#!/bin/sh # Copyright © 2014 # Waldemar Brodkorb # # Provided that these terms and disclaimer and all copyright notices # are retained or reproduced in an accompanying document, permission # is granted to deal in this work without restriction, including un‐ # limited rights to use, publicly perform, distribute, sell, modify, # merge, give away, or sublicence. # # This work is provided “AS IS” and WITHOUT WARRANTY of any kind, to # the utmost extent permitted by applicable law, neither express nor # implied; without malicious intent or gross negligence. In no event # may a licensor, author or contributor be held liable for indirect, # direct, other damage, loss, or other issues arising in any way out # of dealing in the work, even if advised of the possibility of such # damage or existence of a defect, except proven that it results out # of said person’s immediate fault when using the work as intended. # # Alternatively, this work may be distributed under the Terms of the # General Public License, any version as published by the Free Soft‐ # ware Foundation. # architecture specific notes: # mips64n32/mips64eln32 produces segfaults on boot # xtensa needs uImage format for initrd # sheb network card get no ip adk_arch_list_uclibcng="arm armhf m68k-nommu mips mipsel mips64 mips64eln32 mips64n32 mips64n64 mips64el mips64el mips64eln64 ppc-nofpu sh sheb sparc x86 x86_64 xtensa" adk_arch_list_uclibc="arm armhf m68k-nommu mips mipsel mips64 mips64eln32 mips64n32 mips64n64 mips64el mips64el mips64eln64 ppc-nofpu sh sheb sparc x86 x86_64" adk_arch_list_musl="arm armhf mips mipsel ppc-nofpu sh sheb x86 x86_64" adk_arch_list_glibc="aarch64 arm armhf mips mipsel mips64 mips64eln32 mips64n32 mips64n64 mips64el mips64el mips64eln64 ppc-nofpu sh sheb sparc x86 x86_64" br_arch_list_uclibcng="bfin arm mips mipsel mips64 mips64el ppc sh sparc x86 x86_64 xtensa" br_arch_list_uclibc="bfin arm mips mipsel mips64 mips64el ppc sh sparc x86 x86_64 xtensa" br_arch_list_musl="arm mips mipsel ppc sh x86 x86_64" br_arch_list_glibc="aarch64 arm mips mipsel mips64 mips64el ppc sh sparc x86 x86_64" topdir=$(pwd) tools='make git wget xz cpio tar awk sed' f=0 for tool in $tools; do if ! which $tool >/dev/null; then echo "Checking if $tool is installed... failed" f=1 fi done if [ $f -eq 1 ];then exit 1; fi help() { cat >&2 < -l -s -a Explanation: -v: vendor for buildsystem (openadk|buildroot) -l: c library to use (uclibc-ng|musl|glibc|uclibc) -a: architecture to check -u: update vendor source via git pull -s: use directory with source for C library -d: enable debug -c: clean build directory before build -n: set NTP server for test run -b: only run basic bootup test -t: run libc testsuite -p: run Linux test project (LTP) -h: help text EOF } clean=0 shell=0 update=0 debug=0 boot=0 ltp=0 test=0 gcc=0 ntp=time.fu-berlin.de while getopts "hgptumdcbn:a:v:s:l:" ch; do case $ch in b) boot=1 ;; p) ltp=1 ;; t) test=1 ;; m) shell=1 ;; g) gcc=1 ;; c) clean=1 ;; u) update=1 ;; s) source=$OPTARG ;; d) debug=1 ;; l) libc=$OPTARG ;; n) ntp=$OPTARG ;; a) archlist=$OPTARG ;; v) vendor=$OPTARG ;; h) help exit 1 ;; esac done shift $((OPTIND - 1)) if [ -z $vendor ];then echo "You need to provide a vendor/buildsystem" echo "Either openadk or buildroot is supported." exit 1 fi if [ -z $libc ];then echo "You need to provide a C library" echo "Either uclibc-ng, musl, glibc or uClibc is supported." exit 1 fi case $libc in uclibc-ng) version=1.0.0beta5 libver=uClibc-ng-${version} ;; uclibc) version=0.9.33.2 libver=uClibc-${version} ;; glibc) version=2.19 libver=glibc-${version} ;; musl) version=1.1.4 libver=musl-${version} ;; *) echo "c library not supported" exit 1 esac if [ -z $archlist ];then if [ $vendor = "openadk" ];then case $libc in uclibc-ng) archlist=$adk_arch_list_uclibcng ;; uclibc) archlist=$adk_arch_list_uclibc ;; glibc) archlist=$adk_arch_list_glibc ;; musl) archlist=$adk_arch_list_musl ;; *) exit 1 ;; esac fi if [ $vendor = "buildroot" ];then case $libc in uclibc-ng) archlist=$br_arch_list_uclibcng ;; uclibc) archlist=$br_arch_list_uclibc ;; glibc) archlist=$br_arch_list_glibc ;; musl) archlist=$br_arch_list_musl ;; *) exit 1 ;; esac fi fi case $vendor in openadk) echo "Using OpenADK to check $libc on $archlist" vendor_git=http://git.openadk.org/openadk.git ;; buildroot) echo "Using buildroot to check $libc on $archlist" vendor_git=http://git.buildroot.net/git/buildroot.git ;; *) echo "Vendor $vendor not supported" exit 1 ;; esac if [ ! -d $vendor ];then git clone $vendor_git if [ $? -ne 0 ];then echo "Cloning from $vendor_git failed." exit 1 fi if [ "$vendor" = "buildroot" ];then wget http://downloads.uclibc-ng.org/buildroot-uClibc-ng.patch (cd buildroot && patch -p1 <../buildroot-uClibc-ng.patch) fi else if [ $update -eq 1 ];then (cd $vendor && git pull) if [ $? -ne 0 ];then echo "Updating from $vendor_git failed." exit 1 fi fi fi if [ ! -z $source ];then usrc=$(mktemp -d /tmp/XXXX) cp -a $source $usrc/$libver echo "Creating source tarball $vendor/dl/${libver}.tar.xz" mkdir -p $topdir/$vendor/dl 2>/dev/null (cd $usrc && tar cJf $topdir/$vendor/dl/${libver}.tar.xz ${libver} ) fi runtest() { arch=$1 qemu=qemu-system-${arch} qemu_args= qemu_append="ntp_server=$ntp" if [ $debug -eq 0 ];then qemu_append="$qemu_append quiet" fi if [ $shell -eq 1 ];then qemu_append="$qemu_append shell" fi suffix= psuffix= libdir=lib march=${arch} case ${arch} in arm) cpu_arch=arm qemu_machine=vexpress-a9 qemu_args="${qemu_args} -cpu cortex-a9 -net user -net nic,model=lan9118" suffix=eabi psuffix=$suffix ;; armhf) cpu_arch=arm march=arm qemu=qemu-system-${cpu_arch} qemu_machine=vexpress-a9 qemu_args="${qemu_args} -cpu cortex-a9 -net user -net nic,model=lan9118" suffix=eabihf psuffix=$suffix ;; mips) cpu_arch=mips qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" ;; mipsel) cpu_arch=mipsel march=mips qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" ;; mips64) cpu_arch=mips64 qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" suffix=abi32 psuffix=o32 ;; mips64n32) cpu_arch=mips64 march=mips64 qemu=qemu-system-${cpu_arch} qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" suffix=abin32 psuffix=n32 ;; mips64n64) cpu_arch=mips64 march=mips64 qemu=qemu-system-${cpu_arch} qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" suffix=abi64 psuffix=n64 ;; mips64el) cpu_arch=mips64el march=mips64 qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" suffix=abi32 psuffix=o32 ;; mips64eln32) cpu_arch=mips64el march=mips64 qemu=qemu-system-${cpu_arch} qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" suffix=abin32 psuffix=n32 ;; mips64eln64) cpu_arch=mips64el march=mips64 qemu=qemu-system-${cpu_arch} qemu_machine=malta qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" suffix=abi64 psuffix=n64 ;; ppc-nofpu) cpu_arch=ppc march=ppc qemu=qemu-system-${cpu_arch} qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" qemu_machine=bamboo ;; ppc) cpu_arch=ppc march=ppc qemu=qemu-system-${cpu_arch} qemu_args="${qemu_args} -device e1000,netdev=adk0 -netdev user,id=adk0" qemu_machine=mac99 ;; powerpc64|ppc64) cpu_arch=ppc64 qemu=qemu-system-${cpu_arch} qemu_machine=pseries ;; sh) cpu_arch=sh4 qemu=qemu-system-${cpu_arch} qemu_machine=r2d qemu_args="${qemu_args} -monitor null -serial null -serial stdio" ;; sheb) cpu_arch=sh4eb march=sh qemu=qemu-system-${cpu_arch} qemu_machine=r2d qemu_args="${qemu_args} -monitor null -serial null -serial stdio" ;; sparc) cpu_arch=sparc qemu_machine=SS-5 ;; sparc64) cpu_arch=sparc64 qemu_machine=sun4u qemu_args="${qemu_args} -net nic,model=virtio -net user" ;; x86) cpu_arch=i686 qemu=qemu-system-i386 qemu_machine=pc qemu_args="${qemu_args} -cpu pentium2" ;; x86_64) cpu_arch=x86_64 qemu_machine=pc libdir=lib64 ;; x86_64_x32) cpu_arch=x86_64 qemu=qemu-system-${cpu_arch} qemu_machine=pc libdir=libx32 suffix=x32 ;; xtensa) cpu_arch=xtensa qemu=qemu-system-${cpu_arch} qemu_machine=lx60 ;; *) echo "architecture ${arch} not supported"; exit 1;; esac if ! which $qemu >/dev/null; then echo "Checking if $qemu is installed... failed" exit 1 fi qemuver=$(${qemu} -version|awk '{ print $4 }') if [ $(echo $qemuver |sed -e "s#\.##g" -e "s#,##") -lt 200 ];then echo "Your qemu version is too old. Please update to 2.0 or greater" exit 1 fi if [ "$libc" = "uclibc-ng" ];then prefix=uclibc else prefix=$libc fi cross=${cpu_arch}-${vendor}-linux-${prefix}${suffix} if [ -z $psuffix ];then TCPATH=${topdir}/${vendor}/toolchain_qemu-${march}_${libc}_${cpu_arch} else TCPATH=${topdir}/${vendor}/toolchain_qemu-${march}_${libc}_${cpu_arch}_${psuffix} fi export PATH="${TCPATH}/usr/bin:$PATH" if ! which ${cross}-gcc >/dev/null; then echo "Checking if ${cross}-gcc is installed... failed" exit 1 fi echo "Starting test for ${arch}" echo "Generating root filesystem for test run" root=$(mktemp -d /tmp/XXXX) if [ ! -f openadk/firmware/qemu-${march}_${libc}/qemu-${march}-${libc}-initramfsarchive.tar.gz ];then echo "No root filesystem available for architecture ${arch}" exit 1 fi tar -xf openadk/firmware/qemu-${march}_${libc}/qemu-${march}-${libc}-initramfsarchive.tar.gz -C $root if [ $2 -eq 0 ];then cat > ${root}/run.sh << EOF #!/bin/sh uname -a rdate -n \$ntp_server file /bin/busybox for i in \$(ls /lib/*.so|grep -v libgcc);do size \$i done exit EOF fi if [ $2 -eq 1 ];then cat > ${root}/run.sh << EOF #!/bin/sh uname -a rdate -n \$ntp_server /opt/ltp/runltp exit EOF fi if [ $2 -eq 2 ];then cat > ${root}/run.sh << EOF #!/bin/sh uname -a rdate -n \$ntp_server cd /opt/$libc/test CROSS_COMPILE=": ||" make UCLIBC_ONLY=y -k run exit EOF fi chmod u+x ${root}/run.sh kernel=openadk/firmware/qemu-${march}_${libc}/qemu-${march}-initramfsarchive-kernel echo "Creating initramfs filesystem" (cd $root; find . | cpio -o -C512 -Hnewc --quiet |xz --check=crc32 --stdout > ${topdir}/initramfs.${arch}) rm -rf $root echo "Now running the tests in qemu for architecture ${arch}" echo "${qemu} -M ${qemu_machine} ${qemu_args} -append ${qemu_append} -kernel ${kernel} -qmp tcp:127.0.0.1:4444,server,nowait -no-reboot -nographic -initrd initramfs.${arch}" ${qemu} -M ${qemu_machine} ${qemu_args} -append "${qemu_append}" -kernel ${kernel} -qmp tcp:127.0.0.1:4444,server,nowait -no-reboot -nographic -initrd initramfs.${arch} | tee REPORT.${arch} if [ $? -eq 0 ];then echo "Test for ${arch} finished. See REPORT.${arch}." echo else echo "Test failed for ${arch}." echo fi } create_buildroot_defconfig_arcle() { cat > configs/arcle_defconfig << EOD BR2_arcle=y BR2_TOOLCHAIN_BUILDROOT_UCLIBC_NG=y BR2_KERNEL_HEADERS_3_15=y BR2_DEFAULT_KERNEL_HEADERS="3.15.6" BR2_BINUTILS_VERSION_2_24=y BR2_GCC_VERSION_4_8_X=y BR2_TOOLCHAIN_HAS_THREADS=y EOD } create_buildroot_defconfig_arcbe() { cat > configs/arcbe_defconfig << EOD BR2_arcle=y BR2_TOOLCHAIN_BUILDROOT_UCLIBC_NG=y BR2_KERNEL_HEADERS_3_15=y BR2_DEFAULT_KERNEL_HEADERS="3.15.6" BR2_BINUTILS_VERSION_2_24=y BR2_GCC_VERSION_4_8_X=y BR2_TOOLCHAIN_HAS_THREADS=y EOD } create_buildroot_defconfig_bfin() { cat > configs/bfin_defconfig << EOD BR2_bfin=y BR2_BINFMT_FDPIC=y BR2_bf609=y BR2_TOOLCHAIN_BUILDROOT_UCLIBC_NG=y BR2_KERNEL_HEADERS_3_15=y BR2_DEFAULT_KERNEL_HEADERS="3.15.6" BR2_BINUTILS_VERSION_2_22=y BR2_GCC_VERSION_4_5_X=y BR2_TOOLCHAIN_HAS_THREADS=y EOD } build_buildroot() { cd buildroot case $1 in arcle) create_buildroot_defconfig_arcle make arcle_defconfig make clean all ;; arcbe) create_buildroot_defconfig_arcbe make arcbe_defconfig make clean all ;; arm) make qemu_arm_vexpress_defconfig make clean all ;; bfin) create_buildroot_defconfig_bfin make bfin_defconfig make clean all ;; mips) make qemu_mips_malta_defconfig make clean all ;; mipsel) make qemu_mipsel_malta_defconfig make clean all ;; mips64) make qemu_mips64_malta_defconfig make clean all ;; mips64el) make qemu_mips64el_malta_defconfig make clean all ;; ppc) make qemu_ppc_mpc8544ds_defconfig make clean all ;; sh) make qemu_sh4_r2d_defconfig make clean all ;; sparc) make qemu_sparc_ss10_defconfig make clean all ;; x86) make qemu_x86_defconfig make clean all ;; x86_64) make qemu_x86_64_defconfig make clean all ;; xtensa) make qemu_xtensa_lx60_defconfig make clean all ;; *) echo "architecture not supported in buildroot" exit 1 ;; esac } build_openadk() { cd openadk # start with a clean dir if [ $clean -eq 1 ];then make cleandir fi DEFAULT="ADK_TARGET_LIBC=$libc ADK_TARGET_FS=initramfsarchive ADK_TARGET_COLLECTION=test" if [ $debug -eq 1 ];then DEFAULT="$DEFAULT VERBOSE=1" fi if [ ! -z $source ];then DEFAULT="$DEFAULT ADK_NO_CHECKSUM=1" fi if [ $2 -eq 0 ];then DEFAULT="$DEFAULT ADK_TEST_BASE=y" fi if [ $2 -eq 1 ];then DEFAULT="$DEFAULT ADK_TEST_LTP=y" fi if [ $2 -eq 2 ];then case $libc in uclibc-ng) DEFAULT="$DEFAULT ADK_TEST_UCLIBC_NG_TESTSUITE=y" ;; uclibc) DEFAULT="$DEFAULT ADK_TEST_UCLIBC_TESTSUITE=y" ;; glibc) DEFAULT="$DEFAULT ADK_TEST_GLIBC_TESTSUITE=y" ;; musl) DEFAULT="$DEFAULT ADK_TEST_MUSL_TESTSUITE=y" ;; *) echo "test suite not available" exit 1 ;; esac make package=$libc clean fi if [ $2 -eq 3 ];then case $libc in uclibc-ng) DEFAULT="$DEFAULT ADK_TEST_UCLIBC_NG_NATIVE=y" ;; uclibc) DEFAULT="$DEFAULT ADK_TEST_UCLIBC_NATIVE=y" ;; musl) DEFAULT="$DEFAULT ADK_TEST_MUSL_NATIVE=y" ;; glibc) DEFAULT="$DEFAULT ADK_TEST_GLIBC_NATIVE=y" ;; *) echo "native build not available" exit 1 ;; esac fi case $1 in arm) make $DEFAULT ADK_TARGET_ARCH=arm ADK_TARGET_SYSTEM=qemu-arm ADK_TARGET_ABI=eabi ADK_TARGET_ENDIAN=little defconfig all ;; armhf) make $DEFAULT ADK_TARGET_ARCH=arm ADK_TARGET_SYSTEM=qemu-arm ADK_TARGET_ABI=eabihf ADK_TARGET_ENDIAN=little defconfig all ;; m68k-nommu) make $DEFAULT ADK_TARGET_ARCH=m68k ADK_TARGET_SYSTEM=qemu-m68k defconfig all ;; mips) make $DEFAULT ADK_TARGET_ARCH=mips ADK_TARGET_SYSTEM=qemu-mips ADK_TARGET_ENDIAN=big defconfig all ;; mipsel) make $DEFAULT ADK_TARGET_ARCH=mips ADK_TARGET_SYSTEM=qemu-mips ADK_TARGET_ENDIAN=little defconfig all ;; mips64) make $DEFAULT ADK_TARGET_ARCH=mips64 ADK_TARGET_SYSTEM=qemu-mips64 ADK_TARGET_ENDIAN=big ADK_TARGET_ABI=o32 defconfig all ;; mips64n32) make $DEFAULT ADK_TARGET_ARCH=mips64 ADK_TARGET_SYSTEM=qemu-mips64 ADK_TARGET_ENDIAN=big ADK_TARGET_ABI=n32 defconfig all ;; mips64n64) make $DEFAULT ADK_TARGET_ARCH=mips64 ADK_TARGET_SYSTEM=qemu-mips64 ADK_TARGET_ENDIAN=big ADK_TARGET_ABI=n64 defconfig all ;; mips64el) make $DEFAULT ADK_TARGET_ARCH=mips64 ADK_TARGET_SYSTEM=qemu-mips64 ADK_TARGET_ENDIAN=little ADK_TARGET_ABI=o32 defconfig all ;; mips64eln32) make $DEFAULT ADK_TARGET_ARCH=mips64 ADK_TARGET_SYSTEM=qemu-mips64 ADK_TARGET_ENDIAN=little ADK_TARGET_ABI=n32 defconfig all ;; mips64eln64) make $DEFAULT ADK_TARGET_ARCH=mips64 ADK_TARGET_SYSTEM=qemu-mips64 ADK_TARGET_ENDIAN=little ADK_TARGET_ABI=n64 defconfig all ;; ppc-nofpu) make $DEFAULT ADK_TARGET_ARCH=ppc ADK_TARGET_SYSTEM=qemu-ppc defconfig all ;; sh) make $DEFAULT ADK_TARGET_ARCH=sh ADK_TARGET_SYSTEM=qemu-sh ADK_TARGET_ENDIAN=little defconfig all ;; sheb) make $DEFAULT ADK_TARGET_ARCH=sh ADK_TARGET_SYSTEM=qemu-sh ADK_TARGET_ENDIAN=big defconfig all ;; *) make $DEFAULT ADK_TARGET_ARCH=$1 ADK_TARGET_SYSTEM=qemu-$1 defconfig all ;; esac if [ $? -ne 0 ];then echo "build failed" exit 1 fi cd .. } echo "compiling base system and toolchain" if [ "$vendor" = "buildroot" ];then for arch in ${archlist}; do build_buildroot $arch 0 done fi if [ "$vendor" = "openadk" ];then for arch in ${archlist}; do build_openadk $arch 99 if [ $boot -eq 1 ];then case $arch in m68k-nommu|ppc|sheb|xtensa|mips64eln32|mips64n32) echo "runtime tests disabled for $arch." ;; *) build_openadk $arch 0 runtest $arch 0 ;; esac fi if [ $ltp -eq 1 ];then case $arch in m68k-nommu|ppc|sheb|xtensa|mips64eln32|mips64n32) echo "runtime tests disabled for $arch." ;; *) build_openadk $arch 1 runtest $arch 1 ;; esac fi if [ $test -eq 1 ];then case $arch in m68k-nommu|ppc|sheb|xtensa|mips64eln32|mips64n32) echo "runtime tests disabled for $arch." ;; *) build_openadk $arch 2 runtest $arch 2 ;; esac fi if [ $gcc -eq 1 ];then case $arch in m68k-nommu|ppc|sheb|xtensa|mips64eln32|mips64n32) echo "runtime tests disabled for $arch." ;; *) build_openadk $arch 3 runtest $arch 3 ;; esac fi done fi echo "All tests finished." exit 0