#!/bin/sh # # Run with BITS=32 to generate 32-bit libs on a 64-bit platform # On Ubuntu you will need sudo apt-get install gcc-multilib libc6-i386 libc6-dev-i386 # # ON Solaris 11 (at least) this variable must be set. # Linux and *BSD will do the right thing. # # # look in configure file in gmp source for supported host CPUs, at about line 5000 # # Note: You will have to add the CPU ID for the platform in the CPU ID code # for a new CPU. Just adding them here won't let I2P use the code! # # If you know of other platforms i2p on linux works on, # please add them here. # Do NOT add any X86 platforms, do that below in the x86 platform list. # MISC_LINUX_PLATFORMS="hppa2.0 alphaev56 mips64el itanium itanium2 ultrasparc2 ultrasparc2i alphaev6 powerpc970 powerpc7455 powerpc7447" # # If you know of other platforms i2p on *BSD works on, # please add them here. # Do NOT add any X86 platforms, do that below in the x86 platform list. # MISC_FREEBSD_PLATFORMS="alphaev56 ultrasparc2i" MISC_NETBSD_PLATFORMS="armv5tel mips64el ultrasparc2i sgi hppa2.0 alphaev56 powerpc powerpc64 powerpc64le powerpcle atari amiga m68knommu" # and many, many more MISC_OPENBSD_PLATFORMS="alphaev56 ultrasparc2i sgi powerpc powerpc64 hppa2.0 alphaev56 armv5tel mips64el" # # ARM # # These platforms exist as of GMP 6.0.0. # Some of them will be renamed in the next version of GMP. ARM_PLATFORMS="armv5 armv6 armv7a armcortex8 armcortex9 armcortex15" # Rename output of armv7a to armv7 since that's what NBI expects. # This is due to versions after GMP 6.0.0 changing the target name. TRANSLATE_NAME_armv7a="armv7" # # X86_64 # # Are there any other X86 platforms that work on i2p? Add them here. # # Note! these build on 32bit as 32bit when operating as 32bit... # starting with k10 added for 6.0.0 # As of GMP 6.0.0, libgmp 3, X86_64_PLATFORMS="coreisbr coreihwl coreibwl bobcat jaguar bulldozer piledriver steamroller excavator atom athlon64 core2 corei nano pentium4 k10 x86_64" TRANSLATE_NAME_x86_64="none" # Rename x86_64 to none_64, since that is what NativeBigInteger refers to it as # Note! these are 32bit _ONLY_ (after the 64 bit ones) # Also note that the 64-bit entry "x86_64" is filtered out since it already has the more appropriate "i386" entry X86_PLATFORMS="$(echo $X86_64_PLATFORMS | sed 's/x86_64//g') pentium pentiummmx pentium2 pentium3 pentiumm k6 k62 k63 athlon geode viac3 viac32 i386" TRANSLATE_NAME_i386="none" # Rename i386 to none, , since that is what NativeBigInteger refers to it as DARWIN_PLATFORMS="core2 corei coreisbr coreihwl coreibwl" MINGW_PLATFORMS="${X86_PLATFORMS} ${MISC_MINGW_PLATFORMS}" LINUX_PLATFORMS="${X86_PLATFORMS} ${MISC_LINUX_PLATFORMS}" FREEBSD_PLATFORMS="${X86_PLATFORMS} ${MISC_FREEBSD_PLATFORMS}" # As they say, "Of course it runs NetBSD!" NETBSD_PLATFORMS="${FREEBSD_PLATFORMS} ${MISC_LINUX_PLATFORMS} ${MISC_NETBSD_PLATFORMS}" OPENBSD_PLATFORM="${X86_PLATFORMS} ${MISC_OPENBSD_PLATFORMS}" # Import gmp version variables and download gmp. . ./download_gmp.sh # If JAVA_HOME isn't set we'll try to figure it out [ -z $JAVA_HOME ] && . ../find-java-home if [ ! -f "$JAVA_HOME/include/jni.h" ]; then echo "Cannot find jni.h! Looked in '$JAVA_HOME/include/jni.h'" >&2 echo "Please set JAVA_HOME to a java home that has the JNI" >&2 exit 1 fi if ! command -v m4 > /dev/null; then printf "\aWARNING: \`m4\` not found. Install m4 " >&2 printf "and re-run this script.\n\n\n\a" >&2 exit 1 fi if [ -z $BITS ]; then UNAME="$(uname -m)" if test "${UNAME#*x86_64}" != "$UNAME"; then BITS=64 elif test "${UNAME#*i386}" != "$UNAME"; then BITS=32 elif test "${UNAME#*i686}" != "$UNAME"; then BITS=32 elif test "${UNAME#*armv6}" != "$UNAME"; then BITS=32 elif test "${UNAME#*armv7}" != "$UNAME"; then BITS=32 elif test "${UNAME#*aarch32}" != "$UNAME"; then BITS=32 elif test "${UNAME#*aarch64}" != "$UNAME"; then BITS=64 else echo "Unable to detect default setting for BITS variable" exit 1 fi printf "\aBITS variable not set, $BITS bit system detected\n\a" >&2 fi if [ -z $CC ]; then export CC="gcc" printf "\aCC variable not set, defaulting to $CC\n\a" >&2 fi # FIXME -m32 and -m64 are only for x86 if [ $BITS -eq 32 ]; then export ABI=32 export CFLAGS="-m32" export LDFLAGS="-m32" elif [ $BITS -eq 64 ]; then export ABI=64 export CFLAGS="-m64" export LDFLAGS="-m64" else printf "\aBITS value \"$BITS\" not valid, please select 32 or 64\n\a" >&2 exit 1 fi if ! command -v ${CC} > /dev/null; then echo "The compiler you've selected \"$CC\" does not appear to exist" exit 1 fi # Set the "_64" filname filename suffix for 64-bit builds if [ $BITS -ne 32 ]; then [ -z $SUFFIX ] && SUFFIX="_64" fi # Allow TARGET to be overridden (e.g. for use with cross compilers) [ -z $TARGET ] && TARGET=$(uname -s |tr "[A-Z]" "[a-z]") # Note, this line does not support windows (and needs to generate a win32/win64 string for that to work) BUILD_OS=$(uname -s | tr "[A-Z]" "[a-z]") # Do some sanity checks for when we're cross-compiling and # set up host string, ARCH_VENDOR_OS. The "\$2" will be replaced # with the name of the arch at configuration time if [ "$TARGET" != "$BUILD_OS" ]; then case "$TARGET" in windows*) HOST_CONFIGURE_FLAG="\$2-w64-mingw32" case "$CC" in *i*86*mingw32*gcc) [ $BITS -ne 32 ] && echo "Error, 32-bit cross-compiler used with non 32-bit architecture" && exit 1 ;; *x86_64*mingw32*gcc) [ $BITS -ne 64 ] && echo "Error, 64-bit cross-compiler used with non 64-bit architecture" && exit 1 ;; *) echo "No recognized cross-compiler provided in CC env variable." [ $BITS -eq 32 ] && echo "For 32-bit targets, i686-w64-mingw32-gcc is recommended" [ $BITS -eq 64 ] && echo "For 64-bit targets, x86_64-w64-mingw32-gcc is recommended" exit 1; ;; esac ;; freebsd*) HOST_CONFIGURE_FLAG="\$2-pc-freebsd" ;; darwin*|osx) HOST_CONFIGURE_FLAG="\$2-darwin" # case "$CC" in # *i*86*darwin*) # [ $BITS -ne 32 ] && echo "Error, 32-bit cross-compiler used with non 32-bit architecture" && exit 1 ;; # *x86_64*darwin*) # HOST_CONFIGURE_FLAG="\$2-apple-darwin" # [ $BITS -ne 64 ] && echo "Error, 64-bit cross-compiler used with non 64-bit architecture" && exit 1 # ;; # *) # echo "No recognized cross-compiler provided in CC env variable." # [ $BITS -eq 32 ] && echo "For 32-bit targets, i686-apple-darwin10-gcc recommended" # [ $BITS -eq 64 ] && echo "For 64-bit targets, x86_64-apple-darwin10-gcc recommended" # exit 1; # ;; # esac # ;; esac fi case "$TARGET" in mingw*|windows*) NAME="jbigi" TYPE="dll" TARGET="windows" if [ $BITS -ne 32 ]; then PLATFORM_LIST="${X86_64_PLATFORMS}" else PLATFORM_LIST="${X86_PLATFORMS}" fi echo "Building ${TARGET} .dlls for all architectures";; darwin*|osx) NAME="libjbigi" TYPE="jnilib" TARGET="osx" PLATFORM_LIST="${DARWIN_PLATFORMS}" echo "Building ${TARGET} .jnilibs for all architectures";; sunos*) NAME="libjbigi" TYPE="so" BUILD_OS="solaris" TARGET="${BUILD_OS}" if [ $BITS -eq 32 ]; then PLATFORM_LIST="${X86_PLATFORMS}" else PLATFORM_LIST="${X86_PLATFORMS}" fi echo "Building ${TARGET} .sos for all architectures";; linux*|*kfreebsd) NAME="libjbigi" TYPE="so" PLATFORM_LIST="" case "$TARGET" in *kfreebsd) TARGET="kfreebsd" ;; *) TARGET="linux" ;; esac ARCH=$(uname -m | cut -f1 -d" ") case ${ARCH} in x86_64 | amd64 | i*86) if [ $BITS -eq 32 ]; then PLATFORM_LIST="${X86_PLATFORMS}" ARCH="x86" else PLATFORM_LIST="${X86_64_PLATFORMS}" ARCH="x86_64" fi;; arm*) PLATFORM_LIST="${ARM_PLATFORMS}";; *) PLATFORM_LIST="${LINUX_PLATFORMS}";; esac echo "Building ${TARGET} .sos for ${ARCH}";; netbsd*|freebsd*|openbsd*) NAME="libjbigi" TYPE="so" PLATFORM_LIST= ARCH=$(uname -m | cut -f1 -d" ") case ${ARCH} in x86_64 | amd64 | i*86) if [ $BITS -eq 32 ]; then PLATFORM_LIST="${X86_PLATFORMS}" ARCH="x86" else PLATFORM_LIST="${X86_64_PLATFORMS}" ARCH="x86_64" fi;; *) case ${TARGET} in netbsd) PLATFORM_LIST="${NETBSD_PLATFORMS}";; openbsd) PLATFORM_LIST="${OPENBSD_PLATFORMS}";; freebsd) PLATFORM_LIST="${FREEBSD_PLATFORMS}";; *) echo "Unsupported build environment" exit 1;; esac esac echo "Building ${TARGET} .sos for ${ARCH}";; *) echo "Unsupported build environment" exit;; esac ##################### # In the below functions: # $1 = gmp version # $2 = platform: such as athlon64 # $3 = basename: "jbigi" on Windows, "libjbigi" everywhere else # $4 = type/extension: windows = "dll". osx = "jnilib". Everything else = "so" # $5 = target: "linux", "freebsd", "kfreebsd", "osx", "windows", etc. # $6 = suffix: null if 32bit, _64 if 64bit make_static () { echo "Attempting .${4} creation for ${3}${5}${2}${6}" ../../build_jbigi.sh static || return 1 PLATFORM="${2}" # Some platforms have different build-time names from # what java and NativeBigInteger refers to them as. # Translate to the proper name here eval TRANSLATED_NAME=\$TRANSLATE_NAME_$PLATFORM if [ -n "$TRANSLATED_NAME" ]; then PLATFORM="${TRANSLATED_NAME}" fi cp ${3}.${4} ../../lib/net/i2p/util/${3}${5}${PLATFORM}${6}.${4} return 0 } make_file () { # Nonfatal bail out on Failed build. echo "Attempting build for ${3}${5}${2}" make -j && return 0 cd .. rm -R "$2" printf "\n\nFAILED! ${3}${5}${2} not made.\a" sleep 10 return 1 } configure_file () { printf "\n\n\nAttempting configure for ${3}${5}${2}${6}\n\n\n" if [ $BITS -eq 32 ] && [ "$2" = "none" ]; then unset ABI elif [ $BITS -eq 32 ] && [ "$2" != "none" ]; then export ABI=32 fi # Nonfatal bail out on unsupported platform. (cd ../../gmp-${1}; make clean) if [ "$TARGET" != "$BUILD_OS" ]; then # We're cross-compiling, supply a --host flag # Here we're making sure that the platform we're target is injected into # the HOST_CONFIGURE_FLAG string. The string looks somehing like this # before the eval: "$2_VENDOR_OS" # and this after: "x86_VENDOR_OS" eval HOST_CONFIGURE_FLAG=$HOST_CONFIGURE_FLAG echo "../../gmp-${1}/configure --host=${HOST_CONFIGURE_FLAG} --with-pic && return 0" ../../gmp-${1}/configure --host=${HOST_CONFIGURE_FLAG} --with-pic && return 0 else # We're not cross-compiling, we are however building # optimized versions for other platforms on our OS. echo "../../gmp-${1}/configure --build=${2}-${BUILD_OS} --with-pic && return 0" ../../gmp-${1}/configure --build=${2}-${BUILD_OS} --with-pic && return 0 fi cd .. rm -R "$2" printf "\n\nSorry, ${3}${5}${2} is not supported on your build environment.\a" sleep 10 return 1 } build_file () { configure_file "$1" "$2" "$3" "$4" "$5" "$6" && make_file "$1" "$2" "$3" "$4" "$5" "$6" && make_static "$1" "$2" "$3" "$4" "$5" "$6" && return 0 printf "\n\n\nError building static!\n\n\a" sleep 10 return 1 } if [ ! -d bin ]; then mkdir bin fi if [ ! -d lib/net/i2p/util ]; then mkdir -p lib/net/i2p/util fi for x in $PLATFORM_LIST do ( if [ ! -d bin/$x ]; then mkdir bin/$x cd bin/$x else cd bin/$x rm -Rf * fi build_file "$GMP_VER" "$x" "$NAME" "$TYPE" "-$TARGET-" "$SUFFIX" ) done echo "Success!" exit 0 # vim:fenc=utf-8:ai:si:ts=4:sw=4:et:nu