	echo ${1%%.S}.o
	;;
	*)
	echo $1
	;;
	esac
	}

	# Determine host operating system.
	HOST_OS=$(uname -s)
	case $HOST_OS in
	Linux)
	HOST_OS=linux
	;;
	Darwin)
	HOST_OS=darwin
	;;
	esac

	# Determine host architecture
	HOST_ARCH=$(uname -m)
	case $HOST_ARCH in
	i?86)
	HOST_ARCH=x86
	;;
	esac

	ANDROID_HOST_TAG=$HOST_OS-$HOST_ARCH

	case $ANDROID_HOST_TAG in
	linux-x86_64\|darwin-x86-64)
	ANDROID_HOST_TAG=$HOST_OS-x86
	;;
	*)
	panic "Sorry, this script can only run on 64-bit Linux or Darwin"
	esac

	# Determine number of cores
	case $HOST_OS in
	linux)
	NUM_CORES=$(grep -c "processor" /proc/cpuinfo)
	;;
	darwin)
	NUM_CORES=$(sysctl -n hw.ncpu)
	;;
	*)
	NUM_CORES=1
	;;
	esac

	# The list of supported Android target architectures.
	ANDROID_ARCHS="arm x86 mips"

	BUILD_TYPES=
	for ARCH in $ANDROID_ARCHS; do
	BUILD_TYPES="$BUILD_TYPES android-$ARCH"
	done
	ANDROID_BUILD_TYPES=$BUILD_TYPES

	# NOTE: The $HOST_OS-x86_64 is currently broken because the single
	# <openssl/opensslconf.h> header is tailored for 32-bits.
	HOST_BUILD_TYPES="$HOST_OS-x86 $HOST_OS-generic32 $HOST_OS-generic64"

	BUILD_TYPES="$ANDROID_BUILD_TYPES $HOST_BUILD_TYPES"

	# Parse command-line
	DO_HELP=
	SRC_DIR=$(cd $PROGDIR && pwd)
	OUT_DIR=out
	BUILD_DIR=
	BUILD_TYPES=
	NUM_JOBS=$NUM_CORES
	ANDROID_BUILD_TOP=$(cd $PROGDIR/../.. && pwd)
	for OPT; do
	case $OPT in
	--help\|-h\|-?)
	DO_HELP=true
	;;
	--build-dir=*)
	BUILD_DIR=${OPT##--build-dir=}
	;;
	--verbose)
	VERBOSE=$(( $VERBOSE + 1 ))
	;;
	--jobs=*)
	NUM_JOBS=${OPT##--jobs=}
	;;
	--quiet)
	VERBOSE=$(( $VERBOSE - 1 ))
	;;
	-j*)
	NUM_JOBS=${OPT##-j}
	;;
	-*)
	panic "Unknown option '$OPT', see --help for details."
	;;
	*)
	BUILD_TYPES="$BUILD_TYPES $OPT"
	;;
	esac
	done

	# Print help when needed.
	if [ "$DO_HELP" ]; then
	echo \
	"Usage: $PROGNAME [options] [<build-type> ...]

	This script is used to ensure that all OpenSSL build variants compile
	properly. It can be used after modifying external/openssl/openssl.config
	and re-running import_openssl.sh to check that any changes didn't break
	the build.

	A <build-type> is a description of a given build of the library and its
	program. Its format is:

	<compiler>-<system>-<arch>

	Where: <compiler> is either 'gcc' or 'clang'.
	<system> is 'android', 'linux' or 'darwin'.
	<arch> is 'arm', 'x86' or 'mips'.

	By default, it rebuilds the sources for the following build types:
	"
	for BUILD_TYPE in $BUILD_TYPES; do
	echo " $BUILD_TYPE"
	done

	echo \
	"However, you can pass custom values on the command-line instead.

	This scripts generates a custom Makefile in a temporary directory, then
	launches 'make' in it to build all binaries in parallel. In case of
	problem, you can use the --build-dir=<path> option to specify a custom
	build-directory, which will _not_ be removed when the script exits.

	For example, to better see why a build fails:

	./$PROGNAME --build-dir=/tmp/mydir
	make -C /tmp/mydir V=1

	Valid options:

	--help\|-h\|-? Print this message.
	--build-dir=<path> Specify build directory.
	--jobs=<count> Run <count> parallel build jobs [$NUM_JOBS].
	-j<count> Same as --jobs=<count>.
	--verbose Increase verbosity.
	--quiet Decrease verbosity.
	"
	exit 0
	fi

	log "Host OS: $HOST_OS"
	log "Host arch: $HOST_ARCH"
	log "Host CPU count: $NUM_CORES"

	if [ -z "$BUILD_TYPES" ]; then
	BUILD_TYPES="$ANDROID_BUILD_TYPES $HOST_BUILD_TYPES"
	fi
	log "Build types: $BUILD_TYPES"

	if [ -z "$BUILD_DIR" ]; then
	# Create a temporary directory, ensure it gets destroyed properly
	# when the script exits.
	BUILD_DIR=$(mktemp -d)
	clean_build_dir () {
	log "Cleaning up temporary directory: $BUILD_DIR"
	rm -rf "$BUILD_DIR"
	exit $1
	}
	trap "clean_build_dir 0" EXIT
	trap "clean_build_dir \$?" INT HUP QUIT TERM
	log "Using temporary build directory: $BUILD_DIR"
	else
	log "Using user build directory: $BUILD_DIR"
	fi

	mkdir -p "$BUILD_DIR" && rm -rf "$BUILD_DIR"/*

	MAKEFILE=$BUILD_DIR/GNUmakefile

	# Return source files for a given module and architecture.
	# $1: module prefix (e.g. CRYPTO)
	# $2: build arch.
	get_module_src_files_for_arch () {
	local prefix=$1
	local arch=$2
	local src_files="$(var_value OPENSSL_${prefix}_SOURCES)"
	src_files="$src_files $(var_value OPENSSL_${prefix}_SOURCES_${arch})"
	local exclude_files="$(var_value OPENSSL_${prefix}_SOURCES_EXCLUDES_${arch})"
	src_files=$(filter_out "$src_files" "$exclude_files")
	echo "$src_files"
	}

	# Return the compiler defines for a given module and architecture
	# $1: module prefix (e.g. CRYPTO)
	# $2 build arch.
	get_module_defines_for_arch () {
	local prefix=$1
	local arch=$2
	local defines="$(var_value OPENSSL_${prefix}_DEFINES)"
	defines="$defines $(var_value OPENSSL_${prefix}_DEFINES_${arch})"
	echo "$defines"
	}

	# $1: module prefix (e.g. CRYPTO)
	get_module_c_includes () {
	var_value OPENSSL_$1_INCLUDES
	}

	# $1: build type (e.g. gcc-android-arm)
	# Out: build arch.
	get_build_arch () {
	echo "$1" \| cut -d- -f3
	}

	# $1: build arch
	# Out: GNU configuration target (e.g. arm-linux-androideabi)
	get_build_arch_target () {
	case $1 in
	arm)
	echo "arm-linux-androideabi"
	;;
	x86)
	echo "i686-linux-android"
	;;
	mips)
	echo "mipsel-linux-android"
	;;
	*)
	echo "$1-linux-android"
	;;
	esac
	}

	GCC_VERSION=4.7
	CLANG_VERSION=3.1

	get_prebuilt_gcc_dir_for_arch () {
	local arch=$1
	local target=$(get_build_arch_target $arch)
	echo "$ANDROID_BUILD_TOP/prebuilts/gcc/$ANDROID_HOST_TAG/$arch/$target-$GCC_VERSION"
	}

	get_prebuilt_clang () {
	echo "$ANDROID_BUILD_TOP/prebuilts/clang/$ANDROID_HOST_TAG/$CLANG_VERSION/clang"
	}

	get_prebuilt_ndk_sysroot_for_arch () {
	echo "$ANDROID_BUILD_TOP/prebuilts/ndk/current/platforms/android-9/arch-$1"
	}

	get_c_runtime_file () {
	local build_type=$1
	local arch=$(get_build_arch $build_type)
	local filename=$2
	echo "$(get_prebuilt_ndk_sysroot_for_arch $arch)/usr/lib/$filename"
	}

	# $1: build type (e.g. gcc-android-arm)
	get_build_compiler () {
	local arch=$(get_build_arch $1)
	local target=$(get_build_arch_target $arch)
	local gcc_dir=$(get_prebuilt_gcc_dir_for_arch $arch);
	local result

	# Get the toolchain binary.
	case $1 in
	gcc-android-*)
	result="$gcc_dir/bin/$target-gcc"
	;;
	clang-android-*)
	result="$(get_prebuilt_clang) -target $target -B$gcc_dir/$target/bin -I$gcc_dir/lib/gcc/$target/$GCC_VERSION/include"
	;;
	gcc-*)
	result=gcc
	;;
	clang-*) # Must have host clang compiler.
	result=clang
	;;
	esac

	compiler_check=$(which $result 2>/dev/null \|\| echo "")
	if [ -z "$compiler_check" ]; then
	panic "Could not find compiler: $result"
	fi

	# Get the Android sysroot if needed.
	case $1 in
	-android-)
	result="$result --sysroot=$(get_prebuilt_ndk_sysroot_for_arch $arch)"
	;;
	esac

	# Force -m32 flag when needed for 32-bit builds.
	case $1 in
	-linux-x86\|-darwin-x86\|*-generic32)
	result="$result -m32"
	;;
	esac
	echo "$result"
	}

	# $1: build type.
	# Out: common compiler flags for this build.
	get_build_c_flags () {
	local result="-O2 -fPIC"
	case $1 in
	*-android-arm)
	result="$result -march=armv7-a -mfpu=vfpv3-d16"
	;;
	esac

	case $1 in
	-generic32\|-generic64)
	# Generic builds do not compile without this flag.
	result="$result -DOPENSSL_NO_ASM"
	;;
	esac
	echo "$result"
	}

	# $1: build type.
	# Out: linker for this build.
	get_build_linker () {
	get_build_compiler $1
	}

	clear_sources () {
	g_all_objs=""
	}

	# Generate build instructions to compile source files.
	# Also update g_all_objs.
	# $1: module prefix (e.g. CRYPTO)
	# $2: build type
	build_sources () {
	local prefix=$1
	local build_type=$2
	echo "## build_sources prefix='$prefix' build_type='$build_type'"
	local arch=$(get_build_arch $build_type)
	local src_files=$(get_module_src_files_for_arch $prefix $arch)
	local c_defines=$(get_module_defines_for_arch $prefix $arch)
	local c_includes=$(get_module_c_includes $prefix "$SRC_DIR")
	local build_cc=$(get_build_compiler $build_type)
	local build_cflags=$(get_build_c_flags $build_type)
	local build_linker=$(get_build_linker $build_type)
	local src obj def inc

	printf "OUT_DIR := $OUT_DIR/$build_type\n\n"
	printf "BUILD_CC := $build_cc\n\n"
	printf "BUILD_LINKER := $build_linker\n\n"
	printf "BUILD_CFLAGS := $build_cflags"
	for inc in $c_includes; do
	printf " -I\$(SRC_DIR)/$inc"
	done
	for def in $c_defines; do
	printf " -D$def"
	done
	printf "\n\n"
	printf "BUILD_OBJECTS :=\n\n"

	case $build_type in
	clang-android-*)
	# The version of clang that comes with the platform build doesn't
	# support simple linking of shared libraries and executables. One
	# has to provide the C runtime files explicitely.
	local crtbegin_so=$(get_c_runtime_file $build_type crtbegin_so.o)
	local crtend_so=$(get_c_runtime_file $build_type crtend_so.o)
	local crtbegin_exe=$(get_c_runtime_file $build_type crtbegin_dynamic.o)
	local crtend_exe=$(get_c_runtime_file $build_type crtend_android.o)
	printf "CRTBEGIN_SO := $crtbegin_so\n"
	printf "CRTEND_SO := $crtend_so\n"
	printf "CRTBEGIN_EXE := $crtbegin_exe\n"
	printf "CRTEND_EXE := $crtend_exe\n"
	printf "\n"
	;;
	esac

	for src in $src_files; do
	obj=$(src_to_obj $src)
	g_all_objs="$g_all_objs $obj"
	printf "OBJ := \$(OUT_DIR)/$obj\n"
	printf "BUILD_OBJECTS += \$(OBJ)\n"
	printf "\$(OBJ): PRIVATE_CC := \$(BUILD_CC)\n"
	printf "\$(OBJ): PRIVATE_CFLAGS := \$(BUILD_CFLAGS)\n"
	printf "\$(OBJ): \$(SRC_DIR)/$src\n"
	printf "\t@echo [$build_type] CC $src\n"
	printf "\t@mkdir -p \$\$(dirname \$@)\n"
	printf "\t\$(hide) \$(PRIVATE_CC) \$(PRIVATE_CFLAGS) -c -o \$@ \$<\n"
	printf "\n"
	done
	printf "\n"
	}

	# $1: library name (e.g. crypto).
	# $2: module prefix (e.g. CRYPTO).
	# $3: build type.
	# $4: source directory.
	# $5: output directory.
	build_shared_library () {
	local name=$1
	local prefix=$2
	local build_type=$3
	local src_dir="$4"
	local out_dir="$5"
	local shlib="lib${name}.so"
	local build_linker=$(get_build_linker $build_type)
	clear_sources
	build_sources $prefix $build_type

	# TODO(digit): Make the clang build link properly.
	printf "SHLIB=\$(OUT_DIR)/$shlib\n"
	printf "\$(SHLIB): PRIVATE_LINKER := \$(BUILD_LINKER)\n"
	case $build_type in
	clang-android-*)
	printf "\$(SHLIB): PRIVATE_CRTBEGIN := \$(CRTBEGIN_SO)\n"
	printf "\$(SHLIB): PRIVATE_CRTEND := \$(CRTEND_SO)\n"
	;;
	esac
	printf "\$(SHLIB): \$(BUILD_OBJECTS)\n"
	printf "\t@echo [$build_type] SHARED_LIBRARY $(basename $shlib)\n"
	printf "\t@mkdir -p \$\$(dirname \$@)\n"
	case $build_type in
	clang-android-*)
	printf "\t\$(hide) \$(PRIVATE_LINKER) -nostdlib -shared -o \$@ \$(PRIVATE_CRTBEGIN) \$^ \$(PRIVATE_CRTEND)\n"
	;;
	*)
	printf "\t\$(hide) \$(PRIVATE_LINKER) -shared -o \$@ \$^\n"
	;;
	esac
	printf "\n"
	}

	# $1: executable name.
	# $2: module prefix (e.g. APPS).
	# $3: build type.
	# $4: source directory.
	# $5: output directory.
	# $6: dependent shared libraries (e.g. 'crypto ssl')
	build_executable () {
	local name=$1
	local prefix=$2
	local build_type=$3
	local src_dir="$4"
	local out_dir="$5"
	local shlibs="$6"
	local build_linker=$(get_build_linker $build_type)
	clear_sources
	build_sources $prefix $build_type

	# TODO(digit): Make the clang build link properly.
	exec=$name
	all_shlibs=
	printf "EXEC := \$(OUT_DIR)/$name\n"
	printf "openssl_all: \$(EXEC)\n"
	printf "\$(EXEC): PRIVATE_LINKER := \$(BUILD_LINKER)\n"
	printf "\$(EXEC): \$(BUILD_OBJECTS)"
	for lib in $shlibs; do
	printf " \$(OUT_DIR)/lib${lib}.so"
	done
	printf "\n"
	printf "\t@echo [$build_type] EXECUTABLE $name\n"
	printf "\t@mkdir -p \$\$(dirname \$@)\n"
	printf "\t\$(hide) \$(PRIVATE_LINKER) -o \$@ \$^\n"
	printf "\n"
	}

	ALL_BUILDS=

	generate_openssl_build () {
	local build_type=$1
	local out="$OUT_DIR/$build_type"
	ALL_BUILDS="$ALL_BUILDS $build_type"
	echo "# Build type: $build_type"
	build_shared_library crypto CRYPTO $build_type "$SRC_DIR" "$out"
	build_shared_library ssl SSL $build_type "$SRC_DIR" "$out"
	build_executable openssl APPS $build_type "$SRC_DIR" "$out" "crypto ssl"
	}

	generate_makefile () {
	echo \
	"# Auto-generated by $PROGDIR - do not edit

	.PHONY: openssl_all

	all: openssl_all

	# Use 'make V=1' to print build commands.
	ifeq (1,\$(V))
	hide :=
	else
	hide := @
	endif

	SRC_DIR=$SRC_DIR
	OUT_DIR=$OUT_DIR
	"

	for BUILD_TYPE in $BUILD_TYPES; do
	generate_openssl_build gcc-$BUILD_TYPE
	done

	# TODO(digit): Make the Clang build run.
	# for BUILD_TYPE in $ANDROID_BUILD_TYPES; do
	# generate_openssl_build clang-$BUILD_TYPE
	# done
	}

	. $SRC_DIR/openssl.config



	dump "Generating Makefile"
	log "Makefile path: $MAKEFILE"
	generate_makefile > $MAKEFILE

	dump "Building libraries with $NUM_JOBS jobs"
	dump "For the following builds:"
	for BUILD in $ALL_BUILDS; do
	dump " $BUILD"
	done
	MAKE_FLAGS="-j$NUM_JOBS"
	if [ "$VERBOSE" -gt 2 ]; then
	MAKE_FLAGS="$MAKE_FLAGS V=1"
	fi
	run make $MAKE_FLAGS -f "$MAKEFILE" -C "$BUILD_DIR"
	case $? in
	0)
	dump "All OK, congratulations!"
	;;
	*)
	dump "Error, try doing the following to inspect the issues:"
	dump " $PROGNAME --build-dir=/tmp/mybuild"
	dump " make -C /tmp/mybuild V=1"
	dump ""
	;;
	esac