Hello I'm trying to build valgrind for android-arm. On Linux Mint 13 it fails with:
$ make
echo "# This is a generated file, composed of the following suppression rules:" > default.supp
echo "# " exp-sgcheck.supp xfree-3.supp xfree-4.supp glibc-2.X-drd.supp glibc-2.34567-NPTL-helgrind.supp glibc-2.X.supp >> default.supp
cat exp-sgcheck.supp xfree-3.supp xfree-4.supp glibc-2.X-drd.supp glibc-2.34567-NPTL-helgrind.supp glibc-2.X.supp >> default.supp
make all-recursive
make[1]: Entering directory `/home/matt/Desktop/valgrind/valgrind-3.8.1'
Making all in include
make[2]: Entering directory `/home/matt/Desktop/valgrind/valgrind-3.8.1/include'
make[2]: Nothing to be done for `all'.
make[2]: Leaving directory `/home/matt/Desktop/valgrind/valgrind-3.8.1/include'
Making all in VEX
make[2]: Entering directory `/home/matt/Desktop/valgrind/valgrind-3.8.1/VEX'
make all-am
make[3]: Entering directory `/home/matt/Desktop/valgrind/valgrind-3.8.1/VEX'
gcc -DHAVE_CONFIG_H -I. -I.. -I.. -I../include -I../VEX/pub -DVGA_arm=1 -DVGO_linux=1 -DVGP_arm_linux=1 -DVGPV_arm_linux_vanilla=1 -Ipriv -m32 -O2 -g -Wall -Wmissing-prototypes -Wshadow -Wpointer-arith -Wstrict-prototypes -Wmissing-declarations -Wno-format-zero-length -fno-strict-aliasing -fno-builtin -marm -mcpu=cortex-a8 -Wbad-function-cast -Wcast-qual -Wcast-align -fstrict-aliasing -Wno-long-long -Wno-pointer-sign -fno-stack-protector -MT libvex_arm_linux_a-main_globals.o -MD -MP -MF .deps/libvex_arm_linux_a-main_globals.Tpo -c -o libvex_arm_linux_a-main_globals.o `test -f 'priv/main_globals.c' || echo './'`priv/main_globals.c
gcc: warning: ‘-mcpu=’ is deprecated; use ‘-mtune=’ or ‘-march=’ instead
cc1: error: unrecognised command line option ‘-marm’
priv/main_globals.c:1:0: error: bad value (cortex-a8) for -mtune= switch
make[3]: *** [libvex_arm_linux_a-main_globals.o] Error 1
make[3]: Leaving directory `/home/matt/Desktop/valgrind/valgrind-3.8.1/VEX'
make[2]: *** [all] Error 2
make[2]: Leaving directory `/home/matt/Desktop/valgrind/valgrind-3.8.1/VEX'
make[1]: *** [all-recursive] Error 1
make[1]: Leaving directory `/home/matt/Desktop/valgrind/valgrind-3.8.1'
make: *** [all] Error 2
I am using ndk-r8e and valgrind 3.8.1. The configure ends with:
Maximum build arch: arm
Primary build arch: arm
Secondary build arch:
Build OS: linux
Primary build target: ARM_LINUX
Secondary build target:
Platform variant: vanilla
Primary -DVGPV string: -DVGPV_arm_linux_vanilla=1
Default supp files: exp-sgcheck.supp xfree-3.supp xfree-4.supp glibc-2.X-drd.supp glibc-2.34567-NPTL-helgrind.supp glibc-2.X.supp
What can I do to fix this? Alternatively, are there any pre-built android-arm valgrind binaries that I can use?
For building and installing Valgrind for Android use the bash script below, which I prefer to call build_valgrind.sh
To run with RUN_HELLO_JNI_THROUGH_VALGRIND=true you need two additional scripts (bootstrap_valgrind.sh, start_valgrind.sh) in the directory you run the script below from.
Running the script with the RUN_HELLO_JNI_THROUGH_VALGRIND=true flag will build the hello-jni application from the samples directory inside the Android NDK HOME, deploy it to the phone and run it through Valgrind, using either callgrind or memcheck tool, which you can specify in the start_valgrind.sh script.
The other two scripts are described here: https://stackoverflow.com/a/19235439/313113
Here's my directory structure:
|-- build_valgrind.sh (the script below)
|-- bootstrap_valgrind.sh (second script from https://stackoverflow.com/a/19235439/313113)
|-- start_valgrind.sh (first script from https://stackoverflow.com/a/19235439/313113)
|-- valgrind-3.10.0 (will be extracted by build_valgrind.sh)
`-- valgrind-3.10.0.tar.bz2 (will be downloaded by build_valgrind.sh)
I've tested that its working (memcheck and callgrind tools) on a Samsung Galaxy Nexus device with CyanogenMod 10.2.1 and Android 4.3.1 and CyanogenMod 11 20140804 snapshot, Android 4.4.4
You can see the file size of the generated output with: adb shell ls -lR "/sdcard/*grind*"
The build_valgrind.sh script:
#!/usr/bin/env bash
#set -x
function extract()
{
if [ -f "$1" ] ; then
case "$1" in
*.tar.bz2) tar xvjf "$1" ;;
*.tar.gz) tar xvzf "$1" ;;
*.bz2) bunzip2 "$1" ;;
*.rar) unrar x "$1" ;;
*.gz) gunzip "$1" ;;
*.tar) tar xvf "$1" ;;
*.tbz2) tar xvjf "$1" ;;
*.tgz) tar xvzf "$1" ;;
*.zip) unzip "$1" ;;
*.Z) uncompress "$1" ;;
*.7z) 7z x "$1" ;;
*) echo "$1 cannot be extracted via >extract<" ;;
esac
else
echo "'$1' is not a valid file"
fi
}
RUN_HELLO_JNI_THROUGH_VALGRIND=true
VALGRIND_VERSION="3.10.0"
VALGRIND_EXTENSION=".tar.bz2"
VALGRIND_DIRECTORY="valgrind-${VALGRIND_VERSION}"
VALGRIND_TARBALL="valgrind-${VALGRIND_VERSION}${VALGRIND_EXTENSION}"
# Only download Valgrind tarball again if not already downloaded
if [[ ! -f "${VALGRIND_TARBALL}" ]]; then
wget -v -nc "http://valgrind.org/downloads/${VALGRIND_TARBALL}"
fi
# Only extract Valgrind tarball again if not already extracted
if [[ ! -d "$VALGRIND_DIRECTORY" ]]; then
extract "$VALGRIND_TARBALL"
fi
# Ensure ANDROID_NDK_HOME is set
if [[ ! -z "$ANDROID_NDK_HOME" ]]; then
export ANDROID_NDK_HOME="$HOME/Software/Android/android-ndk-r10c"
fi
# Ensure ANDOID_SDK_HOME is set
if [[ ! -z "$ANDROID_SDK_HOME" ]]; then
export ANDROID_SDK_HOME="$HOME/Software/Android/android-sdk/"
fi
if [[ ! -d "$VALGRIND_DIRECTORY" ]];
then
echo "Problem with extracting Valgrind from $VALGRIND_TARBALL into $VALGRIND_DIRECTORY!!!"
exit -1
fi
# Move to extracted directory
cd "$VALGRIND_DIRECTORY"
# ARM Toolchain
ARCH_ABI="arm-linux-androideabi-4.9"
export AR="$ANDROID_NDK_HOME/toolchains/${ARCH_ABI}/prebuilt/linux-x86_64/bin/arm-linux-androideabi-ar"
export LD="$ANDROID_NDK_HOME/toolchains/${ARCH_ABI}/prebuilt/linux-x86_64/bin/arm-linux-androideabi-ld"
export CC="$ANDROID_NDK_HOME/toolchains/${ARCH_ABI}/prebuilt/linux-x86_64/bin/arm-linux-androideabi-gcc"
export CXX="$ANDROID_NDK_HOME/toolchains/${ARCH_ABI}/prebuilt/linux-x86_64/bin/arm-linux-androideabi-g++"
[[ ! -d "$ANDROID_NDK_HOME" || ! -f "$AR" || ! -f "$LD" || ! -f "$CC" || ! -f "$CXX" ]] && echo "Make sure AR, LD, CC, CXX variables are defined correctly. Ensure ANDROID_NDK_HOME is defined also" && exit -1
# Configure build
export HWKIND="nexus_s"
ANDROID_PLATFORM=android-18
export CPPFLAGS="--sysroot=$ANDROID_NDK_HOME/platforms/${ANDROID_PLATFORM}/arch-arm -DANDROID_HARDWARE_$HWKIND"
export CFLAGS="--sysroot=$ANDROID_NDK_HOME/platforms/${ANDROID_PLATFORM}/arch-arm"
# BUG: For some reason file command is unable to detect if the file does not exist with ! -f , it says it doesn't exist even when it does!!!
BUILD=false
if [[ "${VALGRIND_DIRECTORY}/Inst/data/local/Inst/bin/valgrind" = *"No such file or directory"* ]]; then
BUILD=true
fi
if [[ "$BUILD" = true ]];
then
./configure --prefix="/data/local/Inst" \
--host="armv7-unknown-linux" \
--target="armv7-unknown-linux" \
--with-tmpdir="/sdcard "
[[ $? -ne 0 ]] && echo "Can't configure!" && exit -1
# Determine the number of jobs (commands) to be run simultaneously by GNU Make
NO_CPU_CORES=$(grep -c ^processor /proc/cpuinfo)
if [ $NO_CPU_CORES -le 8 ]; then
JOBS=$(($NO_CPU_CORES+1))
else
JOBS=${NO_CPU_CORES}
fi
# Compile Valgrind
make -j "${JOBS}"
[[ $? -ne 0 ]] && echo "Can't compile!" && exit -1
# Install Valgrind locally
make -j "${JOBS}" install DESTDIR="$(pwd)/Inst"
[[ $? -ne 0 ]] && echo "Can't install!" && exit -1
fi
# Push local Valgrind installtion to the phone
if [[ $(adb shell ls -ld /data/local/Inst/bin/valgrind) = *"No such file or directory"* ]];
then
adb root
adb remount
adb shell "[ ! -d /data/local/Inst ] && mkdir /data/local/Inst"
adb push Inst /
adb shell "ls -l /data/local/Inst"
# Ensure Valgrind on the phone is running
adb shell "/data/local/Inst/bin/valgrind --version"
# Add Valgrind executable to PATH (this might fail)
adb shell "export PATH=$PATH:/data/local/Inst/bin/"
fi
if [ $RUN_HELLO_JNI_THROUGH_VALGRIND = true ]; then
PACKAGE="com.example.hellojni"
# The location of the Hello JNI sample application
HELLO_JNI_PATH="$ANDROID_NDK_HOME/samples/hello-jni"
pushd "$HELLO_JNI_PATH"
# Update build target to the desired Android SDK version
ANDROID_PROJECT_TARGET="android-18"
android update project --target "$ANDROID_PROJECT_TARGET" --path . --name hello-jni --subprojects
# Enable Android NDK build with Ant
echo '<?xml version="1.0" encoding="utf-8"?>
<project name="HelloJni" basedir="." default="debug">
<target name="-pre-build">
<exec executable="${ndk.dir}/ndk-build" failonerror="true"/>
</target>
<target name="clean" depends="android_rules.clean">
<exec executable="${ndk.dir}/ndk-build" failonerror="true">
<arg value="clean"/>
</exec>
</target>
</project>
' > "custom_rules.xml"
# Set NDK HOME for Ant (only if not already set)
if ! grep -P -q "ndk.dir=.+" "local.properties" ; then
echo -e "\nndk.dir=$ANDROID_NDK_HOME" >> "local.properties"
fi
# Fix for Java 8 warning (warning: [options] source value 1.5 is obsolete and will be removed in a future release)
echo "java.compilerargs=-Xlint:-options" >> "ant.properties"
# Workaround INSTALL_PARSE_FAILED_INCONSISTENT_CERTIFICATES error
adb uninstall "$PACKAGE"
# Build Hello JNI project in debug mode and install it on the device
ant clean && ant debug && ant installd
popd
cd ..
# Start HelloJNI app
adb shell am start -a android.intent.action.MAIN -n $PACKAGE/.HelloJni
# Make the script executable
chmod a+x bootstrap_valgrind.sh
# Run application through Valgrind on the phone
/usr/bin/env bash bootstrap_valgrind.sh
adb shell ls -lR "/sdcard/*grind*"
adb shell ls -lR "/storage/sdcard0/*grind*"
adb shell ls -lR "/storage/sdcard1/*grind*"
fi
exit 0
This gets valgrind to compile for me on linux. (using android-ndk-r8e and valgrind-3.8.1)
There was no need to run autogen.sh since I downloaded the tar ball from the website.
Also make sure the TOOLCHAIN=
line points to a valid toolchain.
export NDK_HOME=$HOME/Downloads/android-ndk-r8e
export HWKIND=generic
export TOOLCHAIN=$NDK_HOME/toolchains/arm-linux-androideabi-4.7/prebuilt/linux-x86_64/bin/arm-linux-androideabi
export AR=$TOOLCHAIN-ar
export LD=$TOOLCHAIN-ld
export CC=$TOOLCHAIN-gcc
CPPFLAGS="--sysroot=$NDK_HOME/platforms/android-14/arch-arm -DANDROID_HARDWARE_$HWKIND" \
CFLAGS="--sysroot=$NDK_HOME/platforms/android-14/arch-arm" \
./configure --prefix=/data/local/Inst \
--host=armv7-unknown-linux --target=armv7-unknown-linux \
--with-tmpdir=/sdcard
make
It eventually came up with a compile error saying
$NDK_HOME/platforms/android-14/arch-arm/usr/include/elf.h:58:3: error: unknown type name 'uint32_t'
It seem like someone forgot to add #include <stdint.h>
somewhere. To fix this I edited $NDK_HOME/platforms/android-14/arch-arm/usr/include/elf.h
and added #include <stdint.h>
to the include section of this header. NOTE: This is probably not the best fix but it is the one that I came up with that fixed the compilation errors.
On mac I was able to get it to compile up until the unknown type uint32_t
part by changing how the configure script checks the kernel version.
Inside the configure script search of a line kernel=`uname -r`
and change it to kernel=3.9.2
. (There are two kernel=`uname -r`
lines replace the first one or both if you feel like it)
This stops the configure script from looking at the host kernel when deciding how it should build valgrind. (uname -r
grabs the host kernel)
I believe adding the #include <stdint.h>
to elf.h
should work on mac to but I have not tested it.
in android tutorial one option is missed
RANLIB, after I set it - I finally compiled valgrind-3.11.0 on osx for android
#/bin/sh
echo "NKDROOT: " $NDKROOT
export ANRDOID_TOOLCHAIN="arm-linux-androideabi-4.9"
# Set up toolchain paths.
#
# For ARM
export AR=$NDKROOT/toolchains/$ANRDOID_TOOLCHAIN/prebuilt/darwin-x86_64/bin/arm-linux-androideabi-ar
export LD=$NDKROOT/toolchains/$ANRDOID_TOOLCHAIN/prebuilt/darwin-x86_64/bin/arm-linux-androideabi-ld
export CC=$NDKROOT/toolchains/$ANRDOID_TOOLCHAIN/prebuilt/darwin-x86_64/bin/arm-linux-androideabi-gcc
export CXX=$NDKROOT/toolchains/$ANRDOID_TOOLCHAIN/prebuilt/darwin-x86_64/bin/arm-linux-androideabi-g++
export RANLIB=$NDKROOT/toolchains/$ANRDOID_TOOLCHAIN/prebuilt/darwin-x86_64/bin/arm-linux-androideabi-ranlib
echo "AR: " $AR
echo "LD: " $LD
echo "CC: " $CC
echo "CXX: " $CXX
[[ ! -d "$NDKROOT" || ! -f "$AR" || ! -f "$LD" || ! -f "$CC" || ! -f "$CXX" ]] && echo "Make sure AR, LD, CC, CXX variables are defined correctly. Ensure NDKROOT is defined also" && exit -1
./autogen.sh
#if [ $? -ne 0 ]
#then
# exit 1
#else
# echo "autogen success!"
#fi
# for ARM
ANDROID_PLATFORM=android-3
ANDROID_SYSROOT="$NDKROOT/platforms/${ANDROID_PLATFORM}/arch-arm"
echo "SYSROOT: " $ANDROID_SYSROOT
export HWKIND=generic
export CPPFLAGS="--sysroot=$ANDROID_SYSROOT -DANDROID_HARDWARE_$HWKIND"
export CFLAGS="--sysroot=$ANDROID_SYSROOT -DANDROID_HARDWARE_$HWKIND"
export LDFLAGS="--sysroot=$ANDROID_SYSROOT -DANDROID_HARDWARE_$HWKIND"
export ARFLAGS="--sysroot=$ANDROID_SYSROOT -DANDROID_HARDWARE_$HWKIND"
./configure \
--prefix=/data/local/Inst \
--host=armv7-unknown-linux --target=armv7-unknown-linux \
--with-tmpdir=/sdcard
if [ $? -ne 0 ]
then
exit 1
else
echo "configure success!"
fi
# note: on android emulator, android-14 platform was also tested and works.
# It is not clear what this platform nr really is.
make -j7
if [ $? -ne 0 ]
then
exit 1
else
echo "build success!"
fi
make -j7 install DESTDIR=`pwd`/Inst
The problem I had was that the configure script was ignoring the environment variables. To configure the make file I instead did this:
sudo ./configure --prefix=/data/local/Inst --host=armv7-unknown-linux --target=armv7-unknown-linux --with-tmpdir=/sdcard0 CPPFLAGS="--sysroot=$NDKROOT/platforms/android-3/arch-arm -DANDROID_HARDWARE_$HWKIND" CFLAGS="--sysroot=$NDKROOT/platforms/android-3/arch-arm" CC=$CC LD=$LD AR=$AR
This ensures the variables are set properly and works with Linux Mint 13. It does not work on OSX Mountain Lion however. I'd advise anyone using OSX without access to a linux installation to try using linux on a virtual machine.
I got this error to when i trying build with r8e. But if you will use rXb-ndk (r7b or r8b) this error message won't apear.